CHEVROLET
FOREWORD
This manual includes procedures fo r diagnosis, maintenance and adjust
ments, m inor service operations, and removal and installation fo r com
ponents o f Chevrolet Light D uty Trucks. Procedures involving disassembly
and assembly o f major components fo r these vehicles are contained in the
1981 Chevrolet Passenger Car and Light D uty T ruck U n it Repair (Overhaul)
Manual. W iring diagrams fo r 1981 trucks are contained in a separate Wiring
Diagram Booklet.
The Section Index on the contents page enables the user to q u ickly locate
any desired section. A t the beginning o f each section containing more than
one major subject is a Table o f Contents, which gives the page number on
w hich each major subject begins. An index is placed at the beginning o f each
m ajor subject w ith in the section.
Summaries o f Special Tools, when required, and specifications are found
at end o f major sections.
When reference is made in this manual to a brand name, number, or
specific to o k an equivalent product may be used in place o f the recom
mended item.
This manual should be kept in a handy place fo r ready reference. If pro
perly used, it w ill enable the technician to better serve the owners o f Chev
rolet b u ilt vehicles.
A ll in fo rm a tio n, illustrations and specifications contained in this literature
are based on the latest product in fo rm a tio n available at the tim e o f p u b li
cation approval. The right is reserved to make changes at any tim e w ith o u t
notice.
IMPORTANT SAFETY NOTICE
Proper service and repair is important to the safe, reliable operation of all motor ve
hicles. The service procedures recommended by Chevrolet and described in this serv
ice manual are effective methods of performing service operations. Some of these
service operations require the use of tools specially designed for the purpose. The
special tools should be used when and as recommended.
It is important to note that this manual contains various CAUTIONS, and NOTICES
which should be carefully read in order to minimize the risk o f personal injury to
service personnel or the possibility that improper service methods will be followed
which may damage the vehicle. It also is important to understand that these CAU
TIONS and NOTICES are not exhaustive. Chevrolet could not possibly know,
evaluate and advise the service trade of all conceivable ways in which service might
be done or o f the possible hazardous consequences of each way. Consequently, Chev
rolet has not undertaken any such broad evaluation. Accordingly, anyone who uses a
service procedure or tool which is not recommended by Chevrolet must first satisfy
himself thoroughly that neither his safety nor the vehicle will be jeopardized by the
service method he selects.
TABLE OF CONTENTS
SECTION
GENERAL INFORMATION
General In fo rm a tio n
M a in te n a n ce and L u brication
OA
OB
HEATING AND AIR CONDITIONING
H eating and V e n tila tio n
A ir C o n d itio n in g
1981
LIGHT DUTY
TRUCK
(SERIES 10-35)
CHASSIS SERVICE
MANUAL
1A
1B
FRAME AND BUMPERS
Fram e and Body M ounts
B u m p e rs
Sheet M etal
B ody
2A
2B
2C
2D
STEERING, SUSPENSION, WHEELS
AND TIRES
Front A lig n m e n t
S te e rin g Linkage
M a n u a l S teering
P o w e r S te e rin g
S te e rin g C o lu m n
F ront S uspension
Rear S uspension
W h eel and Tires
3A
3B1
3B2
3B3
3B4
3C
3D
3E
AXLE
P ro p e lle r S h a ft and U niversal J o in t
Rear A xle
F ront W heel D rive
BRAKES
4A
4B
4C
5
ENGINE
CAUTION
These vehicles contains some parts dimensioned in the metric
system as well as in the customary system. Some fasteners are
metric and are very close in dimension to familiar customary fast
eners in the inch system. It is important to note that, during any
vehicle maintenance procedures, replacement fasteners must
have the same measurements and strength as those removed,
whether metric or customary. (Numbers on the heads of metric
bofts and on surfaces of metric nuts indicate their strength.
Customary bolts use radial lines for this purpose, while most
customary nuts do not have strength markings.) Mismatched or
incorrect fasteners can result in vehicle damage or malfunction, or
possibly personal injury. Therefore, fasteners removed from the
vehicle should be saved for re-use in the same locations whenever
possible. Where the fasteners are not satisfactory for re-use, care
should be taken to select a replacement that matches the original.
For information and assistance, see your dealer.
Engine
In-Line 6
S m all Block
M ark IV
5.7L(Z) 350 Diesel
Engine Cooling
Engine Fuel
M o d e l 1ME
M o d el 2SE
M o d el M 2 M E
M odel M 4M E
Fuel S ystem
Engine Electrical
Engine Emission Controls
Engine Exhaust
Engine P erform ance Specifications
6
6A1
6A4
6A5
6A6
6B
6C
6C1
6C2
6C3
6C4
6C5
6D
6E
6F
6G
TRANSMISSION
A u to m a tic
M a nual
C lutch
T ra n s fe r Case
7A
7B
7C
7E
ELECTRICAL — BODY AND CHASSIS
Lam ps and L ig h tin g
Electrical and Wiring
8A
8B
In s tru m e n t Panel and Gages
8C
ACCESSORIES
METRIC AND FASTENER INFORMATION
© 1980 General Motors Corporation
9
10
P r in te d in U . S .A .
GENERAL INFORMATION
OA-1
SECTION OA
GENERAL INFORMATION
CONTENTS OF THIS SECTION
G e n e ra l....................................................................................................................
Vehicle Identification N u m b e r.........................................................................
Service Parts Identification S tic k e r.................................................................
Vehicle L o a d in g ....................................................................................................
Engine Code N u m b e r.........................................................................................
U nit and Serial N um ber L ocations.................................................................
0-1
0-2
0-3
0-3
0-3
0-3
GENERAL
VEHICLE IDENTIFICATION NUMBER (VIN)
Inform ation to identify the vehicle and vehicle compo
nents appears in this section. Detailed specifications on
m ajor units are given at the end of each respective section in
this manual.
This is the legal identification of the vehicle. It appears
on a plate which is attached to the left top of the instrum ent
panel on CK and G truck and can be easily seen through the
windshield from outside the vehicle (Fig. 0A-1). On P10-2030 models, the plate is attached to the front of the dash and
toe panel to the left of steering column (Fig. 0A -2). The
V IN also appears on the Vehicle Certificates of Title and
Registration.
MFD. BY GENERAL MOTORS CORPORATION
CAWR
GAV,R REAR
INFLATION DATA FOR TIRES FURNISHED WITH VEHICLE
S H O W N ON V E H I C L E C E R T I F I C A T I O N L A B E L
Q
W A R R A N T Y V O ID E D IF L 0 A 0 E 0 IN E X C E S S OF R A T IN G S
Q
SE E O W N E R S M A N U A L FO R O T H E R L O A D IN G A N D IN F L A T IO N D A T A
EXAMPLE ONL Y
and G)
Fig. 0A-2--V.I.N. Rating Plate (P Model)
LIG H T T R U C K SERVICE M A N U A L
OA-2
GENERAL INFORMATION
VEHICLE IDENTIFICATION NUMBER
1GCEC14 0 9BF123456
NA TIO N OF ORIGIN
1
U .S .A .
2
CANADA
PLANT SEQUENTIAL NUMBER
MODEL YEAR
ASSEMBLY PLANT
CODE
M ANUFACTURER
G
G E N E R A L M O TO RS
MAKE AND TYPE
B
1981
C
1982
D
19 8 3
E
19 84
F
19 8 5
G
19 8 6
H
19 8 7
IN C O M P L E T E V E H IC L E
1
19 8 8
TRUCK
K
19 8 9
L
10 9 0
BUS (V A N )
M U L T IP U R P O S E PA SS V E H IC L E
M
ASSEM BLY PLAN T
CODE
ASSEM BLY PLANT
A
G M A D - LAKEW O O D
S
G M A D - ST
B
G M A D - B A L T IM O R E
V
G M T & C -- P O N T IA C
D
G M A D - D O R A V IL L E
Z
G M A D - FREM ONT *
1
GM OF C A N A D A - O SHAW A
F
'
C H E V R O L E T - F L IN T
L O U IS
J
G M A D - J A N E S V IL L E
3
C H E V R O L E T - D E T R O IT
K
G M A D - LE ED S '
4
GM OF C A N A D A - SCAR B O R O U G H
G M A D - A R L IN G T O N '
7
G M A D - LO R D S TO W N
R
• E L C A M IN O P L A N T S
1991
GVWR/BRAKE SYSTEM
CHECK D IG lT ]
GVW R
CODE
( IN P O U N D S )
3001
4001
5001
6001
7001
8001
9001
10001
14001
B
•c
D
E
F
■G
H
J
K
4000
5000
6000
7000
8000
9000
10000
14000
16000
BR A K E SYSTEM
ENGINE TYPE AND MAKE
TYPE
CODE
TRUCK SERIES
H Y D R A U L IC O N L Y
D IS P L A C E M E N T L IT R E S (C U IN )
D
4.1 L L 6 2 B B L (2 5 0 )
C H EVROLET
F
R PO
LE 3
5 .0 L V 8 4 B B L (3 0 5 I
CHEVROLET
C -K -G
LF3
C -K -G
LG 9
5 .0 L V 8 2 B B L (3 0 5 )
1
1 12 T O N
H
5 .0 L V 8 4 B B L (3 0 5 )
CHEVROLET
C -K -G
LE 9
2
3 /4 T O N
L
5 . 7 L V 8 4 B B L (3 5 0 )
C H EVROLET
C -K -G
LS 9
3
1 TO N
CHEVRO LET
8
M
5 .7 L V 8 4 B B L (3 5 0 )
1 12 T O N
P
5 .7 L V 8 2 B B L (3 5 0 I
C HEVROLET
CK
LF5
( E L C A M IN O )
W
7 .4 L V 8 4 B B L (4 5 4 )
C HEVROLET
C -K -P
LE 8
T
4 . 8 L L 6 1 B B L (2 9 2 )
C HEVROLET
C -K -P
L25
Z
5 .7 L V 8 D IE S E L (3 5 0 I
O L D S M O B IL E
CK
LF9
TRUCK BODY TYPE
1
H I C U B E /C U T A W A Y V A N
2
FORW ARD CONTRO L
C H A S S IS
3
FO U R DOOR CAB
TYPE
4
TW O D O O R C AB
C -K -G -P
LT9
(F O R E L C A M IN O O N L Y )
S E D A N P IC K U P
LINE AND CHASSIS TYPE
M O D ELS
G
G
In c lu d e s G V a n Bus.
L IN E
M O D ELS
CHEVROLET
In c lu d e s El C a m in o
CODE
M A K E (G M )
E N G IN E S O U R C E
V I . N.
CODE
A
TYPE
D IS P L A C E M E N T L IT R E S (C U IN )
M A K E (G M )
E N G IN E S O U R C E
3 . 8 L V 6 2 B B L (2 3 1 )
B U IC K
M ODEL
RPO
E L C A M IN O
LD 5
H
5 . 0 L V 8 4 B B L (3 0 5 )
C H EVROLET
E L C A M IN O
LG 4
C
C O N V E N T IO N A L C A B
(C l
4X 2
5
VAN
J
4 4 L V 8 2 B B L (2 6 7 )
C H EVROLET
E L C A M IN O
L39
K
C O N V E N T IO N A L C A B
(K )
4X 4
6
SUBURBAN
K
3 . 8 L V 6 2 B B L (2 2 9 )
CHEVR O LET
E L C A M IN O
LC 3
P
F O R W A R D C O N T R O L C H A S S IS
(P)
4 X 2
7
M O TO R HOME
G
V A N . SPORT V A N & C U T A W A Y V A N
(G )
4X 2
8
BLAZER
W
E L C A M IN O
(A P U )
4X 2
S T A K E /P L A T F O R M
Fig. 0A-3--Vehicle Identification Number
LIG H T T R U C K SE RV IC E M A N U A L
GENERAL INFORMATION
SERVICE PARTS IDENTIFICATION STICKER
The Service P arts Identification Sticker (Fig. OA-6) is
provided on all Truck models. On C and K models, the
identification sticker be located on the inside of the glove box
door or on G model, the sticker will be located on an inner
hood panel surface. On P models, the sticker is located on a
inner body panel.
T he p late lists the vehicle identification num ber,
wheelbase, and all Production options or Special Equipm ent
on the vehicle w hen it was shipped from the factory
including paint inform ation. ALWAYS REFER TO THIS
INFORMATION W HEN ORDERING PARTS.
VEHICLE LOADING
Vehicle loading m ust be controlled so weights do not
exceed the num bers shown on the Vehicle Identification
N um ber an d /o r R ating Plate for the vehicle.
A typical example of a truck in a loaded condition is
shown in Figure OA-7. N ote th a t the axle or G V W capabili
ties are not exceeded.
ENGINE CODE NUMBER
T he engine code n um ber indicates m an u factu rin g
plant, m onth and day of m anufacture, and transmission
type. A typical engine num ber would be F1210TTBB, which
would breakdown thus:
F - M anufacturing P lant (F-Flint, T -Tonaw anda)
12 - M onth of M anufacture (D ecem ber)
10 - Day of M anufacture (tenth)
T - Truck
TBB - Transm ission and engine type
OA-3
Axles
Chevrolet Built
• On 10 Series, the Code is stam ped on Top of Right
R ear Axle Tube.
• On 20-30 Series, the Code is stam ped on Top of the
Right R ear Axle Tube.
Dana Built
• On Front Axles, code is stam ped on Top R ear of Left
Axle Tube.
• On R ear Axles, code is stam ped on R ear Surface of
Right Axle Tube.
Transmissions (Fig. OA-6)
• On 3-Speed Transm issions (except Trem ec), the U nit
N um ber is located on Lower Left Side of Case Just
Below Cover.
• On Trem ec Transmissions, Unit N um ber is located on
Upper Left A ttachm ent Case (Top Side).
• On M uncie 4-Speeds, U nit N um ber is located on R ear
Face of Case below Retainer.
• On New Process 205 model 4-wheel drive transfer case,
a build date is on tag attached to front face of transfer
case.
• On A u to m atic 350 T ransm ission, U nit N u m b er is
Located on R ight R ear Vertical Surface of Oil Pan.
• On the A utom atic 400 Transmission, Serial N um ber is
Located on the Light Blue Plate on the R ight Side of
the Transmission.
UNIT AND SERIAL NUMBER LOCATIONS
For the convenience of service technicians and engi
neers when w riting up certain business papers such as
W arran ty Reports, Product Inform ation Reports, or report
ing product failures in any way, the location of the various
unit num bers have been indicated. These unit num bers and
th e ir prefix or suffix are necessary on these papers for
various reasons - such as accounting, follow-up on produc
tion, etc.
LO AD ED -M AXIM UM GVWR:
FRONT GAWR: 2944 LBS.
4900-LBS.
REAR GAWR: 2944 LBS.
The prefixes on certain units identify the plant in which
the unit was m anufactured and thereby perm its proper
follow-up of the plant involved to get corrections made when
necessary.
Always include the prefix in the num ber.
2219 lbs.
* Front Curb
Front Cargo &
284 lbs.
Pass. Load
2503 lbs.
*Rear Curb
1003 lbs.
Rear Cargo &
Pass. Load
1394 lbs.
2397 lbs.
TOTAL W EIGHT AT G RO UND :
4900 lbs.
*Curb weight equals the weight of the vehicle without driver,
passenger or cargo, but including fuel and coolant.
Fig. 0A-4--Service Parts Identification Plate
Fig. 0A-5--Typical Vehicle Loading Condition
LIG H T T R U C K SERVICE M A N U A L
OA-4
GENERAL INFORMATION
PRIMARY V .I.N .
LOCATION ( M l 5)
SECONDARY V .I.N . LOCATION
To be used only when
.suitable for stamping
PRIMARY V .I.N .
f \
LOCATION (MV4 or M38)
SECONDARY V .I.N . LOCATION
To be used only when
primary locationis not
suitable for stamping
PRIMARY V .I.N . LOCATION (M C I)
OPTIONAL V .I.N .
LOCATION (M20)
V .I.N . LOCATION (OPTIONAL) (M40)
V .I.N . LOCATION (M20)
V .I.N . LOCATION
(OPTIONAL) (M40)
V IE W
MANUAL
AUTOMATIC
Fig. 0A-6--Transmission V.I.N . Location
Engines (Fig. 0A>7)
• 6-Cylinder Engine U nit N um ber Located on Pad at
R ig h t H and Side o f C ylinder Block a t R ear of
D istributor.
• 8-Cylinder Gasoline Engine Code is (305, 350, 400
C ID ) Located on Pad im m ediately forward of right
hand cylinder head.
• 8-Cylinder Gasoline Engine (454 C ID ) Code is located
on a pad of the front top center of the engine block
im m ediately forward of the inlet manifold.
• 8-Cylinder Diesel Engine Code is on a label located on
rear face of the left valve cover.
LIG H T T R U C K SE RV IC E M A N U A L
Generators
G enerator U nit Serial N um ber is located on the Drive
End Fram e Below the P art N um ber.
Batteries
Battery Code N um ber is Located on Cell Cover Top of
Battery.
Starters
S ta rte r S erial N u m b er and Production D ate are
Stam ped on O uter Case, Toward Rear.
GENERAL INFORMATION
E N G IN E V .I.N .
E N G IN E V .I.N .
#
OA-5
E N G IN E
CASE PAD
(O PTIO NAL)
E N G IN E
V .I.N .
DISTRIBUTOR PAD
ENGINE
L6 ENGINE
E N G IN E V .I.N .
(OPTIO NAL)
V8 ENGINE — DIESEL
Fig. 0A-7-Engine V .I.N . Location
LIG H T T R U C K SERVICE M A N U A L
MAINTENANCE AND LUBRICATION
OB-1
SECTION OB
MAINTENANCE AND LUBRICATION
CONTENTS
M aintenance S c h e d u le ..................................................................................
Lubrication and G eneral M aintenance....................................................
Safety M aintenance......................................................................................
Emission Control M aintenance.............................................................
Specifications....................................................................................................
Recom m ended Fluids and L u b ric a n ts.....................................................
Fluid C ap acities.............................................................................................
OB-2
0B-5
OB-15
OB-16
0B-18
OB-18
OB-19
LIG H T T R U C K SE RV IC E M A N U A L
OB-2
OWNER'S SERVICE LOG (M iles) (km)
(Mee*a tt MHw (k>l Wfcklmwr Ocean FW-»t>
Item
No.
15,000
(24 000 km)
7.500
(12 000 km)
Services
lns#rt " on,h- 1
•I1<*••• m -v 5/7.500) m column
Closest To Mileage (km) When Service Is Performed.
22.500
(36 000 km)
30,000
(48 000 km)
37.500
(60 000 km)
45,000
(72 000 km)
S e c t io n A — L u b r ic a t io n a n d G e n e r a l M a in t e n a n c e
A -1
Every 12 M onths or 7 ,5 0 0 M iles
( 1 2 0 0 0 km )
Fig. OB-la--Maintenance Schedule, Gasoline, Light Duty Emissions, 49 States
See Explanation
Every 12 M onths or 1 5 ,0 0 0 M iles
( 2 4 0 0 0 km )
A -2
Every 1 0 0 ,0 0 0 M iles (1 6 0 0 0 0 km )
C lutch Pedal Free Travel Check/Adjust
X
x j
X
_Al
X
X 1
X
X
X
X
X
X
*1
X
X
X
X
X
A -3
*Engine Oil Change
X
A -4
’ E n gin e Oil Filter C h ange
X
A -5
‘ Chassis Lubrication
A -6
F ront W h eel D rive
A -7
Tire Rotation
A -8
R ear A x le Lubrication
A -9
A -1 0
Every 3 0 ,0 0 0 M iles ( 4 8 0 0 0 km )
‘ Fluid Levels Check
“C ooling System C h eck— See Explanation
X
X
W heel Bearing Repack
■
X
X
A -1 1
M anual Steering G ear Seals Check
X
A -1 2
Clutch Cross S haft Lubrication
X
A -1 3
A uto. Trans. Fluid & Filter Change
B-1
O w n er Safety Checks
X
X
X
X
X
X
B -2
Tire, W heel and Disc Brake Check
X
X
X
X
X
X
X
X
X
X
X
X
Suspension and Steering Check
X
X
X
X
X
X
Brake and Power Steering Check
X
X
X
X
X
S e c tio n B — S a f e t y M a in t e n a n c e
Every 1 2 M onths or 7 ,5 0 0 M iles
( 1 2 0 0 0 km )
B -3
B -4
B -5
B -6
Every 12 M o nths or 1 5 ,0 0 0 Miles
(2 4 0 0 0 km )
‘ Exhaust System Check
*D riv e Belt Check
X
X
X
X
B -7
Drum Brake and Parking Brake Check
X
X
X
B -8
Throttle Linkage Check
X
X
X
X
X
X
X
X
B -9
B-10
Bumper Check
•F u e l Cap, Tank and Lines Check
X
S e c tio n C — E m issio n C o n tro l M a in te n a n c e S c h e d u le 1 (S e e “ E x a m p le ” fo r A p p lic a tio n ) — E n qin e Fam ily 18F 2H A N Q R O nly
A t First 6 M onths or 7 ,5 0 0 M iles
( 1 2 0 0 0 k m )—Then at 18 M o n th /
2 2 ,5 0 0 M ile ( 3 6 0 0 0 km )
Intervals as Indicated in Log
Every 1 5 ,0 0 0 M iles
( 2 4 ,0 0 0 km )
Every 2 2 ,5 0 0 M iles (3 6 0 0 0 km )
Every 3 0 ,0 0 0 M iles (4 8 0 0 0 km )
C-1
Therm o. Controlled Air Cleaner Check
X
X
X
C -2
Carburetor Choke Check
X
X
X
C -3
Engine Idle Speed Adjustm ent
X
X
X
C -4
EFE System Check
X
X
X
C -5
Carburetor M ou n tin g Torque
X
X
X
C -6
Vacuum Advance System & Hoses Check
X
X
C -7
Fuel Filter Replacem ent
X
X
X
PC V System Check
X
X
X
C -8
PC V Valve & Filter Service
X
X
C -9
Spark Plug Wires Check
X
X
C -1 0
Idle Stop Solenoid an d /o r Dashpot Check
X
X
C -11
Spark Plug Replacem ent
•x
X
C-1 2
Engine Tim ing Adjust. & Distrib. Check
X
X
C -13
Air Cleaner Element Replacem ent
X
C -14
ECS System Check
X
C -1 5
EG R System Check
High Altitude Adiustment: Your 1981 General Motors vehicle has been certified to meet emission standards at low
altitude Certain vehicles sold for high altitude use have been adjusted prior to delivery for improved driveability and
emission control at high altitude. These vehicles may be identified by additional underhood tune-up label, "Supple-
X
mental Vehicle Emission Control Information.” Information regarding adjustment of your vehicle, if permitted, can be
obtained from the Consumer Relations Office shown in the Owner Assistance Section of your Owner's and Driver's
Manual. Include your Vehicle Identification Number in your request.
MAINTENANCE AND LUBRICATION
VEHICLE MAINTENANCE SCHEDULE
VEHICLE MAINTENANCE SCHEDULE
OWNER'S SERVICE LOG ( M i l . , I ( M
When To Ptrform Services
Item
No.
(M l.— •> MHm (kali WMrtmr Occm n Rfst)
30.000
(48 000 km)
22,500
(36 000 km)
15,000
(24 000 km)
7,500
(12 000 km)
Services
37,500
(60 000 km)
45.000
(72 000 km)
S e c t i o n A —L u b r ic a t io n a n d G e n t r a l M a in te n ance
A-1
Every 1 2 M o n th s or 7 ,5 0 0 M iles
‘ Fluid Levels Check
C lutch Pedal Free Travel Check/Adjust
A -2
Every 1 2 M o n th s or 1 5 ,0 0 0 M iles
( 2 4 0 0 0 km )
A -3
*Engine Oil Change
X
A -4
* 0 i l Filter Change
X
A -5
‘ Chassis Lubrication
A -6
F ront W h eel D rive
A -7
Tire Rotation
A -8
R ear A x le Lubrication
A -9
Every 1 0 0 .0 0 0 M iles (1 6 0 0 0 0 km )
X
'
X
J L L .........
X
X1
X
X
X
X
X
* x
X
X
X
X
. ..
X
X
•C o o lin g System C h eck— See Explanation
A -1 0
Every 3 0 ,0 0 0 M iles (4 8 0 0 0 km )
X |
W heel Bearing Repack
X
A -1 1
M anual Steering G ear Seals Check
X
A -1 2
Clutch Cross S haft Lubrication
X
A -1 3
A uto. Trans. Fluid & Filter Change
<
S e c t i o n B — S a f e t y M a in t e n e n c e
Every 1 2 M o n th s or 7 ,5 0 0 M iles
( 1 2 0 0 0 km )
B-1
O w n er Safety Checks
X
X
X
X
X
X
B -2
Tire, W heel and Disc Brake Check
X
X
X
X
X
X
X
X
X
X
X
X
Suspension and Steering Check
X
X
X
X
X
X
Brake and Power Steering Check
X
X
X
X
X
X
B -3
B -4
B -5
B -6
Every 1 2 M o n th s or 1 5 ,0 0 0 M iles
w U km j
‘ Exhaust System Check
X
•D riv e B elt C h eck (2)
B -7
Drum Brake and Parking Brake Check
X
X
X
B 8
Throttle Linkage Check
X
X
X
X
X
X
X
X
B -9
B-10
Bumper Check
*F u e l Cap, Tank and Lines Check
X
Se ction C — Em ission Control Maintenance Schedule I
A t firs t 6 M o n th s o r 7,5 0 0 M iles
(12 0 0 0 km ) — T h e n 2 4 -M o n th /
3 0 ,0 0 0 -M ile (48 000 km ) Intervals
as in d icate d in Log, Except C-2
a n d C-6, W h ich R e q u ire Service
at 4 5 ,0 0 0 M ile s (72 000 km )
Therm o. Controlled Air Cleaner Check
C -2
C a rb u reto r Choke & Hoses Check
X
C -3
Engine Idle Speed A djustm ent
X
C -4
EFE System Check
X
C -5
Carburetor M ou n tin g Torque
X
C -6
Vacuum Advance System & Hoses Check
C -7
E v ery 15,000 M ile s (24 000 km )
E v e ry 3 0 ,000 M ile s (48 000 km )
*
▲Also A Safety Service
X
C-1
X
X
----------
PCV System Check
X
xP
X
Spark Plug W ires Check
C -9
Idle Stop Solenoid an d /o r Dashpot Check
C -1 0
Spark Plug Replacem ent
C -11
Engine Tim ing Adjust & Distrib. Check
X
C -1 2
Air C le a n e r & PC V R e p la cem en t
E G R System Check
X
*AI»o An Emission Control Service
xT
X
X
PC V Valve R e p la cem en t
Hioh Altitude Adjustment: Your 1961 General Motors vehicle has been certified to meet emission standards at low
altitude. Certain vehicles sold for high altitude use have been adjusted prior to delivery for improved driveability and
emission control at high altitude. These vehicles may be identified by additional underhood tune-up label, "Supple
mental Vehicle Emission Control Information." Information regarding adjustment of your vehicle, if permitted, can be
obtained from the Consumer Relations Office shown in the Owner Assistance Section of your Owner's and Driver's
Manual. Indud* your Vehicle MentMcation Number in your request.
xt;
X
(1)
C -8
C -1 3
(1)
X
(1)
----
X
X (1)
(1)
X
(1) Only these emission control maintenance items are considered to be required maintenance as defined by the
California Air Resources Board (ARB) regulation and are, according to such regulation, the minimum maintenance an
owner in California must perform to fulfill the minimum requirements of the emission warranty. All other emission
maintenance items are recommended maintenance as defined by such regulation. General Motors urges that all
emission control maintenance items be performed.
(2) A separately driven air pump belt check is recommended but not required at 15,000 miles (24 000 km) and 45,000
miles (72 000 km).
MAINTENANCE AND LUBRICATION
Fig. OB-1 b--Maintenance Schedule, Gasoline, Light Duty Emissions, California
S e e Explanation
X
X
OB-3
OB-4
V-8 DIESEL FUELED ENGINE
S E C T IO N
A —
«*_
48,000
15,000
: 000 km)
1200 km)
(2,000
19,000
! 400 km)
13,000
! 800 km)
to
m
m
CO
7.000
1200 km)
° . §
n
CM
—
§ 1
(48 000 km)
at
u lc‘*' ■"*?Is5/Performed
d '5°0> '!!
ColumnMrTth'
Closest.D?V'
To Mileage
When Service
M.OOO
1600 km)
o o
°-s
18,000
1800 km)
E
o
15,000
1000 km)
12,000
1200 km)
Fig. 0B-2--Maintenance Schedule-Gasoline - Heavy Duty Emissions
600 km)
Services
(For D e ta ils , See Numbered Paragraphs)
6,000
Item
No.
3,000
When To Perforin Services
M a r t a m H H m /km . W W c k o m O ccan F t a )
800 km)
OWNER'S SERVICE LOG (Miles/km)
MAINTENANCE AND LUBRICATION
VEHICLE MAINTENANCE SCHEDULE
MAINTENANCE AND LUBRICATION
OB-5
VEHICLE MAINTENANCE SCHEDULE
Insert Montk. Day and Mileage (i.e. M ay 5 /8 ,9 0 0 ) la
Colamn Closest te Mileage When Service ia Performed.
OWNER'S SERVICE LOG (Miles/km)
To Perform Services
(Manilaor Milm/km. MThiclMiwr
OccanFiratl
W han
Item
No.
Services
(Far Details. Saa NumbaradParagraphs)
6.000
12.000
(9 600 km)
<19 200 km)
I t . 000
(21 100 km)
30 000
( U 000 km)
24.000
(31 400 km)
30.000
<57 OM km)
42 000
( (7 200 km )
41 0 M
(70 I N km)
S e c t io n A — L u b r ic a t io n a n d G e n e r a l M a in t e n a n c e
Every 4
m o n th s o r 6 ,0 0 0 m ile s
(9 6 0 0 k m )
A -1
•C h a s s is L u b ric a tio n
X
X
X
X
X
X
X
X
A -2
• F lu id L e vels C he c k
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
A -5
‘ E n g in e O il C h a n g e
X
X
X
X
X
X
X
X
A -6
*E n g in e O il F ilte r C h a n g e
X
A -3
A -4
See E x p la n a tio n
X
F ro n t W h e e l D riv e
C lu tc h P e d a l F ree T ra v e l C h e c k /A d ju s t
A -7
T ire R o ta tio n
A 8
R ea r A x le L u b r ic a tio n
X
X
X
X
X
X
A -9
W h e e l B e a rin g s R ep ack
X
X
X
X
A -1 0
C o o lin g S ystem C he c k
X
X
X
X
Every 2 4 ,0 0 0 m ile s ( 3 8 4 0 0 k m )
A -1 1
A u to . T rans. F lu id & F ilte r C ha ng e
Eve ry 3 6 ,0 0 0 m ile s (5 7 6 0 0 k m )
A -1 2
M a n u a l S te e rin g G e ar C he c k
X
A -1 3
C lu tc h C ro ss S h a ft L u b ric a tio n
X
B-1
O w n e r S a fe ty C h e cks
X
X
X
X
X
X
X
X
B -2
T ire . W h e e l a n d D is c B rake C he c k (1)
X
X
X
X
X
X
X
X
(1 9 2 0 0 k m )
S e c t io n
Every 4 m o n th s o r 6 ,0 0 0 m ile s
(9 6 0 0 km )
B -3
B -4
B 5
X
X
B—S a f e t y
M a in t e n a n c e
X
X
X
X
X
X
X
X
S u s p e n s io n a n d S te e rin g C he c k
X
X
X
X
X
X
X
X
Brake s an d P o w e r S te e rin g C he c k
X
X
X
X
X
X
X
X
• E x h a u s t S ystem C he c k
X
Eve ry 1 2 ,0 0 0 m ile s ( 1 9 2 0 0 k m )
B -6
X
X
X
Every 1 2 m o n th s o r 1 2 ,0 0 0 m ile s
(1 9 2 0 0 k m )
B -7
D ru m B rake s a n d P a rk in g B rake C he c k
X
X
X
X
B -8
T h ro ttle L in k a g e C he c k
X
X
X
X
B -9
B u m p e rs
X
X
X
X
E v e ry 2 4 m o n th s o r 24 ,0 0 0 m ile s
(38 40 0 k m )
B -10
*E n g in e D riv e B e lts C he c k
•F u e l C ap , L in e s a n d T a n k C he ck
X
X
S e c t io n C — E m is s io n C o n t r o l M a in t e n a n c e
A t 1s t 4 m o n th s o r 6 ,0 0 0 m ile s
( 9 6 0 0 k m ) — th e n a t 1 2 m o n th /
12 ,0 00 m il e (19 2 0 0 k m )in te r v a ls
C -1
E n g in e Id le S p ee d A d ju s tm e n t
X
X
X
X
X
C -2
Id le S to p S o le n o id C he c k
X
X
X
X
X
E very 1 2 ,0 0 0 m ile s (1 9 2 0 0 k m )
C -3
S p ark P lu g W ire C h e c k & P lu g R e p la c e m e n t
X
X
X
X
C -4
* E n g in e T im in g A d ju s t. & D is trib u to r C h e ck
X
X
X
X
C -5
• A ir C lea ne r E le m e nt R ep lac e m e nt
X
X
X
X
X
X
X
X
Every 12 m o n th s o r 1 2 ,0 0 0 m ile s
(1 9 20 0 km )
C -6
C a rb u re to r M o u n tin g T o rq u e
C -7
•T h e r m o . C o n tro lle d A ir C lea ne r C h e c k
X
X
X
X
C -8
• M a n if o ld H ea t V a lv e C he c k
X
X
X
X
C -9
C a rb u re to r F ue l F ilte r R e p la c e m e n t
X
X
X
X
C -1 0
T h ro ttle R e tu rn C o n tro l C h e c k
X
X
X
X
C -1 1
PC V S y s te m C h e c k
X
X
X
X
— PC V V a lv e & F ilter S e rvice
E very 2 4 m o n th s or
2 4 ,0 0 0 m ile s ( 3 8 4 0 0 k m )
•A ls o A S a fe ty S e rvice
X
X
C -1 2
ECS S ystem C he ck
X
X
C -13
E n gin e Id le M ix tu r e A d ju s t (4 .8 L. L - 6 o n ly )
X
X
C -14
EFE System C he c k
X
X
C -1 5
V a c u u m A d v a n c e S ystem C he ck
X
X
C -1 6
C a rb u re to r C h o k e C he ck
X
X
*A ls o A n E m is s ion C o n tro l S e rv ic e
* A ls o a N o is e E m is s io n C o n tr o l S e rv ic e
(1) F o r v e h ic le s w ith d u a l w h e e ls , r e fe r to te x t B -2 f o r e a r lie r m a in te n a n c e .
Fig. 0B-3--Maintenance Schedule - Diesel
MAINTENANCE SCHEDULE
T his is an explanation o f th e service listed in the
Vehicle M aintenance Schedule.
N O R M A L V E H IC L E U S E -T h e m ain ten an ce in
structions contained in the m aintenance schedule are based
on the assum ption th a t the vehicle will be used as designed:
• To carry passengers and cargo within the lim itations
indicated on the T ire Placard located on the edge of the
driver’s door,
• on reasonable road su rfaces w ithin legal o perating
limits,
• on a daily basis, as a general rule, for at least several
miles (km ), and
• O n unleaded gasoline (gasoline light duty emission
only).
SECTION A
LUBE & GENERAL MAINTENANCE
A -l Fluid Levels
Check battery and the following fluid levels:
Battery Care
The original equipm ent battery (two batteries on diesel
engine) needs no periodic m aintenance. Its top is perm a
nently sealed (except for two small vent holes) and has no
filler caps. W ater will never have to be added.
The h y drom eter (te st indicator) in the top of the
battery provides inform ation for testing purposes only. See
Section 6D for battery test procedures.
U nusual operating conditions will require more fre
quent vehicle m aintenance as specified in the respective
sections.
LIG H T T R U C K SERVICE M A N U A L
OB-6
MAINTENANCE AND LUBRICATION
Jump Starting
CAUTION:Batteries produce explosive gases, cor
rosive acid and levels of electrical current high
enough to cause burns. To lessen the chance of
personal injury or property damage, the instruc
tions below must be followed exactly.
• Always wear eye protection or shield your eyes when
working near any battery. Do not lean over a battery.
Remove all m etal jewelry.
• N ever expose a b a tte ry to open flames or electric
sparks. Also, do not smoke near a battery.
• Do not allow b attery acid to contact eyes, skin, fabrics
or painted surfaces. F L U S H A N Y C O N T A C T E D
A R E A W IT H W A T E R IM M E D IA T E L Y A N D
T H O R O U G H L Y . G E T M E D IC A L H E L P IF EY ES
ARE A FFECTED .
• Be sure the ju m p er cables or clam ps to be used for jum p
starting do not have loose or missing insulation. Do not
proceed if suitable cables are not available.
• T his vehicle has a 12-volt b a tte ry and a negative
ground electrical system. M ake sure th at the other
vehicle also has a 12-volt b attery and th at it is the
negative (black
te rm in a l w hich is grounded
(attached to the engine block). Its ow ner’s m anual may
give you th a t inform ation. Do not try to jum p start if
you are unsure of the other vehicle’s voltage or ground
(or if the other vehicle’s voltage an d /o r ground are
different from your vehicle).
• If either battery has filler caps, check the fluid level.
(Do not check with an open flame.) If low, fill to the
proper level with clear drinking w ater. Replace all caps
before jum p starting.
• Do not allow m etal tools to contact both the positive
(red " + ") b attery term inal (or any m etal connected to
this term inal) and any other m etal on either vehicle at
th e sam e tim e. M ake certain when a tta c h in g the
jum per cable clam ps to the positive .term inals of the
batteries th at neither clam p contacts any other m etal.
• Always make the final connection to ground (a solid,
stationary, m etallic object) on the engine at least 450
m illim eters (18 inches) from the battery.
fluid. See section on power steering system when
checking fluid level or adding fluid.
NOTICE: Power steering fluid and brake fluid cannot be
mixed, since seat dam age may result.
Power Steering System
(Also a Safety Service)
Check the fluid level in the power steering pum p at
each oil change and add G M Power Steering FLuid (G M
1050017) or equivalent as needed (Fig. OB-4):
• If fluid is w arm ed up (about 150°F or 6 6 °C -h o t to the
touch), it should be between " H o t" and "C old" marks
on the filler cap indcator.
• If cool (about 70°F or 21°C), fluid should be between
"A d d " and "C old" marks.
Fluid does not need periodic changing.
Rear Axle (Standard) Lubricant
Check lubricant level. Add lubricant, if necessary, to
fill to level of filler plug hole. Use SA E 80W GL-5 or SA E
80W -90 GL-5 or G M 1052271 /1052272 gear lubricant. For
those vehicles driven in C anada, use SA E 80W GL-5 gear
lubricant.
Rear Axle (Limited-Slip) Lubricant
Check lubricant level. Add lubricant, if necessary, to
fill to level of filler plug hole. Use gear lubricant GM
1052271/1052272 or equivalent.
Automatic Transmission Fluid
Use only auto m atic transm ission fluid labeled
D E X R O N ® -II or equivalent.
Check the autom atic transmission fluid level at each
engine oil change period. Overfilling can cause foaming and
loss of fluid. Transmission dam age can result. Low fluid
level can cause slipping or loss of drive.
A utom atic transmissions are often overfilled because
the fluid level is checked when the fluid is cold. W hen cold,
the dipstick shows th at fluid should be added. However, the
Brake Master Cylinder
(Also a Safety Service)
Check fluid level in each reservoir and m aintain 1/4"
below lowest edge of each filler opening with Delco Suprem e
No. 11 or DOT-3 hydraulic brake fluid, or equivalent.
A low fluid level in the brake m aster cylinder can
indicate worn disc b rak e pads, and should be checked
accordingly.
Hydro-boost Brake System Hydraulic Pump
1. Vehicles Equipped W ith Power Steering.
• On vehicles equipped with power steering, the power
steering pump is also used as the Hydro-boost pump.
See section on power steering system when checking
fluid level or adding fluid.
2. Vehicles Equipped W ith M anual Steering.
• T he H ydro-boost pum p installed in vehicles
equipped with m anual steering uses power steering
L IG H T T R U C K SE RV IC E M A N U A L
Fig. 0B-4--Power Steering Filler Cap
MAINTENANCE AND LUBRICATION
OB-7
low reading is normal, the level will rise as the fluid gets
warm. The fluid level will increase more than 3/4 inch
(19m m ) as fluid warm s up from 60°F to 180°F (16°C to
82°C).
• Use a fluid such as G M Optikleen or equivalent to help
prevent freezing dam age, and for better cleaning.
C heck th e transm ission fluid level w ith the engine
running, the shift lever in " P a r k ", and the vehicle level.
• In cold weather, warm the windshield with the defrosters
before using the washer--to help prevent icing that may
block the driver’s vision.
If the vehicle has ju st been driven for a long tim e at
high speed or in city traffic in hot w eather, or if the vehicle
has been pulling a trailer, the correct fluid level cannot be
read. W a it until th e fluid has cooled down (ab o u t 30
m inutes).
Remove the dipstick. C arefully touch the wet end of the
dipstick to find out if the fluid is cool, w arm or hot. W ipe it
clean and push it back in until cap seats. Pull out the
dipstick and read the fluid level (fig. OB-5).
•
If it felt cool, about room tem perature, the level should
be 1/8 to 3/8 inch (3 to 10mm) below the "A d d " m ark.
The dipstick has two dim ples below the "A d d " m ark to
show this range.
• If it felt warm , the level should be close to the "A d d "
m ark (either above or below).
• If it was too hot to hold, the level should be at the
"F u ll" m ark.
• It takes only one pint (0.5 liter) to raise level from
"A d d " to "F u ll" with a hot transm ission.
M anual Transmission Lubricant
C heck lubricant level. A dd lubricant, if necessary, to
fill to level of filler plug hole.
U se SA E 80W G L-5 or S A E 80W -90 G L-5 gear
lubricant. For those vehicles driven in C anada, use SA E
80W G L-5 gear lubricant.
• Do not use ra d ia to r an tifreeze in the w indshield
washer; it could cause paint dam age.
Cooling System Care
Do not remove radiator cap to check coolant level.
Instead, check by looking at the "see through" coolant
recovery tank. Level should be at the "F ull C old" m ark or
the recovery tank when the system is cold; and at the "Full
H ot" m ark during engine operation. Add a 50/50 mixture
of a good quality ethylene glycol antifreeze and w ater to the
recovery tank when more coolant is needed. If frequent
additions are needed, cooling system.
NOTICE: If the proper quality antifreeze is used, there is
no need to add extra inhibitors or additives th at claim
to improve the system. They may be harm ful to the
proper operation of the system, and are an unnecessary
expense.
A-2 Manual Transmission Clutch Adjustment
C lutch adjustm ent should be checked and adjusted as
necessary to com pensate for clutch facing wear. To check,
depress pedal by hand until resistance is felt. Free travel
should be approxim ately one to one and a half inches; if very
little or no free travel is evident, clutch a d ju stm en t is
required.
A-3 and A-4 Engine Oil and Filter
(Also an Emission Control Service)
Engine Oil and Filter Recommendations
Windshield Washer Fluid
(Also a Safety Service)
Fill the w asher ja r only 3 /4 full during the w inter to
allow for expansion if th e te m p e ra tu re should fall low
enough to freeze the solution.
• C heck the w asher fluid level re g u la rly -d o it often when
the w eather is bad.
Gasoline Engine
• Engine oils are labeled on the containers with various
A PI (A m erican Petroleum Institute) designations of
quality.
• Use only S F q u ality engine oils (see m arkings on
containers).
• The oil and filter change intervals for the engine is
based on the use of SF-quality oils and high quality
filters. Using oils other than SF-quality oils, or oil
change intervals longer than listed, could reduce engine
life and m ight affect w arranty.
• The engine was filled with an S F quality engine oil
when it was built. You do not have to change this oil
before the suggested change period.
• Change oil each 7,500 miles (12 000 km) or once a year
for light duty emissions service, each 6,000 miles (9 600
km) or 4 m onths for heavy duty emissions service,
whichever occurs first.
LIG H T T R U C K SE RV IC E M A N U A L
OB-8
MAINTENANCE AND LUBRICATION
• Change oil filter:
Light Duty Emissions- Replace at the first oil change
and then every second oil change if mileage 7,500
miles (12 000 km) determines oil change. If time (12
months) determines oil change, or you change the oil
at 3,000 miles (4 800 km) or 3 months, replace filter
at each oil change.
Heavy Duty Em issions- Replace at the first oil
change, and then every second oil change if mileage
6,000 miles (9 600 km) determines oil change. If
tim e (4 m onths) determines oil change, or you
change the oil at 3,000 miles (4 800 km) or 2 months,
replace filter at each oil change.
• Change oil and filter each 3,000 miles (4 800 km) or 3
months (light duty emissions) or 2 months (heavy duty
emission service) if:
• Driving in dusty areas
• Pulling a trailer
• Frequent idling or idling for long periods
• Driving 4 miles (6 km) or less in freezing weather, or
other short trips in cold weather, where the engine
does not thoroughly warm up.
• After driving in a dust storm, change the oil and filter
as soon as possible.
Engine Oil Additives - The engine should not need these
extra engine oil helpers or additives if SF quality engine oil
is used and changed as suggested. If you think your engine
has an oil related problem, refer to Section 6A.
can, be sure not to confuse the S E designation with the
letters " SA E ", which m ay also appear on the can.
• It is V ER Y IM P O R T A N T to change the oil and filter
every 3,000 miles (4 800 km ). Because of the way a
diesel engine operates, contam inants build up in the oil
faster than in a gasoline engine which can cause engine
wear an d /o r dam age.
• Change the oil and filter soon after driving in a dust
storm.
• Single viscosity grade oils (such as SA E 30) are more
satisfacto ry th an m ulti-viscosity oils (such as SA E
10W -30) for sustained high-speed driving.
The oil and filter change intervals for a diesel engine
are based on the use of " S F /C C " or " S F /C D " quality oils
and quality oil filters. Use of oils other than " S F /C C " or
" S F /C D " or oil and filter change intervals longer than
3,000 miles (4 800 km) could reduce engine life and may
affect w arranty.
The diesel engine was filled with a quality engine oil
when it was built. You do not have to change the oil before
the recommended change interval. Keep in m ind the engine
may use more oil when it is new. Check the oil level more
often when the engine is new.
Engine Oil Additives - Do not use any supplem ental
additives. Using oil additives may cause engine dam age and
may affect w arranty. If you think the engine has an oil
related problem, see Section 6A.
RECOMMENDED SAE VISCOSITY GRADES
Diesel Engine
Use O N LY engine oils labeled with the A.P.I. (Ameri
can Petroleum Institute) designations "SF/C C " or "SF/
CD ". Do not use any other type of oil. The A.P.I. designa
tions are listed somewhere on the oil can, usually on the top
or label. The A.P.I. has several designations, such as: SC,
SD , SE, CB, CC, CD.
Several different designations may appear on the can.
Be sure the oil used has either the "SF/C C " or "SF/CD"
designations, regardless of the order in which they appear on
the oil can.
Using any type of oil other than "SF/C C " or "SF/
CD" may affect warranty.
NOTICE: Do N O T use engine oils labeled only SE or
only CC. These oils will not give the protection and
lubrication of diesel engine needs. When reading the
LIG H T T R U C K SE RV IC E M A N U A L
5W-20
°C-30
--- r—
-2 0
20_
-1 0
40
_L_
—I—
10
—r~
100
T
40
30
TEMPERATURE RANGE ANTICIPATED BEFORE NEXT OIL CHANGE
.20
NOTICE: Do not use SAE 5W -20 oils for continuous
high-speed driving.
Fig. OB-6--Oil Viscosity Chart (Gasoline)
MAINTENANCE AND LUBRICATION
Oil Viscosity (Figs. OB-6 and 7)
Engine oil viscosity (thickness) has an effect on fuel
economy. Lower viscosity engine oils can provide increased
fuel economy; however, higher tem perature w eather condi
tions require higher viscosity engine oils for satisfactory
lub ricatio n . Figures OB-6 and OB-7 lists the engine oil
viscosities th a t will provide the best balance of fuel econ
omy, engine life, and oil economy.
Checking Oil Level
•
Warm- The best tim e to check the engine oil level is
when the oil is warm , such as during a fuel stop. First,
allow about 5 m inutes for the oil to drain back to the oil
pan. Then pull the dipstick out, wipe it clean, and push
it back down all the way. Now pull the dipstick out and
look a t the oil level on the dipstick. Some dipsticks are
m ark ed w ith " A d d " and " F u ll" lines. O th ers are
m arked "A dd 1 Q t" and "O perating R an g e". In all
cases, keep the oil level above the "A dd" line. Push the
dipstick back down all the way after taking the reading.
A dd oil if needed.
• Cold- If you check the oil level when the oil is cold, do
not run the engine first. T he cold oil will not drain back
to the pan fast enough to give a tru e oil level.
a. On C20, G 30 and P20, lubricate every 4 m onths or
6,000 miles (9 600 km).
b. On all other vehicles, lubricate every 12 m onths or
7,500 miles (12 000 km).
M aintain correct front end alignm ent to provide easy
steering, longer tire life, and driving stability.
Check control arm bushings and ball joints for wear.
L ubricate tie rods, upper and lower control arm s, and
ball jo in ts a t fittings w ith w ater resistan t E P chassis
lubricant which m eets G eneral M otors Specification G M
6 0 3 1M. L ubricate every 3 m onths (Light D uty), 2 months
(H eavy D uty and D iesel), or 3,000 miles (4 800 km)
whichever occurs first, under the following conditions:
• Driving in dusty or m uddy conditions.
• Extensive off-road use.
Ball joints m ust be at 10°F (-12°C) or more before
lubricating.
USE THESE SAE VISCOSITY GRADES
I
A-5 Chassis Lubrication (Figs. OB-8 and 9)
Large fluid loss in any of these units m ay point out a
problem. R epair these problems prom ptly.
Steering Linkage and Suspension
SAE 30
WSAE 10W-30
°F -20
I
L ubricate the following system or units:
OB-9
C -30
0
20
i i-----------1—
-20
-10
I
32 40
'----------(—
0
60
■-------- 1-------- 1—
10
80
i--------- 1—
20
100
i--------- L——i---------
30
40
•FOR SUSTAINED HIGH SPEED DRIVING ABOVE
32°F (O't) USE SAE 30 GRADE.
TEMPERATURE RANGE YOU EXPECT BEFORE NEXT OIL CHANGE
(Also a Safety Service)
L ubrication Intervals
Fig. OB-7--ON Viscosity Chart (Diesel)
LIG H T T R U C K SERVICE M A N U A L
OB-10
MAINTENANCE AND LUBRICATION
5
Lower C ontrol Arms
Upper C ontrol Arms
Upper and Lower Control
Arm Ball Joints
Intermediate Steering
Shaft (PA10)
Tie Rod Ends
1
2
3
4
5
A ir Cleaner
C ontrol Linkage Points
Tie Rod Ends
Wheel Bearings
Steering Gear
1
2
3
4
6
7
8
9
10
Wheel Bearings
Steering Gear
A ir Cleaner - Element
Master C ylinder
Transmission - Manual
- A utom atic
11
12
13
14
15
T h ro ttle Bell Crank - L-6
Carburetor Linkage - V-8
Brake and Clutch Pedal
Springs
Universal Joints
Rear Axle
LUBRICATION POINTS
6
7
8
9
10
Master Cylinder
Transmission - Manual
- A utom atic
Carburetor Linkage - V-8
Universal Joints
Propeller Shaft Slip Joints
11
12
13
14
15
Fig. 0B-8--Lubrication Points (Conventional and Four Wheel Drive)
LIG H T T R U C K SERVICE M A N U A L
Front and Rear Axle
Drag L in k
Brake and Clutch
Pedal Springs
Transfer Case
T h ro ttle Bell Crank - L-6
MAINTENANCE AND LUBRICATION
OB-11
LUBRICATION POINTS
1
2
3
4
Control Arm Bushings and
Ball Joints
Tie Rod Ends
Wheel Bearings
Steering Gear
Clutch Cross-Shaft
5
6
7
Trans. Control Shaft
A ir Cleaner - Element
Transmission - Manual
- A u to m a tic
8
9
10
11
Rear Axle
Oil Filter
Brake Master Cylinder
Parking Brake Linkage
Fig. 0B-9--Lubrication Points (G Van)
Transmission Shift Linkage
Door Lock Cylinder
(Manual and Automatic)
Use W D-40 or equivalent spray lubricant as necessary
for free operation.
(Also a Safety Service)
Gas Tank Filler Door Hinge
L ubricate shift linkage and m anual transm ission floor
controls lever co n tactin g faces w ith w ater resistan t EP
chassis lubricant which meets G M specification 6031M.
Clean area of d irt and old lubricant. Apply a few drops
of engine oil to friction point of door hinge. W ork door
several times and wipe off excess lubricant.
Hood Latches
Door Hinge Assembly
Lubricate hood latch assem bly and hood hinge assem
bly as follows:
W ipe off d irt and apply a thin coat of engine oil. Open
and close door several times to insure th at the oil has worked
in effectively.
1. W ipe off any accum ulation of dirt or contam ination on
latch parts.
2. Apply L ubriplate or equivalent to latch pilot bolts and
latch locking plate.
3. Apply light engine oil to all pivot points in release
m echanism , as well as prim ary and secondary latch
m echanisms.
4. L ubricate hood hinges.
5. M ake hood hinge and latch m echanism functional
check to assure the assembly is working correctly.
Door Jam Switch
Apply a thin coat of lubriplate or equivalent to end of
surface of switch plunger.
Parking Brake Pulley, Cable and Linkage
(Also a Safety Service)
Apply w ater resistant EP chassis lubricant which meets
G M specification 6 0 3 1M, to parking brake cable at cable
guides and at all operating links and levers.
LIG H T T R U C K SERVICE M A N U A L
OB-12
MAINTENANCE AND LUBRICATION
Accelerator Linkage
(Also a Safety Service)
Lubricate carburetor stud and carburetor lever and
accelerator pedal lever at support with engine oil.
Body Lubrication
See Body Service M anual for body lubrication.
A-6 Four Wheel Drive
M ost lubrication recom m endations and procedures for
four wheel drive-equipped vehicles are the same for corre
sponding components of conventional drive vehicles.
In addition, the following item s require lubrication
each 4 m onths or 6,000 miles (9 600 km).
Transfer Case
Check the transfer case level at the interval and if
necessary, add Dexron® II.
Front Axle
The front axle should be checked at the interval and
refilled w ith S A E 80W -90 G L -5 gear lu b ric a n t when
necessary. W ith the differential at operating tem perature
fill to the level of filler plug hole. If differential is cold, fill to
level of 1/2 inch below the filler plug hole.
Propeller Shaft Slip Joints
Propeller shaft slip joints should be lubricated at the
interval with w ater resistant E P Chassis lubricant which
m eets G eneral M otors Specification G M 6031M.
Constant Velocity (C /V Joint)
A C /V joint is located a t the transfer case end of the
front propshaft and must be lubricated at the interval with
G M lubricated part no. 1052497 or equivalent. See Fig. 0B10 showing how the fitting m ay be lubricated from above the
C /V joint, with a special ad ap ter on the end of a flex hose.
A-7 Tires
Inspection and Rotation
Front and rear tires perform different jobs and can
wear differently depending on the types of roads driven,
driving habits, etc. To obtain m axim um tire life inspect and
rotate tires regularly. (Fig. 0 B -11) If the truck is equipped
with tires having different load ratings between the front
and the rear, the tires should not be rotated front to rear.
Vehicle handling could be adversely affected and the tires
having the lower load rating could be overloaded.
CAUTION:Before installing wheels, remove any
build up of corrosion on the wheel mounting
surface and brake drum or disc mounting surface
by scraping and wire brushing. Installing wheel
without good metal-to-m etal contact at the
mounting surfaces can cause the wheel nuts to
loosen, which can later allow a wheel to come off
while the vehicle is moving, possibly causing loss
of control.
Dual Tire Operation
The outer tire of a pair on dual wheel installations
generally wears faster than the inner tire, if this occurs,
reverse position of the tires to equalize wear and achieve
optim um tire life.
In addition, when trucks are driven continuously on
high crown roads, an increase in air pressure of from 5 psi
(35 kPa) to 10 psi (70 kPa) in the outside tire of each dual
produces m axim um tire life. Be sure not to exceed the
inflation pressure limits shown in the Load and Inflation
C harts in Section 3E.
Wheel Nut Torque (Fig. OB-12)
Caution:
Trucks With Single Wheels:
As soon as possible after installing a wheel-and at the
intervals shown on the chart in the Maintenance Schedule
have a mechanic tighten wheel nuts with a torque wrench to
the correct torque listed on the chart which follows.
Trucks With Dual Wheels:
Have a mechanic tighten wheel nuts with a torque
wrench as stated above for single wheels for both front and
rea r wheels. In addition, when the tru ck , or wheel, or
fasteners are new, also have the torque set at the first 100,
1,000, and 6,000 miles (160, 1 600, and 9 600 km ). This
precaution is necessary because the clam ping system used
on this type of wheel in some cases needs to seat before the
fasteners will hold a uniform clam p load and rem ain fully
tightened.
For both single and dual wheels, wheel nuts should be
tightened alternately and evenly to the correct torque in the
ROTATION - BIAS
AND BIAS • BELTED
ROTATION • RAOIAL
*Oo not indudo “temporary an only" sparo tiro in rotation.
Fig. 0B -10--C /V Joint Lube Fitting
L IG H T T R U C K SE R V IC E M A N U A L
Fig. 0B-11--Tire Rotation
MAINTENANCE AND LUBRICATION
sequence shown in Section 3E. N ever use oil or grease on
studs or nuts. Im properly tig h ten ed wheel nuts could
eventually allow the wheel to come off while the vehicle is
moving, possibly causing loss of control.
OB-13
Bleeding serves to reduce "cold" inflation pressure and
increase tire flexing which can result in tire dam age
and failure.
Passenger-Car-Type tires:
CAUTION:This vehicle has some parts dimen
sioned in the metric system as well as in the
customary system. Some fasteners are metric and
are very close in dimension to well-known custom
ary fasteners in the inch system. Mismatched or
incorrect fasteners can result in damage to the
vehicle or possibly personal injury.
Inflation Pressure (Fig. OB-13)
The cold inflation pressures for the factory installed
tires are on the label on the rear of the driver’s door. The
tires m ust be inflated to these pressures to obtain the
G V W R (Gross Vehicle W eight R ating) or G A W R (Gross
Axle W eight R ating). Incorrect tire inflation pressures can
have adverse effects on tire life and vehicle perform ance.
Too low an air pressure causes increased tire flexing and
h eat b uild-up. T his w eakens th e tire and increases the
chance of dam age or failure and can result in tire overload
ing, ab n o rm al tire w ear, adverse vehicle handling, and
reduced fuel mileage. Too high an air pressure can result in
abnorm al wear, harsh ride, and also increase the chance of
dam age from road hazards.
Lower inflation pressures can be used for light trucktype tires with reduced vehicle loads. A fter finding the load
on each tire by weighing the vehicle on a scale, the minimum
cold inflation pressures can be found in Section 3E.
T ire inflation pressures should be checked at least
m onthly (including the spare if so equipped). Always check
tire inflation pressures when tires are " cold ".
1. The "co ld " tire inflation pressure applies to the tire
pressure when a vehicle has not been driven more than
one mile (1.6 km) after sitting for three hours or more.
2. It is norm al for tire pressures to increase 4 to 8 pounds
per square inch (30 to 60 kilopascals) or more, when
the tires become hot from driving. Do not "bleed" or
reduce tire inflation pressures after driving vehicle.
TORQUE
DESCRIPTION
SERIES
K10
7/16” BOLTS (6)
70-90 FT. LBS.
95-120 N.m
C10, G10, G20
AND P10
1/2” BOLTS (5)
75-100 FT. LBS.
100-140 N.m
C20, K20, C30, G30,
P20 AND P30
SINGLE WHEELS
C30, K30, G30
AND P30
DUAL WHEELS
9/16” BOLTS (8)
9/16” BOLTS (8)
HEAVY DUTY
WHEELS
5/8” BOLTS (10)
For sustained driving at speeds of 75 mph of 85 mph
(120 km/h to 140 km/h), in countries where such speeds are
permitted by law, cold inflation pressures must be increased
4 psi (30 kPa) above the stated cold inflation pressures on
the Certification Label. Sustained speeds of 75 mph to 85
mph (120 km/h to 140 km/h) are not advised when the 4 psi
(30 kPa) adjustm ent would require pressures greater than
the maxim um pressures stated for each load range. Sus
tained driving at speeds over 85 mph (140 km/h), where such
speeds are permitted by law, is not advised unless vehicle is
equipped with special high speed.
Truck-Type Tires:
’
For sustained driving at speeds over 65 mph (100 km/h),
where such speeds are permitted by law cold inflation
pressures should be increased 10 psi (70 kPa) above those
stated in the Tire/W heel Load and Inflation Pressure Charts
for the load being carried. Do not exceed the wheel capacity
limit shown in Section 3E.
Sustained speeds over 65 mph (100 km/h) are not
advised where the 10 psi (70 kPa) pressure increase would
exceed the wheel capacity limit.
For special operating conditions, such as carrying slidein cam pers, cold inflation pressures may be increased up to
10 psi (70 kPa) above those shown in the table. The total
increase in cold inflation pressures, however, m ust not
exceed the wheel capacity limit shown in Section 3E.
Passenger-car-type tires have a 15-inch (380 m illim e
ter) or sm aller wheel size and have no " L T " designation
molded in the sidewall after the tire size. Light truck-type
tires have " L T " molded in the sidewall after the tire size
an d /o r are larger than 15 inches (380m m ) in wheel size.
Passenger-Car Type Snow Tires:
W hen using passenger-car-type snow tires, cold infla
tion pressures should be increased 4 psi (30 kPa) above the
stated cold inflation pressures on the Certification Label up
to the m axim um for each load range stated in the chart
above. Sustained speeds above 75 mph (120 km/h) are not
advised.
CAUTION:Be sure to keep tires properly inflated. A
tire that is run while significantly underinflated
will overheat to the point where the tire may blow
90-120 FT. LBS.
120-160 N.m
110-140 FT. LBS.
150-190 N.m
130-180 FT. LBS.
175-245 N.m
PROPERLY INFLATED
BIAS
OR BIAS-BELTED TIRE
PROPERLY INFLATED
IMPROPERLY INFLATED
t
J
-------------- y
___________________________________ RADIAL TIRE
Fig. 0B-12--Wheel Nut Torque
Fig. 0B-13--Properly Inflated Tire
LIG H T T R U C K SERVICE M A N U A L
OB-14
MAINTENANCE AND LUBRICATION
out and/or catch fire, possibly resulting in dam
age to the vehicle and its contents and/or per
sonal injury to its occupants and persons in the
area.
Truck-Type Snow Tires:
W hen using truck-type snow tires, cold inflation pres
sures should be increased 10 psi (70 kPa) above the advised
pressures for the load being carried. However, do not exceed
the wheel capacity lim it shown in Section 3E. Sustained
speeds above 65 mph (100 km/h) are not advised.
3. For proper inflation pressures when towing trailers, the
following is recom mended:
W hen towing trailers on dead-w eight hitches, inflate
tires to the pressures shown on the C ertification Label
(on either the left door latch post or the left door edge
next to the driver) or, if applicable the "T ire Inflation
Pressure" charts in Section 3E.
For trailers using w eight-distributing hitches, increase
front tire pressure 2 psi (14 kPa) above the pressure
shown on the C ertification Label (or "T ire Inflation
Pressure" charts). This increase should never exceed
the m axim um pressure shown on the side of the tire.
It should be rem em bered th a t when a trailer is con
nected, the trailer tongue weight is p art of the load
being carried by the vehicle and, therefore, is included
in the GV W of the vehicle.
4. Always use a tire pressure gage (a pocket-type gage is
advised) when checking inflation pressures. A visual
inspection of tires for inflation pressures is not enough,
especially in the case of radial tires. U nderinflated
radial tires m ay look sim ilar to correctly inflated radial
tires. If the inflation pressure on a tire quite often is
found to be low, correct the cause.
5. Be sure to reinstall th e tire inflation valve caps, if so
equipped, to prevent d irt and m oisture from getting
into the valve core which could cause air leakage.
6. If an air loss occurs while driving, do not drive on the
deflated tire more th an is needed to stop safely. Driving
even a short distance on a deflated tire can dam age a
tire and wheel beyond repair.
A-8 Rear Axle
D rain and refill to level of filler plug hole every 7,500
miles (12 000 km ) on light duty emissions or 12,000 miles
(19 200 km ) on heavy duty emissions when using vehicle to
pull a trailer or severe operating conditions. Use SA E 80W
GL-5 or SA E 80W -90 G L-5 gear lubricant. In C anada, use
S A E 80W GL-5 gear lubricant. On 20 and 30 series trucks,
change lubricant every 24,000 miles (38 400 km).
A-9 Cooling System
(Also a LD Emission Control Service)
The coolant recovery system is standard. The coolant in
the radiator expands with heat, and the overflow is collected
in the recovery tank. W hen th e system cools down, the
coolant is draw n back into the radiator.
The cooling system has been filled a t the factory with a
quality coolant th at meets G eneral M otors Specification
1899-M. The coolant is a 50/50 m ixture of w ater and
ethylene glycol antifreeze.
L IG H T T R U C K SE RV IC E M A N U A L
Service
• M aintain cooling system freeze protection at -34°F
(-37°C) to ensure protection against corrosion and loss
of coolant from boiling. This should be done even if
freezing tem peratures are not expected.
• A dd ethylene glycol base coolant th a t m eets G M
Specification 1899-M when coolant has to be added
because of coolant loss or to provide added protection
ag ain st freezing a t tem p era tu res lower th an -34°F
(-37°C).
• Alcohol or m ethanol base coolants or plain w ater alone
should not be used in a vehicle a t any time.
T he cooling system should be serviced each year
(15,000 miles, 24 000 km, on light duty emission service)
(12,000 miles, 19 200 km, on heavy duty emission and diesel
engine vehicle service) as follows:
1. W ash radiator cap and filler neck with clean water.
2. Check coolant level and test for freeze protection.
3. T est system and ra d ia to r cap for proper pressure
holding capacity, 15 psi (105 kPa). If replacem ent cap
is needed, use a cap designed for coolant recovery
systems and specified model.
4. Tighten hose clamps and inspect all hoses. Replace
hoses if swollen, "checked", or otherwise deteriorated.
5. Clean frontal area of radiator core and air conditioning
condenser.
Flush and Refill
Every two years, 30,000 miles (48 000 km) on light
duty emissions or 24,000 miles (38 400 km) on heavy duty
emissions and diesel engine vehicles, whichever occurs first,
the cooling system should be flushed and refilled as follows:
1. Remove radiator cap when engine is cool:
• Turn cap slowly to the left until it reaches a "stop"
(Do not press down while turning the cap).
• W ait until pressure is relieved (indicated by a hissing
sound); then press down on cap and continue to
rotate to the left.
CAUTION:To help avoid the danger of being
burned, do not remove the radiator cap while the
engine and radiator are still hot. Scalding fluid
and steam can be blown out under pressure if the
cap is taken off too soon.
2. W ith radiator cap removed, run the engine until upper
radiator hose is hot (this shows th at the therm ostat is
open and the coolant is flowing through the system ).
3. Stop engine and open radiator drain valve to drain
coolant. (D rainage may be speeded by removing drain
plugs in the block.)
4. Close d rain valve (install block d rain plugs, if re
moved). Add w ater until system is filled.
5. R epeat steps 3, and 4 several tim es until the drained
liquid is nearly colorless.
6. D rain system and then close rad ia to r d ra in valve
tightly. (Install block drain plugs, if removed.)
7. Remove recovery tan k cap, leaving hoses in place.
Remove coolant recovery tank and em pty fluid. Scrub
and clean inside of tank with soap and w ater. Flush well
with clean w ater and drain. Reinstall tank.
MAINTENANCE AND LUBRICATION
8. A dd enough ethylene glycol solution, m eeting G M
Specification 1899-M, and w ater to provide the re
quired cooling function as well as freezing and corro
sion p rotection. Use a 50 percen t solution, -34°F
(-36°C), but no more than a 70 percent solution. Fill
radiator to the base of the radiator filler neck and raise
level of coolant in the recovery tank to the "F ull H o t"
m ark. Reinstall recovery tank cap.
9. Run engine, with radiator cap removed, until radiator
upper hose is hot.
10. W ith engine idling, add coolant to radiator until level
reaches bottom of filler neck. Install cap, m aking sure
arrows line up with overflow tube.
OB-15
gear housing should be refilled only with the proper Steering
G ear L ubricant as noted below.
NOTICE: Use only 1052182 (13 oz. (.38L) container)
Steering G ear L ubricant which meets G M Specifica
tion 4673M , or its equivalent.
Do not use EP chassis lube, m eeting G M Specification
6 0 3 1M, to lubricate the gear. DO N O T O V E R -F IL L
the gear housing.
A -12 Clutch Cross-Shaft
Rem ove the plug, install a lubrication fitting and
lubricate with w ater resistant EP Chassis L ubricant which
meets G M Specification 6031M.
Radiator Pressure Cap
A -13 Automatic Transmission Fluid
T he rad iato r cap, a 15 psi (105 kPa) pressure type,
m ust be installed tightly, otherw ise coolant may be lost and
dam age to engine m ay result from overheating. R adiator
pressure cap should be checked periodically for proper
operation.
R efer to A-1 for checking au to m atic transm ission.
C hange the transm ission fluid and service screen every
15,000 miles (24 000 km) on light duty emissions or 12,000
miles (19 200 km) on heavy duty emission and diesel engine
vehicles if the vehicle has been driven under one or more of
these hot conditions:
• In heavy city traffic where the outside tem perature
regularly reaches 90°F (32°C).
• In hill or m ountain areas.
• Frequent trailer pulling.
• Uses such as taxi, police or delivery service.
Thermostat
T he engine coolant te m p e ra tu re is controlled by a
therm ostat. It stops coolant flow through the radiator until a
pre-set tem perature is reached. This therm ostat is installed
on the engine block. The sam e therm ostat is used in both
w inter and sum m er. R efer to Section 6B-Engine Cooling for
additional inform ation.
A -10 Wheel Bearings
For norm al application, clean and repack front wheel
bearings with a high m elting point wheel bearing lubricant
at each front brake lining replacem ent or 30,000 miles (48
000 km) on light duty emissions 12,000 miles (19 200 km)
on heavy duty eymission or 15,000 miles (24 000 km) on
diesel engine vehicles which ever comes first. For heavy duty
application such as police and taxi cabs, clean and repack
front wheel bearings at each front brake lining replacem ent
or 15,000 miles (24 000 km ) which ever comes first.
Use W heel Bearing L ubricant G M P art N o. 1051344
(one pound), 1052356 (35 pounds) or Exxon Ronex M P
Grease or equivalent. This is a prem ium high m elting point
lubricant.
"Long fiber" or "viscous" type lubricant should not be
used. Do not mix wheel bearing lubricants. Be sure to
thoroughly clean bearings and hubs of all old lubricant
before repacking.
NOTICE: T apered roller bearings used in this vehicle
have a slightly loose feel when properly adjusted. They
m ust never be over tightened (preloaded) or severe
bearing dam age m ay result.
R efer to Section 3C for proper detailed adjustm ent
procedures and specifications.
A -1 1 Manual Steering Gear
The steering gear is factory-filled with steering gear
lubricant. Seasonal change of this lubricant should not be
perform ed and the housing should not be drained-no
lubrication is required for the life of the steering gear.
Inspect for seal leakage (actual solid grease-not just
oily film). If a seal is replaced or the gear is overhauled, the
If the vehicle was not used mainly under any of these
conditions, change the fluid and service screen each 100,000
miles (160 000 km) on light duty emissions and diesel engine
vehicle or 24,000 miles (38 400 km) on heavy duty
emissions.
It takes only one pint (0.5 liter) to raise level from
"A d d " to "F u ll" with a hot transmission.
SECTION B
SAFETY MAINTENANCE
B-l Owner or Driver Safety Checks The m aintenance Schedule in the glove box lists items
to be checked by the owner or driver.
B-2 Tires, Wheels, and Disc Brakes
During tire rotation, check disc brake pads for wear,
and surface condition of rotors while wheels are removed
(see Item A-7). Check tires for excessive or abnorm al wear,
or dam age. Also check tire inflation pressures and adjust as
shown on Tim e P lacard (located on left front door). Be sure
wheels are not bent or cracked and that wheel nuts have
been tightened to the torque value shown Section 3E.
B-3 Exhaust System
(Also an LD Emission Control Service)
C heck the com plete exhaust system , including the
catalytic converter. Check body areas near the exhaust
system and also the tailgate. Look for broken, dam aged,
missing, or out-of-position parts. Also, inspect for open
seams, holes, loose connections, or other conditions which
could cause a heat buildup in the floor pan, or could let
exhaust fumes seep into the passenger com partm ent. D ust
or w ater in the passenger com partm ent may indicate a leak
L IG H T T R U C K SE RV IC E M A N U A L
OB-16
MAINTENANCE AND LUBRICATION
in the area. N eeded repairs should be m ade at once. To help
m aintain system integrity, replace the exhaust pipes and
resonators rearw ard of the muffler whenever a new muffler is
put on.
R efer to S ection 6F for ex h au st system repair
procedures.
B-4 Suspension and Steering
Check front and rear suspension, and steering system.
Look for dam aged, loose, or missing parts; also for parts
showing signs of w ear, or lack of lu b ricatio n . R eplace
questionable parts at once.
R efer to Section 3B for steering and Section 3C and 3D
for suspension repair procedures.
B-5 Brakes and Power Steering
Check lines and hoses for proper hook-up, binding,
leaks, cracks, chafing, etc. Any questionable parts should be
replaced or repaired a t once. W hen rubbing or wear is noted
on lines or hoses, the cause m ust be corrected at once.
Refer to Section 5 for brakes and Section 3B for power
steering repair procedures.
B-6 Engine Drive Belts
W hen adjusting a drive belt, it is im portant th at the proper
adjustm ent specification be used.
Refer to Section 6A for engine m echanical additional
inform ation.
A "U sed " belt is one th at has been rotated at least one
com plete revolution on engine pulleys. This begins the
"seating" of the belt and it should never be reset to "N ew "
belt specifications.
B-7 Drum Brakes and Parking Brake
(See Item B-2 for disc brake check.) Check drum brake
linings for wear or cracks. Also inspect other brake parts at
each wheel, such as drum s, wheel cylinders, etc. Check
parking brake adjustm ent also when inspecting drum brake
linings.
Check brakes more often if conditions and habits result
in frequent braking.
Refer to Section 5 for brake repair procedures.
B-8 Throttle Linkage
Check for dam aged or missing parts, interference or
binding. Fix any problems at once.
Refer to Section 6C for fuel system repair procedures.
(Also an Emission Control Service)
B-9 Bumpers
Check belts driving the fan, A IR pump, generator,
power steering pump, and the air conditioning compressor.
Look for cracks, fraying, wear, and proper tension. A djust
or replace as needed.
Frayed or cracked belts should be replaced and tensioned to specifications using a strand tension gage, such as
tool J-23600 or equivalent.
Loose belts may place an extrem ely high im pact load
on driven component bearings due to the whipping action of
the belt.
An over tightened belt places unnecessary loads on the
component bearings.
In the C h art (Fig. OB-14), the m inim um reading is the
lowest allowable setting before the belt m ust be reset. W hen
readjusting, the adjustm ent specification should be met.
C heck front and re ar bum per system s for proper
im pact protection and clearance. Check also when a bum per
looks out of position or if it was struck h ard -ev e n if no
dam age can be seen. Refer to Section 2B for bum per repair
procedures.
B-10 Fuel Cap, Fuel Lines and Fuel Tank
(Also an Emission Control Service)
Check the fuel tank, cap and lines for dam age or leaks.
Rem ove fuel cap, check gasket for an even filler neck
im print, and any dam age. Replace parts as needed. Refer to
Section 6C for fuel system repair procedures.
SECTION C
EMISSION CONTROL MAINTENANCE
ALL L6 ENGINES AND ALL V8 ENGINES EXCEPT DIESEL
GENERATOR
A.I.R. PUMP
P/S PUMP
50 LB.
(222 N)
MIN.
A/C
COMPRESSOR
65 LB.
(289 N)
MIN.
ADJUST TO 75 + 5 LBS. USED
(334 ± 22 N)
ADJUST TO 125 ± 5 LBS. NEW
(556 + 22 N)
ADJUST TO 95 ± 5 LBS. USED
(423 + 22 N)
ADJUST TO 140 ± 5 LBS. NEW
(623 ± 22 N)
5.7L — V8 DIESEL
GENERATOR
P/S PUMP
A.I.R. PUMP
(NON A/C)
70 LB.
(311 N)
MIN.
A/C
COMPRESSOR
A.I.R. PUMP
80 LB.
(356 N)
MIN.
ADJUST TO 75 ± 5 LBS. USED
(334 ± 22 N)
ADJUST TO 110-140 LBS. NEW
(480-623 N)
ADJUST TO 90 ± 5 LBS. USED
(400 ± 22 N)
ADJUST TO 135-165 LBS. USED
(600-734 N)
Fig. 0B-14--Engine Drive Belt Chart
LIG H T TR U C K SE RV IC E M A N U A L
Refer to Sections 6C or 6E for procedures needed to
service the items below:
C -l Thermostatically Controlled Air Cleaner
Check all hoses and ducts for correct hookup. Be sure
valve works properly.
C-2 Carburetor Choke and Hoses
Check th at choke and vacuum break work properly.
C orrect any binding caused by dam age or gum on the choke
shaft. Check hoses for proper hookup, cracks, rubbing, or
decay, correct as needed.
C-3 Engine Idle Speed
A djust to the specifications shown on the underhood
label. Use calibrated test equipm ent.
MAINTENANCE AND LUBRICATION
C-4 Early Fuel Evaporation (EFE) System
C heck th a t valve works properly, correct any binding.
Check th a t therm al vacuum switch works properly. Check
hoses for cracks, rubbing, or decay. R eplace parts as needed.
C-5 Carburetor Mounting
Torque mounting bolts an d /o r nuts a t mileage shown
on M aintenance Schedule.
C-6 Vacuum Advance System and Hoses
C heck th at system works properly. Check hoses for
proper hookup, cracks, rubbing or decay. R eplace parts as
needed.
OB-17
boot fit a t distributor cap and spark plugs. Replace wire if
dam aged or if corrosion cannot be cleaned.
C-10 Idle Stop Solenoid
C heck th a t p arts work properly. R eplace them as
needed.
C -11 Spark Plugs
Replace as shown on Schedule. Use the type listed in
O w ner’s and D river’s M anual.
C-12 Engine Timing and Distributor Cap
C-7 Fuel Filter
A djust tim ing to underhood label specifications. Check
the inside and outside of the cap and rotor for cracks, carbon
tracking and corrosion. Clean or replace as needed.
R eplace at m ileage shown on M aintenance Schedule or
sooner if clogged.
C-13 Air Cleaner Element
C-8 PCV System
Replace at m ileage showrr on Schedule. Replace more
often under dusty conditions.
Check th a t system works properly each 15,000 miles
(24 000 km ) - Light D uty Emission or 12,000 miles (19 200
km) - Heavy Duty Emissions.
PCV Valve and Filter - Replace the valve, filter and
worn or plugged hoses each 30,000 miles (48 000 km) Light D uty Emissions or 24,000 miles (38 400 km) - Heavy
Duty Emissions.
C-14 Evaporation Control System (ECS)
Check all fuel and vapor lines and hoses for proper
hookup routing and condition. Check th at bowl vent and
purge valves work properly, if equipped. Remove canister,
check for cracks or dam age. Replace as needed. Replace
canister filter.
C-9 Spark Plug Wires
C -15 EGR System Check
Clean wires. Remove corrosion on term inals. Check the
wires for checks, burns, cracks or other dam age. Check the
Check E G R system for proper operation at interval
shown in M aintenance Schedule.
L IG H T T R U C K SERVICE M A N U A L
OB-18
MAINTENANCE AND LUBRICATION
SPECIFICATIONS
RECOMMENDED FLUIDS AND LUBRICANTS
USAGE
FLUID/LUBRICANT
Pow er steerin g system and pum p reservoir
C on ventiona l tra n sfe r case
GM p o w e r steering flu id Part No. 1050017 o r equivalent.
DEXRON®-ll A u to m a tic T ra n sm issio n Fluid
M anual ste ering gear
L u b ric a n t GM Part No. 1051052 o r e q u ivale n t
D iffe re n tia l — S tandard o r locking^M anual T ra n sm issio n ,
SAE-80W GL-5 o r SAE-80W-90 GL-5 gear lu b ric a n t
(SAE-80W — GL-5 in Canada)
Brake system and m aster c y lin d e r
D elco S uprem e 11 flu id o r DOT-3
C lutch Lin kage (Man. Trans, only)
a. P ivot po in ts
b. Push rod to c lu tc h fo rk jo in t, and cross shaft
pressure fittin g
a. E ngine oil
b. C hassis grease m eeting re q u ire m e n ts of GM 6031-M
Manual T ransm ission S h ift Linkage, colum n s h ift
P ropeller sh aft slip jo in t
Chassis Grease
S hift Linkage, flo o r s h ift
E ngine oil
Hood Latch Assem bly
a. Pivots and sp ring a n c h o r
b. Release pawl
a. E ngine Oil
b. Chassis Grease
H ood and D oor H inges
E ngine Oil
A u to m a tic Transm ission S h ift Linkage
E ngine Oil
Chassis L u b rica tio n
C hassis grease m eeting re q u ire m e n ts of GM 6031-M
“ SF” E n g in e O il c o n fo rm in g to GM Specs. 6048M
E ngine (G asoline)
E ngine (Diesel)
"S F /C C " or "S F /C D " E ngine Oil c o n fo rm in g to
GM specs GM 6049M
C on sta nt V e locity U niversal J o in t
GM L u b ric a n t Part No. 1052497 o r eq u ivale n t
A u to m a tic T ransm ission
DEXRON®-ll A u to m a tic T ransm ission Fluid
P arking Brake Cables
Chassis grease
W heel bearings lu b ric a n t GM Part No. 1051344 (One
F ront Wheel B earings
Pound) 1052356 (35 pounds) o r E xxon R onex MP
Grease or equivalent.
B ody d o o r hinge pins, ta ilg a te hinge and linkage,
fo ld in g seat, fuel d o o r hinge
W in d sh ie ld W asher S olvent
E ngine C o o la n t
Key Lock C ylin d e r
E ngine Oil
GM O ptikleen w asher solvent Part No. 1051515
o r e quivalent
M ixtu re of w a te r and high q u a lity Ethylene G lycol base
type antifreeze c o n fo rm in g to GM Spec. 1899-M
WD-40 Spray L u b ric a n t or e q u ivale n t
Fig. OB-15— Recommended Fluid & Lubricants
L IG H T T R U C K SERVICE M A N U A L
MAINTENANCE AND LUBRICATION
OB-19
CAPACITIES
S
•
r<,M
D ifferential
8% '' Ring Gear
8 -7 /8 ” Ring Gear
101/2 " Ring Gear (Chev.)
10%'' Ring Gear (Dana)
9% " Ring Gear (Dana)
12%'' Ring Gear (Dana)
Engine Crankcase
250 L6 — Drain & Refill
— w /F ilte r Change
292 L6 — Drain & Refill
— w /F ilte r Change
305 V 8 )
_ . . _ ....
op-f. wc> ( - Drain & R efill
i w/FM
,erChan9e
400 V 8
454 V 8 - Drain & Refill
— w /F ilte r Change
350 V8 Diesel Including F ilte r
Transmission
A u to m a tic
350 — Total
- Refill
400 — Total
- Refill
Manual
4 Speed 1 17mm
3 Speed 76mm
3 Speed 77mm
Four Wheel Drive
F ro n t Axle
Transfer Case
Fuel Tank
Pickup — C10-35, K10-25 & Crew Cab
(Except 107 Models)
107 Models
A u x ilia ry Tank
Van — Standard
— Optional
Suburban — Standard
— O ptional
— O ptional
Blazer/Jim m y — Standard
— Optional
P10, 15/20-35
P30042
P30032
IMPERIAL
MEASURE
U.S. MEASURE
1.9L
4% pts.
3Y2 pts.
2.8L
3L
2.6L
11.7L
31/2 pts.
6% pts.
7.2 pts.
6.0 pts.
26.8 pts.
3 pts.
5% pts.
5% pts.
5 pts.
21% pts.
3 .8L
4 .7L
4 .7L
5.7L
4
5
5
6
qts.
qts.
qts.
qts.
3% qts.
4% qts.
414 qts.
5 qts.
3.8L
4.7 L
4 qts.
5 qts.
31A qts.
5.7L
6 .6L
6 .6L
6 qts.
7 qts.
7 qts.
5 qts.
5% qts.
5% qts.
9 .5 L
2.8L
10.4L
3.8L
10 qts.
3 qts.
11 qts.
3.5 qts.
8% qts.
2% qts.
9% qts.
3 qts.
3 .8L
1.4L
1.4L
4 qts.
1.5 qts.
1.5 qts.
3% qts.
VA qts.
VA qts.
2.4L
2 .4L
2.5 qts.
2.5 qts.
2.qts.
2 qts.
76 L
60.5 L
83 L
125L
95 L
117L
151 L
95 L
117L
117L
114L
151 L
20 gal.
16 gal.
Same as Main Fuel Tank
22 gal.
33 gal.
25 gal.
31 gal.
40 gal.
25 qal.
31 gal.
31 gal.
30 gal.
40 gal.
4% qts.
16.8 gal.
13.3 gal.
18% gal.
27% gal.
20.8 gal.
25.8 gal.
33.3 gal.
20.8 gal.
25.8 gal.
25.8 gal.
25 gal.
33.5 gal.
Fig. 0B-16--Lubricant and Fluid Capacities
LIG H T T R U C K SE RV IC E M A N U A L
0B-20
MAINTENANCE AND LUBRICATION
COOLING SYSTEM
Capacity
(Qts./Liters)
Engine
Series
C K10-15
C 20-25
250 CID
L6
G 10-30,
15-35
C 20-25
292 CID
L6
305CID
V8
C K30-35
P10-30, 15-35
C K10-15
G10-15
C K 10-30
15-35
P20-35
350 CID
V8
G 10-30
G 15-35
K20-25
400 CID
V8
454 CID
V8
G20-25
G30-35
C20-30
25-35
P30-35 (42)
P30-35 (32)
U.S.
Measure
15
15%
15
15!4
Imperial
Measure
Air
Cond.
Man.
Auto
Man.
Auto
Man.
X
X
X
X
X
X
X '
X
X
X
X
(14L)
(14.5L)
(14L)
(14.5L)
121/2
13
12%
13
17
14%
X
X
15 (14L)
1514 (14.5)
14% (13.7L)
15 (14L)
13% (12.7L)
17% (16.5L)
19 (18L)
20 (19L)
17% (16.5L)
18 (17L)
161/2 (15.6L)
17 (16L)
121/2
13
12
121/2
11%
14%
15%
16%
14%
15
13%
14%
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
20 (19L)
16%
X
18 (17L)
19 (18L)
15
15%
X
20 (19L)
20 (19L)
20 (19L)
21 (20L)
23 (21.7L)
16%
16%
16%
17%
19%
24 (22.7L)
24% (2 3 L )*
20
20%
19%
20%
23% (2 2 .2 L)
241/2 (23L)
Auto
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
Fig. 0B-17--Cooling System
L IG H T T R U C K SE R V IC E M A N U A L
H.D.
Radiator
Transmission
X
X
X
X
X
X
X
HEATER
1A-1
SECTION 1A
HEATER
CONTENTS
S tan d ard H e a te r................................................................................................ 1A-1
A uxiliary H e a te r ............................................................................................... 1A-15
Specifications...................................................................................................... 1A-19
STANDARD HEATER
INDEX
G eneral D escription................. ..........................................
System C om ponents........................................................
System C o n tro ls...............................................................
Diagnosis...............................................................................
On Vehicle Service
Blower M otor.....................................................................
H eater D istributor and Core Assem bly......................
1A-1
1A-3
1A-3
1A-4
1A-8
1A-8
H eater H o ses......................................................................1A-9
C enter D istributor D uct - G M odels.......................... .1A-12
Defroster D u c t....................................................................1A-12
Control A ssem bly..............................................................1A-12
Control C ab les.................................................................. .1A-13
Blower S w itch.....................................................................1A-13
Resistor U n i t ......................................................................1A-15
GENERAL DESCRIPTION
H eating com ponents are attach ed to the dash panel on
th e rig h t side of th e vehicle. T h e blow er and air inlet
assem bly and w ater hoses are located on the forw ard side of
the dash panel while the heater core and distributor duct are
on the passenger side.
The heater system is an air mix type system in which
outside air is heated and then mixed in varying am ounts
with cooler outside air to attain the desired air tem perature.
The system consists basically of three parts: (1) the blower
and air inlet assem bly, (2) the heater distributor assembly
and (3) the heater control assembly.
HEATER AIR FLOW SCHEMATIC
C-K Series heater airflow is shown in Fig. 1A -1.
LIG H T T R U C K SERVICE M A N U A L
1A-2
HEATER
HE A T E R A D E F R O S T E R A S M
HEATER A
DEFROSTER A S M
AIR OUTLET
AIR OUTLET
VIEW A
STEERING
COLUMN
VIEW B
DEFROSTER DUCT A S M
INST PANEL
HEATER C O N T R O L
&
V IE W
A
AI R F L O W LEGEND
C-K MODELS
Q]
TEMPERATURE V A L V E [
[jjj
DEFROSTER VALVE
[3]
PURGE VALVE
Fig. 1A-1--Heater Air Flow Schematic--C-K Models
L IG H T T R U C K SERVICE M A N U A L
f e j
] O U TS ID E AIR
M I X E D AIR
H I H E A T E D AI R
HEATER
BLOWER AND AIR INLET ASSEMBLY
The blower and air inlet assem bly draw s outside air
through the outside air inlet grille located forward of the
windshield reveal-m olding and channels the air into the
heater distributor assembly. The operation of the blower
motor is controlled by the FA N switch on the heater control.
The m otor is connected in series with the FA N switch and
also the blower resistor assembly. Located in the fuse block,
in series between the blower motor and the battery, is a 25
amp. fuse C -K models, a 20 am p fuse on G models.
HEATER DISTRIBUTOR ASSEMBLY
T he heater distributor assembly houses the heater core
and the doors necessary to control mixing and channeling of
the air. Since the unit has no w ater valve, w ater circulation
keeps the core hot a t all times. T h at portion of the air
passing through the core receives m axim um heat from the
core. A ir entering the distributor assembly is channeled as
follows:
1A-3
assembly, by the purge door. If the purge door is closed, then
air is directed through an d /o r around the heater core by the
tem perature door. A ir is then directed into the passenger
com partm ent through the heater (floor) outlets an d /o r the
defroster (dash) outlets by the defroster door. The tem pera
ture of the outlet air is dependent on the ratio of heated to
unheated air (controlled by the tem perature door).
G Models
A ir flow is controlled by doors in the d istrib u to r
assembly. The air door can be adjusted to vary airflow. If air
is allowed to en ter the d istrib u to r assem bly, it is then
directed through an d /o r around the heater core by the
tem perature door. Air is directed into the passenger com
partm ent through the heater (floor) and/or defroster (dash)
outlets by the defroster door. The tem perature of the outlet
air is dependent of the ratio of heated to unheated air
(controlled by the tem perature door).
C-K Models
CONTROLS
A ir entering the distributor can be directed out the
purge door opening, on the right end of the distributor
H eater controls for C-K and G Models are shown in
Fig. 1A-2 and 1A-3.
LIG H T T R U C K SERVICE M A N U A L
1A-4
HEATER
DIAGNOSIS
CAUSE AND CORRECTION
TROUBLE
Temperature o f heater a ir a t outlets too low to heat up pas
senger compartment.
Temperature o f heater a ir a t o utlets adequate but the vehicle
w ill not build up s u ffic ie n t heat.
Inadequate defrosting action.
Inadequate c irc u la tio n of heated a ir through vehicle.
E rra tic heater operation.
Hard operating or broken controls.
LIG H T T R U C K SE RV IC E M A N U A L
1.
See " In s u ffic ie n t Heat Diagnostic Chart".
1.
Check fo r body leaks such as:
Floor side kick pad v e n tila to rs p a r tia lly open.
2.
Leaking grommets in dash.
3.
Leaking welded seams along rocker panel and windshield.
4.
Leaks through access holes and screw holes.
5.
Leaking rubber molding around door and windows.
6.
Leaks between sealing edge of blower and a ir in le t assembly
and dash, and between sealing edge o f heater d is trib u to r
assembly and dash.
1.
Check that DEFROST lever completely opens defroster door
in DEF position - Adjust i f necessary.
2.
Insure that temperature and a ir doors open f u lly - Adjust.
3.
Look fo r obstructions in defroster ducts - Remove any
obstructions.
4.
Check for a ir leak in ducting between defroster o u tle t on
heater assembly and defroster duct under instrument panel Seal area as necessary.
5.
Check position of bottom o f nozzle to heater locating tab Adjust.
6.
Check position of defroster nozzle openings re la tiv e to in s tru
ment panel openings. Mounting tabs provide positive position
i f properly in s ta lle d .
1.
Check heater a ir o u tle t fo r correct in s ta lla tio n - R e in s ta ll.
2.
Inspect flo o r carpet to insure that carpet lie s f l a t under
fro n t seat and does not obstruct a ir flow under seat, and
also inspect around o u tle t ducts to insure that carpet is
well fastened to flo o r to prevent cupping of a ir flow - Correct
as necessary.
1.
Check coolant level - F ill to proper le v e l.
2.
Check fo r kinked heater hoses - re lie v e kinks or replace hoses.
3.
Check operation of a ll bowden cables and doors - Adjust as
necessary.
4.
Sediment in heater lines and ra d ia to r causing engine thermo
s ta t to stick open - flush system and clean or replace thermo
s ta t as necessary.
5.
P a r tia lly plugged heater core - backflush core as necessary.
1.
Check fo r loose bowden cable tab screws or mis-adjusted bowden
cables - Correct as required.
2.
Check fo r sticking heater system door(s) - Lubricate as required
using a silico ne spray.
HEATER
1A-5
INSUFFICIENT HEAT D IA G N O S IS
Position the controls so that the:
Temperature lever is on full heat.
Selector or heater lever is on Heater.
Fan switch is on Hi.
•CHECK DUMP DOOR OUTLET FOR AIR FLOW
AIR FLOW
NO AIR FLOW
I
~
I
A d ju st d u m p d o o r fo r n o air flo w .
CHECK DEFROSTER OUTLETS FOR AIR FLOW
~|
(If in doubt as to High or Low air flow
set selector on DEF which is High and
compare. Reset selector on Heater)
HIGH AIR FLOW
NO OR LOW AIR FLOW
T..............—
| Adjust defroster door for low air flow. |
CHECK HEATER OUTLET AIR FLOW
(If in doubt, switch fan
switch from Hi to Lo)
CHANGE IN AIR FLOW
NORMAL AIR FLOW
LITTLE OR NO CHANGE IN AIR FLOW
|
1 LOW OR NO AIR FLOW~|
Check heater outlet temperature
with 220° F range thermometer.
“ Check shutoff door position for full
system air flow. Adjust if necessary.
(approximate outlet air temperatures)
Outlet Air
Ambient Air
145
0
. 150...
25
5b
40
...
165
75
|
LOW AIR FLOW |
NO AIR FLOW
|
I
NORMAL TEMPERATURE
|
Check heater outlet for obstruction - re
move.
I
Remove all obstructions under front seat.
Check motor voltage at closest motor line
connection with a voltmeter.
Car does not build up heat - operate vent
controls and see that the air vent doors
close completely, if not, adjust.
CHECK FUSE
FUSE BLOWN - replace fuse.
I
=
AIR FLOW - system okay.
LOW TEMPERATURE
UNDER 10 VOLTS
Check battery volts - under 10 volts,
recharge then recheck motor voltage.
Check coolant level; if low, fill. Look for
or feel all radiator and heater hoses and
connections for leaks. Repair or replace.
Check the radiator cap for damage and re
place if required.
Check wiring and connections for
under 10 volts from motor to fan
switch. Repair or replace last point
of under 10 volt reading.
Check heater and radiator hoses for kinks
straighten and replace as necessary.
Check temperature door for max heat po
sition. Adjust if necessary.
;
BLOWS FUSE
OVER 10 VOLTS |
X
(Check the system temperature after re
pairing the item checked to complete the
diagnosis.)
_____
|
I
Remove positive lead from motor and
replace fuse.
____
FUSE REMAINS OK - remove motor
and check for obstruction in system
opening, if none, REPLACE MOTOR.
If obstruction, remove material and
re-install motor.
BLOWS FUSE - check for shorted
wire in blower electric circuit See Heater Circuit Diagnostic Chart.
Apply external ground, (jumper wire) to
motor case. INCREASED AIR FLOW repair ground.
HEATER CORE
FUSE OK
I Feel temperatures of heater inlet and outlet hoses.
--------------T ------------- ---------------------
WARM INLET AND OUTLET HOSES
SAME AIR FLOW - remove motor and
check for obstruction in system open
ing. If none, REPLACE MOTOR. If
obstruction, remove material and re
install motor.
FUSE OK - See Heater Circuit
Diagnostic Chart.
Check engine thermostat.
HOT INLET AND WARM OUTLET HOSES
I
Check pulleys, belt tension, etc., for pro
per operation. Replace or service as neces
sary.
’ CHECK FOR C K MODELS
ONLY
'CHECK FOR G MODELS
ONLY
X
Remove hoses from heater core. Reverse
flush with tap water. If plugged, repair or
replace.
LIG H T T R U C K SERVICE M A N U A L
HEATER CIRCUIT D IA G N O S I S *
BLOWER MOTOR INOPERATIVE
(AN Y SPEED)
I
Check fuse
in fuse panel.
T
FUSE BLOWN
FUSE OK
1........
"
With Ignition switch in
"R U N " position and blower
speed switch "O N " use
meter to locate short in one
of the follow ing wires:
1. From fuse panel to blower
speed switch.
2. From blower speed switch
to heater resistor.
3. From heater resistor to
blower.
Note: Short circuit may be
interm ittent. If meter does
not indicate a short circuit,
move harness around as
much as possible to re-create
short circuit. Watch and
listen fo r arcing.
1-----
The follow ing tests should be made w ith
the ignition switch in "R U N ” position
the blower speed switch "O N " and the
lever on heat position.
_L
Check blower motor ground
X
POOR OR NO GROUND
I
1
GROUND OK
X
T
Repair ground
Check m otor connector
w ith 12 volt test light.
LAMP LIGHTS
I
-------------- J------------ 1
LAMP DOES NOT LIGHT
1
Replace Motor
I
Check blower feed wire in connector
on resistor w ith 12 volt test light.
r
LAMP DOES NOT LIGHT
X
Use 12 volt test light and check feed
terminal (brown) on blower speed switch.
LA M P L IG H T S 1
..
1 _
Repair open in feed wire
from resistor to blower motor.
‘ See heater circuit diagrams
HEATER
1A-7
Fig. lA-4--Heater Wiring Diagrams
LIG H T T R U C K SE RV IC E M A N U A L
1A-8
HEATER
ON VEHICLE SERVICE
BLOWER MOTOR
Removal (Fig. 1A-5)
1. Disconnect battery ground cable.
G Models - Remove the coolant recovery tank, and
power antenna as outlined in Sections 6 and 9.
2. Disconnect the blower motor lead wire.
3. Remove the five blower motor m ounting screws and
remove the m otor and wheel assembly. Pry gently on
the blower flange if the sealer acts as an adhesive.
4. Rem ove th e blow er wheel to m otor sh aft nut and
separate the wheel and m otor assemblies.
5. To install a new m otor, reverse Steps 1-4 above.
The following steps should be taken to assure proper
installation:
a. Assem ble the blower wheel to the motor with the
open end of the wheel away from the blower motor.
b. If the motor m ounting flange sealer has hardened, or
is not intact, remove the old sealer and apply a new
bead of sealer to the entire circum ference of the
m ounting flange,
c. Check blower operations: blower wheel should rotate
freely with no interference.
HEATER DISTRIBUTOR AND CORE ASSEMBLY
C-K Models
Replacement (Fig. 1A-6)
1. Disconnect the battery ground cable.
2. Disconnect the heater hoses at the core tubes and drain
engine coolant into a clean pan. Plug the core tubes to
prevent coolant spillage at removal.
3. Remove the nuts from the d istrib u to r duct studs
projecting into the engine com partm ent.
4. Remove the glove box and door assembly.
5. D isconnect the A ir-D efrost and T e m p eratu re door
cables.
6. Remove the floor outlet and remove the defroster duct
to heater distributor duct screw.
7. Remove the heater distributor to dash panel screws.
Pull the assembly rearw ard to gain access to wiring
harness and disconnect all harnesses attached to the
unit.
8. Remove the heater-distributor from the vehicle.
9. Remove the core retaining straps and remove the core.
10. To install, reverse Steps 1-9 above. Be sure core to case
and case to dash panel sealer is intact before assem
bling unit.
G Models
Replacement (Fig. 1A-7)
1. Disconnect the battery ground cable.
2. Remove coolant recovery tank and lay aside.
3. Place a clean pan under the vehicle and then disconnect
th e heater core inlet and ou tlet hoses at the core
L IG H T T R U C K SERVIC E M A N U A L
HEATER
1A-9
VIEW A
Fig. lA-7--Heater Distributor - G Models
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
connections (see "H e a te r H oses-R eplacem ent" later in
this section). Quickly plug the heater hoses and support
them in a raised position. Allow the coolant in the
heater core to drain into the pan on the floor.
Rem ove h eater d istrib u to r du ct to d istrib u to r case
attaching screws and distributor duct to engine cover
screw and remove duct.
Remove engine housing cover.
Remove instrum ent panel attaching screws: above, at
w indshield, all lower screw s and rig h t lower I.P.
support bracket at door pillar and engine housing.
Lower steering column, and raise and support right side
o fl.P .
Remove defroster duct to distributor case attaching
screw, and 2 screws attaching distributor to heater
case.
Disconnect tem perature door cable and fold cable back
for access (R efer to Fig. 1A -17).
Remove three (3) nuts at engine com partm ent side of
distributor case and one (1) screw on passenger side.
Remove the heater case and core as an assembly. Tilt
the case assem bly rearw ard at the top while lifting up
until the core tubes clear the dash openings.
Remove the core retaining strap screws and remove the
core.
To install a new core, reverse Steps 1-10 above. Be sure
core to case and case to dash panel sealer is intact
before assem bling unit.
Replacement
The heater core can be easily dam aged in the area of
the core tube attachm ent seams whenever undue force is
exerted on them. W henever the heater core hoses do not
readily come off the tubes, the hoses should be cut just
forward of the core tubes. The portion of the hose rem aining
on the core tube should then be split longitudinally. Once
the hoses have been split, they can be removed from the
tubes without dam aging to the core.
HEATER HOSES
H eater hoses are routed from the therm ostat housing or
inlet m anifold and w ater pum p (radiator on some autom atic
transm ission vehicles) to the core inlet and outlet pipes as
shown in Figures 1A-8 thru 1A -1 1. Hoses are attached at
each end with screw type clamps.
LIG H T T R U C K SERVICE M A N U A L
1A-10
HEATER
AUTOMATIC TRANSMISSION MODELS1
( EXCEPT C-K 10 350 V8 W / O VOI OR C60 )
V -8
L-6
C-K M O D E L S
TO WATER PUMP - f
^
1v IEw [a 1 ^ C36
G M ODELS
Fig. lA-8--Heater Hose Routings
L IG H T T R U C K SE RV IC E M A N U A L
Fig. 1A -1 1--Heater Hose Routing G Series
HEATER
1A -1 1
1A-12
HEATER
|vitwfA|
Fig. 1A-12--Distributor Ducts--G Models
DISTRIBUTOR DUCTS - G Models
Replacement (Fig. 1A-12)
1. Disconnect the battery ground cable.
2. R aise I.P. at rig h t side as outlined und er heater
distributor removal.
3. U nsnap the engine cover front latches. Remove the two
cover to floorpan screws and remove the cover.
4. Remove the heater distributor duct to case attaching
screws as shown in Fig. 1A -12.
5. Remove one (1) screw at left center of distributor duct.
6. Pull the center d istributor duct to the right and remove
it from the vehicle.
7. To install, reverse Steps 1 thru 5. Check cable and door
operation; cables should be free from kinks or binding
and doors should close properly. If cable adjustm ent is
necessary, refer to "Bowden C able-A djustm ent."
A/C HEATER ASM
(TYPICAL)
[v i e w [ a ]
DUCT ASSEMBLY
DEFROSTER DUCT
D efroster assemblies attach m en t are shown in Fig. 1A - 13
UPPER IP EXTENSION
CONTROL ASSEMBLY
C-K Models
Replacement (Fig. 1A-14)
1. Disconnect the battery ground cable.
2. Remove the instrum ent panel bezel.
3. Disconnect the bowden cables and the blower switch
wiring harness. Be careful not to kink the bowden
cables.
L IG H T T R U C K SE R V IC E M A N U A L
Fig. 1A-13--Defroster Outlets
4. Remove the control through the opening above the
control.
5. If a new unit is being installed, transfer the blower
switch to the new unit.
6. To reinstall, reverse Steps 1 thru 4.
HEATER
1A-13
3. Remove the control to instrum ent panel screws.
4. Raise or lower control as necessary to remove cable
push nuts and tab attaching screws.
5. Remove glove box and door as an assembly.
6. Remove cable push nut and tab attaching screw at door
end of cable.
7. Remove cable from retaining clip and remove cable
assembly.
8. To install, reverse Steps 1 thru 7. Be careful not to kink
the cable during installation. Be sure to route the cable
as when removed. Check cable adjustm ent.
G Models
Replacement (Fig. 1A-17)
Fig. 1 A -14--C ontrol Assembly, C-K M odels
G Models
Replacement (Fig. 1A-15)
1. Disconnect the b attery ground cable.
2. Remove I.P. bezel as outlined in Section 8C of this
m anual.
3. Rem ove th e control to in stru m e n t panel m ounting
screws (3) and carefully pull the control rearw ard far
enough to gain access to the bowden cable attachm ents.
C are should be taken to prevent kinking the bowden
cables while lowering the control.
4. Disconnect the bowden cables, the control illum ination
bulb, the blower sw itch connector and rem ove the
control from the vehicle.
5. Rem ove th e blower sw itch screw s and rem ove the
blower switch.
6. To install, reverse Steps 1 thru 4.
CONTROL CABLES (Fig. 1A-16, 1A-17)
C-K Models
Replacement
1. Disconnect the battery ground cable.
2. Remove the instrum ent panel bezel.
H eater and defroster cable routing and attachm ent to
control and to distributor case is shown in Fig. 1A -17.
If cable adjustm ent is required, refer to A djustm ent,
C-K Series.
Adjustment - C-K Series
1. Disconnect the battery ground cable.
2. Remove glove box and door as an assembly.
3. Pry off the appropriate cable eyelet clip and disconnect
the cable from the door.
4. Remove the cable retaining screw.
5. W hile holding the cable with pliers, rotate the m ount
ing tab on the cable to lengthen or shorten the cable,
whichever is required.
NOTICE: Do not pinch the cable too tightly or dam age
to the cable could result.
6. Install the cable, reversing Steps 1-4 above.
Adjustment - G Van
1. A ttach inner cable and sheath to I.P. Control.
2. W ith I.P. installed, move tem perature cable to cold and
attach loop on inner cable to tem perature door on
heater case.
3. A ttach cable sheath to heater case.
4. Move tem perature lever to full heat. This will require
some effort due to force required to slide inner cable
clip to its proper position.
BLOWER SWITCH
C-K Models
Replacement (Fig. 1A-14)
1. Disconnect the battery ground cable.
2. Remove the instrum ent panel bezel.
3. Remove the control to instrum ent panel screws and
lower the control onto the radio.
4. Disconnect the switch electrical harness.
5. Remove the switch attaching screws and remove the
switch.
6. To install, reverse Steps 1-5 above.
LIG H T T R U C K SERVICE M A N U A L
1A-14
HEATER
Fig. 1A-16--Control Cables, C-K Series
V IE W A
V IE W B
Fig. 1A-17--Control Cable Routing, G Models
L IG H T T R U C K S fR V IC E M A N U A L
HEATER
1A-15
G Models
Replacement (Fig. 1A-15)
1. Disconnect the battery ground cable.
2. Disconnect the blower switch wiring harness connector
at the switch.
3. Remove the two switch attaching screws and remove
the switch assembly.
4. To install a new switch, reverse Steps 1 thru 3.
RESISTOR
Replacement (Figs. 1A-5 and 1A-18)
1. Disconnect the wiring harness at the resistor connector.
2. Remove the two resistor m ounting screws and remove
the resistor.
3. To install a new resistor, reverse Steps 1 and 2 above.
AUXILIARY HEATER
INDEX
G eneral Description .......................................................................................... ..1A-15
C o n tro l............................................................................................................... ..1A-15
D iagnosis.............................................................................................................. ..1A-16
On Vehicle S ervice..............................................................................................1A-17
Specifications...................................................................................... ..................1A-19
GENERAL DESCRIPTION
An auxiliary heater is available as a dealer installed
accessory to provide additional heating capacity for the
rearm ost extrem ities of the G (05 and 06) models.
This unit operates entirely independent of the standard
heater and is regulated through its own controls at the
instrum ent panel.
This system consists of a separate core and fan unit
m ounted as shown in Fig. 1A-23.
H eater hoses extend from the unit to the front of the
vehicle where they are connected to the standard heater
hoses with " te e s" . An "on-off" vacuum operated w ater
valve is installed in the heater core inlet line in the engine
com partm ent. The purpose of the valve is to cut off coolant
flow to th e auxiliary core d uring w arm w eather and
elim inate the radiant heat th a t would result.
CONTROLS
Two methods of control are employed with this system:
Water Valve (Refer Fig. 1A -11)
W hen heat is desired, and the fan switch is any position
except off, a vacuum operated water valve controlled by the
switch, opens the w ater line to permit hot w ater circulation
through the heater core. In the O FF position the valve is
closed to prevent unw anted heat during warm weather.
Fan Switch (Fig. 1A-20)
The three speed fan switch (L O W -M E D -H I) is located
in the instrum ent panel, to the right of the steering column.
LIG H T T R U C K SERVICE M A N U A L
1A-16
HEATER
DIAGNOSIS
R efer to the "S tan d ard H eater" section of this m anual
for diagnostic inform ation; R efer to Electrical D iagram Fig.
1A-21.
LIG H T T R U C K SE RV IC E M A N U A L
HEATER
1A-17
rjrrw77m
n
rmarTTTuri
'iM
n.f'g’m
m i r r u .iB i
29737818905426
-3
•3
■2984092
|3
3
W HT-952
BRN/WHT-5'
2
■2
TEL-51----LT BLU-72
8905426
BRN/WHT-50 —
W H T-952A —
-3
BRN/WHT-50-3
WHT-952A■2
WHT-952B-
2984092
REAR BLO.
RESISTOR
i!
8905426
■2
LT BLU-72 —
YE l-51 —
2984092
2 9 8 9 5 7 6 GROMMET-
G Series
FUSE PANEL
Fig. 1A -2 1--Electrical Diagram
ON VEHICLE SERVICE
Since a detailed list o f installation instructions is
included with the auxiliary heater unit, replacement proce
dures will not be repeated in this section.
On G ModeIs--When replacing heater hoses, maintain
a 1/2 in. minimum clearance between hose clip and upper
control arm, a 1-1/2 in. minimum clearance between hoses
and propshaft and a 1-1/4 in. minimum clearance between
the auxiliary heater core lines and the exhaust pipe as shown
in Fig. 1A-24. All Models--Draw hoses tight to prevent sag
or rub against other components. Be sure to route hoses
through all clamps as originally installed.
LIG H T T R U C K SERVICE M A N U A L
1A-18
HEATER
LIG H T T R U C K SE RV IC E M A N U A L
HEATER
SPECIFICATIONS
SECTION 1A
HEATER
V olts
Am ps.
(C old)
RPM
(Cold)
Blower Motor
C-K Models
13.5
6.25 Max.
G Models
13.5
7.1 Max.
2550
2950
2850
3250
Min.
Max.
Min.
Max.
Fuses
C-K Models
G Models
A U XILIA R Y HEATER
Volts
Blower Motor . . . . 13.5
Amps.
(Cold)
9.6 Max.
RPM
(Cold)
2700 Min.
1A-19
. Kfei*!
;: ■. ^ r
\
J>
‘ kl ■
-i
<
,Kr '
AIR CONDITIONING
IB-1
SECTION IB
AIR CONDITIONING
NO TICE: W hen perform ing air conditioning diagnosis on Chevrolet
vehicles equipped with a catalytic converter, it will be necessary to warm the
engine to a norm al operating tem perature before attem pting to idle the
engine for periods g reater than five (5) minutes. Once the choke is open and
fast idle speed reduced to a norm al idle, diagnosis and adjustm ents can be
m ade.
CONTENTS
G eneral D escription............................................................
C60 System (C -K & G M odels)..................................
O verhead Systems (C -K & G M o d e ls)......................
M otor Home Chassis S y stem ........................................
Pressure Cycling S w itch...............................................
System C o n tro l.................................................................
D iagnosis...............................................................................
Leak Testing The R efrigerant S y s te m .......................
Pressure Cycling System D iagnosis.............................
Com pressor Diagnosis......................................................
Insufficient Cooling...........................................................
Electrical System D iagnosis..........................................
E vacuating and C harging Procedures............................
Air Conditioning System C a p a c ity ..............................
Checking O il......................................................................
On Vehicle S erv ice.............................................................
C o m p resso r........................................................................
C60 S y ste m -C -K M o d els..............................................
C ondenser............................................................................
A ccum ulator-A ll.............................................................
Blower A ssem b ly ...........................................................;
E vaporator C ore..............................................................
Expansion T ube-A ll.......................................................
Selector D uct and H eater C o re..................................
Kick Panel A ir Valve.....................................................
Plenum A ir V a lv e ..........................................................
Control A ssem b ly ..........................................................
T em perature Door Cable A d ju stm e n t...................
M aster Switch an d /o r Blower S w itch.......................
V acuum T a n k .................................................................
Blower Resistor U n it.....................................................
Blower M otor R e la y ......................................................
F u se ......................................................................................
Overhead S y stem -C -K M odels....................................
IB-3
IB-3
IB-3
IB-3
IB-5
IB-7
IB-12
IB-12
IB-13
IB-16
IB-28
IB-28
IB-29
IB-29
IB-29
IB-29
IB-35
IB-38
IB-38
IB-38
IB-38
IB-38
IB-38
IB-40
IB-40
IB-40
IB-41
IB-41
IB-41
IB-41
IB-42
IB-42
IB-42
IB-42
R ear D u c t.......................................................................... .IB-42
Blower M otor R e sisto r................................................... .IB-43
Blower M otor A ssem bly................................................. IB-43
Expansion V a lv e ............................................................. IB-44
Evaporator C ore................................... .......................... IB-45
Blower M otor Sw itch......................................................IB-45
F u se .................................................. ..................................IB-45
C60 S y ste m -G M o d els.................................................. .IB-46
C ondenser......................................................................... .IB-46
A /C Air D istributor D u c t........................................... .IB-46
A /C C enter and R ight Dash Outlets,
H eater, A ir D istributor and Extension D u c ts .......IB-46
H eater Core Case and C o re .........................................IB-46
Blower M o to r.................................................................. .IB-46
Evaporator C ore...............................................................IB-47
T em perature Door C able...............................................IB-48
C o n tro l.............................................................................. .IB-48
Blower S w itc h ................................................................. .IB-48
Blower M otor R e la y .......................................................IB-48
R esistors.............................................................................IB-48
BlQ^er M otor R e la y ........................................................IB-48
V acuum T a n k ................................................................. .IB-53
C ircuit B reak er................................................................IB-53
O verhead S y ste m -G M o d els.........................................IB-53
Dash M ounted S y ste m -M o to r Home U n its ..............IB-56
C ondenser......................................................................... .IB-56
R eceiver-D ehydrator.................................................... .IB-57
Sight G la ss....................................................................... .IB-57
Blower-Evaporator A ssem bly.......................................IB-57
Blower A ssem b ly ........................................................... .IB-57
Expansion Valve, Evaporator Case or C o re .............IB-59
Therm ostatic an d /o r Blower Sw itches.......................IB-59
R e sisto r..............................................................................IB-59
F u se ................................................................................... .IB-59
Specifications.........................................................................IB-60
Special T ools..........................................................................IB-61
LIG H T T R U C K SERVICE M A N U A L
IB-2
LIGHT
SERVICE
SHROUD.
M ANUAL
CONTROL
VIEW A
9
00
o
*
n3 "
Q
=5.
AIR INLET VALVE
PLENUM
VALVE
O
HEATER CORE
O
/<
LIG H T T R U C K SERVICE M A N U A L
IB-6
CONDITIONED AIR IS D IR EC TED THRU I P. OUTLETS
IN THIS MODE L E V E R POSITION, MAXIMUM
COOLING IS O F F E R E D WITH THE CONDITIONED
AIR DISTR IB U TED THRU I P O UTLETS AT
ANY BLOWER SPEED.
A NON COMPRESSOR O P E R A T I N G POSITION,
W IT H OUTSIDE AIR D E L I V E R E D T H R U I P. O U T L E T S
A NON COMPRESSOR O P E R A T I N G POSITION,
WITH OUTSIDE AI R D I S T R I B U T E D A B O U T
80% TO FLOOR & 20% TO W /S H LD
Fig. 1B-5--C60 System
C O N D I T I O N E D AIR
D I S T R I B U T E D AB OU T
80% TO W /S H L D
& 20% TO FLOO R
Controls (C-K & G Series)
4 SPEED FAN
C O N T R O L LE VE R
V A C U U M O P E R A T E D SYSTEM
SELECTOR (MODE) L E VE R
T E M P E R A T U R E L E V E R POSITION R E G U L A T E S TE M P E R A T U R E
OF THE A I R E N T E R I N G THE PASSENGER C O M P A R T M E N T BY
CABLE O P E R A T I O N OF THE HEATER CORE TE M P E R A T U R E D O O R
AIR CONDITIONING
CONDITIONED AIR IS D IR E C T E D THRU W/SHLD,
I P. & FLOOR DISTRIBUTOR OUTLETS
AIR CONDITIONING
IB-7
Vacuum Schematic - G Models
SYSTEM CONTROLS
G Model vacuum schematic is shown in Fig. 1B-9.
C60 SYSTEM (C-K & G SERIES) - FIG. IB-5
System Operation - C-K Truck
OVERHEAD SYSTEM (C-K & G SERIES)
System operation is shown in Fig. IB-6.
Vacuum Schematic - C-K Truck
T he C-K T ruck air conditioning vacuum schem atic is
shown in Fig. IB-7.
System Operation - G Models
This system operates in conjunction w ith the C60
system. Since refrigerant flow is controlled by the front
system, the only control provided for on the overhead system
is a three-speed fan switch (LO W , M ED , H I). The fan
switch is mounted in the instrum ent panel, to the right of the
steeringcoloum n (Fig. IB -10).
System operation is shown in Fig. 1B-8.
SYSTEM OPERATIO N
CK TRU CK
SELECTOR
LEVER
POSITION
COMPRESSOR
BLOWER
SPEEDS
A V A IL
AIR
SOURCE
AIR
ENTERS
VEHICLE
HEATER A/C
DOOROPEN TO:
HEATER
DEFROSTER
DO OR-OPEN TO:
OFF
OFF
LOW
OUTSIDE
FLOOR OUTLETS
HEATER
HEATER
M AX A/C
ON
HI
INSI DE%
DASH OUTLETS
A/C
HEATER
NORM A/C
ON
ALL
OUTSIDE
DASH OUTLETS
A/C
HEATER
OUTSIDE
FLOOR AND
DASH OUTLETS
A/C &
HEATER
HEATER
B I-LE V E L
ON
ALL
VE N T
OFF
ALL
OUTSIDE
DASH OUTLETS
A/C
HEATER
HTR
OFF
ALL
OUTSIDE
FLOOR OUTLETS
HEATER
HEATER
HEATER
DEFROST
DEF
OUTSIDE
DEFROST OUTLETS
ON
ALL
NOTE % 100% Inside air is not available, some bleed through of outside air is allowed.
Fig. 1 B-6--System Operation - C-K Truck
LIG H T T R U C K SERVICE M A N U A L
IB-8
AIR CONDITIONING
COMPRESSOR
O FF
OFF
BLOW ER
SPEEDS
A V A IL
A IR
SOURCE
NONE
O U T S ID E
A IR
ENTERS
V E H IC L E
H E A TE R
A /C
DOOR
H E A TE R
D EFR O STER
DOOR
OPEN TO
OPEN TO
HEATER
H E A T E R -D E F
F LO O R O U T L E T S
MAX
ON
ALL
I NSIDE %
DASH O U T L E T S
HEATER
A /C
NO RM
ON
ALL
O UT SIDE
DASH O U T L E T S
HEATER
A /C
Bl LEV
ON
ALL
O U T S ID E
DASH O U T L E T S
F LO O R O U T L E T S
HEATER
A /C &
HEATER
VENT
OFF
ALL
O UT SIDE
DASH O U T L E T S
HEATER
A /C
H EA TER
OFF
ALL
OUTSIDE
B L E E D TO DEF RO ST
& F LO O R O U T L E T S
HEATER
HE A T E R
DEFR
ON*
ALL
O UT SIDE
DEF R O ST O U T L E T S
DEF RO ST
HEATER
•P R O V ID E D COMPRESSOR PRESSURE SW ITCH CLOSED
Fig. lB-8--System Operation - G Models
VACUUM RESER VO IR
(IN E N G I N E C O M P A R T M E N T )
T O VACUUM SORCE
GR AY
DASH P A N E L
H EA TER CORE CASE
P IN K
.
HEATER TEM PERATURE
DOOR C A B L E
A /C
^ HEATER
D ISTRIBUTOR
DUCT
O U T S ID E
A IR j
H E A T E R AI R
DEFROST
CONTROL
DK B L U E
S E L E C T VAL VE OPER A TIN G C HART
ORANGE
P O R T NC .
9
2
4
1
8
HEAT
DEF
A / C - 0 . S. A IR
H T R A IR
SOURCE
OFF
V AC
VA C
VENT
VA C
VAC
MAX
VAC
VENT
VENT
V AC
V AC
NO RM
V AC
VENT
VA C
VAC
VAC
HTR
V AC
VENT
VENT
VENT
VAC
DEFOG
VENT
VENT
VENT
VENT
VA C
DEF
VENT
V AC
VENT
VENT
VAC
Fig. 1B-9--Vacuum Schematic - G Models
In the O F F position, the blower is inoperative; however,
refrigerant is circulating in the system if the C60 System is
O N . In any of the three blower positions (L O W , M ED , H I),
the blower will be operative regardless if the Four-Season
system is O N .
LIG H T T R U C K SERVICE M A N U A L
To obtain maxim um cooling, the Four-Season System
should be on A /C , tem perature lever on COLD, blower
switch on H I and the overhead unit blower switch should be
on HI.
AIR CONDITIONING
IB-9
This system is self contained and is mounted below the
dash by the body m anufacturer. System controls consist of
an A IR knob and T E M P knob located in the center of the
unit face plate (Fig. 1B -12).
Air Knob
Turning the A IR knob clockwise operates a three speed
(L O W -M E D -H I) blower motor.
Temp Knob
This knob is used to control the degree of cooling
desired. Fully clockwise a t C IT Y provides m axim um
cooling, while tu rn in g th e knob to H IW A Y provided
adequate cooling for highway operation.
Reduced cooling could be encountered when operating
at highway speeds with the controls at the C IT Y setting.
The heater m ust be fully off to obtain maxim um cooling.
CCOT SYSTEM COMPONENTS
C C O T R efrigerant System components and refriger
ant flow are shown in Fig. 1B -13. C hart 1B -1 shows pressure
tem perature relationships of R -12.
OVERHEAD SYSTEM (G MODELS)
T his system operates in conjunction with the C60
system. Since refrigerant is controlled by the C60 system,
the only control provided on the rear overhead system is a
three speed blower switch (Fig. IB -11).
In the O F F position, the blower is inoperative; however,
refrigerant is circulating in the system if the front system is
O N . To operate the rear overhead system, simply select the
desired blower speed (L O W , M ED , H I).
W hen air circulation only is desired, the rear A /C
blower m otor m ay be operated independent of the front A /C
blower m otor and w ithout the cooling function.
DASH MOUNTED UNIT (MOTOR HOME CHASSIS
UNITS)
Refrigerant and Oil Capacities
R efrigerant and oil charge is shown in C h art 1B-2.
PRECAUTIONS IN HANDLING REFRIGERANT-12
(R-12)
1. Do not leave drum of R-12 uncapped.
2. Do not carry any co n tain er of R-12 in passenger
com partm ent of car.
3. Do not subject any container of R -12 to high
tem perature.
4. Do not weld or steam clean on or near system.
5. Do not fill drum of R-12 completely.
6. Do not discharge vapor into area where flam e is
exposed.
7. Do not expose eyes to liquid.
CAUTION:lf R-12 liquid should strike the eye, call
a doctor immediately.
Fig. 1 B-l 1--Overhead Unit Control (G Models)
Fig. lB-12--Motor Home Unit Control
a. DO N O T RU B T H E EYE. Splash the affected area
with q u an tities of cold w ater to g radually get the
tem perature above the freezing point.
b. The use of an antiseptic oil is helpful in providing a
protective film over the eyeball to reduce the possibility
of infection.
c. O btain treatm ent as soon as possible, from a doctor
or eye specialist.
Should liquid R-12 come into contact with the skin, the
injury should be treated the same as (skin which has
been frostbitten or frozen.
All R-12 drum s are shipped with a heavy m etal screw
cap. The purpose of the cap is to protect the valve and safety
plug from dam age. It is good practice to replace the cap
after each use of the drum for the same reason.
If it is necessary to transport or carry any container of
R-12 in a car, keep it in the luggage com partm ent. If the
drum is exposed to the radiant heat of the sun, the resultant
LIG H T T R U C K SERVICE M A N U A L
IB -10
AIR CONDITIONING
A C CUM U LA TO R
PRESSURE CYCLING SYSTEM
'H P V "
-
H IG H PRESSURE VAPOR L E A V IN G COMPRESSOR.
'H P L "
-
VAPOR IS COOLED DOWN BY CONDENSER A IR FLOW A N D LEAVES AS HIG H PRESSURE L IQ U ID .
'L P L "
-
O R IF IC E M ETERS THE L IQ U ID R-12, IN T O EVAPO RA TO R, REDUCING ITS PRESSURE, AND
W ARM BLOWER A IR ACROSS EVAPO RA TO R CORE CAUSES B O ILIN G OFF OF L IQ U ID IN T O VAPOR.
'L P V "
-
LEAVES EVAPORATOR AS LOW PRESSURE VAPOR A N D RETURNS W ITH THE
SM A LL A M O U N T OF . . .
'Ipl"
-
. . . LOW PRESSURE L IQ U ID T H A T D ID N 'T BO IL OFF CO M PLETELY BACK TO
THE COMPRESSOR TO BE COMPRESSED A G A IN .
Fig. 1B-13--CCOT System Components
REFRIGERANT — 12
PRESSURE — TEMPERATURE
RELATIONSHIP
The table below indicates the pressure of Refri
gerant — 12 at various temperatures. For in
stance, a drum of Refrigerant at a temperature
of 80PF (26.6?C) will have a pressure of 84.1 PSI
(579.9 kPa). If it is heated to 125°F (51.6*0, the
pressure will increase to 167.5 PSI (1154.9
kPa). It also can be used conversely to deter
mine the temperature at which Refrigerant —
12 boils under various pressures. For example,
at a pressure of 30.1 PSI (207.5 kPa), Refriger
ant — 12 boils at 32°F (O’ C).
CF)( C)
21.7 - 29.8C 0(ATM0SPHERIC O(kPa)
PRESSURE)
2.4
16.5
20 - 28.8C
31.0
4.5
10 - 23.3C
46.9
6.8
5 - 20.5C
63.4
9.2
0 - 17.7C
81.4
11.8
5 - 15.0C
101.4
14.7
10 - 12.2C
122.0
17.7
15 - 9.4C
145.5
21.1
20 - 6.6C
169.6
24.6
25 - 3.8C
196.5
28.5
30 - 1.1C
207.5
30.1
32
OC
224.8
32.6
35
1.6C
37.0
255.1
40
4.4C
287.5
41.7
7.2C
45
322.0
46.7
50
10. OC
increase in pressure m ay cause the safety plug to release or
the drum to burst.
Weeding or steam cleaning near any of the refrigerant
lines or com ponents of th e air conditioning system could
build up dangerous and dam aging pressures in the system.
If the occasion arises to fill a small R-12 drum from a
large one, never fill th e drum completely. Space should
always be allowed above the liquid for expansion. If the
R-12 drum were com pletely full and the tem perature was
increased, trem endous hydraulic force could be developed.
LIG H T T R U C K SE RV IC E M A N U A L
(PSIG)(kPa)
f F)(°C)
55
60
65
70
75
80
85
90
95
100
105
110
115
120
125
130
140
12.70
15.5C
18.3C
21.1C
23.8C
26.6C
29.40
32.2C
35.00
37.7C
40.5C
43.3C
46.1C
48.8C
51.60
54.40
60. OC
(PSIGNkPa)
52.0
57.7
63.7
70.1
76.9
84.1
91.7
99.6
108.1
116.9
126.2
136.0
146.5
157.1
167.5
179.0
204.5
358.5
397.8
439.2
482.7
530.2
579.9
632.3
686.7
745.3
806.0
870.2
937.7
1010.1
1083.2
1154.9
1234.2
1410.0
CAUTION:Avoid breathing smoke and fumes
produced by the burning of the Refrigerant-12.
Such fumes may be hazardous.
One of the most im portant cautions concerns the eyes.
Any liquid R-12 which may accidentally escape is approx
imately 21°F (-6°C) below zero. If liquid R-12 should touch
the eyes, serious dam age could result. Always wear goggles
to protect the eyes when opening refrigerant connections.
AIR CONDITIONING
Refrigerant Charge
Overhead System
C K Models
G Models
5 lbs.-4 oz.
5 lbs.
C60 System
3 Lbs. -1 2 o*.
3 lbs.
PRECAUTIONS IN HANDLING REFRIGERANT
LINES AND FITTINGS
• All m etal tubing lines should be free of kinks, because
of the restriction th a t kinks will offer to the flow of
R-12. The refrigeration capacity of the entire system
can be greatly reduced by a single kink.
• The flexible hose lines should never be bent to a radius
of less th an 4 times the d iam eter of the hose.
• The flexible hose lines should never be allowed to come
within a distance of 63.5 mm (2-1/2 in.) of the exhaust
m anifold.
• Flexible hose lines should be inspected at least once a
year for leaks or brittleness. If found brittle or leaking
they should be replaced with new lines.
• U se only new lines th a t have been sealed during
storage.
• Always wear safety goggles when opening refrigerant
lines.
• W hen disconnecting any fitting in the refrigeration
system, the system m ust first be discharged of all R-12.
However, proceed very cautiously regardless of gage
readings. Open very slowly, keeping face and hands
aw ay so th a t no injury can occur if there happens to be
liquid R-12 in the line. If pressure is noticed when
fitting is loosened, allow it to bleed off as described
under discharging, adding oil, evacuating and charging
procedures for C C O T A /C systems.
• In the event any line is opened to atm osphere, it should
be im m ediately capped or tapped to prevent entrance of
m oisture and dirt which can cause internal compressor
wear or plugged, lines, condenser and evaporator core,
expansion tubes (orifice) or compressor inlet screens.
• The use of the proper wrenches when m aking condenser
and connections on "O " ring fittings is im portant. The
use of im proper wrenches may dam age the connection.
The opposing fitting should always be backed up with a
wrench to prevent distortion of connecting lines or
components. W hen connecting the flexible hose connec
tions it is im portant th a t the swaged fitting and the flare
IB -11
nut, as well as the coupling to which it is attached, be
held at the same tim e using three different wrenches to
prevent turning the fitting and dam aging the ground
seat.
• "O " rings and seats m ust be in perfect condition. A
burr or piece of dirt may cause a refrigerant leak.
Always replace the "O " ring when a correction has
been broken. W hen replacing the " O " ring, first dip it
in clean 525 viscosity refrigeration oil.
• W here steel to alum inum corrections are being made,
use torque for alum inum tubing (R efer to C hart 1B-9).
MAINTAINING CHEMICAL STABILITY IN
THE REFRIGERATION SYSTEM
The efficient operation of the air conditioning refrigera
tion system is dependent upon the pressure - tem perature
relationship of pure R-12 (Refer to C hart 1B -l). As long as
the system contains pure R-12 (plus a certain am ount of 525
Viscosity Compressor oil which mixes with the R-12, it is
considered to be chem ically stable.
W hen foreign m aterials, such as dirt, air or m oisture
are allowed to get into the system, they will change the
pressure - tem perature relationship of the R efrig eran t-12.
Thus, the system will no longer operate a t the proper
pressures and tem peratures and the efficiency will decrease.
The following general practices should be observed to
ensure chemical stability in the system:
1. W henever it becomes necessary to disconnect a refrig
erant connection, wipe away any dirt or oil at and near
the connection to elim inate the possibility of d irt
entering the system . Both sides of the connection
should be capped, plugged or taped as soon as possible
to prevent the entrance of dirt, foreign m aterial and
moisture. (It must be rem em bered th at all air contains
moisture. A ir th at enters any part of the refrigerant
system will carry m oisture with it and the exposed
surfaces will collect the moisture quickly.)
2. Keep tools clean and dry. This includes the manifold
gage set and replacem ent parts.
3. W hen adding 525 viscosity refrigerant oil (Refer to
A D D IN G O IL in the "D ischarging, A dding Oil,
Evacuating and C harging Procedures for C C O T A /C
S ystem s"), the container/transfer tube through which
the oil will flow should be exceptionally clean and dry
due to the fact th at refrigeration oil is as moisture-free
as it is possible to make it.
4. W hen it is necessary to "open" an A /C system, have
everything needed ready and handy so th at as little
tim e as possible will be required to perform the
operation. Do not leave the A /C system open any
longer than is necessary.
5. Any tim e the A /C system has been "opened," it should
be properly Evacuated before recharging with R-12
according to the D IS C H A R G IN G A D D IN G O IL,
E V A C U A T IN G & C H A R G IN G P R O C E D U R E S
FO R C C O T A /C SY ST E M S following in the Service
M anual.
REFRIGERANT CHARGING PRECAUTIONS
N orm ally, air conditioning systems are charged m ak
ing use of the C harging Station J-23500-01 which uses the
13.60 kg (30 lb.) of R-12. 420 ml (14 oz.) R efrigerant-12
LIG H T T R U C K SERVICE M A N U A L
IB -12
AIR CONDITIONING
disposable cans or R-12 drum s are also used. D IS C H A R G
IN G , A D D IN G O IL , E V A C U A T IN G A N D C H A R G
IN G P R O C E D U R E S F O R C C O T S Y S T E M S are de
scribed on following pages in the Service M anual.
• Em pty R -12 container completely before disposing.
• See Disposable Can C H A R G IN G procedures later in
Service M anual.
With J-23500-01 Charging Station:
With R-12 Drum or 14 oz. Disposable Can Charging:
• DO N O T charge while compressor system is hot.
• A L W A Y S C H A R G E T H R O U G H L O W -S ID E O F
A /C S Y S T E M (low -side fitting is found on
accum ulator).
• N E V E R C O N N E C T O N H IG H -S ID E of A /C sys
tem or to any system having a pressure higher than
indicated on the R - 12 container.
« W hen opening valves designed for use with container,
follow m an u factu rer’s directions carefully.
• Always use pressure gages before and during C harging.
• Follow m anufacturer’s directions carefully with three
exceptions:
• H I-P R E S S U R E V A LV E O F G A G E SE T SH O U L D
BE C L O S E D A T A L L T IM E S
D U R IN G
C H A R G IN G
• DO N O T C O N N E C T H IG H P R E S S U R E L IN E TO
A /C SY ST E M
• A L L E V A C U A T IN G A N D C H A R G IN G O F A /C
S Y S T E M M U S T BE P E R F O R M E D T H R O U G H
LO W P R E S S U R E V A L V E /L IN E T O L O W -SID E
S E R V IC E F IT T IN G O N A C C U M U L A T O R
DIAGNOSIS
TESTING THE REFRIGERANT SYSTEM
If a m alfunction in the refrigerant system is suspected
due to abnorm al system pressures, check the following:
1. C heck outer surfaces of radiator and condenser cores to
be sure they are not plugged with dirt, leaves or other
foreign m aterial. Be sure to check between the con
denser and radiato r as well as the outer surfaces.
CAUTION:Do not use lighted detector in any place
where combustible or explosive gases, dusts or
vapors may be present.
Operating Detector
1. D eterm ine if there is sufficient refrigerant in the system
for leak testing.
2. R estrictions or kinks in evaporator core or condenser
core, hoses, tubes, etc.
2. Open control valve only until a low hiss of gas is heard,
then light gas at opening in chimney.
3. R efrigerant leaks.
3. A djust flame until desired volume is obtained. This is
most satisfactory when blue flame is approxim ately 3/8
in. above reactor plate. The reaction plate will quickly
heat to a cherry red.
4. C heck all air d u cts for leaks or restrictio ns. A ir
restrictio n m ay in d icate a plugged (or p artially
plugged) evaporator core.
5. Com pressor clutch slippage.
6. Im proper drive belt tension.
7. Plugged accu m u lato r, expansion tu b e (orifice) or
compressor suction inlet screen.
8. Excessive m oisture in refrigerant system.
9. S ta rt properly operating, tuned engine and set up A /C
system according to appropriate P E R F O R M A N C E
C O N D IT IO N S stated in C C O T System Diagnostic
Procedure (C h art IB-3 & IB -4).
LEAK TESTING THE REFRIGERANT SYSTEM
W henever a. refrigerant leak is suspected in the system
or a service operation perform ed which results in disturbing
lines or connections, it is advisable to test for leaks. Common
sense should be used in perform ing any refrigerant leak test,
since the necessity and extent of any such test will, in
general, depend upon the n atu re of the com plaint and the
type of service perform ed on the system.
J-6084 Leak Detector
Tool J-6084 is a propane gas-burning torch which is
used to locate a leak in any p a rt of the system. R efrigerant
gas draw n into the sam pling tube attached to the torch will
cause the torch flame to change color in proportion to the
size of the leak. Propane gas fuel cylinders used with the
torch are readily available com m ercially throughout the
country.
L IG H T T R U C K SE RV IC E M A N U A L
4. Explore for leaks by moving the end of the sampling
hose around possible leak points in the system. Do not
pinch or kink the hose.
Since R-12 is heavier than air, it is good practice to
place open end of sam pling tube immediately below
point being tested, particularly in cases of small leaks.
CAlVTION:Do not breathe the fumes that are
produced by the burning of R-12 gas in the
detector flame, since such fumes can be toxic in
large concentrations.
5. W atch for color changes. The color of the flame which
passes through the reaction plate will change to green
or yellow-green when sam pling hose draws in very
small leaks of R-12. L arge leaks will be indicated by a
change in color to a brilliant blue or purple; when the
sampling hose passes the leaks, the flame will clear to
an almost colorless pale-blue again. Observations are
best m ade in a sem i-darkened area . If the flame
rem ains yellow when unit is rem oved from leak,
insufficient air is being drawn in or the reaction plate is
dirty.
A refrigerant leak in the high pressure side of the
system m ay be more easily detected if the system is
operated for a few m inutes, then shut off and checked
im m ediately (before system pressures equalize). A leak
on the low pressure side may be more easily detected
after the engine has been shut off for several m inutes
(system pressures equalized); this applies particularly
to the front seal.
PRESSURE CYCLING CCOT SYSTEM
C60, C-K and G MODELS
C om pressor clutch cycling on C -K & G S eries C60
C C O T A /C System s is accomplished through the use of a
pressure sensing switch, (R efer to Fig. IB-21 &1B-22)
located n ear the top of th e accu m u lato r. T he switch
perform s two functions in the system. In addition to cycling
the compressor on and off to control refrigerant flow, the
switch shuts off the compressor clutch when pressure falls to
a predeterm ined level, indicating low refrigerant charge in
the system.
W hen diagnosis (R efer to C h a rt IB-3 & IB-4) indi
cates replacem ent of the switch is necessary, it should be
noted th at it will not norm ally be necessary to discharge the
A /C system, as the pressure switch fitting on the accum ula
tor is equipped with a schrader type valve.
W hen replacing the pressure cycling switch, a new
oiled " O " ring m ust be installed and the switch m ust be
torqued to 10 N-m (7.5 ft lb). Do not exceed this torque, as
the threads in the accum ulator m ay be stripped.
IB -14
AIR CONDITIONING
SERVICE DIAGNOSTIC PROCEDURE
INSUFFICIENT COOLING
A/C SYSTEMS WITH CYCLING CLUTCH — EXPANSION TUBE
(PRESSURE SENSING)
M O V E T E M P LEVER R APID LY BA C K A N D FORTH
FR O M H O T TO C O LD . LIS T E N FOR DOOR H IT T IN G
A T EACH END
C irc u m s ta n c e s S h o u ld a S ig h t G la s s Be In s ta lle d
Feel L iq u id L in e B e fo re E x p a n s io n T u b e
R e s tric tio n in H ig h S id e o f S y s te m .
V is u a lly C heck fo r F ro s t S p o t to Lo c a te
R e s tric tio n . R e p a ir as N ec e s s ary ,
Feel E v a p o ra to r In le t a n d O u tle t Pipes
IN LE T PIPE A N D O U T LE T
PIPE S A M E T EM PE R A
TURE OR O U T LE T
C OLDER T H A N IN LE T
i
I
S y s te m
E v a c u a te & C h a rg e
In s ta ll G a g e S e t a n d C h e c k C o m p re s s o r
C y c lin g Press
(O.K.)
O N a t 2 8 2.6-35 1.6 kPa 141-51 PSI)
OFF a t 138-193 kPa (20-28 PSI)
R U N S C O N T IN U O U S L Y
W IT H IN L IM IT S
CYCLES H IGH OR LO W
(O N AB O V E 51 PSI
OR OFF BE LO W 20 PSD
C YC LES W IT H IN L IM IT S
T
--------1--------D e fe c tiv e
D is c o n n e c t B lo w e r W ir e a n d C he c k For
C y c lin g O ff a t 13 8-1 93 kPa (20 -2 8 PSI)
P ressu re
S w itc h
PRESSU R E F A L LS
B E L O W 20 PSI
C YC LES OFF A T 138 193
kP a (20 -2 8 PSI) O R D O ES
N O T P U L L D O W N TO
PRESS
D e fe c tiv e P re s s u re
S w itc h
I
R ep lace
*D o N o t D is c h a rg e
In s ta ll T h e rm o m e te r in A/C O u tle t and
C he ck P e rfo rm a n c e
R ep lace . 'D o N o t D itc h a rg e
S y s te m . T h e re is a S c h ra d e r
V a lv e in th e F ittin g
1
2.
3.
4.
5.
6.
I
S y s te m
(O .K .)
21°C
(70° F)
A M B IE N T TEMP.
A/C
O U T LE T
TEMP.
S ystem
(O.K.)
SET T E M P LEVER TO F U LL C O LD
SET SELECTOR LEVER T O M A X A/C
SET BLO W ER S W IT C H O N HI
CLOSE D O O R S A N D W IN D O W S
R U N EN G IN E A T 20 00 R P M
USE A U X . F A N IN F R O N T OF GRILL
27° C
(8 0 °F)
32° C
(90°F)
38° C
(100°F)
43° C
(1 10°F)
PICK-UP
5-8°C
(41-47)
5-8°C
(41-47)
6-10°C
(42-50)
6 -1 1°C
(43-57)
6 -1 1°C
(43-51)
SU B U R B A N
6-9°C
(42-48)
6-9°C
(42-48)
10-14°C
(50-58)
12-17°C
(54-62)
14-19°C
(57 67)
O U T LE T TE M P E R A T U R E
HIGH A S PER C H AR T
O U T LE T TE M P E R A T U R E
W IT H IN LIM IT S
S y s te m
(O .K .)
C he ck C o m p re s s o r C y c lin g
O N C O N T IN U O U S L Y
CYCLE O N A N D OFF OR
R E M A IN S OFF FOR LO N G
PERIOD OF T IM E
••D is c h a rg e S y s te m a n d C he c k For
M is s in g E x p a n s io n T u b e
D is c h a rg e S y s te m a n d
C he ck fo r P lu g g e d E x p a n s io n T ub e
| M IS S IN G
|
IN PLACE
i
i
S y s te m
I
E v a c u a te & C h a rg e
i_____
E v a c u a te fit C h a rg e
C LE AN
(O .K .)
I
R e p a ir o r R e p la ce S cree n
S y s te m O v e r C h a rg e d
I
E v a cu a te & C h a rg e
i
S ystem
E va cu a te & C h a rg e
(O .K.)
LIG H T T R U C K SE RV IC E M A N U A L
R ep lace
T
C heck C o m p re s s o r In le t
S cree n
_____________
In s ta ll E x p a n s io n T u b e
I
S ystem
(O K .)
S ys te m
(O .K.)
AIR CONDITIONING
IB -15
SERVICE DIAGNOSTIC PROCEDURE
INSUFFICIENT COOLING
A/C SYSTEMS WITH CYCLING CLUTCH — EXPANSION TUBE
(PRESSURE SENSING)
M O V E T E M P LEVER R APID LY B A C K A N D FORTH
FR O M H O T T O C O L D . LIS T E N FOR D O O R H IT T IN G
A T EACH END
T h is S y s te m D oe s N o t H ave a S ig h t G lass. U n d e r N o
C irc u m s ta n c e s S h o u ld a S ig h t G lass Be In s ta lle d
F eel L iq u id L in e B e fo re E x p a n s io n T u b e
R e s tric tio n in H ig h S id e o f S y s te m .
V is u a lly C heck fo r F ro s t S p o t to Lo c a te
R e s tric tio n . R e p a ir as N ec e s s ary .
Feel E v a p o ra to r In le t a n d O u tle t P ip es
IN LE T PIPE A N D O U T LE T
PIPE S A M E T E M P E R A
TU RE OR O U T LE T
COLD ER T H A N IN LE T
I
I
S y s te m
E v a c u a te & C h a rg e
In s ta ll G a ge S e t a n d C h e c k C o m p re s s o r
C y c lin g Press,
(O .K.)
i
O N a t 2 8 2 .6-35 1.6 kPa (41-51 PSI)
OFF a t 138-193 kPa (20-28 PSI)
R U N S C O N T IN U O U S L Y
W IT H IN L IM IT S
| C YC LES W IT H IN L IM IT S
CYCLES H IG H OR LO W
(ON A B O V E 51 PSI
OR OFF B E LO W 20 PSI)
|
T
D is c o n n e c t B lo w e r W ir e a n d C he c k F or
C y c lin g O ff a t 13 8-1 93 kPa (20 -2 8 PSI)
P R ESSU R E FALLS
B E L O W 20 PSI
D e fe c tiv e
P re ssu re
S w itc h
CYCLES OFF A T 138-193
kP a (20 -2 8 PSI) OR D O ES
N O T PU LL D O W N TO
PRESS
D e fe c tiv e P re s s u re
S w itc h
I
R ep lace
•D o N o t D is c h a rg e
S y s te m , T h e re
In s ta ll T h e rm o m e te r in A/C O u tle t an d
C he ck P e rfo rm a n c e
R eplace. ’ D o N o t D is c h a rg e
S y s te m . T h e re is a S c h ra d e r
V a lv e in th e F ittin g
1.
2.
3.
4.
5.
6.
I
S ystem
(O .K.)
A M B IE N T TEMP.
A /C
O U T LE T
TEMP.
S yste m
(O .K.)
SET T E M P LEVER TO F U LL C O LD
SET SELECTOR LEVER TO M A X A/C
SET B LO W E R S W IT C H O N HI
CLOSE D O O R S A N D W IN D O W S
R U N EN G IN E A T 2000 R .P.M
U SE A U X . F A N IN F R O N T OF G R ILL
21°C
(70° F)
27° C
(80 °F)
32° C
(9 0 °F)
38° C
(100° F )
43° C
( 1 10°F)
PICK-UP
5-8°C
(41-47)
5-8°C
(41-47)
6-10°C
(42-50)
6-1 f C
(43-57)
6 -1 1°C
(43-51)
S U BU R BA N
6-9°C
(42-48)
6-9°C
(42-48)
10-14°C
(50-58)
12-17°C
(54-62)
14-19°C
(57-67)
O U T LE T TE M P E R A T U R E
H IG H A S PER C H AR T
O U T LE T TE M P E R A T U R E
W IT H IN L IM IT S
T
S y s te m
(O .K.)
C he ck C o m p re s s o r C y c lin g
O N C O N T IN U O U S L Y
CYCLE O N A N D OFF OR
R E M A IN S OFF FOR LO N G
PERIOD OF T IM E
------------------------f -----------------------
’ •D is c h a rg e S y s te m a n d C he ck For
M is s in g E x p a n s io n T u b e
D is c h a rg e S y s te m a n d
C heck fo r P lu g g e d E x p a n s io n T ub e
i
i
E v a c u a te & C h a rg e
i
S yste m
R ep lace
In s ta ll E x p a n s io n T u b e
C he ck C o m p re s s o r In le t
S cree n
i
E v a c u a te & C h a rg e
S y s te m
(O .K.)
(O .K.)
P LU G G E D
R ep air o r R ep lace S cree n
I
i
S ystem
E v a cu a te & C h a rg e
(O .K.)
S y s te m O v e r C h a rg e d
I
E v a cu a te & C h a rg e
S ystem
(O .K.)
L IG H T T R U C K SERVICE M A N U A L
IB-16
AIR CONDITIONING
ELECTRICAL/VACUUM TROUBLE DIAGNOSIS
W hen diagnosing problem s in the electrical and vac
uum systems of the air conditioning system, consult electri
cal wiring diagram s and vacuum diagram s.
Ports on rotary vacuum valves are illustrated in a
m anner to provide sim plicity in following vacuum schem atic
lines but are num bered in consecutive order on the actual
valve.
Operational Test
To aid in determ ining w hether or not the air condition
ing electrical, air, vacuum and refrigeration systems are
operating properly and efficiently, refer to C h art IB-3.
1. O peration of the air conditioning blower at all four
speeds and engagem ent of the compressor clutch would
indicate th a t electrical circu its are functioning
properly.
2. The same hand-felt tem perature of the evaporator inlet
pipe and the accum ulator can surface of an operating
system would indicate a properly charged R -12 system.
3. O peration of the A /C control selector (mode) lever to
d istrib u te air from designed outlets would indicate
proper vacuum and diaphragm function.
VACUUM SYSTEM DIAGNOSIS
C-K and G, C60 SYSTEM
S ta rt the engine and allow it to idle - move the selector
lever to each position and refer to the vacuum diagram s and
operational charts for proper airflow, air door functioning
and vacuum circuits. If air flow is not out of the proper
outlets a t each selector lever position, then proceed as
follows:
1. C heck for good hose connections—a t th e vacuum
actuators, control head valve, reservoir, tees, etc.
2. Check the vacuum source circuit as follows:
Install vacuum tee and gage (with restrictor) at the
vacuum tank outlet (R efer to V acuum D iagram ). Idle
the engine and read the vacuum (a normal vacuum is
equivalent to manifold vacuum ) a t all selector lever
positions.
a. Vacuum Less T han N orm al A t All Positions Remove the tee and connect the vacuum gage line
directly to the tank - read the vacuum . If still low,
then the problem lies in the feed circuit, the feed
circuit to the tan k or in the tank itself. If vacuum is
now norm al, then the problem lies downstream .
b. Vacuum Less T han N orm al at Some Positions.
If vacuum was low at one or several of the selector
lever positions, a leak is indicated in these circuits.
LIG H T T R U C K SE RV IC E M A N U A L
c. Vacuum N orm al at All Positions;
If vacuum was norm al and even at all positions, then
the m alfunction is probably caused by improperly
connected or plugged lines or a defective vacuum
valve or valves.
3. Specific Vacuum C ircuit Check
Place the selector lever in the m alfunctioning position
and check for vacuum at the pertinent vacuum actua
tors. If vacuum exists at the actuator but the door does
not move, then the actuator is defective or the door is
m echanically bound. If low or no vacuum exists at the
actuator, then the next step is to determ ine w hether the
cause is the vacuum harness or the vacuum valve.
Check the vacuum harness first.
4. Vacuum H arness C ircuit Check
a. Disconnect the vacuum harness at the control head.
b. The black line ( # 1 ) should show engine vacuum - if
not, trace back through connector to vacuum tank.
c. To check any individual circuit place the selector
lever at the involved circuit position and check for
vacuum presence.
VACUUM AND WIRING DIAGRAMS
Refer to Fig. 1B -14 thru 1B-22.
COMPRESSOR DIAGNOSIS
Check for proper air gap.
CLUTCH SLIPPING.
Correct if necessary.
(.022-.057)
CO M PRESSO R E N G A G ED
If previous step does not
correct clutch slippage,
repair compressor.
B U T N O T O P E R A T IO N A L
BELT SLIPPING.
Check and correct
belt tension.
HIGH TORQUE COMPRESSOR.
(SEIZED)
REFRIGERATION CHARGE
IS DEPLETED.
SYSTEM HAS SOME
REFRIGERANT.
LEAKS
R E F R IG E R A N T .
Add one pound
refrigerant.
Leak test complete
system before
removing compressor.
Repair compressor.
Operate and leak
test system.
Repair compressor.
Blow out seal cavity
CO M PRESSO R
T H R O W S O IL .
with air hose and
leak test.
D O E S NOT L E A K
Wipe off oil - O.K.
NOISY ONLY WHEN
CLUTCH IS ENGAGED.
LIGHT
TRUCK
A/C system noise is to
be evaluated in the
vehicle w ith doors and
windows closed and low
blower on.
NOISY WHEN CLUTCH
IS NOT ENGAGED.
parts. Isolate and
re-evaluate noise.
Remove compressor belt
to determine if noise
still persists.
Check and adjust
belt tension.
Check for interference
between coil housing
and pulley hub.
Repair compressor
if noise is
objectionable.
If interference
exists, repair
compressor.
AIR CONDITIONING
NOTE:
Check for refrigerant
lines touching metal
SERVICE
IB -1 7
MANUAL
TRUCK
IB -18
LIGHT
INSUFFICIEN T COOLING D IA G N O S IS CHART
DASH MOUNTED UNIT (MOTOR HOME CHASSIS UNITS)
M ANUAL
4. Check for broken, burst, or cut hoses. Also check for loose fittings on all components.
N O R M A L A IR FLO W
j CHECK
5.
6.
7.
8.
9.
Check
Check
Check
Check
Install
for condenser air blockage due to foreign material.
for proper air ducting hose connections.
heater temperature door adjustment, adjust if incorrect.
evaporator sealing for air leak, repair if leaking.
pressure gages and thermometer and make performance test.
C H E C K A IR FLO W
NO O R LO W A I R F L O W
C H E C K B L O W E R O P E R A T IO N
D IS C H A R G E A I R T E M P E R A T U R E (S E E P E R F O R M A N C E D A T A ) |
B L O W E R N O T O P E R A T IN G
N O R M A L B L O W E R O P E R A T IO N
I
D IS C H A R G E T E M P E R A T U R E
A T O U T LET COLD
C H E C K F O R B L O W N F U S E , D E F E C T IV E B L O W E R SW IT C H ,
H IG H O U T L E T A IR
TEM PERATU RE
CHECK FOR A IR LE A K S TH R O U G H D ASH PA N E L.
DOORS, WINDOW S, OR FROM H EA TE R .
Check for loose or disconnected air distribution ducts,
restricted or leaking air ducts, partially closed air out
let valve or clogged evaporator core, if above check is
O K, check for ice blocking evaporator.
B R O K E N W IR E . L O O S E C O N N E C T IO N S , L O O S E B L O W E R M O T O R
G R O U N D W IR E O R I N O P E R A T IV E B L O W E R M O T O R .
C H E C K S IG H T G L A S S
IC E B L O C K IN G
EVAPO RATOR
|'f o a m i n g | "
SYSTEM
NO F O A M IN G
IS P R O B A B L Y L O W O N R E F R IG E R A N T .
C H E C K F O R L E A K S . R E P A IR , A N D A D D
R E F R IG E R A N T . IF F O A M IN G S T I L L O C C U R S ,
C H E C K F O R R E S T R IC T IO N IN R E F R I G E R A N T
S Y S T E M B E T W E E N C O N D E N S E R A N O S IG H T
G LA SS.
C H EC K FO R LOW E V A P O R A T O R P R E SSU R E
1. A L L O W S Y S T E M T O W A R M UP.
2. S T O P A N D R E S T A R T E N G IN E .
3. C H E C K E V A P O R A T O R P R E S S U R E
IM M E D IA T E L Y A F T E R R E S T A R T A N O
PU LL DOW N OF E V A P O R A T O R PR ESSU R E.
1. S Y S T E M M A Y B E E IT H E R F U L L Y C H A R G E D O R E M P T Y .
F E E L H IG H A N D L O W P R E S S U R E P IP E S A T C O M P R E S S O R .
H IG H P R E S S U R E P IP E S H O U L D B E W A R M . L O W P R E S S U R E
P IP E S S H O U L D B E C O L D .
2. IF P IP E S A R E N O T IN D IC A T IN G P R O P E R T E M P E R A T U R E S ,
R E C H A R G E S Y S T E M A S R E C O M M E N D E D . IF N O Z Z L E A IR
T E M P E R A T U R E IS S T IL L H IG H . C H E C K E V A P O R A T O R
PRESSU RE.
NO RM AL EVAPO RATO R
PRESSU RE
X
LOW E V A P O R A T O R
•PRESSU RE
*C H E C K E V A P O R A T O R P R E S S U R E
Z= 1
,
,
B Y R E M O V IN G V A L V E A N D B L O W IN G T H R O U G H
V A L V E . IF U N A B L E T O B L O W T H R O U G H V A L V E ,
B U L B IS D IS C H A R G E D . R E P L A C E E X P A N S IO N
VALVE.
Check for m alfunctioning
expansion valve-See
C om ponent Diagnosis.
Check for m alfunctioning
expansion valve-See
Com ponent Diagnosis.
NORMAL
X
L O W D IS C H A R G E
*
PR ESSU RE
----
EVAPO RATO R PRESSU RE
C H E C K C O M P R E S S O R D IS C H A R G E P R E S S U R E
1. C H E C K F O R L IQ U ID L IN E R E S T R IC T IO N
( F R O S T S P O T O N L IN E ). IF NO T,
2. C H E C K F O R P L U G G E D IN L E T S C R E E N IN
E X P A N S IO N V A L V E . IF N O T ,
3. C H E C K F O R D E F E C T IV E E X P A N S IO N V A L V E
1------T
I
S Y S T E M H A S E X C E S S M O IS T U R E . R E P L A C E R E C E I V E R
D E H Y D R A T O R AND EV A C U A T E TH O RO U G H LY . R E C H A R G E
SY STEM .
H IG H E V A P O R A T O R
*
P R ESSU RE
C H E C K E V A P O R A T O R O U T L E T L IN E
EV A PO RA T O R OUTLET
L IN E W A R M
~
LOW E V A P O R A T O R
*
PR ESSU RE
I
| Check Compressor Discharge Pressure.
,----- =3------------------| H IG H D IS C H A R G E P R E S S U R E
I
1. Check engine cooling system, fan clutch and check
for restricted air flow thru condenser.
2. Check expansion valve bulb contact. Correct if
necessary.
3. Check for refrigerant restriction in condenser.
Return bends at equal elevation should be
approximately same temperature. If temperature
of bends is appreciably different, the cooler
bend indicates a restricted circuit, replace con
denser if restriction is found, If condenser is O K,
check for air in system. T o check observe outlet
air temperature and com pressor discharge
pressure while slowly discharging system at
receiver inlet connection.
L O W D IS C H A R G E P R E S S U R E !
N O R M A L D IS C H A R G E P R E S S U R E
X
Check for restriction in liquid line,
partially plugged inlet screen at
expansion valve, or defective
expansion valve, replace valve if
defective.
JL
Refrigeration System is ok
1. Check for proper function of heater T E M P E R A T U R E door.
2. Check for proper sealing of evaporator case.
3. Check for proper operation and seal around temperature door.
4. N on-Foam ing sight glass does not always indicate a fully
charged system. A d d 1/2 lb. refrigerant and observe
performance.
5. Check for excess oil in system. A sym ptom of excess oil is a
slipping clutch or belt or broken belt. T o remove excess oil
in system see " C H E C K I N G
C H A R G E ".
D ash M o u n te d U n i t ( M o t o r H o m e C ha ssis)
O U T L E T A IR T E M P E R A T U R E
D R O PS A S C O M PRESSO R
D IS C H A R G E P R E S S U R E D R O P S
O U T L E T A IR T E M P E R A T U R E
IN C R E A S E S A S C O M P I " " ? R
D IS C H A R G E P R E S S U R E D R O P S
L E A K T E S T S Y S T E M , R E P A IR
A S N E C E S S A R Y . D IS C H A R G E .
R E P L A C E E X P A N S IO N V A L V E
EVACUATE. AN O RECHARG E.
O IL
(R e frig e ra n t C ha rge — 3 lb s.-4 o z .)
T e m p e ra tu re o f
A ir E n te rin g
C o n d e n se r
• R E F E R TO P E R F O R M A N C E
C H A RT FO R C O R REC T PR ESSU RES
CO M P RESSO R
70°
80°
90°
110120
13 5 MS
160170
E ngine rpm
C o m pre ssor
H ead Pressure*
110°
120°
190200
22 0 230
260270
10
10
13
4247
4449
4449
200 0
Pressure psi*
D ischarge A ir .
T e m p e ra tu re *
100°
4045
4146
4146
*Ju st p rio r to c o m p re sso r c lu tc h dise n g ag e m e n t.
AIR CONDITIONING
SERVICE
The follow ing procedures should be applied before performance testing an A/C System.
1. Check for proper belt installation and tension with J-23600.
2. Check for proper clutch coil terminal connector installation.
3. Check for clutch air Gap (.022 • .057).
ELECTRICAL SYSTEM DIAGNOSTIC CHART
BLOWER MOTOR INOPERATIVE
(CERTAIN SPEEDS-EXCEPT HIGH
ON C-K FOUR-SEASON)
B L O W E R M O T O R IN O P E R A T IV E
(A N Y S P E E D )
Check for proper
fuse
I fu se q k |
1 F U SE B L O W N !
Disconnect resistor connectors, connect one lead
of a self powered test light to any one terminal
and use the other lead to probe each of the
other terminals.
The following tests should be made
with the ignition switch in " R u n "
With ign. switch in " R u n " position
and heater or A /C on, locate short in
one of the following wires: (see note)
position, heater or A /C on and
blower switch on high.
----
I
Check blower motor ground
X
1. From fuse panel to master
switch on control.
2. From master switch to compressor
clutch.
3. Master switch to blower switch.
4. From blower speed switch to
resistor.
5. From resistor to blower motor.
I poor or
no
g r o u n d
|
Repair ground
Iground
ok
I
T E S T L IG H T D O E S N O T
Check motor connector with
12 volt test light.
| L A M P L IG H T S !
T E S T L IG H T L IG H T S ON
L IG H T O N A L L T E R M I N A L S
A L L T E R M IN A L S
X
Replace resistor
With ignition switch in "R u n " position and heater
or A/C on, use 12 volt test lamp to check for
voltage at resistor connector w ith blower speed
switch in each position.
[ L A M P D O E S N O T L IG H T j
X
Check wire connector on
Replace motor
blower relay with 12 volt test light.
( l a m p L IG H T S IN a l l p o s i t i o n s |
L A M P D O E S N O T L IG H T IN A L L P O S IT IO N S
I
.......- t ____
( l a m p l ig h t s !
NOTE: Short circuit may be inter
m ittent. If tester does not indicate
a short circuit, move heater harness
around as much as possible to re
create short circuit. Watch and listen
fo r arcing.
Repair open in
wire from blower
motor to blower
| L A M P D O E S N O T L IG H T j
Check wire connector on blower
relay with 12 volt test light.
X
relay.
|L A M P L IG H T S
p L A M P D O E S N O T L IG H T ]
Use 12 volt test light and check
wire terminals at resistor.
I L A M P L IG H T S !
Replace relay
X
LAM P OFF
L A M P L IG H T S
resistor to blower
speed switch.
LIGHT
TRUCK
[L A M P 0 FFJ
T
SERVICE
Replace blower
speed switch.
Replace resistor
1
1 (LAM P
- .......
Replace blower relay.
D O E S N O T L IG H T !
X
Turn ignition key o ff and put Heater or A/C
Control in o ff position. With blower resistor wire
connector disconnected, connect a jumper lead
from battery positive terminal to the wire terminal
in connector. Use 12 vo lt test light to check fo r
voltage at wire at blower speed switch connector.
Repeat same test on the other wires.
Repair Open in wire
X
from resistor to
blower relay.
LAMP LIGHTS ON
A L L WIRES
LAMP DOES NOT LIGH T
ON A L L WIRES
Replace blower speed
switch.
affected wire.
Repair open in
AIR CONDITIONING
Check F E E D wire from
|l a m p 0 n |
Connect 12 volt test light at wire
terminal on blower relay (wire
from resistor to blower relay).
Repair open in wire
from blower speed switch.
IB -19
M ANUAL
IB-20
AIR CONDITIONING
CHANGE IN AIR FLOW
1
LITTLE OR NO CHANGE IN AIR FLOW
.........
NORMAL AIR FLOW
| LOW OR NO AIR FLOW |
I
Check heater outlet temperature
w ith 220° F range thermometer.
Check shutoff door position for full
system air flow. Adjust if necessary.
(approximate outlet air temperatures)
Outlet Air
Ambient Air
0
150
25
155
40
75
LOW AIR FLOW |
|
NO AIR FLOW
|
CHECK FUSE
NORMAL TEMPERATURE
Check heater outlet for obstruction - re
move.
Remove all obstructions under fro n t seat.
Car does not build up heat - operate vent
controls and see that the air vent doors
close completely, if not, adjust.
LOW TEMPERATURE
(Check the system temperature after re
pairing the item checked to complete the
diagnosis.)
Check coolant level; if low, fill. Look for
or feel all radiator and heater hoses and
connections for leaks. Repair or replace.
Check the radiator cap for damage and re
place if required.
Check motor voltage at closest motor line
connection with a voltmeter.
Al R FLOW - system okay.
UNDER 10 VOLTS | | OVER 10 VOLTS
Check battery volts - under 10 volts,
recharge then recheck motor voltage.
Check wiring and connections for
under 10 volts from motor to fan
switch. Repair or replace last point
of under 10 volt reading.
Check heater and radiator hoses for kinks
straighten and replace as necessary.
Check temperature door for max heat po
sition. Adjust if necessary.
....................... I------------------
FUSE BLOWN - replace fuse.
BLOWS FUSE
Remove positive lead from motor and
replace fuse.
FUSE REMAINS OK - remove motor
and check for obstruction in system
opening, if none, REPLACE MOTOR.
If obstruction, remove material and
re-install motor.
BLOWS FUSE - check for shorted
wire in blower electric circuit See Heater Circuit Diagnostic Chart.
Apply external ground, (jumper wire) to
motor case. INCREASED AIR FLO W repair ground.
[ HEATER CORE [
Feel temperatures of heater inlet and outlet hoses.
WARM INLET AND OUTLET HOSES
Check engine thermostat.
HOT INLET AND WARM OUTLET HOSES
Check pulleys, belt tension, etc., fo r pro
per operation. Replace or service as neces
sary.
Remove hoses from heater core. Reverse
flush w ith tap water. If plugged, repair or
replace.
L IG H T T R U C K SE R V IC E M A N U A L
SAME AIR FLOW - remove motor and
check for obstruction in system open
ing. If none, REPLACE MOTOR. If
obstruction, remove material and re
install motor.
FUSE OK - See Heater Circuit
Diagnostic Chart.
AIR CONDITIONING
IB-21
S H E E T M E T A L « m _ .,
- BLK— H g \
Q
BLCWER
MOTOR
(2004627
SEE NOTE A
£ r\
S T
BLOWER RELAY
RESISTOR
•I LT GRN-6 6 B
I D K G R N -5 9 ■£
BLK-150----
[3 1 —
5 RED-2
(S I —
I DK
ASM
■iCRD
-£
-1
-I
- I
-I
B L U -IO I
| } - . 8 0 R N - 5 2 ------
ORN-52-------TAN-63-------BRI'VWHT-646LT BLU-72----LTGRN-66A—
---------1BRN/WHT-648,
'- I 0RN(WH>64A'^
& ORN-52-) TAN-63 —
-I LT BLU-72-
BLOWER SWfTCH
-5 PPL- 6 5
29649H
-5 RED-2 -
COMPRESSOR
12004268 - j
MOUNTNG
BLK-I50C
XSXLHSl!BRACKET
GND
i
->5 LT G RN(SXU------- E S
FAST ID L E
SOLENOID
DK GRN-59$XL)
-I BRN/WHT-64A1 LTGRN-66AI BRN-50 -----
NOTE:
* l USE WITH
12010191
SELECTOR SWITCH
RETAINER
AIR CONDITIONING
R P 0C -60
Fig. 1B-14--C60 System W iring Diagram (C-K Series)
i iLK-l50E(SXL)
S E [ S S — 2BRN-C
I
\ A —6917585
' ---- §917580
1-------- 2 BRN VP HARN
ACC FUSED 2 0 A
AIR CONDITIONING
RP.Q-C60
Fig. 1B-15--C60 System Wiring Diagram (G Series)
LIG H T T R U C K SERVICE M A N U A L
IB-22
AIR CONDITIONING
REAR BLOWER
WESISTgR
2 )t i
- w
m
-12004752 GROMMET
7541
•9175422 LT BLIV6LK-872
>— 2 YEL/BLK-851-2 0RI►/ blk - i8 5 2 MNI-C6Q-
W
MC.
-2LTBLIVBLK
-2YEU/BLK---- [•Ml ( Ml
-2 OR^BLK— i-w- ii-r-i
KO HO
•2 LT BLLVBLK-872 — i
- 2 YEL^LK-851 —
- 2 QRN/BLK-852A
-30R IVB LK -852B -1
-2 B R N -5 0 — ■
- 2 B R N -5 0 -
hi
SEAR BLOWER
MOTOR
SHEET
METAL
3 BRfVW HT-850
GRD
REAR A/C SWITCH
•8917580*
8 9 I7683
5 ORH^BLK-852-
L - 30RNfeLK-852B
891758
-2 B R N -50
2 BRN INST PNL HARM
FUSED 25AMP
12004493
RPQ-C60j
WR&
i
REF:
-2 B R N -50H
FUSE BLOCK
Fig. 1 B-16--Overhead Systems Wiring Diagrams-AII
L IG H T T R U C K SE RV IC E M A N U A L
SELECTOR
CONTROL
R P 0-C 60
Fig. 1B-17--C60 System Vacuum
Diagram
(C-K Series)
AIR CONDITIONING
IB-23
IB -24
AIR CONDITIONING
Fig. 1B-18--C60 System Vacuum Diagram (G Series)
L IG H T T R U C K SE RV IC E M A N U A L
HI
I TO
FUSE PANEL
||l G RO U N D
Fig. 1B-19--C60 Motor Home Chassis Wiring
COM PRESSOR
Z
ctr
O
RESISTOR.
BLOWER
M OTOR
I
101 16 DK BLU
1
I•
J
ft
■52 16 DK BLU
■72 16 LT BLU'
BLOWER SWITCH
— 51 16 YEL
SET AT
Diagram
B LO W E R -E V A P O R A T O R
ASSEMBLY
N TO N O N E
LOW
N TO 1 & 2
MED
N TO 1 & 4
HIGH
N TO 1, 3 & 4
AIR CONDITIONING
THERMOSTATIC
SWITCH
BLOWER
SWITCH
CONNECTIO N
OFF
IB-25
IB-26
AIR CONDITIONING
Fig. 1B-20--I.P. A /C Harness Wiring
L IG H T T R U C K SE RV IC E M A N U A L
AIR CONDITIONING
IB-27
LIG H T T R U C K SERVICE M A N U A L
IB-28
AIR CONDITIONING
INSUFFICIENT COOLING "QUICK-CHECK"
PROCEDURE
The following C C O T "H an d -F eel" procedure can be
used to quickly determ ine w hether or not the A /C system
has the proper charge of R-12 (providing am bient tem pera
ture is above 70°F (21°C ). This check can be m ade in a
m atter of m inutes, simplifying system diagnosis by pinpoint
ing the problem to the am ount of R-12 charge in the system
or by elim inating this possibility from the over-all checkout.
1. E ngine m ust be w arm (C H O K E O P E N and O F F
FA ST ID L E SPE E D C A M ).
2. Hood and body doors open.
3. Selector lever set at N O R M .
4. T em perature lever a t CO LD .
5. Blower on H I.
6. N orm al engine idle.
7. " H a n d -F e e l" te m p e ra tu re of evaporator inlet pipe
A N D accu m u lato r can su rface w ith com pressor
engaged.
a. B O T H S A M E T E M P E R A T U R E A N D S O M E
D E G R E E C O O L E R T H A N A M B IE N T -P ro p e r
condition: check for other problems (R efer to A /C
System Diagnostic Procedure).
b. IN L E T P IP E C O O L E R than accum ulator surface
low refrigerant charge.
• Add slight am ounts 120 ml (1 /4 lb.) of refrigerant
U N T IL B O TH feel the sam e tem perature. Allow
stabilization tim e between additions.
• T hen add 420 ml (14 oz.) (1 can) ad ditional
refrigerant.
c. IN L E T P IP E H A S F R O S T A C C U M U L A T IO N A ccum ulator surface w arm er; proceed as stated in
Step b.
SPECIFIC COMPONENT DIAGNOSIS
The following is a description of the type of symptom
each refrigerant com ponent will evidence if a defect occurs:
COMPRESSOR
A compressor defect will appear in one of four ways:
Noise, seizure, leakage, or low discharge pressure.
NOTICE: Resonant com pressor noises are not cause for
alarm ; however, irregular noise or rattles m ay indicate
broken parts or excessive clearances due to wear. To
check seizure, de-energize the m agnetic clutch and
check to see if drive plate can be rotated. If rotation is
im possible, com pressor is seized (R efer to "F alse
Compressor S eizu re"). To check for a leak, refer to
leak testing. Low discharge pressure may be due to a
faulty internal seal of the compressor, or a restriction in
the compressor.
Furtherm ore, low discharge pressure m ay be due to an
insufficient refrigerant charge or a restriction elsewhere
LIG H T T R U C K SE RV IC E M A N U A L
in the system. These possibilities should be checked
prior to servicing the compressor. If the compressor is
inoperative, but is not seized, check to see if current is
being supplied to the m agnetic clutch coil term inals.
CONDENSER
A condenser may be defective in two ways: it may leak,
or it may be restricted. A condenser restriction will result in
excessive compressor discharge pressure. If a partial restric
tion is present, sometimes ice or frost will form immediately
after the restriction as the refrigerant expands after passing
through the restriction. If air flow through the condenser or
radiator is blocked, high discharge pressures will result.
D uring normal condenser operation, the outlet pipe will be
slightly cooler than the inlet pipe.
RECEIVER-DEHYDRATOR - MOTOR HOME
CHASSIS
A defective receiver-dehydrator m ay be due to a
restriction inside the body of the unit. A restriction at the
inlet to the receiver-dehydrator will cause high head
pressures. O utlet tube restrictions will be indicated by low
head pressures and little or no cooling. An excessively cold
receiver-dehydrator outlet may be indicative of a restriction.
EXPANSION VALVE
A m alfunction of the expansion valve will be caused by
one of the following conditions: valve stuck open, valve stuck
closed, broken power element, a restricted screen or an
improperly located or installed power elem ent bulb. The
first three conditions require valve replacem ent. The last two
may be corrected by replacing the valve inlet screen and by
properly installing the power elem ent bulb.
A ttachm ent of the expansion valve bulb to the evapora
tor outlet line is very critical. The bulb must be attached
tightly to the line and must make good contact with the line
along the entire length of the bulb. A loose bulb will result in
high low side pressures and poor cooling.
Indications of expansion valve trouble are provided by
perform ance tests; consult diagnostic charts.
VALVE ST U C K O PE N
Noisy Compressor
N o Cooling - Freeze Up.
VALVE ST U C K C L O SE D , BR O K EN PO W ER
E L E M E N T O R PL U G G E D S C R E E N
Very Low Suction Pressure.
N o Cooling.
PO O R L Y LO C A TED PO W E R E L E M E N T BULB
N orm al Pressure.
Poor Cooling.
Diagnosis for Defective Valve
The following procedure must be followed to determ ine
if a m alfunction is due to a defective expansion valve.
1. Check to determ ine if the system will m eet the per
form ance test as outlined previously. If the expansion
valve is defective, the low pressure readings (evaporator
pressure) will be above specifications.
2. The loss of system perform ance is not as evident when
the compressor head pressure is below 1 379 kPa (200
psi). Therefore, it may be necessary to increase the
AIR CONDITIONING
system head pressure by partially blocking the con
denser. Disconnect the blower lead wire and repeat the
"perform ance check" to determ ine if the evaporator
pressure can be obtained.
3. The system will also indicate a low refrigerant charge
by bubbles occurring in the sight glass (M otor Home
Chassis System s).
EVAPORATOR
W hen the evaporator is defective, the trouble will show
up as an inadequate supply of cool air. A partially plugged
core due to dirt, a cracked case, or a leaking seal will
generally be the cause.
REFRIGERANT LINE RESTRICTIONS
Restrictions in the refrigerant lines will be indicated as
follows:
1. Suction Line - A restricted suction line will cause low
suction pressu re a t th e com pressor, low discharge
pressure and little or no cooling.
2. D ischarge Line - A restriction in the discharge line
generally will cause the pressure relief valve to open.
3. Liquid Line - A liquid line restriction will be evidenced
by low discharge and suction pressure, and insufficient
cooling.
IB-29
Sight Glass Diagnosis (Motor Home Chassis Units)
At tem peratures higher than 70°F (21°C), the sight
glass may indicate wheter the refrigerant charge is suffi
cient. A shortage of liquid refrigerant is indicated after
above five m inutes of compressor operation by the appear
ance of slow-moving bubbles (vapor) or a broken column of
refrigerant under the glass. Continuous bubbles may appear
in a properly charged system on a cool day. This is a normal
situation. If the sight glass is generally clear and perform
ance is satisfacto ry , occasional bubbles do not indicate
refrigerant shortage.
If th e sight glass consistently shows foam ing or a
broken liquid column, it should be observed after partially
blocking the air to the condenser. If under this condition the
sight glass clears and the perform ance is otherwise satisfac
tory, the charge shall be considered adequate.
In all instances where the indications of refrigerant
shortage continues, additional refrigerant should be added
in 120 ml (1 /4 lb.) increm ents until the sight glass is clear.
An additional charge of 240 ml (1 /2 lb.) should be added as
a reserve after the glass clears. In no case should the system
be overcharged.
ON VEHICLE SERVICE
EVACUATING AND CHARGING PROCEDURES
PRECAUTIONARY SERVICE MEASURES
Before any service is attem pted which requires opening
of refrigerant lines or com ponents, the person doing the
work should be thoroughly fam iliar with the inform ation
under P R E C A U T IO N S IN H A N D L IN G R E F R IG E R
A N T -12, P R E C A U T IO N S IN H A N D L IN G R E F R IG
E R A N T L IN E S A N D F IT T IN G S M A IN T A IN IN G
C H E M IC A L S T A B IL IT Y IN T H E R E F R IG E R A T IO N
S Y S T E M , A N D R E F R IG E R A N T C H A R G IN G P R E
C A U T IO N S and should follow very carefully the D IS
C H A R G IN G , E V A C U A T IN G , O IL A D D IT IO N A N D
C H A R G IN G T H E R E F R IG E R A N T S Y ST E M instruc
tions given on th e following pages for the unit being
serviced.
M ake sure fittings are dry prior to reassembly. If dirt, grease
or moisture get inside pipes and cannot be removed, the pipe
should be replaced.
Sealing caps should be removed from subassemblies
ju st prior to making connections for final assembly. Use a
small am ount of clean 525 viscosity refrigerant oil on all
tube and hose joints. Always use new "O " rings dipped in
the clean refrigerant oil when assembling joints. The oil will
aid in assembly and help provide a leak-proof joint. W hen
tightening joints, use a second wrench to hold stationary
part of connection so th at a solid feel can be attained. This
will indicate proper assembly.
NOTICE: Tighten all tubing connections as
torque chart (C hart IB-9). Insufficient or
torque when tightening can result in loose
deformed joint parts. Either condition can
refrigerant leakage.
T he m ajor reasons behind these m easures are safety
and the prevention of d irt and m oisture in the system which
can restrict A /C system refrigerant flow.
The presence of m oisture can also cause the form ation
of hydrochloric or hydrofluoric acids in the system.
All subassem blies are dehydrated and sealed prior to
shipping. T hey are to rem ain sealed until ju st prior to
making connections. All subassemblies should be at room
tem perature before uncapping (this prevents condensation
of m oisture from the air th a t enters the system ). If, for any
reason, caps are removed but the connections are not made,
parts should be resealed as soon as possible.
All precautions should be taken to prevent dam age to
fittings or connections. A ny fittings getting grease or dirt on
them should be wiped clean with a cloth dam pened with
Stoddard solvent, kerosene (or equivalent) m ay be used.
shown in
excessive
joints or
result in
CCOT REFRIGERANT OIL DISTRIBUTION
A-6 C O M P R E S S O R SY STEM - requires 300 ml (10
oz.) of 525 viscosity oil.
R-4 C O M P R E S S O R SY ST E M - requires 180 ml (6
oz.) of 525 viscosity oil.
New oil quantities m ust be added to the system during
Service component replacem ent and conditions stated as
follows:
A. W hen there are no signs of excessive oil leakage, for
the LIG H T T R U C K SERVICE M A N U A L
IB-30
AIR CONDITIONING
M ETAL TUBE
TH R EA D AN D
OUTSIDE
F ITTIN G SIZE
DIA M ETER
1/4
3/8
1/2
5/8
3/4
STEEL
TU BING
TO RQ UE
LB, FT.
Nm
LB. FT.
Nm
10-15
30-35
30-35
30-35
30-35
14-20
41-48
4148
41-48
4148
5-7
11-13
15-20
21-27
28-33
7-9
15-18
20-27
29-37
3845
7/16
5/8
3/4
..
A L U M IN U M OR
COPPER
N O M IN A L
TUBING
TORQUE
TORQUE
WRENCH SPAN
. m ...... .
1 1/16
5/8
3/4
7/8
1 1/16
. liilJ
• Com pressor - Remove, drain oil, m easure, replace same
am ount of new oil plus 30 ml (1 oz.).
• Evaporator - A dd 90 ml (3 oz.).
• Condenser - A dd 30 ml (1 oz.).
• A ccum ulator - Remove, drain oil, m easure, replace
same am ount of new oil plus 30 ml (1 oz.) to compen
sate for th a t re ta in e d by the original accu m u lato r
dessicant.
B. W ith signs of excessive oil leakage, for A-6 Compressor Systems
Remove Com pressor A N D A ccum ulator. D rain, m ea
sure and record T O T A L oil from both components. Discard
old oil.
If less than 180 ml (6 oz.), add 6 oz. of new oil to
system.
If m ore th an 180 ml (6 oz.), add sam e am ount of new
oil as drained.
If a new accum ulator m ust be added to A-6 system, add
1 additio n al ounce of oil to com pensate for th a t held /
absorbed by the original accum ulator dessicant.
For A-6 & R-4 Compressor System s - Condenser - 30
ml (1 oz.).
For R -4 Com pressor S ystem only - A ccu m ulator
(D rain oil, measure, replace sam e am ount plus 30 ml- 1
oz.).
For A -6 C om pressor S ystem only - A ccu m ulator
(R efer to Item 2 below).
2. However, on an A-6 compressor system:
• ? I f either the accum ulator or the compressor is to be
replaced.
•? O r if there are signs of abundant oil leakage.
T H E N BO TH A C C U M U L A T O R A N D C O M
P R E S S O R m ust be removed, oil drained, and m easured to
determ ine correct q u an tity of oil replacem ent for the
system. If the am ount of oil recovered is 120 ml (4 oz.) or
more, replace with a like am ount of new oil. If less than 120
ml (4 oz.) are recovered, add 180 ml (6 oz.) of new oil.
A good A-6 system will have 180 ml (6 oz.) of oil found
in the accum ulator an d/or compressor. N either necessarily
has 90 ml (3 oz.) - could be more or less. This is why BOTH
have to be m easured.
• ? I N A D D IT IO N to these m easure am ounts, one (1)
additional fluid ounce M U ST be added to replace that
am ount captured in the oil desiccant of the replaced
accum ulator assembly.
New service A-6 Compressors are shipped with 300 ml
(10 oz.) of oil already inside. Therefore, when a new
A-6 Compressor is installed, its oil m ust first be drained
and m easured to leave only th at like am ount drained
and m easured in the oil compressor.
3. O N A N R -4 C O M P R E S S O R S Y S T E M W IT H
S IG N S O F A B U N D A N T O IL LEA K A G E:
•? O N L Y T H E A C C U M U L A T O R S H O U L D BE
R E M O V E D from the system, oil drained and then
m easured to determ ine correct quantity of oil replace
ment. If the am ount drained is 60 ml (2 oz.) or more,
replace with like am ount. If less than 60 ml (2 oz.),
replace with 60 ml (2 oz.) of new oil.
• ? I N A D D IT IO N to this am ount, add 30 ml (1 oz.) to
replace the am ount captured in the old desiccant of the
replaced accu m u lato r assem bly. Because the R-4
Compressor has no oil sump, it is not necessary to
remove this compressor to m easure oil.
R-4 Compressor Systems
Remove only the accum ulator. D rain, m easure and
record q u antity of oil in accum ulator. (It is not necessary to
remove and drain the R -4 Com pressor because the R-4
C om pressor only retain s a m inim um q u a n tity of oil-it
doesn’t have an oil sum p area.)
If less than 90 ml (3 oz.), add 90 ml (3 oz.) of new oil to
system.
If more th an 90 ml (3 oz.), add same am ount of new oil
as drained.
If a new A ccum ulator m ust be added to R-4 system,
add 30 ml (1 oz.) of oil to com pensate for th a t held/absorbed
by the original A ccum ulator dessicant.
1. If there are no signs of excessive oil leakage, add the
follow ing am o u n t o f oil depending on com ponent
replaced:
For A-6 & R-4 Com pressor System s - Evaporator - 90
ml (3 oz.).
LIG H T T R U C K SE RV IC E M A N U A L
DISCHARGING EVACUATING ADDING OIL AND
CHARGING PROCEDURES FOR CCOT A /C
SYSTEMS
The refrigerant system m ay be Discharged, Evacuated
and C harged using J-23500-01 air conditioning service
Refrigerant Charge
Overhead System
C-K Models
G Models
C60 System
5 lb».-4 oz.
3 Lbs. -1 2 ox.
5 lbs.
3 lbs.
AIR CONDITIONING
C harging Station or the J-5725-04 M anifold and Gage Set
and 420 ml (14 oz.) disposable cans of R - 12.
C harging lines from the C harging Station or M anifold
and G age Set require the use of gage adapters to connect to
system service fittings. A straight gage A dapter J-5420 and
a 90° angle gage A dapter J-9459 are available.
CAUTION:Always wear goggles and wrap a clean
cloth around fittings and connections when doing
work that involves opening the refrigerant sys
tem. If liquid refrigerant comes into contact with
the skin of eyes injury can result.
DISCHARGING THE CCOT A /C SYSTEM
In replacing any of the air conditioning refrigeration
components the system m ust be completely discharged of
R-12.
IB-31
A L W A Y S D IS C H A R G E SY ST E M AT LO W SID E
S E R V IC E F IT T IN G .
1. With ignition tu rn ed OFF, rem ove p ro tec tiv e cap
from low -side service hose fitting and connect Charg
ing S tation J-23500-01 G age Set as show n in Fig.
IB-22.
O r w ith ignition turned O F F and protective cap re
m oved from LO W -SID E service fitting, discharge
sy stem by SLO W LY c o n n ec tin g a gage h o se to
LO W -SID E service fitting on A ccum ulator and dis
charging into oil bottle (Fig. IB-23). As hose is slowly
tightened dow n into schrader valve, R-12 will be in to
discharge from the system into the container. If no
discharge o c cu rs, check fo r m issing or defective
schrader d ep ressor in
LIG H T T R U C K SERVICE M A N U A L
IB-32
AIR CONDITIONING
1
CLOSE A L L CO NTRO LS
J 23500-01
SE R V IC E C H A R G IN G
S T A T IO N
3
F U L L Y OPEN GAUGE
SET V A C U U M V A L V E
4
CONNECT LOW-SIDE GAUGE
HOSE TO LOW-SIDE PRESSURE
SERVICE F IT T IN G ON V E H IC L E 'S
AC C U M U LA TO R ASM. USING
J 5420 ADAPTER
5 "S L O W L Y " OPEN LOW-SIDE
V A L V E ON GAUGE SET
TO DISCHARGE
6
RE-CONNECT V A C U U M
HOSE TO PUMP A F T E R
DISCHARGE
DO NO T CONNECT
HIG H-SIDE HOSE
TO A /C SYSTEM
2
DISCO NNECT V A C U U M
HOSE A T V A C U U M PUMP
& PLACE IN T O CAN (SEE
“ N O T E " BELOW)
V A C U U M PUMP
NOTE:
AN EMPTY 3 LB. COFFEE CAN
W ITH A PLASTIC L ID CROSS-SLIT
(X'ed) TO ALLO W HOSE E N T R Y IS
R ECOM M ENDED.
4342
Fig. 1B-22--Discharging The CCOT System With J-23500-01 Charging Station
L IG H T T R U C K SE R V IC E M A N U A L
AIR CONDITIONING
IB-33
Prior to Evacuation, check the low pressure gage for
proper calibration. W ith the gage disconnected from the
refrigeration system, be sure th at the pointer indicates to the
center of " O " . Lightly tap gage a few tim es to be sure
pointer is not sticking. If necessary, calibrate as follows:
a. Remove cover from gage.
b. Holding gage pointer adjusting screw firmly with one
hand, carefully force pointer in the proper direction
in proper am ount to position pointer through the
center of " O " position. T ap gage a few times to be
sure pointer is not sticking. Replace gage cover.
J-23500-01 CHARGING STATION METHOD
Fig. 1 B-23--Discharging and Collecting Oil From
System Without Charging Station J-23500-01
2. W hen the system is com pletely discharged (no vapor
escaping with hose fully-tightened down), m easure,
record and discard any of the collected refrigerant oil.
If this q u antity is 15 ml (1 /2 oz.) O R M O R E , it must
be added to system, plus any trapped in removed parts
before Evacuation and C harging with R-12 (R efer to
C C O T R efrigerant Oil D istribution for specific quan
tity instructions on oil found in removed parts).
3. W ith the low-side of system fully discharged, check
high-side system fitting (on muffler) for rem aining
pressure by connecting a downward directed 36 in.
section J-5418-36B ch arg in g line w ith atta ch ed
J-25498 straight or J-25499 90° angle fitting adapter
S L O W L Y tightened down to depress the fitting valve.
4. If pressure is found on the high-side of the system,
attem pt to discharge high-side using sam e procedure as
used for low-side. (This condition indicates a restriction
and high-side com ponents should be removed an d/or
diagnosed to d eterm ine the area restricted.)
Evacuating CCOT A /C SYSTEM
If the system has been opened for any repair, or the
R-12 charge lost, the system m ust be evacuated prior to
Charging to remove any trace of air or m oisture th a t may
have entered.
Evacuation and C harging is a combined procedure,
with all lines and gauges, as well as the system, to be purged
with R - 12 and Evacuated ju st prior to Charging.
There are three standard R-12 Evacuate and C harge
procedures which include Oil Addition:
• J-23500-01 C harging Station M ethod
• Disposable C an M ethod
• D rum M ethod
U nder no circum stances should alcohol be used in the
system in an attem p t to remove m oisture, regardless of the
successful use of alcohol in other refrigerant systems.
Follow C h arg in g instructions provided w ith the
J-23500-01 C h arg in g S tatio n in use w ith the following
exceptions:
1. DO N O T C O N N E C T T H E H IG H P R E S S U R E
L IN E TO T H E A IR C O N D IT IO N G SY ST E M .
2. K EEP T H E H IG H P R E S S U R E V ALVE O N T H E
C H A R G IN G S T A T IO N C L O SED A T A LL T IM E S .
3. P E R F O R M T H E E N T IR E E V A C U A T E A N D
CHARGE PROCEDURE THROUGH THE A CCU
M U L A T O R L O W -S ID E P R E S S U R E S E R V IC E
F IT T IN G .
4. A D D IN G O IL T O T H E C C O T A /C S Y S T E M
should take place A F T E R Discharge A N D B EFO R E
Evacuation procedures by removing the refrigeration
suction hose at the A ccum ulator outlet pipe connection,
pouring the correct quantity of refrigerant oil into the
hose or pipe and then properly reconnecting hose to
pipe (R efer to Discharging Step No. 2 and C C O T
R efrig eratio n Oil D istribution for specific q u a n tity
instructions).
5. Following these procedures will prevent accidental
high-side vehicles system pressure being subjected to
the C harging Station in the event an error is m ade in
valve sequence during compressor operation to pull in
the R-12 charge.
DISPOSABLE CAN OR REFRIGERANT DRUM
METHOD
A D D IN G O IL T O T H E C C O T A /C S Y S T E M
should take place after discharge and before evacuation
procedure by removing the refrigeration suction hose at the
A ccum ulator outlet pipe connection, pouring the correct
quantity of refrigerant oil into the hose or pipe and then
properly reconnecting hose to pipe (Refer to Discharging
Step No. 2 and C C O T Refrigeration Oil D istribution for
specific quantity instructions).
• If the R -12 drum is used, place it on a scale and note the
total weight before Charging. W atch the scale during
C harging to determ ine the am ount of R -12 used.
• If disposable 420 ml (14 oz.) R-12 cans are used, close
the tapping valve and then attach can(s) following
instructions included with the tapping valve or tapping
manifold adapter.
1. Connect M anifold G age Set J-5725-04 as shown in Fig.
IB-24.
• LOW pressure gage set valve to A ccum ulator fitting
• Gage set center hose to R - 12 source
• High pressure gage set valve to vacuum pump
LIG H T T R U C K SERVICE M A N U A L
IB-34
AIR CONDITIONING
J5725-04
MANIFOLD
USING J-5420
ADAPTER
GAUGE SET TH,S HIGH PRESSURE VALVE IS
/
OPEN AND VACUUM PUMP LINE
/
DISCONNECTED ONLY DURING
/
EVACUATION
OPEN DURING
EVACUATION
AND CHARGING
THIS HIGH PRESSURE
VALVE IS CLOSED AND
LINE DISCONNECTED
DURING DISCHARGING
AND CHARGING
HIGH
SIDE
VALVE
VALVE
VACUUM PUMP
ACCUMULATOR
CAUTJON: Make sure outlet valve on opener is closed
(clockwise) before installing opener to R-12 container.
14 OZ. CANS
MULTI-CAN DISPENSING UNIT
USING J6271-01 SINGLE CAN
OR
30 LB. DRUM HAS
OWN OPENER-VALVE
DECREASE OF WEIGHT
ON SCALE INDICATES
CHARGE ADDED
CLOSED D U R IN G /
EVACUATION X
OPEN AND INVERTED
DURING CHARGING
USING J23390
OPENER-VALVE
FOR 12 LB. CAN
J6272-02 MULTI CAN
OPENER-VALVE
Fig. 1 B-24--Charging the CCOT A /C System with Disposable Can or Refrigerant Drum.
2. To begin evacuation, w ith M anifold G age Set and
V acuum Pum p as shown in Fig. 1B-24 slowly open high
and low-side gage valves and begin vacuum pum p
operation. Pum p the system until low-side gage reaches
95-98 kPa (28 to 29 in.) vacuum or more.
In all Evacuation procedures, the specification of 95-98
kPa (28 to 29 in.) of m ercury vacuum is used. This
specification can only be reached a t or near sea level.
For each 304.8 m (1,000 ft) above sea level, specifica
tion should be lowered by one inch of m ercury vacuum.
A t 1524 m (5,000 feet) elevation only 78-81 kPa (23 to
24 in.) of vacuum is required.
If prescribed vacuum cannot be reached, close vacuum
control valve, shut off pum p and look for a leak at
connections or pump.
LIG H T T R U C K SE RV IC E M A N U A L
3. W hen the system is fully Evacuated, close the high-side
gage set valve and turn O F F the vacuum pump.
4. W atch low-side gage to be sure vacuum holds for
five(5) m inutes at gage set and then proceed to
Charging.
5. If Vacuum Does N ot Hold For five(5) M inutes, charge
system with 240 ml (1 /2 lb) R-12 and leak check.
Discharge system again then repair leak as necessary.
Repeat Evacuation procedure.
TO BEGIN CHARGING OF THE CCOT A /C
SYSTEM
1. S tart engine, run with choke open and fast idle speed
reduced to normal idle, set A /C control lever on O FF.
AIR CONDITIONING
2. W ith the R efrig eran t-12 drum or 420 ml (14 oz.)
can(s) inverted, open R-12 source valve(s) and allow
480 ml (1 lb.) or 1 to 2, 420 ml (14 oz.) can(s) of liquid
R - 12 to flow into system through low-side service fitting
on accum ulator (R efer to Fig. 1B -31).
3. As soon as 480 ml (1 lb.) or 1 to 2, 420 ml (14 oz.)
can (s) of liquid R -12 has been added to system ,
im m ediately engage the com pressor, by setting the
A /C control lever to N O R M and blower speed on H I,
to draw in the rem ainder of the R - 12 charge.
The C harging operation can also be speeded up by
using a large volume fan to pass air over the condenser.
If condenser tem perature is m aintained below charging
cylinder tem perature, R efrig eran t-12 will enter system
more rapidly.
4. Shut off R-12 source valve and run engine for 30
seconds to clear lines and gages.
5. W ith the engine running, remove the charging low-side
hose adap ter from the A ccum ulator Service fitting.
Unscrew rapidly to avoid excess R-12 escape from
system.
CAUTION:Never remove a gage line from its
adapter when line is connected to A /C system.
Always remove the line adapter from the service
fitting to disconnect a line. Do not remove charg
ing hose at set while attached to accumulator.
This will result in complete discharge of system
due to the depressed schrader valve in service
low-side fitting, and may cause personal injury
due to escaping R-12.
6. R eplace protective cap on accum ulator fitting.
7. Leak check system with J-6084 leak detector.
8. W ith system fully C harged and leak-checked, continue
to operate system and test for proper system pressures
as outlin ed under P E R F O R M A N C E P R E S S U R E T E M P E R A T U R E D A T A C C O T A /C S Y S T E M
D IA G N O S T IC P R O C E D U R E .
IB-35
2. The expansion tube (orifice) screen is plugged.
3. The compressor inlet screen is plugged.
4. An evaporator fails because of inside-out (internal)
corrosion.
DO N O T R E P L A C E the accum ulator assembly when:
1. If a sm all dent is found in the outer shell of the
accum ulator.
2. W hen a vehicle is involved in a collision and no physical
perforation to the accu m u lato r is found. An open
refrigerant line should be capped or have a plastic bag
tightly taped around it.
COMPRESSOR
C-K SERIES
Removal (Fig. IB-33)
1. Discharge the system.
2. Remove connector attaching bolt and connector. Cap
or plug open connections at once.
3. Disconnect electrical lead to clutch actuating coil.
4. Loosen brace and pivot bolts and detach belt.
5. Remove the nuts and bolts attaching the compressor
brackets to the m ounting brack et. Rem ove the
compressor.
6. Before beginning any compressor disassembly, drain
and m easure oil in the compressor. Check for evidence
of contam ination to determ ine if rem ainder of system
requires servicing. Com pressor servicing inform ation is
located in the U nit R epair M anual.
ACCUMULATOR ASSEMBLY
T he accum ulator assembly for the C C O T system has a
service replacem ent which includes two " O " rings (for the
inlet and outlet connections). The dessicant within the shell
is N O T serviced sep arately - it is p a rt of the sealed
accum ulator assembly.
R efer C C O T R efrigerant oil distribution for presence
of refrigerant oil and service conditions when the accum ula
tor m ust be rem oved from the vehicle to m easure the
am ount of oil present inside the accum ulator.
T he accum ulator assembly should be replaced only
when:
1. A physical perforation to the accum ulator is found
resulting in a leak.
Fig. 1B-25--Checking Evaporator Inlet and
Acuumulator Outlet Temperatures
LIG H T T R U C K SE RV IC E M AN U AL
IB-36
AIR CONDITIONING
3 0 5 - 3 5 0 V -8
C-K M O D E L S
^ T
3 0 5 - 3 5 0 V -8
4 5 4 V -8 C-
G
l t r ^
M O D E LS A N D M O T O R H O M E C H A SS IS
M O DELS
4 5 4 V -8
Fig. 1B-26--Compressor Mounting
L IG H T T R U C K SERVICE M A N U A L
M O T O R H O M E C H A SS IS
AIR CONDITIONING
Installation
1. If oil previously drained from the compressor upon
removal shows no evidence of contam ination, replace a
like am ount of fresh refrigeration oil into the com pres
sor before reinstallation. If it was necessary to service
the entire system because of excessive contam ination in
the oil removed, install a full charge of fresh refrigera
tion oil into the compressor.
2. Position com pressor on th e m ounting b rack et and
install all nuts, bolts and lock washers.
3. Install the connector assem bly to the compressor rear
head, using new "O " rings coated with clean refrigera
tion oil.
4. Connect the electrical lead to the coil and install and
adjust compressor belt.
5. Evacuate, charge and check the system.
2.
3.
4.
5.
6.
7.
IB-37
reinstallation. If it is necessary to service the entire
system because of excessive contam ination in the oil
removed, install a full charge of fresh refrigeration oil
in the compressor. (R efer to Checking Compressor Oil
C harge in the diagnosis section of this service m anual.)
Position com pressor on th e m ounting brack et and
install the nuts, bolts, lock washers, and ground wire.
Install the connector assembly to the com pressor rear
head, using new " O " ring coated with clean refrigera
tion oil.
Connect the electrical lead to the coil and install and
adjust compressor belt, using idler pulley. Refer to
"C om pressor Belt Tension A d justm ent."
Evacuate, charge and check the system.
Replace air cleaner. On G series, replace the engine
cover.
Connect the battery ground cable.
Compressor Belt Tension Adjustment
G and Motor Home Chassis Models
Removal (Fig. IB-26)
1. D isconnect b attery ground cable.
2. Disconnect compressor clutch connector.
3. Purge the system of refrigerant.
4. Release the belt tension at th e idler pulley and remove
the bit from the com pressor pulley. On some vehicles it
m ay be necessary to remove the crankshaft pulley in
order to remove the belt.
5. G S eries-R em ove the two bolts and two clamps th at
hold the engine cover and remove the cover.
6. Remove the air cleaner to aid access to the compressor.
7. Remove fitting and muffler assem bly and cap or plug all
open connections.
8. Remove the nuts and bolts attaching the compressor to
the bracket.
9. Remove the engine oil tube support bracket bolt and
nut from the compressor, and the compressor clutch
ground lead.
A djust the compressor belt to the specifications shown
in the Engine section of the Service M anual.
On some G and M otor Home Chassis units it m ay be
necessary to increase idler pulley slack adjustm ent. This
may be accomplished by (1) Remove and discard the idler
adjustm ent bolt. (2) Remove the idler backing plate and
elongate all 3 adjusting slots 1/2 in. inboard or outboard as
required. (3) Reinstall the idler assembly and adjust belt
tension using a lever (screwdriver, etc.) to move the pulley
outboard until proper belt tension is reached. If the belt is
being replaced it m ay be necessary to remove and replace
the throttle cable during the belt replacem ent. If so check
throttle cable adjustm ent upon completion. It may also be
necessary to remove the crankshaft pulley to install a new
compressor belt.
Before beginning any com pressor disassembly, drain
and m easure oil in the compressor. C heck for evidence of
contam ination to determ ine if rem ainder of system requires
servicing. Com pressor Servicing inform ation is located in
the U nit R epair M anual.
Installation
1. If th e oil d rain ed from th e com pressor showed no
evidence of contam ination replace the sam e am ount of
fresh refrig eratio n oil into th e com pressor before
Fig. 1 B-27--Condenser Installation (C-K Series)
LIG H T T R U C K SERVICE M A N U A L
IB -38
AIR CONDITIONING
C60 SYSTEM--C-K SERIES
CONDENSER - C-K SERIES (FIG. IB-27)
Replacement (Fig. IB-27)
1. Disconnect battery ground cable.
2. D ischarge system.
3. Remove the grille assembly.
4. Remove the rad iato r grille center support.
5. Remove the left grille support to upper fender support
(2) screws.
6. Disconnect the condenser inlet and outlet lines and the
outlet tube line a t the right end of the condenser. C ap or
plug all open connections at once.
7. Remove the condenser to rad iato r support screws.
8. Bend the left grille support outboard to gain clearance
for condenser removal.
9. Remove the condenser assem bly by pulling it forward
and then lowering it from the vehicle.
10. To install a new condenser, reverse Steps 1 thru 9
above. A dd one fluid ounce of clean refrigeration oil to
a new condenser.
Use new " O " rings, coated with clean refrigeration oil,
when connecting all refrig eran t lines.
11. Evacuate, charge and check the system.
ACCUMULATOR - ALL
Replacement
1. Disconnect the battery ground cable and the com pres
sor clutch connector.
2. Discharge system.
3. Disconnect the accum ulator inlet and outlet lines and
cap or plug the open connections at once.
4. Remove the accum ulator bracket screws and remove
the accum ulator from the vehicle.
5. D rain any excess refrigerant oil from the accum ulator
into a clean container. M easure and discard the oil.
6. If a new accum ulator is being installed, add one ounce
of clean refrigeration oil to the new accum ulator PL U S
an am ount equal to th a t drained in Step 5 above.
7. To install the new accum ulator, reverse Steps 1 thru 4
above. Connect all lines using new " O " rings, coated
with clean refrigeration oil.
Do not uncap the new unit until ready to fasten the inlet
and outlet line to the unit.
8. Evacuate charge and check the system.
BLOWER ASSEMBLY - C-K SERIES
Replacement
1.
2.
3.
4.
D isconnect the b attery ground cable.
Disconnect the blower m otor lead and ground wires.
Disconnect the blower m otor cooling tube.
Rem ove th e blow er to case a tta c h in g screw s and
remove the blower assem bly. Pry the blower flange
aw ay from the case carefully if the sealer acts as an
adhesive.
5. Remove the nut attach in g the blower wheel to the
m otor shaft and separate the assemblies.
6. To install, reverse Steps 1 th ru 5 above; replace sealer
as necessary.
L IG H T T R U C K SE RV IC E M A N U A L
EVAPORATOR CORE
Replacement (Fig. IB-28)
1. Disconnect the battery ground cable.
2. Discharge system.
3. Remove the nuts from the selector duct studs project
ing through the dash panel.
4. Remove the cover to dash and cover to case screws and
remove the evaporator case cover.
5. Disconnect the evaporator core inlet and outlet lines
and cap or plug all open connectins at once.
6. Remove the expansion tube as outlined under expan
sion tube replacem ent.
7. Remove the evaporator core assembly.
8. To install, reverse Steps 1 thru 7 above. Add 90 ml (3
oz.) of clean refrigeration oil to a new evaporator core.
U se new “ O ” rings, coated w ith clean refrigeration
oil, w hen connecting refrigerant lines. Be sure cover
to case and dash panel sealer is in tact before reinstal
ling cover.
9. Evacuate, charge and check the system.
EXPANSION TUBE-C-K,& G
The expansion tube is located in the evaporator core
inlet line.
Replacement
1. Discharge system.
2. Disconnect the condenser to evaporator line at the
evaporator inlet. C ap the open line at once.
3. Using needle-nose pliers, remove the expansion tube
from the evaporator core inlet line.
4. Remove the expansion tube " O " ring from the core
inlet line.
5. To install, reverse Steps 1 thru 4 above.
Install the expansion tube using a new " O " ring coated
w ith clean reg rig eratio n oil, by inserting the sh o rt
screen end of the tube into the evaporator inlet line.
6. Evacuate, charge and check the system.
AIR CONDITIONING
IB-39
LIG H T T R U C K SERVICE M A N U A L
IB-40
AIR CONDITIONING
UPPER CENTER DISTRIBUTOR DUCT
RIGHT HAND OUTLETS
LEFT DISTRIBUTOR DUCT AND
FOOT COOLER
LOWER CENTER DISTRIBUTOR DUCT
Fig. lB-30--Air Selector and Ducts (C-K Series)
SELECTOR DUCT AND HEATER CORE ASSEMBLYC-K
Replacement (Fig. IB-30)
1. Disconnect the b attery ground cable.
2. D rain the radiator and remove the heater hoses from
the core tubes. Plug the core tubes to prevent coolant
spillage during removal.
3. Remove the glove box and door as an assembly.
4. Remove the center duct to selector duct and instrum ent
panel screws and remove the center lower and center
upper ducts.
5. D isconnect the bowden cable at the tem perature door.
6. Rem ove the nuts from th e three selector duct studs
projecting through the dash panel.
7. Remove the selector duct to dash panel screw (inside
vehicle).
8. Pull the selector duct assembly rearw ard until the core
tubes clear the dash panel. Lower the selector assembly
far enough to gain access to all vacuum and electrical
harnesses.
9. D isconnect th e vacuum and e lectrical harness and
L IG H T T R U C K SE RV IC E M A N U A L
remove the selector duct assembly.
10. Remove the core m ounting strap screws and remove the
core.
11. To install, reverse Steps 1 thru 10 above.
12. Refill coolant system and connect the battery ground
strap. Check tem perature door cable adjustm ent.
KICK PAD VALVE - C-K SERIES
Replacement (Fig. IB-31)
1.
2.
3.
4.
Disconnect the vacuum hose a t the actuator.
Unhook the valve return spring at the actuator end.
Remove the actuator bracket m ounting screws.
Remove the cam to actuator arm screw and separate
the actuator and bracket from the cam.
5. Remove the actuator to bracket nuts and separate the
actuator and bracket.
6. To install reverse Steps 1 thru 5 above.
PLENUM VALVE - C-K SERIES
Replacement (Fig. IB-31)
1. Raise the hood.
2. Remove the cowl plastic grille.
3. Remove the three cowl to valve assembly screws and
remove the valve assembly from the vehicle.
4. Remove the actuator arm pushnut.
AIR CONDITIONING
IB-41
4. Remove the control to instrum ent panel screws and
lower the control far enough to gain access to the
control assembly.
Be careful not to kink the bowden cable.
5. Disconnect the bowden cable, vacuum harness and
electrical harness at the control.
6. Remove the control.
7. If a new unit is being installed, transfer the m aster
blower switches to the new control.
8. To reinstall, reverse Steps 1 th ru 6 above. C heck
control operation.
TEMPERATURE DOOR CABLE ADJUSTMENT - C-K
MODELS
1. Remove glove box and door assembly.
2. Loosen the cable attaching screw at the selector duct
assembly.
3. M ake sure the cable is installed in the bracket on the
selector duct assembly.
4. Place tem perature lever in full CO LD position and hold
while tightening cable attaching screw.
MASTER SWITCH AND/OR BLOWER SWITCH C-K SERIES
The m aster switch is located on rear of the control
assembly.
Fig. 1B-31--Air Inlet Valves (C-K Models)
5. Remove the actuator to valve nuts and separate the
valve and actuator.
6. To install, reverse Steps 1 th ru 5 above.
CONTROL ASSEMBLY - C-K SERIES
Removal (Fig. IB-32)
Replacement
1. Disconnect the battery ground cable.
2. Remove the instrum ent panel bezel.
3. Remove the control to instrum ent panel screws and
allow control to rest on top of the radio.
4. Remove the switch to control screws, disconnect the
electrical harness (and vacuum harness on m aster
switch) at the switch and remove the switch assembly.
5. To install a new switch, reverse Steps 1 thru 4 above.
1. Disconnect the b attery ground cable.
2. Remove the radio as outlined in Section 8 of this
m anual.
3. Remove the instrum ent panel bezel.
VACUUM TANK
The vacuum tank is m ounted to the engine side of the
dash panel above the blower assembly (Fig. IB-33).
LIG H T T R U C K SERVICE M A N U A L
IB-42
AIR CONDITIONING
GR A Y-TO
PLENUM VALVE
V A C U U M TANK
ORANGE
CAM
LEVER
CABLE
RECIRC. AIR
DEFROSTER
BLUE
V IE W
HEATER ASSEMBLY
C O N TR O L
A CTUA TO R
N O COLOR STRIPE
ACTUA TO R
V IE W
V IE W
Fig. 1B-34--Vacuum Line Routing - C-K Models
Replacement
1. Disconnect the vacuum lines at the tank.
2. Remove the tan k to dash panel screws and remove the
tank.
3. To install, reverse Steps 1 and 2 above.
FUSE
A 25 am p fuse, located in the junction block protects
the entire air conditioning system except for the blower
circuit, the fuse for the blower circuit is located in the
electrical wiring between the junction block and the blower
relay.
BLOWER MOTOR RESISTOR
The blower m otor resistor is located in the blower side
of the blow er-evaporator case (Fig. IB-35).
Replacement
OVERHEAD SYSTEM--C-K
MODELS
2. Rem ove th e resistor to case a tta c h in g screw s and
remove the resistor.
The O verhead System is used in conjunction with the
C60 System. Since replacem ent of C60 System components
has been covered previously, only those components peculiar
to the O verhead System will be covered in this section.
3. P lace th e new resistor in position and install the
attaching screws.
REAR DUCT
1. Disconnect the wiring harness at the resistor.
4. C onnect the resistor wiring harness.
BLOWER MOTOR RELAY - ALL
The blower m otor relay is located on the blower side of
the blow er-evaporator case (Fig. 35).
This duct covers the blower-evaporator assembly, at
the rear of the vehicle, and incorporates four adjustable air
outlets (Fig. IB-36).
Replacement
Replacement
1. Disconnect th e wiring harness at the relay.
2. Remove the relay to case attach in g screws and remove
the relay.
1. Disconnect the battery ground cable.
2. Disconnect the drain tube from the rear duct.
3. Remove the screws securing the duct to the roof panel
and rear header brackets.
3. Place the new relay in position and drive the m ounting
screws.
4. Remove the duct.
4. Connect the relay w iring harness.
5. To install, reverse Steps 1 thru 4 above.
L IG H T T R U C K SE RV IC E M A N U A L
AIR CONDITIONING
IB-43
A /C HARNESS ASM
PRESSURE C Y C L IN G SWITCH
BLOW ER
RESISTOR
BLOW ER
R ELAY
ACC UM ULATO R
BLOW ER ASM G R O U N D
E V A P O R A TO R
BLOW ER ASM
V IE W A
Fig. 1B-35--Engine Compartment W iring Harness (C-K Models)
BLOWER MOTOR ASSEMBLY
Removal (Fig. IB-38)
1. Disconnect the battery ground cable.
2. Remove the rear duct as outlined previously.
3. Disconnect the blower motor ground strap.
4. Disconnect the blower motor lead wire.
5. Remove the lower to upper blower-evaporator case
screws and lower the lower case and motor assembly.
NOTICE: Before removing the case screws, support the
lower case to prevent dam age to the case or motor
assemblies.
6. Rem ove the m otor retaining stra p and rem ove the
motor and wheels. Remove the wheels from the motor
shaft.
Fig. lB-36--Rear Duct C-K & G Overhead System
BLOWER MOTOR RESISTOR
The blower m otor resistor is located on the cover side of
the C60 System blow er-evaporator as shown in Fig. 1B-37.
Replacement
1. Disconnect b attery ground cable.
2. Disconnect the electrical harness at the resistor.
3. Remove the resistor attaching screws and remove the
resistor.
4. To install a new resistor, reverse Steps 1 thru 3 above.
Installation
1. Place the blower wheels onto the m otor shaft making
sure the wheel tension springs are installed on hub of
wheels.
Be sure th at the blower wheels are installed as shown in
Fig. IB-39.
2. Install the blower motor retaining strap and foam.
3. Place the blower m otor and wheel assembly into the
lower case. Align the blower wheels so th at they do not
contact the case.
4. Place the lower case and blower motor assembly in
position in the vehicle and install the lower to upper
case screws.
L IG H T T R U C K SERVIC E M AN U AL
IB-44
AIR CONDITIONING
Fig. 1B-37--Overhead System Front W iring (C-K Models)
Fig. 1 B-38--Blower-Evaporator (C-K Overhead
System)
NOTICE: R o tate the blower wheels to m ake sure th at
they do not rub on the case.
5. Install the center ground wire and connect the blower
lead wire.
6. Install the rear duct assem bly as described previously.
7. Connect th e b attery ground cable.
EXPANSION VALVE
This sytem incorporates an expansion valve which does
not utilize and external equalizer line (Fig. IB-40).
Fig. 1B-39--Blower M otor (C-K Overhead System)
Removal
1. Disconnect b attery ground cable.
2. Purge the system of refrigerant.
3. Remove the rear duct as outlined previously.
4. Disconnect the blower motor lead and ground wires.
5. Remove the lower to upper blower-evaporator case
screws and lower the lower case and motor assembly.
NOTICE: Before removing the case screws, support the
lower case and motor assemblies to prevent dam age to
the case or motor assemblies.
6- Rem ove the expansion valve sensing bulb clamps.
LIG H T T R U C K SE RV IC E M A N U A L
AIR CONDITIONING
7. Disconnect the valve inlet and outlet lines and remove
the expansion valve assembly. C ap or plug the open
connections a t once.
1. Remove caps or plugs from system connections and
install the new valve assembly using new " O " rings
coated with clean refrigeration oil.
2. Install the sensing bulb, m aking sure th at the bulb
m akes good contact with the core outlet line.
3. Install the lower case and blower motor assemblies.
Connect the blower motor lead and ground wires.
4. Install the rear duct as outlined previously.
5. Connect the battery ground cable.
6. Evacuate, charge and check the system.
EVAPORATOR CORE (Fig. IB-40)
6.
7.
8.
9.
3. Install the upper case and supports to the core.
4. Install the lower core case and blower assembly.
5. Install the blower-evaporator assembly to the roof and
install the support to roof rail screws.
6. Connect the refrigerant lines to the blower-evaporator
unit using new " O " rings coated with clean refrigera
tion oil.
7. Connect the blower lead and ground wires.
8. Install the rear duct as outlined previously.
9. Connect the battery ground cable.
10. Evacuate, charge and check the system.
Removal
5.
Install the sensing bulb to the evaporator outlet line as
shown in Fig. IB-44; make sure the bulb has good
contact with the line.
Add 3 oz. clean refrigeration oil when installing a new
core.
Installation
1.
2.
3.
4.
IB-45
Disconnect the b attery ground cable.
Purge the system or refrigerant.
Remove the rear duct as outlined previously.
Disconnect the blower m otor lead and ground wire
connections.
D isconnect the re frig e ra n t lines a t the re a r of the
b low er-evaporator assem bly. C ap or plug the open
connections at once.
Rem ove th e blow er-evaporator support to roof rail
screw s, lower th e blow er-evaporator assem bly and
place it on a work bench upside down.
Remove the lower to upper case screws and remove the
lower case assembly. Remove the support to upper case
screws and remove the upper case from the evaporator
core.
Remove the expansion valve inlet and outlet lines and
cap or plug the open connections at once. Remove the
expansion valve capillary bulb from the evaporator
outlet line and remove the valve.
Remove the plastic pins holding the screen to the core
and remove the screen.
Installation
BLOWER MOTOR SWITCH
The three-speed (L O -M E D -H I) blower motor switch is
located in the instrum ent panel, just to the left of the ash
tray (Fig. IB-41).
Replacement
1. Disconnect the battery ground cable.
2. Remove the switch retaining screws.
3. Disconnect the wiring harness at the switch and remove
the switch.
4. To install, reverse Steps 1 thru 3 above.
FUSE
The Four Season portion of this system is protected by
a 25 am p fuse in the junction block.
The rear blower high speed circuit is protected by a 20
am p in-line fuse, located between the junction block and the
rear blower motor switch.
1. Install the wire screen to the front of the core and insert
the plastic pins.
2. Install the expansion valve inlet and outlet lines using
new " O " rings coated with clean refrigeration oil.
E VA PO R A TO R
SCREEN
B LO W E R -E V A P O R A TO R
UPPER CASE
Fig. 1 B-40--Expansion Valve C69 System
Fig. 1B-41--Blower Switch (C-K Overhead System)
LIG H T TR U C K SERVICE M A N U A L
IB-46
AIR CONDITIONING
C60 SYSTEM-G SERIES
CONDENSER - G Series
Replacement (Fig. IB-42)
1. Disconnect battery ground cable.
2. Purge the system of refrigerant.
3. Remove grille, hood lock, and center hood lock support
as an assembly.
4. D isconnect condenser inlet and o u tlet lines at
condenser.
5. Remove screws attaching left side condenser bracket to
radiator.
6. Remove screws attaching right side condenser bracket
to condenser.
7. Remove condenser from vehicle.
8. Remove left hand bracket from condenser.
9. To install new condenser, reverse steps 3 th ru 8 above.
Add 30 ml (1 oz.) of clean refrigeration oil to a new
condenser.
10. Evacuate charge and test the system.
Refer to Fig. IB-61 th ru IB-66 for condenser inlet and
outlet connections, com pressor refrigerant line connections,
and general regrigerant line routing and connections.
HEATER AIR DISTRIBUTOR
AND EXTENSION DUCT - G SERIES
Replacement (Fig. IB-43)
1.
2.
3.
4.
Disconnect battery ground cable.
Remove engine cover.
Remove evaporator-blow er shield.
Remove shield bracket.
5. Remove left floor outlet deflector and bracket.
6. Loosen steering column to instrum ent panel reinforce
m ent screws. Remove one screw. Torque both screws on
installation.
7. Disconnect speedometer cable a t m eter.
HEATER CORE - G SERIES
Replacement
1. Disconnect battery ground cable.
2. Remove engine cover as outlined in Section 6A of this
manual.
3. Remove steering column to insrum ent panel attaching
bolts and lower column.
4. Remove upper and lower instrum ent panel attaching
screws and radio support bracket attaching screw.
5. Raise and support right side of instrum ent panel.
6. Remove right lower instrum ent panel support bracket.
7. Remove recirculating air door vacuum actuator. Refer
to Fig. IB-44.
8. Disconnect tem perature cable and vacuum hoses at
distributor case.
9. Remove heater distributor duct, refer to Fig. 1B-45.
10. Remove 2 defroster duct to dash panel attaching screws
(below windshield).
11. W orking from the engine com p artm en t, disconnect
heater hoses and plug to prevent w ater spillage.
12. Remove three (3) nuts from bolts attaching heater core
case to dash panel and one (1) screw at lower right
corner (inside).
13. Remove distributor assembly from vehicle.
14. Remove gasket to expose screws attaching case sections
together as shown in Fig. 1B-46.
15. Remove tem perature cable support bracket.
16. Remove case attaching screws and separate case.
17. Remove heater core.
18. To install new heater core, reverse Steps 2 thru 17
above.
BLOWER MOTOR - G SERIES
Replacement
1. Disconnect battery ground cable.
G Series - Remove the coolant recovery tank, and
power antenna as outlined in Sections 6 and 9.
2. Disconnect the blower m otor lead wire.
3. Remove the five blower motor m ounting screws and
remove the motor and wheel assembly. Pry gently on
the blower flange if the sealer acts as an adhesive.
4. Rem ove the blower wheel to m otor shaft n u t and
separate the wheel and motor assemblies.
5. To install a new motor, reverse Steps 1 thru 4 above.
The following steps should be taken to assure proper
installation:
a. Assemble the blower wheel to the motor with the
open end of the wheel away from the blower motor.
b. If the motor mounting flange sealer has hardened, or
is not intact, remove the old sealer and apply a new
L IG H T T R U C K S E R V IC E M A N U A L
AIR CONDITIONING
IB-47
Fig. 1B-43--Heater Distributor Duct-G Series
Fig. 1B-44--Recirculating Air Door Vacuum Actuator
bead of sealer to the entire circum ference of the
m ounting flange,
c. C heck blower operations: blower wheel should rotate
freely with no interference.
Fig. 1B-45--Heater Distributor Duct
EVAPORATOR CORE
Replacement (Fig. IB-54)
1. Disconnect battery ground cable.
2. Purge system of refrigerant.
LIG H T T R U C K SERVICE M A N U A L
IB-48
AIR CONDITIONING
2. Remove the headlam p switch control knob.
3. Remove the instrum ent panel bezel.
4. Remove the control to in stru m en t panel attach in g
screws.
5. Remove the tem perature cable eyelet clip and m ount
ing tab screw.
6. Pull the control through the instrum ent panel opening
as follows: First pull the lower right m ounting tab
through the opening, then the upper tab and finally the
lower right tab.
7. D isconnect electrical and vacuum connections and
remove the control assembly.
8. To install, reverse Steps 1 thru 7 above. Check tem per
ature door operation; adjust if necessary.
BLOWER SWITCH
Replacement (Fig. IB-48)
3. Remove coolant recovery tank and bracket as outlined
earlier.
4. D isconnect all e lectrical connectors from core case
assembly.
5. Remove bracket at evaporator case.
6. Remove right hand m arker lam p for access.
7. Disconnect accum ulator inlet and outlet lines and 2
brackets attaching accum ulator to case.
8. Disconnect evaporator inlet line.
9. Remove three (3) nuts and one (1) screw attaching
module to dash panel.
10. Remove core case assem bly from vehicle.
11. Remove screws and separate case sections.
12. Remove evaporator core.
13. To install new core, reverse Steps 3 thru 14 above.
14. Add 90 ml (3 oz.) 525 viscosity refrigeration oil to a
new condenser.
15. Evacuate charge and check the system.
1. Disconnect the battery ground cable.
2. Remove the left foot cooler outlet assembly at the
instrum ent panel attachm ent.
3. Disconnect the switch electrical harness.
4. Remove the switch mounting screws and remove the
switch.
5. To install, reverse Steps 1 thru 4 above.
RESISTORS
Replacement (Fig. IB-49)
1. Disconnect electrical harness at the resistor.
2. Remove the resistor mounting screws and remove the
resistor.
3. To install, reverse Steps 1 thru 3 above.
BLOWER MOTOR RELAY - G SERIES
Replacement (Fig. IB-49)
1. Disconnect electrical harness at the relay.
2. Remove the relay m ounting screw and remove the
relay.
3. To install, reverse Steps 1 thru 3 above.
CENTER A /C OUTLET - G SERIES
Replacement
TEMPERATURE DOOR CABLE - G SERIES
Replacement
Follow Steps 1 thru 10 of "H e a te r A ir D istributor and
Extension D uct R eplacem ent" procedure.
11. Disconnect tem perature door control cable at heater
case.
12. Disconnect tem perature door control cable at control.
13. M ake up new cable.
14. To reassemble, Reverse Steps 1 thru 13.
CONTROL - G SERIES
1.
2.
3.
4.
5.
6.
7.
8.
9.
Disconnect negative battery cable.
Remove engine cover (R efer to Section 6A).
Remove steering column to I.P. attaching screw.
Remove radio support bracket screw.
Remove I.P. attaching screws.
Pull right side of I.P. rearw ard.
Remove duct (distributor) attaching screws.
Remove center deflector.
To replace, reverse Steps 1 thru 8 above.
VACUUM LINES-G VAN
Replacement
Replacement (Fig. IB-48)
1. Disconnect the battery ground cable.
LIG H T T R U C K SE R V IC E M AN U AL
Vacuum line routing is illustrated in Fig. 1B-52.
AIR CONDITIONING
IB-49
Fig. lB-47--Air Deflector Outlets (G Series-C60 System)
L IG H T T R U C K SERVICE M A N U A L
IB-50
AIR CONDITIONING
Fig. 1 B-52--Vacuum Harness (G Series)
Fig. 1B-53--Condenser Installation-G Series
L IG H T T R U C K SE R V IC E M A N U A L
AIR CONDITIONING
IB-51
Fig. 1B-54--Evaporator Blower Assembly-G Series
LIG H T TR U C K SERVICE M A N U A L
IB-52
AIR CONDITIONING
COMPRESSOR
COMPRESSOR
ASSEMBLY
R IN G
HOSE & TUBE
ASSEMBLY C O N D .
OUTLET
A C C U M DEHYDR
ASSEMBLY OUTLET
PIPE
G MOD. V8 ENG.
C60/69
HOSE & TUBE ASSEMBLY
EVAP. OUTLET REAR
V IE W
Fig. 1 B-55-Refrigerant Lines - G Series
LIG H T T R U C K SE RV IC E M A N U A L
G MOD. LE 3 ENG.
C60
AIR CONDITIONING
IB-53
Fig. 1B-56--Refrigerant Lines-Condenser Inlet 6 Cyl
Engine
TEMPERATURE DOOR CABLE
Tem perature cable attachm ent and routing is shown in
Fig. IB-65.
VACUUM TANK - G SERIES (Fig. IB -60 & IB-61)
Replacement
1. Raise the hood.
2. Disconnect the vacuum harness at the tank.
3. Remove the tank attaching screws and remove the
tank.
4. To install, reverse Steps 1 thru 3 above.
CIRCUIT BREAKER
The entire air conditioning system is protected by a 45
am p circuit breaker located on the left side of the dash, in
the engine com partm ent.
A /C DUCTWORK
A ir C onditioning duct attachm ent is shown in Fig. 1B63.
OVERHEAD SYSTEM-G SERIES
This system is used in conjunction with the C60 system.
DEFROSTER DUCT
D efroster duct m ounting is shown in Fig. 1B-64.
The G Van C69 system is almost identical to the C-K
M odels overhead system R efer to CK Series overhead
system service procedures.
LIG H T T R U C K SERVICE M A N U A L
IB-54
AIR CONDITIONING
LIG H T T R U C K SERVIC E M A N U A L
AIR CONDITIONING
IB-55
LIG H T T R U C K SERVICE M A N U A L
IB-56
AIR CONDITIONING
Fig. 1B-64--Defroster Duct-G Series
DASH MOUNTED SYSTEM-MOTOR HOME CHASSIS
This system is installed on the vehicle and checked at
assembly. The blow er-evaporator is then disconnected and
shipped with the chassis unit to the body supplier. For this
reason, it will only be possible to give basic replacem ent
procedures on some components.
CONDENSER
Replacement (Fig. IB-66)
1. Disconnect the battery ground cable.
2. Purge the system of refrigerant.
LIG H T T R U C K SERVIC E M A N U A L
AIR CONDITIONING
IB-57
Fig. 1B-66--Condenser (Motor Home Chasis Unit)
3. Disconnect the condenser inlet and outlet lines and cap
or plug all open connections at once.
4. Remove the condenser to radiator support screws and
remove the condenser.
5. To install a new condenser, reverse Steps 1 thru 4
above. A dd one fouid ounce of clean refrigeration oil to
a new condenser.
NOTICE: Use new " O " rings, coated with clean refrig
eration oil, when connecting all refrigerant lines.
6. Evacuate, charge and check the system.
RECEIVER-DEHYDRATOR
Replacement (Fig. IB-67)
1. Disconnect the battery ground cable.
2. Purge the system of refrigerant.
3. Disconnect the inlet and outlet lines at the receiverdehydrator and cap or plug the open lines a t once.
4. Rem ove th e receiv er-d eh y d rato r b rack et a ttac h in g
screws and rem ove th e b ra c k e t and receiverdehydrator.
5. To install a new receiver-dehydrator, reverse Steps 1
th ru 4 above. Add one fluid ounce of clean refrigeration
oil to a new receiver-dehydrator.
Unit)
2. Remove the sight glass retainer nut using a screwdriver
and remove old glass and " O " ring seal.
3. Install the new glass and seal and retainer nut, being
careful not to turn the nut past the face of the housing.
To do so may dam age the "O " ring seal.
4. Evacuate, charge and check the system.
BLOWER-EVAPORATOR ASSEMBLY (Fig. IB-69)
Removal
1. Disconnect battery ground cable.
2. Purge system of refrigerant.
3. Disconnect inlet and outlet refrigerant lines from the
back of unit. C ap or plug all open connections at once.
4. Disconnect drain tubes from evaporator case.
5. D isconnect electrical connector from com pressor.
Remove the term inal (R efer to Fig. IB-70) and allow
connector to hang on ground wire.
6. Rem ove screws securing grom m et retain e r to dash
panel. Remove wire from grom m et through slit.
7. Disconnect electrical lead at connector.
8. Remove unit m ounting bolts. Remove unit from vehi
cle, carefully pulling com pressor electrical lead
through dash panel.
NOTICE: Use new " O " rings, coated with clean refrig
eration oil, when connecting all refrigerant lines.
6. Evacuate, charge and check the system.
SIGHT GLASS REPLACEMENT
Once the unit has been removed from the vehicle,
continue with com ponent replacem ent as follows:
BLOWER ASSEMBLY
Removal (Fig. IB-71)
If dam age to the sight glass should occur, a new sight
glass kit should be intalled. The kit contains the sight glass,
seal and retainer. (R efer to Fig. IB -68).
1. Purge system.
1. Remove the cover plate and separate the upper and
lower case halves. Remove blower motor m ounting
strap screw and remove strap.
LIG H T T R U C K SERVICE M A N U A L
IB-58
AIR CONDITIONING
Fig. lB-68--Sight Glass Replacement
TERMINAL
SCREW DRIVER
(NARROW BLADE)
CONNECTOR
TANG
GROOVE
A. Insert screw driver in groove & press
tang toward terminal to release.
B. Pry tang back out to insure locking
when reinstalled into connector.
Fig. 1B-69--Blower-Evaporator (Motor Home Chassis
Units)
2. Remove blower assembly. Remove the wheels from the
m otor shaft.
Installation
1. Install the blower wheels on the motor so th a t the lower
blades curve tow ard the dash panel side of the unit
when the m otor is placed in the case as shown in Fig.
IB-85.
2. Place th e m otor in th e b ra c k e t w ith th e electrical
connector side of the m otor to the right side of the
L IG H T T R U C K SE RV IC E M A N U A L
Fig. 1B-70--Terminal Removal
bracket. A tta ch the m ounting strap . Align blow er
wheels so th at they do not contact case.
3. Assemble the case halves and attach the cover plate.
4. Reverse Steps 1-8 on the " Blower-Evaporator Assem
bly" removal procedure.
5. Evacuate, charge and check the system.
AIR CONDITIONING
AIR SENSING CAPILLARY
CORRECT
BLOWER
BLADE
ANGLE
IB-59
THERMOSTATIC SWITCH
Fig. 1B-73--Thermostatic and Blower Switches
3. Remove evaporator core retaining screws and remove
core.
Fig. 1 B-71--Blower Assembly (M o to r Home Chassis
4. R e m o v e b lo w e r m o to r a n d h a rn e s s a s s e m b ly fr o m case.
Unit)
Installation
1. Reverse applicable steps in the removal procedure.
T HERM O STA TIC SW IT C H
CAPILLARY TUBE
SCR EEN
M E SH
NOTICE: Use new " O " rings coated with clean refriger
ation oil when connecting lines. Add 3 oz. of new
refrigeration oil to a new core.
2. Reverse steps 1 thru 8 of the "Blower Evaporator
Assem bly" removal procedure.
3. Evacuate, charge and check the system.
THERMOSTATIC AND/OR BLOWER SWITCHES
Replacement
1. Remove the cover plate assembly from the evaporator
case.
BUMPER
E X P A N S IO N V A LV E
Fig. 1 B-72--Expansion Valve (M otor Home Chassis
Unit)
EXPANSION VALVE, EVAPORATOR AND/OR
EVAPORATOR CASE
Removal (Fig. IB-72)
1. Remove the cover plate and separate upper and lower
case halves.
2. Remove inlet and outlet lines from the expansion valve.
R em ove sensing bulb from th e evap o rato r o utlet
m anifold. Remove expansion valve. C ap or plug open
connections at once.
2. Remove two screws securing either switch to the cover
plate and remove appropriate switch (Fig. 1B-73).
3. Install replacem ent switch, reinstall cover plate and
reverse steps 1-8 of the " Blower-Evaporator Assem
bly" removal precedure.
W hen installing therm ostatic switch, be sure to position
sensing capillary as when unit was removed.
RESISTOR
The blower motor resistor is located on the top of the
unit. The entire unit m ust be removed to replace the resistor.
FUSE
This U nit does not incorporate an in-line fuse. The lead
w ire is connected to the H eater W iring H arness and
operates off the 20 am p H eater Fuse.
LIG H T T R U C K SERVICE M A N U A L
IB-60
AIR CONDITIONING
SPECIFICATIONS
A IR C O N D IT IO N IN G
Compressor
T y p e .........................................
4 Cylinder Radial
Displacement
6 Cylinder Axial •
4 Cylinder Radial
• • •
R o t a t i o n .............................
Volts
........................1 2 .6 Cu. In.
....................... 1 0 .0 C u .ln .
Amps.
(Cold)
RPM
(Cold)
Blower M otor
C-K Four Season . . 12.0
C-K-G Overhead,
G Floor and
M otor Home
U n its .................... 12.0
12.8 Max.
13.7 M ax.
3400 Min.
3400 M in.
Compressor Clutch Coil
Ohms (at 8 0 ° F ) ..................... ...................................... 3.70
Amps, (at 8 0 ° F ) ..................... ................. 3.33 @ 1 2 volts
Torque Specifications
Compressor Suction and Discharge
Connector B o l t ...................................
Rear Head to Shell Stud Nuts ( 6 Cyl.)
Shaft Mounting N u t (6 C y l . ) ...............
Shaft Mounting Nut (4 Cyl.)
. . .
High Pressure Relief Valve (6 Cyl.)
Oil Charge Screw (6 Cyl.)
. . . .
Air Gapon Clutch (6 C y l.)
. . . .
Compressor Mounting Bracket
Compressor to Front Bracket Bolts
Belt Tension
.........................................
Fuse Block—
C-K S y s te m s ...........................................
M o tor Home Chassis U n it.....................
In -L in e C-K S y s te m s ...........................................
M o tor Hom e Chassis U n i t ....................
Circuit Breaker
G Model Systems.....................................
LIG H T T R U C K SE R V IC E M A N U A L
............23 ft. lbs.
............ 20 ft. lbs.
.
.
.
.
. 8-12 ft. lbs.
.
12 ft. lbs.
. . . 25 ft. lbs.
See Tune-Up Chart
....
20 Amp.
. . . . 25 Amp.
............... None
....
45 Am p.
AIR CONDITIONING
IB-61
SPECIAL TOOLS
1. J-25030 Clutch Hub Holding Tool
2. J-25029 Rotor Bearing Remover and
Rotor Assy. Installer
3. J-24895 M ain Bearing Installer
4. J-24896 M ain Bearing Remover
5.
6.
7.
8.
J-25031-2
J-25031-1
J-25008-1
J-25008-2
Rotor and Bearing Puller
Rotor and Bearing Puller G uide
Compressor H olding Fixture
Shell Installing Fixture
Fig. 1B-74--Air Conditioning Special Tools
LIG H T T R U C K SERVICE M A N U A L
IB-62
AIR CONDITIONING
SPECIAL TOOLS
1. J -8 3 9 3
2. J -2 4 0 9 5
3. J -54 5 3
4. J -9 4 5 9
J -2 5 4 9 9
5. J -5 4 2 0
J -2 5 4 9 8
6. J -6 0 8 4
C h a rg in g Station
O il Inducer
G o ggles
7 /1 6 " -2 0 9 0 ° G a u g e Line
3 /8 " -2 4 A d a p te r
7 /1 6 " -2 0 S tra ig h t G a u g e Line
3 /8 " A d a p te r
Leak Detector
7. J -8 4 3 3
8. J -9 3 9 5
9. J -2 3 5 9 5
Puller
Puller Pilot
R efrig era n t C an V alve
10. J -6271-01
(S id e -T a p )
R efrig era n t C an V alve
(To p-Tap)
11. J -5 4 2 1 -0 2
Pocket Thermometers (2)
12. J-54 0 3
13. J -64 3 5
14. J -9 3 9 6
N o. 21 S nap Ring Pliers
N o. 26 S nap Ring Pliers
Compressor H old ing
Fixture
Compressing Fixture
Clutch H ub H old ing Tool
9 /1 6 " Thin W a ll Socket
H ub and Drive Plate
15. J -2 5 0 3 0
16. J-94 0 3
17. J -9 3 9 9
18. J-9401
19. J-94 8 0 -01
20. J -93 9 2
21. J -2 3 1 2 8
Assembly Remover
H ub and Drive Plate
Assembly In staller
S eal Remover
S eal S eat Remover
Fig. lB-75--Air Conditioning Special Tools
LIG H T T R U C K SE RV IC E M A N U A L
22.
23.
2 4.
2 5.
J-93 9 8
J-9481
J-80 9 2
J -21 3 5 2
2 6. J -51 3 9
2 7. J-94 3 2
28. J-95 5 3 -01
29. J -2 1508
3 0. J -2 2 9 7 4
3 1. J-96 2 5
32. J-94 0 2
Pulley B earing Remover
Pulley a nd B earing In sta ller
H a n d le
In tern a l Assembly
Support Block
O il Pickup Tube Remover
N e e d le B earing Installer
Seal S eat " O " Ring
Remover
S eal S eat " O " Ring
In staller
S haft Seal Protector
Pressure Test C onnector
Parts Tray
FRAME
2A-1
SECTION 2A
FRAME
CONTENTS
G eneral Description ................... ......................................................................2A-1
On Vehicle S ervice........................................................................................... .2A-1
M aintenance and Inspection........................................................................ .2A-1
U nderbody In sp ectio n................................................................................. .2A-1
F ram e Inspection.......................................................................................... .2A-1
Fram e A lig n m en t.............................................................................................2A-1
U nderbody A lignm ent......................................................................................2A-4
Excessive Body D am age................................................................................ ..2A-4
GENERAL DESCRIPTION
L ig h t d u ty 10-30 Series fram es are of th e ladder
channel section riveted type.
Figure 2A-1 thru 2A-4 illustrates typical light duty
truck fram es with crossm embers, body mounts and suspension attaching brackets. This section also includes general
instructions for checking fram e alignm ent and recommendations on fram e repair.
The G -Van fram e side rails, cross sills and outriggers
are part of the underbody assembly which is a welded unit.
M isalignm ent of the underbody can affect door opening
fits and also influence the suspension system , causing
suspension m isalignm ent. It is essential, th erefo re, th a t
underbody alignm ent be exact to within - 1/16 in. (1.9m m )
of the specified dimensions.
ON VEHICLE SERVICE
MAINTENANCE AND
INSPECTION
UNDERBODY INSPECTION
Raise the vehicle on a hoist (preferably a twin-post
type).
C heck for obvious floor pan deterioration.
C heck for loose dirt and rust around the inside of the
floor pan reinforcem ent m em ber access holes. This is the
first indication th a t corrosion m ay exist in hidden areas, and
th at repairs m ight be required before the final cleaning and
protective treatm en t is perform ed.
Using a chisel, ensure th at the drain provisions in the
floor pan reinforcem ent m em bers are open.
T here are drain holes in the body side panels also.
These holes can be opened by using a punch or drift. The
side panel drain holes are in the rear section of the rocker
panels, and in the lower rear q u arter panels.
FRAME INSPECTION
R aise the vehicle on a hoist (preferably a twin-post
type).
Check for obvious floor pan deterioration.
Check for loose dirt and rust around the inside of the
fram e rails, on top and at the ends where corrosion m ay exist
in hidden areas. Check especially in the fram e box sections
for accum ulation of debris.
FRAME ALIGNMENT
Horizontal fram e checking can be made with tra m
ming gages applied directly to the fram e or by transferring
selected points of m easurem ent from the fram e to the floor
by means of a plum bob and using the floor layout for
measuring. Fig. 2A-2 or 2A-4 may be used as a general
guide in the selection of checking points; however, selection
of these points is a rb itrary depending on accessibility and
convenience. An im portant point to rem em ber is th at for
each point selected on one side of the frame, a corresponding
point on the opposite side of the frame m ust be used for
vertical checks, opposite and alternate sides for horizontal
checks.
Vehicle Preparation
Points to rem em ber when preparing vehicle for fram e
checking:
1. Place vehicle on a level surface.
2. Inspect dam aged areas for obvious fram e misalignm ent
to elim inate unnecessary measuring.
3. Support vehicle so th at fram e sidemembers are parallel
to the ground.
Tramming Sequence (Fig. 2A-1)
1. Dimensions to bolts an d /o r holes in fram e extend to
dead center of the hole or bolt.
2. Dimensions m ust be within 3/16 in. (4.7 mm).
3. If a tram bar is used, for horizontal alignm ent " X " check from opposite and alternate reference points AA,
BB and CC, as illustrated by the lines in Fig. 2A-1.
2A-2
FRAME
Error will result if a tram b ar is not level and centered
at the reference points.
4. O btain vertical dimensions and com pare the differences
betw een these dim ensions w ith th e dim ensions as
shown in Fig. 2A-3 or 2A-4.
Horizontal Check
1. M easure fram e width at front and rear. If widths
correspond to specifications, draw centerline full length
of vehicle halfway between lines indicating front and
rear widths. If fram e widths are not correct, layout
centerline as shown in Step 4.
2. M easu re d istan ce from cen terlin e to corresponding
points on each side of fram e layout over entire length.
Opposite side m easurem ent should correspond within
3/16 in. (4.7 mm).
3. M easure diagonals m arked A, B and C. If the lengths
of intersecting diagonals are equal and these diagonals
intersect the centerline, fram e area included between
these points of m easurem ent may be considered in
alignm ent.
4. If front or rear end of fram e is dam aged and width is no
longer within limits, fram e centerline m ay be drawn
through the intersection of any two previously drawn
pairs of equal, intersecting diagonals.
Vertical Check
Vertical dimensions are checked with a tram m ing bar
from indicated points on the fram e (Figs. 2A-2 and 2A-4).
For example, if the tram bar is set a t point B with a vertical
pointer length of 8-1/4 in. (206 m m ), and a t point E with a
vertical pointer length of 5-1/4 in. (131 mm ) (a height
difference of 3 in. (75 m m ), the tram bar should be parallel
with the fram e. If the area is tw isted or m isaligned in any
way, tram bar will not be parallel. Placing the tram bar
vertical pointers on opposite sides of the fram e side rail is
preferable in th at fram e twist will show up during this
vertical check. Fig. 2A-2 and 2A-4 show typical checking
points, with dimensions for various fram es shown in Fig. 2A3.
Frame Repair
Welding
Before welding up a crack in fram e, a hole should be
drilled at the starting point of the crack to prevent spread
ing. W iden V groove crack to allow com plete weld
penetration.
NOTICE: Do not weld into corners of fram e or along
edges of side rail flanges. W elding at these points will
tend to weaken the fram e and encourage new cracks.
Fig. 2A-1--Frame Horizontal Checking-Typical
■v Vjf*,
FRAME
Model
A
B
C
D
E
F
G
H
1
J
K
L
M
N
P
R
S
2A-3
T
U
V
14
CA107
13-3/8
15-1/4
16
19-7/8
12
13
10
14-7/8
17-3/4
17-3/4
19-7/8
16-3/4
15-5/8
17 3/4
68-1/2
76-1/2
110
16-7/8
16-7/8
CA109
13-3/8
15-1/4
16
19-7/8
12
13
10
14-7/8
17-3/4
17-3/4
19-7/8
16-3/4
15-5/8
17-3/4
69-5/8
86-1/2
120
16-7/8
16-7/8
14
CA209
13-3/8
15-1/4
17
19-7/8
12
13
10
14-7/8
17-3/4
17-3/4
19-7/8
16-3/4
15-5/8
17-3/4
69-5/8
86-1/2
120
16-7/8
16-7/8
14
CA210
310
13-3/4
15-1/4
16
18-1/2
10
13
10
14-1/4
17-3/4
17-3/4
19-7/8
15-5/8
17-3/4
68-3/4
105
131
16-7/8
16-7/8
14
CA314
13-3/8
14 7/8
16
18-1/2
10
13
10
14-1/4
17-3/4
17-3/4
19-7/8
15-5/8
17-3/4
69-7/8
129
155-1/2
16-7/8
16 7/8
14
KA107
13-3/8
15-1/4
17
19-7/8
12-1/2
13
10
14-7/8
17-3/4
17-3/4
19-7/8
16-3/4
15-5/8
17-3/4
68-1/2
76-1/2
110
16-7/8
16-7/8
14
KA109
209
13-3/8
15-1/4
17
19-7/8
12-1/2
13
10
14-7/8
17-3/4
17-3/4
19-7/8
16-3/4
15-5/8
17-3/4
68-1/2
86-1/2
120
16-7/8
16-7/8
14
PA 100
7-5/8
9-3/8
11
14-5/8
9-1/2
13
10
PA208
308
7-5/8
9-3/8
11-5/8
14-5/8
9-1/2
13
10
9-1/2
PA210
310
7-5/8
9-3/8
11-5/8
14-5/8
9-1/2
13
10
9-1/2
9-1/2
13
10-7/8
13
71-7/8
36
89
16-7/8
16-7/8
14
13
9-1/2
13
10-7/8
13
72-1/4
59
131
16-7/8
16-7/8
14
9-1/2
13
9-1/2
13
10-7/8
13
71-7/8
67
153
16-7/8
16-7/8
14
9-1/2
13
10-7/8
PA314
7-5/8
9-3/8
11-5/8
14-5/8
13
10
9-1/2
13
10-7/8
10-7/8
13
71-7/8
91
177
16-7/8
16-7/8
14
CA105
13-3/8
15-1/4
17
19-7/8
12
13
10
14-1/4
20
17-3/4
15-5/8
17-3/4
69-5/8
46
88
16-7/8
16-7/8
14
KA105
13-3/8
15-1/4
17
19-7/8
12-1/2
13
10
14-1/4
20
17 3/4
15-5/8
17 3/4
69-5/8
46
88
16-7/8
16-7/8
14
9-1/8
11-1/2
10-7/8
9-1/2
13
10
9-1/2
13
9-1/2
13
10-7/8
10-7/8
13
68-1/2
71
157
16-7/8
16-7/8
14
9-1/8
11-1/2
10-7/8
9-1/2
13
10
9-1/2
13
9-1/2
13
9-7/8
10-7/8
13
68-1/2
92-1/2
178-1/2
16-7/8
16-7/8
14
9-1/8
11-1/2
10-7/8
9-1/2
13
10
9-1/2
13
9 1/2
13
10-7/8
10-7/8
13
68-1/2
112
240-3/16
16-7/8
16-7/8
14
PE
31132
(137)
PE
31432
(157)
PE
31832
Fig. 2A-3--C-K-P Series Frame Reference Dimensions
LIG H T T R U C K SERVICE M A N U A L
2A-4
FRAME
Fig. 2A-4--G Van Truck Reference Dimensions
Bolting
W herever rivets or failed bolts are replaced, bolt hole
m ust be as near the O.D. of the bolt as possible to prevent
bolt from working and wearing. Drill out and line ream hole
(or holes) to the bolt O.D.
UNDERBODY ALIGNMENT
O ne m ethod of d eterm in in g th e alig n m en t of the
underbody is with a tra m gage which should be sufficiently
flexible to obtain all necessary m easurem ents up to three
quarters the length of the vehicle. A good tram m ing tool is
essential for an aly zin g and d eterm in in g th e extent of
collision m isalignm ent present in underbody construction.
MEASURING
To m easure the distance accurately between any two
reference points on the underbody, two specifications are
required.
1. The horizontal dim ension between the two points to be
tram m ed.
L IG H T T R U C K SERVICE M A N U A L
2. The vertical dimension from the datum line to the
points to be tram m ed.
The tram bar should be on a parallel to th at of the body
plane. The exception to this would be when one of the
reference locations is included in the misaligned area; then
the parallel plane between the body and the tram bar may
not prevail. A fter completion of the repairs, the tram gage
should be set a t the specified dim ension to check the
accuracy of the repair operation.
EXCESSIVE BODY DAMAGE
If dam age is so extensive th at key locations are not
suitable as reference points, repair operations should always
begin with the underbody area. All other components should
be aligned progressively from this area. Unlike the conven
tional type of fram e design, th e unitized type of body
construction seldom develops the two conditions of "tw ist"
and "diam ond" in the underbody area as a result of front or
rear end collisions, therefore, there usually is an undam aged
area suitable as a beginning reference point.
BUMPERS
2B-1
SECTION 2B
BUMPERS
NOTICE: Fasteners are im portant attaching parts in
th a t they could affect the perform ance of vital compo
nents and systems, an d /o r could result in m ajor repair
expense. They m ust be replaced with one of the same
part num ber or with an equivalent part if replacem ent
becomes necessary. Do not use a replacem ent part of
lesser quality or substitute design. Torque valves must
be used as specified during reassembly to assure proper
retention of these parts. For prevailing torque nut(s)
and bolt(s), refer to the "R euse of Prevailing Torque
N ut(s) and B olt(s)" chart in Section 10.
CONTENTS
G eneral D escription.............................................................2B-1
Service Procedures - 10 th ru 30 series.......................... ..2B-1
Front Bum per - C, K and P M o d els..............................2B-1
R ear Bum per - C and K M odels.................................. ..2B-1
R ear Step Bumper - C and K M odels........................
Front Bumper G S e rie s..................................................
R ear Bumper G S e rie s ...................................................
R ear Step Bumper G S eries..........................................
2B-2
2B-2
2B-2
2B-3
GENERAL DESCRIPTION
All truck front and rear bumpers are of a single piece design. Bumper
attachm ents are the standard bracket and brace to fram e mountings. This
section contains procedures for the removal and installation of face bar,
brackets, braces and license plate brackets.
SERVICE PROCEDURES-10 THRU 30 SERIES
FRONT BUMPER-C, K AND P MODELS
Installation
Removal Fig. 2B-1, 2B-2
Assem ble and install front bum per following the
removal procedure in reverse order.
1. Remove bolts securing two bum per brackets to frame.
2. Remove bolts securing bum per face bar to fram e, and
left and right bum per braces and remove bum per from
vehicle.
3. If necessary, disassemble bum per by removing bolts
attaching brackets and braces to bum per face bar.
4. If equipped with bumper guards (Fig. 2B-2) remove
rem aining nuts and bolts.
REAR BUMPER-C AND K MODELS (FIG 2B- 3)
Removal
1. Remove bolts attaching bum per to each bum per brace.
Disconnect license lamp wiring on suburban and panels
and pickup.
2. Remove bolts attaching bum per to frame.
3. Remove bum per from vehicle.
LIG H T T R U C K SERVICE M AN U AL
2B-2
BUMPERS
4. If necessary, replace body splash shield.
Installation
Install rear bum per following removal procedure in
reverse order. C onnect license lam p wiring on suburban
panel, and pickup models.
REAR STEP BUMPER C AND K MODELS
Removal (Fig. 2B-4)
Removal Fig. 2B-5, 2B-6
1. Remove nuts securing bum pers to brackets and braces
from left and right side. Remove bum per.
2. If necessary to remove the braces and brackets, remove
screws securing brackets and braces to sheet metal.
3. If equipped with bum per guards (Fig. 2B-6) they may
be removed from the face bar at this time.
Installation
Reverse removal steps to install bum pers.
1. Disconnect license lam p wiring.
2. Remove bolts connecting bum per to braces.
3. Remove bum per assembly.
4. Remove bolts securing bum per brace to fram e and
remove brace.
Installation
Install rear step bum per by reversing removal proce
dure. C onnect license lam p wiring.
FRONT BUMPER - G MODELS
L IG H T T R U C K SE RV IC E M A N U A L
REAR BUMPER-G MODELS
Removal Fig. 2B-7, 2B-8
1. Remove nuts securing bum per to brackets and braces
and remove the bumper.
2. Remove the license plate support nut and bolts.
3. Remove brackets and braces from vehicle.
The bum per may be removed with brackets and braces
attached if necessary.
Installation
Install in reverse order of removal.
BUMPERS
2B-3
SPECIFICATIONS
TORQUE SPECIFICATIONS C, P AND K
Front Bumper .........................................................35 ft.-lbs.
Front Bumper Bracket and Brace ........................ 70 ft.-lbs.
Rear Bumper to Outer Bracket ............................ 35 ft.-lbs.
Rear Bumper Outer Bracket and Brace .............. 50 ft.-lbs.
License Plate Bracket.............................................18 ft.-lbs.
Gravel Deflector ...................................................85 in.-lbs.
Rear Step Bumper to Bracket or Frame .............. 40 ft.-lbs.
TORQUE SPECIFICATIONS G
Front Face Bar to Bracket .................................... 24 ft.-lbs.
Bracket to Cross S ill...............................................24 ft.-lbs.
License Plate Bracket to Face Bar .................... 100 in.-lbs.
Rear Face Bar to Brackets.....................................55 ft.-lbs.
Bracket to Floor .....................................................55 ft.-lbs.
Fig. 2B-ST--Specifications
LIG H T T R U C K SERVICE M A N U A L
CHASSIS SHEET METAL
2C-1
SECTION 2C
CHASSIS SHEET METAL
N O TIC E Fasteners are im portant attaching parts in th at they could
affect the perform ance of vital components and systems, an d /o r could result
in m ajor repair expense. They m ust be replaced with one of the same part
num ber or with an equivalent part if replacem ent becomes necessary. Do not
use a replacem ent part of lesser quality or substitute design. Torque valves
m ust be used as specified during reassembly to assure proper retention of
these parts. For prevailing torque nut(s) and bolt(s), refer to the "R euse of
Prevailing Torque N u t(s) and B olt(s)" chart in Section 10.
CONTENTS
G eneral D escription............................................................
On Vehicle S erv ice.............................................................
Hood Assem bly - CK S e rie s .........................................
Cowl Top Vent P a n e l....................................................
Hood H inge R eplacem en t............................................
Hood H in g e .....................................................................
Hood Lock M ech an ism ................................................
Hood A ssem bly...............................................................
Hood Assembly - G S eries................................. ...........
Hood H in g e .....................................................................
Hood Lock A ssem b ly ....................................................
2C-1
2C-1
2C-1
2C-1
2C -2
2C -2
2C -2
2C -2
2C -2
2C-3
2C -3
Hood B u m p er.................................................................
Front Sheet M etal - CK S eries....................................
R adiator S u p p o rt...........................................................
Front Fender...................................................................
Front Fender and S k ir t...............................................
Front Fender S k ir t........................................................
Running B o a rd ...............................................................
Fender Skirt - P S eries...................................................
Adhesive Bodyside Molding (All Vehicles)...............
Wood G rain Applique Installation Procedure..........
Decal Applique Procedure (All V ehicles).................
Specifications......................................................................
2C-3
2C -5
2C-7
2C-8
2C-8
2C-8
2C-8
2C-8
2C-8
2C-9
2C-10
2C-11
GENERAL DESCRIPTION
CK MODELS
The chassis sheet metal assembly is attached to the
fram e and body at adjustm ent points. The front of the
assembly is supported by two mounts located at the fram e
side rails. Fore and aft and side adjustm ent is allowed by
oversize holes at the fender rear attaching point and chassis
sheet m etal mounts. Special shims at the rear locations
allow adjustm ent of the rear of the assembly. The lower rear
edge of the assembly is attached to the body at the rocker
panel by bolts on each side. Shims are used at this location to
provide in and out adjustm ent at the rear of the fender. The
bolts th a t retain the sheet m etal braces m ust be torqued to
the required torques. If these bolts are loose, the braces will
not provide additional support for the sheet m etal assembly.
these items are welded together as an integral part of the
body.
Front end sheet m etal includes the hood assembly, hood
hinges, hood lock catch and support, a hood rod assembly
which supports the hood, a bolted radiator-upper tie bar,
and series designation plates and hoods emblems.
Anti-Corrosion Information
"Anti-corrosion m aterials have been applied to the
interior surfaces of some m etal panels to provide rust
resistance. W hen servicing these panels, areas on which this
m aterial has been disturbed should be properly recoated
with service-type anti-corrosion m aterial."
G MODELS
The front end sheet m etal design does not include the
radiator support and fenders as loose items inasmuch that
ON VEHICLE SERVICE
HOOD ASSEMBLY - CK MODELS
2. Open hood and remove two screws at each wiper nozzle
attachm ent.
Cowl Top Vent Panel (Fig. 2C-1)
3. Remove four screws at front of cowl panel.
Replacement
1. Remove wiper arms.
4. Pry the five plastic fasteners loose from windshield
frame. Remove the panel.
5. Reverse the above listed procedure to replace.
LIG H T T R U C K SERVICE M A N U A L
2C-2
CHASSIS SHEET METAL
5. Remove two bolts hinge to rear reinforcem ent at the
body and remove hinge.
6. Replace by reversing the above procedure.
Hood Lock Mechanism
The hood latch assembly and bracket are mounted to
the R adiator Support. Elongated holes in the bracket are
provided for alignm ent purposes. A sep a ra te secondary
latch is mounted to the striker plate in the hood. See Fig.
2C-3 and 2C-4.
Replacement
1. Open hood and remove the two bolts holding the hood
latch to the bracket.
If original hood lock assembly is to be replaced, scribe a
line around lock for alignm ent on installation.
2. Replace hood latch assembly and bolts loosely.
3. Align within scribe m arks and tighten bolts.
TYPICAL 2 PLACES
Fig. 2C-l--Cowl Top Vent Panel
Hood Bumper Adjustment
Hood Bumpers m ust be adjusted until hood and fender
line up flush at front corner.
Hood Assembly
Removal
1. Open hood and prop in full open position.
If hood is to be reinstalled and present alignm ent is
satisfactory, m ark each hinge in relation to hood, to
assure original alignm ent.
Hood Hinge (Fig. 2C-2)
Replacement
1. Prop the hood in the extrem e open position and place
protective covering over the cowl and fenders. Scribe
position of hinge attach m en t to hood.
2. Remove two bolts link assembly to hood and two bolts
at hinge to the hood.
3. Rem ove two bolts link assem bly to fender inner,
remove link.
4. Remove wiper arm s and a t the cowl cover panel remove
four screws and lift up w ithout removing for access.
L IG H T T R U C K SE RV IC E M A N U A L
CHASSIS SHEET METAL
2C-3
m ounted strik er plate, preventing upw ard or dow nw ard
m ovem ent of the hood while the vehicle is in m otion.
Integral with the strik er plate is the com bination lock
release lever and safety catch.
1. S cribe a line around the entire hinge plate to be
repositioned.
2. Loosen the appropriate screws and shift the position o f
the hood into correct alignm ent using the scribe m arks
to check am ount of movement. Check alignm ent by
tightening screws and closing the hood.
Replacement
1. Open hood and remove the four bolts holding the
com bination lock catch and lock bolt.
If original hood lock assembly is to be replaced, scribe a
line around lock for alignm ent on installation.
2. Place hood lock assembly in position.
3. A djust as outlined under A djustm ents.
Adjustment
2. Remove two (2) cap screws which attach each hinge
and link to hood; then with a helper remove hood from
vehicle.
Installation
1. If original hood is to be installed, position hood to
hinges and links and install four cap screws snug which
attach hinges and links to hood.
If a new hood is to be installed, perform procedures as
outlined under Alignm ent, directly below.
2. Shift hood on hinges to location m arks m ade before
removal of hood, then tighten attaching cap screws at
hinges firmly. Close hood and check fit. If necessary to
align hood perform p rocedure as outlined under
"A lignm ent" which follows.
Hood lock assembly to be adjusted fore and aft until
hood lock bolt enters center of elongated guide. Bending bolt
to accomplish this adjustm ent may seriously effect lock
operation and safety catch engagem ent and is, therefore not
recommended.
1. A djust lock bolt as shown in Fig. 2C-7.
2. Open hood and adjust tightness of catch assembly so
th at it is ju st "snug" enough to hold lock bolt in
position.
3. Close hood in a normal manner.
4. Raise hood again; lock bolt assembly will have shifted
to operating position. T ighten bolts fully. F u rth e r
ad ju stm en t m ay be m ade a t lock bolt support, if
necessary.
5. A djust lock bolt to obtain a secure hood closure and
reasonable lock release effort.
Alignment
1. Loosen hood hinge bolts.
N ote th at the rear most bolt holes in hinge are slotted to
allow hood to move back and forth.
2. A djust bracket at hood latch, as necessary. Slotted hole
in the bracket allow movement up or down a t the latch,
and right or left a t the radiator support.
3. A djust hood bum per as necessary in proportion to the
latch.
Hood Assembly - G Model
The alignm ent of the hood is controlled by the position
of the hood hinges and the height of the two bum pers located
one at each side of the radiator support. The adjustm ent at
the hood lock m ust be m ade after the hinges and bumpers
are properly adjusted (R efer to Hood Lock A djustm ent Fig.
2C-7). To align the hood and lock proceed as follows:
Hood Hinge (Fig. 2C-5)
Hood Lock Assembly - G Model
A bolt-type hood lock is used as shown in Fig. 2C-7.
T he lock bolt, located on th e hood, dovetails w ith the
Fig. 2C-5--Hood Hinge-G Model
LIG H T T R U C K SERVICE M AN U AL
2C-4
CHASSIS SHEET METAL
HOOD EMBLEM - CK MODELS (FIG. 2C-9)
Hood Bumper
Adjust hood bumpers so that hood top surface is flush
with the fender and grille top surfaces.
Hood Assembly-G Model (Fig. 2C-7)
Removal
1. Lay a fender cover along cowl top to prevent hood from
scratching painted surfaces.
2. Open hood and prop in full open position.
If hood is to be reinstalled and present alignment is
satisfactory, mark each hinge in relation to hood, to
assure original alignment.
3. Remove two cap screws which attach each hinge to
hood; (Fig. 2C-5) then with a helper remove hood from
vehicle.
Installation
Fig. 2C-6--Hood Lock Catch Assembly-G Model
1. If original hood is to be installed, position hood to
hinges with helper and install four cap screws snug
which attach hinges to hood.
2. Install rod assembly.
If a new hood is to be installed, perform procedures as
outlined under Alignment, directly below.
3. Shift hood on hinges to location marks made before
removal of hood, then tighten attaching cap screws at
hinges firmly. Close hood and check fit. If necessary to
align hood perform procedure as outlined under
"A lignm ent" which follows.
Alignment
1. Loosen hood hinge bolts.
Note that the rear bolt holes in hinge is slotted to allow
hood trailing edge to move up and down.
2. A djust hood bumpers so th a t hood and adjacent
surfaces are flush.
3. Perform hood lock a d ju stm e nt as outlined in this
section if necessary.
Hood Lock Assembly to be adjusted fore and aft until
nubble (part of Hood Lock Bolt Support Assembly)
enters center of elongated guide (Socket). Bending
nubble to accomplish this adjustment may seriously
effect lock operation and safety catch engagement and
is, therefore, N O T R E C O M M E N D E D .
Fig. 2C-7--Hood, Bumpers and Latch-G Model
HOOD LATCH CABLE RELEASE - CK MODELS
(FIG. 2C-8)
Hood Rod Support - G Model
Refer to Fig. 2C-10 for removal and installation of
hood rod support.
Replacement
1 Release the hood from below, using a suitable rod, by
pressing on the hood release tab at the right side of the
lock assembly.
2. Remove the cable at the lock assembly.
3. Remove hood release handle to kickpad attaching
screws.
4. Remove hood release cable.
5. To install, reverse Steps 2 through 4.
LIG H T T R U C K SERVICE M A N U A L
CARBURETOR OUTSIDE AIR INLET
SNORKELS (Fig. 2C-11)
Removal
1. Raise hood and remove carburetor air duct from air
snorkel by sliding duct rearward.
2. Disconnect the attachment incorporated in the duct
attaching the air snorkel to radiator support turn and
remove from vehicle.
CHASSIS SHEET METAL
2C-5
FENDER ASSEMBLY
TIE BAR ASSEMBLY
Fig. 2C-10--Hood Rod Support - G Model
GRILLE MOLDING - CK, G MODELS (FIG. 2C-14)
FRONT SHEET METAL ASSEMBLY-CK SERIES
LOWER RADIATOR GRILLE - G MODEL (FIG. 2C12)
RADIATOR GRILLE PANEL OR BRACKETS CK,
G-MODELS (FIG. 2C-13)
Removal of entire front sheet metal assembly including
rad iato r involves disassembly of mounts, disconnecting
ra d iato r hoses and removal of front bumper. Vehicles
equipped with air conditioning a nd/or power steering will
require special handling.
LIG H T T R U C K SERVICE M AN U AL
2C-6
CHASSIS SHEET METAL
Fig. 2C-11--Typical Carburetor Air Inlet Snorkel - CK
Model
Fig. 2C-13--Grille Panel or Brackets
Refer to ap prop riate sections of this m anual for
instructions.
Shims which are found at various locations should be
recorded to ease installation of sheet metal assembly.
Removal
,
- /!- * ,
-
■
. ,,
W*
;
wr.SU"**lit-..'
1. Remove bolts at hood hinge and link. Remove hood
assembly.
2. Drain radiator and remove radiator hoses. Disconnect
oil cooler lines if so equipped.
3. Disconnect wire connectors at the dash and toe panel
and wire connector to horn and voltage regulator.
4. Disconnect battery and generator wires.
5. Remove front bumper bolts and remove bumper.
LIG H T T R U C K SE RV IC E M A N U A L
Fig. 2C-14-- Grille Moldings - CK, G Models
CHASSIS SHEET METAL
2C-7
6. Remove bolts attaching fender upper edge to cowl door
frame.
7. Remove fan shroud.
8. W orking from u n de rne a th rear of fender, remove
attachm ent from each fender at the hinge pillar.
9. Remove bolt from each radiator support mounting.
10. Remove bolts at each fender skirt to cab underbody
(Fig. 2C-15).
11. With a helper, remove front sheet metal assembly, with
radiator, battery, horn and voltage regulator attached.
Installation
1. With a helper place sheet metal assembly in position.
Install all bolts loosely to facilitate aligning after
complete installation.
2. Install fender bolts at cowl.
3. Install combination bolt and flat washer assembly into
each fender reinforcement while inserting shims re
quired between fender reinforcement and body (Refer
to Fig. 2C-16).
4. Install two bolts and shims required at each fender rear
lower edge to hinge pillar.
5. Install bolt in each fender skirt to underbody.
6. Install bolts at steering column skirt reinforcement,
final torque 25 ft. lb. (33 N-m).
7. Tighten each radiator support mounting bolt 33 ft. lb.
(44 N-m).
8. Torque bolts at fender to cowl 25 ft. lb. (33 N-m)
9. Install front bumper.
10. Connect wire connectors at dash and toe panel. Attach
generator and regulator wires.
11. Connect upper and lower radiator hoses. Connect oil
cooler lines to the radiator on models so equipped.
12. Connect battery and fill radiator. S tart engine and
check for leaks.
13. Install Hood.
Radiator Support
Removal
1. Drain radiator, saving coolant, loosen attachments and
remove radiator and coolant recovery tank.
2. Disconnect and remove battery.
3. Remove wiring from radiator support.
4. Disconnect fan shroud and lay back on engine.
5. Remove both head lamp assemblies.
6. Remove grille assembly.
7. Remove lower radiator grille panel. (Fig. 2 C -13).
8. Remove screws securing front fenders to radiator
support.
9. Remove screws securing fender skirts to rad iato r
support bottom. (Fig. 2 C - 15).
10. Remove bolt securing center support to radiator
support.
11. Remove bolts securing hood latch assembly to radiator
support.
12. Remove radiator support bolts secured to frame.
13. Tilt radiator support rearward and lift up and off.
•!
'•
Installation
1. Rotate radiator support into position and loosely install
attachments to frame.
2. Connect center support to radiator support.
3. Connect hood latch plate.
4. Connect radiator support brackets to fenders.
5. Connect support to fenders.
6. Connect screws from underside of fender skirts to
support bottom.
7. A ttach grille lower panel to fenders.
8. Tighten radiator support bolts.
9. Install radiator coolant recovery tank hoses and shroud.
10. Connect removed wiring to radiator support.
LIG H T T R U C K SERVICE M AN U AL
2C-8
11.
12.
13.
14.
15.
CHASSIS SHEET METAL
Install both head lamp assemblies.
Tighten all previously installed bolts and screws.
Install battery and connect leads and wires.
Install grille assembly.
Fill radiator with coolant as specified in Section 13.
FRONT FENDER (FIG. 2C-16)
Removal
1. Remove hood and hinge assembly.
2. Remove head lamp bezel, wiring and attachm ents from
fender.
3. Remove screws attaching lower radiator grille panel.
4. Remove screws attaching fender wheel opening flange
to skirt.
5. Remove skirt to fender bolts, located inboard on
underside of skirt.
6. Remove two (2) screws attaching support bracket to
fender.
7. Remove five (5) screws attaching radiator support to
front fender.
8. Remove bolt and shim attaching trailing edge of fender
to hinge pillar.
9. Remove two bolts and shims at top rear of fender
attaching to cowl.
Fender Skirt - P Model
Installation
Refer to figure 2C-18 for removal and installation of
fender skirt, brackets, rear supports and hangers.
To install, reverse the removal procedure using sealing
tape between filler panel and fender. Check sheet metal
alignment.
ADHESIVE BODY SIDE MOLDING
FRONT FENDER AND SKIRT (FIGS. 2C-15 AND
2C-16)
Removal
1. Remove hood and hood hinge assembly.
2. Disconnect and remove battery (right side or auxiliary
leftside).
3. Remove head lamp bezel, wiring and attachments from
fender.
4. Remove screws attaching lower radiator grille panel.
5. Remove screws attaching skirt to radiator support.
6. Remove two (2) top rear fender bolts and shims.
7. Remove bolt and shims at bottom of fender.
8. Remove bolt and shim(s) attaching skirt to underbody.
9. Remove two (2) screw attaching support bracket to
fender.
10. Remove five (5) screws attaching radiator support to
front fender.
11. Lift fender and skirt from truck.
Installation
Body side moldings are attached to body panels with
foam adhesive tape. To insure a good molding replacement
(new or old moldings), the panel surface should be warm (80
to 125°F or 26 to 40°C), clean and free of any wax or oily
film residue. Two methods are listed for attaching loose
molding ends and completely removed moldings.
Molding End Loose
1. Wash affected area with detergent and water and wipe
dry. Wipe panel and adhesive side of molding with
clean naphtha or alcohol.
If molding has separated from adhesive backing (tape
remains on body panel), do not remove tape from body.
Clean back of molding and tape on body with naphta or
alcohol and proceed with step 3.
2. If needed, apply a length of masking tape as a molding
guideline. A suitable straightedge may also be used in
most cases.
3. Apply adhesive to back of molding and press in place.
a. If Loctite 414 adhesive (part no. 1052283) or
equivalent is used, apply constant pressure to mold
ing for 30 seconds or until a firm bond has been
established.
Install front fender and skirt assembly in reverse order
of removal.
b. If 3M Super Weatherstrip Adhesive (or equivalent)
is used, tape molding in place for 15 minutes. Use
naphtha for clean-up.
RUNNING BOARDS
c. If 3M Plastic and Emblem Adhesive (or equivalent)
is used, follow package instructions for apply adhe
sive and tape molding in place for 30 minutes.
Refer to Fig. 2C-17 for removal and installation of
running boards.
LIG H T T R U C K SERVICE M A N U A L
CHASSIS SHEET METAL
Molding Completely Removed
This method is valid only for moldings attached with
adhesive foam tape. If necessary moldings may be rein
stalled by replacing two-way adhesive foam tape to the
molding and then installing the molding to the panel. Twoway adhesive foam tape may be obtained through local
jobbers and hardware stores. Use a quality type two-way
tape for this application.
1. Wash affected panel area ith detergent and water and
wipe dry. Wipe panel and adhesive side of molding with
oil-free naphtha or alcohol.
If separation occurs between adhesive backing and
molding (tape remains on body panel), do not remove
tape from body. Clean back of molding and tape with
naphtha or alcohol and proceed with step 3.
2. M ark proper alignment position of molding with a
length of masking tape. Use adjacent moldings as a
guide, if applicable (view A, Fig. 2C-19.)
3. Hold molding in position with cloth or masking tape
strips applied every 150 to 200mm (6" to 8 " ) as shown
in (view B, Fig. 2C-19.)
4. If body is below 80°F (26°C) due to shop temperature
or prior outside temperature, warm body panel witgh
heat lamp or heat gun while proceeding with step 5.
5. Loosen top of tape strips holding molding position.
Hinge molding downward to gain access to back of
molding (view C, Fig. 2C-19), then using a circular
motion, quickly apply a thin film of 3M Super
W eatherstrip Adhesive (or equivalent) to the adhesive
portion of the molding.
6. Align molding to previously installed tape guideline
and firmly press in place at once. Hold in place with
tape strips.
7. Allow to set 15 minutes. If clean up of cement squeezeout is needed, use a cloth dampened with naphtha; then
remove tape strips and tape guideline.
2C-9
Although adhesive cures enought to retain molding
after 15 minutes, total cure time is 24 hours. C ar should
not be exposed to high pressure car washes, etc., for a
24 hour period.
WOOD GRAIN APPLIQUE (INSTALLATION
PROCEDURE)
General
The wood grain applique (transfer film) is a vinyl
material with a pressure sensitive adhesive backing. The
transfers are serviced in precut panels. The transfers are
designed with an appealing wood grain pattern and a 50
degree or semigloss finish.
Preparation of the surface to which the transfer will be
applied is very important. In cases where body metal repair
has been made it is necessary to prime and color coat these
areas to blend with the undamaged surface. Apply the
transfer film to color coated panels only, never to bare metal
or primer.
The surface must be free of any imperfections that
might high-light through the film. Remove dirt nibs and
other foreign material in the paint by light sanding with 600
grit sandpaper.
The temperature of the body must be maintained at a
moderate level between approximately 70 and 90°F (21 and
32°C). Too warm a body will cause the wood grain film to
stick prematurely while too cool a body will reduce the
adhesion of the wood grain film. Cool the body panel with
cool water when too warm and heat the body panel with a
heat gun or a heat lamp when too cold.
Transfers should not be replaced in temperatures below
65 0 F (18°C). The transfer should not be subjected to
temperature greater than 175°F (79°C) and should not be
left at or near this temperature for extended periods of time.
Shelf life of the transfer material is 90 days at a
temperature not to exceed 105°F (40°C).
LIG H T T R U C K SERVIC E M AN U AL
2C-10
CHASSIS SHEET METAL
4. While entire area is still wet with solution, remove
paper backing from transfer and align upper edge with
pierced holes in fender and press on lightly.
5. Start at center of transfer and squeeze outboard from
middle to edges removing all air bubbles and wetting
solution to assure a satisfactory bond. Use teflonbacked plastic squeegee only.
6. Notch applique at fender rear contour bend areas with
scissors. Also notch out front marker lamp.
7. Fold ends of applique over fender flanges using squee
gee. Heat the wrap-around area of applique with a heat
lamp or gun to approximately 90°F (32°C) and press
with squeegee to secure entire edge surface.
8. If the wrap-around of the transfer has trouble sticking
to fender edges, brush vinyl adhesive onto the fender or
transfer area. Allow the adhesive to set for one minute
then press transfer to fender for adhesion.
9. Inspect transfer installation from critical angle using
adequate light reflection to detect any irregularities
that may have developed during installation. Remove
all air or moisture bubbles by piercing each at an acute
angle with a fine pin or needle and by pressing the
bubble down.
10. Install previously removed parts and clean up vehicle as
required.
DECAL APPLICATION PROCEDURE (ALL
VEHICLES)
1. Wipe clean the entire fender surface, body surface,
door ja m flanges, door facings, fender flanges, etce, to
be covered with the transfer with a sponge dampened
with N aptha or equivalent.
2. Wipe cleaned surface dry with clean cloth.
3. Starting with front fender, cut stripe to length. Allow
excess at ends if necessary to avoid handling ends of
stripe with fingers. T rim excess before wrapping
around or tucking ends.
Fig. 2C-19--Molding Application
Removal
Remove the moldings from the affected panel. The
transfer film may then be removed by lifting an edge and
peeling the material from the painted surface. Exercise care
so as not to damage the paint. Application of heat to the
transfer and the panel by means of a heat gun or heat lamp
will aid in the removal.
Installation
1. With a solvent dampened sponge, clean entire surface
to be covered with applique.
2. Wipe area dry with a clean cloth.
3. Prior to application of transfer, wet down the complete
transfer surface of the fender with a solution of 1/4 oz.
of neutral detergent cleaner (must not contain oils,
perfumes, or bleaches) per gallon of clear water. It is
essential that no substitute for this solution be used and
that the specified proportions be maintained.
LIG H T TR U C K SERVICE M A N U A L
4. Remove about 6.00 in. (152.4mm) of the paper backing
from stripe and align stripe on vehicle. Fender stripe
should bridge the gap at the fender extension, be tucked
in with the edge of the squeegee and then trimmed with
a razor blade.
5. Pressurize stripe with a soft squeegee or a felt pad. Do
not use thumbs or fingers as adequate pressure cannot
be applied.
6. Remove the decal backing about 12.00 in. (304.8mm)
at a time careful not to touch adhesive with fingers and
repeat step no. 5.
7. After complete pressurization, remove the protective
premask from the stripes at 180° angle.
8. Repeat above steps no. 4 thru 7 for the doors, quarter
panels, and end caps.
9. Fold material around wrap areas, pressurize, heat to
approximately 90°F (32°C) with heat gun, and
repressurize.
10. Heat all areas at ends of stripes (end caps, front of
fender, rear of quarter panel, etc.)
11. Reinspect entire stripe, especially ends and wraps and
re- pressurize and heat where necessary to insure entire
stripe is down.
CHASSIS SHEET METAL
12. Best results are obtained when metal temperature is
70°90°F (21°32°C). Use heat gun or allow cooling time
when metal is outside approximate temperature range.
13. The maximum temperature that the tape should be
subjected to is 175°F (79°C) (paint repair oven temper
ature). No tape stripe job should be left in a paint
repair oven as damage to the tape may occur.
14. The tape will not be affected by any of the cleaning
solvents, waxes or detergents now being used at the
assembly plants. Acrylic lacquer solvents will affect the
clear coating over the vinyl.
2C -11
1. If the tape is ruined with no paint being removed, the
surface should be wiped with a prep-sol to insure a
smooth and clean surface. Another section of tape
would then be applied according to the application
procedure.
2. If a section of paint is removed when the tape is pulled
away, the area must be repainted and feathered into the
adjoining surfaces. Another section of tape should be
applied according to the application procedure.
REMOVAL
Removal of decal should cause it to be permanently
damaged. Test to be conducted at an ambient temperature
not to exceed 90°F (32°C) and after a minimum of 72 hours
aging.
15. This tape stripe highlights metal imperfections so that
all dings and rough metal must be repaired before
applying the tape.
16. If after application of stripes, there appears to be
bubbles in the surface of the tape stripes, piercing them
with an ordinary safety pin will relieve the en- trapped
air so that the bubble can be smoothed out.
For Large Decals
1. Prior to application of transer, wet down the complete
transfer surface with a solution of 0.25 oz. of neutral
detergent cleaner (must not contain oils, perfumes, or
bleaches) per gallon of clear water. It is essential that
no substitute for this solution be used and that the
specified proportions be maintained.
2. While entire area is still wet with solution, remove
paper backing from transfer, locate and press on
lightly.
3. Start at center of transfer and squeegee outboard from
middle to edges, removing all air bubbles and wetting
solution to assure a satisfactory bond. Use teflonbacked plastic squeegee only.
17. Shelf life of the vinyl tape is 90 days at a maximum
temperature of 105°F (40°C).
REPAIR
Repair is required when:
1. If the tape is damaged.
2. The paint is damaged as the tape is pulled back for
realignment or releasing traped air.
The following repair procedure is recommended:
TORQUE SPECIFICATIONS
27 N- m
CK
( 20 ft.
G
lb s .)
Lock to Bracket & Rad. Support
Lock Support to Hood
Lock Bolt Nut
Bumper Bolt Nut
Hood Hinge
Hood Lock Catch
Lock Support to Rad. Support
Rad. Support to Frame
Rad. Support to Fender
Fender Skirt to Fender
Fender to Cowl
24
27
17
48
17
17
48
Rad. Grille Panel Lower
17 N- m (150 in . lb s .)
N- m
N- m
N. m
N- m
N- m
N- m
N- m
( 18
( 20
(150
( 35
(150
(150
( 35
ft. lb s.)
ft. lb s .)
in .lb s .)
ft. lb s.)
in .lb s .)
in . lb s .)
ft. lb s.)
17
54
17
24
24
24
N* m
N- m
N- m
N- m
N- m
N- m
(150
( 40
(150
( 18
( 18
( 18
i n .l b s . )
ft. lb s.)
i n .l b s . )
ft. lb s.)
ft. lb s.)
ft. lb s.)
LIG H T T R U C K SERVICE M AN U AL
BODY
2D-1
SECTION 2D
CAB AND BODY
N OTICE Fasteners are important attaching parts in that they could
affect the performance of vital components and systems, and/or could result
in major repair expense. They must be replaced with one of the same part
number or with an equivalent part if replacement becomes necessary. Do not
use a replacement part of lesser quality or substitute design. Torque valves
must be used as specified during reassembly to assure proper retention of
these parts. For prevailing torque nut(s) and bolt(s), refer to the "Reuse of
Prevailing Torque Nut(s) and Bolt(s)" chart in Section 10.
CONTENTS OF THIS SECTION
General D escription............................................................................................2D-1
On Vehicle Service..............................................................................................2D-4
C-K M o dels........................................................................................................2D-4
G M odels.............................................................................................................2D-37
Specifications...................................................................................................... ..2D-62
Special Tools.........................................................................................................2D-64
GENERAL DESCRIPTION
On the following pages, service procedures will be given
for components on all 10-20-30 series trucks in C, K and G
models. Reference will be made, both in text and illustra
tions, to vehicle model lines and to individual model
numbers within these model lines.
As an aid to identification of specific models, the
following general descriptions are given.
rear cargo doors. An optional endgate with moveable
window is available.
Utility
Utility vehicle models see figure 2D-4. Are available
with a removable roof or a convertible roof.
Chassis/Cabs
Chassis cab models see figure 2D-1. Two-wheel drive
units come in CIO, C-20 and C-30 series. Four-wheel drive
units may be either K -10 or K-20. Optional pickup boxes are
available.
Vans
G-Series Vans are available in three models See figures
2D-5 and 2D-6. Vans without body windows and/or passen
ger seats, sport vans with body windows and passenger seats
and commercial cutaway vans as shown in figure 2D-6.
Crew Cab/Chassis
Crew cab/chassis models see figure 2D-2. Optional
pickup boxes are available.
Suburban
Suburban model see figure 2D-3. Base models have
Anti-Corrosion Information
"Anti-corrosion materials have been applied to the
interior surfaces of some metal panels to provide rust
resistance. When servicing these panels, areas on which this
material has been disturbed should be properly recoated
with service-type anti-corrosion material."
LIG H T T R U C K SERVICE M AN U AL
2D-2
BODY
Fig. 2D-3--Typical Suburban Model
LIG H T T R U C K SERVIC E M A N U A L
BODY
2D-3
Fig. 2D-5--Typical Vans and Sport Vans Models
LIG H T T R U C K SERVICE M AN U AL
2D-4
BODY
ON VEHICLE SERVICE
C-K MODELS
INDEX
Front End
Windshield W ip e rs........................................................ .2D-4
Glove B o x ........................................................................ .2D-5
Rear View M irro rs........................................................ .2D-5
Body Glass
Windshield G lass..............................................................2D-6
Stationary Body G lass.................................................. ..2D-8
Side Doors
A djustm ents.......................................................................2D-10
Front Side D oor.............................................................. ..2D-11
R ep lacem ent......................... ,.................................... ..2D-11
H inges.............................................................................2D-11
V entilator............... ..................................................... ..2D-12
Window and R e g u la to r..............................................2D-13
Locks, Handles, Rods.................................. ............ ..2D-15
W eath erstrip............................................................... ..2D-16
Rear Side D o o rs...............................................................2D-16
R ep lacem en t........................................ ...................... ..2D-16
H inges.......................................................................... .2D-16
Stationary G la s s .................................... .....................2D-16
Window and R egu lato r.............................................2D-17
Locks, Handles, Rods............................................... .2D-18
W eatherstrip............................................................... .2D-19
Rear Doors
A djustments.......................................................................2D-19
Locks, Handles, Rods......................................................2D-19
H inges............................................................................... ..2D-19
Gates
E n d g a te s .......................................................................... ..2D-21
T a ilg a te s.......................................................................... ..2D-27
Removable Top (Utility).................................................. ..2D-27
Seat Belts................................................................................2D-29
S eats.........................................................................................2D-29
Body M ounting................................................................... ..2D-34
Applique Procedures......................................................... ..2D-34
Adhesive Body Side M oldings........................................ ..2D-34
FRONT END
WINDSHIELD WIPERS
Windshield wiper units on all models are of the twospeed electric type. A single wiper motor unit, mounted to
the left side of the dash panel inside the engine com part
ment, powers both wiper arms. The wiper arm operating
link rods and pivot mountings on these models are located in
the outside air inlet plenum chamber.
Arm Adjustment
To adjust sweep of blades, turn on wipers and note
sweep of arms. If necessary, remove one or both arms as
follows:
Pull outer end of arm away from glass which will trip
lock spring at base of arm and release spring from undercut
of pivot shaft. While holding arm in this position, pull
outward on cap section at base of arm to remove arm. Arm
can be reinstalled in any one of several positions due to
serrations on pivot shaft and in arm cap. See figure 2D-7.
4. Remove two screws from each transmission pivot shaft
assembly to windshield frame. Remove wiper linkage
and transmission from plenum.
Installation
1. Place wiper linkage and transmission into position.
Secure assembly with two screws at each transmission.
2. Attach end of cross rod to drive arm of motor assembly.
Secure rod.
3. Before installing wiper arms or cowl ventilator grille,
operate wiper motor momentarily which should rotate
pivot shafts to park position. 4 .? Install arms, grille and
shafts.
Wiper Arm Pivot Shafts and Linkage
Removal
1. Remove windshield wiper arm s from pivot shafts.
Procedure for removing arms is explained previously
under ‘A rm A d ju ste m n t".
2. Remove cowl ventilator grille.
3. Remove two nut and lock washer assemblies from the
connector link to motor drive arm via the plenum access
hole.
L IG H T T R U C K SE RV IC E M A N U A L
Fig. 2D-7--Windshield Wipers
BODY
2D-5
INSTRUMENT PANEL COMPARTMENT AND LOCK
Replacement
Removal of the entire assembly including door may be
accomplished by removing four screws which attach hinge
just below box. See figure 2D-8. The outer door panel may
be removed, leaving the compartment intact, by removal of
four screws. Access to the door stop bumper is gained by
reaching into c o m partm ent opening with door partially
open.
Adjustment
Engagement of lock in striker may be adjusted by
loosening striker retaining screws and moving the striker to
desired position.
INSIDE REAR VIEW MIRROR - FIGURE 2D -11
Replacement
OUTSIDE REAR VIEW MIRRORS
R ear view mirror installations are shown in figure 2D9, 2D-10 and 2D-11. Occasional tightening of mounting and
assembly bolts and screws will sharply decrease occurrence
of failure due to door slamming or road shock.
C a m p e r m irror installation is similar to the below
eyeline mirror installation.
1. Remove screw retaining mirror to its glass-mounted
bracket and remove mirror.
2. Install mirror into its mounting bracket. Torque screw
to specifications.
COWL VENT VALVE - FIGURE 2D-12
i
Two styles are shown in Figure 2D-12. Removing the
attaching screws allows removal of the valve from the side
panels.
Fig. 2D-9--Rear View Mirror - Base
L IG H T T R U C K SERVICE M A N U A L
2D-6
BODY
BODY GLASS
CAUTION:A!ways wear gloves and eye glasses
when handling glass to avoid personal injury.
CK TRUCK WINDSHIELD REPLACEMENT
The windshield is a one-piece type and is retained in the
windshield opening by a urethane bonded rubber weather
strip. See figure 2D-13.
To replace a window installed with urethane adhesive
requires replacement of the adhesive material. Adhesive
service kits No. 1052420 and No. 9631000 contain some of
the materials needed to remove and replace a urethane
adhesive installed glass. These kits and other materials that
may be required can be obtained through the service parts
system. The components of glass adhesive kits (urethane)
No. 1052420 and 9631000 are as follows:
1. One tube of urethane adhesive material.
2. One dispensing nozzle.
W hen replacing a cracked windshield glass, it is very
important that the cause of the glass breakage be deter
mined and the condition corrected before a new glass is
installed. Otherwise, it is highly possible th a t a small
obstruction or high spot somewhere around the windshield
opening will continue to crack or break the newly installed
windshield especially when the strain on the glass caused by
this obstruction is increased by such conditions as wind
pressures, extremes of temperature, motion of the vehicle,
etc.
LIG H T T R U C K SE RV IC E M A N U A L
3. Steel music wire.
4. Rubber cleaner.
5. Rubber primer.
6. Pinch-weld primer.
7. Blackout primer.
8. Filler strip (for use on windshield installations on
vehicles equipped with embedded windshield antenna).
9. Primer applicators.
BODY
2D-7
Additional Material Required:
1. Rubber lubricant No. 1051717 (available through the
service parts system).
2. Alcohol for cleaning edge of glass.
3. Adhesive dispensing gun No. J-24811 or a standard
household cartridge type gun reworked as follows:
a. Widen end slot to accept dispensing end of adhesive
material tube.
b. Reduce diameter of plunger disc on rod so that disc
can enter large end of adhesive material tube.
4. Commercial type razor knife (for cutting around edge
of glass).
5. Weatherstrip tool set J - 2 189.
6. Six glass spacers J-22577 (for checking windshield
glass to opening).
Removal
Checking Windshield Opening
1. Before removing the windshield, mark the location of
the break on the windshield rubber channel and the
body. Protect the paint finish inside of the cab. Mask
around the windshield opening and outside, lay a
suitable covering across the hood and fenders.
2. Remove windshield reveal molding (lock strip) and
reveal molding cap.
Due to the expanse and contour of the windshield it is
imperative in the event of a stress crack that the windshield
opening be thoroughly checked before installing a replace
ment windshield. The replacement glass is used as a
template.
1. Check for the following conditions at the previously
marked point of fracture.
a. Chipped edges on glass.
3. To free windshield ru bb er channel of w eatherstrip
loosen the lip of the windshield weatherstrip from the
pinchweld flange along the top and at the sides by
applying firm, controlled pressure to the edge of the
glass. At the same time assist the lip of the rubber
weatherstrip channel over the pinchweld flange with a
flat bladed tool. See figures 2D-14 and 2D-15.
4. With the aid of an assistant outside the cab, remove the
windshield from the opening. See figure 2D-16.
5. Remove all excess urethane adhesive and any remain
ing pieces of weatherstrip from pinch-weld flange.
6. If sheet metal and paint repairs are required, refer to
"Repairing and Refinishing Pinchweld Flange" of this
section.
Fig. 2D-14--Applying Pressure to Windshield
b. Irregularities in body opening.
c. Irregularities in rubber channel weatherstrip.
2. Check flange area for solder, weld high spots, or
hardened spot-weld sealer. Remove all high spots.
3. Check windshield glass to opening, by supporting glass
with six spacers contained in packet J-22577. See figure
2D-17.
NOTICE: Do not strike glass against body metal.
Chipped edges on the glass can lead to future breaks.
4. W ith the windshield supported and centered in its
opening, check the relationship of the glass to the body
opening flange around the entire perimeter of the glass.
Fig. 2D-16--Removing Windshield from Opening
LIG H T T R U C K SERVICE M A N U A L
2D-8
BODY
maximum), then wipe both channels with a clean dry
cloth.
4. Apply rubber primer to both channels of rubber
weatherstrip that were cleaned in the previous step and
are shown in View A. Allow primer to cure for at least
30 minutes (30 day maximum).
5. Thoroughly clean surface of glass to which blackout
primer will be applied (around edge of inside surface)
by wiping with a clean, alcohol dampened cloth. Allow
to air dry.
NOTICE: When cleaning windshield glass, avoid con
Fig. 2D-17--CHecking Windshield Opening
5. Check the relationship of glass to opening as follows:
a. Inside edge of glass to body flange.
b. Outer edge of glass to parallel body metal.
6. Mark areas of body metal or flange to be reformed.
Remove glass and correct as outlined in this section.
7. Recheck windshield in its opening and if satisfactory
proceed as follows:
Repairing and Refinishing Pinch-Weld Flange
and/or Surrounding Areas
1. Repair all metal deformations in the windshield open
ing area for appearance.
2. Sand to smooth surface using No. 320 sandpaper.
3. Apply prim er - surfacer (D uPon t 80 S Primer Surfacer, PPG 204-1000 Red Flash Primer or PPG
700-345 - R epair P rim e r/o r equivalent) and sand
smooth for required surface.
6.
7.
8.
9.
10.
11.
12.
13.
4. Apply color coats of 9984024 acrylic enamel (or
equivalent) catalyzed as indicated.
Installation (Fig. 2D-18)
Installation of the windshield requires a number of
timed (cure time) steps. This timing is important and must
be followed. All cure times are minimum, unless indicated
otherwise. W hen performing a step that requires a cure
time, it is not necessary to stop and wait for the cure time to
elapse. Make a note of the cure time and move on to any
following step th a t does not interfere with the timed
sequence.
1. Wipe pinch-weld clean with a dry cloth. Make sure
most of the previous urethane has been removed.
2. Apply pinch-weld primer with a new applicator to
pinch-weld as shown in View B.
Primer must be thoroughly stirred and agitated prior to
application.
Allow primer to cure for at least 30 minutes (100 hour
maximum). Pinch weld flange must not exceed 160°F
(38°C) at time of primer application.
3. Apply rubber cleaner with a new applicator to both
channels of rubber weatherstrip as shown in View A.
Allow cleaner to remain for at least 5 minutes (4 hour
L IG H T T R U C K SERVICE M A N U A L
14.
15.
16.
17.
18.
19.
tacting edge of plastic laminate material (on edge of
glass) with volatile cleaner. Contact may cause discol
oration and deterioration of plastic laminate by wicking
action. DO N O T use a petroleum base solvent such as
kerosene or gasoline. The presence of oil will prevent
adhesion of new material.
Apply blackout primer to the same area of the wind
shield glass that was cleaned in the previous step and is
shown in View C. Allow to dry to touch.
Apply a 3/16 inch minimum diameter bead of urethane
adhesive around pinch-weld flange as shown in View B.
Windshield glass must be installed within 20 minutes
after performing this step.
Apply a mist of plain water to the urethane bead on the
pinch-weld flange, wetting it fully.
Install rubber weatherstrip to the pinch-weld flange.
Apply a 3/16 inch minimum diameter bead of urethane
adhesive to rubber weatherstrip glass channel as shown
in View D.
Apply a mist of lubricant to surface " C " or weather
strip as shown in View D, wetting it fully. Install
windshield within 5 minutes after performing this step.
On windshields equipped with embedded antenna, tape
pigtail of antenna to inside surface of windshield glass
in a convenient and accessible position.
With the aid of a helper, lift glass into window opening.
Suction cups may be used but are not mandatory.
Then, install glass in channel of weatherstrip.
Apply lubricant to lockstrip channel. Windshield must
be seated prior to application of lubricant.
Use J - 2 189 weatherstrip tool set and install lockstrip in
channel of weatherstrip. Install lockstrip cap at lock
strip joint.
Install windshield wiper arms and blades.
On windshields equipped with embedded antenna,
connect antenna pigtail to radio antenna lead.
Install inside trim panels.
Install rear view mirror to windshield.
STATIONARY BODY GLASS
Replacement
The method used to remove the windshield glass may
be applied to other stationary glass, such as shown in figures
2D-20 and 2D-21. Remember to check for cause of break
age, and to always wear gloves when handling glass.
Installation procedure is similar to "Windshield Replace
ment" found earlier in this section with exception of steps
relating to urethane adhesive.
BODY
2D-9
Fig. 2D-18--Windshield Installation-CK Truck
LIG H T T R U C K SE RV IC E M AN U AL
2D-10
BODY
Fig. 2D-19—Installing Reveal Molding
Fig. 2D-20--Back W indow Glass
BODY SIDE DOORS
DOOR ADJUSTMENTS
Doors can be adjusted for alignment of clearance in the
cab door opening, and for proper latching. Door alignment
adjustments are made at the striker bolt, and at door hinges.
The door, when properly located in door opening, will have
LIG H T T R U C K SERVIC E M A N U A L
.19 inch clearance at the top and side edges, and .25 inch
clearance at the bottom. The door should be adjusted in the
opening so the edge of the door across the top and also at the
lock side is parallel with the body opening as nearly as
possible.
BODY
2D-11
Hinge Adjustment
Door hinge bolt holes are oversized to make adjustment
possible. Alignment adjustments can be made by loosening
the proper hinge bolts, aligning door to proper position, and
tightening bolts securely (fig. 2D-22).
Striker Bolt Adjustment
W ith the use of J-23457, shown in figure 2D-23, the
striker bolt can be adjusted in any of three ways. See figure
2D-24.
1. Up and down - To adjust striker up or down, loosen bolt,
adjust to desired height, and tighten bolt securely.
This adjustment is important to assure that the right
proportion of door’s weight will rest on striker bolt
when door is closed. If bolt is positioned too high on
pillar, rapid wear will occur to the lock cam; if too low,
an extra load will be placed on door hinges as well as
pull door downward and out of alignment.
2. In and Out - To adjust striker in and out, loosen bolt,
adjust horizontally to desired position and tighten bolt
securely.
3. Forward and R earw ard-T o m ake this a d justm ent,
loosen striker bolt, shim to desired position, and tighten
bolt securely.
Fig. 2D-23--Loosening Striker Bolt
2. With special Tool J-22585 remove 3 bolts securing
front door upper hinge to cowl pillar.
a. Remove the door to upper hinge retaining bolts.
b. With aid of an assistant to support weight of door,
remove the door to lower hinge retaining bolts and
remove door.
Installation
FRONT DOOR ASSEMBLY
Replacement
Remove the door assembly from the body by removing
the hinge-to-door attaching bolts.
1. Install hinge snugly on pillar in same location as hinge
removed.
2. With the aid of an assistant fasten the door to the hinge.
3. Adjustment of the door lock and striker plate should be
made after the door is positioned in the opening.
DOOR HINGE
DOOR TRIM PANELS - CK MODELS
The door check is part of the front door upper hinge.
The front door torque rod check holds the door in either of
two positions between full open and closed. The front door
check-hinge assembly is replaced as a complete unit as
follows. See figure 2D-22.
Removal
Removal
1. Loosen front fender rear bolts.
1. Using tool J-9886-01, remove clip retaining window
crank (fig. 2D-26).
2. Remove door lock knob.
3. Remove (4) screws securing lower edge of trim panel.
4. Remove (2) arm rest attaching screws and remove arm
rest pad.
Fig. 2D-24--Typical Striker Bolt Adjustment
L IG H T T R U C K SERVICE M A N U A L
2D-12
BODY
5. Remove (1) screw at door handle cover plate and (1)
screw located under arm rest pad.
6. If equipped assist strap, remove (2) screws retaining
assist strap.
7. Remove trim panel by carefully prying out at trim
retainers located around perimeter of panel.
Installation
Before installing door trim assembly, check that all
trim retainers are securely installed to the assembly and are
not damaged.
1. To install door trim assembly, pull door inside handle
inward; then position trim assembly to inner panel,
inserting door handle through handle hole in panel.
2. Position trim assembly to door inner panel so trim
retainers are aligned with attaching holes in panel and
tap retainers into holes with a clean rubber mallet.
3. Install previously removed items.
DOOR VENTILATOR ASSEMBLY-Fig. 2D-28
Removal
The channel between the door window glass and door
vent is removed as part of the vent assembly.
1. R egulate the door window glass to the full down
position.
2. Remove clip from the window regulator handle, and
knob from lock rod.
R E T A I N I N G SPR IN G
(D IS E N G A G E D )
\
^
^
IIN S ID E H A N D L E
V
^
-
r
PUSH T O O L IN
D m E C T I O N OF
ARROW
-M
Jj^
T O O L J-9886-01
Fig. 2D-26--Clip Retained Inside Handle Removal
LIG H T T R U C K SE RV IC E M A N U A L
3. Remove arm rest screws and trim panel. See figure 2D27.
4. Remove screws attaching ventilator lower assembly to
door panel.
5. Remove three screws at the upper front of the door
frame.
6. Pull upper portion of vent assembly rearward and raise
upward while rotating counter clockwise.
7. T urn vent assembly 90° and carefully remove by
guiding up and out. See figure 2D-29.
Ventilator Glass Replacement
1. Using an oil can or similar means, squirt prepsol or
equivalent on the glass filler all around the glass
channel or frame to soften the old seal. When the seal
has softened, remove the glass from the channel.
2. Thoroughly clean the inside of the glass channel with
sandpaper, removing all rust, etc.
3. Using new glass channel filler, cut the piece to be
installed two inches longer than necessary for the
channel. Place this piece of filler (soapstoned side of
filler away from glass) evenly over the edge of the glass
BODY
2D-13
BEND TAB OVER
HEX NUT
Fig. 2D-31--Bend Tabs Over Hex Nut
Fig. 2D-29--Removing Ventilator Assembly
which will fit in the channel. The extra filler extending
beyond the rear edge of the glass should be pinched
together to hold it in place during glass installation.
One side of this filler (the outside of the roll) is
soapstoned. This is the side which goes into the metal
channel.
4. Brush the inside of the metal glass channel freely with
ordinary engine oil. This will enable the glass and filler
to slide freely into the channel. Push the glass with the
filler around it into the channel until it is firmly seated.
After the glass is firmly in place, the oil softens the
filler, causing it to swell, thereby making a watertight
seal. Trim off the excess filler material around the
channel and at the ends of the channel.
Glass should be installed so that rear edge is parallel to
the division post. Allow full cure before water testing.
Installation
1. Lower the ventilator assembly into the door frame.
2. M ake certain the rubber lip is positioned inside the
inner and outer panel before tightening screws.
3. Reinstall all screws and tighten.
4. Install and tighten the three screws at the upper front
of the door.
Adjustment
1. Adjust the ventilator by placing wrench on adjusting
nut thru access hole and turning vent window to the
desired tension. See figure 2D-30.
2. After making adjustment bend tabs over the hex nut on
base of assembly. See figure 2 D -3 1.
3. Install arm rest screws and trim panel.
4. Install window regulator handle.
DOOR WINDOW ASSEMBLY-FIG. 2D-32
Replacement
1. Completely lower glass to bottom of door.
2. Remove door arm rest and trim pad as outlined in this
section.
3. Mask or cover upper portion of door window frame.
Remove ventilator assembly as previously outlined.
4. Slide glass forward until front roller is in line with
notch in sash channel. Disengage roller from channel.
5. Push window forward and tilt front portion of window
up until rear roller is disengaged. See figure 2D-33.
6. Put window assembly in normal position (level) and
raise straight up and out.
7. Reverse above procedure for installation.
WINDOW REGULATOR-MANUAL--FIG. 2D-32
Replacement
1. Raise window and tape glass in full up position using
cloth body tape.
2. Remove trim panel as outlined previously.
3. Remove screws attaching regulator to door inner panel.
4. Remove regulator by sliding regulator rearward, disen
gaging rollers from sash channel.
A notch is provided in the sash channel to allow
disengagement of the forward roller on the window
regulator (Fig. 2D-32).
Fig. 2D-30--Adjusting Tension
5. Install regulator by reversing above steps. Lubricate
regulator gear with lubriplate or equivalent.
LIG H T T R U C K SERVIC E M AN U AL
2D-14
BODY
NO TCH
SASH
CHANNEL;
Fig. 2D-32--Door W indow and Regulator
WINDOW REGULATOR - POWER - CK MODELS
In the case th a t window will not operate, check
electrical connections first. Figure 2D-34 illustrates location
of junctions, switch, relay and circuit breaker.
Replacement
CAUTION:Electrical connectors must be removed
from window lift motor before performing any
operation on the regulator, or personal injury
could occur. Figure 2D-35 illustrates location of
regulator on door and wiring.
1. Raise glass to full up position and tape to door frame
using cloth body tape.
2. Disconnect battery ground cable.
3. Remove door trim panel as previously outlined.
Fig. 2D-34--Power W indow Switch, Relay and
Breaker Assembly
A notch is provided in the sash channel to allow
disengagement of the forward roller on the window
regulator (fig. 2D-32).
8. Remove regulator assembly through access hole in
door.
CAUTION:Step 9 must be performed when reg
ulator is removed from door. The regulator lift
arms are under tension from the counterbalance
spring and can cause serious injury if the motor is
removed without locking the sector gear in
position.
9. Drill a hole through the regulator sector gear and back
plate. DO N O T drill hole closer than 1/2" (12.7mm)
to edge of sector gear or back plate. Install a pan head
4. Remove remote control bolts and lay control assembly
aside for access.
5. Remove regulator to door panel attaching screws.
6. Disconnect harness from regulator.
7. Slide regulator assembly rearward, disengaging rollers
from sash channel.
N O TC H
ROLLER
Fig. 2D-33--Removing Door Glass
L IG H T T R U C K SERVICE M A N U A L
Connector
BODY
10.
11.
12.
13.
14.
15.
16.
sheet metal tapping screw (No. 10 - 12 x 3/4) in drilled
hole to lock sector gear in position.
Remove motor to regulator attaching screws.
Remove motor from regulator.
Prior to installation, lubricate the motor drive gear and
regulator sector teeth. The lubrication used must be
cold weather approved to a minimum of minus 20°
Fahrenheit (-29°C).
Install regulator motor to regulator. Make sure the
motor pinion gear teeth mesh properly with the sector
gear teeth before installing the three motor attaching
screws.
Remove screw locking sector gear in a fixed position.
Insert regulator into door in such a position that motor
connector can be installed onto motor.
Reinstall regulator into door.
LOCKS, HANDLES AND RODS
Door Lock Assembly—Fig. 2D-36
Replacement
1.
2.
3.
4.
5.
Raise window to full up position.
Remove trim panel as outlined in this section.
Remove clip from inside handle rod-to-lock.
Remove clip from outside handle rod-to-lock.
Remove screws which attach lock assembly to door
panel.
6. Remove lock and remote control rod as an assembly.
7. To install lock assembly, reverse above steps. Be sure to
replace all clips removed earlier.
2D-15
Door Outside Handle—Fig. 2D-37
Replacement
1.
2.
3.
4.
Raise window to full up position.
Remove trim panel as outlined.
Remove clip from outside handle rod-to-lock.
Remove screws which retain outside handle to door
panel.
5. Remove handle and control rod.
6. Reverse above procedures to install outside handle.
Door Lock Cylinder -Fig 2D-37
Replacement
1. Raise door window.
2. Remove trim panel as outlined.
3. Use a screwdriver or other suitable tool to slide the lock
cylinder retaining clip out of engagement with the lock
cylinder.
4. Remove lock cylinder.
5. To install, reverse the above steps.
Door Inside Handle
Replacement
1. Remove trim panel as outlined.
2. Disconnect control rod from inside handle, as shown in
figure 2D-38.
3. Remove screws retaining inside handle to door.
4. Remove inside handle.
5. Reverse above steps to install.
POWER DOOR LOCKS - CK MODELS (Fig. 2D-39)
Replacement
1. Disconnect battery ground cable.
2. Remove door trim panel to gain access to power door
lock motor.
3. Disconnect electrical connector from motor.
LOCK'
Fig. 2D-36--Door Lock Assembly and Rods
Fig. 2D-37--Outside Handle and Lock Cylinder
LIG H T T R U C K SERVIC E M A N U A L
2D-16
BODY
4. Remove screws attaching motor to door inner panel.
5. Remove door lock lever from rubber mount at top of
motor actuator and remove motor through access hole.
6. To install, reverse steps 1 through 5 above.
DOOR TO BODY OPENING WEATHERSTRIP-FIG.
2D-40, 2D-41
Side door sealing incorporates an inner seal Fig. 2D-40
and a secondary seal Fig. 2D-41. The inner seal is mounted
on the body opening welding flange and goes completely
around the periphery of the opening. The secondary seal is
adhered to the upper portion of the door by adhesive and a
screw at either end of the seal. The molded weatherstrip
m aterial of the inner seal is snapped in place. A fter
removing all foreign material from door opening surface
proceed as follows:
3. Remove side door inner weatherstrip seal.
4. Starting at the bottom center of the door opening,
install seal on welded flange.
5. Trim inner weatherstrip with a notch and butt ends
together.
6. Reinstall sill plate and sill plate retaining screws.
REAR SIDE DOOR-CREW CAB AND SUBURBAN
MODELS
Adjustments and Hinge Replacement
The procedures for hinge replacement, and for hinge
and striker bolt adjustment are similar to those detailed in
the front door adjustment procedure. Access to the hinges of
the rear door is shown in figure 2D-42.
1. Open door and block open.
STATIONARY GLASS-REAR DOOR
2. Remove sill plate retaining screws and remove sill
plate.
Replacement
LIG H T T R U C K SERVIC E M A N U A L
1. Lower window to full down position.
2. Remove remote control knob and window regulator
handle.
BODY
2D-17
WINDOW GLASS-FIG. 2D-46
3. Remove screws retaining door trim pad, and remove
trim pad. See figure 2D-43.
4. Remove glass run channel by removing screws retain
ing channel to door. See figure 2D-44.
5. Remove stationary glass.
6. Replace glass by reversing above procedure.
Glas Run Channel Adjustment
Figure 2D-45 illustrates the front run channel. At the
lower end, a slotted bracket provides for in-and-out adjust
ment. The screw and locknut at that bracket allow fore-andaft adjustment. Together, this allows proper alignment of
the glass to the rear glass run channel for full up and down
travel.
Replacement
1. Lower glass to full down position.
2. Remove remote control push botton knob, window
regulator handle and trim pad.
3. Remove stationary glass as previously outlined. Re
move screws from rear division channel, and slide
channel rearward in the opening.
4. Raise glass as far as possible, then slide glass until the
roller is in line with the notch in the sash channel. See
figure 2D-46. Disengage roller from channel.
5. Tilt window outboard and move until other roller can
be removed from channel.
6. Raise window up and out.
7- Reverse above procedure for installation.
LIG H T TR U C K SERVICE M A N U A L
2D-18
BODY
WINDOW REGULATOR ASSEMBLY-FIG. 2D-46
Remote Control—Fig. 2D-48
Replacement
Replacement
1. Remove trim pad, stationary glass, and window glass as
outlined earlier.
2. Remove screws attaching regulator assembly to door
inner panel.
3. Remove regulator assembly through opening in door.
4. Install regulator by reversing above procedure. Lubri
cate regulator gear with lubriplate or equivalent.
1. Remove regulator handle, remote control knob and
trim pad.
2. Disconnect remote control lower rod from door lock
assembly.
3. Remove two screws securing each remote control lever
to door panel.
4. Remove remote control levers and rods through door
opening.
5. Replace by reversing above procedure.
LOCKS HANDLES AND RODS
Lock Assembly—Fig. 2D-47
Replacement
1. Remove window regulator handle, remote control push
button knob and trim pad as outlined previously.
2. Disengage three clips which retain control rods to lock
assembly.
a. Inside handle control rod.
b. Remote control lower rod.
Outside Handle-Fig. 2D-49
Replacement
1. Remove regulator handle, remote control rod and trim
pad as outlined previously.
2. Disengage outside handle control rod from lock assem
bly by removing clip, as shown in figure 2D-49.
3. Remove two screws securing outside handle to door
panel.
4. Remove handle assembly.
c. Outside handle control rod.
3. Remove screws retaining lock assembly to door panel,
then remove lock assembly.
4. Install lock by reversing above procedure. Be sure to
replace all clips removed with new clips on installation.
Inside Handle—Fig. 2D-47
Replacement
1. Remove regulator handle, remote control knob and
trim pad as outlined previously.
2. Disconnect control rod from inside handle by removing
clip as shown in figure 2D-47.
3. Remove inside handle by removing four screws which
secure handle to door panel.
4. Replace handle by reversing above procedure.
L IG H T T R U C K SERVIC E M A N U A L
Fig. 2D-48--Remote Control Assembly
BODY
5. Replace by reversing above procedure.
WEATHERSTRIP-FIG. 2D-50
The procedure outlined in Front Door Weatherstrip
may be applied to the Rear Side Door Weatherstrip, shown
in figure 2D-50 with the following exception:
a. Begin installation by positioning the weatherstrip
"internal core" (approximately 6" long) center in
the upper front corner of the door opening.
b. Proceed as outlined previously.
REAR DOORS SUBURBAN MODEL ONLY
Adjustments
Rear doors may be adjusted in the body opening by
loosening hinge bolts and repositioning door, then retighten
ing bolts. See figure 2D-54 for hinge bolt location. Rear door
wedges and strikers should be adjusted as shown in figure
2D-55.
Be sure that adjustments are as shown to insure proper
latching of the rear doors.
2D-19
LOCKS, HANDLES AND RODS
The rear door lock, outside handle, lock cylinder,
control rods and latch are shown in figures 2D-51 and 2D52. The rods can be disconnected from the lock, latch or
handle by disengaging the retaining clips, as shown. The
lock cylinder is removed in the same manner as the front
side door lock cylinder.
REAR DOOR CHECK STRAP
Figure 2D-53 shows the cloth check strap used for rear
doors. The door may be completely opened by removing the
strap pin from the bracket. The bracket attaches to the
pillar with three screws; the strap is fastened to the door
panel with two screws and an attaching bar.
WEATHERSTRIP
Weatherstrip installation is shown in Figs. 2D-55 and
2D-56. Proper installation is dependent on completely
cleaning all foreign material from old installation and using
a quality cement on the new installation.
LIG H T T R U C K SERVICE M A N U A L
2D-20
BODY
Fig. 2D-52--Rear Door Outside Handle and Lock
Cylinder
Fig. 2D-53--Rear Door Check Strap
LIG H T T R U C K SE RV IC E M A N U A L
BODY
2D-21
Fig. 2D-54--Wedge and Striker Adjustments
-(Suburban)
ENDGATES SUBURBAN AND UTILITY MODELS
Suburban and utility models use endgates of similar,
yet distinct design. Separate procedures follow for service on
each of these endgates.
5. Lift endgate to almost closed position and remove
support cables.
6. Remove endgate with torque rod.
7. To install, reverse removal procedure.
ENDGATE ASSEMBLY - SUBURBAN MODELS
ONLY
HINGES
Replacement
Replacement
1. Lower endgate, and removed hinge access covers. See
figure 2D-57.
2. Remove endgate-to-hinge bolts.
3. Remove L.H. torque rod bracket, shown in figure 2D58.
4. If equipped with electric powered window, disconnect
wiring harness.
If necessary to remove hinges, remove en dg ate as
outlined previously, and proceed as follows:
1. Remove bolts from each of the hinge assemblies on the
underside of the body. See figure 2D-57.
2. Remove hinge assemblies. If the hinge pins are to be
removed, note the position of bushings so they may be
reinstalled in the same position.
3. Reverse procedure to install.
L IG H T T R U C K SE RV IC E M A N U A L
2D-22
BODY
CAUTION:Step 10 must be performed if the
window is removed or disengaged from the
regulator lift arms. The lift arms are under tension
from the counter-balance spring, and can cause
injury if the motor is removed without locking the
sector gears in position.
Fig. 2D-58--Torque Rod(Suburban)
ENDGATE DISASSEMBLY
1. Remove access cover shown in figure 2D-59, to gain
access to interior components.
2. Detach remote control rods from lock assembly by
removing clips.
3. Remove bolts securing lock assembly, and remove lock
assembly.
4. Remove handle assembly bolts and remove inside
handle.
5. Remove R.H. torque rod bracket screws, figure 2D-58,
then remove torque rod from endgate.
6. Remove screws connecting cam assemblies to sash
assembly, figure 2D-60, then remove cam assemblies.
7. Remove glass from endgate.
8. Unclip and remove inner and outer seal assemblies.
9. Remove screws connecting window regulator assembly
to endgate, figure 2D-60, and remove regulator.
10. For endgates with electric window, secure the window
regulator lift arms before removing the electric motor,
when the window glass has been removed or disengaged
from the lift arms.
a. Drill a 1/8 (3.1mm) inch hole through the sector
gear and back plate, as shown in figure 2D-60. Install
a sheet metal tapping screw into the hole to lock the
sector gears in position.
b. Remove the regulator motor attaching screws and
remove the motor assembly.
11. From inside the endgate, remove the nuts fastening the
outside handle to endgate and remove the outside
handle. See figure 2 D -6 1.
If equipped with power tailgate window, detach wiring
harness from motor.
12. Remove side bolts connecting left and right glass
channels to endgate and remove channels.
13. Removed side latch bolts and remove side latches with
control rods. See figure 2D-59. Detach wiring harness
from R.H. latch if so equipped.
14. Separate side latch from control rod by pulling control
rod thru nylon guide.
15. Reverse the above procedure for reassembly and
installation.
Adjustments
Loosen bolts, adjust at either endgate hinge position or
endgate latch, then retighten bolts.
ENDGATE ASSEMBLY-UTILITY MODELS ONLY
Replacement
ACCESS
COVER
LEVER ASSEMBLY
SEAL
^ ^ IN S U L A T O R
- HANDLE
ASSEMBLY
^
LATCH \ A *
^ASSEMBLY a L /
CONTROL
ASSEMBLY
NYLON
GUIDEi
REMOTE
CONTROL
1. Lower endgate, then remove four bolts securing hinge
to body on each side. See figure 2D-62. Disconnect
wiring harness, if so equipped.
2.?Disconnect torque rod anchor plate on each side. It
is necessary to remove lower bolt only, then let plate
swing down. See figure 2D-66.
3. With an assistant, raise endgate part way, then discon
nect support cables from endgate. See figure 2D-62.
4. Remove endgate by pulling disconnected hinge from
body, figure 2D-63, then grasping torque rod with one
hand and pulling torque rod over gravel deflector, as
shown in figure 2D-64.
5. Individual components may be removed from the
endgate now, or after reinstallation.
Fig. 2D-59--Latch and Remote Controls(Suburban)
LIG H T T R U C K SERVICE M A N U A L
6. To install endgate, reverse the above procedure.
BODY
2D-23
Fig. 2D-63--Pulling Hinge Away From Body (Utility)
HINGE
Replacement
1. Lower endgate and disconnect hinge to be replaced by
removing hinge-to-body bolts. See figure 2D-62.
2. At the other hinge, loosen the hinge-to-body bolts.
3. On the hinge to be replaced, remove the hinge-toendgate bolts.
4. Pull the endgate away from the body several inches and
withdraw hinge from body. Then lift endgate slightly to
allow removal of hinge from endgate. See figure 2D-63.
5. To install hinge, reverse the above procedure. Be sure to
install hinge into endgate first, then into the body.
Fig. 2D-64--Grasping Torque Rod (Utility)
LIG H T T R U C K SERVICE M AN U AL
2D-24
BODY
Fig. 2D-65--Removing Access Cover (Utility)
TORQUE ROD
Fig. 2D-67--Removing Torque Rod (Utility)
2. Disconnect side latch remote control rods from center
control by removing retaining clips. See figure 2D-68.
Replacement
1. L o w e r e n d g a te a n d re m o v e a cc e ss cover, a s sh o w n in
figure 2D-65.
2. Disconnect torque rod anchor plate. It is necessary to
remove the lower bolt only, then let plate swing down.
See figure 2D-66.
3. Loosen four bolts retaining endgate hinge to body.
4. Move endgate slightly away from body.
5. Remove torque rod retaining bracket on lower edge of
endgate. See figure 2D-66.
6. Remove torque rod retaining clip on side edge of
endgate.
7. Lift torque rod up and slide from endgate as shown in
figure 2D-67.
8. Reverse the procedure above for installation.
ENDGATE DISASSEMBLY-UTILITY MODELS ONLY
Manual Window
1. Lower endgate and remove acess cover.
3. Remove four screws from each side latch, and with
draw latch and control rod from endgate, as sown in
figure 2D-69.
4. Disconnect control rod from latch.
5. Refer to figure 2D-70 for installation of latch control
and blockout rod.
6. Disconnect blockout rod from control assembly by
detaching spring and removing two screws retaining
rod to inner panel.
7. Disconnect inside handle control rod from control
assembly, then remove screws which secure inside
handle to inner panel.
8. Remove three screws which retain remote control
assembly to inner panel.
9. Remove control assembly and inside handle as shown in
figure 2D-71.
10. Refer to figure 2D-72 for window and regulator
installation.
11. Roll window to up position.
12. Disconnect sash from regulator as shown in figure 2D73.
BRACKET
SILENCER
TORQUE
ROD
FRAME
Fig. 2D-66--Torque Rod (Utility)
LIG H T T R U C K SE RV IC E M A N U A L
Fig. 2D-68--Latches and Rods
BODY
Fig. 2D-69--Removing Side Latch
2D-25
Fig. 2D-71 -Removing Control Assembly ancHnside
Handle
BLOCKOUT
ROD
INSIDE HANDLE
BRACKET
CONTROL ROD
CONTROL
ASSEMBLY
Fig. 2D-70--Control Assembly and Blockout Rod
13. Remove glass from endgate.
Fig. 2D-72--Window and Regulator
14. Remove four regulator attaching screws and withdraw
regulator from endgate as shown in figure 2D-74.
15. Remove outside handle by removing nuts from inside of
outer panel. See figure 2D-61.
16. Reverse the above steps for reassembly.
ELECTRIC WINDOW-UTILITY MODELS
The window is controlled by a jackscrew mounted to
the regulator, drive cable and a 12V DC reversible motor
mounted to the endgate inner panel. This circuit also
includes a block out switch to prevent operation of the
window while the endgate is open (fig. 2D-75).
Service procedures for endgate disassembly are the
same as outlined above with the following exceptions:
Drive Cable
The drive cable can be replaced by disengaging the
cable from the motor and jackscrew assembly and removing
the cable. Reverse removal procedure to reinstall cable.
Fig. 2D-73--Disconnecting Sash from Regulator
LIG H T T R U C K SERVICE M AN U AL
2D-26
BODY
Fig. 2D-74--Removing Regulator
Motor (Fig. 2D-76)
Removal
1. D is c o n n e c t d riv e c a b le fr o m m o tor.
2. Disconnect wiring harness from motor.
3. Remove (3) motor attaching screws and remove motor.
4. To install, reverse removal procedure.
Fig. 2D-75--Power W indow M otor and Switches
(Utility)
Blockout Switch (Fig. 2D-75)
Removal
1. Disconnect L.H. side latch remote control rod from
center control by removing retaining clip.
2. Remove side latch retaining screws and disconnect
blockout switch wiring.
3. Remove side latch assembly and remove screws retain
ing switch to side latch.
4. Reverse removal procedures for installation.
CABLE
Jackscrew (Fig. 2D-76)
Removal
For endgates with electric window, secure the window
regulator lift arms before removing the jackscrew when the
window glass has been removed or disengaged from the lift
arms.
VIEW
REG U LA TO R
CAUTION:Step 1 must be performed if the w in
dow is removed or disengaged from the regulator
lift arms. The lift arms are under tension from the
counterbalance spring, and can cause injury if the
motor is removed without locking the sector gears
in position.
1. Drill a 1/8 (3.1mm) inch hole through the sector gear
and back plate. Install a sheet metal tapping screw into
the hole to lock the sector gears in position.
2. Disconnect drive cable at jackscrew.
3. Remove the regulator jackscrew attaching screws and
remove the jackscrew assembly.
4. Reverse removal procedure for installation.
L IG H T T R U C K SERVIC E M A N U A L
Fig. 2D-76--Endgate Regulator, Drive Cable and
Motor
BODY
3.
2D-27
Remove endgate.
4. Reverse procedure for installation. Align slot in tru n
nion to coincide with hole in endgate to permit using a
tool to hold trunnion while tightening nut.
REMOVABLE TOP-FOLDING TOP-UTILITY MODELS
Removal
1. Remove access and disconnect courtesy light.
2. Lower the tailgate window and lower the tailgate.
3.
Remove six top-to-roof mounting bolts.
4. Remove ten top-to-side panel mounting bolts (5 on
each side).
5. Remove upper spare tire brace by removing brace bolt.
The spare tire brace must be reinstalled after top is
removed.
6. Remove only the rear attaching screws for the side trim
panel (12 for LH panel and 11 for RH panel) so that
the rear of panel can be pulled away to gain access for
removal of hidden top bolt.
If rear roll bar equipment is present, it is necessary to
remove all the attaching screws, 20 on LH side and 19
on RH side, and the 1 bolt attaching the shoulder belt
retractor located behind the access plate on retractor.
Then the trim panel is raised and moved forward
approx. 2-1/2 inches so th at access can be gained
through the cut out in trim panel to remove hidden top
bolt.
7. With assistance, lift the top and move rearward for
removal. The top should be removed carefully to
prevent flexing of the sides and possible damage.
Fig. 2D-77--Tailgate
TAILGATES-PICKUP AND UTILITY MODELS
Fleetside
Handle Replacement (Fig. 2D-77)
Mandatory Assembly Sequence (Fig. 2D-78)
To prevent possible damage to the top and to ensure
proper weatherstrip sealing, the following procedure must
be followed:
1. Open tailgate.
1. Remove the upper spare tire brace by removing (2)
bolts.
2. Remove screws attaching handle assembly to inner side
of tailgate.
2. Remove the necessary side trim panel screws.
3. Remove clips from handle assembly and remove
handle.
4. Remove screws from each latch assembly and lift off,
with actuating rods.
Replacement of Trunnion Assembly
1. Lower tailgate half way.
2. Remove both retaining straps.
3. Lift up tailgate at the right side and pull out at the left
side to remove tailgate assembly.
4. Remove two screws from trunnion and remove
trunnion.
Stepside
Endgate Replacement (Fig. 2D-77)
1. Unhook endgate chain assembly at each side.
2. Remove bolt and lock washer from each trunnion in
carrier box endgate.
3.
Place top on box using the two rear guide pins as
locators.
4. Install bolts # 6 on both sides and tighten.
5. Bolting must start with the rear vertical bolt # 1. Now
going forward install # 2 LH side only, # 3 and # 4 .
The RH side # 2 bolt will be installed later.
6. Loosen bolts # 6 on both sides.
7. Install and tighten bolts # 5 on both sides.
8. Re-tighten bolts # 6 on both sides.
9. Install and tighten remaining bolts to cab.
10. Install and tighten the 2 rear hidden bolts.
11. Install the side trim panel screws that were removed
including the shoulder belt retractor bolt if it had to be
removed.
Finally, reconnect the courtesy light and reinstall the
upper spare tire brace using 2 bolts, with one of the
bolts being the # 2 R.H. top-to-side panel bolt.
L IG H T T R U C K SERVICE M AN U AL
2D-28
BODY
** V f>
UNSNAP AND REMOVE
COVER BOOT AND STORE
IN VEHICLE
Fig. 2D-79--Folding Top Assembly
L IG H T T R U C K SE RV IC E M A N U A L
i
BODY
2D-29
SEATS
SEAT BELTS
SERVICING LAP AND SHOULDER
BELTS - ALL MODELS
Before servicing or replacing lap and shoulder belts,
including single loop belt systems, refer to the following
precautionary items:
1. Lap and shoulder belts will be serviced as follows:
a. All belts will be serviced in complete sets.
b. Do not intermix standard and deluxe belts on front or
rear seats.
2. Keep sharp edges and damaging objects away from
belts.
3. Avoid bending or damaging any portion of the belt
buckle or latch plate.
4. Do not bleach or dye belt or strap webbing (clean with a
mild soap solution and water).
5. When installing lap or shoulder belt anchor bolt, start
bolt by hand to assure that bolt is threaded straight.
6. Do not attempt repairs on lap or shoulder belt retractor
m echanism s or lap belt re tra c to r covers. Replace
defective assemblies with new service replacem ent
parts.
7. Do not attem pt to remove seat belt retractor cover. The
cover and the long rivet securing the cover to the
retractor are not available as service replacement parts.
Fig. 2D-80--Seat Belt Installation (Chassis Cab)
LAP BELTS AND SHOULDER BELTS
The shoulder belts and lap belts are attached to the
front seat lap belt latch plate and connected to an inertia
locking retractor installed to the floor or quarter inner panel
above the right and left side of the front seat. The belts
remain unlocked to allow occupants to move freely while the
vehicle is being operated. W hen the vehicle decelerates or
changes direction abruptly, the belts are locked in position
by a pendulum that causes a locking bar to engage a cog of
the retractor mechanism.
Removal and Installation
Refer to illustrations on following pages and select the
appropriate illustration for removing and installing lap belts
and shoulder belts.
Internal drive thread-forming anchor bolts are used to
secure lap belts to the floor pan. To remove or install internal
drive anchor bolts, use door lock striker and lap belt anchor
bolt removal tool J-23457 or equivalent. Start bolt by hand
to assure that bolt is threaded straight.
SEAT MOUNTING
Typical Seat Mounting provisions are shown in figures
2D-83 through 2D-89.
NOTICE: See N O T I C E on page 1 of this section
regarding fasteners used on seats and seat belts.
SEAT SEPARATOR COMPARTMENT
Figure 2D-90 illustrates assembly and installation of
the CK model seat separator compartment.
Fig. 2D-81--Seat Belt Installation (Utility)
L IG H T TR U C K SERVICE M A N U A L
2D-30
BODY
Fig. 2D-82--Seat Belt Installation (Suburban)
Passenger and Driver Seat (Suburban)
L IG H T T R U C K SERVICE M A N U A L
BODY
2D-31
Fig. 2D-85--Passenger's Bucket Seat (Chassis Cab)
LIG H T TR U C K SERVICE M A N U A L
2D-32
BODY
Fig. 2D-88--Rear Bench Seats (Suburban)
LIG H T T R U C K SERVIC E M A N U A L
BODY
2D-33
Fig. 2D-89--CK Utility Seat Attachments
LIG H T T R U C K SERVICE M A N U A L
2D-34
BODY
BODY MOUNTING
The removal of anyone bodymount necessitates the
loosening of adjacent body mountings to permit the frame to
be separated from the body. Care should be exercised to
prevent breakage of plastic fan shroud, or damage to frame
attachments such as steering column, brake pipes, etc.,
during replacement of body mounts.
During installation of a body mount, caution should be
used to insure that the body mount is properly seated in the
frame mounting hole, otherwise a direct metal to metal
contact will result between the frame and body. The tube
spacer should be in all bolt-in body mounts and the insulator
or metal washer positioned to prevent contact with the
frame side rail. Do not over-torque the body mount or a
stripped bolt may result.
Do not use lubricants of any kind on the rubber parts of
the mounts. Proper clamping by the mount depends on clean
and dry surfaces. If the body mount bolt does not screw in
smoothly, it maybe necessary to run a tap through the cage
nut in the body to remove foreign material. Caution should
also be used to insure th at tap doesn’t punch through
underbody.
The sequence of mounting attachments is shown in
figures 2D-91 through 2D-94.
APPLIQUE PROCEDURES
Refer to Section 2C, Chassis Sheet Metal, for proce
dures relating to decal and woodgrain appliques.
ADHESIVE BODY SIDE MOLDING
Refer to Section 2C, Chassis Sheet Metal, for proce
dures relating to installation of adhesive moldings.
Fig. 2D-90--Seat Separator Compartment and Door-CK Models
L IG H T T R U C K SE RV IC E M A N U A L
BODY
2D-35
C-30 J
Fig. 2D-91--Body Mounting (Chassis Cab)
Fig. 2D-92--Body Mounting (Crew Cab)
LIG H T T R U C K SERVICE M AN U AL
2D-36
BODY
Fig. 2D-94--Body Mounting (Utility)
LIG H T T R U C K SE RV IC E M A N U A L
BODY
2D-37
G MODELS
INDEX
Front End
Windshield W ipers........................................................ 2D-37
Cowl Ventilator Grille................................................... 2D-38
Side Ventilator V alve.................................................... 2D-38
R ear View M i r r o r ......................................................... 2D-38
Body Glass
Windshield G lass............................................................ 2D-39
Stationary G la s s ............................................................. 2D-42
Swingout G la ss ............................................................... 2D-42
Front Door
A djustm ents..................................................................... 2D-43
R eplacem ent.................. ................................................. 2D-44
W eatherstrip.................................................................... 2D-44
H inges............................................................................... 2D-44
Ventilator.......................................................................... 2D-44
Window and R eg u lato r................................................ 2D-45
Locks, Handles, R od s...................................................... 2D-46
Sliding Side Door
Description....................................................................... 2D-48
A djustm ents......................................................................2D-48
Front L atch .................. ................................................. 2D-52
Rear L a tc h ..................................................................... 2D-53
Upper Rear Hinge...................................................... 2D-53
Strikers............................................................................ 2D-55
Rear Door
H i n g e ................................................................................ 2D-55
Remote C o n tro l.............................................................. 2D-55
Latches and R o d s.......................................................... 2D-55
Adjustm ents..................................................................... 2D-56
Seats
Drivers S e a t ........................................................ ............ 2D-57
Passenger S e a t ................................................................ 2D-58
Rear S e a t s ....................................................................... 2D-60
Roof V e n t .......................................................... ............. 2D-60
2D-($0
Seat Belts......................................................................
Decal Applique P ro c e d u re ............................................... 2D-60
Adhesive Body Side M o ld in gs........................................ 2D-60
FRONT END
WINDSHIELD WIPERS
Windshield wiper units on all models are of the twospeed electric type. A single wiper motor unit, mounted to
dash panel at top and to left of engine cover inside cab,
powers both wiper blades. The wiper blade operating link
rods and pivot mountings on these models are located in the
outside air inlet plenum chamber.
Arm Adjustment
To adjust sweep of blades turn on wipers, then note
sweep of arms. If necessary, remove one or both arms as
follows:
Pull outer end of arm away from glass which will trip
lock spring at base of arm and release spring from undercut
of pivot shaft. While holding arm in this position, pull
outward on cap section at base of arm to remove arm. Arm
can be reinstalled in any one of several positions due to
serrations on pivot shaft and in arm cap. See figure 2D-95.
4. Remove screws which attach each arm transmission
pivot shaft assembly to cowl. Remove pivot shaft
assembly with link rod from plenum chamber.
Installation
1. Place pivot shaft assembly with link rod into position at
cowl bracket. Secure assembly to bracket with two
screws.
2. Attach end of link rod to motor drive and arm. Secure
rod with the two attaching nuts.
3. Install outside air cowl ventilator grille to top of cowl.
4. Before installing wiper arms, operate wiper motor
momentarily which should rotate pivot shafts to park
position. Install arms.
WIPER ARM PIVOT SHAFTS AND LINK ROD-FIG.
2D-96
Removal
1. Remove windshield wiper arm s from pivot shafts.
Procedure for removing arms is explained previously
under "A rm Adjustments."
2. Remove screws which attach outside air cowl ventilator
grille to cowl. Carefully remove grille from cowl.
3. At center of cowl, remove two attaching nuts which
attach link rod to motor drive. Disengage link rods from
pins.
Fig. 2D-95--Wiper Pattern
LIG H T T R U C K SE RV IC E M AN U AL
2D-38
BODY
Fig. 2D-96--Windshield W iper Linkage
COWL VENTILATOR GRILLE
Fig. 2D-97~Cowl Ventilator Grille
REAR VIEW MIRRORS
Replacement
1.
2.
3.
4.
Remove windshield wiper arms.
Remove screws retaining grille, figure 2D-97.
Remove grille and seal.
Reverse above steps to install grille.
Inside R ear V ie w M irro r
Replacement
The inside mirror may be removed by removing screw
retaining mirror to its glass-mounted bracket, and lifting
mirror off bracket (fig. 2D-99).
SIDE COWL VENTILATOR
Replacement
1. Remove screws retaining valve guide to panel, as shown
in figure 2D-98.
2. Remove valve assembly by depressing pins at top and
bottom of valve.
3. Reverse the above steps for installation.
L IG H T T R U C K SE RV IC E M A N U A L
Outside Rear View Mirrors
Outside rear view mirror installations are shown in
figure 2D-100. Occasional tightening of m ounting and
assembly bolts and screws will sharply decrease occurence
of failure due to door slamming or road shock.
BODY
2D-39
Fig. 2D-l(X)--Outside Rear View Mirrors
BODY GLASS
CAUTION:Always wear gloves and eye glasses
when handling glass to avoid personal injury.
obstruction is increased by such conditions as wind pressures, extremes of temperature, motion of the vehicle, etc.
WINDSHIELD GLASS
Removal
The windshield glass is retained to the body by ure
thane adhesive. The windshield reveal moldings are vinyl
and are retained by two strips of butyl adhesive on the
underside of the molding, attaching to the body on one side
and the glass on the other and also by a retention lip in the
urethane which retains the glass. The windshield rests upon
the support molding which is secured to the pinchweld by a
bead of butyl adhesive.
There are two methods of windshield installation. The
windshield removal procedure is the same for both installa
tion methods with one exception. If the short method
installation is to be used, more care must be used during
removal to make certain that an even bead of adhesive
material remains on window opening to serve as a base for
replacement glass, there should not be any loose pieces of
adhesive left in the opening. Cut away a sufficient amount of
material to allow for the installation of the reveal moldings.
W hen replacing a cracked windshield glass, it is very
important that the cause of the glass breakage be deter
mined and the condition corrected before a new glass is
installed. Otherwise, it is possible that a small obstruction or
high spot somewhere around the windshield opening will
continue to crack or break the newly installed windshield,
especially when the strain on the glass caused by this
1. Place protective coverings around the area where the
glass is being removed.
2. Remove windshield wiper arms, exterior reveal mold
ings, interior garnish molding and support molding
from the pinchweld. Clean up any remaining adhesive
left on the body from the reveal molding.
LIG H T T R U C K SERVICE M AN U AL
2D-40
BODY
The reveal moldings can be removed from the urethane
adhesive by taking one end of the molding and pulling it
away from the adhesive. The support molding is removed
in the same manner from inside the vehicle , pry up one
end of the molding and pull it away from the pinchweld.
These molding are to be removed prior to windshield
removal.
3. Use a knife as shown in Fig. 2D-101 to cut the adhesive
completely around the perimeter of the glass. Knife,
J-24402-A or equivalent may be used. With help from
an assistant, carefully remove the glass.
4. If original glass is to be reinstalled, place it on a
protected bench or holding fixture; remove old material
using a razor blade or sharp scraper. Any remaining
traces of adhesive m aterial can be removed with
denatured alcohol or lacquer thinner dampened cloth.
When cleaning windshield glass, avoid contacting edge
of plastic laminate material (on edge of glass) with
volatile cleaner. Contact may cause discoloration and
deterioration of plastic laminate by wicking action. DO
N O T use a petroleum base solvent such as kerosene or
gasoline. The presence of oil will prevent adhesion of
new material.
W hen replacing the windshield, u rethane adhesive
(part no. 9631000 or Essex SCD 551.2 or equivalent) must
be used in order to maintain original installation integrity.
The short method as described previously can be used
where original adhesive material left on window opening
pinchweld flanges after glass removal serves as a base for the
new adhesive to the glass. This method would be used in
cases of cracked windshields or removal of windows that are
still intact. The amount of adhesive left in window opening
can be controlled during glass removal.
However, in some instances all the material must be
removed, to make a metal repair or to perform a paintrefinishing operation. In these cases, an additional cleaning
and priming step is required before applying the urethane
adhesive. See the instructions at the beginning of
"Installation".
Adhesive Service Kit or Cartridge
Material listed have a short shelf life. Be sure materials
are fresh.
Urethane adhesive cartridge Essex SDC 551.2 or the
equivalent are provided singularly. Adhesive Kit No.
9631000 (urethane adhesive) or equivalent contains some of
the items needed to remove and replace a urethane adhesive
installed glass.
Additional items required:
1. Pinchweld primer for enamel painted surface Essex
SCD 435.34 or equivalent.
2. Clear glass primer, Essex SCD 435.18 or equivalent.
3. Black glass primer (included in kit 9631000) or Essex
SCD 435.20 or equivalent.
4. Solvent for cleaning edge of glass (preferably alcohol)
and adhesive dispensing gun No. J-2 4 8 1 1 or an equiv
alent standard household cartridge type gun reworked
as follows:
a. Widen end slot to accept dispensing end of adhesive
material tube.
b. Reduce diameter of plunger disc on rod so that disc
can enter large end of adhesive material tube.
5. Commercial type razor knife.
6. Urethane cutting knife No. J-24402-A or equivalent or
two pieces of wood for wire handles.
7. Two rubber support spacers.
Installation
Steps 1 through 11 are to be used for installing glass
onto the original urethane adhesive left behind when the
windshield was removed. In those instances where the
adhesive was entirely removed, to make a metal repair or to
perform a paint refinish operation, it is necessary to follow
this extra step, before starting Step 1.
• Thoroughly clean the metal area surrounding the
windshield opening by wiping with a clean alcoholdampened cloth. Allow to air dry. Then apply primer
for enamel painted surface Essex SCD 435.34 or
equivalent, to the same area, being careful not to
allow any spill over onto exposed paint surfaces as
this primer will damage the paint finish. The surface
should not exceed 38°C (100°F) at the time of the
application. Refer to Fig. 2D-102. Allow the primer
to dry for thirty minutes.
1. From inside the vehicle, install the support molding
onto the pinchweld flange, the joint is to be located at
bottom center of the opening. See Fig. 2D-103.
2. Thoroughly clean the edge of the glass to which the
adhesive material will be applied by wiping with a clean
alcohol-dampened cloth. Allow to air dry.
When replacing the windshield, urethane adhesive Part
No. 9631000 or Essex SCD 551.2 or equivalent must be
used in order to maintain original installation integrity.
Apply clear glass primer, Essex SCD 435.18 or equiv
alent around the entire perimeter of glass edge. Refer
to Fig. 2D-102.
Apply the black glass primer in the urethane adhesive
kit 9631000 or Essex SCD 435.20 or equivalent around
the entire perimeter of the glass edge. Allow to dry to
LIG H T TR UC K SERVIC E M A N U A L
BODY
Fig. 2D-102 Windshield Installation Preparation
2D-41
5. With the aid of a helper, lift the glass into the opening.
Carry the glass with one hand on the inside of glass, and
one hand on the outside. At the windshield opening, set
the glass in a horizontal position. While one partner
holds the glass in this position, the other can reach one
arm around the pillar and support the glass from the
inside, while the first person assumes the same position.
With the glass centered in the opening, place the glass
against the inside support molding, use small rubber
blocks to support the glass in the correct position. Use
the last screw on either side of the cowl grille cover as a
guide for the positioning of these blocks in the wind
shield opening. Be sure to center the glass so that gaps
on opposite sides and top-to-bottom are equalized.
Trim rubber blocks as necessary. If the short method is
used, check reveal molding fit and cut away additional
solidified urethane base as necessary. See Fig. 2D-104.
6. Cut the tip of the adhesive cartridge to make asmall
opening of approximately 3/16 inch. First, fill in behind
and around spacer blocks with urethane.
7. Then apply a smooth, continuous bead of urethane.
Direct the flow of urethane down into gap as shown in
Fig. 2D-105. The material should fill the gap between
the glass edge and the sheet metal. If necessary, use a
flat-bladed instrument to paddle material into position.
Be sure that adhesive contacts the entire edge of the
glass, and extends to fill the gap between the glass and
primed sheet metal or solidified urethane base from the
original installation.
8. Spray a mist of water onto the urethane. This adhesive
is moisture curing. W ater will assist in the curing
process. Dry the area where the reveal molding will
contact the glass and the body.
Fig. 2D-103 Support Molding Installation
touch (approximately 10 minutes). Refer to Fig. 2D102.
9. To install the outside reveal moldings. If new moldings
are installed, remove the protective tape covering the
butyl adhesive on the underside of the molding. If the
original moldings are reusable, remove any excessive
butyl or urethane. Push molding caps on to either end
of one of the reveal moldings. Press the molding
retention lip into the urethane adhesive against the
edge of the windshield as shown in Fig. 2D-106 taking
care to seat the molding in the corners. Be sure the lip
LIG H T T R U C K SERVICE M AN U AL
2D-42
BODY
Fig. 2D-105 Adhesive Material Application
fully contacts the adhesive all around and that the gap
is entirely covered by the crown of the molding. Slide
molding caps into position between moldings connect
ing them. Use tape to hold the molding down in the
correct position against the body and glass until the
adhesive cures.
10. Install wiper arms, and clean up surrounding areas as
required.
Vehicle should not be driven and remain at room
te m p e ra tu re for six hours to allow proper cure of
adhesive.
11. W ater leak test the vehicle. If a leak is found, refer to
Windshield W aterleak Correction procedure.
WINDSHIELD WATERLEAK CORRECTION
W ith the u reth ane bonded glass on the G model,
waterleaks can be corrected without the removal of the
reveal moldings or glass from inside the vehicle. Removal of
the garnish and support molding will expose the urethane
bond from the glass to the body. Refer to Fig. 2D-107.
1. Remove garnish molding if so equipped.
2. Remove the windshield support molding from the
pinchweld. Pry up one end and pull the molding away
from the pinchweld.
3. Identify cause and location of the leak. If the leak is due
to a disruption in the urethane bond to the glass, the
leak can be repaired with addition urethane adhesive.
Use the adhesive m aterial furnished in Kit. No.
9631000 or Essex 551.2 or equivalent.
NOTICE: W ater may be leaking through a pinchweld
seam and not the urethane bead. In these instances, the
entry point must be determined and correction made at
that point in the pinchweld. (Voids in roof gutter sealer
may also produce this type of leak.)
LIG H T T R U C K SE RV IC E M A N U A L
4. Clean up any dirt, foreign material or loose urethane in
the area of 3 to 4 inches on either side of the point of the
leak. Make sure the area is dry.
5. Prime this area with the primer found in the urethane
adhesive Kit. No. 9631000 or Essex SCD 435-20 or
equivalent. Thoroughly agitate the primer before using.
Allow the primer to dry for five minutes.
6. Apply the urethane adhesive to the prepared area. Use
a flat stick or other suitable flat bladed tool to work the
adhesive material well into the leak point and onto the
original material to obtain a water-tight seal.
7. Using warm or hot water, leak test to assure that the
leak has been corrected.
8. Install the support molding immediately.
SWINGOUT WINDOW
Replacement
1. Swing out the window. See figure 2D-109.
2. Remove screws retaining latch to body.
3. Remove window by swinging glass out, separating
assembly at hinge.
4. Remove latch from glass by twisting and pulling out.
5. Reverse removal procedure to install swingout window.
BODY
2D-43
^A D H E S IV E TO WEATHERSTRIP
AND PINCHWELD
LATCH SWINGOUT WINDOW
Replacement
1. Swing out the window.
2. Remove latch to body attaching screws.
3. Twist and pull latch to remove from glass.
4. Reverse above steps for installation.
FRONT DOOR
DOOR ADJUSTMENTS
Doors can be adjusted for alignment of clearance in the
cab door opening, and for proper latching. Door alignment
adjustments are made at the striker bolt, and at door hinges.
T he door, when properly located in door opening, will have
equal clearance around its perimeter. The door should be
adjusted in the opening so the edge of the door across the top
and also at the lock side is parallel with the body opening as
nearly as possible.
Hinge Adjustment
Door hinge bolt holes are oversized to make adjustment
possible. Alignment adjustments can be made by loosening
the proper hinge bolts, aligning door to proper position, and
tightening bolts securely. See figure 2D-110, for typical
adjustments.
Striker Bolt Adjustment
With the use of J-23457, shown in figure 2 D -1 11, the
striker bolt can be adjusted in any of three ways. See figure
2D-112.
1. Up and dow n-To adjust striker up or down, loosen bolt,
adjust to center of lock entry, and tighten bolt securely.
This adjustment is important to assure that the right
proportion of door’s weight will rest on striker bolt
when door is closed. If bolt is positioned too high on
pillar, rapid wear will occur to the lock cam; if too low,
L IG H T T R U C K SERVICE M AN U AL
2D-44
BODY
an extra load will be placed on door hinges as well as
pulling door downward and out of alignment.
2. In and Out-To adjust striker in and out, loosen bolt,
adjust horizontally to match the door surface to the
body surface, and tighten bolt securely.
3. Forward and Rearward-To m ake this adjustm ent,
loosen striker bolt, shim to desired position, and tighten
bolt securely.
DOOR HINGE
Remove
1. Remove hinge access hole cover from door hinge pillar.
2. If removing one hinge, support door in such a manner
that weight is taken off other hinge, and that the door
will not move.
3. Remove hinge screws from both body and from door
and remove hinge. See figure 2D -110.
Installation
1. Install hinge to door and body. Snug bolts.
2. Remove door supports.
3. Adjust door as outlined under "Door A djustm ent".
4. Torque bolts to specifications.
5. Install hinge access hole covers.
DOOR WEATHERSTRIP
Success of weatherstrip replacement depends entirely
upon the quality of the cement used and the care with which
it is applied. All rust, road dirt and grease or oil must be
completely removed as should all old cement and bits of old
weatherstrip. After removing all foreign material from door
opening surface, wipe down with prepsol or its equivalent.
Use only a good quality cement which is made specially for
w eatherstrip installation, following the m a n u f a c tu re r ’s
directions. Proceed as follows:
1. Open door and block open.
2. Remove side door weatherstrip.
3. Remove used adhesive from door with adhesive or
cement remover, and remove all plastic nails.
4. Apply adhesive to door.
5. Position weatherstrip by locating part number at top of
vent window, making sure that plastic nails align with
holes in door.
6. Install weatherstrip by pressing each nail into the door.
TRIM PANEL, ARM REST AND HANDLES
Removal
1. Remove screws retaining arm rest to trim panel.
2. Remove door and window handles with Tool J-9886-01
and pull from shaft.
3. Remove trim panel screws and remove panel. If plastic
water shield seal is damaged, replace seal.
Installation
1. Install trim panel.
2. Install arm rest. Install door and window handle
washers and handles.
DOOR VENTILATOR ASSEMBLY
Removal
Fig. 2D-111--Loosening Striker Bolt
LIG H T T R U C K SE R V IC E M A N U A L
The channel between the door window glass and door
vent is removed as part of the vent assembly.
BODY
1. R egu late the door window glass to the full down
position.
2. Remove door and window handles with Tool J-9886-01.
3. Remove trim panel and water shields.
4. Remove rear window run channel screws.
5. Slide door window glass rearw ard away from
ventilator.
6. Remove three screws at the upper front of the door and
lower forward channel screw, as shown in figure 2D113.
7. Pull the upper portion of the ventilator rearward.
8. Turn the vent assembly 90° and carefully remove by
guiding up and out, as shown in figure 2D -114.
2D-45
Ventilator Glass Replacement
1. Using an oil can or similar means, squirt prepsol on the
glass filler all around the glass channel or frame to
soften the old seal. When the seal has softened, remove
the glass from the channel.
2. Thoroughly clean the inside of the glass channel with
sandpaper, removing all rust, etc.
3. Using new glass channel filler, cut the piece to be
installed two inches longer than necessary for the
channel. Place this piece of filler (soapstoned side of
filler away from glass) evenly over the edge of the glass
which will fit in the channel. The extra filler extending
beyond the rear edge of the glass should be pinched
together to hold it in place during glass installation.
One side of this filler (the outside of the roll) is
soapstoned. This is the side which goes into the metal
channel.
4. Brush the inside of the metal glass channel freely with
ordinary engine oil. This will enable the glass and filler
to slide freely into the channel.
Glass should be installed so that rear edge is parallel to
the division post. Allow full cure before water testing.
Installation
Replace the door window glass and regulate to the full
down position before installing the door ventilator assembly.
1. Lower the ventilator assembly into the door frame.
Center into position.
2. M ake certain the rubber lip is positioned before
tightening screws.
3. Slide door glass forward engaging glass in vent
channel.
4. Reinstall all screws and tighten.
5. Install and tighten the three screws at the upper front
of the door.
Adjustment
1. Adjust the ventilator adjusting nut by turning clock
wise to increase operating tension, as shown in figure
2D-115.
2. After making adjustment bend tabs over the hex nut.
3. Install trim panel.
4. Install door and window regulator handles.
DOOR WINDOW ASSEMBLY
Replacement
1.
2.
3.
4.
5.
Completely lower glass to bottom of door.
Remove door arm rest, trim pad and water shields.
Mask or cover upper portion of door window frame.
Remove ventilator assembly as previously outlined.
Raise window until regulator arms are level with access
hole in door.
6. Slide glass forward until front roller is in line with
notch in sash channel. Disengage roller from channel.
See figure 2D -116.
7. Push window forward and tilt front portion of window
up until rear roller is disengaged.
Fig. 2D-114--Removing Ventilator
8. Put window assembly in normal position (level) and
raise straight up and out.
I IfiU T TOI yC'Y CFD \^irr -
2D-46
BODY
5. Push regulator out of door opening while holding rear
of assembly, then slide assembly to the notches in the
carrier channel and out through the door access hole.
6. Install regulator in reverse order of removal, lubricate
regulator gears with lubriplate or equivalent.
WINDOW REGULATOR - POWER
In the case th a t window will not operate, check
electrical connections first. Figure 2D-118 illustrates loca
tion of junctions, switch, relay and circuit breaker.
Replacement
CAUTION:Electrical connectors must be removed
from window lift motor before performing any
operation on the regulator, or personal injury
could occur.
Fig. 2D-115--Adjusting Ventilator Tension
9. Reverse above procedure for installation.
DOOR W INDOW ADJUSTMENT
1.
2.
3.
4.
5.
To perform the adjustments listed, the door trim panels
must be removed.
CAUTION:Step 6 must be performed when reg
ulator is removed from door. The regulator lift
arms are under tension from the counterbalance
spring and can cause serious injury if the motor is
removed without locking the sector gear in
position.
Glass Height (Fig. 2D -116)
Loosen the bolt and adjust the stop assembly located
above the regulator sprocket so that the glass height in the
lowered position is flush with the top of the sill, then tighten
stop assembly bolt.
Regulator Raising and Lowering Effort (Fig. 2D-109)
The lower bolt on the run channel assembly provides
fore and aft movement to ease regulator effort.
WINDOW REGULATOR - MANUAL
Replacement
1.
2.
3.
4.
Wind window all the way up.
Remove inside door handles with Tool J-7797.
Remove door trim pad.
Remove screws securing regulator to inner panel.
Disconnect battery ground cable.
Remove door trim panel.
Disconnect harness from regulator.
Remove screws securing regulator to inner panel.
Push regulator out of door opening while holding rear
of assembly, then slide assembly to the notches in the
carrier channel and out through the door access hole.
6. Drill a hole through the regulator sector gear and back
plate. DO N O T drill hole closer than 1/2" (12.7mm)
to edge of sector gear or back plate. Install a pan head
sheet metal tapping screw (No. 10 - 12 x 3/4) in drilled
hole to lock sector gear in position.
7. Remove motor to regulator attaching screws.
8. Remove motor from regulator.
9. Prior to installation, lubricate the motor drive gear and
regulator sector teeth.
The lubrication used must be cold weather approved to
a minimum of minus 20° fahrenheit (-29°C).
10. Install regulator motor to regulator. Make sure the
motor pinion gear teeth mesh properly with the sector
gear teeth before installing the three motor attaching
screws.
11. Remove screw locking sector gear in a fixed position.
12. Install regulator in reverse order of removal, lubricate
regulator gears and rollers with lubriplate or
equivalent.
DOOR LOCK-FIGURE 2D -118
Removal
1.
2.
3.
4.
5.
Raise window.
Remove inside handles with Tool J-9886-01.
Remove trim panel.
Remove door lock knob.
From outside the door remove screws retaining lock to
door edge and lower the lock assembly.
6. Remove screws retaining remote control.
7. Remove screws securing glass run guide channel.
y-gH’f W 'tfx nsMv’CK v M
im
BODY
2D-47
Fig. 2D-117--Power W indow and Power Door Lock W iring
8. Remove lock, push button rod and remote control rod
as an assembly.
R EM O TE
Installation
LO C K
1. Transfer remote rod with clip to new lock.
2. Connect remote door handle rod to lock after lock is
positioned.
3. Secure lock screws and glass run guide channel.
4. Secure remote handle.
5. Check all controls for proper operation before reinstall
ing trim and handles.
6. Install door lock knob.
REMOTE CONTROL AND CONNECTING
ROD-Fig. 2D-118
Replacement
1. Raise door window and remove door trim pad.
2. Remove bolts securing remote control to door inner
panel.
Rod and c lip m ust be
to lo c k asm before
lo ck asm is installed to door.
3. Pivot remote inboard slightly, to disengage connecting
rod, and remove remote control from door.
Connecting rod can be removed at this point by
disconnecting spring clip from lock.
4. To install, reverse removal procedure.
Fig. 2D-118--Lock and Remote Control Assembly
LIG H T T R U C K SERVICE M AN U AL
2D-48
BODY
POWER DOOR LOCKS
The power door lock system incorporates a motor
a c tu a to r in each door which actuates the lock through
linkage (fig. 2D-120). See Figure 2D-117 for switches, relay
and wire routing.
Replacement
1. Disconnect battery ground cable.
2. Remove door trim panel to gain access to power door
lock motor.
3. Disconnect electrical connector from motor.
4. Remove screws attaching motor to door inner panel.
5. Remove door lock lever from rubber mount at top of
motor actuator and remove motor through access hole.
6. To install, reverse steps 1 through 5 above.
LOCK CYLINDER ASSEMBLY-FIG. 2D -119
Replacement
1. Raise door window and remove door trim pad.
2. With a screwdriver, or other suitable tool, slide lock
cylinder retaining clip (on door outer panel) out of
engagement and remove lock cylinder.
3. To install, reverse removal procedure.
SLIDING SIDE DOOR
DESCRIPTION
The weight of the sliding side door is supported by the
upper rear hinge-and-roller assembly, and by the lower front
catch-and-roller assembly. The front and rear latches retain
the door in the locked position, while the rear wedge
assembly restricts door vibration on rough road surfaces.
ADJUSTMENTS
LIG H T TR UC K SE RV IC E M A N U A L
NOTICE: See N O T I C E on page 1 of this section
regarding all sliding door fasteners and adjustments
found below.
The side door can be adjusted for alignment and/or
clearance in the body opening and for proper latching.
When properly positioned in the body opening, the door
should have equal clearances around its perimeter. Adjust
ments for door positioning and proper latching can be made
at the locations shown in figure 2D-121.
BODY
2D-49
W INDO W SWITCH
AS S E M B LY
DOOR LOCK
SW ITCH
REAR DOOR
M OTO R ACTUATOR
(DOOR LOCK)
MOTOR
(POWER W INDOW )
SW ITCH CONTACT
(DOOR)
SWITCH CO NTACT
(PILLAR )
Fig. 2D-120--Power Door Lock Actuators, Power Window Motor, Wiring and Switches
LIG H T T R U C K SERVICE M A N U A L
2D-50
BODY
STRIKER
F O R E - A N D -A F T A D J U S T M E N T S L O T S
C E N T E R ROLLER VERT ICA LLY
IN T R A C K S O IT D O E S N O T
CONTACT
THE T R A C K
IN FULL O P E N
U P -A N D -D O W N
O R FULL
A D J U S T M E N T SLO T S
CLOSED
-------- ^
... . .., .. J1
^
1
P O S IT IO N
UPPER REAR HINGE-AND-ROLLER
SECTION B-B
TOP VIEW
UPPER LE V E R .___.L O W E R LEVER
U P -A N D -D O W N
A D JU ST M EN T SLO TS / j f /
STRIKER,
U PPER
F R O N l Y N
in
-a
n d
-o u t
ROLLER ASSEMBLY) adJustment;
FRONT LATCH
STRIKER
FACE VIEW
G U ID E
U P -A N D -D O W N
A DJU STM EN T
IN - A N D -O U T
ADJUSTM EN T
R U B B E R '"
C U S H IO N
LATCH
SECTION C-C
LOWER ROLLERS i
AND CATCH ASM
REAR ' REAR LATCH
WEDGE | N ^ S T R IK E R
ASSEMBLY .
SECTION
E-E
HOLD-OPEN
i CATCH
Fig. 2D-121 —Sliding Side Door Adjustment Locations
LIG H T T R U C K SERVICE M A N U A L
BODY
2D-51
Up and Down
Fore and Aft
Up and down adjustments are provided by means of
slotted holes located at the upper front roller, view B of
figure 2D-121; at the lower front.catch-and-roller, view D;
and at the upper rear hinge-and-roller assembly, view A. To
reposition the door up or down:
1. Partially open door and loosen front latch striker on
pillar.
2. Remove upper rear hinge cover, shown in figure 2D-
Fore and aft adjustment is provided at the upper rear
hinge striker by means of a slotted bracket mounted to the
body, view A of figure 2D-121.
122 .
3. Loosen upper rear hinge-to-door bolts.
4. Loosen rear lock striker and door wedge assembly.
5. Align rear edge of door up or down, then tighten upper
rear hinge-to-door bolts to specifications.
6. Loosen upper front roller bracket-to-door bolts.
7. Partially close door and align front edge of door up or
down by loosening front lower hinge-to-door bolts.
When door is correctly positioned, tighten bolts to
specifications.
8. Position upper front roller in center of track, then
tighten roller bracket to door.
9. Adjust front and rear strikers and rear wedge assembly
as outlined in their respective procedures later in this
section.
In and Out
Front in and out adjustments are provided by means of
an adjustable lower roller mounting bracket, view D of
figure 2D-121, and by a slotted upper bracket, view B of
figure 2D-121. Rear in and out adjustment is provided by
adjusting the rear latch striker, view E of figure 2D-121. To
position the door in or out:
1. Loosen front latch striker.
2. Loosen upper front roller from its bracket.
3. Loosen lower front roller bracket-to-arm bolts.
4. Adjust front of door in or out, then tighten bolts to
specifications.
5. A djust door hold open catch bracket, rear wedge
assembly, rear latch striker, upper front roller and front
latch striker as outlined later in " Adjustments ".
1. Partially open door and remove front latch striker and
rear lock striker.
2. Loosen rear wedge assembly.
3. Remove upper rear track cover.
4. Loosen upper rear hinge striker.
5. Move door assembly forward or rearward, then tighten
striker bolts to specifications.
6. Reinstall upper rear track cover.
7. Reinstall front and rear latch strikers.
8. A djust latch strikers and rear wedge assembly as
outlined below.
Latch Striker Adjustments
Front Striker
1. Loosen front latch striker screws, view C of figure 2D121.
2. Visually align latch-to-striker relationship and adjust if
necessary.
3. Slide door slowly toward striker. The guide on the door,
just above the latch, must fit snugly within the rubberlined opening on the striker assembly.
4. Assure that the latch engages fully into the striker. Add
or delete shims behind the striker as necessary.
5. Tighten striker screws to specified torque.
Rear Striker
1. Loosen striker with J-23457.
2. Loosen rear wedge assembly.
3. Center the striker vertically to door striker opening.
4. Adjust the striker laterally to match outer panel to the
body panel surfaces, view E of figure 2D-121.
5. Apply grease to the striker.
6. Gently push the door in until the rear lock contacts the
striker enough to make an impression in the grease.
7. Open the door and measure the distance from the rear
of the striker head to the impression. The distance
should be between .20 inch (5mm) and .30 inch (8mm).
Refer to view E of figure 2D-121.
8. Adjust position of striker by adding or deleting shims
between the striker and the pillar.
9. Adjust rear wedge assembly as outlined later in this
section, and torque all fasteners to specifications.
Upper Rear Hinge-To-Striker Adjustment
NOTICE: If door has been removed and is being
reinstalled, adjust striker-to-lower hinge lever before
closing door. Failure to do so may cause possible lever
breakage.
The upper rear hinge must be positioned as shown in
view A of figure 2D-121, in order to insure proper latching.
1. The hinge lower lever must contact the striker at least
.06 inch above the lower edge of the striker tang.
LIG H T T R U C K SERVIC E M A N U A L
2D-52
BODY
2. The lower lever must extend at least .10 inch (2.5mm)
outb oard of the striker tang. Add or delete shims
between the striker and the body as necessary.
3. If necessary to shim roller away from guide, shims are
added between the nylon block and hinge and between
roller and hinge. They must be installed in pairs. For
example, if one shim is added behind the nylon block
another must be added behind the roller.
Door Hold-Open Catch Adjustment
This catch, mounted on the lower front roller bracket,
holds the door in the full open position. See figure 2D-123.
The catch engages a striker installed at the rear of the lower
roller channel, view D of figure 2D-121.
1. Loosen the screws retaining the catch rod bracket to
bottom of door.
2. Adjust catch -to -strik er engagem ent by sliding the
bracket laterally. Catch should fully engage striker.
Rear Wedge Assembly Adjustment
1. Loosen screws attaching rear wedge assembly to the
body pillar, then close the door to the fully latched
position.
2. Center the wedge assembly on the door wedge, as
shown in figure 2D-124, and scribe a line around the
wedge assembly.
3. Open the door, and move the wedge assembly 3/16
inch.
FRONT LATCH ASSEMBLY
Removal
1.
2.
3.
4.
Remove trim panel, if so equipped.
Remove access cover.
Unscrew door lock knob from rod.
Disconnect the following rods from latch, shown in
figure 2D-125.
a. Rear latch rods.
b. Lock cylinder rod.
c. Door lock rod.
5. Remove door handle.
6. Remove screws retaining latch assembly to door.
7. Slide latch rearward and lift front of latch. Disconnect
rod leading to lower hinge door catch by pushing rod
out of hole and rotating rod clear of latch.
8. Remove latch assembly from door.
Installation
1. Install latch assembly into door by working latch
assembly behind the lower hinge door catch.
2. Connect lower hinge door catch, lock cylinder rod, door
lock rod, and both rear latch rods.
3. Install latch assembly-to-door
Torque to specifications.
attaching
screws.
4. Install door lock knob and door handle.
5. Install access cover and trim panel.
Fig. 2D-123--Hold-Open Catch
LIG H T T R U C K S F R V irF M AN U AI
BODY
2D-53
Fig. 2D-127~Rear Track Cover
Fig. 2D-126--Sliding Door Rear Latch
6. A d ju st door front strik e r as outlined earlier under
"A d ju stm en ts".
4.
A djust re ar latch strik er as outlined earlier under
"A djustm ents".
UPPER REAR HINGE
Removal
REAR LATCH AND/OR LATCH ACTUATING RODS
Removal
1. Remove trim panel (if so equipped).
2. Remove front latch assem bly access cover.
3. Disconnect rear latch rods from front latch assembly,
shown in figure 2D-125.
4. Remove rear latch attaching screws. See figure 2D126.
5. Slide rear latch tow ard front of door until rod clips
become exposed. Disconnect rod clips and remove latch
from door.
Installation
1. Connect rods to latch and install latch to door. Torque
screws to specifications.
2. Connect rods to front latch assembly.
3. Install access covers and trim panels (if so equipped).
LIG H T T R U C K SERVICE M A N U A L
1. Remove the hinge cover and rear track cover. See
figures 2D-122 and 2D-127.
2. Open the door.
3. Disengage spring from bolt, using a spring removal
tool.
4. Close the door.
5. Remove the hinge assembly.
Installation
W hen holding hinge assembly as in figure 2D-129, the
lower latch must engage cam.
1. Install hinge assem bly to door. T orque bolts to
specifications.
2. Check and adjust latch to striker position as outlined
under "A djustm ents".
3. Open the door and reconnect the hinge spring.
4. Install the rear track cover and hinge cover.
5. Check the operation of the door hinge.
2D-54
BODY
1.
2.
3.
4.
5.
6.
7.
Roller
Lockwashers
Nut
Cam
Washer
Bushing
Bushing
8.
9.
10.
11.
12.
13.
14.
Bolt
15.
Plate
16.
Upper lines
17.
Spacer
18.
Spring (Upper Lever) 19.
Spring (Lower Level) 20.
Lower Lever
Screw
Guide Block
Hinge (Body Half)
Nut
Bushing
Bushing
21.
22.
23.
24.
25.
26.
Cam
Bushing
Hinge (Door Half)
Spring
Spring retainer
Hinge liner
Fig. 2D-128--Upper Rear Hinge Components
LIG H T T R U C K SERVICE M A N U A L
BODY
2D-55
STRIKERS
The front and rear strikers are shown in figure 2D-121.
The rear striker can be removed with J-23457 as in figure
2 D -1 11, and the front striker can be removed by removing
a tta ch in g screws. R efer to "A d ju stm en ts" when
reinstalling.
REAR DOORS
REAR DOOR HINGE STRAP
3. Remove hinge-to-door bolts and remove door assembly.
Remove hinge-to-body bolts and hinge.
4.
Replacement
1. Remove strap release pin. See figure 2D-130.
2. Remove screws retaining strap to door.
3. Install stra p to door. T orque retain in g screws to
specifications.
REAR DOOR HINGE
Removal
1. Open door. Support door so th a t when hinge screws are
removed door weight will be on support.
2. Remove hinge strap release pin.
Installation
1. Install grom m et into door hinge opening (if removed).
2. Install hinge into door. Snug bolts.
3. Install seal and retainer on body half of hinge (if
removed).
4. Install hinge into body opening and install bolts.
5. Take care to compress seal between body and retainer
and snug bolts.
6. Install hinge strap and its retaining pin.
7. Adjust door and torque hinge bolts to specification.
REAR DOOR REMOTE CONTROL
Removal
1. Remove trim panel.
2. Disengage upper and lower latch rods from control by
remmoving retaining clips. See figure 2D-131.
3. Remove rem ote control by rem oving its retaining
screws.
Installation
1. Install remote control screws loosely.
2. A ttach upper and lower control rods.
3. R otate remote control lever clockwise, and hold in this
position while torquing the screws to specifications.
4. Install the trim panel.
REAR DOOR UPPER OR LOWER LATCHES A N D /
OR LATCH RODS
Removal
1. Remove trim panel.
2. D isengage rod from rem ote control assem bly. See
figure 2D-131.
LIG H T T R U C K SERVICE M A N U A L
2D-56
BODY
3. Remove lock cylinder retainer and lock cylinder.
Installation
1. Install lock cylinder and retainer.
2. Install remote control. Torque screws to specifications.
3. Remove latch retaining screws and w ithdraw latch and
control rod.
4. Remove spring clip retaining rod to latch.
3. Install trim panel.
REAR DOOR GLASS AND WEATHERSTRIP
Installation
1. Install latch rod to latch.
W hen reinstalling the lower latch rod to control, the
short straight section attaches to the latch.
Removal and installation procedures are the same as
for the statio n ary body side windows. R efer to those
procedures for rear door glass and w eatherstrip
replacem ent.
2. Install latch and rod assembly into door and connect
rod to remote control. Lube all moving parts.
REAR DOOR ADJUSTMENTS
3. Install latch
specifications.
Door adjustm ents are provided by slotted holes, at
hinge attachm ent, in body and door.
re ta in in g
screws
and
torque
to
1. Remove or loosen door strikers and wedges.
4. A djust latch to strikers.
2. Loosen door hinge bolts and adjust door to provide
equal clearances between body and door around perim
eter of door.
REAR DOOR OUTSIDE HANDLE
Removal
1. Remove trim panel.
3. A djust door in and out so th at door panel is flush with
body.
2. Rem ove door handle retain in g screws, handle and
gaskets. See figure 2D-132.
4. Install door strikers and wedges and adjust as outlined
under door striker adjustm ent.
Installation
REAR DOOR STRIKER AND WEDGE ADJUSTMENT
1. Apply grease to rem ote control where handle plunger
makes contact.
2. Install handle
specifications.
and
gaskets.
3. Install trim panel.
REAR DOOR LOCK CYLINDER
Removal
1. Remove trim panel.
2. Remove rem ote control.
T orque
screws
to
NOTICE: See N O T IC E on page 1 of this section
regaring R ear Door Striker fasteners.
1. A djust striker by adding or deleting shims as necessary
to obtain dimension as shown in figure 2D-133. This
dimension can be checked by applying grease to the
latch and slowly closing door until striker fully engages
latch. T hen open door and m easure from grease
im pression to bottom of latch slot. T orque to
specifications.
2. Adjust door wedge by adding or deleting shims as
necessary so that wedge contact ram p on body when
door is closed. See figure 2D -133.
LIG H T T R U C K SERVICE M AN U AI
BODY
Fig. 2D-133--Reor Door Striker and W edge
Adjustment
SEATS
NOTICE: See N O T IC E on page 1 of this section
regarding fasteners used on seats and seat belts.
DRIVERS SEAT
Seat Adjuster
Replacement
1. Remove seat by removing nuts securing seat adjuster to
seat riser.
2. Remove adjuster from seat. See figure 2D-134.
3. Install seat a d ju ste r
specifications.
to
seat.
T orque
bolts
to
4. Install seat onto seat riser, and torque nuts to
specifications.
SEAT RISER
Replacement
1. Remove seat and adjusters as an assembly by removing
nuts securing seat to riser.
2. Remove nuts securing seat riser to floor.
3. Install seat riser to floor. Torque nuts to specifications.
4. Install seat and torque nuts to specifications.
LIG H T T R U C K SERVICE M A N U A L
2D-57
2D-58
BODY
PASSENGER SEAT-MOUNTING BRACKETS
Removal
1. Remove seat and brackets from seat riser. See figure
2D-135.
2. Remove brackets from seat.
Installation
1. Install brackets to seat. T orque to specifications.
2. Install seat to seat riser. Torque to specifications.
SEAT RISER
Removal
1. Remove seat and m ounting bracket as an assembly.
2. Remove riser from floor.
Installation
1. Install riser to floor. T orque nuts to specifications.
2. Install seat riser. Torque nuts to specifications.
LIG H T T R U C K SERVICE M A N U A L
2D-60
BODY
REAR BENCH SEATS
All models equipped with 2nd, 3rd and 4th bench seat
assemblies feature a quick release m echanism which facili
tates removal of the seats for added cargo space.
Instead of the conventional clam p and bolt m ethod of
seat reten tio n , cam type latch assem blies and hooked
retainers, which fit onto anchor pins in floor anchor plates
are used. W hen the latch assemblies are depressed, their
cams and the hooks of the retainers are draw n tightly onto
the anchor pins for secure seat attachm ent.
R em oval is accom plished using the following
procedure:
1. Pull up on quick release latches located at lower front
of seat legs (right and left hand sides).
2. Tilt up front of seat and push seat rearw ard to clear
anchor pins located beneath floor at front and rear of
seat legs.
3. Lift seat up and remove from van.
4. To replace, reverse steps 1 to 3.
NOTICE: W hen replacing seats m ake sure th at seat
retainer hooks are fully engaged with anchor pins and
latching assembly is fully depressed into place.
SWIVEL BUCKET SEATS - G MODELS
R efer to the illustration in Figure 2D-137 for swivel
Bucket S eat Assembly installation.
ROOF VENT - G MODELS
Roof vent installation is illustrated in Figure 2D-138.
SERVICING LAP BELTS
Service precautionary item s are outlined in the CK
portion of this section.
Internal drive thread-forming anchor bolts are used to
secure lap belts to the floor pan. To remove or install internal
drive anchor bolts, use door lock striker and lap belt anchor
bolt removal tool J-23457 or equivalent. Start bolt by hand to
assure that bolt is threaded straight.
Refer to figures 2D-139 through 2D-141 and select the
ap p ro p riate illustration for rem oving and installing lap
belts.
DECAL APPLIQUE PROCEDURE
Refer to Section 2C, Chassis Sheet M etal, for proce
dure relating installation of decals or stripes.
ADHESIVE BODY SIDE MOLDING
Refer to Section 2C, Chassis Sheet M etal, for proce
dures relating to installation of adhesive moldings.
LIG H T T R U C K SERVICE M A N U A L
BODY
LIG H T T R U C K SERVICE M A N U A L
2D-61
2D-62
BODY
SPECIFICATIONS
FRONT END
TAILGATE-FLEETSIDE
Sunshade Support.....................................18 in. lb.
Outside Rear View Mirror lo Door Panel
Base M irror.................................... 18 in. lb.
West Coast Mirror Lower Bracket to Door................... 18 in. lb.
Upper Bracket to Do o r ................... 18 in. lb.
2. N* m
2. N 'm
Trunnion Assembly................................ 18 ft. lb. 24. N 'm
Linkage and Striker AssemblySupport.................................................... 18 ft. lb. 24. N 'm
2. N-m
2. N 'm
DOORS
Window Regulator Assembly
to Door Panel............................................85 in. lb. 9.5 N 'm
Remote Control Door Lock
to Door Panel........................................... 45 in. lb. 8. N 'm
Lock Striker to Body Pillar................... 45 ft. lb. 60. N 'm
Outside Door Handle................................ 85 in. lb. 9.5 N-m
Inside Door Handle.................................. 85 in. lb. 9.5 N-m
Hinges to Body and Do o r.........................31 ft. lb. 42. N- m
Front Door-Window Rear Channel
Upper Bolt Assem bly..................... 85 in. lb. 9.5 N-m
Lower Bolt Assembly..................... 85 in. lb. 9.5 N-m
Front Door-Ventilator and Glass Run Assembly
Top Vent Screw................................ 20 in. lb. 2.2 N 'm
Side Vent Screws and Spacers........22 in. lb. 2.5 N-m
Lower Vent Channel Bolts............. 85 in. lb. 9.5 N-m
Side Rear Door-Run Channel
Front Upper Bolt to Door............... 85 in. lb. 9.5 N-m
Rear Upper Screw to Door............. 20 in. lb.
2. N-m
Front Lower Nut to Door.............. 45 in. lb.
5. N- m
Rear Lower Bolt to Door............... 85 in. lb. 9.5 N-m
Lock Lever to D o o r .......................85 in. lb. 9.5 N-m
Rear DoorLock Striker (Suburban).........................19 ft. lb. 26. N-m
Rear Door-Latch LH and RH
to Door (Suburban)..................................85 in. lb. 9.5 N-m
Rear Door-Latch Control Assembly to Door (Suburban)
Upper Assembly............................. 19 ft. lb. 26. N-m
Lower Assembly............................ 85 in. lb. 9.5 N-m
END GATE
Hinges-Body Half and Gate Half........... 35 ft. lb. 48. N-m
Support Assembly-Cable Bolts............. 35 ft. lb. 48. N-m
Torque Rod to Hinge Pocket................. 85 in. lb. 9.5 N-m
Torque Rod to Body.......................... .
18 ft. lb. 2. N-m
Latch Assembly to End Gate................. 33 ft. lb, 44. N 'm
Latch Control Assembly
to End Gate............................................. 45 in. lb. 5. N-m
Handle to Latch Control Assembly........45 in. lb. 5. N-m
Glass Channel (Suburban)......................45 in. lb. 5. N-m
Glass Channel (Utility).......................... 85 in. lb. 9.5 N-m
Outside Handle........................................55 in. lb. 6. N-m
Cap Assembly to Channel Assembly... .24 in. lb. 2 .6 N-m
Striker-Body Mounted............................ 25 ft. lb. 34. N-m
TAILGATE-STEPSIDE
Trunnion Assembly..................................18 ft. lb. 24. N-m
Chain Support Assembly..........................90 in. lb. 10. N-m
SEATS
Front Bench Seat
Adjuster-to-Seat.......................... 50 in. lb.
Adjuster-to-Floor........................ 25 ft. lb.
Front Bucket Type
Driver
Adjuster-to-Seat................. 18 ft. lb.
Adjuster-to-Floor............... 25 ft. lb,
Passenger Chassis Cab
Support-to-Seat................... 18ft. lb.
Support-to-Floor
(Front)..................................25 ft. lb.
Support-to-Floor
(Rear)....................................40ft. lb.
Passenger Suburban
Latch Support
to Seat (Rear).......................18 ft. lb.
Striker to Floor
(Rear)..................................25 ft. lb.
Support (Upper)
to Seat (Front).....................18 ft. lb.
Support (Lower)
to Floor (Front)................... 25 ft. lb.
Support (Upper)
to Support (Lower)............. 30 ft. lb.
Rear Bench Utility, Suburban
Support-Lo-Seat............................ 18 ft. lb.
Support-to-Floor.......................... 50ft. lb.
Rear Bench Crew Cab
Support-to-Seat.......................... 150 in. lb.
Support-to-Floor.......................... 35 in. lb.
Folding Rear Seat Suburban
Support Asm-to-Floor................. 150 in, lb.
Seat-to-Support A s m .....................18 in. lb.
17. N-m
34. N 'm
24. N-m
34. N-m
24. N-m
34. N-m
54. N-m
24. N 'm
34. N-m
24. N-m
34. N-m
40. N-m
24. N-m
70. N-m
17. N-m
17. N 'm
24. N-m
Keyliner Chart 2D-A--Specifications
LIG H T T R U C K SERVICE M AN U AL
BODY
2D-63
BODY MOUNTING (C-K MODELS)
MODEL
#2
#1
CHASSIS C A B
55 ft. lb.
75 N- m
55 ft. lb.
75 N- m
C R E W CAB
55 ft. lb.
75 N- m
35 ft. lb.
48 N- m
SU B U R B A N
55 ft. lb.
75 N*m
35 ft. lb.
48 N-m
U TILITY
55 ft. lb.
75 N-m
45 ft. lb.
60 N .m
#3
#4
#6
#5
55 ft. lb.
75 N- m
35 ft. lb.
48 N-m
35 ft. lb.
48 N- m
35 ft. lb.
48 N* m
35 ft. lb.
48 N- m
G MODELS
MIRRORS AND SUNSHADE
SLIDING SIDE DOOR
Outside Rear View Mirror to Panel... .150 in. lb. 17. N-m
Sunshade Support to Header Panel-lb. 1.6 N-m
SIDE WINDOW (SWINGOUT)
Latch to Body........................................
Hinge to Body........................................
lb 4 .6 N*m
lb. 6 .0 N-m
r HUN 1 blUfc U U U K d
Door Hinges..........................................
Remote Control Retaining Screws . . . . . .45 in.
Door Lock Striker................................ .. 45 ft.
Door Lock to D o o r ..............................
Outside Door Handle............................ . .90 in.
Regulator Assembly.............................
40. N-m
5. N-m
lb.
lb. 60. N-m
lb. 30. N-m
lb. 10. N-m
10. N-m
REAR DOOR
Hinge (to body and door).......................
Remote Control RH
Retaining Screws..................................
Latch-to-Door Retaining
Screws Upper........................................
Latch-to-Door Retaining
Screws Lower........................................
Door Strikers-to-Body.........................
Outside Door Handle............................
. .40 ft. lb. 54. N 'm
..7 0 in.lb.
8. N- m
. . 19 ft. lb. 26. N-m
..7 0 in. lb. 8. N-m
..1 8 ft. lb. 24. N-m
..9 0 in. lb. 10. N-m
Remote Control (front latch)
Rear Latch to Door..................................
Lower Front Roller and Roller Support
Support-to-Door................................ . .24 ft.
Support to Roller Bracket............... ..2 4 ft.
Lower Control Assembly.................
Upper Front Roller Bracket
Bracket to Do o r................................
24 ft.
20 ft.
Roller to Bracket..............................
Hinge to D o o r ....................................
Upper Rear Hinge (Body Half)
Roller to Hinge..................................
Guide Block to Hinge.........................
Lever Arm-to-Hinge
Retaining N u t ....................................
Lever Retaining Screw .....................
Rear Striker to Body (Upper Stop)..........
Rear Striker Bolt (Body Mounted)..........
Front Striker Retaining Screws
(Body Mounted)........................................
Keyliner Chart 2D-B--Specifications
LIG H T T R U C K SERVICE M A N U A L
SEATS
Seat Belt to S ea t......................................
Passenger and Drivers
Seat to Adjuster
(Mounting Bracket)..........................
Seat to Riser......................................
Seat Riser-to-Floor.........................
Bench Seats
Seat to Seat Support........................
Seat Support to Leg Assembly..........
lb. 10. N* m
lb. 10. N* m
lb. 32. N* m
lb. 32. N ’ m
lb. 10. N* m
lb. 32. N 'm
lb. 27. N* m
..2 5 ft. lb. 34. N* m
. .20 ft. lb. 27. N ‘ m
b. N- m
.120 in. lb. 14. N ‘ m
lb.
5. N 'm
. .20 ft. lb. 27. N* m
..4 5 ft. lb. 60. N- m
10. N- m
..3 7 ft. lb. 50. N* m
..1 8 ft. lb. 24. N ‘ m
. .18 ft. lb. 24. N* m
. .50 ft. lb. 70. N ‘ m
. .18 ft. lb. 24. N* m
.130 ft. lb. 170 N- m
2D-64
BODY
SPECIAL TOOLS
1.
2.
3.
4.
J-2 25 85
J-22577
J-7797
J-23457
Front Door Hinge, Bolt Wrench
Windshield Checking Blocks
Door Handle Clip Remover
Door Striker Bolt Remover and Installer
Fig. 2D-143--Special Tools
LIG H T T R U C K SE RV IC E M AN U AL
FRONT ALIGNMENT
3A-1
SECTION 3A
FRONT ALIGNMENT
CONTENTS
G eneral D escrip tio n..................
M aintenance and A djustm ents
S pecifications...............................
3A-1
3A-2
3A-5
GENERAL DESCRIPTION
FRONT ALIGNMENT
T he term "fro n t alig n m en t" refers to the ang ular
relationships between the front wheels, the front suspension
attaching parts and the ground.
The pointing in or "toe-in" of the front wheels, the tilt
of the front wheels from vertical (when viewed from the
front of the vehicle) and the tilt of the suspension members
from vertical (when viewed from the side of the vehicle), all
these are involved in front alignm ent. The various factors
th at enter into front alignm ent are covered here each one
under its own heading.
CASTER
C aster is the tilting of the front steering axis either
forward or backward from the vertical (when viewed from
the side of the vehicle). A backward tilt is said to be positive
( + ) and a forward tilt is said to be negative (-).
On the short and long arm type suspension you cannot
see a caster angle without a special instrum ent, but you can
understand th at if you look straight down from the top of the
upper control arm to the ground you would find that the ball
joints do not line up (fore and aft) when a caster angle other
than 0° is present. If you had a positive caster angle the
lower ball joint would be slightly ahead (toward the front of
the vehicle) of the upper ball joint center line. In short then,
caster is the forward or backward tilt of the steering axis as
viewed from a side elevation. Caster is designed into the
front axle assembly on all K series vehicles (four-wheel
drive), and is non-adjustable. See caster copy under
A D JU S T M E N T S .
CAMBER
Cam ber is the tilting of the front wheels from the
vertical when viewed from the front of the vehicle. W hen the
wheels tilt outward at the top, the cam ber is said to be
positive ( + ). W hen the wheels tilt inward at the top, the
cam ber is said to be negative (-). The am ount of tilt is
m easured in degrees from the vertical and this m easurem ent
is called the cam ber angle. C am ber is designed into the front
axle assembly of all K series vehicles and is non-adjustable.
See cam ber copy under A D JU ST M E N T S.
TOE-IN
Toe-in is the turning in of the front wheels. The actual
am ount of toe-in is normally only a fraction of an inch. The
purpose of a toe specification is to ensure parallel rolling of
the front wheels. (Excessive toe-in or toe-out will cause tire
wear). Toe-in also serves to offset the small deflections of the
wheel support system which occurs when the vehicle is
rolling forward. In other words, even when the wheels are set
to toe-in slightly when the vehicle is standing still, they tend
to roll parallel on the road when the vehicle is moving. See
toe-in copy under A D JU S T M E N T S .
L IG H T T R U C K SE RV IC E M AN U AL
3A-2
FRONT ALIGNMENT
(J. OF WHEEL
DIRECTION
CAMBER ANGLE
CASTER ANGLE
FRONT V IE W
SIDE V IE W
Fig. 3A-1--Caster - Camber - Toe-In
MAINTENANCE AND ADJUSTMENTS
PRELIMINARY CHECKS PRIOR TO ADJUSTING
FRONT ALIGNMENT
Before m aking any adjustm ent affecting caster, cam
ber or toe-in, the following checks and inspections should be
m ade to insure correctness of alig n m en t readings and
alignm ent adjustm ents.
1. C heck all tires for proper inflation pressures and
approxim ately the same tread wear.
2. Check front wheel bearings for looseness (.001-.008
end play is correct) and adjust if necessary.
3. Check for looseness of ball joints, tie rod ends and
steering relay rods; if excessive looseness is noted, it
m ust be corrected before adjusting.
11. Consider the condition of the equipm ent being used to
check alignm ent and follow the m a n u fa c tu re r’s
instructions.
12. Regardless of equipm ent used to check alignm ent, the
vehicle must be on a level surface both fore and aft and
transversely.
13. Steering and vibration com plaints are not always the
result of improper alignm ent. An additional item to be
checked is the possibility of tire lead due to worn or
improperly m anufactured tires. "L e a d " is the devia
tion of the vehicle from a straight path on a level road
without hand pressure on the steering wheel. Section
3E of this m anual, "W heels and T ires", contains a
procedure for determ ining the presence of a tire lead
problem.
4. Check for run-out of wheels and tires.
5. Check dimension A in Fig. 3A-4; if out of specifications
and a correction is to be m ade, the correction must be
made before adjusting caster.
6. Check for steering gear looseness at frame.
7. Check for improperly operating shock absorbers.
8. Check for loose control arm s.
9. Check for loose or missing stabilizer bar attachm ents.
10. Consideration m ust be given to excess loads, such as
tool boxes. If this excess load is normally carried in the
vehicle, it should rem ain in the vehicle during align
ment checks.
LIG H T T R U C K SE RV IC E M A N U A L
FRONT ALIGNMENT REQUIREMENTS
Satisfactory vehicle operation may occur over a wide
range of front end wheel alignm ent settings. Nevertheless,
should settings vary beyond certain tolerances, readjust
ments of alignm ent is advisable. The specifications stated in
column 1 of the chart in the specifications section of this
m anual should be used by owners, dealers and repairm en as
guidelines in vehicle diagnosis either for repairs under the
new vehicle w arranty or for m aintenance service at custom
er’s request. These specifications provide an acceptable allaround operating range in that they prevent abnorm al tire
wear caused by wheel alignm ent.
FRONT ALIGNMENT
G overnm ental Periodic M otor V ehicle Inspection
program s usually include wheel alignm ent among items that
are inspected. To provide useful inform ation for such
inspections, the specifications stated in column 2 of the
wheel alignm ent ch art are given and these are well within
the range of safe vehicle operation.
In the event the actual settings are beyond the specifi
cations set forth in column 1 or 2 (whichever is applicable),
or whenever for other reasons the alignm ent is being reset,
the specifications given in column 3 of the wheel alignm ent
chart should be used.
It is good p ractice to set front end alignm ent to
specifications while the vehicle is in its normally loaded
condition. T rucks which are consistently operated with
heavy loads should have toe-in adjusted with the truck under
heavy load. This procedure should result in longer tire life.
ALIGNMENT ADJUSTMENTS
Caster
All caster specifications are given assum ing a frame
angle of zero. Therefore, it will be necessary to know the
angle of the fram e (whether "u p " in rear or "dow n" in
rear) before a corrected caster reading can be determ ined.
C am ber and toe can be read "as is" from the alignm ent
equipment.
How to Determine Caster (Fig. 3A-4)
All caster specifications are given assuming vehicle
fram e angle is zero. Therefore, it is necessary to adjust
specifications when applying them to vehicles w ith any
fram e angle other than zero.
1. W ith vehicle on a level surface, determ ine fram e angle
(w hether up or down in rear) with the use of a bubble
protractor or inclinometer. Record this m easurem ent
(See Figure 4).
2. M easure dimension "A " (See Figure 4).
3. Check and record specifications for caster under that
column related to dimension " A " as measured in step
2.
A norm al shim pack will leave a t least two (2) threads
of the bolt exposed beyond the nut. If two (2) threads cannot
be obtained, check for dam aged control arm s and related
parts. The difference between front and rear shim packs
must not exceed 7.62mm (.30 inches). Front shim pack must
be at least 2.54m m (.10 inches).
4. Using one of the following rules, add or subtract fram e
angle found in step 1 to or from specification found in
step 3.
a. A dow n-in-rear fram e angle must be added to a
positive caster specification.
b. An up-in-rear fram e angle m ust be subtracted from
a positive caster specification.
c. A dow n-in-rear fram e angle must be subtracted from
a negative caster specification.
d. An u p -in -rear fram e angle m ust be added to a
negative caster specification.
Access to Shim Packs
G10-20 Models, CIO Models with 3/4" Nut:
W ith vehicle on front end rack, jack at fram e and raise
the wheel off the ground. This will allow the upper control
arm to pivot down far enough to use a socket on the nuts and
perm it shim removal.
3A-3
Vehicle caster specification should be adjusted to
answer arrived at in step 4.
Camber
G30 Models, C20 and 30 Models with 7 /8 " Nut:
Remove the upper control arm bum per; then follow the
sam e procedure as above. R einstall the upper control arm
bum per when alignm ent is completed.
1. D eterm ine the cam ber angle from the alignm ent
equipment.
2. Add or subtract shims from both the front and rear
bolts to affect a change.
PIVOT SHAFT OUTBOARD OF FRAME
CASTER
CAMBER
FORWARD
Fig. 3A-2--Caster - Camber Adjustment
LIG H T T R U C K SE RV IC E M AN U AL
3A-4
FRONT ALIGNMENT
Toe-In
"B ” IS LESS THAN “ A ” W H E N WHEELS TOE-IN
1. D eterm ine the wheel toe-in from the alignm ent
equipment.
2. Change the length of both tie rod sleeves to affect a toe
change.
Toe-in can be increased or decreased by changing the
length of the tie rods. A threaded sleeve is provided for this
purpose.
W hen the tie rods are mounted ahead of the steering
knuckle they m ust be decreased in length in order to
increase toe-in. W hen the tie rods are mounted behind the
steering knuckle they m ust be lengthened in order to
increase toe-in.
See Section 3B for proper tie rod clam p orientation and
positioning.
Fig. 3A-3--Toe-ln Adjustment
CROSSMEMBER
Fig. 3A-4-Determining Caster
LIG H T T R U C K SERVIC E M A N U A L
FRONT ALIGNMENT
3A-5
SPECIFICATIONS
WHEEL ALIGNMENT SPECIFICATIONS
CASTER
D IM E N S IO N " A "
MODELS
2 1/2"
2%
(mm)
6 3 .5
69 .8
C10
2.4°
2.1°
1.8°
1.5°
1.2°
1.0°
0.7°
0.5°
0.2°
0.1°
0.3°
C20, 30
1.5°
1.2°
0.9°
0.6°
0.3°
0.1°
0°
-0.1°
-0.7°
-1.0°
-1.2°
"
3"
3 %"
3 1/2"
3%
76.2
82.5
89.0
95.2
K10,20,30
(8°)
"
4”
474"
4 1/2"
4% "
5"
102.0 107.9 114.3 121.6 127.0
( N O A D J U S T M E :N T P R O V I S O N )
r / 2"
1% "
2"
21/4"
21/2"
2%"
3"
3% "
3 1/2"
3% "
4"
(mm)
38 .0
44 .4
51.0
57.1
63 .5
69.8
76 .2
82.5
89.0
95.2
102.0 107.9
G10, 20
3.5°
2.8C
3.3°
3.1°
2:2°
2.9°
2.7°
1.6°
2.4°
2.2C
2.1°
1.9°
1.0°
.7°
.5°
2 1/2"
2%
G30
(mm)
63 .5
P10
2.3°
(mm)
*P20, 30
2.5°
474"
1.9C
.2°
4%
4% "
1.8°
0°
5"
3"
3 1/4"
3 1/2"
3 3/4"
4"
69.8
76 .2
82.5
89.6
95.2
102.0 107.9 114.3 120.6 127.0
2.0°
1.7°
1.5°
1.2°
0.9°
0.6°
0.4°
"
4 1/2"
0.1°
2"
2 1/4"
21/2"
2 %"
3"
3V4"
3 1/2"
3 3/4" 4 "
51.0
57.1
63 .5
6 9 .8
76.2
82.5
89.0
95.2
2.9°
2.6°
2.3°
2.0°
1.7°
1.4°
1.2°
0.9°
"
-0.1°
4 1/4"
1.6°
-0.2°
-0 .3 *
41/2"
4% "
102.0 107.9 114.3 120.6
0.6°
0.4°
0.2°
0.1°
* A D D .3° W IT H J B 8 O R J F 9
S U B T R A C T .4° W IT H R 0 5
2%
(mm)
4 1/2"
3"
374"
3 1/2"
3% "
4"
63 .5
69.8
76.2
82.5
89.0
9 5.2
102.0 107.9 114.3 120.6 127.0
5.5°
5.3°
5.0°
4.7°
4.4°
4.1°
MOTOR HOME (32) 21/2"
"
4 1/4”
3.8°
3.6°
3.3°
4% "
3.1°
5"
2.9°
C A M BER
MODEL
.2°
C 10, 20, 30
1.0° ( N O A D J U S T M E N T P R O V I S I O N )
K 10, 20
K30
G 1 0 ,20
G30
P10, 20, 30
.5° (N O A D J U S T M E N T P R O V I S I O N )
.5°
.2°
.2°
.2°
M O T O R HO M E (32)
A L IG N M E N T T O L E R A N C E S
Warranty
Repair
Checking
Caster
C am ber
T o e -In
± 1°
± 0.7°
± 1 / 8 "(3 .2 m m )
T O E -IN
Periodic
M otor
C10, C20, C30
K10, K20, K 30
3 /1 6 "
Vehicle
Inspection
G10, G20, G 30
3 /1 6 "
(4.7 m m )
P10, P20, P30
3 /1 6 "
(4.7 m m )
± 0.5°
± 2°
M O T O R HO M E
± 0.5°
± 1.5°
5 /1 6 "
(7.9 m m )
Resetting
Target
P30 (32)
3 /1 6 "
(4.7 m m )
± 1 /1 6 "(1 .6 m m ) ± 3 / 8 "(9 . 5 m m )
Specifications
L IG H T T R U C K SE RV IC E M A N U A L
STEERING LINKAGE
3B1-1
SECTION 3B1
STEERING LINKAGE
T he following notice applies to one or more steps in the assembly
procedure of components in this portion of the m anual as indicated at
appropriate locations by the terminology "See N otice on page 1 of this
Section ".
N O TICE: These fasteners are im portant attaching parts in th a t they
could affect the perform ance of vital components and systems, an d /o r could
result in m ajor repair expense. They must be replaced with one of the same
part num ber or with an equivalent part if replacem ent becomes necessary. Do
not use a replacem ent part of lesser quality or substitute design. Torque
values m ust be used as specified during reassembly to assure proper retention
of these parts. For prevailing torque nut(s) and bolt(s), refer to the " Reuse of
Prevailing Torque N u t(s) and B olt(s)" chart in Section 10.
CONTENTS
G eneral D escription...................................................................................... 3B1-1
D iagnosis...........................................................................................................3B1-1
M aintenance and A d ju stm en ts...................................................................3B1-4
On-V ehicle S erv ice....................................................................................... .3B1-6
Tie R o d s...................................................................................................... .3B1-6
Relay R o d ....................................................................................................3B1-8
Idler A r m .....................................................................................................3B1-8
Pitm an A r m ............................................................................................... .3B1-9
Steering Connecting R o d ....................................................................... .3B1-9
GENERAL DESCRIPTION
The steering linkage is located forward of the front
crossmember. Refer to Fig. 3B1-1, for a typical system.
Steering effort is transm itted to left and right hand adjusta
ble tie rods through a relay rod. T he relay rod is connected to
an idler arm on the right and to the pitm an arm on the left.
DIAGNOSIS
Reference should be m ade to the correct method of
disassembly, repair, adjustm ent and reassembly. Dam aged,
broken or deformed parts must be replaced with the correct
replacem ent.
L IG H T TR U C K SERVICE M A N U A L
3B1-2
STEERING LINKAGE
CO N D ITIO N
POSSIBLE C A U SE
CORRECTIO N
Front wheel bearings loosely
adjusted.
Adjust bearings to obtain proper
end play.
Worn steering shaft couplings.
Replace part.
Worn upper ball joints.
Check and replace if necessary.
Steering wheel loose on shaft,
loose pitman arm, tie rods,
steering arms or steering linkage
ball studs.
Tighten to specified torque,
or replace if necessary.
Steering gear thrust bearings
loosely adjusted.
Adjust preload to specification.
Excessive over-center lash in
steering gear.
Adjust preload to specification.
Worn intermediate rod or tie rod
sockets.
Replace worn part.
Excessive looseness in tie rod
or intermediate rod pivots, or
excessive vertical lash in idler
support.
Seal damage and leakage
resulting in loss of lubricant,
corrosion and excessive wear.
Replace damaged parts as
necessary. Properly position upon
reassembly.
Excessive vertical lash
in idler arm
(P Series Motorhome)
Excessive end play in support
assembly.
Adjust end play.
Excessive Play or Looseness in
Steering System.
Fig. 3Bl-2--Steering Linkage Diagnosis Chart A
LIG H T T R U C K SERVICE M A N U A L
STEERING LINKAGE
CONDITIO N
Hard Steering - Excessive Effort
Required at Steering Wheel.
Poor Returnability.
PO SSIBLE C A U SE
3B1-3
CO RRECTIO N
Low or uneven tire pressure.
Inflate to specified pressures.
Steering linkage or bolt joints
need lubrication.
Lube with specified lubricant.
Tight or frozen intermediate rod,
tie rod or idler socket.
Lube replace or reposition
as necessary.
Steering gear to column
misalignment.
Align column.
Steering gear adjusted too
tightly.
Adjust over-center and thrust
bearing preload to
specification.
Front wheel alignment
incorrect, (manual gear)
Check alignment and correct
as necessary.
Steering linkage or ball joints
need lubrication.
Lube with specified
lubricant.
Steering gear adjusted too
tightly.
Adjust over-center and thrust
bearing preload to
specifications.
Steering gear to column
misalignment.
Align column.
Front wheel alignment
incorrect. (Caster)
Check alignment and correct
as necessary.
Fig. 3Bl-3--Steering Linkage Diagnosis Chart B
LIG H T T R U C K SERVICE M A N U A L
3B1-4
STEERING LINKAGE
MAINTENANCE AND ADJUSTMENTS
LUBRICATION
K-SERIES
LUBRICATION OF STEERING LINKAGE
The steering linkage under norm al conditions should be
lubricated with any w ater resistant EP type chassis lubri
cant every 7,500 miles (12 000 km ) or six m onths, whichever
occurs first. L ubricate every 3,000 miles (4 800 km) or two
months whichever occurs first when operating in dusty or
m uddy conditions or if th e vehicle is used "o ff-ro a d ".
Lubrication points and additional inform ation on the chassis
lubricant recom m ended can be found in Section 0 -G e n e ra l
Inform ation and Lubrication.
STEERING DAMPER CHECK
E R IN G D A M P E R
S T E E R IN G D A M P E R
(Fig. 3B1-4)
This type of steering dam per is nonadjustable, nonrefillable and is not repairable. A t each lubrication interval
m ake check # 1 and # 2 on the steering dam per system.
1. Inspecting Damper Mountings: C heck th e dam per
attachm ents to be sure they are properly and securely
installed. (T ig h ten , if loose). R eplace th e d am per
assembly if the rubber bushings are badly worn.
2. Inspecting Damper For Leaks: Inspect the dam per for
evidence of fluid leakage. A light film of fluid is
perm issible on the body of the dam per near the shaft
seal. A dripping d am per should be replaced.
If a Funtional or Noise C om plaint is R eported, M ake
the Following Inspections:
3. Inspecting Damper For Noise: Disconnect the fram e or
axle end of the dam per. Extend and compress the
dam per using as much travel as possible. The dam per
action should be smooth throughout each stroke.
4. Inspecting Damper For Functioning: W hile checking
the dam per in step (3) above, observe the operation of
LIG H T T R U C K SERVICE M A N U A L
MOTOR HOME
Fig. 3Bl-4--Steering Dampers
the dam per for fluid leakage, effort and lag. Items from
this check th at require dam per replacem ent are:
A.Any fluid leakage during this check.
B. Seizing or binding condition during travel of damper.
C.A skip or lag at reversal near m id-stroke of dam per.
5. Reinstall Disconnected End of Damper Using Proper
Torque.
STEERING LINKAGE
3B1-5
RELAY ROD
IDLER ARM
ASSEMBLY
TIE ROD
ASSEMBLY
l All clamps must be be tw ee n &
clear of dimples before torquing nut.
[ a ] [c a u t i o n
KNUCKLE
STEERING GEAR
|~B~| Exposed socket thread length must be
equal within ± . 0 6 at each end of a d
justing sleeve on L.H. & R.H. tie rod asm
PITMAN ARM
| C | All bolts must be installed in directions
shown ADJUSTABLE CONNECTING ROD
STEERING
ARM
IDLER ARM
ASSEMBLY
RELAY ROD
TIE ROD
ASSEMBLY
STEERING GEAR ^
ASSEMBLY
PITMAN
ARM
STEERING GEAR KNUCKLE
STEERING
ARM
G-SERIES
^
PITMAN ARM
X
K-SERIES
CONNECTING,
ROD
SUPPORT ASSEMBLY
SUPPORT PITMAN
ARM
,LEFT IDLER
ARM
RELAY ROD
IDLER ARM
ASSEMBLY
GEAR MOUNTING
BRACKET
STEERING GEAR
PITMAN ARM
KNUCKLE
TIE ROCr x
ASSEMBLY
P-SERIES
Fig. 3B1-5--Steering Linkage
LIG H T T R U C K SERVICE M A N U A L
3B1-6
STEERING LINKAGE
ON-VEHICLE SERVICE
NOTICE: See N O T IC E on page 1 of this section
regarding all fasteners referred to in servicing steering
linkage components.
TIE RODS
Removal
1. Raise vehicle on hoist.
2. Remove nuts from ball studs. The inner tie rod ends use
crim p nuts, while the outer ends use castellated nuts
and cotter pins.
3. To remove outer ball stud, tap on steering arm at tie rod
end with a ham m er while using a heavy ham m er or
sim ilar tool as a backing (Fig. 3 B 1-7).
4. Remove inner ball stud from relay rod using same
procedure as described in Step 3.
5. To remove tie rod ends from tie rod, loosen clam p bolts
and unscrew end assemblies.
Fig. 3B1 -7—Ball Stud Removal-Typical
Installation
NOTICE: See the N O T IC E on page 1 of this section
regarding the fasteners referred to in steps 4 and 6.
Tie rod adjuster com ponents often become rusted in
service. In such cases, it is recom m ended th at if the torque
required to remove the nut from the bolt after breakaw ay
exceed 7 pounds, discard the nuts and bolts. Apply penetrat
ing oil between the clam p and tube and rotate the clamps
until they move freely. Install new bolts and nuts having the
same part num ber to assure proper clam ping at the specified
nut torque.
PRODUCTION NUT
IMPORTANT
WHENEVER ANY OF THE CRIMP NUTS OR STUDS AT THE (5) LOCATIONS SHOWN ARE LOOSENED OR
REMOVED, THE FOLLOWING STEPS MUST BE TAKEN:
A. WHEN RE-ATTACHING ANY TWO COMPONENTS BY MEANS OF A BALL STUD, CAREFULLY POSITION
THE TWO PARTS. THEN IN STALL A FREE-SPINNING NUT, AND DRAW THE ITEMS TOGETHER TO SEAT
THE TAPER, TORQUE NUT TO 54 N m (40 FT-LBS), THEN REMOVE NUT.
B. THEN USE A TORQUE PREVAILING SERVICE REPLACEMENT NUT (#351249) AND TORQUE TO
90 N-m (66 FT-LBS),
Fig. 3Bl-6--Typical Crimp Nut Locations
L IG H T T R U C K SERVICE M A N U A L
STEERING LINKAGE
NOTE S lo t in adjuster
sleeve m ust n o t be
w itn in th is area o f
cla m p jaws.
C A U TIO N
Clam ps m ust be between
& clear o f d im ples before to rq u in g n u t.
T IE ROD A D JU S T E R
SLEEVE
SLO T
REARW ARDR O T A T IO N
NOTE Locate clam ps
w itn in to le ra n ce show n.
VIEW
3B1-7
A
RELAY
O UTER
S T E E R IN G K N U C K L E
NOTE Equal w ith in th re e threads,
m ust be visib le at inner and o u te r
ends o f ad ju ster sleeve when assembled
to steering k n u ckle .
NOTE Locate clam ps
w itn in to le ra n ce shown.
•TIG H T
NOTE S lo t in a djuster
sleeve m ust n o t be w ith in
th is area o f cla m p jaws.
H O R IZ O N T A L
L IN E
A
.005
M IN . G AP
C A UTIO N C lam p ends m ay
to u c h when nuts are to rq u e d
to sp e cifica tio ns, b u t gap
adjacent to ad ju ster sleeve
m ust n o t be less th a n
m in im u m dim ension show n.
VIEW
B
C,K & P
A D JU S TE R
SLEEVE SLO T
REARW ARD
R O T A T IO N
V IEW
A
C A UTIO N C lam p ends m ay
to u c h when nuts are to rq u e d
to s p e cifica tio n s, b u t gap
adjacent to a d ju ster sleeve
m ust n o t be less th a n
m in im u m d im en sio n show n.
VIEW
B
Fig. 3Bl-8--Tie Rod Clamp Relationship
As a guide to correct orientation of the inner tie rod end
relative to the outer tie rod end, rotate both ends to the
extrem es of travel in the sam e direction before clamping.
The position of each tie rod end m ust be m aintained as the
clam ps are tightened to ensure free movement of each joint.
R eturn the rod assembly to midposition of its travel. This
should result in the inner and outer ball studs being retained
in a parallel relationship with the interm ediate (relay) rod
and steering knuckle (arm ) respectively. T he following
procedure should be used when installing tie rods.
5. A djust toe-in as described in Section 3A.
Before tightening the tie rod adjusting sleeve clam p
bolts, be sure th at the following conditions have been met:
a. The sleeve clam ps m ust be positioned between the
locating dimples at either end of the sleeve.
b. The clam ps m ust be positioned within the angular
travel indicated in Figure 3B1-8.
1. If the tie rod ends were removed, lubricate the tie rod
threads with EP Chassis lube and install ends on tie rod
m aking sure both ends are threaded an equal distance
from the tie rod.
2. M ake sure th at threads on ball studs and in ball stud
nuts are clean and smooth. If threads are not clean and
smooth, ball studs may turn in tie rod ends when
attem pting to tighten nut. Check condition of ball stud
seals; replace if necessary. Tool J-24434 may be used to
install ball stud seals.
3. Install ball studs in steering arm s and relay rod. F o r
the inner tie rod ends, use a free-spinning % - 1 8 nut to
seat the ta p e rs, p e r Fig. 3 B 1-6.
4. A t th e ou ter tie rod ends, install a ball stud n u t, tighten
to 70 N*m (50 lb. ft.), and install new c o tter pins.
L u b ricate tie rod ends.
Fig. 3B1 -9—Tie Rod Inspection
LIG H T TR U C K SERVICE M A N U A L
3B1-8
STEERING LINKAGE
c. The relationship of the clam p slot with the slit in the
sleeve should be m aintained as shown in Figure 3B18.
d. R otate both inner and outer tie rod housing rearw ard
to the lim it of ball jo in t travel before tightening
clam ps. Tighten clam ps to specifications. R eturn tie
rod assem bly to the center of travel.
e. All procedures for alignm ent, adjustm ent and assem
bly of tie rods applies to each side.
f. Check each assem bly to be sure th at a total travel of
at least 35° can be obtained using a bubble protractor
and a pair of vise grips (Fig. 3B1-9).
Inspection
To ensure proper installation, it is necessary to perform
the following inspection after any change of toe setting or
removal of any ball stud:
1. Check the total rotation of the tie rod assembly using
the following procedure:
a. L ubricate inner and outer tie rod ends.
b. A ttach vise grip pliers to the outer tie rod end.
c. R otate outer tie rod end counterclockwise (up) to
m axim um position. A ttach bevel protractor as shown
in Figure 3B1-9. C enter protractor bubble indicator
and record reading.
d. R otate tie rod end clockwise (down) to m axim um
position. C e n te r p ro tra c to r bubble in d icato r and
record reading.
e. Compare protractor readings obtained in Steps c
and d. Total rotation o f tie rod assem bly should
measure at least 35°.
f. If rotation is less th an 35°, loosen one tiS rod sleeve
clam p and rotate both tie rod ends to their m axim um
lim it both ends must be rotated in the same direction.
g. Tighten tie rod clam p and again rotate both ends to
their m axim um limits, repeating Steps c and d. This
recheck of total rotation will result in a m inim um of
35° travel.
h. A fter obtaining the correct am ount of rotation (35°
or g reater), position the outer tie rod end approx
im ately m idway in this travel.
Installation
NOTICE: See the N O T IC E on page 1 of this section
regarding the fasteners referred to in steps 2 and 3.
1. M ake sure th at threads on the ball studs and in the ball
stud nuts are clean and smooth. If threads are not clean
and sm ooth, ball studs m ay tu rn in sockets when
attem pting to tighten nut. Check condition of ball stud
seals; replace if necessary.
2. Install the relay rod to the idler arm and pitm an arm
ball studs, m aking certain th e seals are in place. U se a
free-spinning nut to seat the ta p ers, p er Fig. 3 B 1 -6 .
Install the tie rods to the relay rod as previously
described under "T ie Rod- In stallatio n ". L ubricate the
tie rod ends.
4. Lower the vehicle to the floor.
5. A djust toe-in (see Section 3A) and align steering wheel
as described previously in Section 3 B 4 under "S teering
W heel A lignm ent and High Point C en tering".
3.
IDLER ARM (EXCEPT P SERIES MOTORHOME)
Use of the proper diagnosis and checking procedure is
essential to prevent needless replacem ent of good idler arms.
1. Raise the vehicle in such a m anner as to allow the front
wheels to rotate freely and the steering mechanism
freedom to turn. Position the wheels in a straight ahead
position.
2. Using a push pull type spring scale located as near the
relay rod end of the idler arm as possible, exert a 25 lb.
force upward and then downward while noticing the
total distance the end of the arm moves. This distance
should not exceed ± 1 /8 inch for a total acceptable
movement of 1/4 inch (Figure 3B1-10). It is necessary
to ensure th at the correct load is applied to the arm
since it will move more when higher loads are applied.
If rotating checks, outlined above, reveal a rough or
lumpy feel, the inner or outer tie rod end assembly m ay have
excessive w ear and should be replaced.
If all of the above m entioned conditions are m et, proper
tie rod installation is assured.
RELAY ROD
Removal
1. Raise vehicle on hoist.
2. Remove inner ends of the tie rods from relay rod as
described under "T ie R od-R em oval".
3. Remove the nuts from the pitm an and idler arm ball
studs a t the relay rod.
4. Remove the relay rod from the pitm an and idler arm s
by tapping on the relay rod ball stud bosses with a
ham m er, while using a heavy ham m er as a backing
(Fig. 3B1-7).
5. Remove the relay rod from the vehicle.
LIG H T T R U C K SERVICE M A N U A L
Fig. 3B1-10--Checking Idler Movement, Typical
STEERING LINKAGE
It is also necessary th a t a scale or ruler be rested
against the fram e and used to determ ine the am ount of
movement since observers tend to over-estim ate the
actual movement when a scale is not used. The idler
arm should always be replaced if it fails this test.
Jerking the right front wheel and tire assembly back
and forth, thus causing an up and down movement in the
idler arm is not an acceptable m ethod of checking since
there is no control on the am ount of force being applied.
C aution should be used in assum ing shimmy com
plaints are caused by loose idler arm s. Before suspecting
suspension or steering com ponents, techn icians should
elim in ate shim m y excitation facto rs, such as dynam ic
im balance, run-out or force variation of wheel and tire
assem blies and road surface irregularities.
Removal
1. Raise vehicle on a hoist.
2. Remove the nut from ball stud at the relay rod. Remove
the ball stud from the relay rod by tapping on the relay
rod boss with a ham m er, while using a heavy ham m er
as a backing (Fig. 3B1-7).
3. Remove the idler arm to fram e bolt and remove the
idler arm assembly.
Installation
NOTICE: See the N O T IC E on page 1 of this section
regarding the fasteners referred to in steps 1 and 3.
1. Position the idler arm on the fram e and install the
m ounting bolts (special plain w ashers under bolt
heads); torque the nuts to specifications.
2. M ake sure th at the threads on the ball stud and in the
ball stud nut are clean and smooth. If threads are not
clean and smooth, ball stud m ay turn in the socket
when attem pting to tighten nut. Check condition of ball
stud seal; replace if necessary.
3. Install th e idler arm ball stud in th e relay rod, making
certain the seal is positioned properly. U se a %-18
free-spinning nut to seat th e tap ers, p er Fig. 3B1-6.
4. Lower the vehicle to the floor.
IDLER ARM — P SERIES MOTORHOME
T he fram e m ounted idler su p p o rt assem bly is adjusta
ble for su p p o rt shaft end play. C h eck for idler arm m ove
m ent at the relay rod end as indicated above. If the m ove
m ent at the end o f the arm ex ceed s ± 1/16 inch (1/8 inch
total m ovem ent), readjust the support shaft end-play as
follows:
1. L o o sen the su p p o rt assem bly ja m nut.
2. Tighten the adjusting plug to m etal-to-m etal contact.
3. B ack off the adjusting plug Vs o f a turn (Vi of a flat on
the square nut, o r 45°).
4. R etorque th e ja m nut to 25-35 ft. lb s., while taking care
th at the adjusting plug does not rotate.
PITMAN ARM
Removal
1. Raise vehicle on hoist.
2. Remove nut from pitm an arm ball stud.
3. Remove pitm an arm or relay rod from ball stud by
3B1-9
tapping on side of rod or arm (in which the stud
mounts) with a ham m er while using a heavy ham m er or
sim ilar tool as a backing. Pull on linkage to remove
from stud.
4. Remove pitm an arm nut from pitm an shaft or clam p
bolt from pitm an arm , and m ark relation of arm
position to shaft.
5. Remove pitm an arm , using Tool J-6632 or J-5504.
Installation
NOTICE: See the N O T IC E on page 1 of this section
regarding the fasteners referred to in steps 3 and 4.
1. Install pitm an arm on pitm an shaft, lining up the marks
made upon removal.
NOTICE: If a clam p type pitm an arm is used, spread the
pitm an arm ju st enough, with a wedge, to slip arm onto
pitm an shaft. Do not spread pitm an arm more than
required to slip over pitm an shaft with hand pressure.
Do not ham m er or dam age to steering gear may result.
Be sure to install the hardened steel washer before
installing the nut.
2. M ake sure th a t threads on ball studs and in ball stud
nuts are clean and smooth. If threads are not clean and
smooth, ball studs may turn in sockets when attem pting
to tighten nut. C heck condition of ball stud seals;
replace if necessary.
3. Install pitm an shaft nut or pitm an arm clam p bolt and
torque to specifications.
4. Position ball stud onto pitm an arm or relay rod. U se a
%-18 free-spinning nut to seat the tap ers, p er Fig.
3B1-6.
Lubricate ball studs.
Lower the vehicle to the floor.
STEERING CONNECTING ROD (K MODELS ONLY)
Removal
1. Remove cotter pins from ball studs, and then remove
the castellated nuts.
2. Remove ball studs from steering arm and pitm an arm
boss with a heavy ham m er and striking other side of
boss with lighter ham m er (sim ilar to method shown in
(Fig. 3B1-7).
Installation
NOTICE: See the N O T IC E on page 1 of this section
regarding the fasteners referred to in step 3.
1. M ake sure th a t threads on ball studs and in ball stud
nuts are clean and smooth. If threads are not clean and
smooth, ball studs may turn in connecting rod when
attem pting to tighten nut. Check condition of ball stud
seals-replace if necessary.
2. Install ball studs in steering arm and pitm an arm . (Be
sure to install the long end of the connecting rod
assembly to the pitm an arm , as shown in Fig. 3B1-5).
3. Install ball stud nuts and torque to specifications.
Never back off nut to align cotter pin, always tighten
nut to next slot th a t lines up with hole in stud.
4. Install cotter pins and lubricate ball studs. For proper
alignm ent and orientation of connecting rod clam ps see
Figure 3B 1-11.
LIG H T T R U C K SERVICE M A N U A L
3B1-10
STEERING LINKAGE
SPECIFICATIONS AND SPECIAL TOOLS
R efer to Specifications and Special Tools at end of
Section 3B4.
CAUTION: ENDS OF ADJUSTABLE
TIE ROD MUST BE HELD IN CORRECT
RELATIONSHIP TO EACH OTHER
AFTER ADJUSTMENT WITHIN + 2°.
CAUTION: CLAMPS MUST BE
BETWEEN AND CLEAR OF
DIMPLES BEFORE T0RQUIN6
NUT.
NOTE: STEERING CONNECTING
ROD MUST BE INSTALLED WITH
LONG END FORWARD.
STEERING GEAR
ASSEMBLY
.10
CLAMP
V IE W
A
NOTE: SLOT O F -----ADJUSTER TUBE MAY
BE IN ANY POSITION
ON ARC SHOWN BUT NOT
CLOSER THAN .10 TO THE EDGE
OF CLAMP JAWS OR BETWEEN THEM.
Fig. 3B1-11--Adjustable Connecting Rod Assembly-K Series
LIG H T T R U C K SERVICE M A N U A L
ADJUSTER TUBE
MANUAL STEERING GEAR
3B2-1
SECTION 3B2
MANUAL STEERING GEAR
The following notice applies to one or more steps in the assembly
procedure of com ponents in this portion of the m anual as indicated at
appropriate locations by the terminology "See N otice on page 1 of this
S ection".
N O TICE: This fastener is an im portant attaching part in th at it could
affect the perform ance of vital components and systems, an d /o r could result
in m ajor repair expense. It must be replaced with one of the same part
num ber or with an equivalent part if replacem ent becomes necessary. Do not
use a replacem ent part of lesser quality or substitute design. Torque values
m ust be used as specified during reassem bly to assure proper retention of this
part.
CONTENTS
G eneral D escription.....:.................................................................................3B2-1
D iagnosis.................................. ........................................................................3B2-1
M aintenance and A d ju stm e n ts................................................................. .3B2-4
On-V ehicle S erv ice....................................................................................... .3B2-5
M anual Steering G e a r............................................................................. .3B2-5
Pitm an S haft S eal......................................................................................3B2-6
S pecifications.................................................................................................. .3B2-7
Special T ools....................................................................................................3B2-7
GENERAL DESCRIPTION
The steering gear is of the recirculating ball type. This
gear provides for ease of handling by transm itting forces
from the w orm shaft to the pitm an shaft through the use of
ball bearings.
DIAGNOSIS
This section contains diagnostic inform ation to help
locate the cause of steering problems that may be related to
the m anual steering gear. Reference should be m ade to the
correct m ethod of disassem bly, repair, a d ju stm en t and
reassembly. D am aged, broken or deformed parts m ust be
replaced with the correct replacem ent.
Fig. 3B2-1--Manual Steering Gear
LIG H T T R U C K SERVICE M A N U A L
3B2-2
MANUAL STEERING GEAR
C O N D IT IO N
P O S S IB L E C A U SE
Rattle or Chuck in Steering Gear.
Insufficient or improper lubricant
in steering gear.
Add lube specified.
Pitman arm loose on shaft or
steering gear mounting bolt loose.
Tighten to specified torque.
Loose or worn steering shaft
bearing.
Replace steering shaft bearing.
Excessive over-center lash or
worm thrust bearings adjusted
too loose.
Adjust steering gear to specified
preloads.
C O R R E C T IO N
NOTE: On turns a slight rattle
may occur, due to the increased
lash between ball nut and pitman
shaft as gear moves off the center
of “high point” position. This is
normal and lash must not be
reduced to eliminate this slight
rattle.
Poor Returnability
Steering column misaligned.
Align column.
Insufficient or improper lubricant
in steering gear or front suspension.
Lubricate as specified.
Steering gear adjusted too tight.
Adjust over-center and thrust
bearing preload to specifications.
Front wheel alignment incorrect
(Caster)
Adjust to specifications.
1
Fig. 3B2-2--Manual Gear Diagnosis Chart A
LIG H T T R U C K SERVICE M A N U A L
MANUAL STEERING GEAR
C O N D IT IO N
Excessive Play or Looseness in
Steering System.
Hard Steering Excessive Effort
Required at Steering Wheel
P O S S IB L E C A U S E
3B2-3
C O R R E C T IO N
Front wheel bearings loosely
adjusted.
Adjust to obtain proper end play.
Worn upper ball joints.
Check and replace ball joints
if necessary.
Steering wheel loose on shaft,
loose pitman arm, tie rods,
steering arms or steering
linkage ball nuts.
Tighten to specification, replace
if worn or damaged.
Excessive over-center lash.
Adjust over-center preload to
specifications.
Worm thrust bearings
loosely adjusted.
Adjust worm thrust bearing preload
to specifications.
Low or uneven tire pressure.
Inflate to specified pressures.
Insufficient or improper lubricant
in steering gear or front
suspension.
Lubricate as specified. Relubricate at specified intervals.
Steering shaft flexible coupling
misaligned.
Align column and coupling.
Steering gear adjusted too tight.
Adjust over-center and thrust
bearing preload to specifications.
Front wheel alignment
incorrect. (Manual Gear)
Adjust to specifications.
Fig. 3B2-3~Manual Gear Diagnosis Chart B
LIG H T TR U C K SERVICE M A N U A L
3B2-4
MANUAL STEERING GEAR
MAINTENANCE AND ADJUSTMENTS
LUBRICATION OF MANUAL STEERING GEAR
The m anual steering gear is factory-filled with steering
gear lubricant. Seasonal change of this lubricant should not
be perform ed and the housing should not be drained-no
lubrication is required for the life of the steering gear.
According to the intervals listed in Section OB, the
m anual gear should be inspected for seal leakage (actual
solid grease - not just oily film). If a seal is replaced or the
gear is overhauled, the gear housing should be refilled with
1051052 (13 oz. container) Steering Gear Lubricant which
meets GM Specification GM 4673M , or its equivalent.
NOTICE: Do not use EP Chassis Lube, which meets G M
Specification G M 6 0 3 1M, to lubricate the gear DO
NOT OVER-FILL the gear housing, or dam age may
occur to the gear.
ADJUSTMENT OF MANUAL STEERING GEAR
NOTICE: See N o tice on page one of this section
regarding the fasteners referred to in steps 9d and 10.
6. Turn the steering wheel gently in one direction until
stopped by the gear; then turn back one-half turn.
NOTICE: Do not turn the steering wheel hard against
the stops when the steering linkage is disconnected
from the gear as dam age to the ball guides could result.
7. M easure and record "bearing d rag " by applying a
torque wrench with a socket on the steering wheel nut
and rotating through a 90° arc (Fig. 3B2-6). Do not use
a torque wrench having a m axim um torque reading of
more than 50 inch pounds.
8. A djust " th ru s t bearing p relo ad " by tig htening the
adjuster plug until the proper "th ru st loading preload"
is obtained (See specifications section). W hen the
proper preload has been obtained, tighten the adjuster
plug locknut to specifications and recheck torque. If the
gear feels "lum py" after adjustm ent, there is probably
dam age in the bearings due to severe im pact or
Before any adjustm ents are m ade to the steering gear
attem pt to correct com plaints of loose or hard steering, or
other wheel disturbances, a careful check should be m ade of
front end alignm ent, shock absorbers, wheel balance and
tire pressure for possible steering system problems. See
Diagnosis earlier in this section.
C orrect adjustm ent of steering gear is very im portant.
W hile th e re are but two ad ju stm en ts to be m ade, the
following procedure must be followed step-by-step in the
order given.
1. Disconnect the b attery ground cable.
2. Raise the vehicle.
3. Remove the pitm an arm nut. M ark the relationship of
the pitm an arm to th e pitm an shaft. Rem ove the
pitm an arm with Tool J-6632 or J-5504 as shown in
Figure 3B2-4.
4. Loosen the steering gear adjuster plug locknut and
back the adjuster plug off 1/4 turn (Fig. 3B2-5).
5. Remove the horn shroud or button cap.
Fig. 3B2-4--Removing Pitman Arm
LIG H T T R U C K SERVIC E M A N U A L
Fig. 3B2-6--Checking Torque at Steering Wheel
MANUAL STEERING GEAR
improper adjustm ent; the gear m ust be disassembled
and inspected for replacem ent of dam aged parts.
9. A djust "over-center preload" as follows:
a. T urn the steering wheel gently from one stop all the
way to the other carefully counting the total num ber
of turns. T urn the wheel back exactly half-way, to
center position.
b. T urn the lash adjuster screw clockwise to take out all
lash between the ball nut and pitm an shaft sector
teeth and then tighten the locknut.
c. C heck the torque at the steering wheel, taking the
highest reading as the wheel is turned through center
position. See Specifications for proper over-center
preload.
d. If necessary, loosen locknut and readjust lash ad
ju ster screw to obtain proper torque. Tighten the
locknut to specifications and again check torque
reading through center of travel. If m axim um speci
fication is exceeded, turn lash adjuster screw coun
terclockwise, then come up on adjustm ent by turning
. the adjuster in a clockwise motion.
10. Reassem ble the pitm an arm to the pitm an shaft, lining
up the m arks m ade during disassembly. Torque the
pitm an shaft nut to specifications.
If a clam p type pitm an arm is used, spread the pitm an
arm ju st enough, with a wedge, to slip the arm onto the
pitm an shaft. Do not spread the clam p more than
required to slip over pitm an shaft with hand pressure.
Do not ham m er the pitm an arm onto the pitm an shaft.
Be sure to install the hardened steel washer before
installing the nut.
ON-VEHK
STEERING GEAR
Removal
1. S et the front wheels in s tra ig h t ahead position by
driving vehicle a short distance on a flat surface.
3B2-5
11. Install the horn button cap or shroud and connect the
battery ground cable.
12. Lower the vehicle to the floor.
STEERING GEAR HIGH POINT CENTERING
1. Set front wheels in straight ahead position. This can be
checked by driving vehicle a short distance on a flat
surface to determ ine steering wheel position at which
vehicle follows a straight path.
2. W ith front wheels set straight ahead, check position of
m ark on w orm shaft designating steering gear high
point. This m ark should be at the top side of the shaft at
12 o’clock position and lined up with the m ark in the
coupling lower clamp.
3. On C, G and P series, if the gear has been moved off
high point when setting wheel in stra ig h t ahead
position, loosen adjusting sleeve clamps on both left and
right hand tie rods. Then turn both sleeves an equal
num ber of turns in the same direction to bring gear
back on high point.
Turning the sleeves an unequal num ber of turns or in
different directions will disturb the toe-in setting of the
wheels.
4. On K series, if the gear has been moved off' high point
when setting wheels in straight ahead position, loosen
adjusting sleeve clamps on the connecting rod. Then
turn sleeve to bring gear back on high point.
5. R eadjust toe-in as outlined in Section 3A (if
necessary).
6. Be sure to properly orient sleeves and clamps when
fastening
and
torqueing
clam ps
to
proper
specifications.
1 SERVICE
2. Remove the flexible coupling to steering shaft flange
bolts (C-K models) or the lower universal joint pinch
bolt (P models). M ark the relationship of the universal
yoke to the worm shaft.
3. M ark the relationship of the pitm an arm to the pitm an
shaft. Remove the pitm an shaft nut or pitm an arm
pinch bolt and then remove the pitm an arm from the
pitm an shaft using Puller J-6632 (Fig. 3B2-9).
L IG H T T R U C K SE RV IC E M A N U A L
3B2-6
MANUAL STEERING GEAR
4. Remove the steering gear to fram e bolts and remove
the gear assembly.
5. C-K Models - Remove the flexible coupling pinch bolt
and rem ove the coupling from the steering gear
worm shaft.
Installation
NOTICE: See N O T IC E on page 1 o f this section
regarding the fasteners referred to in steps la , lc, Id,
le, 2b, 2c and 3.
1. C-K Models
3. Install the pitm an arm onto the pitm an shaft, lining up
the m arks made at removal. Install the pitm an shaft
nut or pitm an arm pinch bolt and torque to
specifications.
If a clam p type pitm an arm is used, spread the pitman
arm just enough, with a wedge, to slip the arm onto the
pitm an shaft. Do not spread the clam p more than
required to slip over pitm an arm onto the pitm an shaft.
Be sure to install the hardened steel washer before
installing the nut.
PITMAN SHAFT SEAL REPLACEMENT
a. Install the flexible coupling onto the steering gear
w orm shaft, aligning the flat in the coupling with the
flat on the shaft. Push the coupling onto the shaft
until the w orm shaft bottom s on the coupling rein
forcem ent. In stall th e pinch bolt and torq u e to
specifications. The coupling bolt m ust pass through
the shaft undercut.
b. Place the steering g ear in position, guiding the
coupling bolt into the steering shaft flange.
c. Install the steering gear to fram e bolts and torque to
specifications.
d. If flexible coupling alignm ent pin plastic spacers
were used, m ake sure they are bottom ed on the pins,
torque the flange bolt nuts to specifications and then
remove the plastic spacers.
e. If flexible coupling alignm ent pin plastic spacers
were not used, center the pins in the slots in the
steering shaft flange and then install and torque the
flange bolt nuts to specifications.
2. P Models
a. Place the steering g ear in position, guiding the
w orm shaft into th e universal jo in t assem bly and
lining up the m arks m ade at removal. If a new gear
was installed, line up the m ark on the w orm shaft
with the slit in the universal joint yoke.
A faulty seal may be replaced without removal of
steering gear from C, G and P trucks by removing pitm an
arm as outlined under M aintenance and A djustm ents Steering G ear A djustm ents and proceed as follows:
On K series vehicles remove the gear from the vehicle
first.
1. R otate the steering wheel from stop to stop, counting
the total num ber of turns. Then turn back exactly half
way, placing the gear on center (the w orm shaft flat
should be at the 12 o’clock position).
2. Remove the three self-locking bolts a tta ch in g side
cover to the housing and lift the pitm an shaft and side
cover assembly from the housing.
3. Pry the pitm an shaft seal from the gear housing using a
screw driver and being careful not to dam age the
housing bore. See Fig. 3B2-10.
NOTICE: Inspect the lubricant in the gear for contam i
nation If the lubricant is contam inated in any way, the
gear m ust be removed from the vehicle and completely
overhauled as outlined in the U nit R epair M anual, or
dam age to the gear could result.
b. Install the steering gear to fram e bolts and torque to
specifications.
4. Coat the new pitm an shaft seal with Steering G ear
Lubricant meeting GM Specification G M 4673M (or
equivalent). Position the seal in the pitm an shaft bore
and tap into position using a suitable size socket.
c. Install the universal joint pinch bolt and torque to
specification. The pinch bolt m ust pass through the
shaft undercut.
5. Remove the lash adjuster lock nut. Remove the side
cover from the pitm an shaft assembly by turning the
lash adjuster screw clockwise.
TOOL—J-5504
Fig. 3B2-9--Removing Pitman Arm-Typical
LIG H T T R U C K SERVICE M A N U A L
MANUAL STEERING GEAR
6. Place the pitm an shaft in the steering gear such th at the
center tooth of the pitm an shaft sector enters the center
tooth space of the ball nut.
7. Fill th e steering gear housing with S teerin g G ear
L ubricant meeting G M Specification G M 4673M (or
equivalent).
8. Install a new side cover gasket onto the gear housing.
9. Install the side cover onto the lash adjuster screw by
reaching through the threaded hole in the side cover
with a small screwdriver and turning the lash adjuster
screw counter- clockwise until it bottom s and turns
back in 1/4 turn.
3B2-7
10. Install the side cover bolts and torque to specifications.
11. Install the lash adjuster screw locknut, perform steerin
gear adjustm ent and install the pitm an arm as outllined
under " M aintenance and A djustm ents".
On K series install the gear into the vehicle using
previously outlined procedure.
SPECIFICATIONS AND SPECIAL TOOLS
Refer to Specifications and Special Tools at end of
Section 3B4.
L IG H T TR UC K SE RV IC E M AN U AL
POWER STEERING SYSTEM
3B3-1
SECTION 3B3
POWER STEERING SYSTEM
The following notice applies to one or more steps in the assembly
procedure of com ponents in this portion of the m anual as indicated at
appropriate locations by the term inology "See N otice on page 1 of this
S ection".
N O TICE: This fastener is an im portant attaching part in th at it could
affect the perform ance of vital components and systems, an d /o r could result
in m ajor repair expense. It m ust be replaced with one of the same part
num ber or with an equivalent part if replacem ent becomes necessary. Do not
use a replacem ent part of lesser quality or substitute design. Torque values
m ust be used as specified during reassem bly to assure proper retention of this
part.
CONTENTS
G eneral D escription..........................................................................................3B3-1
D iagnosis............................................................................................................ .3B3-2
M aintenance and A d ju stm e n ts.....................................................................3B3-10
On-V ehicle S erv ice.............................................................................. ............3B3-12
Power Steering G e a r ...................................................................................3B3-12
Power Steering P u m p ................................................................................ .3B3-13
Power Steering H oses................................................................................ .3B3-15
S p ecifications.................................................................................................... .3B3-15
Special T o o ls..................................................................................................... .3B3-15
GENERAL DESCRIPTION
The steering gear is of the recirculating ball type. This
gear provides for ease of handling by transm itting forces
from the w orm shaft to the pitm an shaft through the use of
ball bearings.
Fig. 3B3-1--Power Steering System
L IG H T T R U C K SE RV IC E M AN U AL
3B3-2
POWER STEERING SYSTEM
POWER STEERING PUMP
1. DRIVE SHAFT
13. RING, Shaft Retainer
2 SEAL
14. VANE KIT, Rotor
3 SEAL, Reservoir "O " Ring
15. RING KIT, Pump Rotor
4. HOUSING ASSEM BLY
16. PLATE, Pressure
5 . SEAL
17. SPRING, Pressure Plate
6. PIN, Pump Ring Dowel
18. PLATE, Pump Housing End
7. PLATE Thrust
19. RING, End Plate Retaining
8 CAP Filler
20. SEAL. Reservoir
9 VALVE ASSEMBLY, Flow Control 21. RESERVOIR ASSEMBLY
10. SPRING, Flow Control
22. BOLT
11. SEAL
23. SEAL
12 ROTOR, Pump
24. FITTING, W Orifice
Fig. 3B3-2 -- Pump and G ear Cross-Section
DIAGNOSIS (FIGS. 3B3-3 THROUGH 3B3-8)
System Checks
Com plaints of faulty steering are frequently the result
of problems other than the steering gear or pump. Those
areas of the steering system which can be easily checked and
quickly corrected w ithout disassem bly and overhaul of any
major components should be attem pted first.
M any factors affect power operation of the steering
system, of which the most common are:
1. Fluid level and condition.
2. Drive belt tension.
3. Loose component mountings.
4. Loose pump pulley.
Conditions such as hard or loose steering, road shock or
vibrations are not always due to the steering gear or pump,
but are often related instead to such factors low tire pressure
and front end alignm ent. These factors should be checked
and corrected before any ad justm ent or disassem bly of the
power steering gear or pump is attem pted.
LIG H T T R U C K SERVIC E M A N U A L
These factors must be checked and corrected before
making any further diagnosis of the steering system. The
need for proper diagnosis cannot be over-emphasized.
A fter the source of the problem has been found,
determ ine the cause. For example, if the oil level in the
reservoir is found to be low, refill and check the entire
hydraulic system for oil leaks. Refilling the reservoir will not
necessarily correct the problem.
POWER STEERING SYSTEM
CONDITION
POSSIBLE CAUSE
3B3-3
CORRECTION
S Y ST E M N O IS E
There is some noise in all power
steering systems.
Common complaints are listed as
follows:
Pump noise-“chirp” .
Loose belt.
Adjust belt tension to specification.
Belt squeal.
Loose belt.
Adjust belt tension to specification.
Gear noise (“ hissing” sound)
There is some noise in all power steer
ing systems. One of the most common
is a hissing sound most evident at
standstill parking. There is no relation
ship between this noise and perfor
mance of the steering. “ Hiss” may be
expected when steering wheel is at end
of travel or when slowly turning at
standstill.
Do not replace valve unless “ hiss” is
extremely objectionable. Slight “ hiss”
is normal and in no way affects steer
ing. A replacement valve will also exhi
bit slight noise and is not always a cure
for the objection, investigate clearance
around flexible coupling rivets. Be
sure steering shaft and gear are aligned
so flexible coupling rotates in a Hat
plane and is not distorted as shaft ro
tates. Any metal-to-metal contacts
through flexible coupling will transmit
“hiss” into passenger compartment.
Also, check for proper sealing between
steering column and toe pan.
Rattle.
Pressure hose touching other parts of
car.
Adjust hose position.
Loose pump pulley nut
Replace nut, torque to specs.
Pump vanes not installed properly.
Install properly.
Pump vanes sticking in rotor slots.
Free up by removing burrs, varnish or
dirt.
Improper over-center adjustment
Adjust to specifications.
Gear noise (rattle or chuckle).
NOTE: A slight rattle may occur on
turns because of increased clearance
off the “ high point” . This is normal
and clearance must not be reduced
below specified limits to eliminate this
slight rattle.
Loose pitman arm.
Tighten to specifications
Gear loose on frame.
Check gear-to-frame mounting bolts.
Tighten bolts to 70 foot-pounds.
Rattle or chuckle.
Steering linkage looseness.
Check linkage pivot points for wear.
Replace if necessary.
Groan.
Low oil level.
Fill reservoir to proper level.
Groan.
Air in the oil. Poor pressure hose
connection.
Bleed system by operating steering
from right to left
full turn.
Check connections, torque to specs.
Growl.
Excessive back pressure caused by
hoses or steering gear, (restriction)
Locate restriction and correct. Replace
part if necessary.
Fig. 3B3-3--Power Steering System Diagnosis Chart A
LIG H T T R U C K SERVIC E M A N U A L
3B3-4
POWER STEERING SYSTEM
CONDITION
POSSIBLE CAUSE
CORRECTION
Scored pump pressure plates, thrust
plate or rotor.
Replace affected parts, flush system.
Extreme wear of pump cam ring.
Replace affected parts.
Swish in pump
Defective pump flow control valve
Replace valve
Whine in pump
Pump shaft bearing scored.
Replace housingand shaft, flush system
Squawk in gear (not belt)
D am per “ 0 ” ring on valve spool cut
Replace “0 ” ring.
Pump growl
Note: Most noticeable at full
wheel travel and stand still parking
SY STE M O P E R A T IO N
Excessive wheel kick-back or loose
steering.
Poor return of steering.
Backlash in steering linkage.
Adjust parts affected or replace worn
parts.
Air in system.
Add oil to pump reservoir and bleed by
operating steering. Check all connections.
Excessive “over-center” lash.
Adjust to specification.
Loose thrust bearing preload adjust
ment.
Adjust to specification.
Worn poppet valve (Gear)
Replace poppet valve.
Steering gear loose on frame.
Tighten attaching bolts to 70 foot
pounds.
Steering gear flexible coupling too
loose on shaft or rubber disc mounting
screws loose.
Tighten flange pinch bolts to 30 foot
pounds, if serrations are not damaged.
Tighten upper flange to coupling nuts
to 20 foot-pounds.
Steering linkage ball studs worn
enough to be loose.
Replace loose components.
Front wheel bearings incorrectly ad
justed or worn.
Adjust bearings or replace with new
parts as necessary.
Tires under-inflated.
Inflate to specified pressure.
Lower coupling flange rubbing against
steering gear adjuster plug.
Loosen pinch bolt and assemble prop
erly.
Steering wheel rubbing against direc
tional signal housing.
Adjust steering jacket.
Tight or frozen steering shaft bearings.
Replace bearings.
Steering linkage or ball joints binding.
Replace affected parts.
Steering gear to column misalignment.
Align steering column.
Tie rod pivots not centralized.
Adjust tie rod ends as required to
center pivots.
Lack of lubricant in suspension ball
joints and steering linkage
Lubricate and relubricate at proper
intervals
Fig. 3B3-4--Power Steering System Diagnosis Chart B
L IG H T T R U C K SERVICE M A N U A L
POWER STEERING SYSTEM
CONDITION
Poor return of steering. (Cont’d.)
*
■
Car leads to one side or the other.
(Keep in mind road condition and
wind. Test car on flat road going in
both directions)
POSSIBLE CAUSE
3B3-5
CORRECTION
Steering gear adjustments over
specifications.
Check adjustment with pitman arm
disconnected. Readjust if necessary.
Sticky or plugged valve spool.
Remove and clean or replace valve.
Rubber spacer binding in shift tube.
Make certain spacer is properly seated.
Lubricate inside diameter with sili
cone lubricant.
Improper front suspension alignment.
Check and adjust to specifications.
Tight steering shaft bearings.
Replace bearings.
Front suspension misaligned
Adjust to specifications.
Steering shaft rubbing ID of shift tube.
Align column.
Unbalanced or badly worn steering
gear valve.
Replace valve.
N O TE : If this is cause, steering effort
will be very light in direction of lead
and heavy in opposite direction.
Steering wheel surges or jerks when
turning with engine running especially
during parking.
Momentary increase in effort when
turning wheel fast to right or left.
Hard steering or lack of assist.
Steering linkage not level.
Adjust as required.
Low oil level in pump.
Check oil level, add as necessary.
Loose pump belt.
Adjust tension to specification.
Sticky flow control valve.
Inspect for varnish or damage, replace
if necessary.
Insufficient pump pressure.
Check pump pressure. (See pump
pressure test). Replace relief valve if
defective.
Steering linkage hitting engine oil pan
at full turn.
Correct clearance.
Pump belt slipping.
Tighten or replace belt.
Low oil level in pump.
Check oil level, add as necessary.
High internal leakage.
Check pump pressure (Test)
High internal leakage. (Gear or pump)
Check pump
pressure test).
Loose pump belt.
Adjust belt tension to specification.
Low oil level in reservoir.
Fill to proper level. If excessively low,
check all lines and joints for evidence
of external leakage, torque to specs.
pressure. (See pump
Fig. 3B3-5--Power Steering Diagnosis Chart C
L IG H T T R U C K SERVIC E M AN U AL
3B3-6
POWER STEERING SYSTEM
POSSIBLE CAUSE
CONDITION
Hard Steering or
lack of assist (Continued)
Low oil pressure due to restriction in
hoses:
Low oil pressure due to steering gear:
(See pump pressure test)
CORRECTION
Lack of lubricant in suspension
or ball jo in ts.
Lubricate, relubricate at proper
intervals.
Tires not properly inflated.
Inflate to recommended pressure.
Steering gear to column misalignment.
Align steering column.
Steering gear adjusted too tight.
Test steering system for binding with
front wheels off floor. Adjust as neces
sary.
Excessive friction in steering linkage.
Check tie rod pivot points for exces
sive friction. Replace the affected
pivot.
Lower coupling flange rnbbing
against steering gear adjuster plug.
Loosen pinch bolt and assemble
properly.
Sticky flow control valve.
Replace or clean valve.
Frame bent.
Check frame for proper alignment or
cracking. Repair or replace as neces
sary.
Front springs weak and sagging.
Check standing height. Weak or sag
ging springs should be replaced with
new ones.
Insufficient oil pressure.
If above checks do not reveal cause of
hard steering, diagnose hydraulic
system to determine problem.
Check for kinks in hoses.
Remove kink.
Foreign object stuck in hose.
Remove hoses and remove restricting
object or replace hose.
Pressure loss in cylinder due to
worn piston ring or scored housing
bore.
Remove gear from car for disassembly
and inspection of ring and housing
bore. Replace affected parts.
Leakage at valve rings, valve body
to worm seal.
Remove gear from car for disassembly
and replace seals.
Loose fit of spool in valve body or
leaky valve body.
Replace valve.
Damaged poppet valve.
Replace valve.
Fig. 3B3-6--Power Steering System Diagnosis Chart D
L IG H T T R U C K SERVICE M A N U A L
POWER STEERING SYSTEM
POSSIBLE CAUSE
CONDITION
Low oil
pump:
pressure
due
to steering
3B3-7
CORRECTION
Loose belt.
Adjust tension to specification
Low oil level.
Fill reservoir to proper level.
Air in the oil.
Locate source of leak and correct.
Bleed system.
Defective hoses or steering gear.
Correct as necessary.
Flow control valve stuck or inopera
tive.
Remove burrs or dirt or replace.
Loose screw in end of How control
valve.
Tighten.
Cracked or broken thrust or pressure
plate.
Replace part.
Pressure plate not flat against cam
ring.
Replace pressure plate.
Extreme wear of cam ring.
Replace parts, flush system
Scored pressure plate, thrust plate or
rotor.
Replace parts. (If rotor, replace with
rotating group kit), flush system
Vanes not installed properly.
Install properly. Radius edge to outside.
Vanes sticking in rotor slots.
Free-up b> removing burrs, varnish or
dirt.
Air in the fluid, and loss of
fluid due to internal pump
leakage causing overflow.
Check for leak and correct. Bleed
system. Extremely cold temperatures
will cause system aeriation should
the oil level be low. If oil level
is correct and pump still foams,
remove pump from vehicle and
separate reservoir from housing.
Check welsh plug and housing for
cracks. If plug is loose or housing
is cracked, replace housing.
(See pump pressure test.)
Note:
Steering system external leakage
Foaming rmlky power steering
fluid, low level and possible
low pressure.
Fig. 3B3-7-Power Steering System Diagnosis Chart E
LIG H T TR U C K SE RV IC E M AN U AL
3B3-8
POWER STEERING SYSTEM
POWER STEERING SYSTEM EXTERNAL LEAKAGE
G en eral Procedure
1.
2.
3.
4.
5.
W ipe suspected area dry.
Check for overfilled reservoir.
Check for oil aeration and overflow.
Check hose connections - tighten if necessary.
Verify exact point of leakage.
Exam ple:Torsion bar, stub shaft and adjuster seals are
close together; exact leakage point could be confused.
Example: The point oil drips from is not necessarily the
leakage point - oil overflowing from reservoir for instance.
6. W hen service is required:
a. Clean leakage area upon disassembly.
b. Replace leaking seal.
c. Check com ponent sealing surfaces for dam age.
d. Reset bolt torque to specifications where required.
Customer Descriptions
Some of the custom er com plaints associated with the
power steering system m ay be reported as:
1. O i l le a k a g e on g a r a g e floor.
2. Oil leaks visible on steering gear, pump, or anywhere
else on the left side of engine com partm ent.
3. Growling noise especially when parking or when engine
is cold.
4. Loss of power when parking.
5. Heavy steering effort.
For the purpose of trouble shooting com plaints of this
nature, assum e th at there is an external leak in the power
steering system.
Leakage Diagnosis (Fig. 3B3-8)
This section is a guide, which will enable you to locate,
identify, and repair leaks in the power steering system. It
contains:
A. D iagram of the com plete power steering system with
the areas of potential leakage identified.
B. Recom m ended procedure for locating external leakage
in the vehicle.
C. A reas of leakage to be checked, which can be serviced
at once.
D. P art replacem ent recom m endations.
E. D iagram of the actual areas where leakage will be
observed and the action recom m ended to repair this
leakage.
Leakage Check
The purpose of the diagnostic procedure is to pin-point
the location of the leak. The m ethod outlined in this m anual
can be followed to locate the leak and repair it.
In some cases you will be able to locate the leak easily.
However, seepage type leaks m ay be more difficult to isolate.
For seepage leaks, the following m ethod is recom m ended.
L IG H T T R U C K SE RV IC E M A N U A L
A. W ith the vehicle’s engine off, wipe the complete power
steering system dry (g ear, pum p, hoses, and
connections).
B. Check oil level in p um p’s reservoir and ad ju st as
directed in m aintenance section.
C. S tart engine and turn steering wheel from stop to stop
several times. Do not hold in corner for any length of
time as this can dam age the power steering pump. It is
easier if someone else operates the steering wheel while
you search for the seepage.
D. Find the exact area of leakage.
E. Refer to the diagnostic chart to find the recommended
method of repair.
Quick Fixes
The purpose of this section is to acquaint you with the
types of leakage which can be repaired very easily. It
contains inform ation on reservoir oil level, the hoses and the
hose connections.
An overfilled pump reservoir can be a cause for leakage
complaint. The oil in the steering system expands as heated
during norm al usage. If overfilled the excess is forced
thhrough the breather cap hole and may be sprayed over the
engine by air blast. O perate the engine and steering system
until normal operating tem perature is obtained. Remove the
reservoir cap and check the graduated level on the dipstick.
Adjust the oil level as required.
Seepage at the hose connections can be a cause for
leakage com plaint and can be due to loose connection nuts.
If leakage is observed at the hose connections, and the nut is
not cross threaded, tighten the nuts at the gear to 30 foot
pounds.
The nut at the power steering pum p should be tig h t
ened to 40 foot pounds. If tightening to this torque does not
stop the leak, refer to the diagnostic chart.
If either the return hose or the pressure hose leaks,
replace the hose.
Component Replacement
Lip seals, which seal rotating shafts, require special
treatm ent. This type of seal is used on the steering gear at
the pitm an shaft, at the stud shaft, and on the drive shaft of
the pump. W hen leakage occurs in one of these areas,
always replace the seal(s), after inspecting and thoroughly
cleaning the sealing surfaces. Replace the shaft only if very
severe pitting is found. If the corrosion in the lip seal contact
zone is slight, clean the surface of the shaft with crocus
cloth. R eplace the sh aft only if the leakage cannot be
stopped by smoothing with crocus cloth first.
Housing or Cover Seepage - Both the power steering
gear and pum p assem blies are leakage checked before
shipm ent. However, occasionally oil seepage m ay occur
from the gear or pump other than the seal areas. If this type
of leakage is found, replace the leaking part.
Fig. 3B3-8 has been prepared to show the potential
areas of leakage. If leakage occurs in the zones shown,
replace the part listed using the service m anual as a guide.
POWER STEERING SYSTEM
3B3-9
GEAR A N D PUMP LEAK DIAGNOSIS
ST A R T E N G IN E A N D TU RN S T E E R IN G WHEEL F R O M S T O P TO ST O P
S E V E R A L T IM E S . DO NOT H O LD AT ST O P FO R A N Y LENGTH OF
T IM E A S T H IS C A N D A M A G E THE PO W ER S T E E R IN G P U M P .
1.
C H E C K O IL L E V E L
IF L E A K A G E P E R S I S T S W IT H THE LEVEL
C O R R E C T A N D THE C A P TIGHT. R E P L A C E C AP.
2.
C R A C K E D O R BENT R E S E R V O IR .
3.
R E P L A C E R E S E R V O IR " 0 " R IN G .
4.
R E P L A C E FR O N T S E A L
R E P L A C E R E S E R V O IR .
M A K E C E R T A IN TH AT D R I V E SH A F T IS
C LE A N A N D FREE OF P IT T IN G IN S E A L R ID E AREA.
5.
T O RQ U E H O SE F IT T IN G NUT T 0 27 N-m (20 FT. L B S. I. IF
6.
TO RQ UE F IT T IN G T 0 4 8 N-m (35 FT. L B S .).
L E A K A G E P E R S IS T S .
P E R S IS T S .
R E P L A C E " 0 " R IN G S E A L
IF L E A K A G E
R E P L A C E BOTH " 0 " R IN G S E A L S.
7.
TO RQ UE NUT TO 27 N-m (20 FT. L B S . ). R E P L A C E NUT IF
L E A K A G E P E R S IS T S .
8.
T O RQ U E S ID E C O V E R B O LTS TO 60 N-m (45 FT. L B S . ).
9.
R E P L A C E A D J U S T E R PL U G " 0 " R IN G S E A L
R E P L A C E S ID E C O V E R S E A L IF L E A K A G E P E R S IS T S .
10.
REPLACE RO TARY VALVE A SSE M B LY .
11.
R E P L A C E A D J U S T E R PLUG S E A L S.
12.
SE A T B A L L F L U S H W IT H P U N C H A N D R E ST A K E .
P E R S IS T S .
IF S E E P A G E
R E P L A C E H O U SIN G .
13.
R E P L A C E BOTH P IT M A N SH A F T S E A L S.
14.
R E P L A C E END PL U G " 0 " R IN G S E A L
15.
R E P L A C E S ID E C O V E R " 0 " R IN G S E A L
16.
R E P L A C E D U S T S E A L A N D P IT M A N SH A F T S E A L
17.
TO RQ UE NUT TO 48 N-m (35 FT. L BS. >. R E P L A C E NUT IF
LE A K A G E P E R S IS T S .
Fig. 3B3-8--Gear and Pump Leak Diagnosis
L IG H T TR UC K SE RV IC E M AN U AL
3B3-10
POWER STEERING SYSTEM
MAINTENANCE AND ADJUSTMENTS
LUBRICATION OF POWER STEERING PUMP
Check the fluid level in the pum p reservoir according to
the intervals listed in Section OB. Use only an approved
power steering lubricant in the pump.
NOTICE: Never use brake fluid in the power steering
pum p, or dam age may occur.
ADJUSTMENTS
Power Steering Gear Adjustment Procedure
A djustm ent of the steering gear in the vehicle is not
recom m ended because of th e difficulty encountered in
adjusting the worm thrust bearing preload and the confus
ing effects of the hydraulic fluid in the gear. Since a gear
adjustm ent is m ade only as a correction and not as a periodic
adjustm ent, it is better to take the extra tim e and make the
adjustm ent correctly the first time.
Since a handling stability com plaint can be caused by
improperly adjusted worm bearings as well as an improper
gear over-center adjustm ent, it is necessary th at the steering
gear assem bly be removed from the vehicle and both thrust
bearing and over-center preload be checked and corrected as
necessary. An in-vehicle check of the steering gear will not
pin-point a thrust bearing looseness.
Before any adjustm ents are m ade to the steering gear
attem p t to correct com plaints of loose or hard steering, or
other wheel disturbances, a careful check should be m ade of
front end alignm ent, shock absorbers, wheel balance and
tire pressure for possible steering system problems. See
Diagnosis steps listed earlier in this section.
Once it is determ ined to m ake adjustm ents, refer to
Section 3B of the O verhaul M anual for specific instructions.
STEERING GEAR HIGH POINT CENTERING
1. Set front wheels in straight ahead position. This can be
checked by driving vehicle a short distance on a flat
surface to determ ine steering wheel position at which
vehicle follows a straig h t path.
LIG H T TR UC K SE RV IC E M AN U AL
2. W ith front wheels set straight ahead, check position of
m ark on w orm shaft designating steering gear high
point. This m ark should be at the top side of the shaft at
12 o’clock position and lined up with the m ark in the
coupling lower clamp.
3. On C, G and P series, if gear has been moved off high
point when setting wheel in straight ahead position,
loosen the adjusting sleeve clam ps on both left and right
hand tie rods. Then turn both sleeves an equal num ber
of turns in the same direction to bring gear back on
high point.
Turning the sleeves an unequal num ber of turns or in
different directions will disturb the toe-in setting of the
wheels.
4. On K series, if the gear has been moved off high point
when setting wheels in straight ahead position, loosen
the adjusting sleeve clamps on the connecting rod. Then
turn sleeve to bring gear back on high point.
5. R eadjust toe-in as outlined in Section 3A (if
necessary).
6. Be sure to properly orient sleeves and clamps, as shown
in Section 3B 1, when fastening and torqueing clamps to
proper specifications.
PUMP BELT TENSION ADJUSTMENT
1. Loosen pivot bolt and pum p brace adjusting nuts. See
Fig. 3B3-9.
NOTICE: Do not move pum p by prying against reservoir
or by pulling on filler neck, or dam age to the pump
could occur.
2. Move pump, with belt in place until belt is tensioned to
specifications as indicated by Tool J-23600 (Fig. 3B310). See Figure 3B 3-11.
3. Tighten pump brace adjusting nut. Then tighten pivot
bolt nut.
FLUID LEVEL ADJUSTMENT
1. Check oil level in the reservoir by checking the dipstick
when oil is at operating te m p eratu re. On models
equipped with remote reservoir, the oil level should be
POWER STEERING SYSTEM
m aintained approxim ately 1/2 to 1 inch from top with
wheels in full left turn position.
2. Fill, if necessary, to proper level w ith G M Power
Steering Fluid or equivalent.
NOTICE: N ever use brake fluid in the power steering
pum p, or dam age may occur.
BLEEDING HYDRAULIC SYSTEM
1. Fill oil reservoir to proper level and let oil remain
undisturbed for at least two minutes.
2. S ta rt engine and run only for about two seconds.
3. Add oil if necessary.
4. R epeat above procedure until oil level rem ains constant
after running engine.
5. Raise front end of vehicle so th at wheels are off the
ground.
6. Increase engine speed to approxim ately 1500 rpm.
7. T urn the wheels (off ground) right and left, lightly
contacting the wheel stops.
8. A dd oil if necessary.
9. Lower the vehicle and turn wheels right and left on the
ground.
10. C heck oil level and refill as required.
11. If oil is extrem ely foamy, allow vehicle to stand a few
m inutes with engine off and repeat above procedure.
a. C heck belt tightness and check for a bent or loose
pulley. (Pulley should not wobble with engine
running.)
b. Check to m ake sure hoses are not touching any other
parts of the truck, particularly sheet m etal except
where design calls for a clam p.
c. Check oil level, filling to proper level if necessary,
following operations 1 through 10. This step and
Step " d " are extrem ely im portant as low oil level
an d /o r air in the oil are the most frequent causes of
objectional pump noise.
d. C heck the presence of air in the oil. If air is present,
attem p t to bleed system as described in operations 1
through 10. If it becomes obvious th at the pum p will
not bleed after a few trials, proceed as outlined under
H ydraulic System Checks.
3B3-11
HYDRAULIC SYSTEM CHECKS
The following procedure outlines methods to identify
and isolate power steering hydraulic circuit difficulties. The
test provides means of determ ining whether power steering
system hydraulic parts are actually faulty. This test will
result in readings indicating faulty hydraulic operation, and
will help to identify the faulty component.
Before perform ing hydraulic circuit test, carefully
check belt tension, fluid level and condition of driving pulley.
Power Steering System Test
Engine m ust be at norm al operating tem p e ra tu re.
Inflate front tires to correct pressure. All tests are made with
engine idling, check idle adjustm ent and if necessary adjust
engine idle speed to correct specifications listed in Section
6C and proceed as follows:
1. W ith engine N O T runnning disconnect pressure hose
from pum p and install Tool J-5176 using a spare
pressure hose between gauge and pump. G auge must be
between shut-off valve and pump (Fig. 3B3-12), Open
shut-off valve.
*
2. Remove filler cap from pump reservoir and check fluid
level. Fill pump reservoir to full m ark on dip stick. S tart
engine and, m om entarily holding steering wheel
against stop, check connections at Tool J-5176 for
leakage.
3. Bleed system as outlined under M aintenance and
A djustm ents.
4. Insert therm om eter (Tool J-5421) in reservoir filler
opening. Move steering wheel from stop to stop several
times until therm om eter indicates that hydraulic fluid
in reservoir has reached tem perature of 150° to 170°F.
NOTICE: To prevent scrubbing flat spots on tires, do not
turn steering wheel more than five times without rolling
vehicle to change tire-to-floor contact area.
5. S ta rt engine and check fluid level adding any fluid if
required. W hen engine is at norm al operating tem pera
ture, the initial pressure read on the gage (valve open)
should be in the 80-125 PSI range. Should this pressure
be in excess of 200 PSI - check the hoses for restrictions
and the poppet valve for proper assembly.
B E L T T E N S IO N
5/16
3/8"
15/32
W ID E
W ID E
W ID E
NEW
BELT
350 N Max.
80 Lbs. Max.
620 N Max.
140 Lbs. Max.
750 N Max.
165 Lbs. Max.
USED
BELT
200 N M in.
50 Lbs. M in.
USED
CO G G ED
BELT
300 N
70 Lbs.
M in.
Min.
400 N
90 Lbs.
POWER ST EER IN G
a d a p TFR
GAGE J-5176-01
j_22326
P R E SSU R E HOSE TO
P /S G E A R
P R E SSU R E HOSE
FRO M PU M P
Min.
Min.
250 N M in.
60 Lbs. Min.
Fig. 3B3-11—Belt Tension Chart
Fig. 3B3-12--Checking Power Steering Pressures
L IG H T T R U C K SE RV IC E M AN U AL
3B3-12
POWER STEERING SYSTEM
6. Close gate valve fully 3 times. Record the highest
pressures attained each time.
NOTICE: Do not leave valve fully closed for more than 5
seconds as the pump could be dam aged internally.
a. If the pressures recorded are within the listed specs
and the range of readings are within 50 PSI, the
pump is functioning within specs. (Ex. Spec. 1250 1350 P S I-re a d in g s - 1270- 1275- 1280).
b. If the pressures recorded are high, but do not repeat
within 50 PSI, the flow controlling valve is sticking.
Remove the valve, clean it and remove any burrs
using crocus cloth or fine hone. If the system contains
some dirt, flush it. If it is exceptionally dirty, both the
pum p and the gear m ust be completely disassembled,
cleaned, flushed and reassem bled before fu rth er
usage.
c. If the pressures recorded are constant, but more than
100 PSI, below the low listed spec., replace the flow
control valve and recheck. If the pressures are still
low, replace the rotating group in the pump.
7. If the pump checks within specifications, leave the
valve open and turn (or have turned) the steering wheel
into both corners. Record the highest pressures and
com pare with the m axim um pum p pressures and
com pare with the maximum pump pressure recorded.
If this pressure cannot be built in either (or one) side of
the gear, the gear is leaking internally and must be
disassembled and repaired. See the current Overhaul
M anual.
8. S hut off engine, remove testing gauge, spare hose,
reconnect pressure hose, check fluid level an d /o r make
needed repairs.
ON-VEHICLE SERVICE
Installation (Fig. 3B3-14)
POWER STEERING GEAR
Removal
1. D isconnect hoses at gear. W hen hoses are discon
nected, secure ends in raised position ot prevent
drainage of oil. C ap or tape the ends of the hoses to
prevent entrance of dirt.
2. Install two plugs in gear fittings to prevent entrance of
dirt.
3. Remove the flexible coupling to steering shaft flange
bolts (G, C and K models) or the lower universal joint
pinch bolt (P models). M ark the relationship of the
universal yoke to the stub shaft.
4. M ark the relationship of the pitm an arm to the pitm an
shaft. Remove the pitm an shaft nut or pitm an arm
pinch bolt and then remove the pitm an arm from the
pitm an shaft using Puller J-6632 (Fig. 3B3-13).
5. Remove the steering gear to fram e bolts and remove
the gear assembly.
6. G, C and K Models - Remove the flexible coupling
pinch bolt and remove the coupling from the steering
gear stub shaft.
NOTICE: See N O T IC E on page 1 of this section
regarding the fasteners referred to in steps 1 ,3 ,4 and 5.
1. Install the flexible coupling onto the steering gear stub
shaft, aligning the flat in the coupling with the flat on
the shaft. Push the coupling onto the shaft until the
stub sh aft bottom s on the coupling reinforcem ent.
Install the pinch bolt and torque to specifications.
NOTICE: The coupling bolt m ust pass through the shaft
undercut, or dam age to the components could occur.
2. Place the steering gear in position, guiding the coupling
bolt into the steering shaft flange.
3. Install the steering gear to fram e bolts and torque to
specifications.
4. If flexible coupling alignm ent pin plastic spacers were
used, make sure they are buttom ed on the pins, tighten
the flange bolt nuts to specifications and then remove
the plastic spacers.
5. If flexible coupling alignm ent pin plastic spacers were
not used, center the pins in the slots in the steering shaft
flange and then install and torque the flange bolt nuts to
specifications.
TOOL—J-5504
TO OL—J-6632
Fig. 3B3-13--Removing Pitman Arm
L IG H T TR U C K SE RV IC E M A N U A L
Fig. 3B3-14--Power Steering Gear Mounting-Typical
POWER STEERING SYSTEM
P Models
a. Place the steering gear in position, guiding the stub
shaft into the universal joint assembly and lining up
the m arks m ade at removal. If a new gear was
installed, line up the m ark on the stub shaft with the
m ark on the universal yoke.
b. Install the steering gear to fram e bolts and torque to
specifications.
c. Install the universal joint pinch bolt and torque to
specification. The pinch bolt m ust pass through the
shaft undercut.
All Models
6. Install the pitm an arm onto the pitm an shaft, lining up
the m arks m ade at removal. Install the pitm an shaft
nut or pitm an arm pinch bolt and to rque to
specifications.
7. Remove the plugs and caps from the steering gear and
hoses and connect the hoses to the gear. Tighten the
hose fittings to specified torque.
3B3-13
POWER STEERING PUMP (3B3-15 THROUGH
3B3-26)
Removal
1. Disconnect hoses at pump. W hen hoses are discon
nected, secure ends in raised position to prevent
drainage of oil. C ap or tape the ends of the hoses to
prevent entrance of dirt.
On Models with rem ote reservoir, disconnect reservoir
hose at pum p and secure in raised position. C ap hose
pump fittings.
2. Install two caps at pum p fittings to prevent drainage of
oil from pump.
3. Loosen bracket-to-pum p mounting nuts.
4. Remove pum p belt.
5. Remove pump from attaching parts and remove pump
from vehicle.
Installation
1. Postion pump assembly on vehicle and install attaching
parts loosely.
2. Connect and tighten hose fittings.
3. Fill reservoir. Bleed pum p by turning pulley backward?
(counter-clockw ise as viewed from front) until air
bubbles cease to appear.
4. Install pump belt over pulley.
5. Tension belt as outlined under "Pum p Belt TensionA djustm ent" in this section.
6. B leed as o utlined u n d er “ B leeding P o w er Steering
S y ste m .”
Fig. 3 B 3 - 1 5 - P / S Pump M o u n tin g; C K 1 0 0 , C K 2 0 0
Fig. 3 B 3 -1 6 --P /S Pum p M oun tin g; C K 2 0 0 , C K 3 0 0
(03) with LE3 Engine
with L25 Engine
LIG H T T R U C K SERVICE M AN U AL
3B3-14
POWER STEERING SYSTEM
Fig. 3 B 3 -1 7 --P /S Pump M o un tin g; C K 1 0 0 , C K 2 0 0 ,
Fig. 3 B 3 -2 0 --P /S Pump m ounting; C K 1 0 0 (03) with
C K 3 0 0 - LE4, LG 9, LS9, LT9 (Exc. C 60, JB8)
I F9 Enaine
Fig. 3 B 3 -1 8 --P /S Pum p M o u n tin g; C K 1 0 0 , C K 2 0 0 ,
Fig. 3 B 3 -2 1 --P /S Pump M o u n tin g; G 1 0 0 , G 2 0 0 ,
C K 3 0 0 - LE4, LG9, LT9 an d C 6 0
G 3 0 0 with LE3 Engine
Fig. 3 B 3 -1 9 --P /S Pump M o u n tin g; C l 00, C 2 0 0 , C 3 0 0
Fig. 3 B 3 -2 2 --P /S Pump M oun tin g; G 1 0 0 , G 2 0 0 ,
with LE8 Engine
G 3 0 0 - LE4, LF4, LG9, LS9, LT9
L IG H T T R U C K SE RV IC E M A N U A L
POWER STEERING SYSTEM
Fig. 3 B 3 -2 3 --P /S Pump M o u n tin g; P200, P300 (42)
with L25 Engine
3B3-15
Fig. 3 B 3 -2 6 --P /S Pump M o un tin g; P300 (32) with LE8
Engine
POWER STEERING HOSES
W hen servicing the power steering hoses be sure to
align the hoses in their correct position as shown in Figs.*
3B3-27 through 3B3-42.
It is im p o rtan t th a t the power steering hoses be
installed correctly. Hoses installed out of position may be
subjected to chafing or other abuses during sharp turns. Do
not twist hoses unnecessarily during installation.
NOTICE: Do not start engine with any power steering
hose disconnected, or dam age to the components could
occur.
SPECIFICATIONS AND SPECIAL TOOLS
Refer to Specifications and Special Tools at end of
Section 3B4.
Fig. 3 B 3 -2 4 --P /S Pump M o u n tin g; P200, P300 (42)
with LT9 (Exc. JB8)
Fig. 3 B 3 -2 5 --P /S Pum p M o un tin g; P200, P300 (32)
with LT9 Engine
LIG H T T R U C K SE RV IC E M AN U AL
3B3-16
POWER STEERING SYSTEM
Fig. 3 B 3 - 2 7 - P / S Hose Routing; C K 100, C K 2 0 0 (03)
with LE3 Engine
with LE8 Engine
L25 Engine
JB8
Fig. 3 B 3 - 2 9 - P / S Hose Routing; C K 1 0 0 , C K 200, C K
300 - LE4, LG9, LS9, LT9 (Exc. C 60, JB8)
LIG H T TR U C K SE R V IC E M A N U A L
LT9 and JB8
POWER STEERING SYSTEM
3B3-17
Fig. 3 B 3 -3 3 --P /S Hose Routing; C K 100 (03) with LF9
Engine, a n d JB3, JB5
with LE3 Engine
(Exc. H C 4 )
LE4, LG9, LF4, LS9, LT9 and JB7
HC4
and JB8
L IG H T T R U C K SERVICE M AN U AL
3B3-18
POWER STEERING SYSTEM
Fig. 3 B 3 - 3 9 - P / S Hose Routing; P200, P300 (42) with
Fig. 3 B 3 -4 1 --P /S Hose Routing; P 300 (32) with LT9
L25 Engine an d JB7
Engine
Fig. 3 B 3 -4 0 --P /S H ose Routing; P200, P300 (42) with
Fig. 3 B 3 -4 2 --P /S Hose Routing;P300 (32) with LE8
LT9 Engine an d JB7
Engine
L IG H T TR U C K SE R V IC E M A N U A L
STEERING C O L U M N S
3B4-1
SECTION 3B4
STEERING COLUMNS
The following notice applies to one or more steps in the assembly
procedure o f com ponents in this portion of the m anual as indicated at
appropriate locations by the term inology "See Notice on page 1 of this
Section".
NOTICE: This fastener is an im portant attaching part in th at it
could affect the perform ance of vital com ponents and systems, a n d /o r
could result in m ajor repair expense. It m ust be replaced w ith one of the
same part num ber or w ith an equivalent part if replacem ent becomes
necessary. D o not use a replacem ent part of lesser quality or substitute
design. T orque values m ust be used as specified during reassembly to
assure proper retention of this part.
CONTENTS
G eneral D escrip tio n ............................................................................... ..3B4-1
D iag n o sis.....................................................................................................3B4-2
M aintenance and A dju stm ents..............................................................3B4-16
On-Vehicle Service....................... ............................................................3B4-18
C-Series, K -Series............................................................................... ..3B4-18
G-Series, P-S eries............................................................................... ..3B4-35
Specifications..............................................................................................3B4-51
Special T o o ls..............................................................................................3B4-52
GENERAL DESCRIPTION
FUNCTION LOCKING COLUMNS
T he function locking energy absorbing steering colum n
includes three im portant features in addition to the steering
function:
1. T he colum n is energy absorbing, designed to
com press in a front-end collision to m inim ize the possibility
of injury to the driver o f the vehicle.
2. T he ignition switch and lock are m ounted
conveniently on the column.
3. W ith the colum n m ounted lock, the ignition,
steering and gearshifting operation can be locked to inhibit
theft o f the vehicle.
T he function locking energy abosrbing colum n may be
easily disassembled and reassembled. The serviceman
should be aware that it is im portant th at only the specified
screws, bolts and nuts be used as designated and th at they
are tightened to their specified torque. This precaution will
insure the energy absorbing action o f the assembly. O ver
length bolts should not be used, as they may prevent a
portion of the assembly from com pressing under impact.
Equally as im portant is correct torque o f bolts and nuts.
Care should be taken to assure that the bolts or nuts
securing the colum n m ounting bracket to the instrum ent
panel are torqued to the proper specification in order that
the bracket will break away under impact.
W hen the function locking energy absorbing colum n
assembly is installed in a vehicle, it is no m ore susceptible
to damage through usage than an ordinary column;
however, when the colum n is removed, special care must
be taken in handling this assembly. Only the specified wheel
puller should be used. W hen the colum n is removed from
the vehicle, such actions as a sharp blow on the end of the
steering shaft or shift lever, leaning on the colum n assembly,
or dropping o f the assembly could shear or loosen the plastic
fasteners th at m aintain column rigidity. It is, therefore,
im portant that the removal and installation and the
disassembly and reassembly procedures be carefully
followed when servicing the assembly.
L IGHT T R U C K SE R V IC E M A N U A L
3B4-2
STEERING C O L U M N S
Fig. 3 B 4 -1 ~ Ste e rin g Colu m n
DIAGNOSIS
GENERAL INFORMATION
This section contains diagnostic inform ation to help
locate the cause of the problem in the colum n. Reference
should be m ade to the correct m ethod o f column
disassembly, repair, adjustm ent and reassembly. Damaged,
broken or deformed parts m ust be replaced w ith the correct
replacem ent.
To perform diagnostic procedures on the steering
colum n upper end com ponents, it is not necessary to remove
the colum n from the vehicle.
The steering wheel, horn com ponents, directional
signal switch, ignition switch and lock cylinder may be
removed w ith the colum n rem aining in the vehicle as
described in the Service M anual under "C om ponent P art
Replacem ent".
CAUTION: The outer mast jacket shift
tube, steering shaft and instrument panel
mounting bracket are designed as energy
absorbing units. Because of the design of
these components, it is absolutely
necessary to handle the column with care
when performing any service operation.
Avoid hammering, jarring, dropping or
leaning on any portion of the column.
When
reassembling
the
column
components, use only the specified
screws, nuts and bolts and tighten to
specified torque. Care should be
exercised not to use over-length screws
or bolts as they may prevent a portion of
the column from compressing under
impact. Personal injury could result from
lack of care when servicing the steering
column.
STEERING COLUMN ELECTRICAL ANALYZER
J-23980
For C-Series and K-Series (Fig. 3B4-2)
Tool J-23980 will help the technician analyze the
steering colum n wiring harness for electrical problems. The
tool in actuality eliminates the steering column, related
wiring and com ponents; and replaces them with the tool
itself. In this way disassembly of the colum n is not
performed until the problem has been determ ined to be in
the column. By moving the tester switch, (with the key in
the "on" position), the various functions may be checked.
The switch positions are "O F F ", "H O R N ", "L E FT
Fig. 3B4-2~Steering Column Electrical Analyzer J -2 3 9 8 0
LIGHT TR U C K SE R V IC E M A N U A L
STEERING C O L U M N S
T U R N ", "R IG H T T U R N ", "K E Y B U Z Z E R ", and
"H A Z A R D ". (Trucks do not incorporate a Key Buzzer
Switch) if the systems function properly while using the
tester, then the m alfunction has been narrow ed to the
colum n w iring or com ponents. W hen this has been
determ ined then the colum n m ay be serviced to correct the
m alfunction.
T o use the tool just unfasten the harm onica connector
on the colum n and plug the harness from J-23980 into the
vehicle chassis harness. The "A ", "B", and "C" term inals
on the tester will overhang the chassis connector. This does
not affect the test results. These term inals are for vehicles
w ith cornering lights. Connect the single black jum per to
a good ground. The tester is now ready for use (Fig. 3B4-2).
COLLISION DIAGNOSIS (FIGS. 3B4-3
THROUGH 3B4-8)
To determ ine if the energy absorbing steering colum n
com ponents are functioning as designed, or if repairs are
required, a close inspection should be made. A n inspection
is called for in all cases where dam age is evident or whenever
the vehicle is being repaired due to a front end collision.
W henever a force has been exerted on the steering wheel or
steering colum n, or its com ponents, inspection should also
be made. If dam age is evident, the affected parts m ust be
replaced.
The inspection procedure for the various steering
colum n com ponents on C and K trucks is as follows:
Column Support Bracket
D am age in this area will be indicated by separation of
the m ounting capsules from the bracket. The bracket will
have moved forward tow ard the engine com partm ent and
will usually result in collapsing o f the jacket section of the
steering column.
3B4-3
COLUMN JACKET
Inspect jacket section of column for looseness, a n d /o r
bends.
SHIFTER SHAFT
Separation of the shifter shaft sections will be internal
and cannot be visually identified. Hold lower end of the
"shifter shaft" and move "shift lever" on colum n through
its ranges and up and down. If there is little or no movement
o f the "shifter shaft", the plastic joints are sheared.
Steering Shaft
If the steering shaft plastic pins have been sheared, the
shaft will rattle when struck lightly from the side and some
lash may be felt when rotating the steering wheel while
holding the rag joint. It should be noted that if the steering
shaft pins are sheared due to m inor collision w ith no
appreciable dam age to other components, th at the vehicle
can be safely steered; however, steering shaft replacement
is recommended.
Because of the differences in the steering colum n types,
be sure to refer to the set of instructions below which apply
to the colum n being serviced.
METHOD TO DETERMINE COLUMN
COLLAPSE
M easure distance between top of neutral-start switch
window opening and the bottom of the upper jacket. The
correct value is shown below:
a. C-Truck 5 11/16" to 5 1/2".
b. K -T ruck 5 11/16" to 5 1/2".
i ifiU T t r i ICK
" — * * * “"•AL
3B4-4
STEERING C O L U M N S
SU RFA CE “A’
L
Instrument Panel Bracket Capsule Damage
NO TE: The bolt head m ust not contact surface “ A” . If
contact is m ade, the capsule shear load will be increased. If
this co n d itio n exists replace the bracket.
AUTOMATIC TRANSMISSION COLUMNS
LOCK S Y S T E M -W IL L NOT UNLOCK
Cause
Solution
A. Lock bolt dam aged.
A. Replace lock bolt.
B. Defective lock cylinder.
B.
Replace or repair lock cylinder.
C. Dam aged housing.
C.
Replace housing.
D. Dam aged or collapsed sector.
D. Replace sector.
E. Dam aged rack.
E.
Replace rack.
F. Shear Flange on secto r shaft collapsed.
F.
Replace.
LOCK SYSTEM
WILL NOT LOCK
Cause
Solution
A. Lock bolt spring broken or defective.
A. Replace spring.
B. Dam aged sector to o th , or sector installed incorrectly.
B.
Replace, or install correctly.
C. Defective lock cylinder.
C.
Replace lock cylinder
D. Burr or lock b olt or housing.
D. Remove Burr.
E. Damaged housing.
E.
Replace housing.
F. T ransm ission linkage adjustm ent incorrect.
F.
Readjust (see Sec. 7).
G. Dam aged rack.
G. Replace rack.
H. I n te r f e r e n c e b e tw e e n b o w l a n d c o u p lin g ( tilt) .
H. Adjust or replace as necessary.
I.
Ignition sw itch stuck.
1.
Readjust or replace.
J.
A ctuator rod restricted or bent.
J.
Readjust or replace.
LOCK SYSTEM - HIGH EFFORT
Cause
Solution
A. Lock cylinder defective.
A. Replace lock cylinder.
B. Ignition sw itch defective.
B. Replace sw itch.
C. Rack preload spring broken or deform ed.
C. Replace spring.
D. Burrs on sector, rack, housing, support, tang o f shift gate
or a ctu ato r rod coupling.
D. Remove Burr.
E. Bent sector shaft.
E.
Replace shaft.
F.
F.
Replace rack
G.
Replace either or b oth.
D istorted rack.
G. M isa lig n m e n t o f h o u s in g to c o v e r ( t il t o n ly ).
Fig. 3B 4-3-A utom atic Transmission Column Diagnosis Chart A
LIG H T T R U C K SE R V IC E M A N U A L
STEERING C O L U M N S
LOCK SYSTEM
-
3B4-5
HIGH EFFORT (CONT'D.)
Cause
Solution
H. D is to rte d c o u p lin g slo t in r a c k ( tilt) .
H.
Replace rack.
I.
Bent or restricted actu ato r rod.
I.
Straighten remove restriction or replace.
J.
Ignition switch m ounting bracket bent.
J.
Straighten or replace.
HIGH EFFORT LOCK CY LIN D ER - BETWEEN
“OFF” AND "O FF-LOCK" POSITIONS
Cause
Solution
A. Burr on tang o f shift gate.
A. Remove burr.
B. D istorted rack.
B. Replace rack.
STICKS IN “STA RT" POSITION
Cause
Solution
A. A ctuator rod deform ed.
A. Straighten or replace.
B. Any high effo rt condition.
B. Check item s under high effo rt section.
KEY CAN NOT BE REM OVED
IN “OFF-LOCK" POSITION
Cause
Solution
A. Ignition switch is not set correctly.
A. Readjust ignition sw itch.
B. Defective lock cylinder.
B. Replace lock cylinder.
LOCK CYLINDER CAN BE REM OVED
WITHOUT DEPRESSING RETAINER
Cause
Solution
A. Lock cylinder w ith defective retainer.
A. Replace lock cylinder.
B. Lock cylinder w ith o u t retainer.
B.
C. Burr over retainer slot in housing cover.
C. Remove burr.
Replace lock cylinder.
LOCK BOLT HITS SHAFT LOCK
IN “O FF" AND "P A R K " POSITIONS
Cause
Solution
A. Ignition sw itch is not set correctly.
A. Readjust ignition sw itch.
IGNITION SYSTEM - ELECTRICAL SYSTEM
WILL NOT FUNCTION
Cause
Solution
A. Defective fuse in “ accessory” circuit.
A. Replace fuse.
B. C onnector body loose or defective.
B. Tighten or replace.
C. Defective wiring.
C. Repair or replace.
Fig. 3B4-4-A utom atic Transmission Column Diagnosis Chart B
LIGHT TRU C K SE R V IC E M A N U A L
3B4-6
STEERING C O L U M N S
IGNITION SYSTEM - ELECTRICAL SYSTEM WILL NOT FUNCTION (CONT'D.)
Cause
Solution
D. Defective ignition sw itch.
D. Replace ignition sw itch.
E. Ignition sw itch n o t adjusted properly.
E. Readjust ignition sw itch.
SWITCH WILL NOT ACTUATE M ECHAN ICALLY
Cause
Solution
A. Defective ignition sw itch.
A. Replace igntion sw itch.
SWITCH CAN NOT BE SET CORRECTLY
Cause
Solution
A. Sw itch a ctu ato r rod deform ed.
A. R epair or replace sw itch a c tu a to r rod.
B.
B.
S e c to r t o ra c k e n g a g e d in w ro n g t o o t h ( tilt) .
Engage sector to rack correctly.
NOISE IN COLUMN
Cause
Solution
A. C oupling b o lts loose.
A. T ighten pinch b o lts to specified torque.
B.
C olum n n o t c o rrectly aligned.
B.
Realign colum n.
C. C oupling pulled apart.
C. Replace coupling and realign colum n.
D. Sheared in term ed iate shaft plastic jo in t;
D. Replace or repair steering shaft and realign colum n.
E. H orn c o n ta ct ring not lubricated.
E. L ubricate w ith lubriplate.
F. Lfcck o f grease on bearings or bearing surfaces.
F. L ubricate bearings.
G. Lower shaft bearing tight or frozen.
G. Replace bearing. C heck shaft and replace if scored.
H. Upper shaft tight or frozen.
H. Replace housing assem bly.
I.
Shaft lock plate cover loose.
I.
J.
Lock plate snap ring n o t seated.
J.
K.
D efective buzzer dog cam on lock cylinder.
K. Replace lock cylinder.
T ighten three screws or, if missing, replace.
CAUTION: Use specified screws. (15 in. lbs.)
L. One click w hen in “ off-lock” position and the steering
w heel is m oved.
L.
Replace snap ring. Check for p roper seating in groove.
Norm al co n d itio n
- lock
b olt is seating.
Fig. 3B 4-5-A utom atic Transmission Column Diagnosis Chart C
LIGHT TR U C K SE R V IC E M A N U A L
STEERING C O L U M N S
3B4-7
HIGH STEERING SHAFT EFFORT
Cause
Solution
A. Colum n assem bly m isaligned in vehicle.
A. Realign.
B.
Im properly installed or deform ed dust seal.
B. Remove and replace.
C.
Tight or frozen upper or lower bearing.
C.
D. Flash on l.D. o f shift tube from plastic join t.
Replace affected bearing or bearings.
D. Replace shift tube.
HIGH SHIFT EFFORT
Cause
Solution
A. Colum n not aligned co rrectly in car.
A. Realign.
B. Im properly installed dust seal.
B. Remove and replace.
C.
C.
Lack ot grease on seal or bearing areas.
Lubricate bearings and seals.
D. Burr on upper or lower end o f shift tube,.
D. Remove burr.
E.
E. Reassemble properly.
L o w e r b o w l b e a rin g n o t a sse m b le d p r o p e rly ( tilt) .
F . W ave w a sh e r w ith b u rrs ( t il t o n ly ).
F. Replace wave washer.
IMPROPER TRANSM ISSIO N SHIFTING
Cause
Solution
A. Sheared shift tube jo in t.
A. Replace shift tube assem bly.
B. Im proper transm ission linkage adjustm ent.
B. Readjust linkage.
C. Loose lower shift lever.
C.
D. Im proper gate plate.
D. Replace w ith correct part.
E. Sheared lower shift lever weld.
E. Replace tube assem bly.
Replace shift tube assem bly.
LASH IN MOUNTED COLUMN ASSEM BLY
Cause
Solution
A. Instrum ent panel m ounting bolts loose.
A. Tighten to specifications. (20 ft. Ibs.)
B. Broken weld nuts on jac k et.
B. Replace jac k et assem bly.
C.
C.
Instrum ent panel b racket capsule sheared.
Replace bracket assem bly.
D. Instrum ent panel to jac k et m ounting bolts loose.
D. Tighten to specifications. (15 ft. lbs.)
E. L o o se sh o e s in h o u s in g ( t il t o n ly ).
E. Replace.
F. L o o se t ilt h e a d p iv o t p in s ( t il t o n ly ).
F.
G. L o o se sh o e lo c k p in in s u p p o r t ( t il t o n ly ).
G. Replace.
Replace.
M ISCELLANEOUS
Cause
Solution
A. Housing loose on jack et - will be noticed w ith ignition in
“ O ff-L ock” and a torque applied to the steering wheel.
A. Tighten four m ounting screws - (60 in. lbs.)
B. Shroud loose on shift bowl.
B. Bend tabs on shroud over lugs on bowl.
Fig. 3B4-6--Automatic Transmission Column Diagnosis Chart D
LIGHT T R U C K SER V IC E M A N U A L
3B4-8
STEERING C O L U M N S
M A N U A L T R A N S M IS S IO N
COLUM NS
G E N E R A L INFORMATION
All of the preceding diagnosis information for autom atic transmission will apply to the manual transmission. The following
information is supplied in addition to and specifically for manual transmission columns.
D R I V E R C A N L O C K S T E E R IN G
SECO N D G EA R
IN
Cause
Solution
A. Defective upper shift lever.
A. Replace shift lever.
B. Defective shift lever gate.
B.
Replace shift lever gate.
C. Loose relay lever on shift tube.
C.
Replace shift tube assembly.
HIGH SHIFT EFFORT
Cause
Solution
A. Column not aligned correctly in car.
A. Realign column.
B. Lower bowl bearing not assembled correctly.
B. Reassemble correctly.
C. Im properly installed seal.
C. Remove and replace.
D. Wave washer in lower bowl bearing defective.
D. Replace wave washer.
E. Im proper adjustm ent o f lower shift levers.
E. Readjust (see Sec. 7).
F.
F.
Lack ot grease on seal, bearing areas or levers.
G. Damaged shift tube in bearing areas.
Lubricate seal, levers and bearings.
G. Replace shift tube assembly.
IMPROPER TRANSMISSION SHIFTING
Cause
Solution
A. Loose relay lever on shift tube.
A. Replace shift tube assembly.
Fig. 3B4-7-Manual Transmission Column Diagnosis
LIGHT T R U C K SE R V IC E M A N U A L
STEERING C O L U M N S
3B4-9
TILT COLUMNS
GENERAL INFORMATION
All of the preceding diagnosis will generally apply to tilt columns. The following is supplied in
addition to and specifically for tilt columns.
HOUSING SCRAPING ON BOWL
Cause
Solution
A. Bowl bent or not concentric with hub.
A. Replace bowl.
STEERING WHEEL LOOSE
Cause
Solution
A. Excessive clearance betw een holes in support or housing
and pivot pin diameters.
A. Replace either or both .
B. Defective or missing anti-lash spring in spheres.
B. Add spring or replace both.
C. Upper bearing seat not seating in bearing.
C. Replace both.
D. Upper bearing inner race seat missing.
D. install seat.
F. Loose support screws.
F. Tighten to 60 in. lbs.
G. Bearing preload spring missing or broken.
G. Replace preload spring.
STEERING WHEEL LOOSE E V ER Y OTHER
TILT POSITION
Cause
Solution
A. Loose fit between shoe and shoe pivot pin.
A. Replace both.
NOISE WHEN TILTING COLUMN
Cause
Solution
A. Upper tilt b um p er worn.
A. Replace tilt bumper.
B. Tilt spring rubbing in housing.
B. Lubricate.
STEERING COLUMN NOT LOCKING IN
ANY TILT POSITION
Cause
Solution
A. Shoe seized on its pivot pin. ivot pin.
A. Replace shoe and-pivot pin.
B. Shoe grooves may have burrs or dirt.
B. Replace shoe.
C. Shoe lock spring weak or broken.
C.
Replace lock spring.
STEERING WHEEL FAILS TO RETURN
TO TOP TILT POSITION
Cause
Solution
A. Pivot pins are b ou n d up.
A. Replace pivot pins.
B. Wheel tilt spring is defective.
B. Replace tilt spring.
C. Turn signal switch wires t o o tight.
C. Reposition wires.
Fig. 3B4-8~Tilt Column Diagnosis
LIGHT T R U C K SE R V IC E M A N U A L
3B4-10
STEERING C O L U M N S
Fig. 3 B 4 -1 0 -C h e c k in g H arm onica Connector on Column
Fig. 3 B 4 -9 -C h e c k in g Fuses on Fuse Block
TURN SIGNAL DIAGNOSIS C AND K SERIES
Figs. 3B4-9 Through 3B4-16
W hen a com plaint is m ade involving the turn signal
system, it m ust first be determ ined w hether the problem is
m echanical ojr electrical. If m echanical, the switch itself is
at fault and m ust be repaired or replaced. If electrical, J23980 should be used to determ ine w hether the switch, or
the chassis wiring is in need of repair or replacem ent.
This diagnostic procedure has been designed to guide
the m echanic through the proper diagnosis and repair of the
turn signal system. The service section is to be used where
assembly a n d /o r disassembly procedures are required. The
wiring diagram , found in Section 12, should be used to
trouble shoot the chassis and body wiring after the problem
has been isolated.
The nature of the custom er com plaint will generally
point to the problem area.
If all lamps light when hazard w arning is depressed, but
flashing does not occur, replace hazard warning flasher. (On
fuse block) (Figure 3B4-11).
4.
If all directional lamps light when lane change or
turn indicator is actuated, but no flashing occurs, replace
the turn signal flasher.
The above four steps will, in most cases, cure the
common signal switch system troubles. If the system is still
not operating correctly, use J-23980 to determ ine w hether
the chassis wiring or the signal switch itself is at fault.
Mechanical
1.
If the custom er’s com plaint indicates the problem
is in the switch, function check as to return from full left
and full right turns.
A ctuate the turn lever into a full tu rn position in either
direction, then turn the steering wheel (m otor on - power
steering) at least 1/4 turn in the direction indicated and then
Electrical
Chassis Electrical
The most com m on tu rn signal system problems are
generally electrical and may easily, be fixed by the
replacem ent of fuses, bulbs, or flashers .
First m ake these checks and replace any non-operative
components.
1. Check fuses (Figure 3B4-9). Replace if blown. If
new fuse blows, replace flasher in system. (There are 2
flashers in the signal switch system. The hazard warning
flasher and tu rn signal flasher are located on the fuse block.
2. C heck for secure connection at the chassis to switch
connector. T his is the harm onica connector on the colum n
(Figure 3B4-10). Secure if loose. Check all individual wire
terminals for proper seating in the connector bodies.
Terminals should be locked in place.
3. Depress hazard w arning button and check all lights
in signal switch system. Replace any which do not work.
Fig. 3 B 4 -1 1 -C h e c k in g Hazard W arn ing Flasher
LIGHT T R U C K SE R V IC E M A N U A L
STEERING C O L U M N S
3B4-11
2. Check the return from lane change by holding the
lever in lane change and releasing (both left and right). If
the lever does not return to neutral, disassemble the upper
part of the column.
3. If the hazard warning button cannot be depressed
or released, the switch m ust be replaced.
Switch Visual Inspection
LANE CHANGE
RETURN SPRING
Fig. 3B 4-1 2--Checking Turn Signal Sw itch V isually
back to center. D o this in both directions. If the lever does
not return to the neutral position, disassemble the upper
part of the colum n until the switch is visible.
1. W ith the upper part of the column disassembled so
th at the signal switch is visible (Figure 3B4-12) check for
missing springs. Replace any spring that is missing,
inspecting the molded pins which secure them. If these pins
are broken, the switch m ust be replaced.
2. Check the position of the switch in the bowl. If it
appears cocked or crooked, loosen the securing screws (3)
and visually inspect the switch. If any of the plastic is broken
or badly deformed, the switch must be replaced.
3. If the switch appears undamaged, replace it being
careful to seat the pilot into the housing, tighten the screws
to 25 lbs. in. of torque.
LIGHT T R U C K SER V IC E M A N U A L
3B4-12
STEERING C O L U M N S
SIGNAL SWITCH DIAGNOSIS
CONDITION
Turn signal will not cancel
Loose switch
mounting screws
Switch or anchor
bosses broken
Broken, missing or out
of position detent, return
or cancelling spring
Uneven or incorrect
cancelling cam to
cancelling spring
interference.
(,120)/side
A.
A.
B.
A.
B.
C.
D.
Turn signal difficult
to operate
C.
D.
E.
Turn signal will not
indicate lane change
A.
B.
C.
Turn signal will not stay
in turn position
A.
B.
C.
Hazard switch cannot
be turned off
CORRECTION
POSSIBLE CAUSE
A.
B.
Tighten to specified
torque (25 in-lbs)
Replace switch
C.
Reposition or replace
springs as required
D.
Adjust switch position
1. If interference is
correct and switch
will still not cancel,
replace switch.
2. If interference
cannot be corrected
by switch
adjustment, replace
cancelling cam.
Actuator rod loose
A.
Yoke broken or
distorted
Loose or misplaced
springs
Foreign parts
and/or materials
Switch mounted
loosely
B.
Tighten mounting
screw (12 in-lb)
Replace switch
Broken lane change
pressure pad or
spring hanger
Broken, missing or
misplaced lane change
spring
Jammed base or wires
Foreign material or
loose parts impeding
movement of yoke
Broken or missing
detent or cancelling springs
None of the above
Foreign material
between hazard
support cancelling
leg and yoke
C.
D.
E.
Reposition or replace
springs
Remove foreign parts
and/or material
Tighten mounting
screws (25 in-lbs)
A.
Replace switch
B.
Replace or reposition
as required
C.
Loosen mounting
screws, reposition
base or wires and
retighten screws (25 in-lbs)
A.
Remove material
and/or parts
B.
Replace spring
C.
Replace switch
A.
Remove foreign material
1. No foreign material
impeding function
of hazard switch
—replace turn
signal switch
Fig. 3B4-13~Turn Signal Switch Diagnosis Chart A
LIGHT TR U C K S E R V IC E M A N U A L
STEERING C O L U M N S
3B4-13
SIGNAL SWITCH DIAGNOSIS
CONDITION
Hazard switch will not
stay on or difficult
to turn off
No turn signal lights
POSSIBLE CAUSE
A.
C.
Loose switch
mounting screws
Interference with
other components
Foreign material
C.
D.
None of the above
D.
A.
Defective or
blown fuse
Inoperative turn signal
flasher
Loose chassis to
column connector
Disconnect column
to chassis connector.
Connect new switch
to chassis and
operate switch by
hand.
If vehicle lights now
operate normally,
signal switch is
inoperative
If vehicle lights do
not operate check
chassis wiring for
opens, grounds, etc.
A.
B.
B.
C.
D.
E.
Turn indicator lights
on, but not flashing
CORRECTION
A.
B.
B.
C.
D.
Replace turn flasher
Note: There are two
flashers in the system.
Consult manual for location.
Connect securely
and check operation
Replace turn signal
switch
Replace signal switch
A.
B.
Loose chassis to
column connection
Inoperative turn
signal switch
To determine if turn
signal switch is
defective, substitute
new switch into
circuit and operate
switch by hand.
If the vehicle's lights
operate normally,
signal switch is
inoperative
If the vehicle's lights
do not operate,
check light sockets
for high resistance
connections, the
chassis wiring for
opens, grounds, etc.
B.
E.
Replace fuse and
check operation
Replace turn signal
flasher
Connect securely,
check operation
Replace signal switch
Repair chassis wiring
as required using
manual as guide
Inoperative turn
, flasher
D.
Remove foreign
material
Replace switch
E.
A.
C.
Tighten mounting
screws (25 in-lbs)
Remove interference
C.
D.
E.
Repair chassis wiring
as required using
manual as guide
Fig. 3B4-14-Turn Signal Switch Diagnosis Chart B
LIGHT T R U C K SE R V IC E M A N U A L
3B4-14
STEERING COLUMNS
CONDITION
Front or rear turn signal
lights not flashing
SIGNAL SWITCH DIAGNOSIS
POSSIBLE CAUSE
A.
Burned out fuse
A.
B.
Burned out or
damaged turn signal
bulb
High resistance
connection to ground
at bulb socket
B.
L o o s e c h a s s is to
D.
C.
D.
E.
F.
Stop light not on when
turn indicated
column connector
Disconnect column to
chassis connector.
Connect new switch
into system and
operate switch
by hand.
If turn signal lights
are now on and
flash, turn signal
switch is inoperative.
If vehicle lights do
not operate, check
chassis wiring harness
to light sockets for
opens, grounds, etc.
C.
E.
F.
A.
Burned out fuse
A.
B.
Loose column to
chassis connection
Disconnect column to
chassis connector.
Connect new switch
into system without
removing old. Operate
switch by hand.
If brake lights work
with switch in the
turn position, signal
switch is defective
If brake lights do not
work check connector
to stop light sockets
for grounds, opens,
etc.
B.
C.
D.
Turn indicator panel
lights not flashing
CORRECTION
A.
B.
C.
P ned out bulbs
High resistance to
ground at bulb socket
Opens, grounds in
wiring harness from
front turn signal bulb
socket to indicator
lights
C.
Replace fuse and
check operation
Replace bulb
Remove or repair
defective connection
and check operation
Connect securely and
check operation
Replace turn signal
switch.
Repair chassis wiring
as required using
manual as guide
Replace fuse and
check operation
Connect securely and
check operation
Replace signal switch
D.
Repair connector to
stop light circuits
using manual as guide.
A.
B.
Replace bulbs
Replace socket
C.
Locate and repair as
required. Use shop
manual as guide.
Fig. 3B4-1 5-Turn Signal Switch Diagnosis Chart C
LIGHT TR U C K SE R V IC E M A N U A L
STEERING C O L U M N S
3B4-15
SIGNAL SWITCH DIAGNOSIS
CONDITION
Turn signal lights flash
very slowly
A.
B.
C.
D.
E.
F.
Hazard signal lights will
not flash —turn signal
functions normally
CORRECTION
POSSIBLE CAUSE
Inoperative turn
signal flasher
System charging
voltage low
High resistance ground
at light sockets
Loose chassis to
column connection
Disconnect column
to chassis connector.
Connect new switch
into system without
removing old. Operate
switch by hand.
If flashing occurs
at normal rate, the
signal switch is
defective.
If the flashing rate is
still extremely slow,
check chassis wiring
harness from the
connector to light
sockets for grounds,
high resistance points,
etc.
A.
Blown fuse
B.
Inoperative hazard
warning flasher
Loose chassis to
column connection
Disconnect column to
chassis connector.
Connect new switch
into system without
removing old. Depress
the hazard warning
button and observe
the hazard warning
lights. If they now
work normally, the
turn signal switch
is defective.
If the lights do not
flash, check wiring
harness "K" lead
(brown) for open
between hazard
flasher and harmonica
connector. If open,
fuse block is defective.
C.
D.
E.
A.
C.
D.
E.
F.
C.
D.
E.
Replace turn signal
flasher
I ncrease voltage to
specified. See Sec. 6Y
Repair high resistance
grounds at light
sockets
Connect securely and
check operation
Replace signal switch
Locate and repair
as required.
Use manual as guide.
See Section 12
Replace fuse and
check operation
Replace hazard
warning flasher
Connect securely and
check operation
Replace the turn
signal switch
Replace fuse block
(See Sec. 12)
Fig. 3B4-16-Turn Signal Switch Diagnosis Chart D
LIGHT TRU C K SE R V IC E M A N U A L
3B4-16
STEERING C O L U M N S
MAINTENANCE AND ADJUSTMENTS
STEERING WHEEL ALIGNMENT
On all series vehicles, check steering gear for high point
centering as shown in Sections 3B2 and 3B3 before checking
steering wheel alignment.
1. Set wheels in straight ahead position by driving
vehicle a short distance.
2. N ote steering wheel position. If off m ore than 1 inch
from center (Fig. 3B4-17), remove steering wheel as
outlined under "Steering W heel - R em oval", center high
point on gear, reposition and reinstall the wheel.
STEERING COLUMN LOWER BEARING
ADJUSTMENT
G and P Series Only
1. Loosen clam p on steering shaft.
2. Applying 50 lb. force to the steering wheel end of
the steering shaft, adjust clam p to obtain clearances
indicated in Figure 3B4-18.
3. Tighten clam p bolt to specified torque.
SHIFTER TUBE ADJUSTMENT
G and P Series Only
3-Speed Transmission
1. Loosen adjusting ring attaching screws and clamp
bolt.
2. R otate adjusting ring to give .005" end play between
adjusting ring and first and reverse shifter lever (Fig. 3B419).
3. Tighten attaching screws and clam p bolt.
Automatic Transmission
1. Place the shift tube lever in "N eutral" or "D rive".
2. Loosen adjusting ring clam p screws and rotate the
shift tube adjusting ring to obtain .33" to .36" clearance
between the shift tube lever and adjusting ring (Fig. 3B420).
3. Tighten the adjusting ring clam p screws to 70 in.
lbs.
LIGHT T R U C K SE R V IC E M A N U A L
STEERING C O L U M N S
Fig. 3 B 4 -1 9 ~ S h ift Tube A djustm ent-3 Speed M an u al
Transm ission
3B4-17
Fig. 3 B 4 -2 0 --S h ift Tube A d justm ent-A utom atic Transm ission
LIGHT TR U C K SER V IC E M A N U A L
3B4-18
STEERING C O L U M N S
ON-VEHICLE SERVICE
INDEX
C-Series and K -S eries.......................................................3B4-18
Steering W h e e l............................................................... ..3B4-18
Flexible C oupling.......................................................... ..3B4-18
Interm ediate Shaft............................... ............................3B4-19
D irectional Signal S w itch.............................................3B4-20
Lock C y lin d er................................................................ .3B4-21
Ignition Sw itch............................................................... .3B4-22
Steering C o lu m n .............................................................3B4-23
R em oval......................................................................... .3B4-24
Disassembly, Standard C olum n.......... .................... .3B4-24
Disassembly, T ilt C o lu m n ........................................ .3B4-29
Installation, M andatory Sequence.......................... .3B4-34
G-Series and P-Series.......................................................3B4-35
STEERING WHEEL
Removal
Steering W h eel...............................................................
Flexible C oupling..........................................................
Interm ediate Shaft.........................................................
Colum n U pper B earin g ........ .......................................
Colum n Lower B earing ...............................................
Tilt Colum n Bearing H ousing....................................
D irectional Signal Sw itch............................................
Steering C o lu m n ............................................................
Rem oval.........................................................................
Disassembly, Standard C olum n...............................
Disassembly, Tilt C o lu m n ........................................
Installation, M andatory Sequence..........................
3B4-35
3B4-35
3B4-36
3B4-38
3B4-38
3B4-39
3B4-40
3 B 4-41
3 B 4-41
3B4-41
3B4-44
3B4-48
Installation
NOTICE: See N O T IC E on page 1 of this section
regarding the fasteners referred to in step 1.
1. D isconnect battery ground cable.
2. Rem ove horn button cap.
3. Rem ove snap ring and steering wheel nut.
4. Using tool J - l859-03,thread puller anchor screws
into holes provided on steering wheel. See Fig. 3B4-21. Turn
center bolt of tool clockwise to remove wheel.
1. W ith turn signal in neutral position, align m arks
and set wheel onto steering shaft. Torque steering shaft nut
to specifications and install snap ring.
NOTICE: D o not ham m er on puller, or dam age could
occur to the com ponents. The tool centering adapters
need not be used.
2. Place steering wheel horn button on wheel and snap
into proper position.
NOTICE: D o not over torque shaft nut or steering
wheel rub may result.
3. Connect battery ground cable.
STEERING COUPLING (FLEXIBLE TYPE)
Removal (Fig. 3B4-22)
1. Remove the coupling to steering shaft flange bolt
nuts.
CAPTURING
STRAP
COUPLING TO
STEERING SHAFT
FLANGE BOLTS
Fig. 3B4-21-Steering Wheel Removal
Fig. 3B4-22~Flexible Type Steering Coupling
LIGHT T R U C K 8E RV ICE M A N U A L
STEERING C O L U M N S
OW ER
BEARING
BLOCKS
3B4-19
BOLT
COVER
SNAP
RING
ft I
UPPER
SHAFT
CLAMP
TENSION
NUT
QDD IKJn
Fig. 3 B 4 -2 3 -S te e rin g S h a ft Interm ediate Coupling
2. Remove the coupling clam p bolt. This is a special
bolt and will require a 12 pt. socket or box wrench.
3. Remove the steering gear to fram e bolts and lower
the steering gear far enough to remove the flexible coupling.
It is not necessary to disconnect the pitm an arm from the
pitm an shaft.
4. T ap lightly on the flexible coupling with a soft
m allet to remove the coupling from the steering gear
worm shaft.
Installation
NOTICE: See N O T IC E on page 1 of this section
regarding the fasteners referred to in steps 2, 4 and 5.
1. Install the flexible coupling onto the steering gear
w orm shaft, aligning the flat on the shaft with the flat in the
coupling. Push the coupling onto the w orm shaft until the
coupling reinforcem ent bottom s against the end of the
worm.
2. Install the special bolt into the split clam p and
torque to specifications.
NOTICE:
The bolt m ust pass through the shaft
undercut, or dam age could occur to the components.
3. Place the steering gear into position, guiding the
flexible coupling bolts into the proper holes in the steering
shaft flange.
4. Install and tighten the steering gear to frame bolts.
5. Install the coupling to flange bolt nuts and washers
and torque to specifications. Be sure to m aintain a coupling
to flange dimension o f .250" to .375". The coupling
alignm ent pins should be centered in the flange slots.
INTERMEDIATE STEERING SHAFTS WITH POT
JOINT COUPLINGS
Removal (Fig. 3B4-23)
1. Remove the lower shaft flange to flexible coupling
bolts.
2. Remove upper shaft to interm ediate coupling bolt.
3. If necessary, remove the steering gear to frame bolts
and lower the steering gear far enough to remove the
interm ediate shaft assembly. It is not necessary to remove
Fig. 3 B 4 -2 4 -C h e c k in g Coupling Pin C entering
the pitm an arm from the pitm an shaft.
Disassembly
1. M ark cover to shaft relationship. Pry off snap ring
and slide cover from shaft.
2. Remove bearing blocks and tension spring from
pivot pin.
3. Clean grease off pin and end of shaft. Scribe location
m ark on pin on same side as chamfer in shaft.
4. Supporting shaft assembly securely, with cham fer
up, press pin out of shaft with arbor press.
NOTICE: D o not drive pin out with ham m er. This
could cause sticky or binding bearings when
reassembled.
5. Remove seal clam p and slide seal off end of shaft.
Assembly
1. Be sure all parts are free of dirt. Slide seal onto
steering shaft. W ith lip of seal against step in shaft clamp
seal.
2. Press pin back into shaft from cham fered side.
Locate pin in shaft using scribe m ark as reference.
NOTICE: Pin m ust be centered within .012 in. or
binding in the coupling could result.
3. Check centering of pin (Fig. 3B4-24).
a. Place just enough 3/8" flat washers on pin to
prevent bearing block from bottom ing when installed.
b. M easure distance from end of pin to top of bearing
with micrometer.
LIGHT T R U C K SE R V IC E M A N U A L
3B4-20
STEERING C O L U M N S
Fig. 3B 4-26--R em ovin g Lock Plate Retaining Ring
Removal (Fig. 3B4-25)
Fig. 3 B 4 -2 5 -D ire c tio n a l Signal Sw itch
1. Remove the steering wheel as outlined under
"Steering Wheel - Removal".
2. Remove the colum n to instrum ent panel trim cover.
3. Position screwdriver blade into cover slot. Pry up
c.
Remove bearing and washers and place same bearing and out to free cover from lock plate.
and washers on other end of pin. M easure distance from end
4. Screw the center post of Lock Plate Compressing
of pin to top of bearing. If m icrom eter readings in Steps b
Tool J-23653 onto the steering shaft as far as it will go.
and c differ m ore than .012, repeat last part o f Step 2 and
Compress the lock plate by turning the center post nut
recheck.
clockwise (Fig. 3B4-26). Pry the round wire snap ring out
4. Apply a liberal am ount of wheel bearing grease to
of the shaft groove and discard the ring. Remove Tool Jinside and outside of bearing blocks and inside of cover.
23653 and lift the lock plate off the end of the shaft.
5. Position tension spring and bearing blocks on pin.
NOTICE: If the colum n is being disassembled on the
6. Slide cover over bearing blocks aligning reference
bench,
with the snap ring removed the shaft could slide
m ark on cover w ith m ark on shaft. Install seal into end of
out of the lower end of the m ast jacket, damaging the
cover and secure with snap ring retainer.
shaft assembly.
Installation
NOTICE:
See N O T IC E on page 1 of this section
regarding the fasteners referred to in steps 1, 3 and 4.
5.
Slide the directional signal cancelling cam, upper
bearing preload spring and thrust w asher off the end of the
shaft.
1. Install the interm ediate shaft assembly onto the
steering shaft, aligning the flat on the shaft with the flat in
the coupling. Install the pot jo in t clam p bolt and torque to
specifications.
2. Lift the steering gear into position, guiding the
flexible coupling bolts into the shaft flange holes.
3. Install the steering gear to fram e bolts and torque
to specifications.
4. Install the flexible coupling to steering shaft flange
bolt lockwashers and nuts. Check th at the coupling
alignment pins are centered in the flange slots and then
torque the coupling bolts to specifications.
DIRECTIONAL SIGNAL SWITCH
The directional signal switch can be removed w ith the
steering colum n in the vehicle and w ithout disturbing any
of the colum n mountings.
Fig. 3B4-27~Removing Directional Signal Wire Protector
LIGHT T R U C K SE R V IC E M A N U A L
STEERING C O L U M N S
Fig. 3 B 4 -3 0 -ln s ta llin g Snap Ring
Fig. 3B 4 -2 8 ~ R e m o v in g Directional Signal Sw itch Assem bly
6. Remove the directional signal lever screw and
rem ove the lever.
7. Push the hazard w arning knob in and unscrew the
knob.
8. Remove the three switch m ounting screws.
9. All Columns - Pull the switch connector out of
the bracket on the jacket and feed switch connector through
colum n support bracket and pull switch straight up, guiding
the wiring harness through the colum n housing and
protector.
10. Remove wire protector by pulling dow nw ard out of
colum n with pliers using tab provided (Fig. 3B4-27).
Tilt Column - Position the direction signal and shifter
housing in the "low" position. Remove the harness cover
by pulling tow ard the lower end of the colum n, be careful
not to dam age the wires.
11. Remove the three switch m ounting screws and pull
the switch straight up, guiding the wiring harness and cover
through the column housing (Fig. 3B4-28).
3B4-21
Installation
CAUTION: It is extremely important that
only the specified screws, bolts and nuts
be used at assembly, or personal injury
could result. Use of overlength screws
could prevent a portion of the assembly
from compressing under impact.
1. All except Tilt - Be sure that the wiring harness
is in the protector. Feed the connector and cover down
through the housing and under the m ounting bracket
(colum n in vehicle).
Tilt - Feed the connector down through the housing
and under the m ounting bracket. Then install the cover on
the harness.
2. Install the three m ounting screws and clip the
connector to the bracket on the jacket (Fig. 3B4-29).
3. Install the colum n to instrum ent panel trim plate.
4. Install the hazard warning knob and directional
signal lever.
5. M ake certain that the switch is in "N eutral" and the
hazard warning knob is out. Slide the thrust washer, upper
bearing preload spring and cancelling cam onto the upper
end of the shaft.
6. Place the lock plate onto the end of the shaft. Screw
the center post of Lock Plate Compressing Tool J-23653
onto the steering shaft as far as it will go. Place a N EW snap
ring over the center post. Place the "C" bar over the center
post and then compress the lock plate by turning the nut
clockwise. Slide the new snap ring down the tapered center
post and into the shaft groove (Fig.3B4-30). Remove Tool
J-23653.
Always use a new snap ring when reassembling.
7. Place cover on the lock plate and snap into position.
8. Install the steering wheel as outlined under
"Steering W heel-Installation".
LOCK CYLINDER
Fig. 3B4-29-lnstalling Switch Connector Onto Jacket Clips
The lock cylinder is located on the upper right hand
side of the column. The lock cylinder should be removed
in the "R U N " position only.
LIGHT T R U C K SER V IC E M A N U A L
3B4-22
STEERING C O L U M N S
LOCK CYLINDER INSTALLATION
DISASSEMBLE
ASSEMBLE
1.
Place lock in “run”.
1.
2.
Remove lock plate, turn signal switch and buzzer switch (see
service manual.)
2.
Push lock all the way in.
3.
Install screw. Tighten to 4.5 N*m for regular columns2.5 N*m for adjustable columns.
3.
Remove screw & lock cylinder. CAUTION: If screw is dropped
on removal, it could fall into the column, requiring complete
disassembly to retrieve the screw.
Rotate as shown, align cylinder key with keyway in housing.
LOCK
CYLINDER
SET
To-assemble — Rotate to
stop while holding cylinder.
HOUSING
CYLINDER KEY
LOCK RETAINING SCREW
Fig. 3 B 4 -3 1 -L o ck C ylind er Removal
Replacement
1. Remove the steering wheel as outlined under
"Steering W heel - Rem oval".
2. Rem ove the directional signal switch as outlined
under "D irectional Signal Switch - Rem oval".
It is not necessary to com pletely remove the directional
signal switch from the colum n. Pull the switch rearw ard far
enough to slip it over the end o f the shaft - do not pull the
harness out o f the colum n.
3. Refer to Fig. 3B4-31 for details on replacem ent of
lock cylinder.
IGNITION SWITCH
The ignition switch is m ounted on top of the colum n
jacket near the front of the dash. F o r anti-theft reasons, the
switch is located inside the channel section o f the brake
pedal support and is completely inaccessible w ithout first
lowering the steering colum n (see steering colum n removal).
The switch is actuated by a rod and rack assembly. A
portion of the rack is toothed and engages a gear on the end
of the lock cylinder, thus enabling the rod and rack to be
moved axially (w ith respect to the colum n) to actuate the
switch when the lock cylinder is rotated.
detent, which is the "Lock" position.
3.
Remove the two switch screws and remove the
switch assembly.
Installation
1. Before replacing the switch, be sure th at the lock
is in the "Lock" position (Fig. 3B4-32); if it is not, a
screwdriver (placed in the locking rod slot) can be used to
move the switch to "Lock".
2. Install the activating rod into the switch and
assemble the switch on the column; tighten the m ounting
screws.
Removal
1. Lower the steering colum n as outlined under
"Steering Colum n Removal" later in this section. It is not
necessary to rem ove the steering wheel.
If the steering colum n is not removed from the vehicle,
be sure th at it is properly supported, before proceeding.
2. The switch should be positioned in "Lock" position
before removing. If the lock cylinder has already been
removed, the actuating rod to the switch should be pulled
up until there is a definite stop, then moved down one
SWITCH IN LO C K PO SITIO N
Fig. 3 B 4 -3 2 -lg n itio n Sw itch Assem bly
LIGHT T R U C K SE R V IC E M A N U A L
STEERING C O L U M N S
3B4-23
CAUTION: Use only the specified screws
since over-length screws could prevent a
portion
of the
assembly
from
compressing under impact, which could
result in personal injury.
3.
Reinstall the steering colum n assembly following
the "M andatory Installation Sequence" outlined later in this
section.
STEERING COLUMN
To perform service procedures on the steering colum n
upper end components, it is not necessary to remove the
colum n from the vehicle.
T he steering wheel, horn com ponents, directional
signal switch, and ignition lock cylinder may be removed
with the colum n remaining in the vehicle as described
earlier in this section.
CAUTION: The outer mast jacket shift
tube, steering shaft and instrument panel
mounting bracket are designed as energy
absorbing units. Because of the design of
these components, it is absolutely
necessary to handle the column with care
when performing any service operation.
Avoid hammering, jarring, dropping or
leaning on any portion of the column.
When
reassembling
the
column
components, use only the specified
screws, nuts and bolts and tighten to
specified torque. Care should be
exercised in using over-length screws or
bolts as they may prevent a portion of the
column from compressing under impact.
Fig. 3 B 4 -3 3 ~ A u to m a tic Transm ission Ind icato r ConnectionCK-Typical
of the "shifter shaft", the plastic joints are sheared.
SteeringShaft
If the steering shaft plastic pins have been sheared, the
shaft will rattle when struck lightly from the side and some
lash may be felt when rotating the steering wheel while
holding the rag joint. It should be noted that if the steering
shaft pins are sheared due to m inor collision the vehicle can
be safely steered; however, steering shaft replacem ent is
recommended.
Because of the differences in the steering colum n types,
be sure to refer to the set of instructions below which apply
to the colum n being serviced.
Inspection
To determ ine if the energy absorbing steering colum n
com ponents are functioning as designed, or if repairs are
required, a close inspection should be made. Inspection is
called for in all cases where dam age is evident or whenever
the vehicle is being repaired due to a front end collision.
W henever a force has been exerted on the steering wheel or
steering colum n, or its com ponents, inspection should also
be made. If dam age is evident, the affected parts m ust be
replaced.
The inspection procedure for the various steering
colum n com ponents on all C and K Series T rucks is as
follows:
ColumnSupportBracket
D am age in this area will be indicated by separation of
the m ounting capsules from the bracket. The bracket will
have moved forward tow ard the engine com partm ent and
will usually result in collapsing of the jacket section of the
steering column.
ColumnJacket
Inspect jacket section o f colum n for looseness, a n d /o r
bends.
ShifterShaft
Separation of the shifter shaft sections will be internal
and cannot be visually identified. H old lower end of the
"shifter shaft" and move "shift lever" on colum n through
its ranges and up and down. If there is little or no m ovement
LIGHT T R U C K SE R V IC E M A N U A L
3B4-24
STEERING C O L U M N S
Removal
F ro n t o f dash m ounting plates m ust be loosened
whenever the steering colum n is to be lowered from the
instrum ent panel.
1. D isconnect the battery ground cable.
2. Remove the steering wheel as outlined under
"Steering W heel R em oval".
3. Remove the nuts and washers securing the flanged
end of the steering shaft to the flexible coupling.
10. Remove the two colum n bracket-to-instrum ent
panel nuts and carefull remove from vehicle. A dditional
help should be obtained to guide the lower shift levers
through the firewall opening.
C and K Series, Standard Column - (Fig. 3B4-40)
Disassembly
1. Remove the four dash panel bracket-to-colum n
screws and lay the bracket in a safe place to prevent damage
to the m ounting capsules.
2. Place the column in a vise using both weld nuts of
either Set A or B as shown in Figure 3B4-41. The vise jaws
m ust clamp onto the sides of the weld nuts indicated by
arrow s shown on Set B.
NOTICE: D o not place the colum n in a vise by
clamping onto one weld nut of both sets A and B or
by clamping onto the sides not indicated by arrows,
since dam age to the colum n could result.
4. D isconnect the transm ission control linkage from
the colum n shift tube levers.
5. Disconnect the steering colum n harness at the
connector. D isconnect the neutral-start switch and back-up
lam p switch connectors if so equipped.
6. Remove the floor pan trim cover screws and remove
the cover.
7. Remove the transm ission indicator cable, if so
equipped (Fig. 3B4-33).
8. Remove the screws securing the two halves of the
floor pan cover; then rem ove the screws securing the halves
and seal to the floor pan and remove the covers (Fig. 3B434).
9. Move the front seat as far back as possible to provide
m axim um clearance.
3. Remove the D irectional Signal Switch, Lock
Cylinder, and Ignition Switch as outlined previously in this
section.
4. Column Shift Models - D rive out the upper shift
lever pivot pin and remove the shift lever.
5. Remove the upper bearing th ru st washer. Remove
the four screws attaching the turn signal and ignition lock
housing to the jacket and remove the housing assembly (Fig.
3B4-42).
6. Remove the thrust cap from the lower side of the
housing.
7. Lift the ignition switch actuating rod and rack
assembly, the rack preload spring and the shaft lock bolt
and spring assembly out of the housing (Fig. 3B4-43).
8. Remove the shift lever detent plate (shift gate).
9. Remove the ignition switch actuator sector through
the lock cylinder hole by pushing firmly on the block tooth
of the sector with a blunt punch or screwdriver (Fig. 3B444).
10. Remove the gearshift lever housing and shroud
from the jacket assembly (transm ission control lock tube
housing and shroud on floor shift models).
11. Remove the shift lever spring from the gearshift
lever housing (lock tube spring on floor shift models).
12. Pull the steering shaft from lower end of the jacket
assembly.
LIGHT T R U C K SE R V IC E M A N U A L
STEERING C OLU M NS
STEERING COLUMN
RETAINER
NUT, Hexagon Jam
COVER, Shaft Lock
RING, Retaining
6. LOCK, Steering Shaft
7. CAM ASM, Turn Signal Cancelling
8. SPRING, Upper Bearing
9. SCREW, Pan Head Cross Recess
10. SWITCH ASM, Turn Signal
11. PROTECTOR, Wiring
12. SCREW, Hex Washer Head Tapping
13. WASHER, Thrust
14. BEARING ASM
17. HOUSING, Steering Column
18. SHAFT, Sector
19. SECTOR, Switch Actuator
20. SPRING, Rack Preload
21. CUP, Thrust
22. RACK ASM, Rod &
23. SCREW, Dimmer Switch Mounting
24. SWITCH ASM, Dimmer
25. SCREW, Flat Head Cross Recess
26. GATE, Shift Lever
27. WASHER, Spring Thrust
28. BOLT ASM, Spring &
29. SPRING. Upper Shift Lever
1.
2.
3.
4.
5.
30.
31.
32.
33.
34.
35.
36.
37.
38.
39.
40.
41.
42.
43.
44.
45.
46.
47.
48.
49.
50.
51.
61.
62.
67.
68.
3B4-25
BOWL, Gearshift Lever
SHROUD, Shift Bowl
BEARING, Bowl Lower
JACKET ASM, Steering Column
SCREW, Washer Head
SWITCH ASM, Ignition
SEAL, Dash
TUBE ASM, Shift
WASHER, Spring Thrust
SPRING, Shift Tube Return
ADAPTER, Lower Bearing
RETAINER, Bearing Adapter
CLIP, Lower Bearing Adapter
BEARING ASM
SCREW ASM, Lockwasher &
SPACER, Lower Shift Lever
LEVER, Lower Shift
BUSHING ASM, Steering Shaft
RING, Retaining
SHAFT ASM, Steering
SCREW, Flat Head
ROD, Dimmer Switch Actuator
WASHER, Wave
PLATE, Support & Alignment
LOCK CYLINDER SET, Strg Coumn
SCREW, Lock Retaining
Fig. 3B4-40a-Std. Column; Auto. Trans, or 3-Speed
LIGHT TR U C K SE R V IC E M A N U A L
3B4-26
S TE E RI NG C O L U M N S
1.
2.
3.
4.
5.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
ROD, Switch Actuator
RACK, Switch Actuator
SPRING, Rack Preload
SECTOR, Switch Actuator
HOUSING, Steering Column
A/ASHER, Thrust
SCREW, Hex Washer Head Tapping
SWITCH ASSEMBLY, Turn Signal
SCREW, Pan Head Cross Recess
SPRING, Upper Bearing
DAM ASM, Turn Signal Cancelling
LOCK, STEERING SHAFT
RING, Retaining
COVER, Shaft Lock
MUT, Hexagon Jam
RETAINER
SCREW, Pan Head Cross Recess
SHROUD, Steering Column
WASHER, Spring Thrust
BOLT ASSEMBLY, Spring
SPRING, Key Release
LEVER, Key Release
25. WASHER, Wave
26. SHAFT ASSEMBLY, Steering
27. RING, Retaining
30. SEAL, Jacket & Dash Bracket
32. JACKET ASSEMBLY, Sleeve
33. SWITCH ASSEMBLY, Ignition
34. SCREW, Washer Head
49. BEARING ASM
50. RETAINER, Upper Bearing
51. SCREW, Flat Head
58. BOWL. Floor Shift
59. PROTECTOR, Wiring
62. ADAPTER, Lower Bearing
63. BEARING ASM
64. CLIP, Lower Bearing Adapter
65. RETAINER, Bearing Adapter
66 . LOCK CYLINDER SET, Strg Column
67. SCREW, Lock Retaining
23.
24.
Fig. 3B4-40b-Std. Column, 4-Speed Trans.
LIGHT T R U C K SE R V IC E M A N U A L
STEERING C O L U M N S
Fig. 3 B 4 - 4 1—Installing Steering Column in Vise
13. Remove the two screws holding the back-up switch
or neutral-safety switch to the colum n and remove the
switch.
14. Rem ove the lower bearing retainer clip (Fig. 3B445).
15. Automatic and Floorshift Columns - Remove
the lower bearing retainer, bearing adapter assembly, shift
tube th ru st spring and washer. The lower bearing may be
rem oved from the adapter by light pressure on the bearing
outer race. Slide out the shift tube assembly.
Manual Transmission - C olum n Shift - Remove the
lower bearing adapter, bearing and the first reverse shift
lever. The lower bearing m ay be rem oved from the adapter
by light pressure on the bearing outer race. Remove the
three screws from bearing at the lower end and slide out the
shift tube assembly. Remove the gearshift housing lower
bearing from the upper end o f the m ast jacket.
3B4-27
6. Install the gearshift housing lower bearing. Insert
the bearing from the very end of the jacket. Aligning the
indentations in the bearing with the projections on the jacket
(Fig. 3B4-47). If the bearing is not installed correctly, it will
not rest on all of the stops provided.
7. Install the shift lever spring into the gearshift lever
(or lock tube) housing. Install the housing and shroud
assemblies onto the upper end of the m ast jacket. R otate the
housing to be sure it is seated in the bearing.
8. W ith the shift lever housing in place, install the turn
signal and lock cylinder housing onto the jacket. The
gearshift housing should be in "Park" position and the rack
pulled downward. Be sure the turn signal housing is seated
on the jacket and drive the four screws.
9. Press the lower bearing into the adapter assembly.
10. Insert the shift tube assembly into the lower end of
the jacket and rotate until the upper shift tube key slides
into the housing keyway.
11. Automatic and Floor shift Columns Assemble the spring and lower bearing and adapter
assembly into the bottom of the jacket. H olding the adapter
in place, install the lower bearing reinforcem ent and retainer
clip. Be sure the clip snaps into the jacket and reinforcem ent
slots.
12. Manual Transmission - Column Shift Loosely attach the three screws in the jacket and shift tube
bearing.
Assemble the 1st-Reverse lever and lower bearing and
adapter assembly into the bottom of the jacket. Holding the
adapter in place, install the bearing reinforcem ent and
retaining clip. Be sure the retaining clip snaps into the jacket
and reinforcem ent slots.
Refer to Fig. 3B4--48 for adjustm ent procedure.
Assembly of Standard Columns
A pply a thin coat o f lithium soap grease to all friction
surfaces.
1. Install the sector into the tu rn signal and lock
cylinder housing. Install the sector in the lock cylinder hole
over the sector shaft with the tang end to the outside of the
hole. Press th e sector over the shaft with a blunt tool.
2. Install the shift lever detent plate onto the housing.
3. Insert the rack preload spring into the housing from
the bottom side. The long section should be tow ard the
handw heel and hook onto the edge of the housing (Fig.
3B4-46).
4. Assemble the locking bolt onto the crossover arm
on the rack and insert the rack and lock bolt assembly into
the housing from the bottom w ith the teeth up (tow ard
hand-w heel) and tow ard the centerline of the colum n (Fig.
3B4-43). Align the 1st tooth on the sector with the 1st tooth
on the rack; if aligned properly, the block teeth will line up
when the rack assembly is pushed all the way in.
5. Install the th ru st cup on the bottom hub of the
housing.
Fig. 3B 4 -4 2 ~ R e m o v in g Turn Signal Housing
LIGHT T R U C K SE R V IC E M A N U A L
3B4-28
STEERING C O L U M N S
SHIFT GATE
RACK
LOCK BOLT
LOCK BOLT
SPRING
THRUST
CUP
SECTOR
Fig. 3 B 4 -4 3 ~ T u rn S ig nal Housing Assem bly
Fig. 3 B 4 -4 5 -R e m o v in g Low er Bearing Retainer
Fig. 3 B 4 -4 4 -R e m o v in g Ignition Sw itch A c tuator Sector
Fig. 3 B 4 -4 6 -ln s ta llin g Rack Preload Spring
13. Install the neutral-safety or back-up switch as
outlined in Section 8 of this m anual.
14. Slide the steering shaft into the colum n and install
the upper bearing thrust washer.
15. Install the tu rn signal switch, lock cylinder
assembly and ignition switch as previously outlined in this
section.
16. Install the shift lever and shift lever pivot pin.
17. Remove the colum n from the vise.
18. Install the dash bracket to the column; torque the
screws to specifications.
Fig. 3 B 4 -4 7 ~ ln s ta llin g G earshift Housing Low er Bearing
LIGHT TR U C K SE R V IC E M A N U A L
STEERING C O L U M N S
_IVIAAOI
A. TO REDUCE CLEARANCE
SLIDE THE CLAMPING
SC REW S AROUND THE
M A S T JACKET IN THE
DIRECTION OF ARROW A.
A. TO REDUCE CLEARANCE
SLIDE THE CLAMPING
SC R EW S AROUND THE
M A ST JACKET IN THE
DIRECTION OF ARROW A.
.M A S T JACKET
.2 -3 SHIFT LEVER
.PICK UP LEVER
1 ST-REV.
SHIFT LEVER
B. TO INCREASE CLEARANCE
I
-2 -3 SHIFT LEVER
-PICK UP LEVER
B. TO INCREASE CLEARANCE
SLIDE THE CLAMPING
SC R EW S AROUND THE
M A S T JAC KET IN THE
DIRECTION OF ARROW B.
SLIDE THE CLAMPING
SC R EW S AROUND THE
M A S T JACKET IN THE
DIRECTION OF ARROW B.
3B4-29
ALIGNMENT
LEVER
.0 0 5 IN. SHIM
UPPER STRG.
SHAFT
SPACER
\ L LOWER MAST
LOWER BEARING JACKET BEARING
RETAINER
"LOWER M AST
JACKET BEARING
LOWER BEARING
RETAINER
AD JU S TM EN T PROCEDURE
1. WITH THE TRANSMISSION IN NEUTRAL DISCON
NECT THE TRANSMISSION RODS.
2. TEST FOR R O TATIO NAL DRAG BY TURNING
THE S HIFT LEVER (INSIDE TRUCK) THROUGH
THE 2-3 S HIFT ARC. DRAG MEASURED AT THE
S HIFT KNOB MUST BE NO MORE THAN 2.0 LBS.
IF DRAG IS MORE THA N 2.0 LBS. CORRECTIONS
MUST BE MADE BEFORE PROCEEDING W ITH THIS
ADMUSTMENT.
3. LOOSEN THE THREE CLAMPING SCREWS.
4. INSTALL A .005 IN. THICK SHIM BETWEEN THE
SPACE AND EITHER OF THE SHIFT LEVERS. THE
ABOVE ILLUSTRATIO N SHOWS THE SHIM BE
TWEEN THE SPACER AND THE 2-3 SHIFT LEVER.
5. SLIDE THE CLAMPING SCREWS IN DIRECTIO N
OF ARROW B U N T IL THE SYSTEM IS LOOSE. THEN
SLIDE THE SCREWS IN OPPOSITE DIRECTIO N
U N T IL A D E FIN ITE DRAG IS FELT AT THE 1STREV. SHIFT LEVER.
6. TIG HTEN THE CLAMPING SCREWS.
7. REMOVE THE SHIM.
8. REINSTALL THE TRANSMISSION RODS.
A D JU S TM EN T PROCEDURE
1. WITH THE TRANSMISSION IN NEUTRAL DISCON
NECT THE TRANSMISSION RODS.
2. TEST FOR RO TATIO NAL DRAG BY TUR NING THE
SHIFT LEVER (INSIDE TRUCK) THROUGH THE
2-3 S HIFT ARC. DRAG. MEASURED AT THE SHIFT
KNOB, MUST BE NO MORE THAN 2.0 LBS. IF
DRAG IS MORE THA N 2.0 LBS. CORRECTIONS
MUST BE MADE BEFORE PROCEEDING WITH THE
ADJUSTMENT.
3. LOOSEN THE THREE CLAMPING SCREWS.
4. INCREASE CLEARANCE BY SLIDING THE CLAMP
ING SCREWS IN DIRECTIO N OF ARROW "B" ABOVE
UN TIL THE 1ST-REV. SHIFT LEVER COMPLETELY
FREE OF DRAG.
5. DECREASE CLEARANCE BY SLIDING THE CLAMP
ING SCREWS IN DIRECTIO N OF ARROW "A " ABOVE
U N TIL A SLIGHT DRAG IS FELT AT THE 1ST-REV.
SHIFT LEVER.
6. TIG HTEN THE THREE CLAMPING SCREWS.
7. RECONNECT THE TRANSMISSION RODS
NOTE: IF NO PROBLEM W ITH STEERING COLUMN
DRAG IS IN V O L V E D , THIS ADJUSTMENT CAN
BE MADE BY DISCONNECTING ONLY THE
1ST. REV. TRANSMISSION ROD AND O M ITTING
STEP 2.
NOTE: IF THERE IS NO PROBLEM W ITH STEERING
COLUMN DRAG. THIS ADJUSTMENT CAN BE
MADE BY DISCONNECTING O NLY THE 1ST.
REV. TRANSMISSION ROD AND OMITTING
STEP. 2.
Fig. 3 B 4 -4 8 -A d ju s tin g Low er Bearing-Typical
“I
,-n
Disassembly-Tilt Columns (Fig. 3B4-49)
Steps 3-14 m ay be perform ed w ith the steering colum n
in the vehicle.
1. Remove the four screws retaining the dash
m ounting bracket to the colum n and set the bracket aside
to protect the breakaw ay capsules.
2. M ount the colum n in a vise using both weld nuts
o f either Set A or B as shown in Figure 3B4-41. The vise
jaw s m ust clamp onto the sides of the weld nuts indicated
by arrow s shown on Set B.
NOTICE: D o not place the colum n in a vise by
clam ping onto only one weld nut, by clam ping onto one
weld n u t of both Sets A and B or by clam ping onto the
sides not indicated by arrows, since dam age to the
colum n could result.
.
,
-.
<
v
6. Install the tilt release lever and place the colum n in
the full "up" position. Remove the tilt lever spring retainer
using a # 3 phillips screwdriver that just fits into the slot
opening. Insert the phillips screwdriver in the slot, press in
approxim ately 3 /1 6 ", turn approximately 1/8 tu rn
counterclockwise until the ears align with the grooves in the
housing and remove the retainer, spring and guide (Fig.
3B4-50).
7. Remove the pot joint to steering shaft clam p bolt
and remove the interm ediate shaft and pot joint assembly.
Push the upper steering shaft in sufficiently to remove
the steering shaft upper bearing inner race and seat. Pry off
the lower bearing retainer clip and remove the bearing
reinforcement, bearing and bearing adapter assembly from
the lower end of the m ast jacket.
8. Remove the upper bearing housing pivot pins using
Tool J-2 1854-1 (Fig. 3B4-51).
4. Remove the tilt release lever. Drive out the shift
lever pivot pin and remove the shift lever from the housing.
9. Install the tilt release lever and disengage the lock
shoes. Remove the bearing housing by pulling upward to
extend the rack full down, and then moving the housing to
the left to disengage the ignition switch rack from the
actuator rod.
5. Rem ove the three tu rn signal housing screws and
remove the housing.
10.
Remove the steering shaft assembly from the upper
end of the column.
3. Remove the directional signal switch, lock cylinder
and ignition switch as outlined previously in this section.
LIGHT T R U C K SE R V IC E M A N U A L
3B4-30
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
16.
17.
STEERING C O L U M N S
S T E E R IN G C O L U M N
B E A R IN G ASM
PIN , Release Lever
S P R IN G , Release Lever
S P R IN G , Shoe
PIN , Pivot
P IN , Dowel
S H A F T , Drive
SHO E, Steering Wheel Lock
SHO E, Steering Wheel Lock
S P R IN G , Lock Bolt
B O L T, Lock
B E A R IN G ASM
SCREW , Oval Head Cross Recess
R A CE, Inner
26.
27.
28.
29.
30.
31.
32.
33.
34.
35.
36.
38.
39.
40.
41.
18. S E A T , Upper Bearing Inner Race
43.
19. S W ITC H A SM , Turn Signal
20. SCREW , Binding HD. Cross Recess
44.
45.
21.
22.
23.
24.
46.
47.
48.
49.
C A M A SM , Turn Sig. Cancelling
LO C K , Shaft
C O V E R , Shaft Lock
N U T , Hexagon Jam
25. R IN G , Retaining
50.
S P R IN G , Upper Bearing
P R O T E C T O R , Wiring
C O V E R , Lock Housing (Painted)
S H IE L D , T ilt Lever Opening
R E T A IN E R , Spring
SP R IN G , Wheel T ilt
G U ID E , Spring
SCREW , Hex. Washer Head
R IN G , Retaining
SEC TO R , Switch Actuator
H O U S IN G , Steering Column
S P R IN G , Rack Preload
R A C K , Switch Actuator
L E V E R , Shoe Release
A C T U A T O R A SM , Ignition Switch
S P R IN G , Shift Lever
W A S H E R , Wave
P L A T E , Lock
W A S H E R , Thrust
R IN G , S hift Tube Retaining
SCREW, Oval Head Cross Recess
G A T E , Shift Lever
SUPPO RT, Strg. Column Housing
51. SCREW, Support
52. PIN , Dowel
53. S H A F T ASM , Lower Steering
54. SPHER E, Centering
55. S P R IN G , Joint Preload
56. S H A F T A SM , Race & Upper
57. SCREW, Wash. Hd.
58. SW ITCH ASM , Ignition
59. JA C K E T ASM , Steering Column
60.
61.
62.
63.
64.
C LIP, Lower Bearing Adapter
SEA L, Dash
TU B E ASM , Shift
R E T A IN E R , Bearing Adapter
B E A R IN G ASM
65.
66.
77.
84.
85.
86.
87.
A D A P T E R , Lower Bearing
R E T A IN E R
SCREW, Flat Head
S H R O U D , Gearshift Bowl
BOW L, Gearshift Lever
LOCK C Y L IN D E R SET, Strg Column
SCREW, Lock Retaining
Fig. 3B4-49a~Tilt Column With Auto. Trans.
LIGHT T R U C K SE R V IC E M A N U A L
STEERING C O L U M N S
1.
2.
3.
4.
5.
6.
7.
8.
B E A R IN G ASM
PIN , Release Lever
S P R IN G , Release Lever
S P R IN G , Shoe
P IN , Pivot
PIN , Dowel
S H A F T , Drive
SHOE, Steering Wheel Lock
9. SHO E, Steering Wheel Lock
10. SPR IN G , Lock Bolt
11. B O LT, Lock
12. B E A R IN G ASM
S H IE L D , T ilt Lever Opening
C O V E R , Lock Housing
SCREW , Oval Head Cross Recess
R A C E, Inner
19. SE A T , Upper Bearing Inner Race
20. S W ITC H ASM , Turn Signal
13.
14.
17.
18.
21. SCREW , Binding H D Cross Recess
22. CAM A SM , Turn Signal Cancelling
23. LOCK, Shaft
24. C O V E R , Shaft Lock
25. N U T , Hexagon Jam (9 /1 6 -1 8 )
R E T A IN E R
R IN G , Retainer
S P R IN G , Upper Bearing
P R O T E C T O R , Wiring
R E T A IN E R , Spring
S P R IN G , Wheel T ilt
G U ID E , Spring
SCREW, Hex. Washer Head
SEC TO R , Switch Actuator
PIN , Pivot
H O U S IN G , Steering Column
S P R IN G , Rack Preload
R A C K , Switch Actuator
L E V E R , Shoe Release
42. A C T U A T O R ASM , Switch
43. S H R O U D , Column Housing
44. S PR IN G , Key Release
26.
27.
28.
29.
30.
31.
32.
33.
35.
36.
37.
39.
40.
41.
45. L E V E R , Key Release
46. P L A T E , Lock
47. SUPPO RT, Steering Column Housing
48. SCREW, Support
49. SCREW, Oval Head Cross Recess
50. P L A T E , Shroud Retaining
3B4-31
51. PIN , Dowel
52. S H A F T ASM, Lower Steering
53. SPHER E, Centering
54. S PR IN G , Joint Preload
55. SPHER E, Centering
56. S H A F T ASM, Race & Upper
57. S W ITC H ASM, Ignition
61. JA C K E T ASM, Sleeve &
62. B E A R IN G ASM, Adapter 8t
63. B E A R IN G ASM
64. SPACER, Steering Shaft
65. SE A L, Jacket 8i Dash Bracket
66. B R A C K E T ASM, Column Dash
76. SCREW , Washer Head (# 1 0 -2 4 x .25)
77. SCREW , Flat Head (# 1 0 -2 4 x .31)
81. C LIP, Lower Bearing Adapter
82. A D A P T E R , Lower Bearing
83. B E A R IN G ASM
84. R E T A IN E R , Bearing Adapter
85. LOCK C Y L IN D E R SET, Strg Column
86. SCREW, Lock Retaining
Fig. 3B4-49b-Tilt Column With 4-Speed
LIGHT T R U C K SE R V IC E M A N U A L
3B4-32
STEERING C O L U M N S
M
Fig. 3 B 4 -5 0 ~ R e m o v in g T ilt Lever Spring R etainer
Fig. 3B 4 -5 2 ~ R e m o v in g S h ift Tube
11. Disassemble the steering shaft by rem oving the
centering spheres and the anti-lash spring.
12. Rem ove the transm ission indicator wire, if so
equipped.
13. Remove the four steering shaft bearing housing
support to gearshift housing screws and remove the bearing
housing support. Remove the ignition switch actuator rod.
14. Remove the shift tube retaining ring w ith a
screwdriver and then remove the th ru st washer.
15. Install Tool J-23072 into the lock plate, m aking sure
that the tool screws have good thread engagement in the
lock plate. Then, turning the center screw clockwise, force
the shift tube from the housing (Fig. 3B4-52). Remove the
shift tube (transm ission control lock tube on floor shift
models) from the lower end o f the m ast jacket. Remove Tool
J-23072.
16. Remove the bearing housing support lock plate by
sliding it out of the jacket notches, tipping it down tow ard
the housing hub at the 12 o’clock position and sliding it
under the jacket opening. Remove the wave washer.
17. All Columns - Remove the shift lever housing
from the m ast jacket (transm ission control lock tube
housing on floor shift models). Remove the shift lever spring
by winding the spring up with pliers and pulling it out. On
floor shift models, remove the spring plunger.
18. Disassemble the bearing housing as follows:
a. Remove the tilt lever opening shield.
b. Remove the lock bolt spring by removing the
retaining screw and moving the spring clockwise to remove
it from the bolt (Fig. 3B4-53).
c. Remove the snap ring from the sector drive shaft.
W ith a small punch, lightly tap the drive shaft from the
sector (Fig. 3B4-54). Remove the drive shaft, sector and
lock bolt. Remove the rack and rack spring.
d. Remove the tilt release lever pin with a punch and
ham m er. Remove the lever and release lever spring. To
relieve the load on the release lever, hold the shoes inward
and wedge a block between the top of the shoes (over slots)
NOTICE: W hen rem oving the shift tube, be sure to
guide the lower end through the slotted opening in the
m ast jacket. If the tube is allowed to interfere w ith the
jacket in any way, dam age to the tube and jacket could
result.
Fig. 3B4-51--Removing Bearing Housing Pivot Pins
Fig. 3B4-53--Replacing Lock Bolt Spring
LIGHT TR U C K SE R V IC E M A N U A L
STEERING C O L U M N S
Fig. 3B 4 -5 4 ~ R e m o v in g Sector Drive Shaft
and bearing housing.
e. Remove the lock shoe retaining pin w ith a punch and
ham m er. Remove the lock shoes and lock shoe springs.
W ith the tilt lever opening on the left side and shoes facing
up, the four slot shoe is on the left.
f. Remove the bearings from the bearing housing only
if they are to be replaced. Remove the separator and balls
from the bearings. Place the housing on work bench and
with a pointed punch against the back surface of the race,
carefully ham m er the race out o f the housing until a bearing
puller can be used. Repeat for the other race.
Assembly-Tilt Columns
A pply a thin coat of lithium grease to all friction
surfaces.
3B4-33
Fig. 3 B 4 -5 6 ~ ln s ta llin g Bearing Housing
shoes for pin installation.
c. Install the shoe release lever, spring and pin. To
relieve the load on the release lever, hold the shoes inward
and wedge a block between the top of the shoes (over slots)
and bearing housing.
d. Install the sector drive shaft into the housing.
Lightly tap the sector onto the shaft far enough to install
the snap ring. Install the snap ring.
e. Install the lock bolt and engage it w ith the sector cam
surface. Then install the rack and spring. The block tooth
on the rack should engage the block tooth on the sector (Fig.
3B4-55). Install the external tilt release lever.
f. Install the lock bolt spring and retaining screw (Fig.
3B4-50). Tighten the screw to 35 in. lbs.
1.
If the bearing housing was disassembled, repeat the
2.
Install the shift lever spring into the housing by
following steps:
windng
it
up
with pliers and pushing it into the housing.
a. Press the bearings into the housing, if removed,
On
floor
shift
models,
install the plunger, slide the gearshift
using a suitable size socket. Be careful not to dam age the
lever housing onto the m ast jacket.
housing or bearing during installation.
b. Install the lock shoe springs, lock shoes and shoe pin
in the housing. Use an approxim ate .180" rod to line up the
SHIFT BOWL
J 2 3 0 7 3 -3
J 23073 4
W AVEn
W ASH ER
LO C K
PLATE
J 23 07 3-1
J 2 3 0 7 3 -2
FLAT
W ASHER
UPPER SHIFT TUBE
Fig. 3B4-55—Installing Lock Bolt and Rack Assemblies
Fig. 3B4-57—Installing Shift Tube
LIGHT TRU C K SE R V IC E M A N U A L
3B4-34
STEERING C O L U M N S
3. Install the bearing support lock plate wave washer.
4. Install the bearing support lock plate. W ork it into
the notches in the jacket by tipping it tow ard the housing
hub at the 12 o ’clock position and sliding it under the jacket
opening. Slide the lock plate into the notches in the jacket.
5. Carefully install the shift tube into the lower end of
the m ast jacket. Align keyway in the tube w ith the key in
the shift lever housing. Install the wobble plate end o f Tool
J-23073 into the upper end of the shift tube far enough to
reach the enlarged portion o f the tube. Then install the
adapter over the end of the tool, seating it against the lock
plate. Place the n u t on the threaded end of the tool and pull
the shift tube into the housing (Fig. 3B4-57). Rem ove Tool
J-23073.
NOTICE: D o not push o r tap on the end of the shift
tube. Be sure th at the shift tube lever is aligned with
the slotted opening at the lower end of the m ast jacket
or dam age to the shift tube and m ast jacket could
result.
6. Install the bearing support thru st w asher and
retaining ring by pulling the shift lever housing up far
enough to compress the wave washer.
7. Install the bearing support by aligning the "V" in
the support with the "V" in the jacket. Insert the screws
through the support and into the lock plate and torque to
60 lbs. in.
8. Align the lower bearing adapter with the notches
in the jacket and push the adapter into the lower end of the
m ast jacket. Install lower bearing, bearing reinforcem ent
and retaining clip, being sure th at the clip is aligned with
the slots in the reinforcem ent, jacket and adapter.
9. Install the centering spheres and anti-lash spring in
the upper shaft. Install the lower shaft from the same side
of the spheres that the spring ends protrude.
10. Install the steering shaft assembly into the shift tube
from the upper end. Carefully guide the shaft through the
shift tube and bearing.
11. Install the ignition switch actuator rod through the
shift lever housing and insert in the slot in the bearing
support. Extend the rack dow nw ard from the bearing
housing.
12. Assemble the bearing housing over the steering
shaft and engage the rack over the end of the actuator rod
(Fig. 3B4-56).
13. W ith the external release lever installed, hold the
lock shoes in the disengaged position and assemble the
bearing housing over the steering shaft until the pivot pin
holes line up.
14. Install the pivot pins.
15. Place the bearing housing in the full "up" position
and install the tilt lever spring guide, spring and spring
retainer. W ith a suitable screwdriver, push the retainer in
and turn clockwise to engage in the housing.
16. Install the upper bearing inner race and race seat.
17. Install the tilt lever opening shield.
18. Remove the tilt release lever,install the tu rn signal
housing and torque the three retaining screws to 45 lbs. in.
19. Install the tilt release lever and shift lever. D rive the
shift lever pin in.
20. Install the lock cylinder, tu rn signal switch and
ignition switch as outlined previously in this section.
21. Align the groove across the upper end of the pot
joint with the flat on the steering shaft. Assemble the
interm ediate shaft assembly to the upper shaft. Install the
clam p and bolt and torque the nut to specifications.
NOTICE: The clamp bolt m ust pass through the shaft
undercut, or damage may occur to the components.
22. Install the neutral-safety switch or back-up switch
as outlined in Section 12 of this m anual.
23. Install the four dash panel bracket to colum n screws
and torque to specifications.
CAUTION: Be sure th a t the slotted
openings in the bracket (for the mounting
capsules) face the upper end of the
steering column.
CO LUM N INSTALLATIO N-M ANDA TO R Y
SEQUENCE
M andatory Preliminary Instructions
1. Assemble lower dash cover (A) and upper dash
cover (B) to seal (C) w ith "C arrots" (part of seal).
2. A ttach bracket (D ) to jacket and tighten four bolts
(E) to specified torque.
LIGHT T R U C K SE R V IC E M A N U A L
STEERING C O L U M N S
3B4-35
Mandatory Installation Sequence
1. Position colum n in body and position flange to rag
jo in t and install lock washers and nuts (F) (M ay be
tightened to specified torque at this time). Coupling (G ) on
m anual steering m ust be installed prior to colum n
installation.
2. Loosely assemble (2) capsules nuts (H) at the
instrum ent panel bracket (D).
3. Position lower clam p (J) and tighten attaching nuts
(K ) to specified torque.
4. Tighten two nuts (H ) at capsules to specified torque.
5. Install seal (C) and covers (A and B) to dash.
6. Install attaching screws (L) and tighten to specified
torque.
7. Tighten two nuts (F) at capsules to specified torque
if not already done.
8. Remove plastic spacers from flexible coupling pins.
9. Install transm ission indicator cable on colum n
autom atics.
10. Install the instrum ent panel trim cover.
11. Connect the transm ission control linkage at the shift
tube levers.
12. Install the steering wheel as outlined previously in
this section.
13. Connect the battery ground cable.
STEERING COUPLING (FLEXIBLE TYPE)
M andatory System Requirements
Removal (Fig. 3B 4-60)
1. Pot joint operating angle m ust be 1 1/2° + 4°.
2. Flexible coupling m ust not be distorted greater than
-j- .06 due to pot jo in t bottom ing, in either direction.
nuts.
STEERING COLUMN SERVICE FOR G
AND P SERIES
STEERING WHEEL
Removal
1. Disconnect battery ground cable.
2. Remove horn button or shroud, receiving cup,
belleville spring and bushing and m ark steering wheel to
steering shaft relationship.
3. Remove snap ring, and steering shaft nut.
4. Use Tool J-1859-03 to remove wheel (Fig. 3B4-59).
Installation
Fig. 3 B 4 -5 9 ~ S te e rin g W h eel Rem oval-Typical
1. Remove the coupling to steering shaft flange bolt
2. Remove the coupling clamp bolt. This is a special
bolt and will require a 12 pt. socket or box wrench.
3. Remove the steering gear to fram e bolts and lower
the steering gear far enough to remove the flexible coupling.
It is not necessary to disconnect the pitm an arm from the
pitm an shaft.
4. T ap lightly on the flexible coupling with a soft
mallet to remove the coupling from the steering gear
wormshaft.
CAPTURING
STRAP
NOTICE: See N O T IC E on page 1 of this section
regarding the fastener referred to in step 2.
D irectional signal control assembly m ust be in
neutral position when assembling steering wheel to
prevent dam age to cancelling cam and control
assembly.
1. Place the steering wheel onto the steering shaft,
aligning the m arks m ade at removal.
2. Position into place and secure to proper torque with
nut. Install snap ring.
3. Install horn button assembly.
4. C onnect battery ground cable.
COUPLING TO
STEERING SHAFT
FLANGE BOLTS
Fig. 3B4-60~Flexible Type Steering Coupling
LIGHT T R U C K SE R V IC E M A N U A L
3B4-36
STEERING C O L U M N S
BEARING
Fig. 3 B 4 -6 1 -S te e rin g S h aft In term ed iate Coupling
Installation
NOTICE: See N O T IC E on page 1 of this section
regarding the fasteners referred to in steps 2, 4 and 5.
1. Install the flexible coupling onto the steering gear
wormshaft, aligning the flat on the shaft w ith the flat in the
coupling. Push the coupling onto the w orm shaft until the
coupling reinforcem ent bottom s against the end of the
worm.
2. Install the special bolt into the split clam p and
torque to specifications.
NOTICE:
T he bolt m ust pass through the shaft
undercut,or dam age m ay occur to the components.
3. Place the steering gear into position, guiding the
flexible coupling bolts into the proper holes in the steering
shaft flange.
4. Install and tighten the steering gear to fram e bolts.
5. Install the coupling to flange bolt nuts and washers
and torque to specifications. Be sure to m aintain a coupling
to flange dim ension o f .250" to .375". The coupling
alignm ent pins should be centered in the flange slots.
INTERMEDIATE STEERING SHAFTS WITH POT
JOINT COUPLINGS
Fig. 3 B 4 -6 2 ~ C h e c k in g Coupling Pin Centering
may cause
reassembled.
5.
sticky
or
binding
bearings
when
Remove seal clamp and slide seal off end of shaft.
Assembly
1. Be sure all parts are free of dirt. Slide seal onto
steering shaft. W ith lip of seal against step in shaft clamp
seal.
2. Press pin back into shaft from cham fered side.
Locate pin in shaft using scribe m ark as reference.
NOTICE: Pin m ust be centered w ithin .012 in. or
binding in the coupling could result.
Removal (Fig. 3B4-61)
1. Remove the lower shaft flange to flexible coupling
bolts.
2. Remove upper shaft to interm ediate coupling bolt
3. If necessary, remove the steering gear to fram e bolts
and lower the steering gear far enough to remove the
interm ediate shaft assembly. It is not necessary to remove
the pitm an arm from the pitm an shaft.
Disassembly
1. M ark cover to shaft relationship. Pry off snap ring
and slide cover from shaft.
2. Rem ove bearing blocks and tension spring from
pivot pin.
3. Clean grease off pin and end of shaft. Scribe location
m ark on pin on sam e side as cham fer in shaft.
4. Supporting shaft assembly securely, with cham fer
up, press pin out o f shaft with arbor press.
NOTICE:
3. Check centering of pin (Fig. 3B4-62).
a. Place just enough 3/8" flat washers on pin to
prevent bearing block from bottom ing when installed.
b. M easure distance from end of pin to top of bearing
with micrometer.
c. Remove bearing and washers and place same bearing
and washers on other end of pin. M easure distance from end
of pin to top of bearing. If m icrom eter readings in Steps b
and c differ m ore than .012, repeat last part of Step 2 and
recheck.
4. Apply a liberal am ount of wheel bearing grease to
inside and outside of bearing blocks and inside of cover.
5. Position tension spring and bearing blocks on pin.
6. Slide cover over bearing blocks aligning reference
m ark on cover with m ark on shaft. Install seal into end of
cover and secure with snap ring retainer.
D o not drive pin out with ham m er. This
LIGHT TR U C K SE R V IC E M A N U A L
STEERING C O L U M N S
3B4-37
b. Remove the felt washer, plastic washer and dust cap.
D iscard the felt washer.
2.
If the trunnion assemblies are to be replaced,
proceed as follows:
a. Remove the snap rings retaining the trunnion
bushings in one of the yokes.
b. Support the yoke on a bench vise and drive out one
bushing by tapping on the opposite bushing using a soft drift
and ham m er.
c. Support the other side of the yoke and drive out the
rem aining bushing as in Step b above.
d. M ove the yoke on the trunnion as necessary to
separate the upper and lower yokes.
e. Remove the trunnion from the lower yoke as
outlined in Steps a through d above. Remove and discard
the seals.
Assembly
Installation
NOTICE: See N O T IC E on page 1 o f this section
regarding the fasteners referred to in steps 1, 3 and 4.
1. Install the interm ediate shaft assembly onto the
steering shaft, aligning the flat on the shaft with the flat in
the coupling. Install the pot jo in t clam p bolt and torque to
specifications.
2. Lift the steering gear into position, guiding the
flexible coupling bolts into the shaft flange holes.
3. Install the steering gear to fram e bolts and torque
to specifications.
4. Install the flexible coupling to steering shaft flange
bolt lockwashers and nuts. Check th at the coupling
alignm ent pins are centered in the flange slots and then
torque the coupling bolts to specifications.
INTERMEDIATE STEERING SHAFT WITH
UNIVERSAL JOINT COUPLINGS
Removal (Fig. 3B4-63)
1. If the yoke trunnions were removed, reassemble as
follows:
a. Place the new trunnion into the lower yoke.
b. Place new seals onto the trunnion and then press the
new bushings into the yoke and over the trunnion hubs far
enough to install the snap rings.
c. Install the snap rings.
d. Repeat Steps a through c to attach the upper yoke
to the trunnion.
2. Reassemble the interm ediate shaft assembly as
follows:
a. Place the dust cap, plastic washer and a new felt seal
over the shaft on the lower yoke assembly.
b. Align the arrow on the lower yoke assembly shaft
with the arrow on the upper yoke assembly tube and push
the two assemblies together.
c. Push the dust cap, plastic washer and felt washer into
position on the lower end of the upper yoke assembly and
bend the tangs of the dust cap down against the yoke tube.
Installation
N O T IC E : See N O T IC E on page 1 of this section
regarding the fasteners referred to in steps 1, 3 and 4.
1. Set front wheels in straight ahead position. This can
be done by driving the vehicle a short distance on a flat
surface.
2. M ark upper universal jo in t yoke to steering shaft
relationship and lower yoke to steering gear worm shaft
relationship.
3. Remove both upper and lower universal yoke pinch
bolts.
4. Rem ove steering gear to fram e bolts and lower the
gear. It is not necessary to disconnect the pitm an arm from
the steering gear pitm an shaft.
5. Remove the interm ediate steering shaft and
universal joint assembly.
1. Align the m arks m ade at removal and assemble the
interm ediate shaft lower yoke onto the steering gear
wormshaft. Install the pinch bolt and torque to
specifications. The pinch bolt m ust pass through the shaft
undercut. If a new yoke was installed, the slit in the yoke
should be in the 12 o’clock position.
2. Raise the steering gear into position while guiding
the upper yoke assembly onto the steering shaft.
The m arks on the coupling and steering shaft m ust
align. I f a new yoke was installed, assemble the upper yoke
to the steering shaft with the steering wheel in straight ahead
position (gear m ust be on high point).
3. Install the steering gear to fram e bolts and torque
Disassembly
to specifications.
1.
If the upper o r lower half o f the interm ediate
4. Install the upper yoke to steering shaft pinch bolt
steering shaft is to be replaced, proceed as follows:
and torque to specifications.
a.
W ith the shaft assembly on a bench, straighten the
N O T IC E : The pinch bolt must pass through the shaft
tangs on the dust cap. Separate the upper and lower portions
of the shaft assembly.
undercut, or dam age may occur to the components.
LIGHT T R U C K SE R V IC E M A N U A L
3B4-38
STEERING C O L U M N S
STEERING COLUMN UPPER BEARING-G AND
P SERIES
Standard Column
Removal
1. Remove steering wheel as outlined in this section.
2. Rem ove directional signal cancelling cam.
3. Pry out upper bearing.
Installation
NOTICE: See N O T IC E on page 1 o f this section
regarding the fasteners referred to in step 1.
2. Pry out the lower bearing assembly.
Installation
NOTICE: See N O T IC E not on page 1 of this section
regarding fasteners referred to in step 2.
1. Place the new bearing over the end of the steering
shaft and press into position in the column.
2. Install the preload spring and clam p and torque the
clam p bolt nut to specifications. Refer to "Bearing
A djustm ent" in "M aintenance and A djustm ent Section.
Reinstall the interm ediate shaft and universal joint assembly
as outlined under "Interm ediate Steering Shaft with
Universal Joint Couplings - Installation".
1.
Replace all com ponent parts in reverse order of TILT COLUMN BEARING HOUSING ASSEMBLY
rem oval m aking sure th at directional switch is in neutral
- G AND P SERIES
position before installing steering wheel. Torque steering
Removal (Column in Vehicle)
wheel nut to specifications.
1. D isconnect the battery ground cable.
Tilt Column
2. Remove the steering wheel as outlined under
The upper bearings on the tilt colum n are spun into the
"Steering Wheel - Removal".
bearing housing assembly. I f the bearings indicate need of
3. Remove the directional signal switch as outlined
replacement, the entire bearing housing m ust be replaced.
under "D irectional Signal Switch - Rem oval".
See "Tilt Steering C olum n - D isassembly and Assembly" for
4. Column Shift Models - Using a suitable size
the correct replacem ent procedure.
punch, drive out the shift lever pivot pin and remove the
shift lever.
STEERING COLUMN LOWER BEARING P
5. Install the tilt release lever and place the column in
SERIES
the full "up" position. Remove the tilt lever spring and
Removal
retainer using a screwdriver that just fits into the slot
1.
Remove the interm ediate steering shaft and opening. Insert the screw driver into the slot, push in
universal jo in t assembly as outlined earlier in this section.
approxim ately 3/16", rotate clockwise approxim ately 1/8
Remove the preload spring clam p and spring from the end
tu rn until the retainer ears align with the grooves in the
o f the steering shaft.
housing and remove the retainer and spring.
LIGHT T R U C K SE R V IC E M A N U A L
STEERING C O L U M N S
3B4-39
If the bearing housing support is being replaced,
proceed as follows:
10.
Remove the four bearing housing support screws
and remove the support.
Assembly
NOTICE: See N O T IC E on page 1 of this section
regarding the fasteners referred to in steps 3, 9 and 11.
1. Assemble the steering shaft as follows:
a. Lubricate and assemble the centering spheres and
preload spring.
b. Install the spheres into the upper (short) shaft and
rotate 90°.
c. Install the lower shaft 90° to the upper shaft and over
the centering spheres. Slowly straighten the shafts while
compressing the preload spring.
2. Install the shaft assembly into the housing from the
upper end.
3. Install the lower shaft to the pot joint coupling
clamp. Install the coupling clamp bolt and torque to
specifications.
NOTICE: The coupling bolt m ust pass through the
shaft undercut, or damage may occur to the
components.
6. Remove the steering shaft bearing locknut using
Socket J-22599. Rem ove the upper bearing race seat and
race.
7. Remove the two bearing housing pivot pins using
Tool J -2 1854.
8. Pull up on the tilt release lever (to disengage the lock
shoes) and remove the bearing housing.
If the bearing housing is being replaced or it is
necessary to disassemble the bearing housing, proceed as
follows:
a. Press the upper and lower bearings out of the
housing.
b. Using Puller J-5822 and Slide H am m er J-2619, pull
the bearing races from the housing.
c. Remove the tilt release lever.
d. Drive out the shoe release pivot pin using Tool J22635 or a suitable punch. Rem ove the lever spring and
remove the wedge.
e. Using a suitable size punch, drive out the lock shoe
retaining pin. Remove the shoes and shoe springs.
If the upper steering shaft, lower steering shaft, or
centering spheres are being removed, proceed as follows:
9. To rem ove the steering shaft assembly through the
upper end of the colum n. If it is necessary to disassemble
the shaft, proceed as follows:
a. To remove the lower steering shaft first disconnect
the shaft at the pot jo in t coupling clamp.
b. T u rn the upper shaft 90° to the lower shaft and slide
the upper shaft and centering spheres from the lower shaft.
c. R otate the centering spheres 90° and remove the
centering spheres and preload spring from the upper shaft.
Assemble the bearing housing as follows:
a. Press the new upper and lower bearing races into
the bearing housing.
b. Lubricate and install the bearings into the bearing
races.
c. Place the lock shoe springs in position in the housing.
Install each shoe in place and compress the spring until a
suitable size straight punch can be used to hold the shoe in
position (it may be necessary to acquire assistance to install
the shoes). Once the shoes are in place, drive in the shoe
retaining pin.
d. Install the shoe release lever and drive in the pivot
pin.
e. Install the tilt release lever.
f. Lubricate the shoes and release lever.
5. Install the bearing housing assembly to the support.
Hold the tilt release lever in the "up" position until the shoes
have fully engaged the support. Lubricate and install the
bearing housing pivot pins. Press the pins in flush with the
housing.
6. Place the housing in the full "up" position and then
install tilt spring and retainer (tapered end of spring first).
Push into the housing approxim ately 3/16" and rotate
counterclockwise 1/8 turn.
7. Lubricate and install the upper bearing race, race
seat and locknut. Tighten the locknut (using Socket J22599) to remove the lash and then carefully further tighten
1/16 to 1/8 of a turn (column m ust be in straight ahead
position).
4.
8. Remove the tilt release lever.
9. Install the directional signal switch as outlined
under "D irectional Signal Switch - Installation".
LIGHT T R U C K SE R V IC E M A N U A L
3B4-40
STEERING C O L U M N S
DIRECTIONAL
SIGNAL SWITCH
Fig. 3B4-67~Directional Signal Switch
Fig. 3B4-69~Removing Wires from Connector
10. C olum n Shift M odels - Install the shift lever and
pivot pin.
5. Pry the wiring harness protector out of the colum n
retaining slots as shown in Figure 3B4-68.
6. M ark the location of each wire in the half-moon
connector and then remove each individual wire from the
connector using Tool J-22727 (Fig. 3B4-69). Insert the tool
into the lower end of the connector and push in until the
tool bottom s on the connector. Remove the tool and then
pull the wire from the connector.
7. Remove the directional signal lever screw and
remove the lever.
8. Push in on the hazard w arning light knob and then
unscrew and remove the knob.
9. Tilt Columns Only
a. A utom atic Transm ission M odels - Remove the
P R N D L dial screws and remove the dial and indicator
needle. Remove the cap and dial illum ination bulb from the
housing cover.
b. Unscrew and remove the tilt release lever.
c. Assemble Tool J-22708 inside the directional signal
housing cover; push in until the tangs lock inside the cover
flange (Fig. 3B4-70). T urn the tool center screw clockwise
to pull the cover from the housing.
11. Install the steering wheel
"Steering W heel - Installation".
as outlined
under
12. Check electrical and m echanical functioning of
column.
DIRECTIONAL SIGNAL SWITCH
If the directional signal switch m ust be replaced, the
steering colum n does not have to be removed from the
vehicle.
Removal
1. Remove the steering wheel as outlined under
"Steering W heel - Rem oval".
2. Rem ove the directional signal switch cancelling cam
and spring.
3. Rem ove the colum n to instrum ent panel trim plate
(if so equipped).
4. D isconnect the directional signal switch wiring
harness at the half-m oon connector.
J -2 2 7 0 8
Fig. 3B4-68--Removing Wiring Harness Protector
Fig. 3B4-70--Removing Directional Signal Housing Cover
LIGHT T R U C K SE R V IC E M A N U A L
STEERING C O L U M N S
3B4-41
out the lower end of the shift lever housing and under the
dash seal.
2. Place the directional signal switch in position and
install the three m ounting screws; torque to 25 lbs. in. after
screw head has been firmly seated.
3. Tilt Columns Onlya. Align the openings in the directional signal switch
cover with the proper lever positions and tap the cover into
place using a plastic ham m er.
b. Install the tilt release lever.
c. A utom atic Transm ission M odel - Install the
P R N D L dial, pointer, dial illum ination bulb and cap.
4. Install the directional signal switch lever and hazard
warning knob.
5. Bend the wire retaining tabs slightly outw ard on
each wire in the wiring harness as shown in Figure 3B4-71;
this will provide proper retention of the wire in the half
moon connector.
10.
Remove the three directional signal switch
6. Install each wire in its m arked location in the half
m ounting screws and then carefully remove the switch
moon connector. Push in until square p art of clip is flush
assembly from the colum n while guiding the wiring harness
with the bottom side of the connector. Connect the
through the opening in the shift lever housing.
directional signal switch wiring harness.
Installation
NOTICE:
See N O T IC E on page 1 o f this section
regarding the fasteners referred to in step 9.
7. Snap the wiring harness protector into the colum n
retaining slots.
8. Install the directional signal cancelling cam and
spring.
9. Install the steering wheel as outlined under
1.
W rap the ends of the directional signal switch wires "Steering W heel - Installation".
10.
Install the colum n to instrum ent panel trim plate
w ith tape and then guide them through the opening at the
(if so equipped).
lower left hand side o f the bearing housing (tilt colum ns)
STEERING COLUMN G AND P SERIES
Removal
1. D isconnect the battery ground cable.
2. Colum n Shift M odels - D isconnect transm ission
shifter rods at the lower end o f the column.
3. G Models - Rem ove the interm ediate steering
shaft flange to flexible coupling bolts.
P Models - Rem ove the interm ediate steering shaft
upper universal yoke to steering shaft pinch bolt. M ark the
coupling to shaft relationship.
4. Remove colum n clam p screw(s) on engine side of
firewall, if equipped, and remove or slide the clam p down
the column.
5. F rom inside the vehicle, remove the screws from the
toe pan cover and slide the cover and seal up the column.
6. Remove the steering wheel as outlined under
"Steering W heel-Rem oval", and reinstall the shaft n ut and
washer.
7. All Colum ns - D isconnect the directional signal
wiring harness. Standard Colum n with A utom atic
Transm ission - D isconnect the conductor tube (for
transm ission indicator) at the instrum ent panel.
T ilt Colum n w ith A utom atic Transm ission
D isconnect the single w ire at the fuse block and unclip it
from the parking brake bracket.
8. Remove the cap screws from the colum n support
bracket at the dash panel.
9. Carefully lower and then w ithdraw the colum n
assembly, rotating so th at the shift levers clear the toe pan
opening.
Disassembly of Standard Column (Fig. 3B4-74)
F o r floor shift transm ission models, om it Steps 4, 14,
15 and 16.
1. Rem ove the steering wheel nut and lock w asher and
then slide the steering shaft assembly from the lower end
of the column.
2. G M odels - Remove the lower bearing preload
spring and clam p from the steering shaft.
P M odels - Rem ove the lower bearing preload spring
and clamp.
3. Rem ove the back-up lamp switch.
4. D rive out the shift lever pivot pin and remove the
shift lever.
5. Remove the directional signal cancelling cam.
Remove the directional signal switch lever.
6. Remove the colum n wiring harness cover.
7. Remove the directional signal switch screws.
8. R otate the directional signal switch housing
counterclockwise and remove the housing from the column.
The housing and switch cannot be fully removed from the
colum n until the shift lever housing is removed.
LIGHT T R U C K SE R V IC E M A N U A L
3B4-42
STEERING C O L U M N S
STEERING SYSTEM M A N D A T O R Y REQ UIREM EN TS
1.
Using a 50 lb. force applied to the steering wheel
end of Shaft
Lower Clamp Nut [ F ] must be
tightened to the specified torque to give a compressed
spring dimension ^T] of .50 ± .0 4 after assembly.
2.
Flexible Coupling
.2 5 0 /.3 7 5 .
setup dimension Q [] must be
NOTICE | This dimension must be held
to prevent distortion of Flexible Coupling with resultant
bind and harshness.
3.
All Mast Jacket attachments [g ~| & | H | must be tightened
to recommended torque.
4.
Threaded portion of Steering Shaft [T ] must be
completely free of lubricant after Mast Jacket
assembly to maintain steering wheel clamping load
and hub clearance.
Fig. 3 B 4 -7 2 -S te e rin g Colum n Attachm ent-G Series
■A: \
,
9. Remove the plastic th ru st w asher assembly and then
remove the shift lever housing (or extension housing) from
STEERING SYSTEM M A N D A T O R Y REQ UIREM EN TS
1.
Using a 50 lb. force applied to the steering
wheel end of Shaft | A | , Lower Clamp Nut
| B | must be tightened to the specified torque
to give a compressed spring dimension [c~|
of 1.26 ± .0 2 after assembly.
2.
All Mast Jacket attachments |"pj & |"j~| must
be tightened to recommended torque.
3.
Threaded portion of Steering Shaft [~F~| must
be completely free of lubricant after Mast
Jacket | g | assembly to maintain steering
wheel clamping load and hub clearance.
Fig. 3B4-73--Steering Column Attachment - P Series
LIG HT T R U C K SE R V IC E M A N U A L
STEERING C OLUM NS
3B4-43
1.
Upper Steering Shaft
13.
Shift Tube Felt Washer
25.
Turn Sigial Sw itch Screw
2.
Shiff Housing.Sushing
14.
Shift Tube Assembly
26.
Turn Signal Switch
3.
Bushing Seat
15.
Shift Lever Spacer
27.
Steering Shaft Upper Bearing
4.
Mast Jacket
16. lst-Reverse Shift Lever
17. Adjusting Ring
28.
Switch Contact Support
29.
Turn Signal Housing
5. Column Cover
6.
B ack-Up Lamp Sw itch Screw
18.
Shaft Lower Bearing
7.
Back-Up Lamp Switch
19.
Lower Bearing Preload Spring
30.
31.
Turn Signal Switch Lever Screw
Turn Signal Sw itch Lever
8 . Toe Pan Seal Retainer
9. Toe Pan Seal
20.
Preload Spring Clam p
32.
R u b b e rin g
21.
N u t and Lockwasher
33.
Plastic 'hrust Washer
10. Adjusting Ring Clam p Screws
22.
Steering Shaft N u t
34.
Shift Lever Housing
1 1. N u t and Lockwasher
23.
24.
Lockwasher
Torn Signal C a n cellin g Cam
35.
Shift Lever Pin
36.
Shift Lever
12. Adjusting Ring Clam p Bolt
Fig. 3B 4-74-S tan d ard Column-Typical G & P
the colum n.
10. Separate the directional signal switch, switch
control support assembly, directional signal housing and
shift lever housing (or housing extension) assemblies.
11. Press the steering shaft upper bearing out of the
switch contact support.
12. Remove the shift lever housing (or extension
housing) seat and bushing from the upper end of the
column.
13. Remove the bolt and screws from the adjusting ring
clamp and remove the clamp, adjusting ring and lower
bearing. Press the lower bearing out o f the adjusting ring.
14. 3-Speed C olum ns - Remove 1st-reverse shift lever
and lever spacer.
A utom atic C olum ns - Remove the selector plate
clam ping ring screws (3).
15. Place the colum n upright on the floor, supporting
it with two pieces o f wood. Place a block of wood on the
upper end o f the shift tube. Press down on the shift lever
with foot while tapping on the wood block to w ithdraw the
tube from the colum n jacket.
N O T IC E : In some tolerance stack-up cases it m ay be
necessary to use a press. Be cireful not to dam age the
tube or jacket.
16. Remove the felt seal from the shift tube.
17. Remove firewall clamp, to; pan seal and dash panel
seals from the jacket.
Assembly
In the following assembly sequence use any general
purpose lithium soap grease for lubricating those
com ponents so indicated.
1. Install the dash panel seal, toe panel and firewall
clamps over the end of the jacke;.
2. Lubricate all bearing surfaces on the shift tube.
3. Place the felt seal onto the shift tube (next to spring)
and then place the shift tube in the jacket.
4. 3-Speed C olum ns - Temporarily install spacer, 1streverse shift lever and lower adjusting ring. Place a block
of wood on top of the adjusting ring and tap until the shift
tube bottom s. Remove adjusting ring, shift lever and spacer.
LIGHT T R U C K SE R V IC E M A N U A L
3B4-44
S TEE RI NG C O L U M N S
A utom atic Colum is - Align the three holes in the
selector plate w ith the tlree holes in the jacket, position the
clam ping ring and install the three screws. The shift tube
spring retainer m ust be bottom ed against the jacket stops.
5. 3-Speed C olum is-L ubricate and install the spacer
and 1st-reverse shift le/er (tang of lever tow ards top of
column).
6. Install lower bearing in the adjusting ring and then
install the adjusting rinj, clam p and screws.
7. Install the shift bver housing (or extension housing)
seat and bushing to upper end o f housing.
8. T hread directiotial signal switch wiring harness
through the switch ard lever (or extension) housings,
lubricate the inner diameter o f the shift housing, and then
place the shift lever (or extension) housing onto the upper
end of the column.
9. Install the switch housing plastic w asher assembly.
Press the upper bearing into the switch contact support.
10. Install the directional signal switch housing, contact
support, bearing and switch and torque the switch screws
to 25 lbs. in.
11. Install the column wiring harness cover and back
up lamp switch.
12. Install the directional signal and gearshift levers.
13. A djust the shift tube as outlined under "Shifter
Tube A djustm ent."
14. Loosely install the lower bearing preload spring and
clamp.
15. Slide the steering shaft assembly up through the
colum n assembly. Install the directional signal cancelling
cam, steering shaft nut and lock washer.
Disassembly O f T ilt Column (Fig. 3B4-75)
1. If the colum n is removed from the vehicle, place the
colum n in a bench vise using H olding Fixtures J-22573 (Fig.
3B4-76).
NOTICE: Clamping the colum n directly in a vise,
could result in a damaged column.
2. Remove the directional signal switch as outlined
under "D irectional Signal Sw itch-Rem oval".
3. Remove the lower steering shaft and pot joint
assembly and lower bearing and adapter assembly as
outlined under "Lower Bearing and A dapter-R em oval".
4. Colum n Shift Models - Using a suitable size punch,
drive out the shift lever pivot pin and remove the shift lever.
5. Install the tilt release lever and place the colum n in
the full "up" position. Remove the tilt lever spring and
retainer using a screwdriver th a t ju st fits into the slot
opening (Fig. 3B4-77). Insert the screwdriver clockwise
approxim ately 1/8 tu rn until the retainer ears align w ith the
grooves in the housing and rem ove the retainer and spring.
6. Rem ove the steering shaft bearing locknut using
socket J-22599. Remove the upper bearing race seat and
race.
7. Remove the two bearing housing pivot pins using
Tool J-21854 (Fig. 3B4-78).
8. Pull up on the tilt release lever (to disengage the lock
shoes) and remove the bearing housing. If it is necessary to
disassemble the bearing housing, proceed as follows:
A
a. Press the upper and lower bearings out of the
housing.
b. Using Puller J-5822 and Slide H am m er J-2619 pull
the bearing races from the housing (Fig. 3B4-79).
c. Remove the tilt release lever.
d. Drive out the shoe release lever pivot pin using Tool
J-22635 or a suitable punch (Fig. 3B4-80). Remove the lever
spring and remove the wedge.
e. Using a suitable size punch, drive out the lock shoe
retaining pin. Remove the shoes and shoe springs.
9.
Remove the steering shaft assembly through the
upper end of the column. If it is necessary to disassemble
the shaft proceed as follows:
a. T urn the upper shaft 90° to the lower shaft and slide
the upper shaft and centering spheres from the lower shaft.
b. R otate the centering spheres 90° and remove the
center spheres and preload spring from the upper shaft.
10. Remove the four bearing housing support screws
and remove the support.
Colum n Shift Models - If the shift tube index plate
m ust be removed, remove the two retaining screws and
remove the plate.
11. Remove the shift tube retaining ring with a
screwdriver (Fig. 3B4-81). Remove the th ru st washer.
12. Remove the neutral-safety or back-up lamp switch
screws and remove the switch.
13. Rework Shift Tube Removing Tool J-22551 by
removing 1/2" from the pilot end of the tool (Fig. 3B4-82).
This allows the shift tube to be pushed further out of the
housing and will not affect the use of the tool on other
columns.
14. Remove the shift tube assembly using Tool J-22551
(Fig. 3B4-83). Insert the hooked end of the tool into the
notch in the shift tube just below the shift lever housing key.
Pilot the sleeve over the threaded end of the tool and into
the upper end of the shift tube. Force the shift tube out of
the housing by turning the n ut onto the tool. If the shift tube
is not completely free when the n u t is bottom ed on the
threads, complete the removal by hand.
NOTICE: D o not ham m er or pull on the shift tube
during removal. On colum n shift models, guide the
lower shift lever through the slotted opening in the
colum n to prevent dam age to the tube or column.
15. Remove the lock plate by sliding out of the colum n
notches, tipping the plate dow nw ard tow ard the housing (to
compress the wave washer) and then removing as shown in
Figure 3B4-84. Remove the wave washer.
16. Remove the shift lever housing.
17. Colum n Shift Models - Remove the shift lever
spring by winding the spring up w ith pliers.
18. If necessary, remove the dash panel seal, m ounting
plate and the instrum ent panel seal from the colum n jacket.
Assembly of T ilt Column
W hen
installation
grease.
1.
instrum ent
lubricating com ponents during the following
sequence, use any general purpose lithium soap
Install the dash panel seal, m ounting plate and the
panel seal on the column.
COVER
SHAFT ASSY.
----- RACE
WEDGE
SHAFT
RACE
SCREW (3)
SPRING
SWITCH ASSY. —»
Fig. 3B4-75—Tilt Steering
PIN DOWEL
'
/
SHOEH O U S IN G ----- HO USING
/
ASSY.
BEARING \
BUMPER (3)
SHAFT
ASSY. STEERING
BEARING ASSY
\
RETAINER _
SPHERE
CENTERING (2)
SHAFT
JACKET
ASSY.-
JACKET
PROTECTOR
WIRE
SUPPORT
ASSY.
SPRING ( 2 ) - . \
Column-G
SPRING RELEASE,
PIN RELEASE— - o \
SHOE RELEASE----- *
BEARING ASSY. —
^
YOKE
INSTRU. PANEL
OPENING C O V E R -,
U * * \
SUPPORT
( 2 ) P,N PIVOT
TUBE
ASSY. SHIFT
(2 ) ^
BOWL ASSY.
SPRING TILT
SCREW
DASH SEAL
SCREW (4)
SPRING
■CLIP
JACKET DASH
SEAL RETAINER
'-PLATE
& P
\
RETAINER
THRUST WASHER
\
PLATE LOCK
BOWL
"* LEVER
ADAPTER
RETAINER
BEARING
STEERING COLUMNS
WAVE WASHER
3B4-45
3B4-46
STEERING C O L U M N S
Fig. 3 B 4 -7 6 -S e c u rin g Colum n w ith J -2 2 5 7 3
2. C olum n Shift M odels - Press a new shift lever spring
into the shift lever housing.
3. Slide the shift lever housing over the upper end of
the column.
4. Place the wave w asher and lock plate in position.
W ork the lock plate into the notches by tipping the plate
tow ard the housing (com pressing the wave washer) at the
open side o f the colum n. L ubricate the lock plate and upper
end of the shift tube.
5. Carefully install the shift tube into the lower end of
the column (m ake sure the foam seal is at lower end of the
shift tube). Align the keyway in the tube with the key in the
shift lever housing and com plete installation o f the shift tube
using Tool J-22549 (Fig. 3B4-85). The shift lever housing
key m ust bottom in the shift tube slot to be fully installed.
Remove Tool J-22549 from the colum n. Lubricate and push
foam seal in flush with colum n housing.
NOTICE: D o N ot ham m er or force the tube when
installing in the colum n, or dam age could occur to the
components.
6. Pull up on the shift lever housing (to compress the
wave washer) and install the thrust washer and retaining
ring. Be sure the ring is seated in both slots of the shift tube.
7. Lubricate the I.D . of the bearing housing support
and install the support, aligning the bolt holes in the support
w ith the bolt holes in the lock plate. Install the four support
screws and torque to 45 in. lbs.
8. Assemble the steering shaft as follows:
a. Lubricate and assemble the centering spheres and
preload spring.
b. Install the spheres into the upper (short) shaft and
rotate 90°.
c. Install the lower shaft 90° to the upper shaft and over
the centering spheres. Slowly straighten the shafts while
compressing the preload spring.
9. Install the shaft assembly into the housing from the
upper end.
10.
Install the lower bearing and adapter, bearing
reinforcement, wire clip, pot joint coupling and lower shaft
as described under "Lower Bearing Installation".
STEERING SHAFT
BEARING LO CKNUT
TILT LEVER
SPR IN G RETAINER
Fig. 3B4-77-Removing Tilt Spring and Retainer
LIGHT TR U C K SE R V IC E M A N U A L
STEERING C O L U M N S
3B4-47
1 /1 6 ” 4 5 ° CHA M FER
R E M O VE DOTTED
P O R T IO N
Fig. 3B 4 -8 0 ~ R e m o v in g Release Lever Pivot Pin
11. Assemble the bearing housing as follows:
a. Press the new upper and lower bearing races into
the bearing housing.
b. Lubricate and install the bearings into the bearing
races.
c. Place the lock shoe springs in position in the housing.
Install each shoe in place and com press the spring until a
suitable size straight punch can be used to hold the shoes
in position (it m ay be necessary to acquire assistance to
install the shoes). Once the shoes are in place, drive in the
shoe retaining pin.
d. Install the shoe release lever and drive in the pivot
pin.
e. Install the tilt release lever.
f. Lubricate the shoes and release lever.
12. Install the bearing housing assembly to the support.
H old the tilt release lever in the "up" position until the shoes
have fully engaged the support. Lubricate and install the
bearing housing pivot pins. Press the pins in flush w ith the
housing.
Fig. 3 B 4 -8 2 -R e v is e d Shift Tube Removing Tool J -2 2 5 5 1
13. Place the housing in the full "up" position and then
install tilt spring and retainer (tapered end of spring first).
Push into the housing approxim ately 3/16" and rotate
counter clockwise 1/8 turn.
14. Lubricate and install the upper bearing upper race,
race seat and locknut. Tighten the locknut (using Socket
J-22549) to remove the lash and then further tighten 1/16
to 1/8 of a turn (colum n m ust be in straight ahead position).
15. Remove the tilt release lever.
16. Install the directional signal switch as outlined
under "D irectional Signal Sw itch-Installation".
17. C olum n Shift M odels - Install the shift lever and
pivot pin.
18. Install the neutral-safety or back-up lam p switch.
19. Remove the colum n from the bench vise.
HOOK ENDOF TOOL
SLOT IN
SHIFT TUBE
Fig. 3B4-81~Removing Shift Tube Retaining Ring
Fig. 3B4-83--Removing Shift Tube Assembly
LIGHT T R U C K SE R V IC E M A N U A L
3B4-48
STEERING C O L U M N S
5. Loosely install the colum n dash bracket and screws.
6. Push the column down until the steering shaft
flange bottom s on the plastic spacers on the flexible coupling
and then torque the dash bracket screws.
7. Remove the plastic spacer from the alignm ent pins
using a wire hook. Check the flexible coupling to steering
shaft flange clearance (.25" to .325"), if not within
specifications, the dash bracket screws m ust be loosened and
the colum n raised or lowered as required. Retorque the
bracket screws.
The alignm ent pin plastic spacers m ust be removed
before the vehicle can be driven.
8. Push the toe pan seal to the toe pan, install and
torque the m ounting screws.
Fig. 3 B 4 -8 4 -R e m o v in g Lock Plate Assem bly
COLUMN INSTALLATION
Mandatory Installation Sequence G Series
NOTICE: See N O T IC E on page 1 o f this section
regarding the fasteners referred to in steps 3 and 10.
1. A djust the colum n lower bearing preload by
applying a force on the steering wheel end of the steering
shaft (A). Position the spring and clamp to m aintain the
dimension
as detailed
under
"M aintenance
and
A djustm ents.
2. Install the plastic spacers onto the flexible coupling
alignm ent pins.
3. From inside the vehicle, carefully insert the lower
end of the colum n through the toe pan opening guiding the
steering shaft flange onto the flexible coupling. Install and
torque the glange to coupling bolts.
4. Locate the index slot in the colum n jacket w ith the
protrusion on the clutch and brake pedal support.
Fig. 3B4-85~lnstalling Shift Pin Tube
9. All C olum ns-C onnect the directional signal switch
wiring harness.
A utom atic Colum ns-Connect the conductor tube (for
transm ission indicator) to the instrum ent panel. See Fig.
3B4-87.
10. Install the steering wheel as outlined under
"Steering W heel Installation".
11. Connect the transmission linkage.
12. Connect the battery ground cable.
Mandatory Sequence P Series
NOTICE: See N O T IC E note on page 1 of this section
regarding the fasteners referred to in steps 1, 2, 3 and
10.
1. A pplying 50 lbs. force on the steering wheel end of
the steering shaft, adjust the lower bearing preload to allow
steering shaft end play as indicated in "M aintenance and
A djustm ents". Tighten the shaft clam p on pot joint bolt to
specifications.
2. From the passenger side of the dash panel, carefully
insert the lower end of the steering colum n through the toe
panel opening.
G uide the steering shaft into the universal yoke, lining
up the m arks made at removal. Install the yoke pinch bolt
and torque to specifications. The pinch bolt m ust pass
through the shaft undercut.
3. Position and attach the lower clamp m ounting
bracket to the firewall. Locate the steering column
protrussions against the toe pan bracket while at the same
time, aligning protrusion in brake and clutch pedal support
with index slot in the steering column, as shown in Figure
3B4-87. Install the colum n to bracket clam p and torque the
clam p bolt to specifications. The toe pan bracket m ust not
override the protrusions on the steering column.
4. Position the steering colum n to dhas panel bracket,
install the attaching bolts and torque to specifications.
5. If plastic spacers were used on the flexible coupling
alignm ent pins, remove the spacers after all bolts have been
properly torqued.
6. Install the seal at the toe pan and then install the
toe pan bracket screws; torque to specifications.
7. Install the dash panel trim plate (if so equipped).
8. Connect the transm ission shift linkage on colum n
shift models.
LIGHT TR U C K S E R V IC E M A N U A L
STEERING C O L U M N S
3B4-49
STEERING SYSTEM M A N D A T O R Y REQUIREMENTS
1.
Using a 50 lb. force app lie d to the steering w heel
end of Shaft j A | , Lower Clam p Nut |~B~] must be
tightened to the specified torque to give a compressed
spring dimension | C | of .5 0 ± . 0 4
2.
a fte r assembly.
Flexible Coupling [~D~| setup dimension (~E~| must be
.2 5 0 /.3 7 5 . | NOTICE
This dimension must be held
to prevent distortion o f Flexible Coupling w ith resultant
bind and
3.
harshness.
All M ast Jacket attachm ents [ g ~] & (~H~| must be tightened
to recommended torque.
4.
Threaded portion o f Steering Shaft j J | must be
com pletely free o f lubricant a fte r
M ast Jacket | K |
assembly to m ain tain steering wheel clam ping load
and hub clearance.
Fig. 3B4-86~M andatory Sequence For Installation Of G Series Column
9.
harness.
All Colum ns - Connect the directional signal wiring
Standard C olum n with A utom atic Transm ission
Connect the conductor tube (for transm ission indicator) at
the instrum ent panel (Fig. 3B4-88).
10. Install steering wheel as outlined under "Steering
W heel-Installation".
11. Connect battery ground cable.
Fig. 3B4-87~Conductor Tube For Automatic Transmission
Indicator
LIGHT TR U C K SE R V IC E M A N U A L
A
3B4-50
STEERING C O L U M N S
STEERING SYSTEM M A N D A T O R Y REQUIREMENTS
1.
Using a 50 lb. force app lie d to the steering
w heel end of Shaft | A | f Low er Clam p Nut
|~B~| must be tightened to the specified torque
to give a compressed spring dimension | C |
of 1.26 ± .0 2 a fte r assembly.
2.
All M ast Jacket attachm ents |~p] & | E | must
be tightened to recomm ended torque.
3.
Threaded portion of Steering Shaft |~F~[ must
be com pletely free of lubricant a fte r M ast
Jacket JG | assembly to m ain tain steering
w heel clam ping load and hub clearance.
Fig. 3B4-88~M andatory Sequence For Installation of P Series Column
LIGHT T R U C K SE R V IC E M A N U A L
STEERING C O L U M N S
3B4-51
SPECIFICATIONS
STEERING GEAR RATIOS
Power
Manual
V e h icle
Ge a r
R a tio
O v e r a ll
R a tio
Ge a r
R a tio
O v e r a ll
R a tio
G 10-20
24:1
29.4:1
to
36.7:1
14:1
21.4:1
to
26.7:1
G30
24:1
29.4:1
to
36.4:1
14:1
21.4:1
to
26.5:1
P20-30
—
—
17.5:1
21.2:1
to
25.7:1
M otor Home
-
-
14:1
16.0:1
to
21.9:1
C10
24:1
29.1:1
to
37.0:1
16:1
to
13:1
16.9:1
to
20.2:1
C20-30
24:1
29.4:1
to
36.3:1
16:1
to
13:1
17.2:1
to
20.6:1
—
—
16:1
to
13:1
13.2:1
to
17.2:1
K 10-20
MANUAL STEERING GEAR
Components
A ll C-G
POWER STEERING PUMP PRESSURES
Pressure
V e h ic le
1200- 1300 psi
C10-30
T hrust Bearing
Preload
5 to 8
lbs. in.
Adjuster Plug
Lock N ut
85 lbs. ft.
Over Center
Preload
4 to 10
lbs. in .*
Over Center
Lock N ut
25 lbs. ft.
Total Steering
Gear Preload
18 lbs. in.
Max.
G 10-20-30
w /o H ydroboost
900 - 1000 psi
G30
w ith Hydroboost
1350 - 1450 psi
P10-30
1200- 1300 psi
M otor Home & K
1350- 1450 psi
* ln excess o f th ru st bearing preload.
Fig. 3B4~Specs
LIGHT TR U C K SE R V IC E M A N U A L
3B4-52
STEERING C O L U M N S
SPECIAL TOOLS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
J-6632
J-5504
J-23073
J-23072
J 5176
J-5822
J-8433
J-21854
J-23653
J-5421
J-5860
J-21239
J-2927
J 1614
J-7539
J-7624
J-4245
J-22670
Pitman A rm Puller
Pitman A rm Puller
Shift Tube Installer
Shift Tube Remover
Oil Pressure Gauge
W ormshaft Bearing Cup Remover
Pump Pulley Remover (Cast Pulley)
C olum n Pivot Pin Remover
Lock Plate Compressor
Thermometer
Torque Wrench Adapter
Pump Pulley Remover (Stamper Pulley)
Steering Wheel Puller
Sector Shaft Bushing Remover
Ball Retainer
Spanner Wrench
#23 Internal Pliers
Pump Shaft Seal Installer
19.
20.
21.
22.
23.
24.
25.
26.
27.
28.
29.
30.
31.
32.
33.
34.
35.
J-6222
J-23600
J-8947
J-5755
J 2619
J-8092
J-6278
J-6278-2
J-7079-2
J-8524-1
J-8524-2
J-6219
J-22407
J-8937
J 6217
J-23980
Shaft Seal Protector
Belt Tension Gauge
Rack-Piston Seal Compressor
Wormshaft Bearing Race Installer
Slide Hammer
Handle
Pitman Shaft Bearing Remover
Pitman Shaft Bearing Installer
Handle
Adjuster Plug Bearing Installer
Adjuster Plug Bearing Remover
Pitman Shaft Seal Installer
Pitman Shaft Bearing Installer
Ball Seal Remover
Connector Seat Installer
Steering Column Electrical Analyzer
Torque Wrenches
Fig. 3B-1 ST--Special Tools C and K Models
LIGHT T R U C K S E R V IC E M A N U A L
STEERING C O L U M N S
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
J-6632
J-5504
J-5176
J-5822
J-5860
J-22670
J-6222
J-9226
J-7576
J-21239
J-2927
J-1614
J-7539
J-7624
J-4245
J-23600
J-5755
J-2619
Pitman A rm Puller
Pitman A rm Puller
Pressure Gauge
W orm shaft Bearing Cup Puller
Torque Wrench Adapter
Pump S haft Seal Installer
Shaft Seal P rotector
Pitman Shaft Bushing Replacer
Rack-Piston Seal Compressor
Pump Pulley Remover
Steering Wheel Puller
Sector Shaft Bushing Remover
Ball Retainer
Spanner Wrench
#23 Internal Pliers
Belt Tension Gauge
Wormshaft Bearing Cup Installer
Slide Hammer
J-6278
J-6278-2
J-7079-2
J-8524-1
J-8524-2
J-6219
J-6217
J-5421
J-22407
J-22727
J-22708
J-22573
J-22599
J-21854
J-22551
J-22549
3B4-53
Pitman Shaft Bearing Remover
Pitman Shaft Bearing Installer
Drive Handle
A djuster Plug Bearing Installer
A djuster Plug Bearing Remover
Pitman Shaft Seal Installer
Connector Seat Installer
Therm om eter
Pitman Shaft Bearing Installer
Term inal Remover
T urn Signal Cover Remover
Steering Column H olding Fixture
Lock N ut Socket
Pivot Pin Remover
S h ift Tube Remover
S h ift Tube Installer
Torque Wrenches
Fig. 3B-2ST-Special Tools G and P Models
LIGHT T R U C K SE R V IC E M A N U A L
„••; r ?
■’-f i W & K
5 3 '
i ■
FRONT SUSPENSION
3C-1
SECTION 3C
FRONT SUSPENSION
The following notice applies to one or more steps in the assembly
procedure of components in this portion of the m anual as indicated at
appropriate locations by the terminology "See N otice on page 1 of this
section".
N O TIC E This fastener is an im portant attaching part in th at it could
affect the perform ance of vital components and systems, an d /o r could result
in m ajor repair expense. It must be replaced with one of the same part
num ber or with an equivalent part if replacem ent becomes necessary. Do not
use a replacem ent part of lesser quality or substitute design. Torque values
m ust be used as specified during reassembly to assure proper retention of this
part.
CONTENTS OF THIS SECTION
Front Suspension (C -G -P S e rie s)................................................................. 3C-2
Front Suspension (K -S eries).......................................................................... 3C-23
FRONT SUSPENSION, TWO-WHEEL DRIVE
INDEX
G eneral D escription............................................................ 3C-2
M aintenance and A d ju stm e n ts....................................... .3C-3
D iagnosis............................................................................... .3C-4
Com ponent Parts R eplacem ent....................................... 3C-14
W heel Hubs, B earings................................................... 3C-14
Shock A b so rb e r.............................................................. 3C-15
S ta b iliz e r........................................................................... 3C-15
Coil S p rin g ....................................................................... 3C-15
Upper Control Arm S h a ft...................
Lower Control A rm S haft.
Upper Control A rm ............
Lower Control A rm ............
Ball Jo in t...............................
Steering K nuckle................
Suspension Unit
Specifications
Special Tools.
3C-16
3C-16
3C-17
3C-18
3C-20
3C-21
3C-22
3C-40
3C-41
LIGHT TRUCK SERVICE MANUAL
3C-2
FRONT SUSPENSION
GENERAL DESCRIPTION
C-G-P Series
The C -G -P Series trucks incorporate an independent
coil spring front suspension system, as shown in Figures 3C1 and 3C-2. The control arm s are of unequal length (S.L.A .
Type).
This suspension system consists of upper and lower
control arm s pivoting on steel threaded or rubber bushings
on upper and lower control arm shafts. The lower control
arm s are attached to the crossm em ber. The upper control
arm s are attached to a fram e bracket. These control arm s
are connected to the steering knuckle through pivoting ball
joints.
A coil spring is located between the lower control arm
and a formed seat in the suspension crossmember, thus the
lower control arm is the load carrying member. Double
acting shock absorbers are also attached to the lower control
arm s and connect with the fram e to the rear on the upper
end. The front wheel bearings are tapered roller type and
are used on all models.
Fig. 3C-1 --Front Suspension, C-P Series
LIGHT TRUCK SERVICE MANUAL
FRONT SUSPENSION
3C-3
Fig. 3C-2--Front Suspension - G-Typical
MAINTENANCE AND ADJUSTMENTS
NOTICE: See N O T IC E on page 1 of this section
regarding the fasteners referred to in the m aintenance
and adjustm ent procedures below.
WHEEL BEARINGS-CHECK ADJUSTMENT
NOTICE: Tapered roller bearings are used on all series
vehicles and they have a slightly loose feel when
properly adjusted. A design feature of front wheel taper
roller bearings is th a t they m ust N E V E R be preloaded. D am age can result by the steady thrust on
roller ends which comes from preloading.
1. Raise vehicle and support at front lower control arm .
2. Spin wheel to check for unusual noise or roughness.
3. If bearings are noisy, tight, or excessively loose, they
should be cleaned, inspected and relubricated prior to
adjustm ent. If it is necessary to inspect bearings, see
"W heel H ubs, B earings" under "C om ponent Parts
R eplacem ent."
To check for tight or loose bearings, grip the tire at the
top and bottom and move the wheel assembly in and out
on the spindle. M easure movement of hub assembly. If
movement is less than .025 mm (.001 ") or greater than
.127 mm (.0 0 5 " ), ad ju st bearings per ad ju stm en t
procedure.
LIGHT TRUCK SERVICE MANUAL
3C-4
FRONT SUSPENSION
ADJUSTMENT OF WHEEL BEARINGS (FIG. 3C-3)
1.
2.
3.
4.
3. BACK OFF NUT
UNTIL JUST LOOSE
POSITION.
TIGHTEN THE NUT TO
12 FT. LBS. FULLY SEAT
OVERCOMES ANY BURRS
O N THREADS.
HAND "SNU GTHE NUT
i. LOOSEN NUT UNTIL EITHER HOLE
IN THE SPINDLE LINES UP WITH
A SLOT IN THE NUT-THEN
INSERT COTTER PIN.
NOTE: BEND ENDS OF COTTER PIN
AG A IN ST NUT, CUT OFF EXTRA
LENGTH TO PREVENT
INTERFERENCE W ITH DUST CAP
Remove hub cap or wheel disc from wheel.
Remove dust cap from hub.
Remove cotter pin from spindle and spindle nut.
Tighten the spindle nut to 16 N-m (12 ft. lbs.) while
turning the wheel assembly forward by hand to fully
seat the bearings. This will remove any grease or burrs
which could cause excessive wheel bearing play later.
See Fig. 3C-3.
5. Back off the nut to the "just loose" position.
6. Hand tighten the spindle nut. Loosen spindle nut until
either hole in the spindle lines up with a slot in the nut.
(N ot more than 1/2 flat).
7. Install new cotter pin. Bend the ends of the cotter pin
against nut, cut off extra length to ensure ends will not
interfere with the dust cap.
8. M easure the looseness in the hub assembly. There will
be from .025 mm (.001) to .127 mm (.005 inches) end
play when properly adjusted.
9. Install dust cap on hub.
10. Replace the wheel cover or hub cap.
11. Lower vehicle to floor.
12. Perform the same operation for each front wheel.
W H EN THE BEARING IS PROPERLY
ADJUSTED THERE WILL BE FROM
. 0 0 1 - 0 0 5 INCHES END-PLAY
(LOOSENESS).
Fig. 3C-3--Wheel Bearing Adjustment
DIAGNOSIS
SHOCK ABSORBER DIAGNOSIS
ON VEHICLE CHECKS
(Follow the Procedures O utlined Below in the O rder
Indicated).
Preliminary Inspection and Ride Test:
Tire Pressure
Check tire pressure com pare to vehicle specifications
and ad ju st as required. Poor vehicle control and ride
com plaints are caused in m any cases by im proper tire
inflation.
Special Suspension E quipm ent
C heck Service P arts Identification S tick er for any
special suspension equipm ent; such as, a heavy duty suspen
sion. Vehicles equipped with this type of option have a
somewhat stiffer or harsh ride, and this should be kept in
mind during the following tests. If com plaint about stiffness
should occur while vehicle is still new (under 5,000 miles) (8
LIGHT TRUCK SERVICE MANUAL
000 km), owner should be advised to have ride rechecked
after 7,000 to 8,000 miles (11 200 to 12 800 km).
Vehicle Load Conditions
N ote any exceptional load conditions under which the
owner normally operates the vehicle; such as, large tool
boxes full of tools, pick up bed full etc. If exceptional loading
is apparent, check the distribution of this weight. N ote if it is
all toward one side of the vehicle or at the extreme rear of
the vehicle. Reposition load as required to obtain a more
uniform weight distribution.
Check Vehicle Ride a n d H a n d lin g
A fter completing previous checks, ride vehicle with
owner to determ ine if problem has been corrected or to
definitely establish type of problem th a t still exists. If
problem still exists (poor handling, bottom ing, noise, ride
sway, etc.), proceed.
Inspecting an d Testing th e Shocks
Three procedures are included in this step. T het are (a)
Bounce Test, (b) Inspecting Shock M ountings for Noise
FRONT SUSPENSION
3C-5
..........
HARD STEERING
Probable Remedy
Probable Cause
a.
Ball jo ints and steering linkage ne ed lu bric ation
a.
Lubricate ball jo in ts and linkage
b.
Low or uneven fron t tire pressure
b.
Inflate tires to the pro p e r re co m m e n d e d pressure
c.
Pow er steering partially or n o t operativ e
c.
Check p o w e r steering c o m p o n e n t s for pro p e r o p e ratio n
d.
Steering gear no t pro pe rly adjusted
d.
Adjust steering gear
e.
Incorr ect front wheel alig nm en t (m anu al steering)
e.
Check and align f ron t suspension
POOR DIRECTIONAL STABILITY
a.
Ball jo in ts and steering linkage need lubric ation
a.
L ubricate at p ro p e r intervals
Inflate tires to the p ro p e r re co m m e n d e d pressure
b.
Low or uneven f ro n t or rear tire pressure
b.
c.
Loose wheel bearings
c.
Adjust wheel bearings
d.
Steering Gear n o t on high p o in t
d.
Adjust steering gear
e.
In correct front wheel alignm ent (caster)
e.
Check and align front suspension
f.
Broken springs
f.
Replace springs
g-
M alfunctioning shock a bsorber.
g.
Diagnose shock absorbers.
h.
Broken stabilizer b a r, or missing link
h. Replace stabilizer or link
FRONT WHEEL SHIMMY
(SM O O T H R O A D SH A K E )
a.
Tire a nd wheel o u t o f bala nce, or o u t o f rou nd
a.
Balance tires, c hec k run -ou t
Adjust wheel bearings
b.
Worn or loose wheel bearings
b.
c.
W orn tie rod ends
c.
Replace tie rod end
d.
Worn ball joints
d.
Replace ball j oin ts
e.
M alfunctioning shock a b sorber
e.
Diagnose sh ock a bsorbers
VEHICLE PULLS TO ONE SIDE
(N O BR A K IN G ACT IO N )
a.
L ow or uneven tire pressure
a.
Inflate tires to the p ro p e r r e com m e nd e d pressure
b.
F r o n t or rear bra k e dragging
b.
Adjust bra kes
c.
Broken or sagging f ro n t spring
c.
Replace spring
d.
Incorrect f ro n t wheel a lignm ent (C a m b e r)
d.
Check and align fro nt suspension
EXCESSIVE PLAY IN STEERING
a.
Incorrect steering gear a d ju s tm e n t
a.
Adjust steering gear
b.
Worn steering gear p arts
b.
Overhaul Gear
Fig. 3C-4--Front Suspension Diagnosis Chart A
(Looseness) and (c) M anually O perating Shocks to Determine if Shocks are W eak, Leaking H ydraulic Fluid, an d/or
if Shocks have an Internal Noise Condition.
Test procedures (b) and (c) require vehicle to be on a
hoist that supports wheels or rear axle housing and front
lower control arms.
LIGHT TRUCK SERVICE MANUAL
3C-6
FRONT SUSPENSION
NOISE IN FRONT END
Probable Cause
a.
Probable Remedy
Ball joints a nd steering linkage need lubrication
a.
Lubricate at r e c o m m e n d e d intervals
h.
Shock a b sorb er loose or bushings worn
b.
T ighten bolts a n d /o r replace bushings
c.
Worn co n tro l arm bushings
c.
Replace bushings
d.
Worn tie rod ends
d.
Replace tie rod ends
c.
Worn or loose wheel bearings
e.
Adjust or replace wheel bearings
f.
Loose stabilizer bar
f.
Tighten all stabilizer bar a tt a c h m e n t s
g-
Loose wheel nuts
fi
T ig hten the wheel nuts to p ro p e r to r q u e
h.
Spring im pro perly positio ned
ll.
Reposition
i.
Loose suspension bolts
i.
T o rque to specifications or replace
a.
Tire and wheel o u t 'of balance
a.
Balance wheels
b.
Tire and wheel ou t o f round
b.
Replace tire
c.
Blister o r b u m p on tire
c.
Replace tire
d.
Im p ro p er sh ock a b so rb er action
d.
Replace shock absorber
WHEEL TRAMP
EXCESSIVE OR UNEVEN TIRE WEAR
a.
Underinflated or overin flated tires
a.
Inflate tire to p ro p e r re co m m e n d e d pressure
b.
Im pro per toe-in
b.
Adjust toe-in
c.
Wheels out o f b alance
e.
Balance wheels
d.
Hard Driving
d.
Instruct driver
c.
Over loaded vehicle
e.
Instruct driver
SCUFFED TIRES
a.
Toe-in incorrect
a.
Adjust toe-in to specifications
b.
Excessive speed on turns
b.
Advise driver
e.
Tires im p ro p e rly inflated
c.
Inflate tires to pro pe r r e c o m m e n d e d pressure
d.
Suspension arm b e n t o r tw isted
d.
Replace arm
S
i
1
' ■>'
vxfc*
t
»ftt : * "
CUPPED TIRES
a.
Fron t shock a bsorb ers defective
a.
Replace sh ock absorbers
b.
Worn ball jo ints
b.
Replace ball join ts
c.
Wheel bearings incorrectly adju sted or worn
c.
Adjust or replace wheel bearings
d.
Wheel and tire o u t o f balance
d.
Balance wheel and tire
c.
Excessive tire or wheel ru nou t
e.
C o m p en s ate for run out
Fig. 3C-5--Front Suspension D iagnosis C hart B
Bounce Test
This is only a com parison type test to help locate the
suspected shock or noise condition before proceeding.
Test each front and rear shock by bouncing each corner
of the vehicle. This can usually be done by lifting up and
pushing down on the end of the bum per near each corner of
the vehicle u ntil m axim um m ovem ent up and down is
reached. Then let go of bum per and observe if the up and
LIGHT TRUCK SERVICE MANUAL
down motion stops very quickly. If up and down motion
continues longer at one corner when com pared to opposite
corner (example, both front shocks), the one having the
longer up and down m otion may be suspect. Do N ot
com pare front to rear. If com plaint is noise, this test should
help to locate the suspected area.
FRONT SUSPENSION
3C-7
NOISE IN FRONT END
Probable Cause
Probable Remedy
a.
Ball joints and steering linkage need lubrication
a.
Lubricate at re co m m e n d e d intervals
b.
S l u v k a bso rber loose or bushings worn
b.
T ig hten bolts a n d /o r replace bushings
c.
Worn c ontrol arm bushings
c.
Replace bushings
d.
Worn tie rod ends
d.
Replace tie rod ends
0.
Worn or loose wheel bearings
e.
Adjust or replace wheel bearings
T ighten all sta b ili/e r bar a tta c h m e n ts
f.
Loose stab ili/er bar
f.
(T
P-
Loose wheel nuts
ti T ighten the wheel nuts to proper torqu e
h.
Spring im properly p ositioned
ll.
R eposition
i.
Loose suspension holts
i.
T orq ue to specificatio ns or replace
W HEEL TRAM P
a.
Tire and wheel o u t o f balance
a.
Balance wheels
b.
Tire and wheel out o f r ou nd
b.
Replace tire
c.
Blister or b u m p on tire
c.
Replace tire
d.
I m p ro p er shock a b sorb er action
d.
Replace shock absorber
EX C ESSIV E OR UNEVEN TIR E W EAR
a.
Un derinflated or overin flated tires
a.
Inflate tire to p r o p e r re co m m e n d e d pressure
b.
Im p ro p er toe-in
b.
Adjust toe-in
c.
Wheels tint o f balance
c.
Balance wheels
d.
Hard Driving
d.
Instruct driver
e.
Over loaded vehicle
e.
Instruct driver
SCU FFED T IR E S
a.
Toe-in incorrect
a.
Adjust toe-in to specifications
b.
Excessive speed on turns
b.
Advise driver
e.
Tires im prop e rly inflated
c.
Inflate tires to prope r re co m m e n d e d pressure
d.
S uspension arm b e nt o r twisted
d.
Replace arm
CUPPED T IR E S
a.
Fro n t sh ock absorbers defective
a.
Replace shock absorbers
b.
Worn ball jo ints
b.
Replace ball jo in ts
c.
Wheel bearings incorrectly a d juste d or worn
c.
Adjust or replace wheel bearings
d.
Wheel and tire out o f b alance
d
Balance wheel and tire
c.
Excessive tire or wheel run out
e.
C o m p en s ate for runo ut
Fig. 3C-6--Front Suspension Diagnosis Chart C
Inspecting Shock Mountings
If noisy an d /o r loose shock m ountings are suspected,
place vehicle on hoist th a t supports wheels and check all
mountings for the following conditions:
If no apparent defects are noted in this step but noise
condition still exists when vehicle is bounced up and down,
proceed.
Inspecting Shocks for Leaks and
(1 ^Vorn or defective grom m ets
(2XvOOse mounting nuts
Manually Operating Shocks
(3Possible interference condition
This procedure is sub-divided into two general areas,
(1) Inspecting Shocks for Loss of H ydraulic Fluid and (2)
(4 ^ u m p stops missing
LIGHT TRUCK SERVICE MANUAL
3C-8
FRONT SUSPENSION
BALL JOINT DIAGNOSTIC PROCEDURE
Fig. 3C-7--Ball Joint Diagnostic Procedure
M anually O perating Shock. It should aid the technician to
localize defective shocks caused by internal noise in the
shock, weak, leaking, etc.
1. Inspecting Shocks for Possible Loss o f H ydraulic Fluid.
LIGHT TRUCK SERVICE MANUAL
(a) Disconnect each shock lower mounting as required and
pull down on the shock until it is fully extended.
(b) Inspect shocks for leaks in seal cover area. Shock fluid is
a very thin hydraulic fluid and has a characteristic odor
and dark brown tint (Figure 3C-8).
FRONT SUSPENSION
3C-9
C ertain precautions should be observed when in
specting shocks for leaks:
• shocks m ay have glossy paint on them . Do not
confuse this paint with a leak condition.
• a slight trace of shock fluid around the seal cover
area is not cause for replacem ent. The shock seal is
engineered to perm it a slight seepage to lubricate the
rod. The shock absorber has reserve fluid to com pen
sate for the slight seepage.
• shocks are som etim es in co rrectly diagnosed as
leakers due to oil spray originating from some other
source. If in doubt, wipe the wet area from and
m anually operate shock as described in Step (2).
Fluid will reappear if shock is leaking.
2. M anually O perating Shocks.
It m ay be necessary w ith ce rta in types of shock
m ountings to fabricate a bracket th a t can be installed
on a shock to enable a technician to securely grip the
shock when m anually operating the shock. See Figure
3C-9 for suggested m ethods of providing tem porary
grip.
T his te st should help th e m echanic to isolate the
following shock defects:
• binding condition internally
• verify leaking shock
• im proper or defective valving
(a) If suspected problem is in front shocks, disconnect
both front shock lower m ountings and stroke each
shock as follows: G rip the lower end of the shock
securely and pull down (rebound stroke) then push
up (compression stroke). The control arm s will limit
the m ovement of the front shocks during the com
pression stroke. C o m p are th e rebound resistance
between both front shocks, then com pare the com
pression resistance. If a noticeable difference can be
felt during either stroke, usually the shock having the
least resistance is at fault.
(b) If shock has an internal noise condition, extend shock
fully, then exert an extra pull. If noisy, shock should
be replaced.
O ther noise conditions th at require shock replace-^
ment are:
• a grunt or squeal after one full stroke in both
directions
• a clicking noise on fast reverse
• a skip or lag at reversal near m id-stroke
W hen air adjustable shocks are being m anually oper
ated , the air line m ust be disconnected at the shock
absorber.
BENCH CHECKS
The bench checks are recommended if the proper type
hoist is not available to perform the "on vehicle" tests, or if
th ere is still some doubt as to w hether the shocks are
defective. In addition, the bench test allows a more thorough
visual inspection.
Bench check procedures are discussed for three general
types of shocks.
SPIRAL GROOVE RESERVOIR
If this type of shock has been stored or allowed to lay in
a horizontal position for any length of time, an air void will
develop in the pressure cham ber of the shock absorber. This
air void if not purged, can cause a technician to diagnose the
shock as defective. To purge the air from the pressure
cham ber, proceed as follows: (R efer to Figure 3 C -10)
(a) Holding the shock in its normal vertical position (top
end up), fully extend shock.
(b) Hold the top end of the shock down and fully collapse
the shock.
(c) Repeat Steps (a) and (b) at least five (5) times to assure
air is purged.
Bench Test Procedure
1. This is a comparison type test. If possible, obtain a new
or known good shock with same part num ber as shock
under test.
LIGHT TRUCK SERVICE MANUAL
3C-10
FRONT SUSPENSION
AIR ADJUSTABLE SHOCKS
TYPICAL FRONT SH O C K
TYPICAL REAR SH O C K
BOTTOM'
MOUNT
ROD EXTENDED
(REBOU ND)x
r\
SHOCKS
COLLAPSED
ROD EXTENOED
(REBOUND) '
TOP END
DOWN
INVERT.
THEN COLLAPSE
SHOCK
COLLAPSED
X
BOTTOM
MOUNT
fi
T~m
n
TOP END
DOWN
INVERT, THEN COLLAPSE
POSITION FOR PURG ING AIR FROM SH O C K A BSO RBER
Fig. 3C-10--Position for Pu rging A ir From Shocks
2. W ith shocks in vertical position (top end up), clamp
bottom mounts in vise. Do not clam p on reservoir tube
or m ounting threads.
3. M anually pum p each shock by hand at various rates of
speed and com pare resistance of suspected shock with
the new one.
Rebound resistance (extending the shock) is normally
stro n g er th an the com pression resistance (a p p ro x
im ately 2:1). However, resistance should be smooth
and constant for each stroking rate.
4. Observe or listen for the following conditions th at will
indicate a defective shock:
• a skip or lag when reversing stroke at mid travel.
• seizing or binding condition except at extrem e end of
either stroke.
• a noise, such as a g ru n t or squeal, after completing
one full stroke in both directions.
• a clicking type noise at fast reversal.
• fluid leakage.
5. To check for a loose piston, com pletely extend shock to
full rebound; then exert an extra hard pull. If a give is
felt, a loose piston is indicated and shock should be
replaced.
PLIACELL OR GENETRON
Pliacell and G enetron are some of the trade nam es used
to indicate a gas-filled cell in the shock reservoir. The
reservoirs of Pliacell and G en etro n shocks are sm ooth,
com pared to the spiral groove type. The cell takes the place
of air in the reservoir. Thus, aeration or foaming of the fluid
is elim inated, as air and fluid cannot mix.
Due to this featu re, these shocks should be bench
checked in an inverted position (top end down). If, when
stroked, a lag is noticed, it m eans the gas-filled cell has been
ruptured, and the shock should be replaced. If no lag is
noticed, the rem ainder of the bench check is the same as
given in the Spiral Groove Reservoir, Section 1, Bench
Check Procedure.
LIGHT TRUCK SERVICE MANUAL
This type of shock contains an air cham ber like the
spiral groove reservoir type, and must have the air purged
from the working cham ber. See Section 1, Spiral Groove
Reservoir. A fter air has been purged from shock, proceed as
follows:
(a) Clam p lower shock mounting ring in vise in vertical
position with larger diam eter tube at the top.
(b) Pump unit by hand at different rates of speed. Smooth
resistance should be felt through the length of the
stroke. Since the units are norm ally pressurized, the
sound of air bubbles or a gurgling noise is normal.
(c) The rem ainder of the bench check is the same as given
in the Spiral Groove Reservoir, Section 1, Bench Check
Procedure.
BEARINGS AND RACES
BENCH DIAGNOSTIC PROCEDURE
This section describes common types of bearing distress
and their causes. Illustrations are included to help diagnose
the cause of distress and comments are provided to help
make effective repairs.
Consider The Following Factors When
Diagnosing Bearing Distress:
1. N ote G eneral Condition of all parts during teardown
and exam inations.
2. Classify the failure with the aid of these illustrations
where possible.
3. D eterm ine the cause. R ecognizing the cause will
perm it correction of the problem and prevent a repeat
failure of the same type.
4. M ake all repairs following recom m ended procedures.
Common Causes For Bearing Distress
Include The Following:
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
Improper adjustm ent or preloading.
M ounting or teardown abuse.
Im proper m ounting methods.
Inadequate or wrong lubricants.
Entrance of dirt or water.
W ear from dirt or metal chips.
Corrosion or rusting.
Overload.
Overheating causing tem pering.
Frettage of bearing seats.
Brinelling from im pact loads and shipping.
M anufacturing defects.
FRONT SUSPENSION
3C-11
BEARINGS AND RACES
FRONT WHEEL, PIN IO N , DIFFERENTIAL SIDE A N D REAR WHEEL ROLLER BEARINGS
DIAGNOSIS
EXCESS NO ISE C O M P L A IN T
D IA G N O S T IC PRO CEDURE
Road Test
1.
2.
3.
4.
5.
5.
Change tire pressure to minimize noises
Drive over different road surfaces
S m oo th black-top minimizes tire noise
Cross switch tires, if necessary
Snow tire treads and studs caused added noises
Engine or
Exhaust
Noises
1.
2.
3.
4.
Drive slightly above speed where noise occurs, place transmission in neutral
Let engine speed drop to idle
Stop car
Run engine at various speeds
Test for
Wheel Bearing
Noise
1.
2.
3.
4.
Drive car at low speed on a sm o o th road
Turn car to develop left and right m otions, traffic permitting
Noise should change due to cornering loads
Jack-up wheels to verify roughness at wheels
Test for
Differential
Bearing Noise
1.
2.
3.
4.
Drive car at low speed on a sm ooth road
Constant low pitch bearing noise may be heard
Noise should not change in reversing turns
Noise pattern should vary with wheel speed
1.
2.
3.
4.
Roughness or whine noise should increase with speed
Noise pitch should be higher than differentials
Test on sm o o th road to minimize tire noises
Test at various speeds in drive, float, and coast
Rear pinion bearing noise m ay be louder on acceleration
Fro nt pinion bearing noise m ay be louder on deceleration
Gear noises tend to peak in a narrow speed range
Tire Noises
Test for
Pinion Bearing
Noise
1.
2.
3.
4.
Check tires for irregular wear
Check tire pressure
Check lubricant level
Drive to warm -up rear axle
Test at various speeds in drive, float, coast and cornering
5.
6.
7.
Fig. 3C-11--Bearing Diagnosis Chart
LIGHT TRUCK SERVICE MANUAL
3C-12
FRONT SUSPENSION
FRONT WHEEL BEARING DIAGNOSIS
CONSIDER THE FOLLOWING FAC T O R SW H E N DIAGNO SING BE AR ING CO NDIT ION:
1. G E N E R A L CONDITION OF A L L PARTS DURING DISASSEMBLY AN D INSPECTION.
2. CL ASSIF Y THE F A IL U R E WITH THE A I D OF THE ILLUST RAT IO N S.
3. D E T ERM INE THE CAUSE.
4. M AKE A L L REPAIRS FOLLO WING RECOMMENDE D PROCEDURES.
GOOD BEARING
BENT CAGE
CAGE D AM AG E
DUE TO
H A N D L IN G OR TOOL USAGE.
BENT CAGE
IMPROPER
REPLACE BEARING.
G A LLIN G
M E T A L SMEARS ON R O L L E R ENDS DUE
TO O V E R H E A T , L U B R IC A N T F A IL U R E OR
OVERLOAD.
REPLACE BE ARING - CHECK SEALS A N D
CHECK FOR PROPER L U B R IC A T IO N .
M IS A L IG N M E N T
OUTER RAC E M IS A L IG N M E N T DUE TO
FOREIGN OBJECT.
CLEA N R E L A T E D PARTS A N D REPLACE
BE ARING. M A K E
SURE RACES ARE
PROPERLY SEATED.
ABRASIVE STEP WEAR
IMPROPER
REPLACE BEARIN G.
ETCHING
BEARING SURFACES APPEAR G R A Y OR
G R A Y IS H
BL A C K
IN COLOR WITH
R EL A TE D ETCHING A W A Y OF M A T E R I A L
CLEA N A L L PARTS A N D HOUSINGS, U S U A L L Y A T R O L L E R SPACING.
CHECK SEALS A N D BE ARINGS AN D
R EP L AC E
IF
L E A K IN G , ROUGH OR REPLACE BEARINGS CHECK SEALS
NOISY.
A N D CHECK FOR PROPER L U BR IC A TIO N .
PATTERN ON RO L L ER ENDS CAUSED BY
FINE AB RASIVES.
IN D EN TA TIO N S
FA TIG U E SPALLING
METAL
OF
SURFACE
SURFACE DEPRESSIONS ON RACE AND F L A K I N G
RO LLERS CAUSED BY H AR D PA RTICLES RESUL TING FROM F ATIG U E .
OF FOREIGN M A T E R I A L .
CLEA N A L L
REPLACE
BE ARING
CLEAN A L L PARTS A N D HOUSINGS, R E L A TE D PARTS.
CHECK SEALS A N D REPLACE BE ARINGS
IF ROUGH OR NOISY.
Fig. 3C-12--Bearing Diagnosis Illustration A
LIGHT TRUCK SERVICE MANUAL
CAGE DAM AG E
DUE TO
H A N D L IN G OR TOO L USAGE.
FRONT SUSPENSION
3C-13
FRONT WHEEL BEARING DIAGNOSIS (CONT’D)
B R IN ELLING
CAGE WEAR
SURFACE IN DEN TAT IO NS IN RACEWAY
CAUSED BY RO LLERS EITHER U NDE R
IMPACT L O A D IN G OR V I B R A T IO N W HIL E
THE BEARING IS NOT R O T A TIN G .
WEAR A R O U N D OUTSIDE DIAM ETER OF
CAGE AND ROLLER POCKETS CAUSED
BY
A B R A S IV E
M A T E R IA L
AND
IN E F F IC IE N T
L U B R IC A TIO N . CHECK
SEALS A ND REPLACE BEARINGS.
REPLACE BEARING IF ROUGH OR NOISY.
CRACKED INNER RACE
RACE CRACKED DUE TO IMPROPER FIT,
COCKING, OR POOR BEARING SEATS.
SMEARS
SMEARING OF M E T A L DUE TO SLIPPAGE,
SLIPPAGE CAN BE CAUSED BY POOR
F IT S ,
L U B R IC A T IO N , O V E R H E A T IN G ,
O VE RLO ADS OR H A N D L IN G DA MAGE.
REPLACE BEARINGS, CLEA N R EL A TE D
PARTS AND CHECK FOR PROPER FIT
AND LUBRICA TIO N.
REPLACE
SHAFT
IF
ABRASIVE ROLLER WEAR
PATTERN ON RACES AND
CAUSED BY FINE AB RASIVES.
RO LLERS
CLEAN A L L PARTS A N D HOUSINGS
CHECK SEALS A N D BEARINGS AND
REPLACE
IF L E A K IN G , ROUGH OR
NOISY.
FRETTAGE
CORROSION
SET
UP
BY
SMALL
R E L A T IV E M O VEM ENT OF PARTS WITH
NO L U BR IC A TIO N .
REPLACE BE ARIN G. CLEAN R E L A TE D
PARTS. CHECK SEALS A N D CHECK FOR
PROPER L U BR IC A TIO N .
DAM AG E D.
HEAT DISCO LORATION
H E A T DISCOLORATIO N
CAN
RANGE
FROM F A I N T YE LLO W TO D A R K BLUE
R E S U L T IN G
FROM
O V E R L O A D OR
INCORRECT L U BRICA NT.
EXCESSIVE
HEAT
CAN
CAUSE
SOFTENING OF RACES OR RO LLERS.
TO CHECK FOR LOSS OF TEMPER ON
RACES OR ROLLERS A SIMPLE FILE TEST
MAY BE M ADE. A FILE DRAWN OVER A
TEMPERED PART W I L L GRAB A N D CUT
META, WHEREAS, A FILE DRAWN OVER
A H AR D PART W I L L G LIDE R E A D I L Y
WITH NO M E T A L CUTTING.
REPLACE BE ARINGS IF OVER HEA TING
DA MAGE IS IN DICAT ED. CHECK SEALS
AN D OTHER PARTS.
STAIN DISCOLO RATIO N
DISCOLORATIO N
CAN
RANGE FROM
LIG H T BROWN TO BLACK CAUSED BY
INCORRECT L U B R IC A N T OR MOISTURE.
RE-USE BEARINGS IF STAINS CAN BE
REMOVE D BY LIG HT POLISHING OR IF
NO EVIDENCE OF O V E R H E A T IN G IS
OBSERVED.
CHECK SEALS A N D R E L A T E D PARTS FOR
DAMAGE.
Fig. 3C-13--Bearing Diagnosis, Illustration B
i iruT tp! \ r v Q T D \ • •«•" IA|
3C-14
FRONT SUSPENSION
COMPONENT PARTS REPLACEMENT
WHEEL HUBS, BEARINGS (Fig. 3C-14)
Rem oval C, G an d P Series
1. R aise vehicle on hoist and rem ove wheel and tire
assem bly. Remove d u st cap from end of hub and
w ithdraw cotter pin.
2. Remove the brake caliper and hang by wire to the
suspension. Do not allow the caliper assembly to hang
by the brake flex line.
3. Remove hub and disc assembly.
4. Remove outer bearing from hub. The inner bearing will
rem ain in the hub and may be removed by prying out
the inner grease seal.
5. W ash all parts in cleaning solvent.
2.
3.
4.
Inspection
1. Check all bearings for cracked bearing cages, worn or
pitted rollers.
2. Check bearing races for cracks or scoring, check brake
discs for out-of-round or scored conditions and check
bearing outer races for looseness in hubs.
5.
Repairs
Replacement of Bearing Cups
If necessary to replace an outer race, drive out old race
from the hub with a brass drift inserted behind race in
notches in hub. Install new race by driving it into hub with
the proper race installer J-8457, J-8458, J-8849 or J-92762. Remove an,d install the inner race in the same manner.
NOTICE: Use care when installing new race to start it
squarely into hub, to avoid distortion and possible
cracking.
Wheel Stud Replacement (Fig. 3C-14)
Use a piece of w ater pipe or other sim ilar tool to
support the hub while pressing a wheel stud either in or out.
Installation
See N O T IC E on page
regarding the fasteners referred to in
1. C lean off any grease in th e hub
thoroughly clean out any grease in
NO TICE:
1 of this section
steps 8 and 9.
and spindle and
the bearings. Use
Fig. 3C-14--Pressing Hub Bolt
i jo ht T r y o k
m an u a }
6.
cleaning solvent. Use a sm all brush w ith no loose
bristles to clean out all old grease. Do not spin the
bearing with compressed air while drying it or the
bearing may be dam aged.
Use a G M approved high tem perature front wheel
bearing grease or equivalent. Do not mix greases as
mixing may change the grease properties and result in
poor perform ance.
Apply a thin film of grease to the spindle at the outer
bearing seat and at the inner bearing seat, shoulder,
and seal seat.
Put a small quantity of grease inboard of each bearing
cup in the hub. This can be applied with your finger
forming a dam to provide extra grease availability to
the bearing and to keep thinned grease from flowing out
of the bearing.
Fill the bearing cone and roller assemblies 100% fill of
grease. A method for doing this is with a cone type
grease machine th at forces grease into the bearing. If a
cone g reaser is not available, the bearings can be
packed by hand. If hand packing is used, it is extrem ely
im p o rtan t to work the grease thoroughly into the
bearings betw een the rollers, cone, and th e cage.
Failure to do this could result in prem ature bearing
failure.
Place the inner bearing cone and roller assembly in the
hub. Then using your finger, put an additional quantity
of grease outboard of the bearing.
7. Install a new grease seal using a flat plate until the seal
is flush with the hub. L ubricate the seal lip with a thin
layer of grease.
8. Carefully install the hub and rotor assembly. Place the
outer bearing cone and roller assembly in the outer
bearing cup. Install the washer and nut and initially
tighten the nut to 12 ft. lbs. while turning the wheel
assembly forward by hand. Put an additional quantity
of grease outboard the bearing. This provides extra
grease availability to the bearing.
9. Final wheel bearing adjustm ent should be perform ed as
previously outlined.
Fig. 3C-15--Shock Absorber Attachments
FRONT SUSPENSION
SHOCK ABSORBER
COIL SPRING
Removal (Fig. 3C-15)
Removal (Fig. 3C-17)
1. Raise vehicle on hoist.
2. Remove nuts and eye bolts securing upper and lower
shock absorber eyes.
3. W ith d ra w shock absorber and inspect rubber eye
bushings. If defective, replace shock absorber
assembly.
Installation
Place shock absorber into position over mounting bolts
or into mounting brackets. Install eye bolts and nuts and
torque as shown in Specifications Section. Lower vehicle to
floor.
STABILIZER BAR
Removal (Fig. 3C-16)
1. Raise vehicle on hoist and remove nuts and bolts
attaching stabilizer brackets and bushings at frame
location.
2. Remove brackets and bushings at lower control arms
and remove stabilizer from vehicle.
1. Place vehicle on hoist and place jack stands under
frame, allowing control arms to hang free.
2. Disconnect shock absorber at lower end and move
aside. Disconnect the stabilizer bar attachments to the
lower control arm.
3. Bolt Tool J-23028 to a suitable jack.
4. Place tool under cross-shaft so that the cross-shaft seats
in the grooves of the tool. As a safety precaution install
and secure a chain through the spring and lower control
arm.
5. Raise the jack to remove tension on the lower control
arm cross-shaft and remove the two " U " bolts securing
the cross-shaft to crossmember. The crosshaft and
lower control arm keeps the coil spring compressed.
Use care when lowering.
6. Lower control arm by slowly releasing the jack until
spring can be removed. Be sure all compression is
relieved from spring.
7. Remove spring.
Installation
Inspection
Inspect rubber bushings for excessive wear or agingreplace where necessary. Use rubber lubricant when install
ing bushings over stabilizer bar.
1.
Installation
NOTICE: See N O T I C E on page 1 of this section
3C-15
2.
regarding the fasteners referred to in step 2.
Slit in bar to frame bushings should be facing forward.
1. Place stabilizer in position on frame and install frame
brackets over bushings. Install nuts and bolts loosely.
3.
4.
2. Install brackets over bushings at lower control arm
location. Be sure brackets are positioned properly over
bushings. Torque all nuts and bolts to specifications.
3. Lower vehicle to floor.
5.
6.
NOTICE: See N O T I C E on page 1 of this section
regarding the fasteners referred to steps 3 and 4.
Properly position spring on the control arm, and lift
control arm using jack and tool J-23028.
Some models are equipped with air cylinders in the coil
springs. These cylinders should be checked for leaks
and damage at this time. Air pressure in these cylinders
should be 40 PSI ± 1 0 .
Position control arm cross-shaft to crossmember and
install " U " bolts and attaching nuts. Make certain
front indexing hole in cross-shaft is lined up with
crossmember attaching saddle stud.
Torque nut to specifications.
Install shock absorber to lower control arm and install
stabilizer bar.
Remove tool J-23028 and safety chain.
Lower vehicle to floor.
Fig. 3C-17--Removing Coil Spring with Tool J-23028
L IG H T T R U C K SERVICE M AN U AL
3C-16
FRONT SUSPENSION
UPPER CONTROL ARM INNER PIVOT SHAFT
AND/OR BUSHING REPLACEMENT
C20-30, G30 and P20-30 (Steel Bushings)
Pivot Shaft Removal
1. Raise vehicle and remove tire and wheel assembly.
2. Support the lower control arm with a floor jack.
Position jack under the ball joint assembly or as near as
possible and still have good support.
3. Loosen the upper control arm shaft end nuts before
loosening the shaft to frame attaching nuts.
4. Loosen the shaft to frame nuts and remove the caster
and camber shims. Tape the shims together as they are
removed and mark for position.
5. Remove the pivot shaft to frame nuts but do not allow
the arm to swing too far away from the frame.
Use a safety chain to retain the arm in a close
relationship to the frame. See Fig. 3 C -18.
6. Remove the shaft end nuts and remove shaft from arm.
Bushing Replacement (Steel Bushings)
1. Remove grease fittings from bushing outer ends and
unscrew bushings from control arm and shaft.
2. Slide new seal on each end of shaft and insert shaft into
control arm.
3. Start new bushings on shaft and into control arm.
Adjust shaft until it is centered in control arm, then
turn bushings in and torque to specifications. Figure
3C-19 shows correct final positioning of shaft. Check
shaft for free rotation and install grease fittings.
Installation
NOTICE: See N O T I C E on page 1 of this section
regarding the fasteners referred to in steps 3, 5 and 6.
W hen installing the upper control arm be sure to
properly position the special aligning washers to the pivot
shaft with convex and concave sides together.
1. Install the shaft to the control arm and install end nuts.
Do not torque nuts at this time.
2. Position cross shaft to frame bolts and start cross shaft
nuts.
3. Torque the shaft end nuts. See Fig. 3C-19 for proper
spacing. The shaft should rotate by hand after the nuts
are torqued.
4. Install caster and camber shim in their appropriate
places.
5. Torque the cross-shaft to frame nuts.
6. Remove the safety chain and install the tire.
7. Lower vehicle to the floor.
LOWER CONTROL ARM INNER PIVOT SHAFT
AND/OR BUSHING REPLACEMENT
C20-30, G30, P20-30 (Steel Bushings)
Lower-Removal (Fig. 3C-18)
1. Raise vehicle and support the frame so that control
arms hang free.
2. Position an adjustable floor jack under the control arm
inboard of spring and into depression in lower arm.
3. Install a chain over upper arm (Fig. 3C-18). Inboard of
stabilizer and outboard of shock absorber as a safety
measure.
4. Disconnect shock absorber at lower control arm.
5. Loosen shaft end nuts.
6. Remove " U " bolts.
7. Lower jack just enough to get at shaft.
8. Remove shaft end nuts and remove shaft.
Bushing Replacement (Steel Bushings)
1. Remove grease fittings from ends of bushings and
unscrew bushings from shaft and control arm. Remove
shaft and seals.
Fig. 3C-18--Removing Inner Pivot Shaft
LIG H T T R U C K SE RV IC E M AN U AL
Fig. 3C-19--Positioning U.C.A. Shaft (Steel Bushings)
FRONT SUSPENSION
3C-17
J—2 4 4 35 -7
J—24435-1
Fig. 3 C -2 2 -U .C .A . Rubber Bushing Rem oval
3. Install " U " bolts. Do not torque nuts at this time.
4. Torque cross-shaft end nuts. The shaft should roate by
hand after the nuts are torqued.
Fig. 3C-20--Positioning L.C.A. Sh aft (Steel Bushings)
5. Torque " U " bolt nuts.
6. Remove safety chain.
2. Slide new seal on each end of shaft and insert shaft into
control arm.
3. Start new bushings on shaft and into control arm.
Adjust shaft until it is centered in control arm, then
turn bushings in and torque to specifications. Check
shaft for free rotation. Figure 3C-20 shows correct final
positioning of shaft.
Installation
NOTICE: See N O T I C E on page 1 of this section
regarding the fasteners referred to in steps 4 and 5.
1. Install shaft to control arm and install end nuts. Do not
torque nuts at this time.
2. Raise jack and position shaft into crossmember saddle.
Be sure to index hole in shaft to mate with bolt head in
saddle.
7. Lower vehicle to floor.
UPPER CONTROL ARM ASSEMBLY
All Removal
1. Raise vehicle on hoist, remove wheel and tire assembly
and support lower control arm assembly with adjusta
ble jackstand.
2.
It is necessary to remove the brake caliper assembly
and wire it to the frame to gain clearance for tool
J-23742. See section 5 for proper procedure.
3. Remove cotter pin from upper control arm ball stud
and loosen stud nut one turn.
4. Loosen upper control arm ball stud in steering knuckle,
using Tool J-23742 position as shown in Figure 3C-21.
Remove the nut from the ball stud and raise upper arm
to clear steering knuckle.
J —2 4 4 3 5 -7
J—2 4 4 3 5 -4
J— 2 4 4 3 5 -5
(HIDDEN)
Fig. 3C-21--Disconnecting Ball Joints from Knuckle
Fig. 3C-23--U.C.A. Rubber Bushing Installation
L IG H T T R U C K SERVICE M AN U AL
3C-18
FRONT SUSPENSION
5. Remove nuts securing control arm shaft to frame.
W ithdraw control arm assembly. Tape shims together
and tag for proper relocation when control arm is
reinstalled.
Upper Control Arm Inner Pivot Shaft and/or
Bushing Replacement
CIO, G10-20, P10 (Rubber Bushings)
Removal (Fig. 3C-22)
1. Remove the upper control arm using the preceding
procedure and mount the control arm in a vise.
2. Install remover J-24435-1, receiver J-24435-3 and
" C " clamps J-24435-7 as shown in Figure 3C-22.
3. Tighten the clamp to draw out the old bushing. Discard
old bushing.
4. The pivot shaft may now be removed from the control
arm assembly.
5. Reposition the control arm in the vise and repeat the
removal procedure on the remaining bushing.
Bushing Installation
1. Again using " C " clam p J-24435-7 and installers
J-24435-4 (outer) and J-24435-5 (inner) tighten clamp
to install bushing onto control arm.
2. Install pivot shaft into inside diameter of first installed
bushing.
3. Install remaining bushing as shown in Figure 3C-23
and described in step 1.
4. Remove tools and install control arm on vehicle
following procedure described below. Torque all fasten
ers to proper specifications.
Upper Control Arm Installation
NOTICE: See N O T I C E on page 1 of this section
regarding the fasteners referred to in steps 1, 2 and 3.
W hen installing the upper control arm be sure to
position the special aligning washers to the pivot shaft with
concave and convex sides together.
Fig. 3C-24--Lowering Control Arm for Bushing
Replacement
L IG H T T R U C K SE RV IC E M AN U AL
1. Place control arm in position on bracket and install
nuts. Before tightening nuts, insert caster and camber
shims in the same order as when removed. Torque the
nuts to specifications.
A normal shim pack will leave at least two (2) threads
of the bolt exposed beyond the nut. If two (2) threads
cannot be obtained: Check for damaged control arms
and related parts. Difference between front and rear
shim packs must not exceed 7.62 mm (.30 inches).
Front shim pack must be at least 6.09 mm (.24 inches).
Always tighten the thinner shim packs’ nut first for
improved shaft to frame clamping force and torque
retention.
2. Insert ball joint stud into steering knuckle and install
nut. Torque stud nut to specifications and install cotter
pin.
3. Install brake caliper assembly if removed (see section
5).
4. Remove adjustable support from under lower control
arm. Install wheel and tire assembly.
5. Lower the vehicle to the floor.
LOWER CONTROL ARM ASSEMBLY
Removal
1. Raise vehicle on hoist and remove spring as outlined
under spring removal. Support the inboard end of the
control arm after spring removal.
2. Remove cotter pin from lower ball stud and loosen stud
nut one turn.
3. Install Ball Stud Remover J-23742, position large cup
end of the tool over the upper ball stud nut and piloting
the threaded end of tool on end of the lower ball stud.
Extend bolt from Tool J-23742 to loosen lower ball stud
in steering knuckle. When stud is loosened, remove tool
and nut from lower stud.
It is necessary to remove the brake caliper assembly
and wire it to the frame to gain clearance for tool
J-23742. See section 5 for proper procedure.
4. Remove the lower control arm.
Fig. 3C-25--L.C.A. Rubber Bushing Removal
FRONT SUSPENSION
Lower Control Arm Inner Pivot Shaft and/or
Bushing Replacement-On Vehicle
CIO (Rubber Bushings)
Removal (Figs. 3C-24, 3C-25)
If just bushings or pivot shaft are to be replaced the
lower control arm does not have to be removed from the
vehicle.
1. Raise vehicle on hoist and support the frame so that the
control arms hang free.
2. Position an adjustable floor jack under the lower
control arm inboard of spring and into depression of
control arm.
3. Install a chain over the upper arm inboard of the
stabilizer and outboard of shock absorber as a safety
measure.
4. Disconnect shock and stabilizer bar attachments at
lower control arm.
5. Loosen shaft end nuts.
6. Remove " U " bolts that retain the inboard end of the
lower control arm.
7. Lower jack S L O W L Y to release spring compression
(Fig. 3C-24) and gain clearance to remove bushings.
Be sure all compression is released from coil springs.
8. Remove the stakes on the front bushing using tool
J-2 2 7 17 or equivalent tool.
9. Bushings may now be replaced. Install " C " clamps
J-24435-7 and receiver J-24435-3 with remover
J-24435-2 and spacer J-24435-6 as shown in Figure
3C-25.
10. Tighten the " C " clamp to remove the bushing.
11. Remove tools and discard old bushing.
12. Pivot shaft may now be removed if necessary.
13. Remove second bushing (leave pivot shaft in to pilot
tool) by the same method as in steps 8-12.
Bushing Installation (Fig. 3C-26)
NOTICE: See N O T I C E on page 1 of this section
regarding the fasteners referred to in step 5.
1. Install new bushings as shown in Figure 3C-26 using
spacer J-24435-6, installer J-24435-4 and " C " clamp
J-24435-7.
2. Turn clamp in until bushing seats firmly.
3C-19
2. Remove pivot shaft nuts.
3. Place control arm in an arbor press, press front end of
pivot shaft to remove rear bushing, and pivot shaft
assembly.
4. Remove the stakes on the front bushing using Tool
J-2 2 7 17 or equivalent tool.
5. Install " C " clamp J-24435-7 and receiver J-24435-3
with remover J-24435-2 and spacer J-24435-6 as
shown in Figure 3C-25.
6. Tighten " C " clamp to remove the bushing.
Installation
NOTICE: See N O T I C E on page 1 of this section
regarding the fasteners referred to in step 5.
1. Install new bushings as shown in Figure 3C-26 using
spacer J-24435-6, installer J-24435-4 and " C " clamp
J-24435-7.
2. Turn clamp in until bushing seats firmly.
Be sure outer tube hole is to the front or forwards to the
staked bushing.
NOTICE: Be sure spacer J-24435-6 is in position as
shown in Figure 3C-26 to avoid collapsing control arm
during assembly.
3. Stake front bushing at least in two places when
installed.
4. Insert the pivot shaft and install second bushing.
5. Install the lower control arm to the vehicle as described
under "Lower Control Arm - Installation", being sure
to torque all fasteners to the proper specification.
Lower Control Arm Installation
NOTICE: See N O T I C E on page 1 of this section
regarding the fasteners referred to in steps 2 and 3.
1. Install lower ball stud through steering knuckle and
tighten nut.
2. Install spring and control arm as outlined under spring
installation.
3. Torque lower control arm ball stud to specifications and
install cotter pin.
4. Install brake caliper assembly if removed (see section
5).
5. Lower the vehicle to the floor.
NOTICE: Be sure spacer J-24435-6 is in position as
shown in Figure 3C-26 to avoid collapsing control arm
during assembly.
3. Install one bushing then insert the pivot shaft and
install second bushing.
4. Stake front bushing at least in two places when
installed.
5. Install the lower control arm to the vehicle as described
under "Lower Control Arm - Installation", being sure
to torque all fasteners to the proper specification.
Lower Control Arm Inner Pivot Shaft And Bushing
Replacement-G10-G20 Models
Removal
1. Remove lower control arm as previously outlined.
Fig. 3C-26--L.C.A. Rubber Bushing Installation
L IG H T T R U C K SE RV IC E M AN U AL
3C-20
FRONT SUSPENSION
R E M O VE
UPPER
R EM O VE
LO W ER
HE A V Y
FLAT
W ASHER
I
J— 2 3 7 4 2 ,
J— 2 3 7 4 2
Fig. 3C-27--Disconnecting Ball Joints-Typical
1. Install new service ball joint, using bolts and nuts
supplied with joint, to upper arm. Torque nuts to 60
N-m (45 ft. lbs.).
2. M ate ball stud to steering knuckle and install stud nut.
3. Torque the ball stud nut as follows:
A .10 Series 54-80 N-m (40-60 ft. lbs.) plus additional
torque to align cotter pin not to exceed 120 N-m (90
ft. lbs.). Never back off to align cotter pin.
B.20-30 Series 110-140 N-m (80-100 ft. lbs.) plus
additional torque to align cotter pin not to exceed
175 N-m (130 ft. lbs.) Never back off to align cotter
pin.
4. Install new cotter pin as shown in Figure 3C-28.
5. Install lube fitting and lube new joint.
6. Install brake caliper assembly if removed (see section
5).
7. Install tire and wheel assembly.
8. Lower the vehicle to the floor.
BALL JOINT SERVICE-ON VEHICLE
Ball Joint-lnspection
Ball Joint-lnspection
The upper ball stud is spring loaded in its socket. This
minimizes looseness at this point and compensates for
normal wear, if the upper stud has any perceptible lateral
shake, or if it can be twisted in its socket with the fingers, the
upper ball joint should be replaced.
Upper-Removal
1. Raise vehicle on hoist. If a frame hoist is used, it will be
necessary to support the lower control arm with a floor
jack.
2. Remove cotter pin from upper ball stud and loosen stud
nut (two turns) but do not remove nut.
3. Install J-23742 between the ball studs as shown in
Figure 3C-27.
It is necessary to remove the brake caliper assembly
and wire it to the frame to gain clearance for tool
J-23742. See section 5 for the proper procedure.
4. Be sure lower control arm is supported as pointed out in
step 1. Extend bolt from Tool J-23742 to loosen ball
stud in steering knuckle. When stud is loose, remove
tool and stud nut.
5. Center punch rivet heads and drill out rivets.
6. Remove the ball joint assembly.
Lower
Lower ball joints are a loose fit when not connected to
the steering knuckle. W ear may be checked without disas
sembling the ball stud, as follows:
1. Support weight of control arms at wheel hub and drum.
2. Accurately measure distance between tip of ball stud
and tip of grease fitting below ball joint.
3. Move support to control arm to allow wheel hub and
drum to hang free. Measure distance as in Step 2. If the
difference in measurements exceeds 2.38 mm (.094"
(3 /3 2 " ) for all models, ball joint is worn and should be
replaced (Fig. 3C-29).
Lower-Removal
1. Raise vehicle on a hoist. If a frame hoist is used it will
be necessary to support the lower control arm with a
floor stand.
2. Remove the tire and wheel assembly.
3. Remove the lower stud cotter pin and loosen (two
turns) but do not remove the stud nut.
Installation
NOTICE: See N O T I C E on page 1 of this section
regarding the fasteners referred to in steps 1, 3 and 6.
Fig. 3C-29--Checking Lower Ball Joint
LIG H T T R U C K SE RV IC E M A N U A L
FRONT SUSPENSION
4. Install J-23742 between the ball studs as shown in
Figure 3C-27.
It may be necessary to remove the brake caliper
assembly and wire it to the frame to gain clearance for
tool J-23742. See section 5 for proper procedure.
5. Be sure lower control arm is supported as pointed out in
Step 1. Extend bolt from Tool J-23742 to loosen ball
stud in steering knuckle. When stud is loosened, remove
tool and ball stud nut.
6. Pull the brake disc and knuckle assembly up off the ball
stud and support the upper arm with a block of wood so
that assembly is out of working area.
NOTICE: Do not put stress on the brake line flex hose or
damage to the brake line may result.
7. Install Tools J - 9 5 19-10 and J-9519-2 and J-9519-29 as
shown in Fig. 3C-30.
8. Turn hex head screw until ball joint is free of control
arm.
9. Remove tools and the ball joint.
Installation (Fig. 3C-31)
NOTICE: See N O T I C E on page 1 of this section
regarding the fasteners referred to in steps 4, 5 and 7.
1. S tart the new ball joint into the control arm and install
J - 9 5 19-10 and J-9 5 19-16 as shown. Position bleed vent
in rubber boot facing inward.
2. Turn hex head screw until ball joint is seated in control
arm.
3. Lower the upper arm and mate the steering knuckle to
the lower ball stud.
4. Install brake caliper assembly if removed (see Section
5).
5. Install ball stud nut and torque as follows. All Series,
110 - 140 N-m (80-100 ft. lbs.) plus additional torque
to align cotter pin hole not to exceed 175 N-m (130 ft.
lbs.) maximum. Never back off to align cotter pin.
6. Install a lube fitting and lube the joint.
7. Install tire and wheel assembly and lower vehicle to
floor.
3C-21
STEERING KNUCKLE
It is recommended that vehicle be raised and supported
as on a twin-post hoist so that the front coil spring remains
compressed, yet the wheel and steering knuckle assembly
remain accessible. If a frame hoist is used, support lower
control arm with an adjustable jackstand to safely retain
spring in its curb height position.
Removal
1. Raise vehicle on hoist and support lower control arm as
noted above.
2. Remove wheel and tire assembly.
3. Remove caliper as outlined under "Front Wheel Hub Removal".
4. Remove disc splash shield bolts securing the shield to
the steering knuckle. Remove Shield.
5. Refer to Section 3B-Steering for service removal
operations.
6. Remove upper and lower ball stud cotter pins and
loosen ball stud nuts. Free steering knuckle from ball
studs by installing Special Tool J-23742. Remove ball
stud nuts and withdraw steering knuckle.
Installation
NOTICE: See N O T I C E on page 1 of this section
regarding the fasteners referred to in steps 2, 3 ,4 and 5.
1. Place steering knuckle in position and insert upper and
lower ball studs into knuckle bosses.
Steering knuckle hole, ball stud and nut should be free
of dirt and grease before tightening nut.
2. Install ball stud nuts and tighten nut to specifications.
(See Specification Section.)
If necessary, tighten one more notch to insert cotter
pins. Do not loosen nut to insert cotter pin. Refer to Ball
Joint text for proper nut installation sequence.
3. Reverse rem aining removal procedure, and tighten
splash shield m ounting bolt. Tighten two caliper
assembly mounting bolts to 48 N-m (35 ft. lbs.) torque.
4. Adjust wheel bearings as outlined under Front Wheel
Bearing Adjustment.
5. Tighten wheel nuts to 100 N-m (75 ft. lbs.).
J-9519-2
(HIDDEN)
J-9519-29
J -9 5 19-16
J -9 5 19-1 0
J -9 5 19-10
BALL JOINT
REMOVAL
Fig. 3C-30--Ball Joint Removal
BALL JOINT
INSTALLATION
Fig. 3C-31—Installing Ball Joint
LIG H T T R U C K SE RV IC E M AN U AL
3C-22
FRONT SUSPENSION
CROSSMEMBER AND SUSPENSION UNIT
Com ponent parts of the front suspension may be
serviced separately as outlined in the preceding service
operations. However, if extensive service is to be performed
to crossmember, frame, etc., the unit can be removed and
installed as follows:
9. Disconnect fron shock absorbers from lower control
arms.
10. Remove brake line clip bolts from front suspension
crossmember. On C-Models the clip is located under
right hand engine mount support bracket.
Removal (Fig. 3C-32)
1. Raise hood and disconnect negative battery cable from
battery.
2. Raise vehicle on hoist.
3. Remove front wheels.
4. Disconnect front brake hose clip from each upper
control arm.
5. Support front of vehicle with jack stands at frame side
rails. Lower front hoist.
6. Clean area adjacent to brake hose fittings. Disconnect
front brake hoses from calipers. Discard special wash
ers (2 each hose). Cover disconnected end of each hose
with suitable material.
7. Disconnect tie rod ends from steering knuckles. Dis
card cotter pins. Refer to Section 3B.
8. If equipped, disconnect front stabilizer from lower
control arms.
G-MODEL
Fig. 3C-32--Suspension Unit to Frame
LIG H T T R U C K SE RV IC E M A N U A L
11.
12.
13.
14.
15.
16.
NOTICE: Failure to disconnect these clips from the front
suspension unit will result in severe damage to the
brake line when unit is lowered from vehicle.
Remove engine mount support bracket to front suspen
sion crossmember bolts.
Remove crossmember to lower frame rail bolts.
Raise hoist to support front suspension unit.
Support engine. Engine must be supported adequately
before front suspension unit is lowered from vehicle.
Remove upper control arm bracket to frame side rail
bolts. Suspension unit is now disconnected from
vehicle.
Lower hoist to lower front suspension unit from vehicle.
FRONT SUSPENSION
Installation
1. Raise hoist to align new suspension unit with frame rail
holes.
NOTICE: See N O T I C E , on page 1 of this section
regarding fasteners referred to in steps 2-14.
2. Assemble (finger-tight) upper control arm bracket
bolts and crossmember bolts to frame rails.
3. Torque upper control arm bracket bolts to frame side
rails to 90 N-m (65 ft. lbs.). Control arm bracket bolts
must be torqued before crossmember bolts are torqued.
Crossmember must be in contact with siderails.
4. Torque crossmember bolts to frame lower rails 100 ft.
lbs. Engine support can be removed at this time.
5. Lower hoist.
6. Assemble (finger-tight) engine mount support bracket
to front suspension crossmember bolts.
7. Torque engine mount support bracket bolts to 48 N-m
(35 ft. lbs.).
3C-23
8. Install brake line clip bolt to front suspension cross
member. Torque to 17 N-m (150 in. lbs.) (C-models),
12 N-m (100 in. lbs.) (G-models).
9. Connect front shock absorbers to L.C.A.’s. Torque to
80 N-m (60 ft. lbs.) (C-models), 95 N-m (70 ft. lbs.)
(G-models).
10. If equipped, connect front stabilizer to L .C .A .’s.
Torque to 34 N-m (25 ft. lbs.).
11. Connect tie rod ends to steering knuckles. Refer to
Section 3B.
12. Connect front brake hose to caliper, using new special
washers. Refer to Section 5.
13. Connect front brake hose clips to upper control arms.
T orquenuts to 17 N-m (150in. lbs.).
14. Lubricate upper and lower ball joints.
15. Install front wheels.
16. Bleed brake system. Refer to Section 5 for correct
bleeding procedures.
17. Lower vehicle.
18. Connect battery cable.
FRONT SUSPENSION, FOUR-WHEEL DRIVE
SERIES K IO , K 20, K 30
INDEX
General Description.........................................................
Maintenance and A djustm ents.....................................
Ball Joint A d ju stm e n t................................................
Bearing L u b ricatio n ....................................................
Wheel Bearing A djustm ent.......................................
Component R eplacem ent...............................................
Hubs, Automatic Locking (K10, K 20)..................
Hubs, Free-Wheeling ( K 3 0 ) .....................................
3C -2 3
3 C -2 6
3 C -2 6
3 C -2 6
3 C -2 6
3C -27
3C -27
3C -3 0
S p in d le ...........................................................................
Steering Knuckle (K10, K 2 0 )..................................
Steering Knuckle (K 3 0 ) .............................................
Shock A b s o rb e r............................................................
Stabilizer Bar................................................................
Leaf Sp rin g ....................................................................
Specifications.....................................................................
Special Tools......................................................................
3 C -3 2
3C -3 3
3 C -3 6
3C -3 8
3C-38
3C-39
3 C -4 0
3C-41
GENERAL DESCRIPTION
Front drive axles used on K10, K20, and K30 trucks
have several styles of wheel-end construction.
Knuckle Attachment
At the wheel ends of the axle tubes, two types of
steering knuckle attachment are used. Figure 3 C -lK (a)
shows the K10 and K20 knuckle attached with ball joints.
Figure 3C -lK (b ) shows the king-pin attachment used in
K30. The tapered upper king pin fits in a tapered nylon
bushing. The lower king pin is part of the bearing cap, and
this king pin rides in a tapered roller bearing.
Hub Design
An automatic locking hub is used on all K10 and K20
models. This system, shown in Figs. 3C -lK (a ) and in 3C3K, automatically engages the hub whenever four-wheel
drive is selected.
A free-wheeling hub is used on all K30 models. This
design is shown in Figs. 3 C -lK (b ) and in 3C-5K. This hub
allows the driver to manually engage or disengage the hub
from the axle shafts.
L IG H T T R U C K SERVICE M AN U AL
3C-24
1.
2.
3.
4.
5.
FRONT SUSPENSION
R E T A IN IN G S C R E W
C O V E R PLATE
COVER
S E A L I N G R IN G
S P R IN G , B E A R IN G
RACE
6\
7 > B E A R IN G A S S E M B L Y
8
)
9. W I R E R E T A I N I N G R IN G
10. O U T E R C L U T C H
H O U S IN G
11. S E A L B R I D G E —
R E T A IN E R (N O T
SH O W N )
12. R E T A I N I N G R IN G
13. S P R I N G S U P P O R T
W ASHER
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
S P R I N G R E T A IN E R
R E T U R N S P R IN G
S P R I N G R E T A IN E R
CLUTCH G EA R
HUB SLEEVE
C ’ T Y P E R E T A IN IN G
R IN G
C O N IC A L S P R IN G
CAM FOLLOW ER
OUTER CAGE
IN N E R C A G E
S N A P R IN G
BRAKE BAND
DRAG SLEEVE AND
DETENT
27.
28.
29.
30.
31.
32.
33.
34.
35.
36.
37.
38.
39.
SPACER
R E T A I N IN G R IN G
LO CK NUT
R E T A I N IN G W A S H E R
A D J U S T IN G N U T
O U T E R -W H E E L
B E A R IN G
IN N E R - W H E E L
B E A R IN G
S P IN D L E
S P IN D L E B E A R IN G
SEAL
H U B - A N D - D IS C
A SSEM BLY
O IL S E A L
SPACER
Fig. 3C-1 K(a)--K10, K20 with Free-Wheeling Hub and Bbll Joints
LIG H T TR U C K SE RV IC E M A N U A L
40.
41.
42.
43.
44.
45.
46.
47.
48.
49.
D U ST SEAL
DEFLECTOR
A X LE O U T ER SHAFT
KNUCKLE
A D J U S T IN G S L E E V E
U P P E R B A L L J O IN T
YOKE
L O W E R B A L L J O IN T
R E T A IN IN G R IN G
C A L IP E R S U P P O R T
BRACKET
50. S P I N D L E R E T A I N I N G
NUT
51. S P I N D L E R E T A IN IN G
BO LT
FRONT SUSPENSION
1.
2.
R E T A IN IN G P L A T E
" 0 ” R IN G
13.
14.
3.
4.
ACTU ATO R KNOB
5.
A X L E S H A F T S N A P R IN G
15.
16.
17.
6.
7.
A C T U A T IN G C A M B O D Y
18.
IN T E R N A L S N A P R IN G
19.
8.
O U T E R C L U T C H R E T A I N I N G R IN G
9.
AXLE SH AFTSLEEVE AND
C L U T C H R IN G
I N N E R C L U T C H R IN G
S P R IN G
LO CK NUT
20.
21.
22.
23.
24.
25.
10.
11.
12.
R E T A IN IN G P L A T E B O L T
L O C K -A D J . N U T
P IN - A D J . N U T
A D J U S T IN G N U T
O U T E R W H E E L B E A R IN G
IN N E R W H E E L B E A R IN G
SEAL
H U B -A N D - D IS C A S M
S P IN D L E
S P IN D L E B E A R IN G
SEAL
DEFLECTOR
SPACER
L U B E F IT T IN G
26.
27.
28.
29.
30.
U P P E R B E A R IN G C A P
P R E S S U R E S P R IN G
G ASKET
B U S H IN G , K IN G - P IN
K IN G -P IN
31.
YOKE
32.
OUTER A XLE SHAFT
33.
34.
G R E A S E R E T A IN E R
35.
36.
37.
38.
39.
3C-25
L O W E R B E A R IN G
SEAL
B E A R IN G C A P
L U B E F IT T IN G
S P IN D L E A T T A C H IN G N U T
S P IN D L E A T T A C H IN G B O L T
Fig. 3C-1 K(b)--K30 with Free-Wheeling Hub and King-Pins
LIG H T T R U C K SERVICE M AN U AL
3C-26
FRONT SUSPENSION
MAINTENANCE AND ADJUSTMENTS
BALL JOINT ADJUSTMENT (K10, K20)
Front axle ball joint adjustment is generally necessary
only when there is excessive play in steering, irregular wear
on tires or persistent loosening of the tie rod is observed.
1. Raise vehicle on hoist then place jack stands just inside
of front springs.
2. Disconnect connecting rod and tie rod to allow indepen
dent movement of each steering knuckle.
3. Apply a fish-scale to the tie rod mounting hole of the
steering knuckle arm. With the knuckle assembly in the
straight-ahead position, determine the right angle pull
required to keep the knuckle assembly turning after
initial break-away. This pull should not exceed 25 lbs.,
for each knuckle assembly, in either direction. See
Figure 3C-2K.
4. If the effort exceeds 25 lbs., remove the upper ball stud
nut, and loosen the ball stud adjusting sleeve as
required. Re-torque the ball stud nut and recheck the
turning effort.
BEARING LUBRICATION
Front Wheel Bearings
Spindle Bearings
W henever front wheel bearings are lubricated, the
spindle needle bearings should also be lubricated, with the
same chassis' grease. Under normal conditions, the lubrica
tion interval should be 12,000 miles; off-road use such as in
mud or water will require shorter intervals. The spindle
bearings are accessible after removing the spindle, as shown
in Figure 3C-6K.
WHEEL BEARING ADJUSTMENT
1. After lubricating the wheel bearings and the spindle
bearings, install the hub-and-disc, and the outer wheel
bearing to the spindle.
2. Torque the inner adjusting nut to 50 foot pounds, (60
N-m) while rotating the hub-and-disc to seat the
bearings. Use Tool J-6893 and Adapter J-23446 or
J-6893-01 for K10, K20; use J-26878 for K30. Back off
the inner adjusting nut and retorque to 35 ft. lbs. (47
N-m) while the hub is being rotated.
3. Back off the inner adjusting nut again 3/8 turn
maximum.
a. For K10 and K20, assemble the drag sleeve retainer
w asher over the axle shaft against the bearing
adjusting nut (See Fig. 3C-3K). The tang on the
inside diameter of this washer is assembled in the
keyway of the spindle. Assemble and tighten the
outer lock nut to 217-310 N-m (160-205 lb. ft.).
b. For K30, assemble lockwasher and outer locknut.
Torque outer locknut to 88 N-m (65 lb. ft.) (mini
mum). Bend one ear of lockwasher over the inner nut
a minimum of 30°. Bend one ear of lockwasher over
the outer nut a minimum of 60°.
NOTICE: Hub assembly should have .025 to .254 mm
(.001 to .010 inch) end play, for all K10, K20 and K30
models.
4. Install the hubs. Refer to hub assembly and installation
procedures.
Fig. 3C-2K~Determining Front Axle Ball Joint Adjustment
LIG H T T R U C K SERVICE M A N U A L
FRONT SUSPENSION
3C-27
COMPONENT REPLACEMENT
HUB REPLACEMENT
NOTICE: See N O T I C E on page 1 of this section,
regarding the fasteners in the following procedures for
H ub Replacement.
AUTOMATIC LOCKING HUBS
General Description
The Automatic Locking Hub, shown in Fig. 3C-3K,
engages or disengages to lock the front axle shaft to the hub
of the front wheel. Engagement occurs whenever the vehicle
is operated in four-wheel drive. Disengagem ent occurs
whenever two-wheel drive has been selected and the vehicle
is moved rearward. Disengagement will not occur when the
vehicle is moved rearward if four-wheel drive is selected and
the hub has already been engaged.
The outer clutch housing is splined to the wheel. The
hub sleeve is splined to the front axle shaft. The clutch gear
is splined to the hub sleeve. Engagement occurs when the
clutch gear is moved on the splines of the hub sleeve to
engage the internal teeth of the outer clutch housing.
The cam surface of the steel inner cage forces the cam
follower and clutch gear to move outward toward the cover
and into engagement with the clutch teeth of the outer
clutch housing. A lug on the inside of the drag sleeve
retainer washer keys the washer to the axle and two lock
nuts retain this washer in position on the axle. Cutouts in the
drag sleeve engage the four tabs on the drag sleeve retainer
washer to hold the drag sleeve in a fixed position with
respect to the axle shaft. The one way clutch spring (called a
brake band) is positioned over the serrated portion of the
drag sleeve.
Engagement is accomplished (when four-wheel drive is
selected) by the movement of the drag sleeve, causing one of
the tangs of the brake band to engage the steel outer cage
and rotate the cage which will cause the cam ramp to move
the clutch gear into mesh with the outer clutch housing. One
of the tangs of the brake band is used for engagement when
the vehicle is moving forward. The other tang is used to
engage reverse when the vehicle is moving rearward.
Disengagement is accomplished (when two-wheel drive
has been selected) by the reverse movement of the wheel
causing the clutch gear, hub sleeve, and cam follower to
rotate. The cam follower moves against the lugs of the
plastic outer cage, causing the cage to rotate and move to the
disengaged condition. The release spring then moves the
clutch gear out of mesh with the outer clutch housing to
disengage the wheel from the axle shaft.
Preliminary Checking
Before disassembling a unit for complaint of abnormal
noise, read the following:
• To obtain all-wheel drive, the transfer case lever must
be placed in (4L) o r (4H), at which time the hub locks
will automatically engage.
• To unlock (free wheel) the hubs, shift the transfer case
lever to (2H), th en slowly reverse vehicle direction a p
proxim ately ten feet.
• Incom plete shift from 2W D to 4WD, or disengagem ent
o f only one hub lock may cause an abnorm al sound
from the front axle. Shift to 4W D to stop the noise, then
unlock the hubs as described above.
Removal of Hub from Wheel
1. Remove the five screws ( i t e m # l , Fig. 3C-3K) which
retain the cover ( # 3 ) to the outer clutch housing
( # 10).
2. Remove the cover, seal ( # 4 ) , seal bridge ( # 1 1 ) , and
bearing components ( # 5 , 6 , 7, 8).
3. Use needle-nose pliers to compress the wire retaining
ring ( # 9 ) , and pull the remaining components from
the wheel.
DISASSEMBLE HUB
1. Remove the snap ring ( # 2 8 ) from the groove of the
hub sleeve ( # 1 8 ) .
2. Turn the clutch gear ( # 1 7 ) until it drops into engage
ment with the outer clutch housing ( # 1 0 ) . Lift and
cock the drag sleeve ( # 2 6 ) to unlock the tangs of the
brake band ( # 2 5 ) from the window of the inner cage
( # 2 3 ) and remove drag sleeve and brake assembly.
It is important that the brake band should never be
removed from the drag sleeve. The spring tension of the
brake band can be changed if the coils are overexpanded and this could affect the operation of the hub.
3. Remove the snap ring ( # 2 4 ) from the groove in the
outer clutch housing.
LIG H T T R U C K SERVICE M AN U AL
3C-28
FRONT SUSPENSION
1. M achine Screw
2. Cover Plate
3. Cover
4. Sealing Ring
5. Bearing Race Spring
6 . Bearing Inner Race
7. Bearing
8 . Bearing Retainer Clip
9. W ire Retaining Ring
10. O uter Clutch Housing
1 1. Seal Bridge — Retainer
12.
13.
14.
1 5.
16.
17.
18 .
19.
20.
21.
22.
Retaining Ring
Spring Support W asher
Spring Retainer
Return Spring
Spring Retainer
Clutch G ear
Hub Sleeve
"C" Type Retaining Ring
Conical Spring
Cam Follower
O uter Cage
23.
24.
25.
26.
27.
28.
29.
30.
31.
Inner Cage
Snap Ring
Brake Band
Drag Sleeve and Detent
Small Spacer
Retaining Ring
Lock Nut
Drag Sleeve Retainer W asher
Adjusting Nut, W heel Bearing
Fig. 3C-3K--Automatic Locking Hubs, K10 and K20
LIG H T T R U C K SERVICE M A N U A L
FRONT SUSPENSION
4. Use a small screwdriver to pry the plastic outer cage
( # 2 2 ) free from the inner cage ( # 2 3 ) while the inner
cage is being removed.
5. Use a small screwdriver to pry the plastic outer cage
tabs free from the groove in the outer clutch housing.
Remove outer cage.
6. Remove the clutch sleeve ( # 1 8 ) and attached compo
nents from the outer clutch housing.
7. Compress the return spring ( # 1 5 ) and hold the spring
in the compressed condition with fabricated clamps as
shown in Fig. 3C-4K. After the clamps are installed,
position the entire assembly in a bench vise so that the
vise holds both ends of the clutch sleeve. Remove the
retaining ring ( # 12).
8. With the clutch sleeve assembly still in the vise, remove
the clamps holding the return spring. Slowly open the
vise to permit releasing of the retu rn spring in a
controlled manner. Remove the retainer seat, spring
and spring support washers ( # 1 3 , 14) from the hub
sleeve.
9. Remove the C-type retaining ring ( # 1 9 ) from the
clutch sleeve. It is necessary to position the sleeve
assembly so that the C-ring ends are aligned with the
legs of the cam follower, allowing removal between the
two legs.
8. The two " C " shaped clamps may be fabricated from
3 /8 " (9.5mm) wide by 3 /3 2 " or 1/8" (2.4-3.2mm)
thick stock. The distance between the two legs of the
clamps should be approximately 1-1/4" (31.8mm).
9. Place the components assembled in steps 1 through 7
into the outer housing ( # 1 0 ) . The cam follower should
be positioned with the two legs directed outboard.
10. Screw three of the cover screws ( # 1) into three holes of
the outer clutch housing. These screws will support the
component to permit the clutch hub to drop down so
that the tangs of brake band ( # 25) may be assembled.
11. Carefully work the plastic outer cage ( # 2 2 ) into the
outer clutch housing with the ramps facing toward the
cam follower. The small external tabs of the plastic
cage should be located in the wide groove of the outer
clutch housing.
12. Assemble the steel inner cage ( # 2 3 ) into the outer
cage, aligning the tab of the outer cage with the
"window" of the inner cage.
SHAPED
CLAMP
"C "
10. Remove the conical spring ( # 2 0 ) from between the
cam follower and the clutch gear.
11. Separate the cam follower ( # 2 1 ) from the clutch gear
(#17).
REASSEMBLE HUB
1. Snap the tangs of the cam follower ( # 2 1 ) over the flats
of the clutch gear ( # 1 7 ) .
2. Compress the conical spring ( # 2 0 ) and slide it into
position with the large diameter of the spring located
against the clutch gear.
3. Position the clutch gear assembly over the splines of the
hub sleeve ( ( # 1 8 ) . The teeth of the cam follower
should be located at the end of the hub sleeve which has
no splines. The clutch gear and spring should slide
freely over the splines of the hub sleeve.
4. Assemble the " C " shaped retainer ring ( # 1 9 ) in the
groove of the hub sleeve.
RETAINING RING
5. Assemble a spring retainer ( # 1 4 , 16) over each end of
the return spring ( # 1 5 ) .
6. Position one end of the return spring with retainer
( # 1 6 ) against the shoulder of the clutch gear.
7. Place the spring support washer ( # 1 3 ) against the
retainer on the end of the return spring. Compress the
return spring and assemble the retainer ring ( # 1 2 ) in
the groove of the hub sleeve. Two " C " shaped clamps
may be used to retain the return spring while the
retainer ring is being assembled. Refer to Fig. 3C-3K.
3C-29
Fig. 3C-4K--Using Clamp and Vise to Compress
Return Spring
3C-30
FRONT SUSPENSION
13. Assemble the retaining ring ( # 2 4 ) into the groove of
the outer clutch housing above the outer cage.
14. The brake band and drag sleeve are serviced as an
assembly.
15. Assemble one of the two tangs of the brake band ( # 2 5 )
on each side of the lug of the outer cage which is located
in the window of the steel inner cage. It will be
necessary to cock these parts to engage the tangs in this
position as the drag sleeve is positioned against the face
of the cam follower.
16. Remove the three screws and rest the end of the hub
sleeve on a suitable support. Assemble the washer
( # 27) and snap ring ( # 28) above the drag sleeve.
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
The following steps may be completed as hub is
assembled to vehicle.
Assemble the wire retaining ring ( # 9 ) in the groove in
the unsplined end of the outer clutch housing. The
tangs of the retainer ring should point away from the
splined end of the clutch housing.
Hold the tangs of the wire retainer together and
assemble the two bent down tabs of the seal bridge
( # 1 1 ) over the tangs. The seal bridge holds the wire
retainer ring in a clamped condition in the groove of the
outer clutch housing. Assemble the " O " ring in the
groove of the outer clutch housing and over seal bridge.
Assemble the bearing ( # 7 ) over the inner race ( # 6 ) .
Lubricate the bearing as it is assembled with light
wheel bearing grease. The steel balls should be visible
when bearing is properly assembled.
Snap the bearing retainer clip ( # 8 ) into the hole in the
outer race.
Assemble the bearing and retainer assembly in the end
of the hub sleeve. Assemble the seal ring ( # 4 ) over the
outer clutch housing.
Assemble the bearing race spring ( # 5 ) into the bore in
the cover.
Assemble the cover and spring assembly. Align the hole
in the cover to the holes in the outer clutch housing and
assemble the five screws.
Assemble the O-ring over the seal bridge to prevent it
from jumping out of position during handling prior to
the hub bearing assembled to the vehicle. This " O "
ring may be left on but is not required.
The hub sleeve and attached parts should turn freely
after the unit has been completely assembled.
The five cover screws must be loosened to assemble the
hub to the vehicle. Torque these screws after hub is
installed to 4.5-5.6 N-m (40-50 in-lbs.).
Assemble New Hub to Wheel
27. A drag sleeve retainer washer ( # 3 0 ) is supplied with
each new assembly. Assemble this washer between the
wheel bearing adjustment nut and the lock nut. Adjust
the inner nut to give proper bearing adjustment.
28. Use J-6893 to torque adjusting nut ( # 3 1 ) to 60 N-m
(50 ft. lbs.), to seat the bearings; then, back off the nut
and torque to 47 N-m (35 ft. lbs.) while the hub is being
rotated. Finally, back the adjusting nut off a maximum
of 3/8 turn. Assemble the drag sleeve retainer washer
LIG H T T R U C K SERVIC E M AN U AL
over the axle shaft against the bearing adjustment nut.
The tang on the inside diameter of this washer is
assembled in the keyway of the axle shaft. Assemble
and tighten the outer lock nut to 217-310 N-m (160205 lb-ft).
29. Align the cut-outs in the drag sleeve with tabs on the
drag sleeve washer as the splines of the outer clutch
housing are assembled into splines of the hub of the
wheel. Loosen the cover screws three or four turns and
push in on these screws, to allow the retaining ring to
expand into groove in hub of wheel as the seal bridge is
forced from position over the retaining ring as the tang
of seal bridge contacts wheel hub. Torque the cover
screws to 4.5-5.6 N-m (40-50 lb. in.)
Assemble a Rebuilt Hub to Wheel
30. Steps 1-17 in the assemble procedure are usually
completed whenever the hub is rebuilt and then
assembled to the wheel.
31. Hold the two tangs of the retaining ring in the clamped
condition as the assembled components are assembled
to the hub of the wheel. See step 29 for installation of
drag sleeve washer.
32. Assemble the seal bridge in the cut-out of the outer
clutch housing. Assemble the sealing ring over the
outer clutch housing.
33. Assemble the bearing and retainer assembly into the
hub sleeve.
34. Assemble the bearing race spring to the cover.
35. Assemble the cover and cover bolts. Tighten cover
screws to 4.5-5.6 N-m (40-50 lb. in.).
FREE-WHEELING HUBS
K30 (Fig. 3C-5K)
Hub Removal
1. Turn actuator lever to set hub to "L O C K " position
(Fig. 3C-5K) and raise vehicle on hoist. Rotate tire to
assure that hub lock is engaged.
2. Remove six retaining plate bolts and remove retaining
plate, actuating knob, and " O " ring.
3. Remove internal snap ring, outer clutch retaining ring,
a c tuating cam body, outer clutch gear, and clutch
spring.
4. Relieve pressure on the axle shaft snap ring and remove
snap ring.
5. Remove the inner clutch gear.
6. Remove spring retainer plate.
7. Remove the wheel bearing outer lock nut, lock ring,
and wheel bearing inner adjusting nut using Tool
J-6893 and Adapter J-23446 or Tool J-6893-01.
8. Remove the hub-and-disc assembly, outer wheel bear
ing and the spring retainer plate.
a. Remove the oil seal and inner bearing cone from the
hub using a brass drift and tapping with a hammer.
Discard the oil seal.
b. Remove the inner and outer bearing cups using a
brass drift and hammer.
c. Clean, inspect and lubricate all parts as required.
FRONT SUSPENSION
1.
2.
3.
4.
5.
6.
7.
RETAINING PLATE BOLTS
WASHER
HUB RING RETAINING KNOB
ACTUATOR KNOB " 0 " RING
ACTUATOR KNOB
" 0 " RING
INTERNAL SNAP RING
8.
9.
10.
11.
12.
13.
14.
3C-31
OUTER CLUTCH RETAINING RING
ACTUATING CAM BODY
AXLE SHAFT SNAP RING
AXLE SHAFT SLEEVE AND RING
INNER CLUTCH RING
PRESSURE SPRING
SPRING RETAINER PLATE
Fig. 3C-5K--Free-Wheeling Hub-Explode
3C-32
FRONT SUSPENSION
Installation of Hub
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
NOTICE: All parts should be lubricated for normal
operation during assembly with an ample amount of
high speed grease. Lubrication M U S T be applied to
prevent deterioration before the unit is placed in
service.
Assemble the outer wheel bearing cup into the wheel
hub using Installer J-6368 and Driver Handle J-8092.
Assemble the inner wheel bearing cup into the wheel
hub using Installer J-23448 and Driver Handle J-8092.
Pack the wheel bearing cone with a high melting point
type wheel bearing grease and insert the cone into the
cup.
After lubricating the wheel bearings, install the huband-disc and the bearings to the spindle.
Adjust wheel bearings as listed in "M aintenance and
A djustm ents".
Install inner clutch gear onto the axle shaft. Press in on
inner clutch gear and install axle shaft snap ring on
inboard groove.
Install pressure spring into position. Large O.D. seats
against wheel bearing.
Install outer clutch gear, actuating cam body (cams
facing outw ard), outer clutch retaining ring and
internal snap ring.
Install " O " ring on retaining plate and install actuat
ing knob and retaining plate. Install actuating knob
with knob in " L O C K " position-grooves in knob must
fit into actuator cam body.
Install six cover bolts and seals, and torque to 35-40 in.
lbs.
Turn knob to " F R E E " position to check for proper
operation.
Lower vehicle to floor.
Servicing Spindle Components
When servicing the spindle check the spindle grease
seals (Fig. 7K).
1. Secure the spindle in a vise by locating on the high step
diameter. Be sure that the machined surface of the
spindle will not be damaged by the vise jaws.
2. Remove the oil seal.
3. Remove the needle roller bearing.
4. Place the spindle in a vise on the high step and install
needle roller bearing.
a. Use J-23445 and Drive H andle J-8092 for K 10, K20.
b. Use J-21465-17 for K-30.
5. Install grease seal onto slinger with lip toward spindle.
6. Relubricate the needle bearing and the spindle end
with a high melting point type wheel bearing grease.
Installation
1. Install the bronze thrust washer over the axle shaft with
the chamfer toward the slinger and install the spindle
as shown in Figure 3C-8K.
2. Assemble spindle to knuckle. Use new spindle nuts and
torque to 88 N-m (65 lb. ft.).
NOTICE: See N O T IC E on page 1 of this section.
SPINDLE
Removal
1. Remove the hub-and-disc assembly as outlined earlier.
2. Remove the spindle retaining bolts.
3. Remove the spindle and bronze thrust washer by
tapping the end of the spindle lightly with a soft
hammer to break it loose from the knuckle as shown in
Figure 3C-6K. Replace the thrust washer if excessive
wear has occurred.
L IG H T T R U C K SERVICE M AN U AL
Fig. 3C-6K~Removing Spindle and Thrust Washer
FRONT SUSPENSION
3C-33
Fig. 3C-7K--Front Spindle Grease Seals
KNUCKLE
K10, K20, (WITH BALL JOINTS)
Removal
1. Remove hub and spindle components as outlined
earlier.
2. If the steering arm is to be removed, disconnect the tie
rod.
a. Remove cotter pin.
b. Loosen tie rod nuts and tap on nut with a soft
ham mer to break the studs loose from the knuckle
arm.
c. Remove nuts and disconnect the tie rod. If it is
necessary to remove the steering arm, discard the
self-locking nuts (Fig. 3C-9K) and replace with new
nuts at assembly.
3. Remove the cotter pin from the upper ball socket nut.
4. Remove the retaining nuts from the upper and lower
ball sockets as shown in Figure 3C-10K.
L IG H T T R U C K SERVIC E M AN U AL
3C-34
FRONT SUSPENSION
J-23454-1
l
Fig. 3C-8K--lnstalling Spindle and Thrust Washer
Fig. 3C-11 K--Removing Lower Ball Joint
Ball Joint Service
NOTICE: Do not remove the yoke upper ball stud
adjusting sleeve unless new ball studs are being in
stalled. If it is necessary to loosen the sleeve to remove
the knuckle, do not loosen it more than two threads
using Spanner J-23447 as shown in Figure 3C-15K.
The nonhardened threads in the yoke can be easily
damaged by the hardened threads in the adjusting
sleeve if caution is not used during knuckle removal.
• On the LH knuckle, it is necessary to remove the
steering arm before servicing the upper ball joint.
Fig. 3C-9K--Removing Steering Arm Nuts
5. Remove the knuckle assembly from the yoke by
inserting a suitable wedge-shaped tool between the
lower ball stud and the yoke and tapping on the tool to
release the knuckle assembly. Repeat as required at the
upper ball stud location.
Remove the lower ball joint snap ring before beginning.
Lower ball joint must be removed before any service can be
performed on the upper ball joint.
1. Remove the lower ball joint using tools J - 9 5 19-10,
J-23454-1, and sleeve J-23454-4 or equivalent as shown
in Figure 3 C -1 1K.
If Tool J-23454-4 is not available, a suitable tool may
be fabricated from 2-3/8" O.D. steel tubing with a
minimum of 2-1/16" I.D., cut 63.50mm (2 -1 /2 ") long.
Fig. 3C-12K--Removing Upper Ball Joint
LIG H T T R U C K SE RV IC E M A N U A L
FRONT SUSPENSION
3C-35
J -6 3 8 2 -3 OR
J -2 3 4 5 4 -3
J-2 3 4 4 7
BALL J O IN T
J -2 3 4 5 4 -2
Fig. 3C-13K—Installing Lower Ball Joint
2. Remove Lhe upper ball joint using tools J-9519-10,
J-23454-1, and sleeve J-23454-4 or equivalent as shown
in Figure 3C-12K.
3. Install the lower ball joint into the knuckle. Make sure
that the lower ball joint (the joint without cotter pin
hole in the stud end) is straight. Press the stud into the
knuckle until properly seated using tools J-9519-10,
J-23454-2, and J-23454-4 or equivalent as shown in
Figure 3C-13K and install snap ring.
4. Install the upper ball joint into the knuckle. Press the
stud into the knuckle until properly seated using Tools
J-9519-10, J-23454-2, and J-23454-4 or equivalent as
shown in Figure 3C-14K.
Fig. 3C-15K--Ball Stud Adjusting Sleeve
3. Torque the yoke upper ball stud adjusting sleeve to 70
N-m (50 ft. lbs.) using Spanner J-23447. See Figure
3C-15K.
Installation
NOTICE: See N O T I C E on page 1 of this section
regarding the fasteners in the following steps.
1. Position the knuckle and sockets to the yoke. Install
new nuts finger tight to the upper (the nut with the
cotter pin slot) and lower ball socket studs.
2. Push up on the knuckle (to keep the ball socket from
turning in the knuckle) while tightening the lower
socket retaining nut. Torque lower nut to 95 N-m (70
ft. lbs.).
Fig. 3C-16K--Torquing U p per Ball Socket Nut
BALL JO IN T
J -2 3 4 5 4 -2
J-6382-3
OR
J-23454-3
J-9519-10
Fig. 3C-14K—Installing Upper Ball Joint
Fig. 3C-17K--Removing Spindle
L IG H T T R U C K SE RV IC E M AN U AL
3C-36
FRONT SUSPENSION
Fig. 3C-18K~Removing Nuts Alternately
4. Torque the upper ball socket nut to 100 ft. lbs. as shown
in Figure 3 C -16K. After torquing the nut, do not loosen
to install cotter pin, apply additional torque, if neces
sary, to line up hole in stud with slot in nut.
5. If the tie rod and steering arm were removed:
a. Assemble the steering arm using the three stud
adapters and three new self-locking nuts. Torque the
nuts to 120 N-m (90 ft. lbs.).
b. Assemble the tie rod to the knuckle arm. Torque the
tie rod nuts to 60 N-m (45 ft. lbs.) and install cotter
pin.
KNUCKLE
K30 (WITH KING PINS)
Removal
1. Remove the hub and spindle as outlined earlier. If
necessary, tap lightly with a rawhide ham mer to free it
from the knuckle. Check bronze spacer located
between axle shaft joint assembly and bearing. If wear
is evident, replace with a new one. See Figure 3C-17K.
Fig. 3C-19K--Removing Cap, Spring and Gasket
L IG H T T R U C K SERVIC E
MANUAL
Fig. 3C-20K--Removing Lower Bearing Cap
2. Remove four nuts from upper king pin cap. Remove
nuts alternately as compression spring will force cap
up. Refer to Figure 3C-18K.
3. Remove cap, compression spring, and gasket, as shown
in Figure 3C-19K. Discard gasket, replace with new
one at time of assembly.
4. From the underside of the knuckle, remove four cap
screws from the lower king pin bearing cap. Remove
the bearing cap-and-lower king pin. See Figure 3C20K.
5. Remove upper king pin tapered bushing and knuckle
from yoke. Remove king-pin felt seal. See Figure 3C21K. Remove knuckle.
6. Remove upper king-pin from yoke with large breaker
bar and J-2 6 8 7 1, as seen in Figure 3C-22K.
Torque specification is 677.50-813.00 N-m (500-600 ft.
lbs.).
7. Remove lower king pin bearing cup, cone, grease
retainer, and seal all at the same time, as shown in
Figure 3C-23K. Discard seal and replace with new one
at time of assembly. If grease retainer is damaged,
replace with new one at time of assembly.
Fig. 3C-21 K--Removing Tapered Bushing
FRONT SUSPENSION
Fig. 3C-22K--Removing Upper King Pin
3C-37
Fig. 3C-24K--lnstalling Grease Retainer
Installation
See the N O T I C E on page 1 of this section
regarding the fasteners in the following steps.
NOTICE:
1. Assemble new grease retainer and lower king pin
bearing cup, using J - 7 8 17, as shown in Figure 3C-24K.
2. Fill the area in grease retainer with specified grease,
then grease the bearing cone and install. Install new
lower king pin bearing oil seal, using J-2 22 81, as shown
in Figure 3C-25K.
Do not distort oil seal. It will protrude slightly from the
surface of yoke flange when fully installed.
3. Install upper king-pin, using J-28871 as shown in
Figure 3C-26K. Torque to 677.50-813.00 N-m (500600 ft. lbs.).
4. Assemble felt seal to king pin, assemble knuckle,
assemble tapered bushing over king pin, as shown in
Figure 3C-27K.
5. Assemble lower bearing cap-and-king pin with four cap
screws. Tighten cap screws alternately and evenly; see
Figure 3C-28K. Torque cap screws to 95-120 N-m (7090 ft. lbs.).
Fig. 3C-23K--Removing Cup, Cone and Seal
Fig. 3C-25K--lnstalling Oil Seal
6. Assemble compression spring on upper king pin bush
ing. Assemble bearing cap, with new gasket, over four
studs. Tighten nuts alternately and evenly. Torque nuts
to 95-120 N-m (70-90 lb. ft.) See Figure 3C-29K.
Fig. 3C-26K--lnstalling Upper King-Pin
LIG H T T R U C K SE RV IC E M ANUAL
3C-38
FRONT SUSPENSION
Fig. 3C-27K--lnstalling Knuckle to Yoke
Fig. 3C-30K--Shock Absorber Attachment
SHOCK ABSORBER
Removal (Fig. 3C-30K)
1. Raise vehicle on hoist.
2. Remove nuts and eye bolts securing upper and lower
shock absorber eyes.
3. W ith draw shock absorber and inspect rubber eye
bushings. If defective, replace shock absorber
assembly.
Installation
Place shock absorber into position over mounting bolts
or into mounting brackets. Install eye bolts and nuts and
torque as shown in Specifications Section. Lower vehicle to
floor.
STABILIZER BAR-TYPICAL
Removal (Fig. 3C-31K)
Fig. 3C-28K--lnstalling Lower Bearing Cap-and-King
Pin
1. Raise vehicle on hoist and remove nuts and bolts
attaching stabilizer brackets and bushings at frame
location.
2. Remove brackets and bushings at lower spring anchor
plates and remove stabilizer from vehicle.
TYPICAL L.&R.H.
VIEW A
SPRING
PLATE
TYPICAL L &R.H.
VIEW B
Fig. 3C-29K--lnstalling Bearing Cap/Steering Arm
LIG H T T R U C K SERVICE M A N U A L
Fig. 3C-31 K--Stabilizer Bar Attachment
FRONT SUSPENSION
3C-39
Inspection
Inspect rubber rushings for excessive wear or agingreplace where necessary. Use rubber lubricant when install
ing bushings over stabilizer bar.
Installation
NOTICE: See N O T I C E on page 1 of this section
regarding the fasteners referred to in step 2.
Slit in bar to frame bushings should be facing forward.
1. Place stabilizer in position on frame and install frame
brackets over bushings. Install nuts and bolts loosely.
2. Install brackets over bushings at lower control arm
location. Be sure brackets are positioned properly over
bushings. Torque all nuts and bolts to specifications.
3. Lower vehicle to floor.
LEAF SPRING AND BUSHINGS (Figs. 3C-32K and
3C-33K)
Removal
1.
2.
3.
4.
5.
6.
Raise vehicle on hoist.
Place adjustable lifting device under axle.
Position axle so that all tension is relieved from spring.
Remove shackle upper retaining bolt.
Remove front spring eye bolt.
Remove spring-to-axle u-bolt nuts and remove spring,
lower plate and spring pads.
7. Remove shackle to spring bolt and remove bushings
and shackle.
2. Press in new bushing; assure that tool presses on steel
outer shell of bushing. Install until bushing protrudes
an equal am ount on each side of spring.
Spring Inserts (Liners) or Leaf Replacement
1. Place spring in vise and remove clips.
2. Remove center bolt. Open vise slowly, allowing spring
to expand.
3. Wire brush, clean, and inspect for broken leaves.
4. Replace leaf or liners.
Installation
NOTICE: See N O T IC E on page one of this section
regarding the fasteners referred to in steps 5 and 6.
1. Install spring shackle bushings into spring and attach
shackle. Do not tighten bolt.
2. Position spring upper cushion on spring.
3. Insert front of spring into frame and install bolt. Do not
tighten.
4. Install shackle bushings into frame and attach rear
shackle. Do not tighten bolt.
5. Install lower spring pad and spring retainer plate.
Torque bolts to specifications, Fig. 3C-35.
6. Torque front and rear spring eye and shackle bolts to
specifications.
7. Remove stands and lower vehicle to floor.
Bushing Replacement
1. Place spring on press and press out bushing using a
suitable rod, pipe, or tool.
TIG H TE N IN G SEQUENCE
1.
2.
3.
Install all four nuts to uniform engagement
on 'U ' Bolts to retain and position anchor
plate in design position (perpendicular to
axis of 'U ' Bolts).
Torque nuts in positions 1 and 3 to
10-25 ft. lbs. (14-34 N-m).
Torque all nuts to full torque in follow ing
sequence: 2-4-1-3.
1
Fig. 3C-33K--U-Bolt Tightening Sequence
LIG H T T R U C K SE RV IC E M AN U AL
3C-40
FRONT SUSPENSION
SPECIFICATIONS
FRONT SUSPENSION BOLT TORQUE (ft. lbs.) * t
CP-10
CP-20-30
K-AII
G-10-20
Lower Control Arm Shaft U-Bolt
85
85
—
65
85
Upper Control Arm Shaft Nuts
70
105
—
70
105
Control Arm Rubber Bushings
115
—
New 190
—
115
Upper Control Arm Bushing Steel t t
—
—
—
—
**10 0
***8 0
* 50
**9 0
Used 115
New
Lower Control Arm Bushing Steel t t
280
Used 130
Upper Ball Joint Nut
Lower Ball Joint Nut
* 50
**9 0
Nut, Spindle-to-Knuckle
**9 0
**90
G-30
—
N ew 190
Used 115
N ew 280
Used 130
**9 0
**9 0
—
—
—
—
•
65
65
—
65
65
••
90
90
—
90
90
Crossmember Brake Support Struts
60
60
60
60
Crossmember to Side Rail
Crossm ember to Bottom Rail
Stabilizer Bar to Control Arm
25
Stabilizer Bar to Frame
Anchor
Plate
—
130
25
25
25
.55
25
140
140
65
75
60
120 in. lbs.
60
120 in. lbs.
—
—
.001-.005”
35
.001-.005”
35
.001-.010”
—
.001-.005”
35
—
Shock Absorber Upper End
Shock Absorber Lower End
Brake Splash Shield to Knuckle
25
65
Wheel Bearing Adjustment
Wheel Bearing End Movem ent
Caliper Mounting Bolt
65
120 in. lbs.
Inner 35
Outer • • •
75
120 in. lbs.
—
Spring — Front Eye Bolt
—
—
90
Spring — Rear Eye Bolt
—
—
50
—
Spring — To Rear Shackle Bolt
Spring — To Axle U-Bolt
—
—
—
—
50
150
—
—
Spring — Front Support to Frame
—
—
25
—
Suspension Bumper
15
15
Stabilizer to Spring Plate
—
—
25
130
—
*
**
***
t
tt
•
••
•••
Plus additional torque to align cotter pin. Not to exceed 90 ft. lbs. maximum.
Plus additional torque to align cotter pin. Not to exceed 130 ft. lbs. maximum.
Plus additional torque to align cotter pin.
All specifications are given in foot pounds of Torque unless indicated otherwise,
C10, G10-20 Rubber Bushings; C20-30, P10-30 Steel Bushings.
P300 (32), P300 (42) and JF9 — 100 ft. lbs.
P300 (32) — 215 ft. lbs., P300 (42) and JF9 — 130 ft. lbs.
(K10-20) 205 ft. lbs., (K30) 65 ft. lbs.
Specs Page
LIG H T TR U C K SE R V IC E M AN U AL
15
FRONT SUSPENSION
3C-41
SPECIAL TOOLS
1.
2.
3.
4.
5.
J-8457
J-8458
J-8849
J-9276-2
J-24435-1
thru 7
Bearing
Bearing
Bearing
Bearing
Bushing
C 10, G
Race Installer
Race Installer
Race Installer
Race Installer
Replacement
10-20
6.
7.
8.
9.
10.
11.
J-8092
J-9519-9
J-9519-7
J-9519-10
J-23028-01
J-23742-1
Driver Handle
Ball Joint Installer
Ball Joint Remover
" C " Clamp
Spring Remover
Ball Joint Remover
Fig. 3C-ST--Special Tools
LIGHT TRUCK SERVICE MANUAL
REAR SUSPENSION
3D-1
SECTION 3D
REAR SUSPENSION
The following notice applies to one or more steps in the assembly
procedure of components in this portion of the manual as indicated at the
appropriate locations by the terminology "See Notice on page 1 of this
Section ".
N OTICE This fastener is an important attaching part in that it could
affect the performance of vital components and systems, and /o r could result
in major repair expense. It must be replaced with one of the same part
number or with an equivalent part if replacement becomes necessary. Do not
use a replacement part of lesser quality or substitute design. Torque values
must be used as specified during reassembly to assure proper retention of this
part.
INDEX
General D escription......................................................................................... ..3D-1
Component Parts R ep lacem en t.......................................................................3D-2
Shock Absorbers..............................................................................................3D-2
Stabilizer S h a f t ............................................................................................. ..3D-3
Leaf Spring Assembly................................................................................. ..3D-4
Specifications...................................................................................................... ..3D-10
GENERAL DESCRIPTION
All 10-30 series vehicles use a leaf spring/solid rear
axle suspension system. Typical systems are illustrated in
Fig. 3D-1, 3D-2 and 3D-3.
The rear axle assembly is attached to multi-leaf springs
by " U " bolts. The spring front eyes are attached to the
frame at the front hangers, through rubber bushings. The
rear ends of the springs are attached to the frame by the use
of shackles which allow the spring to "change its length"
while the vehicle is in motion. Control arms are not required
with leaf springs.
Ride control is provided by two identical direct double
acting shock absorbers angle-mounted between the frame
and brackets attached to the axle tubes.
LIG H T T R U C K SE R V IC E M AN U AL
3D-2
REAR SUSPENSION
Fig. 3D-2--Typical G-Truck Rear Suspension
Fig. 3D-3--Typical P-30 H.D. Truck Rear Suspension
COMPONENT PARTS REPLACEMENT
SHOCK ABSORBERS
5. To install shock absorber, place into position and
reattach at upper mounting location. Be sure to install
nuts and washers as shown.
Replacement
Refer to Figs. 3D-4 through 3D-8 for specific vehicle
mounting provisions.
1. Raise vehicle on hoist, and support rear axle.
2. At the upper m ounting location, disconnect shock
absorber by removing nut and washers shown, and bolt
on G-models.
3. At the lower mounting location, remove nut, washers
and bolt as shown.
4. Remove shock absorbers from vehicle.
Fig. 3D-4--Shock Absorber-CK-10, CK-20 (03, 06)
LIG H T TR U C K SE RV IC E M A N U A L
6. Align lower end of shock absorber with axle bracket,
and install bolt, washers and nut, as shown.
7. Tighten nuts to specifications.
NOTICE: See N O T I C E on page 1 of this section
regarding shock absorber fasteners.
8. Lower vehicle and remove from hoist.
Fig. 3D-5~Shock Absorber-CK-20 (43), CK30
REAR SUSPENSION
3D-3
Fig. 3D-8--Shock Absorber-P30
STABILIZER SHAFTS
Refer to Fig. 3D-9, 3D-10 and 3D -11 for specific rear
stabilizer shaft mounting on C and P models.
Replacement
1. Raise vehicle on hoist and support rear axle.
2. Remove nut, washer and grommet from link bolt at the
frame side member on each side.
3. W ithdraw link bolt, washers, grommets and spacer.
4. Remove brackets from anchor plates by removing
attaching screws.
5. Remove stabilizer shafts.
6. Reverse above steps to install stabilizer shaft. On
installation, position shaft so parking brake cable is
routed over stabilizer.
7. Torque all bolts to specifications.
NOTICE: See N O T I C E on page 1 of this section,
regarding stablizer fasteners.
8. Lower hoist and remove vehicle.
Fig. 3D-9--Rear Stabilizer Shaft-C-20(03)
LIGHT TRUCK SERVICE MANUAL
3D-4
REAR SUSPENSION
SPACER
GROMMET
SHAFT
P300(32)
LINK BOLT
ANCHOR
PLATE
NOTE
T orqu e by running nut to
unthreaded portion of bolt.
Fig. 3D-10--Rear Stabilizer Shaft-C-20(43), C-30
LEAF SPRING ASSEMBLY
Refer to Figs. 3D-12 - 3D-21 for specific leaf spring
mounting provisions of C, K, G and P models. Fig. 3D-22
illustrates a typical U-bolt anchor plate installation with the
mandatory tightening sequence.
NOTICE: See N O T I C E on page 1 of this section,
regarding leaf spring fasteners.
Removal
1. Raise vehicle on hoist so that load in spring is relieved.
2. Loosen, but do not remove, spring-to-shackle retaining
nut.
3. Remove nut and bolt securing shackle to spring hanger.
4. Remove nut and bolt securing spring to front hanger.
5. Remove " U " bolt retaining nuts, withdraw " U " bolts
and spring plate from spring-to-axle housing
attachment.
6. W ithdraw spring from vehicle.
7. Inspect spring. Replace bushings, repair or replace
spring unit as outlined in this section.
Bushing Replacement
1. Place spring on press and press out bushing using a
suitable rod, pipe or tool as shown in Fig. 3D-21.
2. Press in new bushing; assure that tool presses on steel
outer shell of bushing.
R ear Spring, Front Eye-Heavy Duty leaf springs on
C20, CK30, and some P30 trucks use a staked- in-place
flanged front eye bushing. Before this bushing is
pressed out of the spring, the staked locations must be
straightened with a chisel or drift. After a new bushing
is installed, it must be staked in three equally spaced
locations.
LIG H T T R U C K SERVICE M A N U A L
P300(42)
Fig. 3D-11--Rear Stabilizer Shaft-P30
Spring Leaf Replacement
1. Place spring assembly in a bench mounted vise and
remove spring clips or pry clips open.
2. Position spring in vise jaws, compressing leaves at
center and adjacent to center bolt.
3. File peened end of center bolt and remove nut. Open
vise slowly to allow spring assembly to expand.
4. Wire brush and clean spring leaves. Inspect spring
leaves to determine if replacement is required; also
replace defective spring leaf liners at this time.
5. Align center holes in spring leaves by means of a long
drift and compress spring leaves in a vise.
6. Remove drift from center hole and install a new center
bolt. Tighten nut and peen bolt to retain nut.
7. Align spring leaves by tapping with hammer, then
reinstall alignment clips. Spring clips should be bent
sufficiently to maintain alignment, but not tight enough
to bind spring action.
REAR SUSPENSION
3D-5
G 1 0 0 + 2 0 0 ( 0 5 + 0 6 ) ALL
G 3 0 0 ( 0 5 + 0 6 ) ex c G 50
C 3 0 0 (0 5 + 0 6 ) & G 50
Fig. 3D-12--Rear Spring Hangers And Installation-G Models
Leaf Spring Installation
1. Clean axle spring pad and position spring assembly to
axle. Position spring to insure clearance to hangers.
The shackle assembly must be attached to the rear
spring eye before installing shackle to rear hanger
Fig. 3D-13~Rear Spring Installation - G Models
(Cutaway Vans)
shackle m ust be positioned with arrow pointing
forward.
2. Install spring retainer plate and " U " bolts. Loosely
install retaining nuts evenly, but do not torque at this
time.
Fig. 3D-14--Rear Spring Hangers - G Models
(Cutaway Vans)
L IG H T T R U C K SE RV IC E M AN U AL
3D-6
REAR SUSPENSION
3. Jack frame as required to align spring and shackle with
spring hangers.
4. Install shackle bolt and nut and again reposition spring,
if necessary to align front eye. Install front eye bolt and
nut. Torque hanger and shackle nuts to specifications.
Make certain that the bolts are free-turning in their
bushings prior to torquing.
5. Lower vehicle so that weight of vehicle is on suspension
components and torque U-bolt nuts to specifications.
6. Lower vehicle and remove from hoist.
U-Bolt and Anchor Plate Installation
Fig. 3D-23 illustrates the m a n d ato ry sequence of
tightening U-bolt nuts. Tighten diagonally opposite nuts to
40-50 foot pounds, then tighten all nuts as shown to
specifications.
Fig. 3D-15--Rear Spring Hangers-G Models (Cutaway
Vans)
NOTICE: See N O T I C E on page 1 of this section,
regarding "U " -B o lt fasteners.
SHACKLE REPLACEMENT
1. Raise vehicle on hoist. Place adjustable lifting device
under axle.
2. Remove load from spring by jacking frame.
3. Loosen spring-to-shackle retaining bolt, but do not
remove.
4. Remove shackle-to-frame bracket retaining bolt then
remove shackle bolt from spring eye.
5. Position shackle to spring eye and loosely install
retaining bolt. Do not torque retaining bolt at this time.
6. Position shackle to frame bracket and install retaining
bolt. Arrow stamped on shackle must point forward.
7. Rest vehicle weight on suspension components and
torque both shackle bolt retaining nuts to
specifications.
NOTICE: See N O T I C E on page 1 of this section,
regarding these fasteners.
Fig. 3D-16--Rear SPring Installation - G MOdels
(Cutaway Vans)
LIG H T T R U C K SERVICE M A N U A L
8. Lower vehicle and remove from hoist.
REAR SUSPENSION
3D-7
Fig. 3D-17--Rear Spring Installation-C-K Models
LIGHT TRUCK SERVICE MANUAL
3D-8
REAR SUSPENSION
Fig. 3D-20--Rear Spring Installation-P 10,20
Fig. 3D-21--Rear Spring lnstallation-P30
LIG H T T R U C K SE RV IC E M A N U A L
REAR SUSPENSION
3D-9
1. Install all four nuts to uniform engagement on 'U' Bolts to
retain and position anchor plate in design position
(perpendicular to axis of 'U ' Bolts).
2. Torque all nuts in a diagonal sequence (e.g . 1-3-2-4) to
14-35 N.m.
3. Torque all nuts to full torque using a diagonal sequence.
Fig. 3D-22--Pressing Out Bushing
Fig. 3D-23--U-Bolt Installation
L IG H T T R U C K SERVICE M A N U A L
3D-10
REAR SUSPENSION
SPECIFICATIONS
TORQUE SPECIFICATION
Spring-to-Axle "U " Bolt Nuts
C-K
G
140
G10 120
P10 140
G20 120
P20 140
G30 150
P30 170 (Exc. W /3 /4 " Bolt)
P
200 (W /3 /4 " Bolt)
Leaf Spring
— Front Bushing Bolt
90/135*
110
110
(G316 . . .90)
— Rear Shackle Bolt
90/135*
110
110
(G316 . . .90)
Shock Absorber
— Upper Attachment
150
75
P10 25
P20 140
P30 50
— Lower Attachment
115
75
115
To Rear Axle (Strap)
12-17
12-17
12-17
To Rear Axle ("U " Bolt)
18-22
18-22
18-22
Bearing Support-to-Hanger
20-30
20-30
20-30
Hanger-to-Frame
40-50
—
—
20-30
—
20-30
Propeller Shaft
Rear Stabilizer-to-Anchor Plate
*9 0 Ft. Lbs. when tightening the nut.
135 Ft. Lbs. when tightening the bolt.
--Specifications
LIGHT TRUCK SERVICE MANUAL
WHEELS AND TIRES
3E-1
SECTION 3E
WHEELS AND TIRES
NOTICE: The Wheel bolt and nut fasteners are an important attaching
part in that they could affect the performance of vital components and
systems, and /o r could result in major repair expense. They must be replaced
with one of the same part number or with an equivalent part if replacement
becomes necessary. Do not use a replacement part of lesser quality or
substitute design. Torque values must be used as specified during reassembly
to assure proper retention of this part.
INDEX
General Description.............................................................3E-1
Replacement T ire s.............................................................3E-1
Metric T ir e s ....................................................................... .3E-2
Replacement W h e e ls....................................................... .3E-2
Certification L ab el.............................................................3E-3
Service O perations.............................................................. .3E-3
Tire Inspection and R o ta tio n ........................................ .3E-3
Tire Inflation Pressure......................................................3E-4
Correcting Irregular Tire W e a r .....................................3E-7
Wheel Installation .............................................................3E-8
Tire Mounting and D em ounting.................................. .3E-9
Tire R epair......................................................................... .3E-10
Wheel N u t T orqu es......................................................... .3E-10
GENERAL DESCRIPTION
The factory installed tires and wheels are designed to
operate satisfactorily with loads up to and including the full
rated load capacity when inflated to the recommedned
inflation pressures.
Correct tire pressures and driving techniques have an
important influence on tire life. Heavy cornering, exces
sively rapid acceleration, and unnecessary sharp braking
increase tire wear.
REPLACEMENT TIRES
CAUTION:Do not mix different types of tires on the
same vehicle such as radial, bias, and bias-belted
tires except in emergencies, because vehicle
handling may be seriously affected and may
result in loss of control.
Some truck-type tires and most passenger-car-type
radial tires have a T P C Spec. No. (T ire Perform ance
Criteria Specification Num ber) molded into the tire side
wall near the tire size marking. This shows that the tire
meets rigid size and performance standards which were
developed for the vehicle. The TPC Spec. No. assures a
proper combination of endurance, load capacity, handling,
and traction on wet, dry and snow covered surfaces. When
replacing tires with tires having the same TPC Spec. No.,
tires will be compatible with the vehicle. When replacing
tires with those not having a TPC spec, use the same size,
load range, and construction type (bias, bias-belted, or
radial) as the original tires on the vehicle (see the Certifica
tion Label Fig. 3E-3). Use of any other size or type tire may
affect load carrying capacity, ride, handling, speedometer/
odometer calibration, vehicle ground clearance, and tire
clearance to the body and chassis. If replacing only a single
tire, it should be paired on the same axle with the least worn
tire of the others.
All tires on four-wheel drive vehicles must be of equal
size (but not necessarily ply rating) and of same tread
configuration.
Replace tires when:
1. Tires are worn to a point where 2/32 inch (1.6
millimetres) or less tread remains, or the cord or fabric
is exposed. To help detect this, tires have built-in tread
wear indicators (Fig. 3E-2) that appear between the
tread grooves when the tread depth is 2/32 inch
(1.6mm) or less. When the indicators appear in two or
more adjacent grooves at three spots around the tire,
the tire should be replaced.
2. Tire thread or sidewall is cracked, but, or snagged deep
enough to expose the cord or fabric.
3. Tire has a bump, bulge, or split.
4. Tire sustains a puncture, cut, or other injury that can’t
be correctly repaired because of the size or location of
the injury.
LIGHT TRUCK SERVICE MANUAL
3E-2
WHEELS AND TIRES
METRIC TIRES
Metric tires are available in two load ranges, Standard
load and Extra load. Figure 3E-1 shows the meaning of the
metric tire format. Most metric tire sizes do not have exact
corresponding alpha tire sizes. For example, a P205/75R15
is not exactly equal in size and load carrying capacity to an
FR78-15. For this reason, replacement tires should be of the
same size, load range, and construction as those originally
on the car. If metric tires must be replaced with other sizes,
such as in the case of snow tires, a tire dealer should be
consulted. Tire companies can best recommend the closest
match of alpha to metric sizes within their own tire lines.
METRIC TIRE SIZES
P 205 /
TIRE TYPE X
P - PASSENGER
T - TEMPORARY
C - COMMERCIAL
_
...........
ASPECT RATIO
RIM DIAMETER
(INCHES)
[SECTION HEIGHT)
13
(SECTION WIDTH)
14
70
15
SECTION WIDTH
75
(MILLIMETERS)
CONSTRUCTION TYPE
80
185
R - RADIAL
195
B - BIAS - BELTED
205
D - DIAGONAL (BIAS)
ETC.
The metric term for tire inflation pressure is the
Kilopascal (kPa). Tire pressure will usually be printed in
both kPa and psi. Metric tire gages are available from tool
suppliers. The chart (Fig. 3E-2) converts commonly-used
inflation pressures from kPa to psi.
Fig. 3E-1--Metric Tire Size Format
IN FLATIO N P R E S S U R E C O N V ER S ION CHART
( K IL O P A S C A L S TO P S I)
psi
kPa
psi
kPa
140
20
21
215
220
31
32
22
230
23
24
235
240
33
34
25
26
250
275
36
40
185
190
27
310
45
28
345
50
200
29
380
55
205
30
415
60
145
155
160
165
170
180
C onve rsion:
35
6.9 kPa = 1 psi
Fig. 3E-2--lnflation Pressure Conversion
REPLACEMENT WHEELS
Wheels must be replaced if they become damaged (for
example: bent, heavily rusted, leak air) or if wheel nuts often
LIG H T T R U C K SERVIC E M A N U A L
become loose. Do not use bent wheels which have been
straightened, and do not use inner tubes in leaking wheels
which are designed for tubeless tires. Such wheels may have
structural damage and could fail without warning.
The wheels originally equipped on the vehicle will
provide optimum life up to the maximum load and inflation
pressures shown in the Wheel Code and Limits Chart.
M axim um loads, m axim um inflation pressures, wheel
identification codes, and wheel sizes are stamped on each
wheel. Service tested and approved wheels are available
from service. When obtaining wheels for any reason from
any other source, the replacement wheels should be equal in
load capacity, inflation pressure capacity, diameter, width,
offset and mounting configurations to those originally
installed on the vehicle.
A wheel of the wrong size or type may adversely affect
load carrying capacity, wheel and bearing life, brake
cooling, speedometer/odometer calibration, stopping abil
ity, headlight aim, bumper height, vehicle ground clearance,
and tire clearance to the body and chassis. Replacement
with "used" wheels is not advised: they may have been
subjected to harsh treatm ent or very high mileage and could
fail without warning.
The use of wheels a n d /o r tires with higher load
carrying limits than originally equipped on the vehicle does
not in itself increase the G A W R or the G V W R of the
vehicle.
WHEELS AND TIRES
r.
□
L B /'k i)
MFD. BY GENERAL MOTORS CORP
0 8 /7 8
GVW R
Cj A W R F R T
4 0 0 0 /1 8 1 4
1 4 0 0 0 /6 3 5 0
T IR E S
R IM S
P S l/k P .
3E-3
10
16
C O LD
DUAL
5X16
5D
5 X 9
/5
3 6 /2 4 8
G AW R RR
10000 4 5 36
10
5 X16
16 6 X 9
4 2 290
51
75
U U tH A l MIMUH U HiC i f SAM Tv
l HIS VI MU. | | C !)\ I IIRMS 10 A| I
f ON
TH
> E DATE M ANUF AC TU R E
SHO W N A B O V E
I c G Q I 691100001
B U S - N O T S C H O O L BU S
SE E O W NERS M A N U AL F OH A D D IT IO N A L IN FO R M A TIO N
E XAMPL E ONLY
Fig. 3E-3~Certification Label
FRONT
FRONT
FRONT
FRONT
4 WHEEL
ROTATION
5 WHEEL
ROTATION
¥
4 WHEEL
ROTATION
5 WHEEL
ROTATION
• PREFERRED FOR
RADIAL TIRES
• OPTIONAL FOR
RADIAL TIRES *
• MANDATORY FOR
BIAS TIRES
* THE OPTIONAL ‘X ’ ROTATION PATTERN FOR
RADIALS IS ACCEPTABLE WHEN REQUIRED
FOR MORE UNIFORM TIRE WEAR.
Fig. 3E-5--Tire Rotation
SERVICE OPERATIONS
CAUTION:Servicing of tires mounted on multi
piece rims requires proper tools, safety equipment
and specialized training. Severe injuries can result
from improper servicing techniques. It is recom
mended that tires on multi-piece rims be serviced
only by competent personnel with proper equip
ment or by competent truck tire repair shops.
TIRE INSPECTION AND ROTATION (Figs. 3E-4,
3E-5)
Front and rear tires perform different jobs and can
wear differently depending on the type of roads driven,
individual driving habits, etc. To obtain maximum tire life,
tires should be inspected at intervals shown in Section OB.
For the longest tire life, any time irregular wear is noticed,
the tires should be inspected and rotated and the cause of the
uneven wear corrected. Be certain to check wheel nut
tightness and to adjust the tire pressures, front and rear,
after rotation to agree with those recommended in the tire
inflation charts.
The outer tire on a dual wheel will skid or drag on a
turn because of the difference in the turning radii of the
inner and outer tires. This results in faster wear of the outer
tire. In general, the tire with the largest diameter or least
wear whould be at the outside of each dual wheel. In
addition, when trucks are operated continuously on high
crown roads an increase in air pressure of from 5 to 10 PSI
in the outside tire of each dual produces maximum tire life.
As shown in Fig. 3E-5, the X method of rotation is
allowed with radial tires if necessary. Due to their design,
radial tires tend to wear faster in the shoulder area
LIG H T TR U C K SE RV IC E M A N U A L
3E-4
WHEELS AND TIRES
particularly in the front positions. This makes regular
rotation especially necessary.
Too low an air pressure can result in tire overloading,
abnormal tire wear, adverse vehicle handling, and reduced
fuel economy. The tire flexes more and can build up
excessive heat, weakening the tire and increasing suscepti
bility to damage or failure. Too high an air pressure can
result in abnormal wear, harsh vehicle ride, and increased
susceptibility to damage from road hazards. Lower inflation
pressures should be used only with reduced vehicle loads and
the rear tire pressure should be equal to or greater than the
front pressure on single wheel application. After determin
ing the load on each tire by weighing the vehicle on a scale,
the correct cold inflation pressures for the actual tire loads
can be obtained from the Tire/W heel Load and Inflation
Pressure Charts shown in this section. Refer to Section OB
for additional information on inflation pressure.
INFLATION PRESSURE
The maximum cold inflation pressures for the factory
installed tires are listed on the Certification Label. Tires
must be inflated to these pressures when the G V W R or an
axle G A W R is reached. Improper tire inflation pressures for
the load the vehicle is carrying can adversely affect tire life
and vehicle performance.
For improved ride comfort in vehicles rated at 8600
G V W R , it is permissible to use the lower tire pressure valves
shown on the label located on the rear edge of the driver’s
door provided there is a m aximum of 200 lbs. cargo, no slide
in camper, and there are three or less occupants. The lower
G V W R and G A W R (rear) reflect the m axim um load
carrying capacity of the tires at lower pressure.
W H E E L USAGE A N D T IR E L O A D L IM IT S (LBS) A T V A R IO U S I N F L A T IO N PRESSURES
BIA S L IG H T T R U C K (L T ) T IR E S
Wheel
Code
Tire
Size
Load
Range
30
|
35
40
|
Inflation Pressures (PSI)
45 |
50 |
55 |
60
|
65
|
70
1
75
T IR E S U SED AS S IN G L E S
YF
YF
9.50-16.5
9.50-16.5
ZX
ZX
ZX
7.00-16
7.50-16
7.50-16
C
C
D
1260
1430
1430
1365
1565
1565
1475
1690
1690
1580
1815
1815
1930
2040
2140
YD
YD
8.75-16.5
8.75-16.5
C
D
1380
1380
1515
1515
1630
1630
1750
1750
1855
1970
2070
D
E
1860
1860
2030
2030
2190
2190
2350
2350
2500
2500
2650
2650
2780
2780
2920
3050
3170
T IR E S U SED AS D U A L S
WHEEL CODE AND LIMITS
Code
CF, BU
BT, CK
Size of
Wheel
15 x 7 JJ
15 x 8 JJ
XH
15 x 6 JJ
16.5 x 6.00
YD
CC
15 x 6 JJ
ZY
19.5 x 6.00
BW, ZC 15 x 8 JJ
W heel Limits
Max.
Max.
Load
Press.
(Lb*.)
(PSI)
1670
1910
1670
2680
1670
2540
2030
40
40
55
85
55
80
46
Code
YC
YF
BF
XW
ZT
ZX
YD
Size of
Wheel
16.5 x 6.00
16.5 x 6.75
16 x 6 V2 L
15 x 6 JJ
19.5 x 6.00
16 x 6 KS
16.5 x 6.00
Wheel Limits
Max.
Max.
Load
Press.
(Lbs.)
(PSI)
2350
3170
2780
1910
2780
2440
2680
70
85
85
70
95
75
55
Optional Location
Location For:
• Maximum Load
• Maximum Pressure
• Wheel Code
• Wheel Size Stamps
Fig. 3E-6--Tire/W heel Load and Inflation Pressure
L IG H T T R U C K SERVICE M A N U A L
WHEELS AND TIRES
W HEEL USAGE A N D T IR E L O A D L IM IT S (LBS) A T V A R IO U S I N F L A T I O N PRESSURES
B IA S L IG H T T R U C K (L T ) T IR E S
Tire
Size
Wheel
Code
YF
Load
Range
30
35
40
D
E
1860
1860
2030
2030
2190
2190
9.50-16.5
9.50-16.5
YF
Inflation Pressures (PSI)
60
45
55
50
2350
2350
2500
2500
2650
2650
65
70
75
2920
3050
3170
2780
2780
WHEEL CODE AND LIMITS
Code
Size of
Wheel
CH
ZW. YD
CC
ZV
BW. ZC
15 x 8 JJ
16.5 x 6.00
15 x 6 JJ
19.5x6.00
15 x 8 JJ
Wheel Limits
Max.
Max.
Press.
Load
(PSI)
(Lba.)
40
1760
85
2680
55
1670
80
2540
40
2030
Wheel Limits
Max.
Max.
Press.
Load
(PSI)
(Lbs.)
Code
Size of
Wheel
YC
YC
BF
XX
ZT
zx
16.5 x 6.00
16.5 x 6.75
16 x 6 V2 L
15 x 6 JJ
19.5x6.00
16 x 6 KS
2350
3170
2780
2040
2780
2440
70
85
85
70
95
75
• Wheel Code
• Wheel Size Stamps
Fig. 3E-7--Tire/Wheel Load and Inflation Pressure-K Models
WHEEL USAGE AND TIRE LOAD LIM ITS AT VARIOUS INFLATION PRESSURES*
BIAS TIRES FOR LIG H T TRUCKS
USED AS SINGLES
Wheel Code
Regular
O p tio n a l
YJ
YJ
_
Tire
Size
8.75-16.5
8.75-16.5
—
Load
Range
Ply
Rating
30
35
Tire Load Limits at Various Inflation Pressures (PSI)
40
45
50
55
60
D
E
8
10
1570
1570
1720
1720
1850
1850
1990
1990
2110
2110
2240
2240
2350
1620
1710
1800
2350
WIDE BASE TUBELESS TIRES USED AS DUALS
YD
YD
YH
YH
8.00-16.5
8.00-16.5
6
8
C
D
1195
1195
1310
1310
1415
1415
1520
1520
Wheel load limits are shown below. Vehicle loading must be limited such that neither the wheel or tire load limits are exceeded.
W H E E L C O D E A N D L IM IT S
Code
YH
YD, YH
YJ
CD
XW
BX
A LU M .
Size of Wheel
Wheel Limits
Max. Press.
Max. Load
(PSI)
(Lbs.)
15 x 6 JJ
16.5 x 6.00
16.5 x 6.75
15 x 6V2 JJ
15 x 6 Jj
15 x 7 JJ
1585
40
2680
2680
1690
1916
85
85
1690
40
15 x 6 'A JJ
1690
40
40
70
• Wheel Code
Fig. 3E-8--Tire/Wheel Load and Inflation Pressure-G Models
LIG H T T R U C K SERVICE M A N U A L
65
70
75
2470
2570
2680
3E-5
3E-6
WHEELS AND TIRES
MINIMUM TIRE INFLATION PRESSURE AT GROSS
VEHICLE WEIGHT RATING GVWR LBS.
W H E EL CODE AN D L IM IT S
W HE EL L IM IT S
S IZ E OF
W HEEL
CODE
STAMPING LOCATION
I
FOR RIM SIZE
M A X.
PRESS.
(P S I)
85
1 6 .5 x 6 .0
2680
YC
1 6 .5 x 6 .0
2350
70
YF
1 6 .5 x 6 .7 5
3170
85
BF
16 x 6 .5 0 L
2780
85
ZX
16 x 6 .0 0 KS
2440
75
Y D , YJ
OPTIONAL LOCATION
DUAL WHEELS
M AX.
LOAD
(L B S .)
LOCATION FOR:
/
MAXIMUM^MAXIMUM / WHEEL
LOAD / PRESSURE/ CODE STAMPS
/;
WHEEL USAGE AND TIRE LOAD LIMITS (LBS) AT VA RIO U S INFLATION PRESSURES
PASSENGER TYPE TIRES FOR LIGHT TRUCKS
Wheel
Code
Tire
Size
Load
Range
XW
xw
L78-15
L78-15
B
Inflation Pressure (PSI)
24
1527
1527
D
26
1590
1590
32
1790
1790
30
1727
1727
28
1663
1663
34
36
38
40
1854
1905
1972
2025
TIRES USED AS SINGLES
BIAS LIGH T TRUCK (LT) TYPE TIRES
Inflation Pressures (PSI)
W heel
Code
T ire
Size
Range
30
BF
BF
BF
7 .5 0 -1 6 L T
7 .5 0 -1 6 L T
7 .5 0 -1 6 L T
C
D
E
YC
YC
YF
YF
YF
8 .7 5 - 1 6 .5
8 .7 5 - 1 6 .5
8 .7 5 - 1 6 .5
9 .5 0 - 1 6 .5
9 .5 0 - 1 6 .5
C
D
E
0
E
Load
35
40
45
SO
55
60
65
70
75
1620
1620
1620
1770
1770
1770
1930
1930
1930
2060
2060
2060
2190
2190
2310
2310
2440
2440
2560
2670
2780
1570
1570
1570
1860
1860
1720
1720
1720
2030
2030
1 85 0
1850
1850
2190
2190
1990
1990
1990
2350
2350
2110
2110
2500
2500
2240
2240
2650
2650
2350
2350
2780
2780
2470
2570
2680
2920
3050
3170
BIAS TRUCK TYPE TIRES
W h eel Code
T ire
Size
R egular
ZY & ZT
Load
Range
8 -1 9 .5
—
D -E
In fla tio n Pressures (P S I)
30
35
40
45
50
55
60
65
70
75
-
—
-
-
2110
2270
2410
2540
2680
2800
70
75
TIRES USED AS DUALS
BIAS LIG H T TRUCK (LT) TYPE TIRES
W heel
Code
ZX
ZX
Inflation Pressures (PSI)
T ire
Size
Load
Range
30
35
40
45
7 .5 0 -1 6 L T
7 .5 0 -1 6 L T
8 .7 5 - 1 6 .5
8 .7 5 - 1 6 .5
C
D
C
D
1430
1430
1380
1380
1565
156 5
1 51 5
1515
1690
1690
1630
1630
1815
18 1 5
1750
1750
8 -1 9 .5
8 -1 9 .5
D
E
—
—
—
—
50
55
60
1930
2040
2140
185 5
1970
2070
2230
2230
2350
2350
65
|
BIAS TRUCK TYPE TIRES
ZY , ZT
ZY
1850
1850
1990
1990
2110
2110
2460
2460
2570
2 6 8 0 (#;
(#) 2 7 8 0 lb s . a t 8 0 lb s . p re s s u re .
Fig. 3E-9--Tire/Wheel Load and Inflation Pressure-P Models
LIG H T T R U C K SE RV IC E M A N U A L
WHEELS AND TIRES
CORRECTING IRREGULAR TIRE WEAR
Heel and Toe Wear
This is a saw-toothed effect where one end of each tread
block is worn more than the other. The end that wears is the
one that first grips the road when the brakes are applied.
Heel and toe wear is less noticeable on rear tires than
on front tires, because the propelling action of the rear
wheels creates a force which tends to wear the opposite end
of the tread blocks. The two forces, propelling and braking,
make for more even wear of the rear tires, whereas only the
braking forces act on the front wheels, and the saw-tooth
effect is more noticeable.
A certain amount of heel and toe wear is normal.
Excessive wear is usually due to high speed driving and
excessive use of brakes. The best remedy, in addition to
cautioning the owner on his driving habits, is to interchange
tires regularly.
Side Wear
This may be caused by incorrect wheel camber, un
derinflation, high cambered roads or by taking corners at too
high a rate of speed. The first two causes are the most
common. Camber wear can be radily identified because it
occurs only on one side of the treads, whereas underinflation
causes wear on both sides. Cam ber wear requires correction
of the camber first and then interchanging tires. There is, of
course, no correction for high cambered roads. Cornering
wear is discussed further on.
3E-7
resulting in excessive wear on the outside half of the tire,
producing a type of wear like that caused by excessive
positive camber.
Cornering wear can be most easily distinguished from
abnorm al cam ber wear by the rounding of the outside
shoulder or edge of the tire and by the roughening of the
tread surface which denotes abrasion.
Cornering wear often produces a fin or raised portion
along the inside edge of each row in the tread pattern. In
some cases this fin is almost as pronounced as a toe-in fin,
and in others, it tapers into a row of tread blocks to such an
extent that the tire has a definite "step wear" appearance.
The only remedy for cornering wear is proper instruc
tion of operators. Driving more slowly on curves and turns
will avoid grinding rub ber off tires. To offset normal
cornering wear as much as possible tires should be inter
changed at regular intervals.
Wheel and Tire Balancing
It is desirable from the standpoints of tire wear and
vehicle ride and handling ease to maintain proper balance of
wheel and tire assemblies on all models. This m ay be
accomplished by either of the two types of balancing
systems in currect use which balance wheels either on the
vehicle or off. The "on the vehicle" type, however, is the
more desirable in that all rolling components (brake drums,
bearings, seals, etc.) are included in the balancing procedure
and thereby have any existing unbalance corrected.
Misalignment Wear
Truck Wheel Balance Weights
This is wear due to excessive toe-in or toe-out. In either
case, tires will revolve with a side motion and scrape the
tread rubber off. If misalignment is severe, the rubber will
be scraped off of both tires; if slight, only one will be
affected. The scraping action against the face of the tire
causes a small feather edge of rubber to appear on one side
of the tread and this feather edge is certain indication of
misalignment. The remedy is readjusting toe-in, or recheck
ing the entire front end alignment if necessary.
All truck wheels equipped with a tubular side ring
(rolled flange rim) on the outboard side of the wheel rims
require special design weights to fit. Dynamic balancing can
be accomplished through use of these special balance
weights which are designed only for installations on the
outboard side of these wheels. Conventional weights fit only
the inboard side of these wheels.
Uneven Wear
Static balance (sometimes called still balance) is the
equal distribution of weight of the wheel and tire assembly
about the axis of rotation in such a m an ner th a t the
assembly has no tendency to rotate by itself, regardless of its
position. For example: A wheel with chunk of dirt on the rim
will always rotate by itself until the heavy side is a the
bottom. Any wheel with a heavy side like this is statically
out of balance. Static unbalance of a wheel causes a hopping
or pounding action (up and down) which frequently leads to
wheel "flutter" and quite often to wheel "tra m p " .
Uneven or spotty wear is due to such irregularities as
unequal caster or camber, bent front suspension parts, outof-balance wheels, brake drums out of round, brakes out of
adjustment or other mechanical conditions. The remedy in
each case consists of locating the mechanical defect and
correcting it.
Cornering Wear
When a truck makes an extremely fast turn, the weight
is shifted from an even loading on all wheels to an abnormal
load on the tires on the outside of the curve and a very light
load on the inside tires, due to centrifugal force. This
unequal loading may have two unfavorable results.
First, the rear tire on the inside of the curve may be
relieved of so much load that it is no longer geared to the
road and it slips, grinding off the tread on the inside half of
the tire at an excessive rate. This type of tire shows much the
same appearance of tread wear as tire wear caused by
negative camber.
Second, the transfer of weight may also overload the
outside tires so much th a t they are laterally distorted
LIGHT TRUCK SERVICE MANUAL
Static Balance
Dynamic Balance
Dynamic balance (sometimes called running balance
means that the wheel must be in static balance, and also run
smoothly at all speeds.
To insure successful, accurate balancing, the following
precautions must be observed:
• Wheel and tire must be clean and free from all foreign
matter.
• The tires should be in good condition and properly
mounted with the balance mark on the tire, if any, lined
up with the valve.
3E-8
WHEELS AND TIRES
• Bent wheels that have runout over 1/16" should be
replaced.
• Inspect tire and wheel assembly to determine if an
eccentric or out-of-round condition exists. Note that
this condition, if severe, cannot be "balanced ou t". An
assembly which has an out-of-round condition exceed
ing 3/16 " on tire sizes through 19.5" is not suitable for
use on the front of the vehicle. Its use on the rear should
be governed by its general condition and whether the
roundness defect seriously detracts from overall ride
quality.
• When balancing wheels and tires, it is recommended
that the instructions covering the operation of the wheel
balancer being used be closely followed.
• When balancing truck type nylon tires, tires must be
hot (run for several miles) before raising vehicle to
balance so that flat spot is elimated. A tire which is flat
spotted will be incorrectly balanced.
• On 10 and 20 series trucks, do not attem pt to externally
drive the wheels with the transfer case in the neutral
position. Although, the transfer case will be uncoupled
from the transmission, the front and rear drive trains
will be coupled through the transfer case. For example,
attempting to balance a rear wheel on the vehicle will
cause one or both of the front wheels to also be driven.
T he wheels may be dynam ically balanced on the
vehicle with the transfer case in the 2H position. The
transfer case neutral position should only be used when
it becomes necessary to uncouple the transmission from
the transfer case.
WHEEL INSTALLATION
Single Wheels
When installing the tire and wheel on the vehicle, the
following procedure should be followed:
After wheel nuts are put on loosely, turn the wheel until
one nut is at the top of the bolt circle; tighten the nut just
snug. Snug up the remaining nuts criss-cross to minimize
runout, then tighten the nuts to the recommended torque
alternately and evenly to avoid excessive runout.
CAUTION:Before re-installing wheels, remove any
build up of corrosion of the wheel mounting
surface and brake drum or disc mounting surface
by scraping and wire brushing. Installing wheels
without good metal-to-metal contact at the
mounting surfaces can cause wheel nuts to loosen
which can later allow a wheel to come off while
the vehicle is moving, possibly causing loss of
control.
Dual Wheels
W hen installing wheels on vehicles with dual rear
wheels:
1. Install inner and outer wheel and clamp ring on rear, or
wheel and clamp ring on front (be sure pins on clamp
ring face outboard).
2. Install and snug nuts finger tight.
3. Torque nuts to specified torque in sequence shown in
Fig. 3E-12.
Lateral runout should not exceed 1/8" on front wheel
or 3 /1 6" on rear wheel.
Attachment of Dual Wheels On P300 Models
To assure secure attachm ent of the dual disc wheels, it
is important that all dirt or rust scale be removed from the
mating surface of the wheels, hub, and clamp ring as well as
the stud and nut. P O W E R D R IV E N U T S T H E N M A N U
A L L Y IN S P E C T T O R Q U E A T 130-180 FT. LBS. M A N
U A L T O R Q U E O N L Y : 150-200 FT. LB.
Side and Lock Rings
Side and lock rings of different rim types are not
interchangeable. Some may appear to be, but they do not fit
peoperly on the rim base. Serious accidents have resulted
from the use of mismatched rings. Rim base and rings must
be matched according to manufacturer, size and type. This
information is stamped on each part.
Inspection for Leaks
1. With wheel assembly removed from vehicle, inflate the
tire to recommended operating pressure.
2. Check for leaks at rim bead by placing wheel and tire
horizontal and allowing w ater to stand in groove
between rim and tire. Check for other leaks by lowering
assembly into water tank or running water over tire.
Installing Synthetic Tubes
NOTICE: When tube and flap are not properly lubri
cated and mounted, they will stretch thin in the tire
bead and rim region. This will cause prem ature failure.
1. Before installing tube in tire, clean inside of casing
thoroughly.
2. Insert tube in tire and inflate until it is nearly rounded
out.
3. Inspect rim for rust scale and bent flanges-clean rust
scale and straighten flanges where necessary.
4. Using a brush or cloth swab, apply a solution of neutral
vegetable oil soap to the inside and outside of tire beads
and also the the rim side of the tube. Do not allow soap
solution to run down into tire.
5. When mounting tire and tube on a drop center rim,
follow the standard procedure. Be sure tire is centered
on rim so that beads are out of rim well before inflating.
Do not allow tire to hang loosely on wheel while
inflating.
LIGHT TRUCK SERVICE MANUAL
WHEELS AND TIRES
6. Center valve and pull it firmly against the rim. Hold in
this position and inflate until tire beads are firmly
seated on rim against flanges.
7. Completely deflate tire by removing valve core.
8. Reinflate tire to recommended pressure.
TUBELESS TIRES
Tubeless tires mounted on one piece full drop center
rims are standard on some trucks. These tires have a safety
inner liner which if punctured, tends to cling to the
penetrating object forming a partial seal until the object is
removed from the tire.
Mounting and Demounting
Use a tire changing machine to mount or demount tires.
Follow the equipment m anufacturer’s instructions. Do not
use hand tools or tire irons alone to change tire as they may
damage the tire beads or wheel rim.
Rim bead seats should be cleaned with a wire brush or
coarse steel wool to remove lubricants, old rubber, and light
rust. Before mounting or demounting a tire, the bead area
should be well lubricated with an approved tire lubricant.
After mounting, inflate to 40 psi so that beads are
completely seated.
CAUTION:Do not stand over tire when inflating.
Bead may break when beads snaps over safety
hump and cause serious personal injury.
Do not exceed 275 kPa (40 psi) pressure when
inflating. If 275 kPa (40 psi) pressure will not seat
beads, deflate, re-lubricate and reinflate. Overin
flation may cause the bead to break and cause
serious personal injury.
Install valve core and inflate to proper pressure. Check
the locating rings of the tire to be sure they show around the
rim flanges on both sides (Fig. 3 E - 14).
3E-9
RADIAL TIRES
Recommended truck tire mounting and inflation proce
dures are especially im p ortant with radial truck tires.
Failure to follow these recommendations can cause bead
deformation in both tube type and tubeless tires due to
incorrect bead seating. Bead deformation may lead to
chafing, lower sidewall and bead area cracking, demounting
difficulties, eccentric wear, ride vibration and non-retreadable casing.
Mounting
To insure correct mounting and bead seating and to
prevent bead deform ation, the following steps must be
taken:
A. Tube Type Tires
1. Only use rims approved for radial tire usage by rim
manufacturer. Thoroughly clean rim parts, removing
all rust and other foreign material. Make sure rim
parts match and are not sprung or broken.
2. Thoroughly lubricate tire beads, portion of tube
between beads, and flaps with an approved rubber
lubricant. Radial tubes are identifiable by the letter
" R " in the size designation. Example 100R20. Also,
to further identify the radial tube, a red band on the
valve stem has been required since March, 1975.
Radial flaps are also identified by the letter " R " .
Example - 20R8.
NOTICE: Do not use silicone base lubricants - this could
cause the tire to slip on the wheel.
3. Double inflate. Inflate to operating pressure, deflate
completely and reinflate to operating pressure. This
allows tube, flap and tire to fit together properly.
4. Check bead seating. Visually check slot and side ring
gap (on two piece rim) to make sure bead is seated.
The flange and one of the three lower sidewall rim
line rings while the tire is laying flat (measurements
should be taken each 90° around the circumference
of the rim flange). If spacing is uneven around bead
from side to side, repeat Step 1 through 3, and
recheck.
B. Tubeless Tires.
1. Only use rims approved for radial tire usage by rim
manufacturer. Thoroughly clean rim, removing all
rust and other foreign material.
2. Thoroughly lubricate tire beads and rim bead seats
with an approved rubber lubricant.
NOTICE: Do not use silicone base lubricants - this could
cause the tire to slip on the wheel.
3. Inflation. Inflate tire to operating pressure. Due to
the construction of radial truck tires, particularly in
the lower sidewall and bead area, it may be difficult
to get the tire to take air. An inflation aid may be
necessary to help seat the bead of tubeless radial
tires. Two types of inflation aids are commercially
available, (1) metal rings which use compressed air
to seat beads, and (2) rub ber rings which seal
between the tirebead and rim bead seat allowing the
bead to move out and seat. Lubrication is mandatory
with both items.
4. Check bead seating. This check is made by measur
ing the space between the rim flange and one of the
L IG H T T R U C K SERVICE M A N U A L
3E-10
WHEELS AND TIRES
three lower sidewall rim line rings while the tire is
laying flat (measurements should be taken each 90°
around the circum ference of the rim flange. If
spacing is uneven around the bead from side to side,
repeat Steps 1 through 3, and recheck.
It’s important that this procedure be followed to insure
proper bead seating in order to prevent bead deformation.
Radial tires, as well as the bias tires, must be mounted
and inflated in accordance with safety precautions noted in
RM A Radial and Bias Truck Tire Service Manuals.
TIRE REPAIR
There are many different materials and techniques on
the market to repair tires. As not all of these work on all
types of tires, tire manufacturers have published detailed
instructions on how and when to repair tires. These instruc
tions can be obtained from the tire manufacturer.
Series
Description
K
C 1 0 ,P 1 0 , G 1 0 ,G 2 0
C20,P20
C30, P30 and
K20, G30
Torque
7 / 1 6 " B o lts (6)
1 / 2 " B o lts (5)
70-9 0 Ft. Lbs.
75-1 00 Ft. Lbs.
9 /1 6 "
B o lts (8)
90-1 2 0 Ft. Lbs.
9 /1 6 "
B o lts (8)
110-140 Ft. Lbs.
Single Wheels
CKPG30
D u al W heels
H eavy D u ty
W heels
5 /8 "
B o lts
130-180 Ft. Lbs.
(10)
Fig. 3E-12--Wheel Nut Torque
LIG H T T R U C K SE RV IC E M A N U A L
PROPELLER SHAFT
4A-1
SECTION 4A
PROPELLER SHAFT
The following notice applies to one or more steps in the assembly
procedure of components in this portion of the manual as indicated at
appropriate locations by the terminology "See Notice on page 1 of this
Section".
N O T IC E : This fastener is an important attaching part in that it could
affect the performance of vital components and systems, a nd/or could result
in major repair expense. It must be replaced with one of the same part
number or with an equivalent part if replacement becomes necessary. Do not
use a replacement part of lesser quality or substitute design. Torque values
must be used as specified during reassembly to assure proper retention of this
part.
CONTENTS
General D escription...........................................................................................4A-1
Universal Jo in ts............................................................................................... .4A-1
Propeller S h a f t ................................................................................................ ..4A-2
Diagnosis.............................................................................................................. ..4A-2
On C ar Service....................................................................................................4A-5
GENERAL DESCRIPTION
Universal Joints
The simple universal joint is basically two Y-shaped
yokes connected by a crossmember called a spider. The
spider is shaped like an X and arms that extend from it are
called trunnions. See figure 4 A - 1.
The spider allows the two yoke shafts to operate at an
angle to each other. When torque is transmitted at an angle,
through this type of joint, the driving yoke rotates at a
constant speed while the driven yoke speeds up and slows
down twice per revolution. This changing of velocity
(acceleration) of the driven yoke increases as the angle
between the two yoke shafts increases. This is the prime
reason why single universal joints are not used for angles
greater than three to four degrees. At four degrees, for
example the change of velocity is .5%. At ten degrees it is
3%. If the universal joint were set at 30 degrees and the
driving yoke were turning at 1000 RPM the velocity of the
driven yoke would change from 856 RPM to 1155 R PM in
one q u a rte r of a revolution. In the rem aining q u a rte r
revolution the velocity would change from 1155 R PM to 866
RPM .
On a one-piece drive shaft this problem can be elimi
nated by arranging two simple universal joints so that the
two driving yokes are rotated 90 degrees to each other.
However the angle between the drive and driven yokes must
be very nearly the same on both joints for this to work. Refer
to figure 4A-2. This allows the alternate acceleration and
deceleration of one joint to be offset by the a lte rn a te
deceleration and acceleration of the second joint. When the
two joints do not run at approximately the same angle,
operation can be rough and an objectionable vibration can
be produced.
Fig. 4A-2--U niversal Joints A rra n g e d for Constant
Fig. 4A-1 --Simple Universal Joint
Velocity
LIG H T T R U C K SERVICE M AN U AL
4A-2
PROPELLER SHAFT
Essentially, the constant velocity joint is two simple
universal joints closely coupled by a coupling yoke, phased
properly for constant velocity.
A centering ball socket between the joints maintains
the relative position of the two units. This centering device
causes each of the two units to operate through one-half of
the complete angle between the drive shaft and differential
carrier. See figure 4A-3.
The ball/socket on this Constant Velocity joint requires
periodic lubrication. A lubrication fitting is provided for this
purpose, and is illustrated later in this section.
Propeller Shafts
Universal joints are designed to consider the effects of
various loadings and rear axle windup, during acceleration.
Within the design angle variations the universal joints will
operate safely and efficiently. However, when the design
angles are exceeded the operational life of the joints may
decrease.
The bearings used in universal joints are the needle
roller type. The needle rollers are held in place on the
trunnion by round bearing cups. The bearing cups are held
in the yoke by either (depending on the manufacturer) snap
rings or plastic injection. These joints usually are lubricated
for life and cannot be lubricated while on the vehicle.
Constant Velocity Joint-Double Cardan Joint
As mentioned previously, the simple universal joint will
operate efficiently through small angles only. Also, two
simple universal joints phased properly and operating
through the same angle will transmit constant velocity.
When a large angle is encountered in a driveline, a simple
universal joint will introduce two vibrations in each revolu
tion. It is in this situation that a constant velocity joint is
used.
The propeller shaft is a steel tube which is used to
transmit power from the transmission output shaft to the
differential. To accommodate various model, wheelbase and
transmission combinations, drive shafts differ in length,
diameter and the type of splined yoke. Each shaft is installed
in the same manner. A universal joint and splined slip yoke
are located at the transmission end of the shaft, where they
are held in alignment by a bushing in the transmission rear
extension. The slip yoke permits fore and aft movement of
the drive shaft as the differential assembly moves up and
down. The spline is lubricated internally by transmission
lubricant or grease. An oil seal at the transmission prevents
leakage and protects the slip yoke from dust, dirt and other
harmful material.
Since the drive shaft is a balanced unit, it should be
kept completely free of undercoating and other foreign
material which would upset shaft balance.
Both one piece and two piece propeller shafts are used
depending on the model. All are tubular and use needle
bearing type universal joints.
On models that use a two piece shaft, the shaft is
supported near its splined end in a rubber cushioned ball
bearing which is mounted in a bracket attached to a frame
crossmember. The ball bearing is permanently lubricated
and sealed.
Four wheel drive models use a front propeller shaft
incorporating a constant velocity joint.
PROPELLER SHAFT AND Uh /ERSAL JOINT DIAGNOSIS
Checking and Correcting
Propeller Shaft Unbalance
1. Place vehicle on a twin post hoist so that the rear wheels
are free to rotate.
2. Remove both rear tire and wheel assemblies and brake
drums.
Use care not to apply brakes with drums removed.
3. Visually inspect propshaft, U-Joints and attachments
for mud undercoating or other discrepancies. Make
necessary corrections prior to running.
LIGHT TRUCK SERVICE MANUAL
4. With vehicle running in gear at the indicated speed
where disturbance is at its peak, observe the intensity of
the disturbance.
5. Stop engine and disconnect drive shaft from companion
flange. Reinstall shaft by rotating it 180° from its
original position. D eterm ine which position of the
companion flange gives the best balance.
6. Install rear drums and wheels, and road test vehicle for
final check of balance. If balance is still unacceptable,
replace drive shaft.
PROPELLER SHAFT
4A-3
D IA G N O STIC CH ART
CO M PLAINT
L eak a t fro n t slip y o k e .
N O T E : An occasional d ro p o f
lu b ric a n t leaking fro m splined
y o k e is n o rm al and re q u ire s n o
a tte n tio n .
CO RRECTIO N
POSSIBLE CAUSE
a.
R ou g h o u tsid e surface o n splined
yoke.
b.
D efective tran sm issio n rear oil
seal.
a.
R eplace seal if c u t by b u rrs on y o k e .
M inor b u rrs can be s m o o th e d by carefu l
use o f c ro cu s c lo th or h o n in g w ith a
fine sto n e . R eplace y o k e if o u tsid e
surface is ro ugh o r b u rre d b a d ly .
b.
R eplace transm ission re ar oil seal.
c.
Bring tran sm issio n oil u p to p ro p e r
level a fte r c o rre c tio n .
K n o ck in drive line, clu n k in g
noise w hen car is o p e ra te d
u n d e r flo atin g c o n d itio n at
10 m p h in high gear or
n e u tra l.
a.
W orn o r dam aged universal
jo in ts.
a.
D isassem ble universal jo in ts , in sp e ct
an d replace w o rn or d am ag ed p a rts.
b.
Side gear h u b c o u n te rb o re in
d iffe re n tia l w o rn oversize.
b.
R eplace d iffere n tia l case a n d /o r side
gears as re q u ire d .
Ping, S nap o r C lick in drive
line.
a.
L oose u p p e r o r lo w e r c o n tro l
arm b u sh in g b o lts.
a.
T ig h te n b o lts to specified to rq u e .
N O T E : U sually o ccu rs o n
initial lo ad a p p lic atio n a fte r
tran sm issio n has b e en p u t
in to gear, e ith e r fo rw a rd o r
reverse.
b.
L oose c o m p a n io n flange.
b.
R em ove c o m p a n io n flange, tu rn 180°
fro m its original p o sitio n , ap p ly w hite
lead to splines and re in sta ll. T ig h te n
p in io n n u t to specified to rq u e .
Fig. 4 A -4 --D iag n o sis C hart A
LIGHT TRUCK SERVICE MANUAL
4A-4
PROPELLER SHAFT
C O M P L A IN T
Roughness, Vibration or
Body Boom at any speed.
NOTE: With tachometer
installed in car, determine
whether propeller shaft is
cause of complaint by
driving through speed range
and note the engine speed
(rpm) at which vibration
(roughness) is most
pronounced. Then, shift
transmission to a different
gear range and drive car at
same engine speed (rpm)
at which vibration was
noted before. Note the
effect on the vibration.
If vibration occurs at the
same engine speed (rpm),
regardless of transmission
gear range selected, drive
shaft assembly is not at
fault, since the shaft
speed (rpm) varies.
If vibration decreased, or
is eliminated, in a
different gear range but
at the same engine speed
(rpm), check the
possible causes:
POSSIBLE CAUSE
C O R R E C T IO N
a. Bent or dented drive shaft.
a. Replace.
b. Undercoating on drive shaft.
b. Clean drive shaft.
c. Tire unbalance. (30-80 mph, not
throttle conscious)
c. Balance or replace as required.
d. Excessive U-bolt torque.
d. Check and correct to specified torque.
e. Tight universal joints.
e. Impact yokes with a hammer to free
up. Overhaul joint if unable to free up
or if joint feels rough when rotated by
hand.
f. Worn universal joints.
f. Overhaul, replacing necessary parts.
g. Burrs or gouges on
companion flange. Check
snap ring locating surfaces
on flange yoke.
g. Rework or replace companion flange.
h. Drive shaft or companion
flange unbalance.
h. Check for missing balance weights
on drive shaft. Remove and
reassemble drive shaft to companion
flange, 180° from original position.
i.
Excessive looseness at slip
yoke spline.
i.
Replace necessary parts.
j.
j.
Drive shaft runout (50-80 mph
throttle conscious)
Check drive shaft runout at front and
rear. Should be less than specified. If
above, rotate shaft 180° and recheck.
If still above specified, replace shaft.
Roughness usually at low speeds,
light load, 15-35 mph.
a. U-bolt clamp nuts excessively
tight.
a. Check and correct torque to that
specified. If torque was excessive
or if brenelled pattern on trunnions
is evident, replace joints.
Scraping noise.
a. Slinger, companion flange, or
end yoke rubbing on rear axle
carrier.
a. Straighten slinger to remove
interference.
Roughness on heavy
acceleration (short duration.)
a. Double cardan joint ball seats
worn. Ball seat spring may be
broken.
a. Replace joint and shaft assembly.
Roughness -- above 35 mph
felt and/or heard.
a. Tires unbalanced or worn.
a. Balance or replace as required.
Fig. 4A-5--Diagnosis Chart B
LIGHT TRUCK SERVICE MANUAL
PROPELLER SHAFT
4A-5
UNIT REPAIR
PROPELLER SHAFT
The rear universal joint to propshaft bolt on some CK 1
ton dual wheel models requires a # 10 "Six Lobed Socket"
(J-25085), for proper removal and installation. 34 N-m,
(Torque to 25 lbs. ft.).
Removal
1. Raise vehicle on hoist. M ark relationship of shaft to
companion flange and disconnect the rear universal
joint by removing trummion bearing " U " bolts or
straps. Tape bearing cups to trunnion to prevent
dropping and loss of bearing rollers.
2. For models with two-piece shafts remove bolts retain
ing bearing support to hanger.
3. Slide propeller shaft forward disengaging trunnion
from axle flange, then slide assembly rearward disen
gaging from transmission.
For models using strap or U-bolt atta ch m e n ts to
transmission or transfer case use same removal proce
dure as above.
Due to length of the propeller shaft it
convenient to use a bench vise, for
installation, instead of an arbor press.
proceed with disassembly and assembly
with an arbor press Fig. 4A-8 and 4A-9.
may be more
removal and
In this case,
procedure as
3. Using a suitable socket or rod, press on trunnion until
bearing cup is almost out. Grasp cup in vise and work
cup out of yoke. See figures 4A-8 and 4A-9. The
bearing cup cannot be fully pressed out.
4. Press trunnion in opposite direction and remove other
cup as in Step 3.
5. Clean and inspect dust seals, bearing rollers, and
trunnion. Relubricate bearings as indicated in Section
0.
Universal Joints
On models with between center slip propshaft it is
important that components are marked prior to dissassembly for proper phasing.
The universal joints are of the extended-life design and
do not require periodic inspection or lubrication; however,
when these joints are disassembled, repack bearings and
lubricate reservoir at end of trunnions with high-melting
point wheel bearing lubricant. Use care not to damage or
dislodge seals from trunnion.
Snap Ring Type
Disassembly
1. Remove bearing lock rings from trunnion yoke.
2. Support trunnion yoke on a piece of 31.75 mm (1 -1 /4 ")
I.D. pipe on an arbor bed.
Fig. 4A-8~Bearing Cup Removal with Vise
LIGHT TRUCK SERVICE MANUAL
4A-6
PROPELLER SHAFT
J-9522-3, on the open horizontal bearing cups, and
press the lower bearing cup out of the yoke ear as shown
in figure 4 A - 11. This will shear the plastic retaining the
lower bearing cup.
2. If the bearing cup is not completely removed, lift the
cross and insert Spacer J-9522-5 between the seal and
bearing cup being removed, as shown in figure 4A-12.
Complete the removal of the bearing cup, by pressing it
out of the yoke.
3. R otate the drive shaft, shear the opposite plastic
retainer, and press the opposite bearing cup out of the
yoke as before, using Spacer J-9522.
Fig. 4A -9--Bearin g C u p Rem oval with Press
In addition to packing the bearings, make sure that the
lubricant reservoir at the end of each trunnion is
completely filled with lubricant. In filling these reser
voirs, pack lubricant into the hole so as to fill from the
bottom (use of squeeze bottle is recommended). This
will prevent air pockets and ensure an adequate supply
of lubricant.
4. Disengage cross from yoke and remove. Production
universal joints cannot be reassembled. There are no
bearing retainer grooves in production bearing cups.
Discard all universal joint parts removed.
5. Remove the remains of the sheared plastic bearing
retainer from the ears of the yoke. This will aid in
reassembly of the service joint bearing cups. It usually
is easier to remove plastic if a small pin or punch is first
driven through the injection holes.
Reassembly Fig. 4 A -1 0
1. Position trunnion into yoke. Paritally install one
bearing cup into yoke. Start trunnion into bearing cup.
Partially install other cup. Align trunnion into cup, and
press cups into yoke.
2. Install lock rings.
Injected Plastic Type
Disassembly
NOTICE: Never clamp drive shaft tubing in a vise as the
tube may be dented. Always clamp on one of the yokes,
and support the shaft horizontally. Avoid damaging the
slip yoke sealing surface. Nicks may dam age the
bushing or cut the seal lip.
1. Support the drive shaft in a horizontal position in ine
with the base plate of a press. Place the universal joint
so that the lower ear of the shaft yoke is supported on a
28.57 mm ( 1 - 1 / 8 " ) socket. Place the cross press,
Fig. 4 A - 1 1--Pressing O u t Bearing C u p
Fig. 4A-12--Using Spacer to Remove Bearing Cup
LIGHT TRUCK SERVICE MANUAL
PROPELLER SHAFT
6. If the front universal joint is being serviced, remove the
pair of bearing cups from the slip yoke in the same
manner.
Reassem bly
A universal joint service kit is used when reassembling
this joint. See figure 4 A - 13. This kit includes one pregreased
cross assembly, four service bearing cup assemblies with
seals, needle rollers, washers, grease and four bearing
retainers.
Make sure that the seals are in place on the service
bearing cups to hold the needle rollers in place for handling.
1. Remove all of the remains of the sheared plastic
bearing retainers from the grooves in the yokes. The
sheared plastic may prevent the bearing cups from
being pressed into place, and this prevent the bearing
retainers from being properly seated.
2 . Install one bearing cup part way into one side of the
yoke, and turn this yoke ear to the bottom.
4A-7
4. Install opposite bearing cup part way. Make sure that
both trunnions are started straight and true into both
bearing cups.
5. Press against opposite bearing cups, working the cross
all of the time to check for free movement of the
trunnions in the bearings. If there seems to be a hang
up, stop pressing and recheck needle rollers, to deter
mine if one or more of them has been tipped under the
end of the trunnion.
6. As soon as one bearing retainer groove clears the inside
of the yoke, stop pressing and snap the bearing retainer
into place as shown in figure 4A-15.
7. Continue to press until the opposite bearing retainer
can be snapped into place. If difficulty is encountered,
strike the yoke firmly with a hammer to aid in seating
bearing retainers. This springs the yoke ears slightly.
See figure 4A-16.
8. Assemble the other half of the universal joint in the
same manner.
3. Insert cross into yoke so that the trunnion seats freely
into bearing cup as shown in figure 4 A - 14.
ROLLER BEARINGS
BEARING RETAINER
BEARING CUP
CROSS
ROUND PLASTIC WASHER
Fig. 4A -15—Installing Snap Ring to Retain Trunnion
Fig. 4 A -1 3 -R e p a ir Kit
STRIKE TUBE YOKE
EAR IN THIS AREA
Fig. 4A-14-lnstalling Trunnion into Yoke
Fig. 4A-16--Seating Snap Rings
LIG H T T R U C K SERVICE M A N U A L
4A-8
PROPELLER SHAFT
9. Check the freedom of rotation of both sets of trunnions
of the cross. If too tight, again rap the yoke ears as
described above. This will loosen the bearings and help
seat the bearing retainers.
CENTER SUPPORT BEARING-FIG. 4A-17
length of pipe over splined end of shaft, press bearing
and inner slinger against shoulder on shaft.
d. Install dust shield over shaft, small diameter (Dana
Style). Install bearing retainer (GM Style).
e. Install rubber cushion onto bearing.
f. Install bracket onto cushion.
NO TICE: See N O T I C E on page 1 of this section
regarding Center Support Bearing fasteners.
1. Remove strap retaining rubber cushion from bearing
support.
2. Pull support bracket from rubber cushion and pull
cushion from bearing.
3. Pull bearing assembly from shaft.
4. Assemble bearing support as follows:
a. Install inner deflector on propeller shaft, if removed,
and prick punch deflector at two opposite points to
make sure it is tight on shaft (Dana Style).
b. Fill space between inner dust shield and bearing with
lithium soap grease (Dana Style).
c. Start bearing and slinger assembly straight on shaft
journal. Support propeller shaft and, using suitable
g. Install retaining strap.
Installation of Propshafts
When reinstalling propshafts, it is necessary
to place the shafts into particular positions to assure
proper operation. This is called phasing.
NOTICE:
AH models with 32 splines use an alignment key, as
shown in figure 4A-18, to obtain proper phasing. The
shafts can mate only in the correct position.
G and K models with 16 splines must be phased as
shown in figure 4A-19.
1. For models with one piece propeller shafts, slide shaft
into transmission and attach rear U-joint to axle.
Fig. 4A-17--Propeller Shaft, Universal Joint and Bearing Support
LIG H T T R U C K SERVICE M A N U A L
PROPELLER SHAFT
4A-9
3. For G-K models with two piece shafts, install front half
into transmission and bolt support to crossmember.
a. Slide grease cap and gasket onto rear splines.
b. Rotate shaft so front U-joint trunnion is in correct
position. See figure 4 A - 19.
c. Take rear propeller shaft and before installing, align
U-joint trunnions as shown in figure 4A-19. Attach
rear U-joint to axle. Tighten grease cap.
d. Torque bearing support to crossmember and U-joint
to axle attachments.
CONSTANT VELOCITY UNIVERSAL JOINT
Inspection
Fig. 4A-18--Alignment Key
On vehicles w ith tw o piece p ro p sh a fts, the fr o n t
p ro p sh a ft yo ke m u st be bottom ed out in the transm is
sion f u l l y fo rw a rd before installation to the hanger.
2. For C-P models with two-piece propeller shafts, proper
phasing is accomplished with the alignment key, shown
in figure 4A-18.
An inspection kit including two bearing caps and two
snap rings is available to allow the removal of the two
trunnion caps shown at location 1, in figure 4A-20. Mark the
flange yoke and coupling yoke for reassembly in the same
position, as shown in figure 4A-21.
To service the trunnion caps, use the appropriate
procedures given in the beginning of this Section.
When both bearing cups are free, disengage the flange
yoke and trunnion from the centering ball. Note that the ball
2-Piece prop shaft must be
assembled as follows to prevent
excessive drive line excitation:
1. Transmission yoke must first
be placed in vertical position.
2. Front yoke of Rear Prop
shaft is set horizontal as shown.
Fig. 4A-19--Alignment for Phasing
L IG H T T R U C K SERVIC E M A N U A L
4A-10
PROPELLER SHAFT
WASHER
SEAL
TUBE
BALL STUD
YOKE
COUPLING YOKE
FLANGE YOKE
Fig. 4A-20--Bearing Cap Removal Sequence
socket is part of the flange yoke assembly, while the
centering ball is pressed onto a stud and is part of the ball
stud yoke. See figure 4A-22. Pry the seal from the ball socket
and remove washers, spring and the three ball seats as
illustrated in figure 4A-23.
Fig. 4A-22--Cross Sectional View of CV Joint
1. Clean and inspect ball seat insert bushing for wear. If
bushing is worn, replace flange yoke and cross
assembly.
2. Clean and inspect seal and ball seats along with spring
and washers. If any parts show indication of excessive
wear or are broken, replace the entire set with a service
kit.
Whenever the seal is removed to inspect ball seat parts,
it should be discarded and replaced with a new seal.
3. Remove all plastic from groove of coupling yoke.
4. Inspect the centering ball surface. If it shows signs of
wear beyond smooth polish, replace it.
Fig. 4A-23--Exploded View of Centering Ball
Mechanism
FLANGE YOKE
COUPLING YOKE
BALL SUPPORT
TUBE YOKE
ALIGNMENT PUNCH MARKS
Fig. 4A-21--Reassembling Coupling Yoke
LIGHT TRUCK SERVICE MANUAL
Fig. 4A-24-lnstalling Tool J-23996 Over Ball
PROPELLER SHAFT
Fig. 4A-25--lnstalling Outer Cylinder of Tool J-23996
Over Ball
Centering Ball Replacement
1. Place fingers of inner part of Tool J-23996 under ball as
shown in figure 4A-24.
2. Place outer cylinder of Tool J-23996 over outside of
ball as shown in figure 4A-25.
3. Thread nut on Tool J-23996 and draw ball off stud,
using wrench as shown in figure 4A-27.
4. Place the replacement ball on stud.
5. Using Tool J-23996, drive ball onto stud as in figure
4A-27, until the ball can be seen to seat firmly against
the shoulder at the base of the stud. This is important as
the center of the double C ardan joint is determined by
the ball seating tightly in the proper location.
6. Using grease provided in the ball seat kit, lubricate all
parts and insert them into the clean ball seat cavity in
the following order: spring, w asher (smallest O D ),
three ball seats (with largest opening outw ard to
receive ball), washer (largest OD) and seal.
Fig. 4A-26--Removing Centering Ball
4 A -11
Fig. 4A-27--lnstalling Centering Ball
7. Lubricate seal lip and press seal flush with Tool
J-23694, as shown in figure 4A-28. Sealing lip should
tip inward.
8. Fill cavity with grease provided in kit.
9. Install flange yoke to centering ball as shown in figure
4A-29, making sure alignment marks are correctly
positioned. Install trunnion and bearing caps as pre
viously outlined.
LUBRICATION
The front axle propshaft found on all four-wheel drive
trucks requires special lubrication procedures at two loca
tions: The C /V joint, and the slip yoke.
Constant Velocity Joints (C/V)
T he constant velocity ( C /V ) joint, located at the
transfer case end of the front propshaft, must be lubricated
periodically (see Section 0) with special lubricant,
# 1050679, or equivalent. If the fitting cannot be seen from
beneath the vehicle Figure 4A-30 shows how the fitting may
be lubricated from above the C /V joint, with a special
adapter J -2 5 5 12-2 on the end of a flex hose.
Fig. 4A-28--lnstalling Centering Ball Seal
L IG H T TR U C K SE R V IC E M AN U AL
4A-12
PROPELLER SHAFT
Fig. 4A-29--Reassembling Flange Yoke
to disconnect the propshaft from the truck, remove the slip
yoke, and wire brush the affected areas. Wipe clean before
reinstallation. When installing the propshaft to transfer case
front output flange attaching bolts, torque to specification
95-110 N-m (70-80 ft. lbs.).
Slip Spline
Apply chassis lubricant at the fitting until grease begins
to leave through the vent hole.
If the slip spline is dry or corroded, it may be necessary
SPECIFICATIONS
PROPELLER SHAFT
CK
G
P
P ro p e lle r S h a ft
To R ear A x le (S tra p )
B e a rin g S u p p o rt-to -H a n g e r
H a n g e r-to -F ra m e
1 2 -1 7
2 0 -3 0
4 0 -5 0
1 2 -1 7
2 0 -3 0
—
1 2 -1 7
2 0 -3 0
—
To T ra n s fe r Case
D a n a Style
G M Style
2 0 -3 0
7 0 -8 0
T o rqu e Sp ecificatio ns (Ft.-Lbs.)
LIGHT TRUCK SERVICE MANUAL
REAR AXLE
4B-1
SECTION 4B
REAR AXLE
The following notice applies to one or more steps in the assembly
procedure of components in this portion of the manual as indicated at
appropriate locations by the terminology "See Notice on Page 1 of this
Section ".
N O T IC E : This fastener is an important attaching part in that it could
affect the performance of vital components and systems, a nd/or could result
in major repair expense. It must be replaced with one of the same part
number or with an equivalent part if replacement becomes necessary. Do not
use a replacement part of lesser quality or substitute design. Torque values
must be used as specified during reassembly to assure proper retention of this
part.
CONTENTS
General Description...........................................................................................
Differential Diagnosis.......................................................................................
General Diagnostic Procedure......................................................................
Differential and Rear Axle Bearing Diagnosis........................................
On Vehicle Serv ice............................................................................................
8-1 /2 ", 8 -7 /8 ", and 9-1/2" Ring G e a r.....................................................
Chevrolet 10-1/2" Ring G e a r ......................................................................
Dana 10-1/2" Ring G e a r ............................................................... ..............
Dana 9 - 3 /4 "R ing G e a r ..................................................................................
Chevrolet 12-1/4" Ring G e a r ......................................................................
Specifications......................................................................................................
Special Tools............................................................. ............ ...................... ......
4B-1
4B-8
4B-8
4B-12
4B-14
4B-14
4B-18
4B-21
4B-21
4B-22
4B-24
4B-27
GENERAL DESCRIPTION
A differential is an arrangement of gears that divides
the torque between the axle shafts and allows them to rotate
at different speeds. A basic differential consists of a set of
four gears. Two of these gears are called differential side
gears, and the other two are differential pinion gears. Some
differentials have more than two pinion gears. Each side
gear is splined to an axle shaft. Consequently, each axle
shaft must turn when its side gear rotates.
The differential pinion gears are mounted on a differ
ential pinion shaft, and the gears are free to rotate on this
shaft. The pinion shaft is fitted into a bore in the differential
case and is at right angles to the axle shafts.
Power flow through the differential is as follows: The
drive pinion roates the ring gear. The ring gear, being bolted
to the differential case, rotates the case. The differential
pinion, as it rotates with the case, forces the pinion gears
against the side gears. W hen both wheels have equal
traction, the pinion gears do not rotate on the pinion shaft
because the input force on the pinion gear is equally divided
between the two side gears. See figure 4B-1. Consequently,
the pinion gears revolve with the pinion shaft, but do not
rotate around the shaft itself. The side gears, being splined
to the axle shafts and in mesh with the pinion gears, rotate
the axle shafts.
If a vehicle were always driven in a straight line, the
ring and pinion gears would be sufficient. The axle shaft
could then be solidly attached to the ring gear and both
driving wheels would turn at equal speeds.
However, if it became necessary to turn a corner, the
tires would scuff and slide because the outer wheel would
travel further than the inner wheel To prevent tire scuffing
LIG H T T R U C K SE R V IC E M AN U AL
4B-2
REAR AXLE
carrier near the axle tubes. Backlash is adjusted by increas
ing or decreasing shim thickness.
Chevrolet 10-1 /2" Ring Gear Axle
The axle shown in figure 4B-5 is of the full floating type
with hypoid ring gear and drive pinion. The full floating
construction enables easy removal of axle shafts w ithout
removing truck load and w ithout jacking up the axle. The
differential carrier is heavily ribbed to provide rigid support
for the differential assembly.
The straddle-m ounted drive pinion is supported at the
front by two opposed tapered roller bearings. The pinion
straddle bearing is a roller bearing assembly consisting of an
outer race and roller assembly. A precision ground diam eter
on the pinion pilot functions as an inner race.
and sliding, the differential becomes effective and allows the
axle shafts to rotate at different speeds.
As the inner wheel slows down, the side gear splined to
that axle shaft also slows down. A t this point, the pinion
gears act as balancing levers by m aintaining equal speeds of
rotation of the axle shafts. See figure 4B-2. If the vehicle
speed rem ains constant and the inner wheel slows to 90% of
vehicle speed, the outer wheel speeds up to 110%. If the
inner wheel slows to 75%, the outer wheel would turn 125%.
If one wheel stopped, the other wheel would turn 200%.
Seven d istin ct axles com prom ise th e tru ck line-up.
These six, categorized by ring gear diam eter, are a) 8-1/2"
and b) 8 -7 /8 " Ring G ear, c) Chevrolet 9 -1 /2 " 10-1/2"
Ring G ear, d) D ana 10-1/2" Ring G ear, e) D ana 9-3/4"
Ring G ear and f)Chevrolet 12-1/4" Ring G ear.
8 -1/2", and 8-7/8" and 9 -1/2 " Ring Gear
Axle
The axle shown in figure 4B-3 and 4B-4 is a semifloat
ing, fabricated constructed type consisting of a cast carrier
with large bosses on each end into which two welded steel
tubes are fitted. The carrier contains an overhung hypoid
pinion and ring gear. T he d ifferential is a two pinion
arrangem ent.
The axle housing is m ade up of two steel welded tubes
pressed into the crossbore of the cast carrier. Each tube is
puddle welded to the carrier. W elded-on brackets provide
a tta ch m e n t points for suspension com ponenets such as
shock ab sorbers and leaf springs. A welded flange is
provided for brake flange plate attachm ent.
An overhung hypoid drive pinion is supported by two
preloaded tapered roller bearings. The pinion shaft is sealed
by means of a molded, spring loaded, rubber seal. The
hypoid ring gear is bolted to a one-piece differential case
which is supported by two preloaded tapered roller bearings.
On th e 9 1 /2 " ring gear side bearing preload is
controlled by a side bearing adjusting nut threaded into the
LIGHT TRUCK SERVICE MANUAL
Side bearing preload and ring gear-to-pinion backlash
are controlled by side bearing adjusting nuts threaded into
the carrier near the axle tubes. Pinion depth is controlled by
a shim located between the pinion bearing retainer assembly
and the differential carrier.
Dana 10-1 /2" Ring Gear Axle
The Dana axle shown in figure 4B-6 is a Salisbury-type
sim ilar in design to the 8 -7 /8 " ring gear axle in figure 4B-4.
It does differ in several points, however. The axle shafts are
full floating; the carrier m ust be spread to remove the
differential; and the drive pinion incorporates two shim
packs. The inner pack controls pinion depth, while the outer
pack controls pinion bearing preload.
Dana 9-3/4" Ring Gear Axle
The D ana axle shown in figure 4B-7 is sim ilar to the
unit shown in 4B-6; however, the differential side bearing
shims are located between the case and the side bearings.
Chevrolet 12-1 /4" Ring Gear Axle
(11,000 Pound Capacity)
The 11,000 lb. capacity, single-speed hypoid axle,
illustrated in figure 4B-8, has a straddle m ounted drive
pinion which is supported at the rear by a straight roller
bearing. The pinion front bearing consists of a double row
ball bearing.
T he differential is a conventional four-pinion type.
T hrust washers are used between the side gears and case and
also between differential pinions and the differential case.
A thrust pad m ounted on the end of an adjusting screw
threaded into the carrier housing limits deflection of the ring
gear under high torque conditions.
Involute splines are incorporated in th e axle shaft
flange and in the wheel hubs. This design provides for the
driving torque to be transm itted from the axle shaft to the
hub through the m ating splines.
REAR AXLE
1.
C om panion Flange
7.
D iffe r e n tia l Case
13.
C over
19.
2.
D e fle c to r
8.
Shim
14.
P inion S haft
2 0 . D iffe r e n tia l Pinion
3.
Pinion O il Seal
9.
G a sket
15.
Ring G e a r
2 1 . Shim
4.
Pinion Front Bearing
10.
D iffe r e n tia l Bearing
16.
Side G e a r
2 2 . Pinion Rear Bearing
5.
Pinion Bearing Spacer
11.
" C " Lock
17.
Bearing C a p
2 3 . D riv e Pinion
6.
D iffe r e n tia l C a rr ie r
12.
Pinion Shaft Lock
18.
A x le Shaft
Screw
Fig. 4B-3--8-1 /2 " and 8 -7 /8 " Ring Gear Axle Cross-Section Typical
Thrust W asher
4B-3
4B-4
•J9HT
REAR AXLE
U&mg W
i
REAR AXLE
1.
2.
3.
4.
5.
6.
7.
8.
9.
C o m p a n i o n F la n g e
O il D e f le c to r
Oil Seal
B e arin g R eta ine r
S h im
P in io n F r o n t B e a r in g
C o lla p s i b le Sp a ce r
P in io n R ear B e a r in g
D rive P in io n
10.
11.
12.
13.
14.
15.
16.
17.
18.
S t r a d d le Be arin g
R in g Gear
D iff e re n tia l S p i d e r
D iff e re n tia l C ase
D iff e re n tia l P i n io n
D iff e re n tia l S id e G e a r
S id e B e a r in g
S id e B e a r i n g A d j u s t i n g N u t
A d j u s t i n g N u t R eta in e r
4B-5
19. R e ta in e r S c r e w
20. B e a r i n g C a p
21. C a s e - t o - R i n g G e a r B o lt
22. D iff e re n tia l C o v e r
23. B e a r in g C a p B o lt
24. C o v e r S c r e w
25. A x l e S h a f t
Fig. 4B-5~Chevrole t 1 0 -1 /2 " Ring G ear Axle C ro ss-Se ction
LIGHT TRUCK SERVICE MANUAL
4B-6
REAR AXLE
P inion N ut
Washer
Com panion Flange
O il Seal
O il Slinger
P inion F ro n t Bearing
F ro n t Bearing Cup
Preload Shim Pack
P inion D epth Shim Pack
Rear Bearing Cup
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
Pinion Rear Bearing
Drive Pinion
Ring Gear
D iffe re n tia l Case
Ring Gear B o lt
D iffe re n tia l Side Bearing
Side Bearing Cup
Side Bearing A dju stin g Shims
Bearing Cap
Bearing Cap B o lt
Fig. 4B-6--Dana 10-1 / 2 " Ring Gear Axle Exploded View
LIGHT TRUCK SERVICE MANUAL
21.
22 .
23.
24.
25
26.
27.
28.
29.
D iffe re n tia l Spider
D iffe re n tia l Side Gear
Washer
P inion Gear
Washer
Gasket
Cover
Cover Screw
Drain Plug
REAR AXLE
1. Nut
2. Washer
3. Companion Flange
4. Pinion Oil Seal
5. Gasket
6. Outer Pinion Oil Slinger
7 and 8. Cone and Roller
(Outer Pinion Bearing)
9. Shims (Outer Pinion
Bearing)
10. Inner Pinion Oil Slinger
11.
Shims (Inner Pinion
Bearing)
12. Cup (Inner Pinion
Bearing)
13. Cone and Roller
(Inner Pinion)
14. Ring and Pinion
15. Gasket (Housing
Cover)
16. Screw and Washer
(Cover)
17.
18.
19.
20.
21.
22.
23.
Cover and Plug
Lock Pin (Pinion
Shaft)
Differential Case
Shims (Differential
Adjusting)
Cone and Roller
(Differential Bearing)
Cup (Differential
Bearing)
Cap (Differential
Bearing)
24.
25.
26.
27.
28.
29.
30.
4B-7
Bolt (Differential
Bearing Cap)
Bolt (Ring Gear)
Pinion Shaft
Thrust Washer
(Pinion)
Pinion
Side Gear
Thrust Washer (Side
Gear)
Fig. 4B-7--Dana 9 -3 /4 " Ring Gear Axle Exploded View
LIGHT TRUCK SERVICE MANUAL
4B-8
REAR AXLE
1.
U n iversal J o in t Yoke
2.
Pinion B e aring Oil
Seal and R e tainer
3.
4.
5.
6.
7.
O il Seal
O il S e al G asket
Front Pinion Bearing
D rive Pinion
R ear Pinion Bearing
Ring G ear T hrust Pad
14.
A xle S h aft
9.
10.
11.
Ring G ear
D iffe re n tia l S p ider
D iffe re n tia l Pinion
15.
16.
12.
13.
(S pider) G ear
D iffe re n tia l S ide G ear
D iffe re n tia l C a s e -L e ft
17.
18
D iffe re n tia l B earing
D iffe re n tia l Bearing
A d ju s tin g Nut
A d ju s tin g N u t Lock
D iffe re n tia l
C a s e -R ig h t H alf
8.
H alf
Fig. 4B-8--Chevrolet 1 2 -1 /4 " Ring Gear A xle-11,000# Capacity
DIFFERENTIAL DIAGNOSIS
STANDARD DIFFERENTIAL
Noise
The most essential part of rear axle service, as with any
mechanical repair, is proper diagnosis of the problem, and,
in axle work one of the most difficult areas to diagnosis is
noise. Locating a broken axle shaft, or broken differential
gear, presents little or no problem , but, locating and
isolating axle noise can be an entirely different m atter.
Degree of Noise
Any gear driven unit, and especially an automotive
drive axle where engine torque m ultiplication occurs at a
90° turn in the drive line, produces a certain am ount of
noise. Therefore, an interpretation m ust be m ade for each
LIGHT TRUCK SERVICE MANUAL
vehicle to determ ine w hether the noise is normal or if a
problem actually exists. A norm al am ount of noise must be
expected and cannot be elim inated by conventional repairs
or adjustm ent. See figure 4B-9.
A cceptable noise can be defined as a slight noise heard
only at a certain speed or under unusual or rem ote condi
tions. For example, this noise tends to reach a "p eak " at
speeds from 40 to 60 miles per hour (60 to 100 km /h)
depending on road and load conditions, or on gear ratio and
tire size. This slight noise is in no way indicative of trouble in
the axle assembly.
Drive line noises may baffle even the best diagnostician.
Vehicle noises coming from tires, transm ission, propeller
shaft, universal joints, and front or rear wheel bearings, are
REAR AXLE
SOME A/O/SE / S \
ACCEPTABLE \< »
O ri'
■— Ov
£
(X
BOLT TORQUES
(FT.-LBS.)A
G ear Backlash
Preferred
.005"- .005".008" .008"
.005"- .004"- .005"- .005".008"- .009" .008" .008"
Filler Plugs
Min. and Max.
.003"- .003".010" .010"
.003*'- .004"- .003"- .003".010"- .009" .012" .012"
Differential Pinion
Lock
Pinion Bearing
Preload (In.-Lbs.)
— New
— Used
15-30
15-30
20-25
20-40
25-35
5-10
5-10
5-15
10-20
5-15
Carrier Cover
20
20
20
35
30
Ring G ear
80
60
110
110
120
Differential
Bearing Caps
55
55
65
85
135
AExcept where noted otherwise.
Chevrolet
05
0
c
0
a
i
O rf'
— o-
00
£
oo
IOV 2 "
£
00
Chevrolet
00
0
c
0
O
lO W '
DIFFERENTIAL SPECIFICATIONS
£
CN
25
18
18
10
18
10
2 0"#
2 0"#
—
—
—
—
220
o.
Drive Pinion Nut
—
*
*
*
Differential Carrier
to Axle Housing
—
—
—
—
85
Differential Bearing
Adjusting Lock
—
20
—
20
15
Pinion Bearing Cage
To Carrier
—
—
—
65
165
—
—
—
—
135
35
105
105
105
155
—
—
115
115
15
—
Thrust Pad Lock Nut
105
Brake Backing Plate
205
Axle Shaft To
Hub Bolts
35
*T orque as necessary to obtain correct preload.
Ring Gear Size
Lubricant Capacity
8 V2 "
4.2 Pints
8% "
3.5 Pints
Chevrolet 10'/j"
5.4 Pints
Dana 10 V2 "
7.2 Pints
Dana 9 % "
6.0 Pints
12>/4"
14.0 Pints
Chevrolet 9 V i"
5.5 Pints
Specifications Chart 4B-A
LIGHT TRUCK SERVICE MANUAL
4B-26
REAR AXLE
RING GEAR
SIZE
SOURCE
TYPE/CAPACITY
CIO
C h e v ro le t
S a lis b u r y /3 7 5 0 #
8 -7 /8 "
C10
C h e v ro le t
S a lis b u ry /3 7 5 0 #
8-1/2"
K10
C h e v ro le t
S a lis b u ry / 3 7 5 0 #
8 -1 /2 ”
K10
C h e v ro le t
S a lis b u r y /3 7 5 0 #
8 - 7 /8 ”
K10
C h e v ro le t
S a lis b u r y /4 0 0 0 #
8 - 7 /8 ”
P10
C h e v ro le t
S a lis b u r y /3 5 0 0 #
8 -7 /8 "
G10
C h e v ro le t
S a lis b u r y /3 5 0 0 #
8 -7 /8 "
G10
C h e v ro le t
S a lis b u r y /3 5 0 0 #
8 -1 /2 "
MODEL
C20
(Except
Crew
Cab)
C h e v ro le t
S a lis b u r y /6 0 0 0 #
9 -1 /2 ”
C20
(Crew Cab)
C h e v ro le t
S a lis b u r y /7 5 0 0 #
1 0 - 1 /2 "
K20
C h e v ro le t
S a lis b u r y /6 0 0 0 #
9 -1 /2 "
P20
C h e v ro le t
S a lis b u r y /6 0 0 0 #
9 -1 /2 ”
G20
C h e v ro le t
S a lis b u r y /3 5 0 0 #
8 -7 /8 "
G20
C h e v ro le t
S a lis b u ry /3 5 0 0 #
8 -1 /2 "
C h e v ro le t
S a lis b u r y /7 5 0 0 #
1 0 - 1 /2 "
Dana
S a lis b u r y /7 5 0 0 #
1 0 - 1 /2 "
C h e v ro le t
S a lis b u r y /7 9 0 0 #
1 0 - 1 /2 "
C h e v ro le t
B a n jo /1 1 , 0 0 0 #
1 2 - 1 /4 "
C h e v ro le t
S a lis b u r y / 5 7 0 0 #
1 0 - 1 /2 "
Dana
S a lis b u r y /6 2 0 0 #
9 -3 /4 "
D ana
S a lis b u r y /7 5 0 0 #
10 1 /2 "
C30
K30
(Except
Dual
Wheel
Camper)
C30
*Dual
K 3o
yyheel
.
Camper)
P30
P30
(With
H22/H23)
G30
030
__n
030
(Dual
Wheel)
(Dual
Wheel)
REAR WHEEL BEARING ADJUSTMENT SPECIFICATION
RING GEAR
SIZE
10-1/2”
9-3/4”
BEARING ADJUSTING
NUT TORQUE*
50 FT. LBS.
50 FT. LBS.
12-1/4”
90 FT. LBS.
ADJUSTING NUT
BACK-OFF*
OUTER LOCKNUT
TORQUE
RESULTING
BEARING ADJUSTMENT
TYPE OF
BEARING
**
65 FT. LBS.
.001 TO .010
END PLAY
TAPERED
ROLLER
SLIGHT
PRELOADED
BARREL
ROLLER
1/8
*
250 FT. LBS.
**B a ck-o ff n ut and retighten to 35 Ft. Lbs. then, back-off nut 1/4 turn.
*W ith wheel rotating.
Specifications Chart 4B-A2
LIGHT TRU CK SERVICE MANUAL
REAR AXLE
4B-27
SPECIAL TOOLS
*§>
A
10
’-"■v >•p
■.Avfi:',
11
13
H*
16
w
m
17
° I
19
20
21
22
1OV2 " R.G. A X L E O N L Y
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
J-2 15 4 8
J-2 36 9 0
J-2 36 8 9
J-21128
J-21057
J-22804-1
J-5 74 8
J-6 62 7
J-8 09 2
J -5 8 5 3
J-8 61 4 -II
12. J-2 61 9
13. J-2 22 2
14. J-2 44 2 9
15. J-2 44 3 3
T ru n n io n Seal In sta lle r
A x le S h a ft Bearing In sta lle r
A x le S h a ft Bearing R em over
A x le S h a ft Seal In sta lle r
P in io n O il Seal In sta lle r
P inio n Seal Gauge Plate
P o s itra c tio n T o rq u e Measuring A d a p te r
Wheel B o lt R em over
D rive r H andle
T o rq u e W rench - In ch /P o u n d
C om p a n io n Flange H o ld e r
S lid e H am m er
Wheel Bearing N u t W rench
A d ju s tin g N u t W rench
P inio n Rear Bearing In sta lle r
16.
17.
18.
19.
20.
J-2 44 3 0
J-2 3 3 2 2
J-2 44 2 6
J-2 4 4 3 2
J-24427
21. J-8 60 8
22. J-2 43 8 4
23. J-2 44 2 8
24. J-2 4 4 3 4
D iffe re n tia l Side Bearing In s ta lle r
P in io n S tra d d le B earing In s ta lle r
O u te r W heel
P in io n Rear
In n e r W heel
O u te r W heel
B earing C up
Bearing C up
Bearing C up
Bearing C up
Tool
In s ta lle r
In s ta lle r
In s ta lle r
P in io n O il Seal In s ta lle r - Dana
Wheel H u b O il Seal In sta lle r
P in io n O il Seal In s ta lle r - C h e v ro le t
W heel B earing N u t W rench
25. J-870
26. J-2 23 8 0
27. J -2 2 3 5 4
T ru -A rc Pliers
W heel O il Seal In s ta lle r
28. J-22281
29. J-8 11 4
30. J-8 09 3
P in io n O il Seal In sta lle r
Wheel Bearing O u te r C up In s ta lle r
Wheel Bearing In n e r C up In s ta lle r
Fig. 4B-42--Special Tools
LIGHT TRUCK SERVICE MANUAL
1*
:« v
:
m
«KI
#
;
##■
----------- .
fiOieM 3
'"f.girji"
.•■ I*.,. H'9& - f 1?
■
j -as? jV-iit .,•■
. w v^-S
.'
j*;
0 f .r
*!*■' i-,
■ •' •h''.-:’ ii I f
. .'V- ■
, j.i:S .
'■..•••
'.0
pic I*
. .-I no;h m u.:>o ■
ii.cC
r ‘
.*m • f!fe'ft,'.nVV i
ii ■.•
I bP| 'l^ifjr'
-• Vr.
"V.-
'•ij>N f. ifi’-' '
4 :,
FRONT WHEEL DRIVE
4C-1
SECTION 4C
FRONT WHEEL DRIVE
The following notice applies to one or more steps in the assembly
procedure of com ponents in this portion of the m anual as indicated at
appropriate locations by the terminology "See N otice on page 1 of this
S ection".
N O TICE: This fastener is an im portant attaching part in th at it could
affect the perform ance of vital components and systems, a n d /o r could result
in m ajor repair expense, it m ust be replaced with one of the same part
num ber or with an equivalent part if replacem ent becomes necessary. Do not
use a replacem ent part of lesser quality or substitute design. Torque values
m ust be used as specified during reassem bly to assure proper retention of this
part.
CONTENTS
G eneral D escription...................................................... .................................... 4C-1
Front Axle A ssem bly................................. ...................................................... 4C-1
R em o v al....................................................................... ..................................... 4C-1
In stallatio n ........................................ ............................. .................................. 4C-1
D iagnosis.............................................................................................................. 4C-2
R epair Axle Joint C om ponents...................................................................... 4C-3
Specifications.......................................................... ........................................... 4C-4
GENERAL DESCRIPTION
The front axle is a hypoid gear axle unit equipped with
steering knuckles. Axle assembly num ber and production
date are stam ped on left tube of assembly.
K 10-20 M odels use a C hevrolet front axle, both
incorporate a 8-1/2" ring gear. A 4500 lb. capacity unit is
used on the K-30 Model. The K-30 axle assembly is a Dana
(60 Series) which incorporates a 9 -3 /4 " ring gear.
1. Install seal and thru st w asher on axle shaft.
2. Install axle shaft into axle housing.
3. Install spindle.
4. Install splash shield. Torque nuts to specifications.
5. Install rotor and adjust wheel bearings.
6. Install gears and snap rings.
7. Install hub lock mechanism.
Axle Shaft
Removal
1. Syp h on m aster cylinder.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Raise vehicle.
Remove wheel and tire.
Remove caliper.
Remove hub lock mechanism.
Remove gears and snap rings.
Remove rotor.
Remove inner bearing and seal.
Remove spindle and backing plate.
Remove axle shaft.
8. Install caliper.
9. Install tire and wheel.
10. Lower vehicle.
11. Add fluid and check brake operation.
FRONT AXLE ASSEMBLY (Refer to Fig. 4C-2)
Removal
1. Raise front of vehicle on hoist until weight is removed
from front springs. Support truck with jack stands
behind front springs.
2. Disconnect propeller shaft from front axle differential.
3. Disconnect connecting rod from steering arm .
4. Remove and support caliper.
Installation
5. Disconnect shock absorbers from axle brackets.
Prior to installation, the following items should be
checked.
a. Lube spindle bearing.
b. Clean, inspect and repack inner and outer wheel
bearing.
6. D isconnect axle vent tube clip a t the differential
housing (see fig. 4C-3).
c. Clean hub and spindle and lube spindle.
7. Dismount " U " bolts from axle to separate axle from
truck springs.
8. Raise truck to clear axle assembly and roll front axle
out from under the truck.
LIGHT TRUCK SERVICE MANUAL
4C-2
FRONT WHEEL DRIVE
BEARINGS AND RACES
FRONT WHEEL, PINION, DIFFERENTIAL SIDE AND REAR WHEEL ROLLER BEARINGS
DIAGNOSIS
EXCESS NOISE C O M PLA IN T
DIAG NO STIC PROCEDURE
Road Test
1.
2.
3.
4.
5.
Tire Noises
1.
2.
3.
4.
5.
Engine or
Exhaust
Noises
Test for
Wheel Bearing
Noise
Test for
Differential
Bearing Noise
Test for
Pinion Bearing
Noise
1.
2.
3.
4.
1.
2.
3.
4.
1.
2.
3.
4.
1.
2.
3.
4.
5.
6.
7.
Check tires for irregular wear
Check tire pressure
Check lubricant level
D rive to w a rm -u p f r o n t axle
Test at various speeds in drive, float, coast and cornering
Change tire pressure to minimize noises
Drive over different road surfaces
Sm ooth black-top minimizes tire noise
Cross switch tires, if necessary
Snow tire treads and studs caused added noises
Drive slightly above speed where noise occurs, place transmission in neutral
Let engine speed drop to idle
Stop car
Run engine at various speeds
Drive car at low speed on a sm ooth road
Turn car to develop left and right m otions, traffic perm itting
Noise should change due to cornering loads
Jack-up wheels to verify roughness at wheels
Drive car at low speed on a sm ooth road
C onstant low pitch bearing noise may be heard
Noise should not change in reversing turns
Noise pattern should vary with wheel speed
Roughness or whine noise should increase with speed
Noise pitch should be higher than differentials
Test on sm ooth road to minimize tire noises
Test at various speeds in drive, float, and coast
Rear pinion bearing noise may be louder on acceleration
F ront pinion bearing noise may be louder on deceleration
Gear noises tend to peak in a narrow speed range
Fig. 4C-1 --Bearing Diagnosis
Installation
NOTICE: See N O T IC E on page 1 of this section
1.
2.
3.
4.
regarding the fasteners referred to in steps 3, 5 ,6 and 8.
Truck should be on jack stands as in Step 1 of removal
instructions.
Place axle in position under truck.
Install " U " bolts attaching axle to front springs.
A ttach shock absorbers to axle brackets.
LIGHT TRU CK SERVICE MANUAL
5.
6.
7.
8.
9.
Install caliper (see Section 5).
A ttach connecting rod to steering arm .
Remove jack stands and lower front of truck.
Assemble propeller shaft to front axle differential.
Lower vehicle to floor.
FRONT WHEEL DRIVE
4C-3
Fig. 4C-2~Front Drive Axle Typical
Disassembly
R efer to S ection 3C for hub, spindle and knuckle
removal and installation procedures.
1. Securely m ount the axle assembly in a suitable holding
fixture.
2. Remove autom atic hub lock. (See Section 3C).
3. Remove the wheel bearing outer lock nut, lock ring,
and wheel bearing inner adjusting nut as outlined in
Section 3C.
4. Remove the disc assembly outer wheel bearing and the
spring retainer plate.
If the disc or other brake com ponents require repairs or
replacem ent, refer to Section 5.
Repair The Axle Joint Components:
1. Remove the lock rings after removing pressure from the
trunnion bearings by squeezing the ends of the bearing
in a vise.
2. Support the shaft yoke in a bench vise or on a short
length of pipe.
3. Using a brass drift and a soft ham m er, drive on end of
one trunnion bearing ju st far enough to drive opposite
bearing from yoke.
4. Support the other side of the yoke in the vise and drive
the other bearing out by tapping on the end of the
trunnion using a brass drift.
5. Remove trunnion.
6. Clean and inspect bearings. Lubricate with a high
melting point type wheel bearing grease.
7. Replace trunnion and press new or relubricated bear
ings into yoke and over trunnion hubs far enough to
install lock rings.
8. Hold trunnion in one hand and tap yoke lightly to seat
bearings against lock rings.
Assembly
Reverse disassembly procedure.
LIGHT TRU CK SERVICE MANUAL
4C-4
FRONT WHEEL DRIVE
SPECIFICATIONS
CHEVROLET
Axle
G ear and Backlash Preferred
Min. and Max.
New Pinion Bearing Preload
Used Pinion Bearing Preload
Bolt Torques
(Ft.-Lbs.)
Axle
.005-.008
.003-.010
15-30 in.-lbs.
5-10 in.-lbs.
C arrier Cover
Ring G ear
Differential Bearing Caps
Filler Plugs
Bolt Torques
(Ft.-Lbs.)
20
80
55
25
DANA
Axle
Gear Backlash Preferred
Min. and Max.
New Pinion Bearing Preload
Used Pinion Bearing Preload
Bolt Torques
(Ft.-Lbs.)
.004"-. 009"
.004"-.009"
20-40 in.-lbs.
10-20 in.-lbs.
Axle
Carrier Cover
Ring Gear* — K-30
Differential Bearing Caps
Filler Plugs
Drive Pinion Nut** — K-30
Specification Chart 4C-1
LIGHT TRUCK SERVICE MANUAL
Bolt Torques
(Ft.-Lbs.)
35
110
85
10
270
BRAKES
5-1
SECTION 5
BRAKES
T he following notice applies to one or more steps in the assembly
procedure of com ponents in this portion of the m anual as indicated at
appropriate locations by the term inology "See N otice on page 1 of this
section ".
N O TICE: This fastener is an im portant attaching p art in th a t it could
affect the perform ance of vital components and systems, an d /o r could result
in m ajor repair expense. It m ust be replaced with one of the same part
num ber or with an equivalent p art if replacem ent becomes necessary. Do not
use a replacem ent p art of lesser quality or substitute design. Torque values
m ust be used as specified during reassem bly to assure proper retention of this
part.
C A U TIO N : W hen servicing wheel brake parts, do not create dust by
grinding or sanding brake linings or by cleaning wheel brake parts with a dry
brush or with compressed air. (A w ater dam pened cloth should be used.)
M any wheel brake parts contain asbestos fibers which can become airborne if
dust is created during servicing. Breathing dust containing asbestos fibers
m ay cause serious bodily h a rm ."
CONTENTS
G eneral D escrip tio n ............................................................
Diagnosis................................................................................
On-V ehicle Service..............................................................
Pedal T ravel......................................................................
Stop L ight S w itc h ...........................................................
Bleeding and Flushing B ra k e s.....................................
Hydro-Boost Bleeding P ro c e d u re ...............................
Brake P ip es.......................................................................
Brake H oses.......................................................... ...........
Parking Brake Pedal or H a n d le ..................................
Parking Brake (Propshaft) Internal E xpanding......
Parking Brake C a b le ......................................................
C om bination V a lu e ........................................................
Brake P e d a l......................................................................
Brake Pedal R o d .............................................................
M aster C y lin d er..............................................................
5-1
5-2
5-10
5-10
5-10
5-10
5-12
5-17
5-17
5-21
5-21
5-22
5-22
5-22
5-23
5-24
Delco Disc Brake Shoe and Lining..............................5-29
Bendix Disc Brake Shoe and Lining.......................... .5-34
C aliper O v erh au l..............................................................5-36
Rotor Servicing................................................................ .5-39
Brake D rum Shoe and L ining...................................... .5-39
Standard D rum B rake............................................... .5-39
Propeller Shaft B rake................................................ .5-42
Brake D ru m s .....................................................................5-43
W heel C y lin d e r............................................................... .5-43
Power Brake U n it.............................................................5-46
Vacuum B ooster......................................................... .5-46
Hydro-Boost U n it....................................................... .5-46
Specifications........................................................................ .5-53
Brake System D escription............................................ .5-53
Torque Specifications......................................................5-54
Special Tools........................................................................ ..5-55
GENERAL DESCRIPTION
OPERATION OF MASTER CYLINDER
W hen the brake pedal is depressed, force is transferred
through the push rod to the m aster cylinder prim ary piston,
which moves forw ard. U nder norm al conditions, the com
bination of hydraulic pressure and the force of the prim ary
piston spring move the secondary piston forw ard a t the same
time. W hen th e pistons have moved forw ard so th at their
prim ary cups cover the bypass holes, hydraulic pressure is
b u ilt up and tra n sm itte d to the fro n t and re a r brake
assemblies. H ydraulic pressure behind the wheel cylinder
cups forces the pistons outw ard, causing the brakes to be
applied.
As brake pedal force is reduced, brake fluid pressure in
the m aster cylinder is also reduced. This allows the drum
brake re tra c to r springs to re tra c t the shoe and lining
assemblies from contact with the drum which forces brake
fluid out of the wheel cylinder assemblies and back into the
m aster cylinder assembly. The reduction in fluid pressure
also allows the caliper pistons to retract slightly by action of
the piston seal.
M aster cylinders designed for use w ith a system
incorporating low drag calipers. In addition to the standard
m aster cylinder functions, a quick take-up fea tu re is
included. This provides a large volume of fluid to the wheel
brakes at low pressure with initial brake application. The
low pressure fluid quickly provides the displacem ent re
quirem ents created by the seal retracting pistons into the
front calipers and spring retraction of the rear drum brake
shoes.
LIGHT TRUCK SERVICE MANUAL
5-2
BRAKES
OPERATION OF DISC BRAKE
Upon application of the brakes, fluid pressure behind
the caliper piston increases. Pressure is exerted equally
against the bottom of the piston and also against the bottom
of the piston bore. The pressure applied to the piston is
transm itted to the inner shoe and lining, forcing the lining
against the inner rotor surface. The pressure applied to the
bottom of the piston bore forces the caliper to slide or move
on the mounting bolts tow ard the inner side, or toward the
vehicle. Since the caliper is one piece, this movement toward
the vehicle causes the outer section of the caliper to apply
pressure against the back of the outer shoe and lining
assembly, forcing the lining against the outer rotor surface.
As line pressure builds up, the shoe and lining assemblies are
pressed against the rotor surfaces with increased force,
bringing the vehicle to a stop.
Lining wear is autom atically com pensated for by the
outw ard movement of the caliper and piston. Brake fluid fills
this void as lining wears.
OPERATION OF COMBINATION VALVE
The m etering or hold off section of the com bination
valve limits pressure to the front disc brakes until a pre
determ ined front input pressure is reached, approxim ating
the pressure to overcome the rear shoe and lining retractor
springs. There is no restriction a t inlet pressures below 21
kPa (3 psi) to allow for pressure equalization during non
apply periods.
The proportioning section of the combination valve
proportions outlet pressure to the rear brakes after a pre
determ ined rear input pressure has been reached. This is
done to prevent rear wheel lock-up on vehicles with light
rear wheel loads. C ertain models having high rear wheel
loads do not have the proportioning feature.
The valve is designed to have a "B y-Pass" feature
which assures full system pressure to the rear brakes in the
event of a front brake system failure. Full front pressure is
retained in the event of rear failure.
The pressure differential w arning switch is designed to
constantly com pare front and rear brake pressure from the
m aster cylinder and energize the warning light on the dash
in the event of a front or rear system failure. The valve and
switch are so designed th at the switch will latch in the
"w arning" position once a failure has occurred. The only
way the light can be turned off is to repair the failure and
apply a pedal force as required to develop up to 3100 kPa
(450 psi) line pressure.
DIAGNOSIS
INSPECTION AND TESTING BRAKES
Testing Brakes
4. Front End Alignment—M isalignm ent of the front end,
particularly in regard to limits on cam ber and theoreti
cal king pin inclination, will cause the brakes to pull to
one side.
New linings m ust be protected from severe use for
several hundred miles.
Brakes should be tested on dry, clean, reasonably
smooth and level roadway. A tru e test of brake perform ance
cannot be m ade if roadw ay is wet, greasy or covered with
loose dirt so th a t all tires do not grip the road equally.
Testing will also be adversely affected if roadway is crowned
so as to throw weight of vehicle tow ard wheels on one side or
if roadway is so rough th a t wheels tend to bounce.
Test brakes at different vehicle speeds with both light
and heavy pedal pressure; however, avoid locking the wheels
and sliding the tires on roadway. Locked wheels and sliding
tires do not indicate brake efficiency since heavily braked
but turning wheels will stop vehicle in less distance than
locked wheels. M ore tire-to-road friction is present with a
heavily braked turning tire th an with a sliding tire.
External Conditions that Affect Brake Performance
1. T ires—Tires having unequal contact and grip on road
will cause unequal b raking. T ires m ust be equally
inflated and tread p attern of right and left tires m ust be
approxim ately equal.
2. Vehicle Loading—W hen vehicle has unequal loading,
the most heavily loaded wheels require more braking
power th an others. A heavily loaded vehicle requires
more braking effort.
3. Front W heel Bearings—A loose front wheel bearing
perm its the drum to tilt and have spotty contact with
the brake shoe linings causing e rratic action.
LIGHT TRU CK SERVICE MANUAL
HYDRO-BOOST
Prior to perform ing the Booster Function Tests, or the
A ccum ulator L eakdow n T est, th e following prelim inary
checks m ust be made:
1.
2.
3.
4.
5.
6.
NOTICE: Power steering fluid and brake fluid cannot be
mixed. If brake seals contact steering fluid or steering
seals contact brake fluid, seal dam age will result.
Check all power steering and brake lines and connec
tions for leaks and/or restrictions.
Check and fill brake m aster cylinder with B R A K E
FL U ID .
Check and fill power steering pum p reservoir with
P O W E R S T E E R IN G FL U ID . Be sure fluid is not
aerated (air mixed with fluid).
Check power steering pum p belt for tension an d /o r
dam age. A djust if necessary.
Check engine idle speed and adjust if necessary.
Check steering pump pressure; R efer to Section 3B.
SEAL LEAK DIAGNOSIS (FIG. 5-1)
1. IN P U T R O D SEAL: A dam aged seal will show up as a
fluid leak from the m ounting bracket vent hole. The
booster m ust be removed from the vehicle and disas
sembled. The input rod bore should be checked for any
scratches th at may cause the leak. If scratches are
present, housing cover m ust be replaced. If no excessive
scratches are present, then the booster seal kit can be
used to replace the appropriate seals.
BRAKES
5-3
HYDRO— BOOST SEAL LEAKAGE
A. INPUT SEAL LEAK — Fluid leakage from housing
cover end of booster near reaction bore. Replace
seal(s).
B. PISTO N SEAL LEAK — Fluid leakage from vent at
front e# unit near master cylinder. Replace seal.
C. H O U S IN G — Fluid leakage between the housing
and housing cover. Replace seal.
D. SPO O L VALVE SEAL —
area. Replace seal.
Fluid leakage near plug
E. A C C U M U LA TO R CAP SEAL — Fluid leakage from
accumulator area. Replace seal.
F. RETURN PORT FITTING SEAL —
Replace seal.
Fig. 5-1--Seal Leakage Diagnosis
2. P O W E R P IS T O N SEA L: Power piston seal dam age
will be noticed by fluid leaking out at the common
m aster cylinder-brake booster vent and possible reduc
tion in power assist. The booster m ust be removed from
the vehicle and disassem bled. The piston should be
checked for any scratches th a t m ay be the cause of the
leak. If scratches are present, then the input rod and
power piston assembly m ust be replaced. If no excessive
scratches are present, then the booster seal kit can be
used to replace the appropriate seals.
3. H O U S IN G SEA L: If the housing seal is dam aged,
fluid will leak out from between the two housings. The
booster must be removed from the vehicle and disas
sembled. The booster seal kit should be used to replace
the housing and input rod and power piston seals.
4. SPO O L V A LV E PL U G " O " R IN G SEAL: D am age
to this seal will be noticed by fluid leaking out past the
plug. T he booster need not be rem oved from the
vehicle. The m aster cylinder should be disconnected
from the booster.
Press in on spool plug, in sert a sm all screw driver
between snap ring and housing bore. This unseats one
side of the spool plug snap ring from its groove in the
bore. Then remove the snap ring from the bore.
5. A C C U M U L A T O R " O " R IN G SEA L: Dam age to
this seal will result in fluid leakage past the accum ula
tor cap. The seal can be replaced while the booster is
installed on the vehicle. A catch basin should be placed
under the booster to catch the fluid when the accum ula
tor or spring cap is removed.
CAUTIONhBefore removing the cap, the brake
pedal must be pumped 4-5 times to deplete
accumulator pressure. Refer to "Pneumatic Accu
mulator On-Vehicle Service Procedure".
6. E X T E R N A L L E A K A G E A T T H E R E T U R N PO R T
F IT T IN G : Tighten fitting to 7 lb. ft. (10 N -m ). If it
continues to leak, replace "O " ring under fitting.
7. E X T E R N A L L E A K A G E A T T H E H IG H P R E S
S U R E G E A R O R PU M P: T orque tube nut to 30 lb. ft.
(40 N-m ). If it continues to leak, check for dam aged
tube flares; if OK, replace tube seats.
TROUBLE SHOOTING AND TESTING (Fig. 5-2)
The Hydro-Boost differs from vacuum brake boosters
not only in the source of power (hydraulic versus vacuum )
but in the fact th at it is also a part of another m ajor sub
system of the v e h icle-th e power steering system. Therefore,
problems or m alfunctions in the steering system may affect
the operation of the booster, ju st as a problem in the booster
may affect the steering system. The following noises are
associated with the H ydro-boost system and m ay or m ay not
be cause for custom er com plaint. Some are norm al and for
the most part tem porary in nature. O thers may be a sign of
excessive wear or the presence of air in either the booster or
the steering system.
1. M oan or low frequency hum usually accom panied by a
vibration in the pedal an d /o r steering column m ay be
observed during parking m aneuvers or other very low
speed m aneuvers. This may be caused by a low fluid
level in the power steering pump or by air in the power
steering fluid due to holding the pum p at relief pressure
(steering wheel held all the way in one direction) for an
excessive am ount of tim e (more than 5 seconds). Check
the fluid level and fill to mark. System m ust sit for 1
hour to remove the air. If the condition persists, this
may be a sign of excessive pump wear and the pump
should be checked; R efer to Section 3B.
2. A t or near power runout, (b rake pedal near fully
depressed position) a high speed fluid noise (faucet
type) may be heard. This is a norm al condition and will
not be heard except in em ergency braking conditions,
or with vehicle stopped and pedal pushed near fully
depressed position.
3. W henever the accum ulator pressure is used, a slight
hiss may be noticed. It is the sound of the hydraulic
fluid escaping through the accum ulator valve, and is
completely normal.
LIGHT TRU CK SERVICE MANUAL
5-4
BRAKES
4. A fter the accu m u lato r has been em ptied, and the
engine is started again, another hissing sound m ay be
heard during the first brake application or the first
steering m aneuver. This is caused by the fluid rushing
through the accum ulator charging orifice. It is normal
and will only be heard once after the accum ulator is
emptied. However, if this sound continues, even though
no apparent accum ulator pressure assist was m ade, it
could be an indication th a t the accum ulator is not
holding pressure and should be checked using the
procedure for " A C C U M U L A T O R L E A K D O W N
T E S T ".
5. A fter bleeding, a "gu lp in g " sound m ay be present
during brak e ap p licatio n s as noted in the bleeding
instructions.
CHECKING THE RESERVE SYSTEM
1. S tart engine and charge accum ulator by applying the
brake pedal or by turning the steering wheel from stop
to stop. Turn off engine and let vehicle sit for one hour.
A fter one hour there should be at least two power
assisted applications with the engine off.
2. If the reserve system will not retain a charge for one
hour, but functions norm ally im m ediately following
charging, the accum ulator valves are at fault and the
LIGHT TRU CK SERVICE MANUAL
booster m ust be disassembled and the accum ulator
valves replaced.
3. If the accum ulator can be heard charging and dis
charging, but it does not hold a charge, disassem ble the
booster and replace the accum ulator valves.
4. Deplete the accum ulator by pressing the brake pedal 4
or 5 times. If the accum ulator can has lost its gas
charge, it is possible to rotate or wobble the accum ula
tor can w ith respect to the housing. R eplace the
accum ulator assembly.
BOOSTER FUNCTIONAL TEST
W ith the engine off", apply the brake pedal several times
until the accum ulator is completely depleted. Depress the
brake pedal (approxim ately 40 p o u n d s/180 N pedal force)
and sta rt the engine. The pedal should fall and then push
back against driver’s foot.
ACCUMULATOR LEAKDOWN TEST
S ta rt engine and charge accum ulator by either apply
ing the brake pedal (approxim ately 100 pounds/450 N
force) or by turning the steering wheel from stop to stop.
Turn off engine and let vehicle sit for one hour. A fter one
hour there should be two power assisted applies w ith engine
stopped.
BRAKES
5-5
HYDRO — BOOST DIAGNOSIS
CONDITION
Excessive Brake Pedal
Effort
CAUSE
CORRECTION
Loose or broken power steering pump belt.
Tighten or replace the belt.
No fluid in power steering reservoir.
Fill reservoir and check for external leaks.
Leaks in Hydro-Boost
Replace faulty parts.
Leaks at Hydro-Boost tube fittings.
Tighten fittings or replace tube seats, if
faulty.
External leakage at accumulator
Replace “0 ” ring and retainer.
Faulty booster piston seal causing leakage at
booster flange vent.
Overhaul with new seal or input rod and
piston assembly.
Faulty booster input rod seal with leakage at
input rod end.
Overhaul with new seal kit.
Faulty booster cover seal with leakage
between housing and cover.
Overhaul with new seal kit.
Faulty booster spool plug seal.
Overhaul with spool plug seal kit.
Excessive seal friction in booster.
Overhaul with new seal kit.
Faulty spool action.
Flush steering system while pumping brake
pedal.
Restriction in return line from booster to
pump reservoir.
Replace line.
Damaged input rod end.
Replace input rod and piston assembly.
Crabby Brakes
Faulty spool action caused by contamina
tion in system.
Flush steering system while pumping brake
pedal.
Booster Chatters Pedal Vibrates
Power steering pump belt slips.
Tighten belt.
Low fluid level in power steering pump
reservoir.
Fill reservoir and check for external leaks.
Faulty spool operation caused by contamin
ation in system.
Flush steering system while pumping brake
pedal.
Contamination in steering hydro-boost
system
Flush steering system while pumping brake
pedal
Internal leakage in accumulator system
Overhaul unit using accumulator rebuild kit
and seal kit.
Slow Brake Pedal
Return
Accumulator Leak
Down-System does
not hold charge
Fig. 5-2-Hydro-Boost Diagnosis
LIGHT TRUCK SERVICE MANUAL
5-6
BRAKES
CONDITION
POSSIBLE CAUSE
CORRECTION
1. Incorrect tire pressures.
1. Inflate evenly on both sides to
the recommended pressures.
2. Front end out of line.
2. Check and align to manufacturer's
specifications.
3. Unmatched tires on same
axle.
For radial tire lead
refer to Section 3E.
3. Tires with approximately the
same amount of tread should
be used on the same axle.
4. Restricted brake pipes
or hoses.
4. Check foe soIf hoses and
damaged lines. Replace with
new hoses and new double
walled steel brake tubing.
5. Malfunctioning caliper
assembly.
5. Check for stuck or sluggish
pistons, proper lubrication.
Remove and rebuild caliper.
6. Defective or damaged
shoe and lining (grease
or brake fluid on
lining or bent shoe).
6. Install new shoe and lining
in complete axle sets.
7. Malfunctioning rear
brakes.
7. Check for inoperative auto
adjusting mechanism, defective
lining (grease or brake
fluid on lining) or
defective wheel cylinders.
Repair as necessary.
8. Loose suspension parts.
8. Check and torque all
suspension mountings to
specifications.
9. Loose calipers.
9. Check and torque bolts to
specifications.
Noise (high pitched squeak
without brake applied).
1. Front linings worn out.
1. Replace linings.
Brake roughness or chatter
(Pedal Pulsates)
1. Excessive lateral runout.
1. Check per instructions and
replace or machine rotor,
if not within specifications.
2. Parallelism not within
specifications.
2. Check per instructions and
replace or machine the rotor,
if not within specifications.
3. Wheel Bearings not
adjusted.
3. Adjust wheel bearings to
correct specifications.
4. Rear drums out of round.
4. Check runout and, if not
within specifications, turn
the drums (not over
maximum of 0.060 on the
diameter).
Pulls
LIGHT TRUCK SERVICE MANUAL
BRAKES 5-7
CONDITION
POSSIBLE CAUSE
CORRECTION
Brake roughness or chatter
(Pedal Pulsates) — Continued
5. Shoe reversed (steel
against iron).
5. Replace shoe and lining and
machine rotor within
specifications.
Excessive Pedal Effort
1. Malfunctioning power
brake.
1. Check power brake and repair
if necessary.
2. Partial system failure.
2. Check front and rear brake
system and repair, if
necessary. Also, check
and repair brake warning
light circuit if a failed
system is found and light
did not function.
3. Excessively worn shoe
and lining.
3. Check and replace in axle
sets.
4. Piston in caliper stuck
or sluggish.
4. Remove caliper and rebuild.
5. Fading brakes due to
incorrect lining.
5. Remove and replace with
original equipment lining
(or equivalent).
1. Partial brake system
failure.
1. Check both front and rear
system for a failure and
repair. Also check and
repair warning light circuit.
It should have indicated
a failure.
2. Insufficient fluid in
master cylinder.
2. Fill reservoirs with
approved brake fluid. Check
for leaks. Check warning
light.
3. Air trapped in system.
3. Bleed system.
4. Rear brake not adjusting.
4. Adjust rear brakes and
repair auto adjusters.
5. Bent shoe and lining.
5. Replace axle set of shoe
and lining.
1. Master cylinder pistons
not returning
correctly.
1. With reservoir cover off,
check for fluid spurt
at bypass holes as pedal
is depressed. Adjust push
rod, if necessary, or
rebuild master cylinder.
2. Restricted brake pipes
or hoses.
2. Check for soft hoses or
damaged pipes and replace
with new hoses and new
double-walled steel
brake tubing.
Excessive Pedal Travel
Dragging Brakes
(A very light drag is
present in all disc
brakes immediately after
pedal is released.)
LIGHT TRUCK SERVICE MANUAL
5-8
BRAKES
CONDITION
POSSIBLE CAUSE
CORRECTION
Dragging Brakes
(A very light drag i t
present In all disc
brakes immediately after
pedal is released.) — Continued
3. Incorrect parking brake
adjustment on rear brakes.
3. Check and readjust to
correct specifications.
4. Incorrect installation of inboard
shoe and lining.
4. Refer to caliper installation in
this section.
Grabbing or Uneven
Braking Action
1. All conditions listed
under "PULLS".
1. All corrections listed
under "PULLS".
2. Malfunction of combination
valve.
2. Replace and bleed system.
3. Malfunction of power
brake unit.
3. Check operation and
repair, if necessary.
4. Binding brake pedal
mechanism.
4. Check and lubricate, if
necessary. Possibly replace
pedal bushing and/or
spacer.
1. Uneven pad wear caused
by caliper not sliding
due to improper clear
ance or dirt.
1. Remove caliper and correct
as necessary.
2. Uneven rotor wear
causing a thickness
variation between the
two braking surfaces.
2. Machine rotors as follows:
a. Machine rotors to obtain a
circumferential thickness variation no
greater than .0005" in 360° and a
lateral runout no greater than .004"
(max. rate of change not exceed .001"
in 30°).
b. Check caliper freeness. With rotor
removed, install caliper and mounting
bolts (pins). Check for .005"-.012"
clearance at both top and bottom of
caliper. If less than .005" is found, file
with a flat file until at least .005" is
obtained. DO NOT EXCEED A
MAXIMUM of .012" per end or .024"
total clearance. Caliper clearance to
inboard and outboard reaction pads
must be equal within .004" both at the
top and bottom of the caliper. This is to
ensure correct alignment of caliper to
knuckle during a brake application.
c. Remove caliper after freeness check.
Clean pins and sleeves, replace "O"
rings, and apply a light coating of
silicone grease or equivalent to all
contact points and "O" rings.
Pulsation (roughness)
Felt during normal
brake application.
LIGHT TRU CK SERVICE MANUAL
BRAKES
\
<5- \
<0. \
<£. \
Leaking Brake Line or Connection
X
XX
Leaking Wheel Cylinder or Piston Seal
X
XX
Leaking Master Cylinder
X
XX
A ir In Brake System
<£. \
A
\
<£\
sc \
< ^ \
A
\
A
\
„< £ \
XX
X
X
X
X
X
XX
X
XX
X
Contaminated or Improper Brake Fluid
XX
Leaking Vacuum System
X
X
X
X
Restricted Air Passage
in Power Head
X
XX
X
Damaged Power Head
X
X
X
X
X
Improperly Assembled
Power Head Valvinq
X
X
X
X
XX
Worn Out Brake Lining - Replace
X
X
X
X
X
X
X
X
X
X
X
X
X
XX
X
X
X
Uneven Brake Lining Wear Replace and Correct
X
X
X
X
X
X
X
XX
XX
XX
X
X
XX
X
X
X
X
XX
XX
X
X
XX
Glazed Brake Lining
X
Incorrect Lining Material - Replace
Contaminated Brake Lining - Replace
Linings Damaged by
Abusive Use - Replace
Excessive Brake Lining Dust
Heat Spotted or Scored
Brake Drums or Rotors
Out-of-Round or Vibrating
Brake Drums
X
X
X
X
X
X
X
X
XX
X
XX
X
X
X
XX
X
XX
X
X
X
Incorrect Wheel Cylinder Sizes
Faulty Metering Valve
X
X
X
X
X
X
X
X
Brake Pedal Linkage
Interference or Bindinq
X
X
X
X
X
X
XX
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
XX
XX
X
♦ X
XX
XX
X
X
X
XX
X
XX
Incorrect Tire Pressure
X
X
X
Loose Front Suspension Attachments
X
Out-of-Balance Wheel Assemblies
Faulty Proportioning Valve
XX
XX
Incorrect Front End Alignment
Improperly Adjusted Master
Cylinder Push Rod
Sticking Wheel Cylinder or
...Caiicai P isto n s...................................
X
X
Drums Tapered or Threaded
Operator Riding Brake Pedal
X
X
Improperly Adjusted Parking Brake
Incorrect Wheel Bearing Adjustment
X
X
Excessive Rotor Run-Out
Weak or Incorrect Brake
Shoe Retention Sorinas
Brake Assembly Attachments Missinq or Loose
Insu fficie nt Brake Shoe
Guide Lubricant
Restricted Brake Fluid Passage or
Stickinq Wheel Cylinder Piston
X
XX
Out-of-Parallel Brake Rotors
Faulty Automatic Adjusters
5-9
X
X
XX
X
X
XX
X
X
X
X
X
X
X
X - Indicates causes
X
X
XX
X
X
X
X
X
X
X
X
X
5-10
BRAKES
ON-VEHICLE SERVICE
PEDAL TRAVEL
A t reasonably frequent intervals, the brakes should be
inspected for pedal travel, which is the distance the pedal
moves tow ard th e floor from a fully-released position.
Inspection should be m ade with the brake pedal firmly
depressed (approxim ately 90 lbs.) while the brakes are cold.
C-K -G M a n u a l......... 4.5" (115 mm)
C-K -G P o w e r.......... 3.5" (90 mm)
P (Except J F 9 ) ....... 3.5 " (90 m m)
P ( J F 9 ) ...............6.0" (1 5 0 m m )
On power brake-equipped vehicles, pum p the pedal a
minimum of 3 tim es with the engine off before m aking pedal
travel checks. This exhausts all vacuum from the power
booster.
STOP LIGHT SWITCH
Adjustment (Fig. 5-3)
The design of the switch and valve m ounting provides
for autom atic adjustm ent when the brake pedal is m anually
returned to its m echanical stop as follows:
1. W ith brake pedal depressed, insert switch an d /o r valve
assembly into tubular clip until switch body an d/or
valve assembly seats on tube clip. N ote th a t audible
"clicks" can be heard as threaded portion of switch
and valve are pushed through the clip tow ard the brake
pedal.
2. Pull brake pedal fully rearw ard against pedal stop,
until audible "click" sounds can no longer be heard.
Switch a n d /o r valve assem bly will be moved in tubular
clip providing proper adjustm ent.
3. Release brake pedal, and then repeat Step 2 to assure
th at no audible "click" sounds rem ain.
LIGHT TRUCK SFRVICF MANUAL
Electrical contact should be m ade when the brake
pedal is depressed 1.0-1.24" (25-31 mm) (C -K m od
els), .45-.95'1 (11-24 mm) (G -P models) from its fully
released position.
BLEEDING AND FLUSHING BRAKE SYSTEM
Bleeding Brake Hydraulic System
A bleeding operation is necessary to remove air w hen
ever it is introduced into the hydraulic brake system.
It may be necessary to bleed the hydraulic system at all
four wheel cylinders if air has been introduced through low
fluid level or by disconnecting b ra k e pipes at m aster
cylinder. If brake pipe is disconnected at any wheel cylinder,
then th a t wheel cylinder only need be bled. If pipes are
disconnected at any fitting located between m aster cylinder
and wheel cylinders, then all wheel cylinders served by the
disconnected pipe m ust be bled.
Time required to bleed the hydraulic system when the
master cylinder is removed can be reduced if the master
cylinder is filled with fluid and as much as as possible is
expelled before the cylinder is installed on the vehicle.
Manual Bleeding
W ith power brakes, remove the vacuum reserve by
applying the brakes several times with the engine off.
BRAKES
1. Fill the m aster cylinder reservoirs with brake fluid and
keep at least one-half full of fluid during the bleeding
operation.
2. If the m aster cylinder is known or suspected to have air
in the bore, then it m ust be bled before any wheel
cylinder or caliper in the following manner:
a. D isconnect th e forw ard (blind end) brak e pipe
connection at the m aster cylinder.
and other c o n taim in an ts from en tering the h y d rau lic
system.
1. Install the correct pressure bleeding adapter to the
m aster cylinder. Brake System s JB1 throught JB6 gas
engine vehicles req u ire a d a p te r J-26819, extension
J-2 6 8 19-30 and clam p J-2 6 8 19-25. All other systems
use J-23518. R efer to Fig. 5-4, special tool illustration
and brake system description chart.
b. Allow brake fluid to fill the m aster cylinder bore until
it begins to flow from the forw ard pipe connector
port.
c. C onnect the forw ard b rak e pipe to the m aster
cylinder and tighten.
d. Depress the brake pedal slowly one tim e and hold.
Loosen the forward brake pipe connection at the
m aster cylinder to purge air from the bore. Tighten
the connection and then release the brake pedal
slowly. W ait 15 seconds. R ep eat the sequence,
including the 15 second w ait, until all air is removed
from the bore. C are m ust be taken to prevent brake
fluid from contacting any painted surface.
2.
3.
4.
5.
e. A fter all air has been rem oved a t the forw ard
connection, bleed the m aster cylinder at the rear
(cowl) connection in the sam e m anner as the front in
step " d " above.
f. If it is known th at the calipers and wheel cylinders do
not contain any air, then it will not be necessary to
bleed them.
3. Individual wheel cylinder or calipers are bled only after
all air is removed from m aster cylinder.
a. Place a proper size box end wrench or Tool J - 2 1472
over the bleeder valve. A ttach transparent tube over
valve and allow tube to be hand subm erged in brake
fluid in a transparent container. Depress the brake
pedal slowly one tim e and hold. Loosen the bleeder
valve to purge the air from the cylinder. Tighten
bleeder screw and slowly release pedal. W ait 15
seconds. R ep eat th e sequence, including the 15
second w ait u n til all air is rem oved. It m ay be
necessary to repeat the sequence 10 or more times to
remove all the air.
JB1 thru JB6 gas engine vehicles — Rapid pumping of
the brake pedal pushes the master cylinder secondary
piston down the bore in a manner that makes it difficult to
bleed the rear side of the system..
4. If it is necessary to bleed all of the wheel cylinders and
calipers, the following sequence should be followed: 1)
R ight rear wheel cylinder; 2) L eft rear wheel cylinder;
3) R ight front caliper; 4) Left front caliper.
5. Check the brake pedal for "sponginess" and the brake
warning light for indication of unbalanced pressure.
Repeat entire bleeding procedure to correct either of
these two conditions.
Pressure Bleeding
Pressure bleeding equipm ent m ust be of the diaphragm
type. T h a t is, it m ust have a rubber diaphragm between the
air supply and the brake fluid to prevent air, m oisture, oil
5-11
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
NOTICE: It is very im portant th at the correct m aster
cylinder bleeder a d a p te r be used to avoid possible
dam age to the m aster cylinder reservoir (fig. 5-4).
M ake sure the pressure tank is at least 1/3 full of
Suprem e # 11 brake fluid or its equivalent.
The bleeder ball m ust be re-bled each tim e fluid is
added.
C harge the bleeder ball to between 140-170 kPa (20
and 25 psi)
W hen ready to begin bleeding, connect hose to m aster
cylinder bleeder adapter and open the tank valve.
Disc brakes require a m anual override of the front
brake m etering or com bination valve to perm it flow to
the front wheels. Therefore, it will be necessary to hold
the valve stem open m anually pressure bleeding.
To hold the m etering valve open to bleed the front
brakes, the valve stem m ust be either pushed in or
pulled out. Install m etering valve actuator J-23709.
Bleed the brakes in the following sequence: right rear,
left front, left rear and right front.
W ith the proper size wrench over the bleeder valve
attach bleeder tube. The discharge end m ust hang
subm erged in a clean container partially filled with
brake fluid.
Open the bleeder valve a t least 3 /4 turn and allow flow
to continue until no air is seen in the fluid.
Close the bleed valve; Be sure it seals.
R epeat Steps 7-9 for the rem aining bleeder valves (see
Step 6 for sequence).
Check the pedal feel for "sponginess" and repeat the
entire procedure if necessary.
Dispose of all removed brake fluid.
Remove Tool J-23709 from the com bination valve and
tighten the m ounting bolt.
Disconnect bleeder equipm ent from the brake bleeder
adapter.
Remove bleeder adapter. W ipe all areas dry if fluid was
spilled during adapter removal.
Fill m aster cylinder reservoir(s) to proper level and
install m aster cylinder diaphragm and cover.
Flushing Brake Hydraulic System
It is recom m ended th a t the entire hydraulic system be
thoroughly flushed with clean brake fluid whenever new
parts are installed in the hydraulic system.
Flushing is also recommended if there is any doubt as to
the grade of fluid in the system. If fluid has been used which
contains the slightest trace of m ineral oil, all rubber parts
th at have been subjected to the contam inated fluid should be
replaced.
LIGHT TRUCK SFRVICF MANUAL
5-12
BRAKES
HYDRO-BOOST BLEEDING PROCEDURE
11. Check oil level and refill as required.
W henever the booster is removed and reinstalled, the
steering system should be bled as outlined below.
12. If oil is extrem ely foamy, allow vehicle to stand a few
m inutes w ith engine off and repeat above procedure.
a. Check belt tightness and check for a bent pulley.
(Pulley should not wobble w ith engine running.)
b. Check to m ake sure hoses are not touching any other
parts of the vehicle, particularly sheet m etal.
c. Check oil level, filling to proper level if necessary,
following operations 1 through 10. This step and
Step " d " are extrem ely im portant as low oil level
an d /o r air in the oil are the most frequent causes of
objectionable pum p noises.
d. Check the presence of air in the oil. A ir will show up
as milky appearing oil. If air is present, attem p t to
bleed system as described in operations 1 through 10.
If it becomes obvious th a t the pum p will not bleed
after a few trials, proceed as outlined under Power
Steering System Test Procedure in the "S teerin g "
section of this m anual.
1.
2.
3.
4.
NOTICE: Power steering fluid and brake fluid cannot be
mixed. If brake seals contact steering fluid or steering
seals contact brake fluid, seal dam age will result.
Fill oil reservoir to proper level and let oil rem ain
undisturbed for a t least two m inutes.
S tart engine and run m om entarily.
Add oil, if necessary.
R epeat above procedure until oil level rem ains constant
after running engine.
5. Raise front end of vehicle so th a t wheels are off the
ground.
6. Turn the wheels (off ground) right and left, lightly
contacting the wheel stops.
7. Add oil if necessary.
8. Lower the vehicle.
9. S ta rt engine and depress the brake pedal several times
while rotating the steering wheel from stop to stop.
10. T urn engine off and then pum p brake pedal 4-5 times to
deplete accum ulator pressure.
13. T he presence of trapped air in the system will cause the
fluid level in the pum p to rise when the engine is turned
off. C ontinue to bleed system until this condition no
longer occurs.
BRAKES
5-13
Fig. 5-5--Front Brake Pipes and Hoses--C-K Models
LIGHT TRUCK SERVICE MANUAL
5-14
BRAKES
Fig. 5-6--Front Brake Pipes and Hoses--G
Models
Fig. 5-7--Front Brake Pipes and Hoses--P Models
5-16
BRAKES
G MODELS
VIEW
CK MODELS
CK10-20
(EXCEPT C20-43)
VIEW
C20 (43) CK30
VIEW
CK10
P MODELS
Fig. 5-8--Rear Brake Hoses
LIGHT TRU CK SERVICE MANUAL
VIEW
BRAKES
BRAKE PIPES
Replacement (Figs. 5-5 thru 5-7)
NOTICE: N ever use copper tubing because copper is
subject to fatgue cracking and corrosion which could
result in brake failure.
1. Procure the recom m ended tubing and steel fitting nuts
of the correct size. (O utside diam eter of tubing is used
to specify size.)
2. C ut tubing to length. C orrect length may be deter
mined by measuring old pipe using a cord and adding
1/8 " (3 m m) for each double flare.
3. Double flare tubing ends using a suitable flaring tool
such as J-23530. Follow instructions included in tool
set.
M ake sure fittings are installed before starting second
flare.
NOTICE: Double flaring tool m ust be used as single
flaring tools cannot produce a flare strong enough to
hold the necessary pressure.
4. Bend pipe assembly to m atch old pipe using a tubing
bender. C learance of .75" (19 m m ) m ust be m ain
tained to all moving or vibrating parts.
BRAKE HOSES
5-17
Installation
1. Use new copper gaskets on both sides of fitting block,
wet bolt threads with brake fluid, then with fitting
orientation flange engaged with the caliper orientation
ledge on JB8 and JF 9 (hose located in caliper gate on
all except JB8 and JF 9 ), fasten hose to caliper; torque
to specifications.
2. W ith w eight of vehicle on suspension, pass fem ale
fitting through fram e or fram e bracket. Fitting fits the
bracket in only one position. W ith least am ount of twist
in hose, install fitting in this position. There should be
no kinks in hose.
3. Install " U " clip to fem ale fitting at fram e bracket.
4. A ttach brake pipe to hose fitting using a backup wrench
on fitting; torque to specifications.
5. Inspect to see th a t hose doesn’t m ake contact with any
part of suspension. Check in extrem e right hand and
extrem e left hand turn conditions. If hose m akes any
contact, remove and correct.
6. Bleed brake system.
7. Lower vehicle from hoist.
Rear Hose
Removal (Fig. 5-8)
1. Raise vehicle on hoist.
Inspection
2. Remove all three brake pipes from hose, two at junction
T he flexible h y d rau lic b rak e hose w hich tran sm its
hydraulic pressure from the steel brake pipe on the fram e to
the rear axle and to the calipers should be inspected every 4
m onths or 6,000 miles (9 600 km ) (heavy duty emission
vehicles), every 12 m onths or 7,500 miles (12 000 km) (light
duty emission vehicles). T he brake hose assembly should be
checked for road hazard dam age, for cracks and chafing of
the outer cover, and for leaks and blisters. A light and
m irror m ay be needed for an adequate inspection. If any of
the above conditions are observed on the brake hose, it will
be necessary to replace it.
block and, with the use of a back-up wrench, one on the
female fitting at bracket. Be careful not to bend bracket
or pipes; use penetrating oil if necessary.
3. Rem ove " U " clip and tak e fem ale fitting out of
bracket.
4. Observe position at which junction block is m ounted to
the axle. W hen installing new hose be sure this junction
block is in the sam e position.
5. Remove bolt attaching junction block to axle.
Front Hose
Removal (figs. 5-5 thru 5-7)
1. Raise vehicle on hoist.
2. C lean dirt and foreign m aterial from both hose end
fittings.
3. Disconnect brake pipe from hose fitting using a back-up
wrench on fitting. Be careful not to bend fram e bracket
or brake pipe. It m ay be necessary to soak the connec
tions with penetrating oil.
4. Remove " U " clip from fem ale fitting a t bracket and
remove hose from bracket.
5. Remove bolt from caliper end of hose. Remove hose
from caliper, and discard the two copper gaskets on
either side of fitting block.
Installation
1. Thread both rear axle pipes into junction block.
2. Bolt junction block to axle and then torque rear pipes
into block.
3. Pass fem ale end of hose through bracket; fem ale fitting
will fit bracket in only 1 position (except G models), 2
positions (G models). W ithout twisting hose, position
female end in bracket.
4. I n s ta ll" U " clip.
5. A ttach pipe to female fitting using a back-up wrench on
fitting; torque to specification, again be careful not to
bend bracket or pipe. Check to see th at hose installation
did not loosen fram e b racket, re-to rq u e b rack et if
necessary.
6. Bleed system.
7. Lower vehicle from hoist.
LIGHT TRUCK SERVICE MANUAL
5-18
BRAKES
P300 (32) MODELS
Fig. 5-9--Parking Brake Assembly-Typical
LIGHT TRUCK SERVICE MANUAL
|
v ie w
[a ]
BRAKES
5-19
Fig. 5-10--Parking Brake System-Typical
LIGHT TRUCK SERVICE MANUAL
5-20
BRAKES
Fig. 5-11-Parking Brake System (Propshaft)
LIGHT TRUCK SERVICE MANUAL
BRAKES
PARKING BRAKE PEDAL OR HANDLE
Removal (Fig. 5-9)
1. Place parking brake pedal or handle in the released
position.
2. Remove nuts from the engine com partm ent on C, K
and G models or bolts from m ounting bracket on P
models.
T ake notice of th e spacers on P m odels for
reinstallation.
3. Disconnect the release handle rod at the parking brake
assem bly end (C-K models).
4. Remove the bolts from the underside of the dash and
lower the brake assembly (C -K -G M odels).
5. C-K-G Models- Disconnect the cable ball from the
parking brake clevis and remove the assembly.
P Models- Remove the clevis pin and disconnect the
cable from the brake assembly; remove the assembly.
Installation
Reverse the removal procedure. Torque all bolts and
nuts. A fter installing the clevis-pin, use a new cotter pin to
secure the clevis pin. A d ju st th e cable if necessary as
outlined below.
NOTICE: See "N o tice" on Page 1 of this section.
ADJUSTMENT
A djustm ent of parking brake cable is necessary when
ever holding ability is not adequate or whenever the center
brake cables have been disconnected.
The service brake m ust be properly adjusted as a base
for parking brake adjustm ent; conversely the parking brake
m ust be properly adjusted for the service brake to function
as intended.
Inspection
If com plete release of the parking brake is not obtained,
unless it is forcibly returned to its released position, or if
application effort is high, check parking brake assembly for
free operation. If operation is sticky or a bind is experienced,
correct as follows:
1. Clean and lubricate brake cables and equalizer with
Delco Brake Lube (or equivalent).
2. Inspect brake assembly for straightness and alignm ent
(replace if necessary).
3. C lean and lubricate parking brake assem bly with Delco
Brake Lube (or equivalent).
4. C hecking routing of cables for kinks or binding.
Adjustment—Foot Pedal Type
Before adjusting parking brake, check service brake
condition and adjustm ent.
1. Raise vehicle on hoist.
2. Loosen the equalizer adjusting nut.
3. Apply parking brake 4 notches from fully released
position.
5-21
4. Tighten the equalizer nut until a m oderate drag is felt
when the rear wheels are rotated forward.
NOTICE: See "N o tic e" on Page 1 of this section.
5. Fully release parking brake and rotate the rear wheels.
N o drag should be present.
6. Remove vehicle from hoist.
Adjustment-Orscheln Lever Type
1. T urn adjusting knob on parking brake lever counter
clockwise to stop.
2. Apply parking brake.
3. Raise vehicle on a hoist.
4. Loosen nut at interm ediate cable equalizer and then
adjust nut to give light drag at rear wheels.
NOTICE: See "N o tic e" on Page 1 of this section.
5. R eadjust parking brake lever knob to give a definite
snap-over-center feel.
PARKING BRAKE (PROPELLER SHAFT)INTERNAL EXPANDING
Adjustment-Drum On
1. Jack up at least one rear wheel. Block wheels and
release hand brake.
2. Remove cotter pin and clevis pin connecting pull rod
and relay lever. This will assure freedom for full shoe
release.
NOTICE: It m ay be necessary to knock out lanced area
in brake drum with punch and ham m er to gain entry
into adjusting screw through brake drum . Be sure all
m etal has been rem oved from parking brake
com partm ent.
3. R otate brake drum to bring one of access holes into line
w ith adju stin g screw a t bottom of shoes (m an u al
transm ission), top of shoes (autom atic transm ission).
4. Expand shoes by rotating adjusting screws with screw
driver inserted through hole in drum . Move outer end
of screwdriver away from drive shaft. Continue ad ju st
m ent until shoes are tight against drum and drum
cannot be rotated by hand. Back off adjustm ent ten
notches and check drum for free rotation.
5. Place parking brake lever in fully released position.
Take up slack in brake linkage by pulling back on cable
ju st enough to overcome spring tension. A djust clevis of
pull rod or front cable to line up with hole in relay
levers.
a. Insert clevis pin and cotter pin, then tighten clevis
locknut.
b. Install a new metal hole cover in drum to prevent
contam ination of brake.
c. Lower rear wheels. Remove jack and wheel blocks.
NOTICE: See "N o tice" on Page 1 of this section.
Adjustment-Drum Off
1. W ith parking brake drum off, use special Tool J -2 1177
or J-22364, D rum to Brake Shoe Clearance G auge, to
check diam eter of drum clearance surface.
LIGHT TRUCK SERVICE MANUAL
5-22
BRAKES
2. Turn the tool to the opposite side and fit over brake
shoes by turning the star wheel until the gauge just
slides over the linings.
3. R otate the gauge around the brake shoe lining surface
to insure proper clearance.
4. Install propeller shaft flange at m ainshaft as outlined in
transm ission section.
5. Lower rear wheels. Remove jack and wheel blocks.
2.
3.
PARKING BRAKE CABLES (Fig. 5-10)
4.
Front Cable Replacement
1. Raise vehicle on hoist.
2. Remove adjusting nut from equalizer.
3. Remove retainer clip from rear portion of front cable at
fram e and from lever arm .
4. Disconnect front brake cable from parking brake pedal
or lever assemblies. Remove front brake cable. On
some models it m ay assist installation of new cable if a
heavy cord is tied to other end of cable in order to guide
new cable through proper routing.
5. Install cable by reversing removal procedure.
6. A djust parking brake.
Center Cable Replacement
1. Raise vehicle on hoist.
2. Remove adjusting nut from equalizer.
3. Unhook connector a t each end and disengage hooks and
guides.
4. Install new cable by reversing removal procedure.
5. A djust parking brake.
6. Apply parking brake 3 tim es with heavy pressure and
repeat adjustm ent.
Rear Parking Brake Cable Replacement
1.
2.
3.
4.
5.
6.
7.
8.
Raise vehicle on hoist.
Remove rear wheel and brake drum .
Loosen adjusting nut at equalizer.
Disengage rear cable at connector.
Bend retainer fingers.
Disengage cable a t brake shoe operating lever.
Install new cable by reversing removal procedure.
A djust parking brake.
COMBINATION VALVE
Electrical Circuit Test
1. Disconnect wire from switch term inal and use a jum per
to connect wire to a good ground.
2. Turn ignition key on "O n " - warning lam p should
light. If lam p does not light, bulb is burned out or
electrical circuit is defective. R eplace bulb or repair
electrical circuit as necessary.
3. W hen w arning lamp lights, turn ignition switch off.
D isconnect ju m p er and reconnect w ire to switch
term inal.
Warning Light Switch Test
1. Raise vehicle on hoist. A ttach a bleeder hose to a rear
brake bleed screw and im m erse the other end of the
LIGHT TRUCK SERVICE MANUAL
5.
hose in a container partially filled with clean brake
fluid. Be sure m aster cylinder reservoir is full.
Turn ignition switch to "O n "; open bleeder screw while
a helper applies m oderate pressure to the brake pedal;
warning lamp should light. Close bleeder screw before
helper releases brake pedal. Reapply brake pedal with
m oderate-to-heavy pressure; light should go out.
A ttach the bleeder hose to a front brake bleeder screw
and repeat above test. W arning lam p action should be
the same as in Step No. 2. T urn ignition switch off.
If warning lamp does not light during Steps 2 and 3 but
does light when a jum per is connected to ground, the
warning light switch portion of the com bination valve is
defective. Do not attem pt to disassem ble the com bina
tion valve. If any portion of the com bination valve is
defective, it must be replaced with a new com bination
valve.
Lower vehicle to floor. Check and refill m aster cylinder
to proper level.
Replacement
The com bination valve is not repairable and m ust be
serviced as a complete assembly.
1. Disconnect hydraulic lines a t com bination valve. Plug
lines to prevent loss of fluid and en tran ce of dirt.
Disconnect warning switch wiring harness from valve
switch term inal.
2. Remove com bination valve.
3. Install com bination valve by reversing removal steps.
4. Bleed entire brake system. Do not move vehicle until a
firm brake pedal is obtained.
BRAKE PEDAL
The brake pedal mounting is an integral design with the
cluth pedal (except autom atic transm ission), necessitating
the removal of the clutch pedal before removing the brake
pedal.
Removal (Fig. 5*12)
1. Remove the pull back spring from the body or brake
pedal support bracket.
2. Manual Transmission Vehicles-- Remove the clutch
pedal as outlined under "C lutch P edal" in Section 7C.
Automatic Transmission Vehicles— Remove pedal pivot
bolt nut or pivot pin retainer and remove bolts or pin
and bushings.
3. P Models-- Remove the sleeve assembly screw a tta c h
m ent and remove sleeve.
4. Disengage the push rod from the m aster cylinder and
remove the pedal.
Inspection
Clean all parts and inspect for wear, cracks or any other
dam age th at m ight im pair operation; replace if required.
Installation
Reverse the above procedure and m ake certain the
brake pedal is secure and adjusted properly before operating
the vehicle. L ubricate pedal pivot bushings and pivot pin,
bolt or sleeve with Delco Brake Lube (or equivalent). A djust
stoplam p switch.
BRAKES
5-23
NOTICE: See "N o tic e" on Page 1 of this section.
BRAKE PEDAL ROD
P30(32) Models
Replacement (Fig. 5-13)
1. Remove the cotter pin, nut, special washers and bolt at
the brake pedal lever end of rod; discard the cotter pin.
2. Remove the boot to floorpan screws.
3. Raise the vehicle on a hoist.
4. Remove the cotter pin, nut, special washers and bolt at
the lower end of the rod and remove the pedal rod
assembly. Discard the cotter pin.
5. To install a new rod, adjust the rod length to 31.00"
(790 mm ) (center of upper attachm ent to center of
lower attachm ent).
6. L ubricate the pedal rod bolts and special washers with
Delco Brake Lube (or equivalent).
7. Install the rod up through the floorpan opening and
install the lower pivot bolt, special washers and nut.
Tighten the nut to 22-30 lb. ft. (30-40 N -m ) and install
a N E W cotter pin.
8. Push the boot up to the floorpan.
9. Lower the vehicle from the hoist.
10. Install the rod upper pivot bolt, special washers and
nut. Tighten the nut to 22-30 lb. ft. (30-40 N-m ) and
install a N E W cotter pin.
11. Fasten the boot to the floorpan and compress the boot to
2.54" (65 mm ) installed height; tighten the boot to
2.54" (65 mm) installed height; tighten the boot screws
to 13-18 lb. in. (1.5 - 2.0 N-m ). (R efer to Figure 5-13).
12. A djust brake pedal and stoplam p switch as outlined
previously.
LIGHT TRUCK SERVICE MANUAL
5-24
BRAKES
P30(42) and G Models
MASTER CYLINDER
Replacement
Filling Cylinder
1. G Models- Remove the brake pedal striker screw and
remove the striker. Remove the cotter pin and washer
and disconnect the pedal rod from the brake pedal.
2. P30(42) Models- Remove the cotter pin nut and bolt to
disconnect the pedal rod from the brake pedal.
3. Remove the pedal rod retainer bolt (at the rod pivot)
and remove the retainer.
4. Remove the cotter pin and washer and remove the
pedal rod.
5. To install a new rod, reverse Steps 1-4 above. L ubricate
pivot points with Delco Brake Lube (or equivalent).
NOTICE: See "N o tic e " on Page 1 of this section.
6. Check brake pedal and stoplam p switch adjustm ents as
outlined previously.
The m aster cylinder m ust be kept properly filled to
insure adequate reserve and to prevent air from entering the
hydraulic system. However, because of expansion due to
heat absorbed from brakes and from engine, m aster cylinder
must not be overfilled.
The brake fluid reservoir is on the m aster cylinder
which is located under the hood on the left side of the dash.
Thoroughly clean reservoir cover before removal to
avoid getting dirt into reservoir. Remove cover and dia
phragm . Add fluid as required to bring level to 1/4" (6 mm)
(plus or minux 1/8 " - 3 mm) from the lowest portion of the
top of each reservoir. Use Delco Suprem e No. 11 H ydraulic
Brake Fluid or equivalent.
Do not use shock absorber fluid or any other fluid which
contains m ineral oil. Do not use a container which has been
used for m ineral oil or a container which is wet from w ater.
M ineral oil will cause swelling and distortion of rubber parts
in the hydraulic brake system and w ater will mix with brake
fluid, lowering the fluid boiling point. Keep all fluid contain
ers capped to prevent w ater contam ination.
Fig. 5-13--Brake Pedal and Stop Lamp Adjustment
P30(32) Model
LIGHT TRUCK SERVICE MANUAL
BRAKES
MASTER CYLINDER ASSEMBLY
GENERAL DESCRIPTION
This master cylinder is designed for
use with a system incorporating low drag
calipers. In addition to the standard
master cylinder functions, a quick take-up
feature is included. This provides a large
volume of fluid to the wheel brakes at
low pressure with initial brake
application. The low pressure fluid
quickly provides the displacement
requirements created by the seal
retracting pistons into the front calipers
and spring retraction of the rear drum
brake shoes.
NOTICE:
To prevent damage to brake parts, use
all components included in repair
kits. Lubricate parts with clean, fresh
brake fluid. Do not use lubricated
shop air on brake parts. Torque values
specified are for dry, unlubricated
fasteners.
RESERVOIR COVER
RESERVOIR D IAPH RAG M
5-25
5-26
BRAKES
1. REMOVE AND INSTALL MASTER CYLINDER.
REMOVE
1. Disconnect two hydraulic
lines.
2. Remove two attaching
nuts.
3. Remove master cylinder as
shown.
3. REMOVE AND INSTALL PRIMARY AND
SECONDARY PISTONS.
INSTALL
REMOVE
INSTALL
SEE NOTICE ON PAGE 5-1
OF THIS SECTION
1. Depress primary piston and
remove lock ring.
SEE NOTICE ON PAGE 5-1
OF THIS SECTION.
1. Install master cylinder
as shown and torque
attaching nuts to 30-45 N-m
(22-30 ft-lb).
2. Attach two hydraulic lines.
Torque tube nuts to
13.6-20.3 N-m (120-180 in-lb).
MASTER CYLINDER
2. Direct compressed air into
the outlet at the blind end of
the bore and plug the other
outlet to remove primary
and secondary pistons.
3. Disassemble secondary
piston as shown in A,
following.
1. Assemble secondary piston
as shown in A, following.
2. Install spring and secondary
piston assembly in cylinder.
3. Install primary piston, de
press, and install lock ring.
4. Inspect master cylinder bore
for corrosion. If bore is
corroded, replace master
cylinder. No abrasives shall
be used on bore.
NUTS
TUBE
NUTS
SPRING
2. REMOVE AND INSTALL RESERVOIR COVER
AND DIAPHRAGM.
REMOVE
INSTALL
1. Remove reservoir cover and
diaphragm as shown.
SEE NOTICE ON PAGE 5-1
OF THIS SECTION
2. Discard any brake fluid in
reservoir.
1. Install reservoir diaphragm
in reservoir cover.
3. Inspect reservoir cover and
diaphragm for cuts, cracks
or deformation. Replace
damaged or defective parts.
2. Install assembly on
reservoir.
SECONDARY
PISTON
ASSEMBLY
PRIMARY
PISTON
ASSEMBLY
A.
REMOVE
INSTALL
1. Remove seals as shown.
1. Install new seals, posi
tioning as shown.
SPRING RETAINER
SECONDARY
PISTON
SECONDARY
SEAL
I i p m t T P ' i n ' c r m o p r M A^UM
BRAKES
4. REMOVE AND INSTALL RESERVOIR.
REMOVE
1. Remove reservoir as shown
in A, following.
5-27
5. REMOVE AND INSTALL RESERVOIR GROMMETS.
INSTALL
1. Install reservoir as shown in
B, following.
REMOVE
1. Remove reservoir grommets.
INSTALL
1. Lubricate new reservoir
grommets with silicone
brake lube.
A.
2. Press grommets into master
cylinder body. Make sure
grommets are properly
seated.
REMOVE
1. Clamp master cylinder in
vise as shown—do not
clamp on master cylinder
body—and use pry bar to
remove reservoir.
GROMMET
PRY
BAR
RESERVOIR
B.
INSTALL
1. Lay reservoir on flat, hard
surface as shown. Press on
master cylinder body using
rocking motion.
I IflU T T P I ITK C F R \/> rf: M ANl IIAI
5-28
BRAKES
2. Manual brake only—D isconnect b rake pedal from
m aster cylinder push rod.
3. Remove two nuts holding m aster cylinder to dash or
power cylinder and rem ove m aster cylinder from
vehicle. Be careful not to drip brake fluid on exterior
paint.
Disassembly (Figs. 5-14 and 5-15)
1. Clean outside of m aster cylinder thoroughly. Remove
reservoir cover and diaphragm . T urn cylinder over and
pum p push rod by hand to drain all brake fluid. Always
discard used fluid.
2. Manual
cylinder
a small,
pried up
brake only—Pull boot aw ay from m aster
to uncover push rod retainer. The retainer has
depressed tab in the side. This tab m ust be
to release retainer.
3. Depress piston and remove secondary piston stop bolt
from bottom of front fluid reservoir (if so equipped).
4. Place m aster cylinder in a vise so th at lock ring can be
removed from groove in the inside diam eter of bore.
Remove lock ring and prim ary piston assembly. R e
move secondary piston, secondary piston spring and
retainer by blowing air through the outlet port.
Fig. 5-14--Delco Master Cylinder-Exploded View
SECONDARY
----------------
5. Place m aster cylinder in vise, so th at outlet holes are
up. Enlarge hole in tube fitting insert using a 13/64"
drill. P lace a heavy w asher over o u tlet on m aster
cylinder and thread a 1/4-20 x 3 /4 " screw into the
insert. Tighten screw until insert is unseated. Remove
insert, screw, and washer.
6. Remove prim ary seal, and secondary seal from second
ary piston.
PRIMARY
SEAL
SPRING AND
RETAINER
7. Use clean brake fluid to clean all m etal brake parts
thoroughly. A ir dry and place cleaned parts on clean
paper or lint free clean cloth.
Do not use anti-freeze alcohol, gasoline, kerosene, or
any other cleaning fluid th at m ight contain even a trace
of m ineral oil.
Inspection
Inspect cylinder bore for scoring or corrosion. It is best
to replace a corroded cylinder. Corrosion can be identified as
pits or excessive roughness.
Fig. 5-15-Delco Secondary Piston - Exploded View
Except Bendix Mini-Master Cylinder and Delco
Quick Take-Up Master Cylinder
Removal
1. Disconnect brake pipes from m aster cylinder and tape
end of pipes to prevent entrance of dirt.
Polish any discolored or stained area with crocus cloth
by revolving cylinder on cloth supported by finger.
R inse cylinder in clean b rak e fluid. S hake excess
rinsing fluid from cylinder. Do not use a rag to dry cylinder,
as lint from rag cannot be kept from cylinder bore surfaces.
M ake certain th a t com pensating port in cylinder is
clear. '■
If scratches or corroded spots are too deep to be
polished satisfactorily, the cylinder should be replaced.
BRAKES
Assembly
1. Place brass tube fitting insert (new parts) in outlet
holes so th a t it is in a position to be pressed into outlet
hole. T he recom m ended m ethod of in serting tube
fitting insert is to thread a spare brake line tube nut into
outlet hole and turn nut down until tube fitting insert
bottoms. Remove tube nut and check outlet hole for
loose burrs, which m ight have been turned up when
tube fitting insert was pressed down.
2. Put new secondary seal in groove in end of secondary
piston (fig. 5-15).
3. Assem ble a new prim ary seal over end of secondary
piston, so th at flat side of the seal seats against flange of
piston (fig. 5-15).
4. Assem ble new secondary seal into groove on end of the
secondary piston.
5. In order to insure correct assem bly of the prim ary
assem bly, a com plete p rim ary piston assem bly is
included in the repair kits.
6. C oat bore of m aster cylinder with clean brake fluid.
C oat prim ary and secondary seals on secondary piston
with clean brake fluid. Insert the secondary piston
spring re ta in e r into secondary piston spring. Place
retainer and spring over end of secondary piston, so th at
retainer locates inside lip of prim ary cup.
7. Hold m aster cylinder with open end of bore down, push
secondary piston into bore, so th a t spring will seat
against closed end of bore.
8. Place m aster cylinder in a vise with open end of bore
up. C oat prim ary and secondary seal on prim ary piston
with clean brake fluid. Push prim ary piston assembly,
spring end first, into bore of m aster cylinder. Hold the
piston down and snap lock ring into position in groove
in inside diam eter of bore.
9. Install a new reservoir diaphragm in reservoir cover
where needed, and install cover on m aster cylinder.
Beaded side faces m aster cylinder casting to insure
positive sealing. T he bail w ire is now pushed into
position to hold reservoir cover.
10. Manual brake o n ly -A ssem ble push rod through push
rod retainer, if it has been disassem bled. Push retainer
over end of m aster cylinder. A ssem ble new boot over
push rod and press it down over the push rod retainer.
Installation
NOTICE: Refer to "N o tic e " on Page 1 of this section
regarding fasteners referred to in Steps 1 and 2 below.
1. Manual brake only—Connect push rod to brake pedal
pin and install retainer while holding m aster cylinder in
place.
2. In stall m aster cylinder on dash or pow er cylinder;
torque nuts to specifications.
3. Connect brake pipes to m aster cylinder.
4. Bleed hydraulic system.
5. Road test vehicle for proper brake perform ance.
Bendix Mini-Master Cylinder
Removal, Inspection and Installation procedures are
the same as described for "E xcept Bendix M ini-M aster
C ylinder".
5-29
Disassembly
1. Remove the reservoir cover and diaphragm , and drain
the fluid from the reservoir.
2. Remove the four bolts th a t secure the body to the
reservoir using Socket J-25085.
3. Remove the small " O " ring and the two com pensating
valve seals from the recessed areas on the bottom side
of the reservoir.
Do not remove the two small filters from the inside of
the reservoir unless they are dam aged and are to be
replaced.
4. Depress the prim ary piston using a tool with a smooth
rounded end. Then remove the com pensating valve
poppets and the com pensating valve springs from the
com pensating valve ports in the m aster cylinder body.
5. Using a small screwdriver, remove the snap ring at the
end of the m aster cylinder bore. Then release the piston
and remove the prim ary and secondary piston assem
blies from the cylinder bore. It may be necessary to
plug the front outlet port and to apply low air pressure
to the front com pensating valve port to remove the
secondary piston assembly.
Assembly
1. L u b ricate th e secondary piston assem bly and the
m aster cylinder bore with clean brake fluid.
2. Assemble the secondary spring (shorter of the two
springs) in the open end of the secondary piston
actuator, and assem ble the piston return spring (longer
spring) on the projection at the rear of the secondary
piston.
3. Insert the secondary piston assembly, actuator end
first, into the m aster cylinder bore, and press assembly
to the bottom of the bore.
4. L u b ric ate th e prim ary piston assem bly w ith clean
brake fluid. Insert the prim ary piston assembly, ac tu a
tor end first, into the bore.
5. Place the snap ring over a smooth round ended tool and
depress the pistons in the bore.
6. A ssem ble the retain in g ring in th e groove in the
cylinder bore.
7. Assemble the com pensating valve seals and the small
" O " ring seal in the recesses on the bottom of the
reservoir. Be sure th at all seals are fully seated.
8. W hile holding the pistons depressed, assem ble the
com pensating valve springs and the com pensating valve
poppets in the com pensating valve ports.
9. Holding the pistons compressed, position the reservoir
on the m aster cylinder body and secure with the four
m ounting bolts. Tighten the bolts to 12-15 lb. ft. (16-20
N -m ).
DELCO DISC BRAKE SHOE AND LINING
Lining Inspection
Inspect the brake linings per m aintenance schedule and
anytim e th at the wheels are removed (tire rotation, etc.)
Check both ends of the outer shoe by looking in a t each end
of the caliper (see figure 5-18). Check the lining thickness
on the inner shoe by looking down through the inspection
hole in the top of the caliper housing. W henever the lining is
LIGHT TRUCK SERVICE MANUAL
5-30
BRAKES
COVER
DIAPHRAGM
FILTER
RESERVOIR
COMPENSATING
VALVE
VALVE
SEAL
POPPET
SPRING
SECONDARY
SPRING
SECONDARY
PISTON
PISTON
RETURN
PRIMARY
SNAP
SPRING
PISTON
RING
Fig. 5-16--Bendix Mini-Master Cylinder-Exploded View
worn to the approxim ate thickness of the shoe, the shoe and
lining should be removed. A fter removal, m easure the lining
thickness. The shoe and lining should be replaced at any
tim e when the lining is worn to within 1/32" (0.80 mm) of a
rivet or 1/32" (0.80 m m ) of the shoe at any point or when
wear indicator contacts the rotor. Always replace linings in
sets (both right and left front).
All front disc brakes have a wear indicator th a t makes a
noise when the linings w ear to a degree where replacem ent is
required, (fig. 5-19). The spring clip is an integral part of the
inboard shoe and lining. W hen the lining is worn, the clip
contacts the rotor and produces a w arning noise.
C heck flatness o f b rak e pads. P lace inboard and
outboard pad surfaces together and check for gap between
pad surfaces. If more th an 0.13mm (.005 ") gap is m easured
at m iddle of pad (m idw ay between attaching lugs), pad
m ust not be used. This applies to new or used brake pads.
W henever the front disc brakes are relined, the rear brakes
should also be checked.
Caliper Removal
NOTICE: See "N o tice" on Page 5-1 of this section.
1. Remove two thirds of the total fluid capacity from the
front m aster cylinder reservoir. Removal of the fluid is
LIGHT TRUCK SERVICE MANUAL
necessary to prevent reservoir overflow when the caliper
piston is pushed back in its bore to remove the caliper.
This m ay be done by breaking the front line connection
at the m aster cylinder and bleeding down the fluid
level. Do not remove the brake line or completely empty
th e reservoir or it will be necessary to bleed the
hydraulic system. D iscard - do not attem pt to reuse the brake fluid removed.
2. Raise the vehicle on a hoist and remove the wheel
covers and wheel assemblies. Position a 7 inch " C "
clam p on the caliper so th a t solid side of the clam p rests
against the m etal part of the outboard shoe (fig. 5-20).
Tighten the " C " clam p until the caliper moves away
from the vehicle far enough to push the piston to the
bottom of the piston bore. This will allow the shoes to
back off from the rotor surfaces. Remove the " C "
clamp.
3. It is not necessary to disconnect the brake hose for shoe
and lining replacem ent. Remove the two mounting
bolts which attach the caliper to the support bracket
(fig. 5-21). Lift the caliper off the rotor and remove the
inboard shoe. Dislodge the outboard shoe and position
the caliper on the front suspension arm so th a t the
brake hose will not support the weight of the caliper.
BRAKES
5-31
Cleaning and Inspection
Remove the shoe support spring from the cavity in the
piston.
4. U sing Tool J-22835, rem ove th e sleeves from the
inboard ears of the caliper (fig. 5-22). N ext, remove the
rubber bushings from the grooves in each of the four
caliper ears.
1. Thoroughly clean the holes and the bushing grooves in
the caliper ears. W ipe all dirt from the m ounting bolts.
Do not use abrasives on the bolts since this will dam age
the plating. If the bolts are corroded, or dam aged, they
should be replaced.
2. Exam ine the inside of the caliper for evidence of fluid
leakage. If leakage is noted, the caliper should be
overhauled. W ipe th e inside of the calip er clean,
including the exterior of the dust boot. Check the boot
LIGHT TRUCK SERVICE MANUAL
5-32
BRAKES
Fig. 5-21--Removing Mounting Bolts
Fig. 5-22--Removing Sleeves
for cuts, cracks or other dam age. M ake sure th at the
boot is properly, engaged in the groove in the piston and
also in the caliper counter-bore (fig. 5-24).
NOTICE: Do not use compressed air to clean the inside
of the caliper since this m ay cause the dust boot to
become unseated.
3. If the vehicle has a brake problem and diagnosis points
to the rotor, it should be inspected and checked for
runout at this time.
Caliper Installation
1. Install rubber bushings in all four caliper ears.
NOTICE: It is essential th a t the new sleeves and rubber
bushings be used in order to insure the proper function
ing of the sliding caliper design.
2. Use Tool, J-22835, to install the sleeves (fig. 5-25).
Position the sleeves so th a t the end toward the shoe and
lining assemblies is flush with the machined surface of
the ear.
LIGHT TRUCK SERVICE MANUAL
3. Install the shoe support spring by replacing the single
tang end of the spring over the notch in the center of the
edge of the shoe. Then press the two tangs a t the spring
end of the inboard shoe spring over the bottom edge of
the shoe so th at they engage the shoe securely, as shown
in Figure 5-26.
BRAKES
5-33
Fig. 5-28--lnstalling Outboard Shoe
spring end of the inboard shoe support spring should be
resting on the I.D. of the piston.
NOTICE: On inboard shoes there is a specific left hand
and right hand shoe. W hen properly installed the wear
sensor will be tow ard rear of caliper.
5. Position the outboard shoe in the caliper, with the ears
a t the top of the shoe over the caliper ears and the tab at
the bottom of the shoe engaged in the caliper cut-out
(see fig. 5-28). Be sure to note right and left brake
shoes.
6. Postion the caliper over the rotor, lining up the holes in
the caliper ears with the holes in the m ounting bracket.
NOTICE: W hen reinstalling caliper be sure you haven’t
turned it over, end over end. This would cause a severe
twist in the brake hose. A fter positioning caliper on
disc, observe brake hose being sure it is not twisted.
Fig.5-27--lnstalling Inboard Shoe
4. Position the inboard shoe and lining assembly (with
spring attached) in the caliper so th a t the ear end of the
shoe and lining is down and the bottom end up at an
angle with the spring resting on the piston I.D. (fig.
5-27). Press down on both ends of the shoe until the
shoe is in a flat position, resting on the piston. The
Fig. 5 -2 9 —Installing M ounting Bolts
LIG H T T R U C K SERVICE M AN U AL
5-34
BRAKES
10, A fter clinching, ears are to be flat ag ain st caliper
housing with no radial clearance.
11. If radial clearance exists, repeat clinching procedure.
Completion
1. Replace the shoe and linings on the other front wheel
disc brake in exactly the sam e m anner as just de
scribed. Relining is to be done in full axle sets only.
W hen completed, reinstall the wheel and tire assem
blies. Torque wheel nuts to specifications. Install wheel
covers and lower the vehicle to the floor.
NOTICE: See "N o tice" on Page 1 of this section.
2. W henever the front wheel disc brakes are relined, the
rear drum brakes should be checked also.
BENDIX DISC BRAKE SHOE AND LINING
S ta rt th e bolts th ro u g h th e sleeves in th e inboard
caliper ears and through the mounting bracket, making
sure th a t the ends of the bolts pass under the retaining
ears on the inboard shoe (fig. 5-29). Push bolts on
through to engage the holes in the outboard shoes and
the outboard caliper ears at the sam e tim e, threading
the bolts into the m ounting bracket. Torque the bolts to
35 lb. ft. (50 N-m ).
NOTICE: See "N o tic e " on Page 1 of this section.
7. A dd fresh approved brake fluid to the m aster cylinder
reservoirs to bring the level up to within 1 /8 " (3 mm)
of the top.
8. Pump brake pedal to seat linings against rotor.
9. C linch u pper ears o f o u tb o ard shoe by positioning
channel lock pliers with one jaw on top of upper ear and
one jaw in notch on bottom of shoe opposite upper ear
(fig. 5-30).
L IG H T T R U C K SE RV IC E M AN U AL
The brake linings should be inspected any tim e the
wheels are removed. Check both ends of the outboard shoe
by looking in at each end of the caliper (fig. 5-31). This is the
point at which the highest rate of w ear normally occurs. A t
the same time, check the lining thickness on the inboard
shoe by looking down through the inspection hole in the top
of the caliper; see "B ra k e In sp ectio n " portion of this
section. The inboard shoe is installed with the ends of the
shoe resting in the steering knuckle. The large tab at the
bottom of the outboard shoe is bent over at the right angle
and fits in the cutout in the outboard section of the caliper.
Removal (Front or Rear)
NOTICE: See "N o tic e" on page 1 of this section.
1. Remove m aster cylinder cover and observe brake fuuid
level in front reservoir is m ore than 1/3 full, siphon the
necessary am ount out to bring the level to 1/3 full. This
step is taken to avoid reservoir overflow w hen the
caliper piston is pushed back into its bore. D iscard the
brake fluid removed. N ever reuse brake fluid.
2. Raise the vehicle on a hoist and remove wheels.
3. Push the piston back into its bore. This can be accom
plished by using a "C " clam p as shown in Figure 5-33.
4. Remove the bolt at the caliper support key. Using a
brass punch, remove the key and spring (fig. 5-34).
5. Lift the caliper off the disc and support in a raised
position with a heavy wire (fig. 5-35).
BRAKES
5-35
Clamp
2. W ipe the inside of the caliper clean, including the
exterior of the dust boot. Check the boot for cuts,
cracks or other dam age.
NOTICE: Do not use compressed air to clean the inside
of the caliper since this m ay cause the dust boot to
become unseated.
3. Use a wire brush to remove any rust or corrosion from
the m achined surfaces of the steering knuckle (or
support) and caliper. It is im portant to clean those
areas of the caliper and support th at are in contact
during the sliding action of the caliper.
Installation
If original disc pads are being reinstalled, they m ust be
installed in original positions (as m arked at removal).
1. Lubricate the caliper and steering knuckle (or support)
sliding surfaces and the support spring with Delco
Silicone Lube (or equivalent).
NOTICE: Do not support the weight of the caliper on the
brake hose as dam age to the brake hose could result.
6. Remove the inboard shoe from the steering knuckle or
rear caliper support (fig. 5-32). Remove and discard
the inboard shoe clip. Remove the outboard shoe from
the caliper. It may be necessary to tap the shoe to
loosen it in the caliper housing.
M ark disc pad positions if pads are to be reinstalled.
Cleaning and Inspection
The shoes should be replaced when the lining is worn to
approxim ately 1 /3 2 " (0.80 m m) thickness over the rivet
heads. Replace shoes in axle sets.
1. Exam ine the inside of the caliper for evidence of fluid
leakage. If leakage is noted, the caliper should be
overhauled.
2. Install a N E W inboard shoe clip in the steering knuckle
or re ar support. Be sure the tabs are positioned
correctly and the loop-type spring positioned aw ay
from the rotor. Install the lower end of the inboard shoe
into the groove provided in the steering knuckle or
support (against the spring clip). Slide the upper end of
the shoe into position. Be sure the clip rem ains in
position.
3. Postion the outboard shoe in the caliper with the ears at
the top of the shoe over the caliper ears and the tab at
the bottom of the shoe engaged in the caliper cutout. If
assembly is difficult, a "C " clam p may be used. Be
careful not to m ar the lining.
4. W ith both shoes installed, lift up the caliper and rest
the bottom edge of the outboard lining on the outer
edge of the brake disc to m ake sure th ere is no
clearance between the tab at the bottom of the out
board shoe and the caliper abutm ent. T he outboard
LIG H T T R U C K SERVICE M A N U A L
5-36
BRAKES
shoe should fit tightly in the caliper and should not
rattle.
5. Position the caliper over the brake disc, guiding the
upper caliper groove onto the m ating surface of the
steering knuckel or caliper support. Position the caliper
to the lower steerin g knuckle (or su p p o rt) sliding
surface.
NOTICE: M ake sure th a t the brake hose is not twisted or
kinked since dam age to the brake hose could result.
6. Place the spring over the caliper support key, install the
assembly between the steering knuckle (or rear sup
port) and lower caliper groove. T ap into place (until the
key retaining screw can be installed) using a brass
punch and a light ham m er (fig. 5-36).
7. Install the screw and torque to 12 to 18 lb. ft. (18-24
N -m ). The bolt boss m ust fit fully into the circular
cutout in the key.
NOTICE: See "N o tic e " on Page 1 of this section.
8. Reinstall the front wheel and tire assembly.
9. A dd brake fluid to the m aster cylinder reservoir to
bring the fluid level up to within 1 /4 " (6 m m ) of the
top.
NOTICE: Before moving the vehicle, pum p the brake
pedal several tim es to m ake sure th at it is firm. Do not
move vehicle until a firm pedal is obtained. Check
m aster cylinder fluid level again after pum ping the
brake pedal.
CALIPER OVERHAUL
Delco
Removal
1. Removal of the caliper for overhaul is the same as for
shoe and lining rep lacem en t except th a t it will be
necessary to disconnect the brake hose; (R efer to front
brake hose replacem ent).
2. First, disconnect the hose from the steel brake pipe and
cap the fittings to prevent dirt from entering the pipe or
the hose. Then, remove the U -shaped retainer from the
hose fitting. W ithdraw the hose from the fram e support
Fig. 5-37--Removing Piston
bracket and remove the caliper - with hose attached —
to a work bench for overhaul.
Disassembly
1. Before beginning disassembly, thoroughly clean the
exterior of the caliper using brake cleaner. Place the
caliper on a clean work surface.
2. Remove the brake hose from the caliper, discarding the
copper gasket. Check the hose for worn spots, cracks or
other signs of deterioration, discard the hose, if dam
aged, to be replaced with a new hose a t reassembly.
D rain brake fluid from the caliper.
3. Use clean shop towels to pad the interior of the caliper.
Remove the piston by directing compressed air into the
caliper inlet hole (fig. 5-37).
CAUTION:Do not place the fingers in front of the
piston in an attempt to catch or protect it when
applying compressed air. This could result in
serious injury.
NOTICE: Use just enough air pressure to ease the piston
out of the bore. If the piston is blown out, even with
padding provided, it m ay become dam aged.
4. Use a screwdriver to pry the boot out of the caliper.
Extend the screwdriver across the caliper bore, under
the boot, and pry up. Be careful not to scratch the
caliper bore.
5. Use a piece of wood or plastic - a plastic toothpick is
ideal - to remove the piston seal from its groove in the
caliper bore. DO N O T U S E A M E T A L T O O L O F
A N Y T Y P E FO R T H IS O P E R A T IO N .
6. Remove the bleeder valve from the cliper.
Cleaning and Inspection
1. The boot, piston seal, rubber bushings and sleeves are
to be replaced each tim e the caliper is overhauled.
Discard, do not bother to clean and inspect, these parts.
2. Clean all other parts in clean denatured alcohol or
brake cleaner. Use dry, filtered compressed air to dry
parts and blow out all passages in the caliper and
bleeder valves.
The use of lubricated shop air will leave a film of
m ineral oil on th e m etal p arts. T his m ay dam age
BRAKES
ru b b er p arts w hen they com e in co n tact a fte r
reassembly.
3. C heck the m ounting for corrosion, breaks in the plating
or other dam age. Do not use abrasives in an attem pt to
clean the pins -- replace them.
4. C arefu lly exam ine th e piston outside d iam eter for
scoring, nicks, corrosion and worn or dam aged chrom e
plating. If any surface defects are detected, replace the
piston.
5. Check the bore in the caliper for the sam e defects as the
piston with the exception of plating dam age. The piston
bore is not plated and stains or minor corrosion can be
polished with crocus cloth. Do not use em ery cloth.
Thoroughly clean the caliper after the use of crocus
cloth. If the bore cannot be cleaned up in this m anner,
replace the caliper.
Reassembly
5-37
3. Install the brake hose in the caliper inlet using a new
copper gasket.
Installation
1. Installation of the caliper and m ounting parts (rubber
bushing, sleeves, shoe and lining assemblies and pins) is
the sam e as for lining replacem ent except for the
following:
a. The brake hose m ust be connected to the brake pipe
a t the fram e or fram e bracket.
Use extrem e care to orient the hose so th at the keyed
hose end fitting aligns with the slot in the bracket
without twisting or kinking the hose.
b. A fter overhaul -- or any tim e that the brake hose or
line is disconnected -- the calipers m ust be bled.
Bendix
Removal
1. L ubricate the bore in the caliper and the new piston
seal with clean brake fluid. Position the seal in the
caliper bore groove. L ubricate the piston with clean
brake fluid and assemble a new boot into the groove in
the piston so th at the fold faces the open end of the
piston. Insert the piston into the caliper bore, using care
not to unseat the seal and force down to the bottom in
the bore. This will require a force of 50 to 100 pounds
(220 to 440 N ). Position the outside diam eter of the
boot in the caliper counterbore and seat with Tool
J-22904 (fig. 5-38).
C lean d irt from hose to caliper connection before
proceeding with removal.
1. Remove the hose to caliper bolt and cap or tape the
open connections to prevent dirt from entering the hose
or caliper. D iscard the copper gaskets.
2. Remove the caliper assembly as described under "Shoe
and L inings-R em oval".
CALIPER
PISTON
BOOT
2. C heck th e boot in stallatio n to m ake sure th a t the
retaining ring molded into the boot is not bent and th at
the boot is installed fully, below the caliper face, and
evenly all around. O therw ise d irt or m oisture m ay enter
the bore and cause dam age or corrosion.
SQUARE
RING SEAL
SCREW
SUPPORT
KEY
INBOARD SHOE
CALIPER SPRING
OUTBOARD SHOE
ANfl-RATTLE SPRING
Fig. 5-39-Bendix Brake Caliper Assembly
BOOT INSTALLER
(EXCEPT JB7) J -2 2 9 0 4
(JB7) J -2 8 7 3 5
DUST
BOOT
Fig. 5-38--Seating Boot
Fig. 5-40--Rem oving the C aliper Piston
L IG H T T R U C K SERVICE M AN U AL
5-38
BRAKES
Disassembly (Fig. 5-39)
1. Clean the exterior of the caliper using clean brake fluid
and place on a clean work surface.
2. D rain the brake fluid from the caliper.
CAUTION:Do not place the fingers in front of the
piston in an attempt to catch or protect it when
applying compressed air.
3. Using clean shop cloths, pad the interior of the caliper
and remove the piston by directing compressed air into
the caliper inlet hole (fig. 5-40).
Inner lip of boot
must be fully
seated in caliper
housing.
NOTICE: Use ju st enough air pressure to ease the piston
out of the bore. Do not blow piston out of the bore as
dam age to the piston could result. If the piston is seized
or cocked or does not come out readily, release the air
pressure and use a soft (brass) ham m er to rap sharply
on and aro u n d the end of th e piston. R eapply air
pressure to remove the piston.
An altern ate m ethod of removing the piston is to stroke
the brake pedal (gently) while the hydraulic lines are
still connected. This will push the piston out of the
caliper bore.
J-24548
PISTON
Fig. 5-41--Installing Caliper Piston Boot
4. Remove the boot from the piston bore.
5. Using a sm all piece of wood or plastic, remove the
square ring seal from the piston bore.
NOTICE: Do not use a m etal tool of any kind for this
operation as it m ay dam age the bore.
6. Remove the bleeder valve from the caliper.
Cleaning and Inspection
T he dust boot and piston seal are to be replaced
whenever the caliper is overhauled. D iscard these parts.
1. Clean all parts (other than those m entioned above in
clean brake fluid. Use dry, filtered, com pressor air to
blow out all passages in the caliper and bleeder valve.
NOTICE: T he use of lubricated shop air will leave a film
of m ineral oil on the m etal parts. This m ay dam age
ru b b e r p arts w hen they come in co n tact a fte r
reassembly.
2. C heck th e sliding su rfaces of the caliper, steering
knuckle (or rear support) and support spring for rust or
corrosion. C lean up any surface defects with crocus
cloth.
3. C arefully exam ine the outside surface of the piston for
scoring, nicks, corrosion and worn or dam aged plating.
If any surface defects are detected, replace the piston.
NOTICE: The piston outside diam eter is the prim ary
sealing surface in the caliper assembly. It is m anufac
tured and plated to close tolerances. Refinishing by any
means or the use of any abrasive is not acceptable
practice.
4. Check the bore in th e caliper for the same defects as the
piston. The piston bore, however, is not plated and
stains or minor corrosion can be polished with crocus
cloth.
Do not use emery cloth or any other form of abrasive.
Thoroughly clean the caliper after the use of crocus
cloth. If the bore cannot be cleaned up in this m anner,
replace the caliper.
L IG H T T R U C K SERVIC E M AN U AL
Assembly
1. Lubricate the caliper piston bore and the N E W piston
seal with the clean brake fluid. Position the square ring
seal in the caliper bore groove.
2. L ubricate both sealing lips of the dust boot and the
piston with a light film of clean brake fluid. Place the
new boot over Piston Installer Tool J-24548. This is
most easily accomplished by placing the boot large
diam eter over the tool first, then riding the sm aller
diam eter onto the tool. T he large diam eter lip must
then be slid off the tool to m ake ready for installation
into the bore groove. Install the boot (large bead) into
th e piston bore groove by reaching inside of Tool
J-24548 and pressing the boot bead into the groove (fig.
5-41).
Be sure boot is fully seated in the groove before
proceeding.
3. Place the piston inside of Tool J-24548, force the piston
halfway into the piston bore using a wood ham m er
BRAKES
handle or " C " clam p (fig. 5-42); remove Tool J-24548.
Check to be sure the boot was not unseated at piston
installation. M ake sure the outer bead of the boot is
seated in the piston outer groove.1
Installation
Installation of the caliper and m ounting parts is the
sam e for: "Shoe and Lining-Disc B rake" except for steps
given below:
1. C onnect the brake hose to the caliper using N E W
copper gaskets.
NOTICE: Hose m ust be properly positioned to prevent
hose twist or m isalignm ent or hose dam age m ay result.
2. Bleed the caliper assemblies as outlined earlier in this
section.
ROTOR SERVICING
Lateral Runout
1. L ateral runout is the movement of the rotor from side
to side as it rotates on the steering knuckle spindle. This
could be described as " rotor wobble ".
2. The movement of the rotor from side to side in the
lateral plane causes the brake shoe and lining and
pistons to be knocked back into their bores. This results
in additional pedal travel required and a vibration
during the braking action.
3. To check lateral runout, first tighten the wheel bearings
until all of the play is out of the bearings. Fasten a dial
indicator to some portion of the suspension so th a t the
point of the stylus contacts the rotor face approx
im ately 1" (25 mm) from the rotor edge (fig. 5-43). Set
the dial at zero. Move the rotor one complete rotation,
checking the indicator as the rotor moves.
4. L ateral runout should not be over .004" (0.10 mm)
total indicator reading.
5-39
of the rotor. All m easurem ents m ust be made at the
same distance in from the edge of the rotor.
2. A rotor th at varies over .0005" (0.013 mm) causes
pedal vibration, as well as front end vibration during
brake applications. A rotor th at does not meet these
specifications m ay be refinished to specifications if
precision equipm ent is available.
Tolerance and Surface Finish
In m anufacturing the brake rotor, tolerances of the
rubbing surfaces for flatness, for parallelism and for lateral
runout are held very closely. The m aintenance of these close
controls on the shape of the rubbing surfaces is necessary to
prevent brake roughness.
In addition to these tolerences, the surface finish must
be held to a specified range. The control of the rubbing
surface finish is necessary to avoid pulls and e rratic
perform ance and to extend lining life.
Light scoring of the rotor surfaces not exceeding .015"
(0.38 mm) in depth, which may result from norm al use, is
not detrim ental to brake operation.
Machining
Since accurate control of the rotor tolerances is neces
sary for proper perform ance of the disc brakes, m achining of
the rotor should be done only with precision equipm ent.
All brake rotors have a minimum thickness dimension
cast into them. This dimension is the minimum wear
dimension and not a refinish dimension. Do not use a brake
rotor that will not meet the specifications, as shown below,
after refinishing. Replace with a new brake rotor.
ROTOR THICKNESS
REPLACEMENT
(DISCARD)
MINIMUM
AFTER REFINISHING
1.480
1.230
.980
Parallelism
1. Parallelism is the m easurem ent of the thickness of the
rotor at four or more points around the circum ference
1.465
1.215
.965
Wheel Bolt Replacement (Disc Brakes)
NOTICE: See "N o tice" on page 1 of this section.
1. Remove hub and rotor assembly from vehicle.
2. M ark rotor to hub location and remove bolts attaching
hub to rotor.
3. The wheel bolts on disc brakes can be pressed out from
the outside of the hub and installed from inside the
rotor by pressing into place. N o drilling or cutting is
required.
4. Reinstall assembly and adjust wheel bearings.
DRUM BRAKE SHOE AND LINING
Service Brake
Adjustment
1. Using a punch, knock out lanced area in brake drum . If
this is done with the drum installed on the vehicle, the
LIG H T T R U C K SERVICE M AN U AL
5-40
BRAKES
WHEEL CYLINDER SCREWS-
WHEEL CYLINDER LINKS
BACKING PLATE
SECONDARY SHOE & LIN IN ~
SHOE GUIDE
PARKING BRAKE STRUT
STRUT SPRING
ADJUSTER LEVER
A CTUA TING LINK
HOLD DO W N PINS
PARKING BRAKE LEVER
WHEEL CYLINDER
PRIMARY SHOE A N D LINING
HOLD DO W N SPRING
ADJUSTING SCREW SPRING
SPRING & CUP
-A D JU S T IN G SCREW
BRAKE SHOE RETURN SPRING
____ R RETURN SPRINGS
Fig. 5-44--Typical Drum Brake Assembly
drum m ust be removed and all m etal cleaned out of the
brake com partm ent. Be sure to procure a new metal
hole cover and install it in the drum after adjustm ent to
prevent dirt and w ater from getting into the brakes.
U se J-6 1 66 to tu rn b rak e ad ju stin g screw; expand
brake shoes at each wheel until the wheel can just be
turned by hand. The d rag should be equal at all wheels.
2. Back off b rak e ad ju stin g screw a t each wheel 30
notches. If shoes still drag lightly on drum , back off
adjusting screw one or two additional notches. Brakes
should be free of drag when screw has been backed off
approxim ately 12 notches. Heavy drag at this point
indicates tight parking brake cables.
3. Install m etal adjusting hole cover in brake drum .
4. Check parking brake adjustm ent.
Removal and Inspecting
NOTICE: See "N o tice" on Page 1 of this section.
1. Raise vehicle on hoist. Remove wheel and brake drum .
It m ay be necessary to back off the brake shoe adjust
m ent before the brake drum s can be removed. To back
off shoe ad ju stm en t, ro ta te shoe ad ju stin g screw
downward.
On JB 6, JB7 and JB8 equipped vehicles, it is necessary
to remove the axle shafts to remove the hub and drum
assembly; refer to Section 4B of this m anual.
2. U nhook the prim ary and secondary shoe return springs
using large pliers.
3. Remove shoe hold down springs.
LIG H T TR U C K SE R V IC E M AN U AL
4. Lift up on actuator, unhook actuating link from anchor
pin, then remove.
5. Spread shoes to clear wheel cylinder connecting links,
rem ove parking brake s tru t and spring, disconnect
cable from parking brake lever, remove shoes from the
backing plate.
6. S eparate the brake shoes by removing adjusting-screw
and lock spring. Rem ove parking b rake lever and
secondary brake shoe.
7. Clean all dirt out of brake drum . Inspect drum s and
replace or recondition if required.
8. Clean all dirt from brake assemblies and inspect for
any unusual condition.
9. W heel cylinders having torn, cut, or heat-cracked boots
should be completely overhauled.
Inspection for leakage m ay be accomplished at the boot
center hole after removal of link pin. Fluid coatings on
piston within cylinder and on end of link pin removed
from boot are norm al, as cylinder contains a porous
P IS T O N W H IC H IS IM P R E G N A T E D W IT H A
C O R R O S IO N IN H IB IT IN G FL U ID . Fluid spilling
from boot center hole, a fte r link pin is rem oved,
indicates cup leakage and necessity for com pletely
over-hauling cylinder.
io. Inspect backing plate for oil leakage past wheel bearing
oil seals. Correct any leak by installation of new seals
(See Section 4B).
BRAKES
11. Check all backing plate attaching bolts to m ake sure
they are tight. Using fine em ery cloth, clean all rust and
dirt from shoe contact surfaces on plate.
Installation and Adjustment
1. L ubricate fulcrum end of parking brake lever with
Delco Brake L ubricant or equivalent, then attach lever
to secondary shoe. M ake sure th a t lever is free moving.
2. Connect brake shoes together with adjusting screw
spring, then place adjusting screw in position. W hen
in stallin g th e adju stin g screw spring and adjusting
screw, m ake sure the spring does not touch the starwheel portion of the adjusting screw; and, also, when
installing adjusting screw, m ake sure right hand thread
adjusting screw is on left side of vehicle and left hand
thread adjusting screw is on right side of vehicle. M ake
certain starw heel lines up w ith ad ju stin g hole in
backing plate.
3. L ubricate shoe contact surfaces on backing plate with a
thin coating of Delco Brake L ubricant or equivalent.
5-41
S paringly apply sam e lu b ric an t w here brake cable
contacts backing plate.
4. Place brake shoes on backing plate, at the same tim e
engaging shoes with wheel cylinder links. The prim ary
shoe (short lining) goes tow ard front of vehicle.
Connect cable to parking brake lever and install strut
and spring between lever and prim ary shoe.
5. Install acutator, actuator return spring and actuating
link. If old brake shoe re tu rn springs are nicked,
distorted or of doubtful strength (discolored from
heat), it is advisable to install new parts.
6. Install shoe hold down springs.
7. Install the prim ary and secondary shoe return springs
using large pliers. Be careful not to distort springs.
8. M easure brake drum I.D. using inside caliper portion
of Tool J-21177 (fig. 5-45). A djust brake shoes to
dimension obtained on outside caliper portion of Tool
J-21177 (fig. 5-46).
9. Install brake drum s and wheels.
10. If any h y draulic connections were distu rb ed , bleed
hydraulic system.
11. A djust parking brake.
12. Inspect all brake pipes, hoses and connections for
evidence of fluid leakage. Tighten any leaking connec
tion. Then apply heavy pedal pressure to brake pedal
and recheck connections.
13. Check fluid level in m aster cylinder and add fluid if
necessary.
14. C heck brake pedal for proper feel and for proper
return.
15. Remove vehicle from hoist and road test for proper
brake action. Brakes m ust not be severely applied
im m ediately after installation of new brake shoes or
linings. Severe application may perm anently dam age
new linings and m ay score brake drums. W hen linings
are new, they m ust be given m oderate use for several
hundred miles of burnishing.
Repair Brake Lining
This procedure is to be used when brake action is
unequal, severe, hard, noisy or otherwise unsatisfactory and
when brake linings have had little wear.
1. C heck fluid in m aster cylinder and add fluid if
necessary.
2. C heck brake pedal for proper feel and for proper
return.
3. Raise vehicle on hoist and remove all wheels.
4. Remove all brake drum s. B R A K E PED A L M U ST
N O T BE O P E R A T E D W H IL E D R U M S A R E
R EM O V ED .
NOTICE: See "N o tice" on page 1 of this section.
5. Clean all dirt out of brake drum s. Inspect drum s and
replace or recondition if required.
6. C lean all d irt from brake assem blies, then inspect
brake linings for uneven wear, oil soaking, loose rivets
or imbedded foreign particles. If linings are oil soaked,
replacem ent is required.
7. If linings are otherwise serviceable, tighten or replace
loose rivets and thoroughly clean all steel or other
LIG H T T R U C K SERVICE M AN U AL
5-42
8.
9.
10.
11.
BRAKES
im bedded particles from surfaces and rivet counter
bores of linings.
Check all backing plate bolts to m ake sure they are
tight. (R efer to Section 4B for wheel stud replacem ent
procedure.)
M easure brake drum I.D. using inside caliper portion
of Tool J - 2 1 177. A d ju st brak e shoes to dim ension
obtained on outside caliper portion of Tool J-2 1 177
(figs. 5-45 and 5-46).
Install drum and wheel and tire assemblies.
Remove vehicle from hoist and road test for proper
b rak e action. B rakes m ust not be severely applied
im m ediately after installation. Severe application may
perm anently dam age new linings and may score brake
drum s. W hen linings are new, they m ust be given
m oderate use for several hundred miles of burnishing.
Propeller Shaft Brake
Removal (Fig. 5-47)
1. Remove the propeller shaft; see Section 4A.
2. Remove the brake drum . It may be necessary to back
off the shoe adjustm ent before removing the drum .
On autom atic transm ission models, the exhaust cross
over pipe m ay be in the way. If so, loosen the transm is
sion rear m ounting bolts and jack the transmission
sufficiently for brake drum to clear the pipe.
3. Remove the two pull back springs.
4. Remove the guide plate from anchor pin.
5. Remove shoe hold down cups, springs, and washers
from hold down p ins-rem ove pins.
6. Pull brake shoe and lining assem blies aw ay from
anchor pin and remove the stru t and spring.
7. Lift the brake shoes and linings with the adjusting nut
and bolt and connecting spring off the flange plate.
8. Move the shoes toward each other until the adjusting
bolt and connecting spring drop off.
9. Remove the clip holding the brake lever to the prim ary
shoe (shoe with short lining).
10. Compress the spring on the brake cable and remove the
cable from the lever.
11. If necessary to remove the anchor pin, straighten the
w asher from pin hex and reinforcem ent. Rem ove
reinforcem ent and washer with anchor pin.
12. If necessary to remove the cable, compress tangs on
cable and pull assembly out of the hole in the flange
plate.
13. If necessary to remove the flange plate, remove the
transm ission flange nut and transm ission output flange.
Rem ove bolts holding th e flange p late to bearing
retainer and remove the flange plate.
Inspection
Replace any worn or broken parts.
Installation
NOTICE: Refer to "N o tice " on Page 1 of this section
when installing fasteners in steps 1, 2 and 4 below.
1. Place the flange plate in position on the rear bearing
retainer and fasten with four bolts. Torque bolts to 24
lb. ft. (33 N-m ).
RETURN
SPRINGS
W AVE
WASHER
FLANGE
LOCK
BRAKE
LEVER
ANCHOR
PIN
STRUT ^
HOLD
DOW N
PIN
STRUT
GUIDE
PLATE
SPRING
DRUM
HOLD D O W N
SPRING
WASHER, SPRING , CUP
SOCKET
A D JU STIN G SCREW
BACKING
PLATE
BRAKE
CABLE
Fig. 5 -4 7 -P ro p s h a ft Parking Brake Components
I IG H T t r u c k s e r v i c e m a n u a l
BRAKES
2. Install transm ission output flange on spline of mainshaft and fasten with flange nut. Torque nut to 100 lb.
ft. (136 N-m).
3. Install cable assembly from back of flange plate. Push
retainer through hole in flange plate until tangs se
curely grip the inner side of the plate.
4. Place washer and reinforcem ent over the threaded end
of anchor pin. Hold anchor pin nut (flat side against
flange on flange plate) in position behind flange plate
and insert threaded end of anchor pin from front side.
T hread the anchor pin into nut and tighten securely
(140 lb. f t . - 190 N -m ). Bend tan g of w asher over
reinforcem ent and side of w asher over hex of anchor
pin.
5. In stall lever on cable by com pressing spring and
inserting cable in channel of lever. Release spring.
6. Install prim ary shoe (short lining) to lever as follows:
Place pin in lever, place w asher on pin and push pin
through hole in prim ary shoe. Fasten parts together by
installing the clip in groove of pin.
7. Fasten two brake shoes and linings together by install
ing connecting spring. Move the shoes toward each
other and install adjusting screw.
8. L ubricate the flange plate contact surfaces with a very
light coat of Delco Brake Lube (or equivalent).
9. Place shoe and linings in position on flange plate.
W hen facing the brake assembly, the shoe with the
short lining should be to th e left w ith the lever
assem bled to it (autom atic transm ission), to the right
(m anual transmission).
10. Pull brake shoes ap art and install stru t lever and spring
between them . The loop on the stru t spring should be in
the " u p " position.
11. Install hold down pins, washers, springs and cups from
flange plate to shoes.
12. Place guide plate on anchor pin.
13. Install pull back springs.
14. Remove the "knock o u t" plug (if necessary) and install
a new m etal plug in the brake drum adjusting hole.
15. Install the brake drum .
16. Install the propeller shaft.
5-43
m etal, while if left alone, the grooves and lining ridges
m atch and satisfactory service can be obtained.
If brake linings are to be replaced, a grooved drum
should be turned for use with new linings. A grooved drum ,
if used with new lining, will not only wear the lining, but will
m ake it difficult, if not impossible to obtain efficient brake
perform ance.
An out-of-round drum m akes ac cu rate brake shoe
adjustm ent impossible and is likely to cause excessive wear
of other parts of brake m echanism due to its eccentric
action. An out-of-round drum can also cause severe and
irregular tire tread wear as well as pulsating brake pedal.
W hen the braking surface of a brake drum exceeds the
factory specification limits in taper (and/or) being out-ofround, the drum should be turned to true up the braking
surface. O ut-of-round as well as taper and wear can be
accurately m easured with an inside m icrom eter fitted with
proper extension rods.
W hen m easuring a drum for out-of-round, taper and
wear, take m easurem ents at the open and closed edges of
m achined surface and at right angles to each other.
Turning Brake Drums
If a drum is to be turned, only enough m etal should be
removed to obtain a true, smooth braking surface. If a drum
does not clean-up when turned to a m axim um diam eter as
shown in the general specification, it m ust be replaced.
Removal of more m etal will affect dissipation of heat and
may cause distortion of the drum .
All brake drums have a maximum diameter cast into
them. This diameter is the maximum wear diameter and not a
refinish diameter. Do not refinish a brake drum that will not
meet the specifications, as shown below, after refinishing.
DRUM D IA M E TE R S
O R IG IN A L
MAXIMUM R E F IN IS H
R E PL A C E M E N T
(D ISC A R D )
11.060
11.210
12.060
13.060
11.090
11.240
12.090
13.090
11.000
11.150
12.000
13.000
BRAKE DRUMS
Brake Drum Balance
Inspection and Reconditioning
NOTICE: See "N o tice" on Page 1 of this section.
W henever brake drum s are removed, they should be
thoroughly cleaned and inspected for cracks, scores, deep
grooves and out-of-round.
A cracked drum is unsafe for fu rther service and must
be replaced. Do not attem pt to weld a cracked drum .
Sm ooth up any slight scores. H eavy or extensive
scoring will cause excessive brake lining wear, and it will
probably be necessary to rebore in order to true up the
braking surface.
If the brake linings are slightly worn and the drum is
grooved, the drum should be polished with fine emery cloth
but should not be turned. A t this stage, elim inating the
grooves in drum would necessitate removal of too much
D uring m anufacture, brake drum s are balanced. Any
balance weights m ust not be removed.
WHEEL CYLINDER
Removal
1. Remove wheel, drum and brake shoes. Be careful not to
get grease or dirt on brake lining.
2. Remove wheel cylinder from backing plate.
Disassembly
1. Inspect cylinder bore for scoring or corrosion. It is best
to replace a corroded cylinder.
2. Polish any discolored or stained area with crocus cloth
by revolving cylinder on cloth supported by a finger.
3. Rinse cylinder in clean brake fluid.
LIG H T T R U C K SERVICE M AN U AL
5-44
BRAKES
4. Shake excessive rinsing fluid from cylinder. Do not use
a rag to dry cylinder, as lint from the rag cannot be kept
from cylinder bore surfaces.
Assembly
1. L ubricate cylinder bore and counterbore with clean
brake fluid and insert spring-expander assembly.
2. Install new cups. (Be sure cups are lint and dirt free.)
Do not lubricate cups prior to assembly.
3. Install new pistons.
4. Press new boots into cylinder counterbores by hand. Do
not lubricate boots prior to assembly.
Installation
NOTICE: See "N o tic e " on page 1 of this section.
1. Install wheel cy linder on brak e backing plate and
connect brake pipe to hose. Torque rear wheel brake
LIG H T TR U C K SFR VICE M AN U AL
pipe to wheel cylinder to specifications.
2. Install brake shoes, drum and wheel; then flush and
bleed hydraulic system.
POWER BRAKE VACUUM HOSE FILTER
Removal
1. Use a pair of pliers to move the hose clam p approx
im ately 2" (50 mm).
2. Twist the filter in the hose to break the seal and remove
the filter.
Installation
1. Install the filter. Be sure the vacuum check valve on the
power brake unit is positioned from vertical as shown in
figure(s) 5-48 and 5-49.
2. Position hose clam p to retain filter.
BRAKES
5-45
C-K MODELS
P MODELS
Fig. 5-48--P ow er Brake Vacuum Hose Filter lnstallation--C-K-P Trucks
LIG H T T R U C K SERVICE M A N U A L
5-46
BRAKES
Fig. 5-49--Power Brake Vacuum Hose Filter lnstallation--G Models
POWER BRAKE UNIT
Vacuum Booster
Replacement (Fig. 5-50)
NOTICE: See "N o tic e " on page 1 of this section when
installing fasteners referred to in steps 6, 7 and 9 below.
1. Remove two nuts holding m aster cylinder to power
cylinder and position it away from power cylinder.
Do not disconnect hydraulic brake lines; be careful not
to bend or kink pipes.
2. Disconnect the vacuum hose from the vacuum check
valve on the front housing of the power head. Plug
vacuum hose to prevent dust and dirt from entering
hose.
3. Disconnect the power brake push rod from the brake
pedal.
4. Remove the four nuts from the m ounting studs which
hold the power brake to the cowl.
5. C arry the power brake to a clean work area and clean
the exterior of the power brake prior to disassembly.
6. M ount power brake assembly to cowl and torque nuts
to specified torque.
9. Connect m aster cylinder to power cylinder and torque
nuts to specifications.
HYDRO-BOOST BRAKE SYSTEM
NOTICE: Power steering fluid and brake fluid cannot be
mixed. If brake seals contact steering fluid or steering
seals contact brake fluid, seal dam age will result.
T he following operations can be perform ed with the
booster installed in the vehicle; exceptions to this statem ent
m ay exist where Body M anufacturers sheet m etal ( " P "
Models) would require removal of the booster from the
vehicle.
Pneumatic Accumulator
CAUTION:The accumulator contains compressed
gas. Always use proper tools and follow recom
mended procedures or personal injury may result.
Do not apply heat to accumulator. Do not attempt
to repair an inoperative accumulator, always
replace with a new accumulator. Dispose of an
inoperative accumulator by drilling a 1/16" (1.6
mm) diameter hole through the end of the accu
mulator can opposite the "O " ring.
Removal
7. Connect power brake push rod to brake pedal.
1. T urn engine off and pum p brake pedal 4 or 5 times to
deplete accum ulator.
8. C onnect vacuum hose to vacuum check valve.
2. Disconnect the high pressure hose.
LIG H T TR U C K SE RV IC E M A N U A L
BRAKES
5-47
4. Place the accum ulator retaining cap Tool J-26889 over
the m aster cylinder stud and install the nut as shown in
Figure 5-51.
5. Using Tool J-22269-01 or a large " C " clam p (6" (150
mm) m inim um ), depress the accum ulator. Insert a
punch into the hole in the housing and remove retaining
ring with a small screwdriver, (fig. 5-51).
If the accum ulator is not easily compressed approx
imately 1/8" (3 m m ) it is still charged. This indicates
an internal problem with the accum ulator valves and
the booster m ust be disassembled.
6. Slowly back off the clam p until tension on the accum u
lator is released; remove accum ulator and "O " ring.
Fig. 5-50--Vacuum Booster Installation
3. Remove two nuts from m aster cylinder, then move
m aster cylinder away from booster with brake lines
attached.
Installation
1. Using clean power steering fluid, lubricate accum ulator
seal. Install seal and accum ulator in housing and then
place the retaining ring over the accum ulator (fig.
5-52). Place Tool J-26889 over accum ulator.
2. Using Tool J-22269-01 or a large " C " clamp (6 " (150
mm ) m inim um ) depress the accu m u lato r m aking
certain th a t the accum ulator is compressed straight
(fig. 5-51).
3. Snap the retaining ring into the housing groove by
pushing it down all the way around w ith a sm all
screwdriver.
4. Remove Tool J-22269-01 or " C " clam p and retaining
cap Tool J-26889.
Carefully check to make sure the retaining ring was
completely installed properly.
5. Connect high pressure hose and check power steering
fluid.
6. Install the m aster cylinder two nuts and accum ulator
retaining cap Tool J-26889 and close the vehicle hood.
Test the unit by starting the engine and turning the
steering wheel from stop to stop a few times. Turn off
engine and apply brake pedal 4 or 5 times.
7. Remove accum ulator retaining cap Tool J-26889 and
install m aster cylinder nut.
LIG H T T R U C K SERVICE M A N U A L
5-48
BRAKES
NOTICE: See "N o tic e " on Page 1 of this section.
Spool Valve Plug
Removal
1. T urn engine off and pum p brake pedal 4 or 5 times to
deplete accum ulator.
2. Remove two nuts from m aster cylinder, then move
m aster cylinder aw ay from booster with brake lines
attached.
3. Push spool valve plug in and use a sm all screwdriver to
remove retaining ring (fig. 5-53).
4. Remove spool valve plug and " O " ring.
Installation
1. Install " O " ring and spool valve plug (fig. 5-53).
2. Push spool valve plug in and install retaining ring.
3. Install m aster cylinder and two nuts to booster.
NOTICE: See "N o tic e " on Page 1 of this section.
4. Bleed system. R efer to "H Y D R O -B O O S T B LEED
IN G P R O C E D U R E ".
SPOOL
RETURN
SPRING
“ O" RING
SPOOL
'P LU G
SPOOL
PLUG
RETAINER
Fig. 5-54--Removing Tube Seat
L IG H T T R U C K SERVICE M A N U A L
Tube Seat
Replacement
1. T urn engine off and pum p brake pedal 4 or 5 tim es to
deplete accum ulator.
2. Clean dirt around fitting before removing fitting, then
disconnect pressure hose a t Hydro-Boost and secure
hose in a raised position to prevent loss of fluid.
3. To prevent m etal chips from entering booster, pack
inside of tube seat with petrolatum .
4. Remove tube seat using N o. 4 easy-out as shown in
Figure 5-54.
5. W ipe p etro latu m from housing and clean housing
thoroughly to remove any m etal chips or dirt.
6. Install tube seat with Tool J-6217 as shown in Figure
5-55.
7. Fill and bleed system. R efer to "H Y D R O -B O O S T
B L E E D IN G P R O C E D U R E ".
BRAKES
^
5-49
G MODELS
MOTOR HOME CHASSIS MODELS
P MODELS (EXCEPT MOTOR HOME)
Fig. 5-56--Booster Installation (Hydro-Boost)
LIG H T T R U C K SERVICE M AN U AL
5-50
BRAKES
Fig. 5 -5 7 -P o w e r Steering Hose R o uting -C -K M odels
LIG H T T R U C K SERVIC E M A N U A L
BRAKES
5-51
Fig. 5 -5 8 -P o w e r Steering Hose R o uting -G M odels
LIG H T T R U C K SERVICE M A N U A L
5-52
BRAKES
LIG H T T R U C K SERVICE M A N U A L
BRAKES
Hydro-Boost Unit
Replacement (fig. 5-56 thru 5-59)
1. D epress and release th e b rak e pedal several tim es
(engine not running) to be sure th at all pressure is
discharged from the accum ulator prior to disconnectiong the hoses from the booster.
2. P30(32) Models- Raise the vehicle on a hoist.
3. Clean all dirt from the booster at the hydraulic line
connections and m aster cylinder.
4. Rem ove th e nuts and lockw ashers th a t secure the
m aster cylinder to the booster and the support bracket.
S upport the m aster cylinder, being careful to avoid
kinking or bending the hydraulic lines attached to the
m aster cylinder. Cover the end of the m aster cylinder
with a clean cloth.
It should not be necessary to disconnect the hydraulic
lines from the m aster cylinder.
5. Disconnect the hydraulic lines from the booster ports.
Plug all lines and the booster ports to prevent loss of
fluid and to keep out foreign m aterial.
6 . P30(42) and C-K-G Modelsa. Rem ove booster pedal push rod co tter pin and
w asher and disconnect the push rod from the brake
pedal (C and K models) or booster bracket pivot
lever (G and P models).
5-53
b. Remove the lower dash trim , then lower the steering
column on C and K models. Remove support braces
on P30 (42) models.
c. Remove the booster bracket to dash panel or support
bracket nuts and remove the booster assembly.
7. P30(32) Modelsa. Remove the cotter pin, nut, bolt and washers th at
secure the operating lever to the vertical brake rod.
b. Remove the six nuts, lock w asher and bolts th at
secure the booster linkage bracket to the front and
rear support brackets, and remove the booster from
the vehicle by sliding the booster off the rear support
studs.
c. Remove the cotter pin, nut, washer and bolt th at
secures the operating lever to the pedal rod.
d. Remove the brake pedal rod lever nut and bolt and
then remove the lever, sleeve and bushings.
8. To install, reverse Steps 1-7 above. Torque all hydraullic lines and attaching bolts to specifications.
L u b ricate pedal rod and linkage pivot bolts, pins,
sleeves and bushings w ith Delco B rake L ube (or
equivalent).
NOTICE: See "N o tice " on Page 1 of this section.
9. Fill and bleed system. R efer to "H ydro-Boost bleeding
procedure."
10. Check brake pedal and stoplam p switch adjustm ent.
SPECIFICATIONS
BRAKE SYSTEM DESCRIPTION
JB5 Low Drag
JB6 Low Drag
JB7 Conventional
JB8 Conventional
JF9 Conventional
REAR BRAKES
FRONT BRAKES
GASOLINE ENGINE VEHICLES
C-MODELS
Drum 11.00 x 2.00
Disc 11.86 x 1.04
Drum 11.00 x 2.00
Disc 11.86 x 1.04
G-MODELS
Drum 11.00 x 2.00
Disc 11.86 x 1.28
Drum 11.00 x 2.00
Disc 11.86 x 1.28
ALL MODELS
Drum 11.15 x 2.75
Disc 11.86 x 1.28
Drum 11.15 x 2.75
Disc 12.50 x 1.28
Drum 13.00 x 2.50
Disc 12.50 x 1.28
Drum 13.00 x 3.50
Disc 12.50 x 1.53
Disc 13.75 x 1.53
Disc 14.25 x 1.53
JD3 Low Drag
JD5 Low Drag
DIESEL ENGINE VEHICLES
Drum 11.00 x 2.00
Disc 11.86 x 1.28
Drum 11.15 x 2.75
Disc 11.86 x 1.28
SYSTEM
JB1 Low Drag
JB3 Low Drag
JB1 Low Drag
JB3 Low Drag
BRAKE ASSIST
None (Manual Brakes)
Vacuum — Single Diaphragm
None (Manual Brakes)
Vacuum — Single Diaphragm
Vacuum — Dual Diaphragm
Vacuum — Dual Diaphragm
Vacuum — Dual Diaphragm
Hydraulic — Hydroboost
Hydraulic — Hydroboost
Hydraulic — Hydroboost
Hydraulic — Hydroboost
LIG H T T R U C K SERVICE M A N U A L
5-54
BRAKES
SPECIFICATIONS
c
M aster C y lin d e r —
to Dash o r B o o ste r
K
P
G
**3 4 N .m (25 ft. lbs.)
**3 4 N .m (25 ft. lbs.)
34 N .m (25 ft. lbs.)
B o o ste r to Dash o r Fram e
**3 4 N .m (25 ft. lbs.)
**3 4 N .m (25 ft.lb s.)
34 N .m (25 ft. lbs.)
34 N«m (25 ft. lbs.)
C o m b in a tio n Valve — M o u n tin g B o lts
17 N*m (150 in.lbs.)
17 N .m (150 in. lbs.)
23 N .m (17 ft. lbs.)
23 N«m (17 ft. lbs.)
34 N«m 125 ft. lb s .l
48 N .m (35 ft. lbs.)
34 N .m (25 (t. lbs.I
C a liper —
—
_
— B ra cke t
M o u n tin g B o lt
_
S u p p o rt Plate to K n u ckle
Brake Pedal —
16 N*m (140 in. lbs.)
B ra c k e t to Dash
34 N .m (25 ft. lbs.)
34 N .m (25 ft. lbs.)
—
B ra c k e t to I.P.
34 N .m (25 ft. lbs.)
34 N .m (25 ft. lbs.)
—
—
Pivot B o lt Nut
34 N .m (25 ft. lbs.)
34 N .m (25 ft. lbs.)
—
— Sleeve to B ra cke t
— S to p la m p S w itch B ra cke t
—
Push Rod to Pedal
—
Push Rod A d ju s tin g Nut
Parking B rake — to Dash
34 N .m (25 ft. lbs.)
—
17 N .m (150 in. lbs.)
—
34 N .m (25 ft. lbs.)
—
34 N .m (25 ft. lbs.)
—
—
9.5 N»m (85 in. lbs.)
34 N .m (25 ft. lbs.)
—
—
34 N .m (25 ft. lbs.)
—
—
—
34 N .m (25 ft. lbs.)
—
30 N .m (22 ft. lbs.)
12 N*m (100 in. lbs.)
12 N .m (100 in. lbs.)
12 N*m (100 in. lbs.)
— to I.P., K ick Panel
o r F loorpan
17 N .m (100 in. lbs.)
17 N»m (100 in. Jbs.)
12 N*m (100 in. lbs.)
24 N .m (18 ft. lbs.)
— Cable C lip s —
Screw s
17 N«m (150 in. lbs.)
—
12 N*m (100 in. lbs.)
17 N*m (150 in. lbs.)
B o lts
17 N .m (150 in. lbs.)
—
24 N .m (18 ft. lbs.)
6 N«m (55 in. lbs.)
—
P ro p sh aft P arking Brake
— A d ju s tin g Nut
—
_
_
_
40 N»m (30 ft. lbs.)
—
—
—
27 N»m (20 ft. lbs.)
— Cable C lip to Fram e
—
—
—
17 N .m (150 in. lbs.)
— Cable C lip to Dash
—
—
—
6 N .m (55 in. lbs.)
— Cable C lip to Trans. B rkt.
—
—
—
27 N .m (20 ft. lbs.)
— Flange Plate
—
—
—
40 N .m (30 ft. lbs.)
— Drum
—
—
—
110 N .m (80 ft. lbs.)
—
B ra cke t to Trans.
Wheel C ylin d e r to F lange Plate B o lt
5.5 N*m (50 in. lbs.)/20 N*m (180 in. lbs.) on JB5, JB6, JB 7 and JB8
Rear Brake A n c h o r Pin
190 N .m (140 ft. Ibs.)/312 N .m (230 ft. lbs.) JB 7 and JB8)
F ro n t Brake Hose — to C a lip e r
44 N«m (32 ft. lbs.)
— to Fram e Nut
— B ra cke t B o lt
7 N«m (58 in. lbs.)
17 N«m (150 in. lbs.)
—
Rear Brake Hose — to A xle B ra cke t
*17 N .m (150 in. lbs.)
*17 N .m (150 in. lbs.)
—
17 N .m (150 in. lbs.)
17 N«m (150 in. lbs.)
17 N«m (150 in. lbs.)
17 N .m (150 in. lbs.)
B ra cke t to Axle
Brake Line — A tta c h in g Nuts
—
—
17 N .m (150 in. lbs.)
17 N .m (150 in. lbs.)
17 N*m (150 in. lbs.)
17 N .m (150 in. lbs.)
R e ta in in g C lip s —
—
Screws
B o lts
—
—
Brake B le e d e r Valves
H yd ro-B o o st —
— Pedal Rod —
17 N .m (150 in. lbs.)
10 N*m (90 in. lbs.)
12 N*m (100 in. lbs.)
17 N*m (150 in. lbs.)
17 N*m (150 in. lbs.)
24 N .m (18 ft. lbs.)
7 N»m (60 in. lbs.)
_
_
_
—
—
—
20 N-m (15 ft. lbs.)
Pivot Lever Rod R etainer
—
—
—
34 N .m (25 ft. lbs.)
—
Pivot Lever B o lt
—
—
—
60 N .m (45 ft. lbs.)
—
B o o ste r B ra cke ts
—
—
—
34 N .m (25 ft. lbs.)
—
—
—
17 N»m (150 in. lbs.)
P30 (32) M odels
—
Pedal Rod B o o t —
—
P30 (32) M odels
— B o o ste r Brace at Dash o r Rad. Supt.
—
Pow er S teering Pum p to B o o ste r Line
34 N*m (25 ft. lbs.)
—
B o o ste r to Gear Line
34 N .m (25 ft. lbs.)
—
R eturn Line at B o o ste r and Gear
34 N .m (25 ft. lbs.)
—
R eturn Lin e C lam p S crew
1.6 N«m (15 in. lbs.)
—
Line C lam p to B ra cke t Screw
17 N .m (150 in. lbs.)
— Hose C lam p to S k irt S crew
4.6 N»m (40 in. lbs.)
—
—
—
17 N .m (150 in lbs.)
—
—
Lin e C lam p to Fram e B o lt
*27 N.m (20 ft. lbs.)
**4 4 N«m (32 ft. lbs.) — Master Cylinder to Booster
— Master Cylinder or Booster to Dash Reinforcement
L IG H T T R U C K SE RV IC E M AN U AL
34 N .m (25 ft. lbs.)
—
17 N*m (150 in. lbs.)
(CKP20-30)
BRAKES
5-55
SPECIAL TOOLS
1.
2.
3.
4.
5.
6.
7.
J-25310 Tubing Bender
J23530 Flaring Tool
J-23533 Tubing Cutter
J-25085 Socket
J-8049 or J-22348 Spring Remover
J-21177 or J-22364 Drum/Shoe Gauge
J-21472 or J-22364 Bleeder Wrench
L IG H T T R U C K SERVICE M A N U A L
8. J-22904 Dust Boot Installer
J-28735 Dust Boot Installer (JB7)
9. J-24548 Dust Boot Installer
10. J-26889 Accumulation Piston Compressor
11 • J-23709 Combination Valve Pin Retainer
12. J-23518 Pressure Bleeder Adater
13. J-26819 Pressure Bleeder Adapter
1 4 . J-26819-25 Bleeder Adapter Clamp (Long)
15. J-26819-30 Bleeder Adapter Extension
/* *
a
--’
c\ (■
f I
=■I
...* •
*:.#•"'■
'
■
'■
"5*.
V
•-
•, 1
!::
Jl \
/p \
m
-
a '"
.
■
,
• h i ■
'V>
/
$ . >e«
< §>
:A::
ii
'
Vtoe* »/ 1u *0Vi’c - .*i
- '" S i ) \
V
I ,.
o* - ' : u 0
: • '•. • •••'Ortrc^ /w rtfi* n^i*£i*'ji't' m.>A'
Cl
]:
.
*»r-
I
’"
^
ft*
r ‘", . » L
‘
■•
*^^V': , ?
. «. : - - 0 yc.- "'•. '
n&Uf'^K *
\
f *
^
. -* J - t
j (v '
>*;■' h ii > t n
’<
v '.i l O
M
>r
» ? * & 2 “ ' ■ .**
e v a ^ .? ^sV,
- v . v :
:•**. ••’ o - W 3 c X - ? , .**i
T fH . r
j r
*
t v>
f
. r . : ' : v . f i J
\ ' , t i
3** I ,
0
^
.
;
'a - .* :,-d \ ’ ''
-
•■■:
' “
* vf
-v
• ; . ': ’ t r r < - .
* r» '* t * ■'
\
ENGINE
6-1
SECTION 6
ENGINE
CONTENTS
E N G IN E D IA G N O S IS
Engine Perform ance D iagnosis............................. .....6-1
Engine M echanical Diagnosis - G asoline.......... .....6-10
Engine M echanical Diagnosis - D iesel............... .....6-14
Engine Diagnosis - Electronic Spark C o n tro l... .....6D-1
E N G IN E - G A S O L IN E
4.1 L (250) V IN (D) L -L -R P O L E 3................ — 6 A 1-1
4.8 L (292) VIN (T) L -6 -R P O L 2 5 ................. — 6 A 1-1
5.0 L (305) V IN (G ) V -8 -R P O L G 9................ — 6 A 4 -1
5.0 L (305) V IN (F) V -8 -R P O L F 3 ................. .... 6A4-1
5.0 L (305) V IN (H ) V -8 -R P O L E 9 ................ .... 6A4-1
5.7 L (350) V IN (L) V -8 -R P O L S 9 .............. ........6A4-1
5.7 L (350) V IN (M ) V -8 -R P O L T 9 ............ ....... 6A4-1
7.4 L (454) V IN (W ) V -8 -R P O L E 8 ............ ........ 6A5-1
E N G IN E - D IE SE L
5.7 L (350) V IN (Z ) V -8 -R P O L F 9 ............. ........6A6-1
E N G IN E C O O L IN G ........................................... .........6B-1
E N G IN E F U E L ..............................................................6C-1
E N G IN E E L E C T R IC A L .................................... ........ 6D-1
E N G IN E E M IS S IO N C O N T R O L S ............... ....... 6E-1
C O M P U T E R C O M M A N D C O N T R O L ................ 6E1-1
E N G IN E E X H A U S T ........................................... ........ 6F-1
E N G IN E P E R F O R M A N C E S P E C IF IC A T IO N S 6G-1
ALL N E W G E N E R A L M O T O R S V E H IC L E S A R E C E R T IF IE D BY T H E U N IT E D STA TES E N V IR O N M E N
T A L P R O T E C T IO N A G E N C Y AS C O N F O R M IN G TO T H E R E Q U IR E M E N T S O F T H E R E G U L A T IO N S FOR
T H E C O N T R O L O F A IR P O L L U T IO N FRO M N E W M O TO R V E H IC L E S. T H IS C E R T IF IC A T IO N IS C O N T IN
G E N T ON C E R T A IN A D JU S T M E N T S BEIN G SE T TO FA C T O R Y ST A N D A R D S . IN M OST C A SES, TH ESE
A D JU S T M E N T PO IN T S E IT H E R H A V E BEEN P E R M A N E N T L Y S E A L E D A N D /O R M ADE IN A C C E SSIB L E
TO PR E V E N T IN D IS C R IM IN A T E O R R O U T IN E A D JU S T M E N T IN T H E FIELD . FOR T H IS R E A S O N , THE
F A C T O R Y P R O C E D U R E FO R T E M P O R A R IL Y R E M O V IN G PL U G S , C A P S , E TC ., FOR P U R P O S E S O F
S E R V IC IN G T H E P R O D U C T M U S T BE S T R IC T L Y F O L L O W E D A N D , W H E R E V E R P R A C T IC A B L E ,
R E T U R N E D TO T H E O R IG IN A L IN T E N T O F T H E D E SIG N .
GENERAL INFORMATION
STATEMENT ON CLEANLINESS
AND CARE
An autom obile engine is a com bination of m any
m achined, honed, polished and lapped surfaces with toler
ances th at are measured in the ten thousands of an inch.
W hen any internal engine parts are serviced, care and
cleanliness are im portant. A liberal coating of engine oil
should be applied to friction a reas d uring assem bly to
p rotect and lu b ricate the su rfaces on initial operation.
T hroughout this section, it should be understood that proper
cleaning and protection of machined surfaces and friction
areas is part of the repair procedure. This is considered
standard shop practice even if not specifically stated.
W henever valve train com ponents are removed for
service, they should be retained in order. At the tim e of
installation, they should be installed in the same locations
and with the sam e m ating surfaces as when removed.
Battery cables should be disconnected before any major
work is performed on the engine. Failure to disconnect
cables may result in dam age to wire harness or other
electrical parts.
GENERAL INFORMATION ON
ENGINE SERVICE
T H E F O L L O W IN G IN F O R M A T IO N ON E N
G IN E S E R V IC E S H O U L D BE N O T E D C A R E FU L L Y ,
AS IT IS IM P O R T A N T IN P R E V E N T IN G D AM AGE,
A N D IN C O N T R IB U T IN G TO R ELIA B LE E N G IN E
PERFO RM A N CE.
W hen raising or supporting the engine for any reason,
do not use a jack under the oil pan. Due to the small
clearance between the oil pan and the oil pump screen,
jacking against the oil pan may cause it to be bent against
the pump screen resulting in a dam aged oil pick-up unit.
It should be kept in mind, while working on the engine,
that the 12-volt electrical system is capable of violent and
dam aging short circuits. W hen perform ing any work where
electrical term inals could possibly be grounded, the ground
cable of the battery should be disconnected at the battery
Any tim e the carburetor or air cleaner is removed, the
intake opening should be covered. This will protect against
accidental entrance of foreign m aterial which could follow
the intake passage into the cylinder and cause extensive
dam age when the engine is started.
LIG H T T R U C K SERVICE M AN U AL
6-2
ENGINE
IN
THE
M E C H A N IC A L
PR O C E D U R ES
DESCRIBED IN TH IS SECTIO N , G E N E R A L L Y NO
R EFEREN C ES W IL L BE M A D E TO T H E REM O V A L
OF O P T IO N A L E Q U IP M E N T SUCH AS PO W ER
STEER IN G
PU M P,
A IR
C O N D IT IO N IN G
COM PRESSOR, ETC.
SH O U LD IT BECO M E N ECESSA RY TO REM OVE
\N Y SUCH ITEM TO P E R FO R M O T H E R SERVICE,
R.EFER TO T H E A P P R O P R IA T E SECTIO N O F TH IS
SERVICE M A N U A L FO R SPE C IFIC IN FO R M A T IO N .
Each Symptom is defined, and it is vital that the correct
one be selected based on the com plaints reported or found.
Review the Symptoms and their definition to be sure
that only the correct term s are used.
The words used may not be what you are used to in
all cases, but because these term s have been used
interchangeably for so long, it was necessary to decide on
the most common usage and then define them. If the
definition is not understood, and the exact Symptom is not
used, the Diagnostic procedure will not work.
It is im portant to keep two facts in mind:
INTRODUCTION
Engine Perform ance Diagnosis procedures are guides
that will lead to the most probable causes of engine
performance complaints. They consider all of the
components of the fuel, ignition, and mechanical systems
that could cause a particular com plaint, and then outline
repairs in a logical sequence.
It is im portant to determ ine if the “ Check Engine” light
is “ON” or has come “O N ” for a short interval while
driving. If the “ Check Engine” light has come “O N ” , the
Computer Com m and Control System should be checked for
stored “Trouble Codes” (See Section 6E) which may
indicate the cause for the perform ance complaint.
1. The procedures are w ritten to diagnose problems on
cars that have “ run well at one tim e” and that time and wear
have created the condition.
2. All possible causes cannot be covered, particularly
with regard to emission controls. If doing the work
prescribed does not correct the com plaint, then either the
wrong Symptom was used or a m ore detailed analysis will
have to be made.
All of the Symptoms can be caused by worn out or
defective parts such as Spark Plugs, Ignition Wiring, etc. If
time a n d /o r mileage indicate that parts should be replaced,
it is recommended that it be done.
The procedures are based on Symptoms that are listed
in che Table of Contents.
SYMPTOM
DEFINITION
A. Dieseling
Engine continues to run after the switch is turned off. It runs unevenly
and makes knocking noises.
B. D etonation
A mild to severe ping, usually worse under acceleration. The engine makes sharp
metallic knocks that change with throttle opening. Sounds like pop corn popping.
C. & D. Stalls,
Cold or H ot
The engine quits running. It may be at idle or while driving.
C. & D. Rough Idle,
Cold or Hot
The engine runs unevenly at idle. If bad enough, it may make the car shake.
E. Miss
Steady pulsation or jerking that follows engine speed, usually more
pronounced as engine load increases. N ot normally felt above 1500 rpm
or 30 mph. The exhaust has a steady spitting sound at idle or low speed.
F. Hesitates
M om entary lack of response as the accelerator is depressed. Can occur at
all car speeds. Usually most severe when first trying to make the car
move, as from a stop sign. May cause the engine to stall if severe enough.
G. Surges
Engine power variation under steady throttle or cruise. Feels like the
car speeds up and slows down with no change in the accelerator pedal.
H. Sluggish
Engine delivers limited power under load or at high speed. W on’t accelerate
as fast as normal; loses too much speed going up hills, or has less top speed
than normal.
I. Spongy
Less than the anticipated response to increased throttle opening. Little
or no increase in speed when the accelerato r pedal is pushed down a little
LIG H T T R U C K SERVICE M AN U AL
ENGINE
6-3
to increase cruising speed. C ontinuing to push the pedal down will finally
give an increase in speed.
J. Poor Gas Mileage
Self describing.
K. Cuts O ut
The engine exhibits a significant or total tem porary
loss of power at sharp, irregular intervals. This may occur repeatedly
or interm ittently and is usually worse under heavy acceleration.
L. H ard Start - Cold
Self describing
M. H ard Start - Hot
Self describing
ENGINE PERFORMANCE DIAGNOSIS
A. Dieseling
1. Make visual checks of the following for sticking.
a. Carburetor, choke, and throttle linkage
b. Fast idle cam
See cleaning, inspection, and adjustm ent of carburetor, Section 6C.
2. See ISC diagnosis if applicable.
3. Check and reset ignition timing and idle speed settings.
Refer to emission la
4. Remove carbon with top engine cleaner. Follow instructions on can.
If condition still exists, suggest that owner try different gasoline.
B. D etonation
1. Check for obvious overheating problems.
a. Low coolant
b. Loose fan belt
c. Restricted air flow, etc.
2. For “ non-EST” check ignition timing per emission control inform ation label.
3. For “ EST or ESC” see diagnosis Section 6D, 6E.
4. Perform EG R functional check see Section 6E.
5. Remove carbon with top engine cleaner. Follow instructions on can.
If condition still exists, suggest that owner try different gasoline.
C. Stalls or Rough
Idle - Cold
1. W ith engine running, remove air cleaner cover and filter. D am per door
in air cleaner snorkel should be closed when engine is cold. It may be
necessary to place cold wet rag over sensor to close it if engine is too warm.
If dam per door does not close, apply vacuum directly to vacuum motor. If
door closes, replace sensor. If door stays open, replace vacuum motor.
2. Visually check the following:
a. H ot air tube to air cleaner connection and condition of hot air stove.
b. Vacuum hoses for splits, kinks and proper connections. See Hose R outing
Schematic on Vehicle Emission Control Inform ation Label.
c. A ir leaks at carburetor m ounting and intake manifold.
d. Ignition wires for cracking, hardness and proper connections.
R epair or replace as necessary.
LIG H T T R U C K SERVICE M A N U A L
6-4
ENGINE
3. Check the following for sticking:
a. Carburetor, choke, and throttle linkage.
b. Fast idle cam.
c. C arburetor flooding.
See cleaning, inspection and adjustm ent of carburetor, Section 6C.
4. W ith engine running, visually check vacuum break linkage for movement while
removing and reinstalling vacuum hose. If the linkage does not move and vacuum
is at hose, replace vacuum break assembly.
5. W ith engine off, check all choke adjustments. See Section 6C.
6. Check engine timing and idle speed. See Emission Control Inform ation Label.
7. Remove vacuum hose from E.G .R. valve and connect an extra hose from any
manifold vacuum source to valve. If rpm doesn’t drop, valve is leaking.
See E.G .R. Section 6E for further functional tests, cleaning, a n d /o r replacement.
8. Check E.F.E. valve.
D isconnect E.F.E. hose from tube and connect an extra vacuum hose from any
manifold vacuum source to E.F.E. tube.
Observe actuator linkage for movement. If no movement, repair as necessary.
Refer to Section 6E for further test a n d /o r repair.
D. Stalls or Rough
Idle - Hot
1. W ith engine running, remove air cleaner cover and filter. D am per door in
air cleaner snorkel should be open. If closed and engine is hot, check
tem perature operation of sensor unit. See air cleaner tem perature test,
Section 6E.
2. Visually check the following:
a. Vacuum hoses for splits, kinks and proper connections. See hose routing
Schematic, Vehicle Emission Control Inform ation Label.
b. A ir leaks at carburetor m ounting and intake manifold.
c. Ignition wires for cracking, hardness and proper connections. Repair or
replace as necessary.
d. Check idle solenoid - Replace as necessary - See idle solenoid Section 6E.
3. Check engine tim ing and idle speed. See emission control inform ation label.
4. Check P.C.V. valve for proper operation by placing finger over inlet hole
in valve end several times. Valve should snap back. If not, replace valve.
5. Remove vacuum hose from E.G .R. valve and connect an extra hose from any
manifold source to valve. If rpm doesn’t drop, valve is leaking. See E.G.R.
Section 6E for further functional tests, cleaning a n d /o r replacement.
6. Remove carbon with top engine cleaner. Follow instructions on can. If
idle is still rough, run a cylinder compression check.
E. Miss
LIG H T T R U C K SERVICE M A N U A L
1. Visually check the following:
a. Vacuum hoses for splits, kinks and proper connections. See hose routing
Schematic, Vehicle Emission Control Inform ation Label.
b. A ir leaks at carburetor m ounting and intake manifold.
c. Ignition wires for cracking, hardness and proper connections. Repair or
ENGINE
6-5
replace as necessary.
2. Disconnect air cleaner and E.G .R. vacuum hoses and cap both vacuum sources.
3. Remove one spark plug wire at a time with insulated pliers. If there is
an rpm drop on all cylinders, go to rough idle (hot) diagnosis charts.
4. If there is no rpm drop on one or more cylinders (See
Section 6D Interm ittent Operation or Miss), remove spark plug(s)
and check for:
a. Cracks
b. W ear
c. Im proper gap
d. Burned Electrodes
e. Heavy Deposits
Repair or replace as necessary.
5. Check spark plug wires by connecting ohm m eter to ends of each wire in question.
If m eter reads over 50,000 ohms, replace wire(s).
:
' '
6. Visually check distributor cap and rotor for moisture, dust, cracks,
burns, etc. Clean a n d /o r repair as necessary.
7. Perform compression check on questionable cylinder(s). If compression is low,
repair as necessary.
8. Remove rocker covers. Check for bent push rods, worn rocker arms, broken
valve springs, worn cam shaft lobes. Repair as necessary.
Laaofte tx'iiros'/ .m jjuzsv "clr.viqQf b m ■jinyq rtujsz&v I'bsmit-O
F. Hesitates
1. Visually check the following:
a. Vacuum hoses for splits, kinks and proper connections. See hose routing
charts, Section 6E.
b. A ir leaks at carburetor m ounting and intake manifold.
c. Check ignition wires for cracking, hardness and proper connections.
Repair and replace as necessary.
2. Note: Cold Engine Only
Check the following for sticking or faulty operation:
a. C arburetor, choke, and throttle linkage.
b. Fast idle cam.
See cleaning, inspection and adjustm ent of carburetor, Section 6C.
3. Check carburetor accelerator pum p operation. W ith air cleaner removed and
engine off, hold choke valve open and look for gas squirt in carburetor bore
while moving throttle.
4. If weak or no pump squirt, remove carburetor air horn and repair pum p system as
necessary. See air horn removal, cleaning and inspection, Section 6C for
proper procedures. Check float level adjustm ent before replacing air horn
and pum p rod adjustm ent after assembly. See Float Adjustm ent, Section 6C.
5. Disconnect and plug vacuum advance hose,(Non-EST) on EST equipped
engines disconnect EST connector, connect tachom eter and timing light.
Check ignition timing and idle speed against specs on emission label.
6. W ith engine running, remove air cleaner cover and filter. D am per door in
LIG H T T R U C K SERVICE M A N U A L
6-6
ENGINE
air cleaner snorkel should be closed when engine is cold. It may be necessary
to place cold wet rag over sensor to close if engine is too warm.
If dam per door does not close, apply vacuum directly to vacuum motor. If
door closes, replace sensor. If door stays open, replace vacuum motor.
7. Check TPS adjustm ent if applicable see Section 6C.
G. Surges
1. W ith engine running, remove air cleaner cover and filter. D am per door in
air cleaner snorkel should be closed when engine is cold. It may be necessary
to place cold wet rag over sensor to close if engine is too warm.
2. Visually check the following:
a. Vacuum hoses for splits, kinks and proper connections. See hose routing
Schematic, Vehicle Emission Control Inform ation Label.
b. A ir leaks at carburetor m ounting and intake manifold.
c. Ignition wires for cracking, hardness and proper connections. R epair or
replace as necessary.
3. “ Non EST” check ignition timing per emission control inform ation label.
To check m echanical advance, observe timing marks. It should advance
as throttle is opened and return to m ark as throttle is closed.
Check EST operation if applicable.
4. “ Non EST” with engine off, remove vacuum hose from distributor vacuum advance
Connect vacuum pum p and apply 15" vacuum. Vacuum should hold steady for 15
seconds. If vacuum drops, replace vacuum advance unit.
5. Check carburetor fuel inlet filter. Replace if dirty or plugged.
6. Test fuel pum p by connecting hose from carburetor fuel feed line to a suitable
container. Start engine and let idle for 15 seconds.
a. M echanical pum p should supply 1/2 pint or more. If not, go to step 7.
If O K, go to step 9.
7. To check m echanical fuel pum p connect a vacuum gage. Crank or run
engine until m aximum vacuum is reached. If less than 12 inches, replace
pump. If vacuum reading is 12 inches or more, go to step 8.
8. Check fuel lines and hoses for splits, leaks or kinks by disconnecting each
section of line and connect vacuum gage. Crank or run engine until vacuum
gage peaks. Vacuum should be at least 12 inches. If less, repair or replace
defective line or hose.
9. If fuel lines and pum p check O K , remove tank unit, replace strainer and
clean fuel tank, if necessary.
10. Remove spark plugs, Check for cracks, wear, im proper gap, burned electrodes,
heavy deposits. R epair or replace as necessary.
LIG H T T R U C K SERVICE M A N U A L
ENGINE
H. Sluggish or Spongy
6-7
1. Rem ove air cleaner and check air filter for dirt or being plugged.
Replace as necessary.
2. W ith engine running, dam per door in air cleaner snorkel should be closed when
engine is cold. It may be necessary to place cold wet rag over sensor to close
if engine is too warm.
If dam per door does not close, apply vacuum directly to vacuum m otor. If
door closes, replace sensor. If door stays open, replace vacuum m otor.
3.
Check ignition timing per em ission label.
Without EST check m echanical advance as throttle is
opened and closed.
Check EST if applicable see Section 6C-6E.
4. Remove air cleaner and check for full throttle valve opening in carburetor
by depressing accelerator pedal to floor; also check for full choke valve
opening and free operating air valve (if equipped). R epair as necessary.
See carburetor cleaning and inspection, Section 6C.
5. Rem ove vacuum hose from E.G .R . valve and connect an extra hose from any
m anifold vacuum source to valve. If rpm doesn’t drop, valve is leaking.
See E .G .R . Section 6E for further functional tests, cleaning, a n d /o r replacem ent.
6. “ N on EST” with engine off, remove vacuum hose from distributor vacuum advance
vacuum pum p and apply 15" vacuum. Vacuum should hold steady for 15 seconds.
If vacuum drops, replace vacuum advance unit.
7. Remove spark plugs. Check for cracks, wear, im proper gap, burned electrodes,
heavy deposits. Repair or replace as necessary.
8. Remove carburetor air horn and check the following:
a. Power piston for freeness
b. D irt in carburetor
c. Float adjustment
d. M etering rods
e. Power valve(s)
Refer to carburetor cleaning and inspection, Section 6C.
I. Poor Gasoline
Mileage
1. W ith engine running, remove air cleaner cover and filter. Check
filter for dirt or being plugged. Replace as necessary. D am per door in air
cleaner snorkel should be closed when engine is cold. It may be necessary
to place cold wet rag over sensor to close it if engine is too warm.
If dam per door does not close, apply vacuum directly to vacuum motor.
If door closes, replace sensor. If door stays open, replace vacuum motor.
2. Visually check the following:
a. Vacuum hoses for splits, kinks and proper connections. See hose routing
Schematic, Vehicle Emission Control Inform ation Label.
b. A ir leaks at carburetor m ounting and intake manifold.
c. Ignition wires for cracking, hardness and proper connections. Repair
or replace as necessary.
3. Check ignition timing per emission control information label.
“ Non EST” To check mechanical advance, observe timing mark. It should advance
throttle is opened and return to m ark as throttle is closed.
LIG H T TR U C K SERVICE M A N U A L
6-8
ENGINE
Check EST if applicable, Section 6D-6E.
4. Check carburetor choke linkage and settings. Clean and repair as necessary.
See carburetor choke adjustments, cleaning and inspection, Section 6C.
5. “N O N EST” with engine off, remove vacuum hose from distributor vacuum advance
vacuum pum p and apply 15" vacuum. Vacuum should hold steady for 15 seconds.
If vacuum drops, replace vacuum advance unit.
6. Remove spark plugs, check for cracks, wear, im proper gap, burned electrodes,
heavy deposits. Repair or replace as necessary.
7. I f in p re v io u s c h eck s, a d ju s tm e n ts have n o t b e e n m ad e th a t c o u ld
im p ro v e m ileag e, rem o v e c a rb u re to r air h o rn an d c h e ck th e fo llow ing:
a.
b.
c.
d.
e.
See
Power piston for freeness
D irt in jets and metering passages
M etering rods
Power valve(s)
Float adjustm ent
carburetor cleaning, inspection, and adjustments, Section 6C.
8. Suggest owner fill tank and recheck mileage.
J. Cuts O ut
1. Check ignition wires, boots, cap and coil for:
a. Dam age
b. D eterioration
c. Loose connections
d. Carbon tracking
Clean, tighten a n d /o r replace defective parts as necessary.
2. Check ignition system - See Section 6E.
Check distributor for:
a. W orn shaft
b. Bare or shorted wires
R epair or replace defective parts as necessary.
3. Remove spark plugs. Check for cracks, wear, im proper gap, burned electrodes,
heavy deposits. R epair or replace as necessary.
4. Check carburetor fuel inlet filter. Replace if dirty or plugged.
5. Test fuel pum p by connecting hose from carburetor fuel feed line to a
suitable container. Start engine and let idle for 15 seconds.
a. F u e l pump should supply 1/2 pint or more. If not, go to step 7.
6. To check m echanical fuel pum p, disconnect inlet hose at pum p and connect
a vacuum gage. C rank or run engine until m axim um vacuum is reached. If
less than 12 inches, replace pump. If vacuum reading is 12 inches or more,
go to step 8.
LIG H T T R U C K SERVIC E M A N U A L
ENGINE
6-9
7. Check fuel lines and hoses for splits, leaks or kinks by disconnecting
each section of line and connecting a vacuum gage. Crank or run engine until
vacuum gage peaks. Vacuum should be at least 12 inches. If less, repair or
replace defective line or hose as necessary.
8. If fuel pum p and fuel lines check O K , remove tank unit, replace strainer
and clean fuel tank, if necessary.
If carburetor is suspected, remove the air horn and check the
following:
a. Power Piston(s) or main fuel piston for freeness.
b. D irt in jets and m etering passages.
c. M etering rods.
d. Power valve(s) or main fuel valve(s).
e. Float adjustment.
See C arburetor Cleaning Inspection and A djustm ent, Section 6C.
K. H ard Starting - Cold
(Engine Cranks O K )
1. Visually check the following:
a. Vacuum hoses for splits, kinks and proper connections. See hose routing
charts, Section 6E.
b. A ir leaks at carburetor m ounting and intake manifold.
c. Ignition wires for cracking, hardness, proper connections, and carbon
tracking. Repair or replace as necessary.
d. Check choke and vacuum break operation and adjustm ent.
2. Check ignition timing per emission control inform ation label.
“N on EST” if tim ing is too early - speed up engine to see if timing m ark moves
If not, check for stuck mechanical advanace. Refer to Section 6D. Repair
as necessary and recheck timing.
Check EST if applicable Section 6D-6E.
3. Check the following:
a. Choke, throttle linkage and fast idle cam for sticking.
b. C arburetor flooding.
Clean and repair as necessary. If repairs are necessary, see carburetor,
cleaning and inspection, Section 6C.
4. Check ignition system - Section 6D.
Check distributor for:
a. W orn shaft
b. Bare and shorted wires
c. Repair or replace as necessary.
5. Remove spark plugs. Check for cracks, wear, im proper gap, burned electrodes,
heavy deposits. Repair or replace as necessary.
6. Test fuel pump by connecting hose from carburetor fuel feed line to a
suitable container.
Start engine and let idle for 15 seconds. Pum p should supply 1/2 pint or more.
If m ore than 1/2 pint, check filter in carburetor. Replace if necessary.
If less than 1/2 pint, for mechanical pum p go to step 7.
7. Disconnect inlet hose at pum p and connect a vacuum gage. C rank or run engine
LIG H T T R U C K SERVICE M A N U A L
6-10
ENGINE
until maximum vacuum is reached. If less than 12 inches, replace pump. If
more than 12 inches, go to step 8.
8. Check fuel lines and hoses for splits, leaks or kinks by disconnecting each
section of line and connect vacuum gage. C rank or run engine until vacuum gage
peaks. Vacuum should be at least 12 inches. If less, repair or replace
defective line or hose.
9. If fuel lines and pump check O K, remove tank unit, replace strainer and clean
fuel tank, if necessary.
L. H ard Starting - Hot
(Engine cranks O K )
1. Visually check the following:
a. Vacuum hoses for splits, kinks and proper connections. See hose routing
Schematic, Vehicle Emission Control Inform ation Label.
b. A ir leaks at carburetor m ounting and intake manifold.
c. Ignition wires for cracking, hardness, proper connections, and carbon
tracking. Repair or replace as necessary.
2. Check ignition timing per emission control information label.
’’Non E S T ” If timing is too early - speed up engine to see if timing m ark moves
If not, check for stuck mechanical advance. Refer to Section 6D. Repair
as necessary and recheck timing.
Check EST if applicable see Section 6D.
3. Check the following:
a. Choke, throttle linkage and fast idle cam for sticking.
b. C arburetor flooding.
Clean and repair as necessary. If repairs are necessary, see carburetor,
cleaning and inspection, Section 6C.
4. Check ignition system Section 6D.
Check distributor for:
a. W orn shaft
b. Bare and shorted wires
c. Faulty pick up coil, module, ignition coil, and shorted condenser. Repair
or replace as necessary.
5. Remove spark plugs. Check for cracks, wear, im proper gap, burned electrodes,
heavy deposits. Repair or replace as necessary.
6. Also check steps 6, 7, 8, 9 - H ard Starting - Cold.
Emission Non-Compliance, See Section 6E.
ENGINE MECHANICAL DIAGNOSIS
The following diagnostic information covers common problems and possible causes. When the proper
diagnosis is made, the problem should be corrected by adjustment, repair or part replacement as required. Refer
to the appropriate section of the manual for these procedures.
CONDITION_________________POSSIBLE CAUSE___________ CORRECTION________________
Excessive Oil Loss
LIG H T T R U C K SERVICE M A N U A L
a. External oil leaks.
1. Tighten bolts a n d /o r replace
gaskets and seals as necessary.
b. Im proper reading of
dipstick.
1. Check oil with car on a level surface
and allow adequate drain down time.
ENGINE
Low Oil Pressure
c. Im proper oil viscosity.
1. Use recommended S.A.E. viscosity
for prevailing tem peratures.
d. C ontinuous high speed
driving a n d /o r severe
usage such as trailer
hauling.
1. C ontinuous high speed
operation a n d /o r severe
usage will normally cause
decreased oil mileage.
e. P.C.V. system
m alfunctioning.
1. Service as necessary.
f. Valve guides a n d /o r
valve stem seals worn,
or seals omitted.
1. Ream guides and install
oversize service valves
a n d /o r new valve stem seals.
g. Piston rings not
seated, broken or worn.
1. Allow adequate time for
rings to seat.
2. Replace broken or worn
rings as necessary.
h. Piston im properly
installed or misfitted.
1. Replace piston or
repair as necessary.
a. Slow idle speed
1. Set idle speed to spec.
b. Incorrect or
m alfunctioning oil
pressure switch.
1. Replace with proper switch.
c. Incorrect or
malfunctioning oil
pressure gage.
1. Replace with proper gage.
d. Im proper oil viscosity
or diluted oil.
1. Install oil of proper viscosity
for expected tem perature.
2. Install new oil if diluted with
m oisture or unburned fuel mixtures.
e. Oil pum p worn
or dirty.
1. Clean pum p and replace
worn parts as necessary.
f. Plugged oil filter.
1. Replace filter and oil.
g. Oil pickup screen
loose or plugged.
1. Clean or replace screen
as necessary.
h. Hole in oil pickup
tube.
1. Replace tube.
i. Excessive bearing
clearance.
1. Replace as necessary.
j. Cracked, porous or
plugged oil galleys.
1. Repair or replace block.
k. Galley plugs missing
or misinstalled.
1. Install plugs or
repair as necessary
6-11
LIG H T TR U C K SERVICE M A N U A L
6-12
ENGINE
Valve Train Noise
1. Poor seal at timing
cover gasket (231
engine only).
1. Replace gasket.
a. Low oil pressure.
1. Repair as necessary. (See diagnosis
for low oil pressure.)
b. Loose rocker arm
attachm ents.
1. Inspect and repair as
necessary.
c. W orn rocker arm
a n d /o r pushrod.
1. Replace as necessary.
d. Broken valve spring.
1. Replace spring.
e. Sticking valves.
1. Free valves.
f. Lifters worn, dirty
or defective.
1. Clean, inspect, test
and replace as necessary.
g. Cam shaft worn or
poor machining.
1. Replace camshaft.
h. W orn valve guides.
1. Repair as necessary.
ENGINE KNOCK DIAGNOSIS
CONDITION
POSSIBLE CAUSE
CORRECTION
a. Engine knocks
cold and continues
for two to three
minutes. Knock
increases with torque.
1. E FE equipped engines
may have valve knock.
2. Flywheel contacting
splash shield.
3. Loose or broken
balancer or drive
pulleys.
4. Excessive piston to
bore clearance.1
1. Replace E FE valve.
b. Engine has heavy
knock hot with
torque applied.
LIG H T T R U C K SERVIC E M A N U A L
1. Broken balancer or
pulley hub.
2. Loose torque converter
bolts.
3. Accessory belts too
tight or nicked.
4. Exhaust system
grounded.
5. Flywheel cracked.
6. Excessive main bearing
clearance.
7. Excessive rod bearing
clearance.
2. Reposition splash
shield.
3. Tighten or replace
as necessary.
4.
Replace piston.
1. Replace parts as
necessary.
2. Tighten bolts.
3. Replace a n d /o r tension to specs
as necessary.
4. Reposition as necessary.
5. Replace flywheel.
6. Replace as necessary.
7.
Replace as necessary.
ENGINE
c. Engine has light
knock hot in light
load conditions.
d. Engine knocks on
initial start up
but only lasts a
few seconds.
e. Engine knocks at
idle hot.
1. D etonation or spark
knock.
2. Loose torque converter
bolts.
3. Exhaust leak at
manifold.
4. Excessive rod bearing
clearance.
1. Fuel pump.
2. Im proper oil viscosity.
3. H ydraulic lifter
bleed dow n.2
4. Excessive crankshaft
end clearance.
1. Loose or worn drive
belts. ^
^
2. C om pressor or
generator bearing.
3. Fuel pump.
4. Valve train.
5. Im proper oil viscosity.
6. Excessive piston pin
clearance.
7. Connecting rod
alignment.
8. Insufficient piston
to bore clearance.
6-13
1. EST or ESC (See
Section 6D or 6E)
Check engine timing
and fuel quality.
2. Tighten bolts.
3. Tighten bolts a n d /o r
replace gasket.
4. Replace bearings as necessary.
1. Replace pump.
2. Install proper oil viscosity
for expected temperatures.
3. Clean, test and replace
as necessary.
4. Replace crankshaft thrust
bearing.
1. Tension a n d /o r replace
as necessary.
2. Replace as necessary.
3. Replace pump.
4. Replace parts as necessary.
5. Install proper viscosity oil
for expected tem perature.
6. Ream and install oversize pins.
7. Check and replace rods
as necessary.
8. Hone and fit new piston.
‘Cold engine piston knock usually disappears when the cylinder is grounded out. Cold engine piston knock which
disappears in 1.5 minutes should be considered acceptable.
2W hen the engine is stopped, some valves will be open. Spring pressure against lifters will tend to bleed lifter down.
A ttem pts to repair should be m ade only if the problem is consistent and appears each time engine is started.
L IG H T T R U C K SERVICE M A N U A L
6-14
ENGINE
DIESEL ENGINE DIAGNOSIS
Diesel Engine Mechanical Diagnosis such as noisy lifters, rod bearings, main bearings, valves, rings and pistons is the same as for a
gasoline engine. This diagnosis covers only those conditions that are different for the diesel engine.
CONDITION
Engine Will Not Crank
Engine Cranks Slowly Will Not Start
(Minimum Engine
Cranking Speed 100 RPM COLD,
240 RPM HOT)
Engine Cranks Normally —
Will Not Start
POSSIBLE CAUSE
CORRECTION
1. Loose or Corroded
Battery Cables
Check connections at batteries, engine block and starter
solenoid.
2. Discharged Batteries
Check generator output and generator belt adjustm ent.
3. Starter Inoperative
Check voltage to starter and starter solenoid. If OK, remove
starter for repair. (Use diagnostic connector term inals shown
on circuit drawing in ELECTRICAL DIAGNOSIS).
1. Battery Cable
Connections Loose
or Corroded
Check connections at batteries, engine block and starter.
2. Batteries Undercharged
Check charging system.
3. Wrong Engine Oil
Drain and refill with oil o f recom m ended viscosity.
1. Incorrect Starting
Procedure
Use recom m ended starting procedure.
2. Glow Plugs Inoperative
Refer to ELECTRICAL DIAGNOSIS.
3. Glow Plug Control
System Inoperative
Refer to ELECTRICAL DIAGNOSIS.
4. No Fuel Into Cylinders
Remove any one glow plug. Depress the th ro ttle part way
and crank the engine for 5 seconds. If no fuel vapors come
out o f the glow plug hole, go to step 5. If fuel vapors are
4 noticed remove the rem ainder o f the glow plugs and see if
fuel vapors come out o f each hole when the engine is
cranked. If fuel comes out o f one glow plug hole only
replace the injection nozzle in that cylinder. Crank the
engine and check to see that fuel vapors are coming out o f
all glow plug holes. If fuel is coming from each cylinder,
go to step 11.
5. No Fuel To Injection
Pump
Loosen the line coming out o f the filter. Crank the engine,
the fuel should spray out o f the fitting, use care to direct
fuel away from sources o f ignition. If fuel sprays from the
fitting go to step 10.
6. Restricted Fuel Filter
Loosen the line going to the filter, if fuel sprays from the
fitting, the filter is plugged and should be replaced. Use care
to direct the fuel away from sources o f ignition.
7. Fuel Pump Inoperative
Remove inlet hose to fuel pum p. Connect a hose to the
pum p from a separate container that contains fuel. Loosen
the line going to the filter. If fuel does not spray from the
fitting, replace the pum p. Use care to direct the fuel away
from source o f ignition.
8. Restricted Fuel Tank
Filter
Remove fuel tank and check filter. (Filter for diesel fuel is
blue).
Diesel Diagnosis 1
LIG H T T R U C K SERVIC E M A N U A L
ENGINE
9. Plugged Fuel Return
System
Engine Cranks Normally Will Not Start (C ontd)
Engine Starts But
Will Not Continue
To Run At Idle
Disconnect fuel return line at injection pum p and route hose
to a metal container. Connect a hose to the injection pum p
connection, route it to the m etal container. Crank the
engine. If it starts and runs, correct restriction in fuel return
lines. If it does not start, remove the ball check connector
from the top o f the injection pum p and make sure that
it is not plugged.
10. No Voltage To
Fuel Solenoid
Connect a volt m eter to the wire at the injection pum p
solenoid and ground. The voltage should be a m inimum o f
9 volts. If there is inadequate voltage, refer to the
ELECTRICAL DIAGNOSIS for more inform ation.
11. Incorrect or
Contam inated Fuel
Flush fuel system and install correct fuel.
12. Pum p Timing Incorrect
Make certain that pum p timing m ark is aligned with mark on
adapter.
13. Low Compression
Check compression to determ ine cause.
14. Injection Pump
Malfunction
Remove injection pum p for repair.
1. Slow Idle Incorrectly
Adjusted
Adjust idle screw to specification.
2. Fast Idle Solenoid
Inoperative
With engine cold, start engine;solenoid should move to hold
injection pum p lever in “ fast idle position". If solenoid does
not move, refer to ELECTRICAL DIAGNOSIS.
3. Restricted Fuel
R eturn System
Disconnect fuel return line at injection pum p and route hose
to a metal container. Connect a hose to the injection pum p
connection; route it to the metal container. Crank the engine
and allow it to idle. If engine idles norm ally, correct
restriction in fuel return line. If engine does not idle
norm ally, remove the return line check valve fitting from
the top o f the pum p and make sure it is not plugged.
4. Glow Plugs Turn
O ff Too Soon
Refer to ELECTRICAL DIAGNOSIS.
5. Pum p Timing Incorrect
Make certain that tim ing m ark on injection pum p is aligned
with m ark on adapter.
6. Limited Fuel To
Injection Pump
Test the engine fuel pum p, check for plugged filters; check
fuel lines. Replace or repair as necessary.
7. Incorrect or
C ontam inated Fuel
Flush fuel system and install correct fuel.
8. Low Compression
Check compression to determ ine cause.
9. Fuel Solenoid Closes
In Run Position
Ignition switch out o f adjustm ent. If OK, refer to
ELECTRICAL DIAGNOSIS.
Remove injection pum p for repair.
10. Injection Pump
Malfunction
Engine Starts, Idles
Rough, WITHOUT Abnormal
Noise or Smoke
6-15
1. Slow Idle Incorrectly
Adjusted
Adjust slow idle screw to specification.
2. Injection lin e Leaks
Wipe o ff injection lines and connections. Run engine and
check for leaks. Correct leaks.
Diesel Diagnosis 2
LIG H T TR U C K SERVICE M AN U AL
6-16
j
ENGINE
3. Restricted Fuel Return
System
Disconnect fuel return line at injection pum p and route hose
to a metal container. Connect a hose to the injection pump
connection; route it to the metal container. Start the engine
and allow it to idle; if engine idles norm ally, correct
restriction in fuel return lines. If engine does not idle
norm ally, remove the return line check valve fitting from
the top o f the pum p and make sure it is not plugged.
4. Air In System
Install a section o f clear plastic tubing on the fuel return
fitting from the engine. Evidence o f bubbles in fuel when
cranking or running indicates the presence of an air leak in
the suction fuel line. Locate and correct.
5. Inco rrecto r
C ontam inated Fuel
Flush fuel system and install correct fuel.
6. Nozzle(s) M alfunction
Remove and clean or replace.
1. Injection Pump
Timing Incorrect
Be sure timing mark on injection pum p is aligned with mark
on adapter.
2. Insufficient Engine
Break-in Time
Break-in engine 2000 or more miles.
3. Air in System
Install a section o f clear plastic tubing on the fuel return
fitting from the engine. Evidence o f bubbles in fuel when
cranking or running indicates the presence o f an air leak in
the suction fuel line. Locate and correct.
4. Nozzle(S) Malfunction
Remove and clean or replace.
1. Plugged Fuel Filters
Replace filters.
2. Incorrect Injection
Pump Timing
Be sure that timing m ark on injection pum p and adapter are
aligned.
3. Incorrect or
C ontam inated Fuel
Flush fuel system and install correct fuel.
1. External Linkage Binding
Or Misadjusted
Free up linkage. Adjust or replace as required.
2. Fast Idle Malfunction
Check fast idle adjustm ent.
3. Internal Injection
Pump M alfunction
Remove injection pum p for repair.
1. Loose or Broken Fuel
Line or Connection
Examine complete fuel system , including tank,
and injection lines. Determine source and cause o f
leak and repair.
2. Injection Pump
Internal Seal Leak
Remove injection pum p for repair.
1. Restricted Air Intake
Check air cleaner elem ent.
2. EGR Malfunction
Refer to Section 6E.
3. Restricted or Damaged
Exhaust System
Check system and replace as necessary.
4. Plugged Fuel Filter
Replace filter.
.".m ! r r j
Engine Cold Starts and
Idles Rough WITH
Excessive Noise and/or
Smoke But G ears Up
After Warmup
Engine Misfires Above
Idle But Idles Correctly
Engine Will Not
Return To Idle
Fuel Leaks On G round —
No Engine Malfunction
Noticeable Loss
Of Power
Diesel Diagnosis 3
LIG H T T R U C K SERVIC E M A N U A L
ENGINE
Noise - “Rap” From
One or More Cylinders
(Sounds Like Rod
Bearing Knock)
Excessive Black Smoke
and/or Objectionable
Overall Combustion
Noise
Engine Noise Internal Or
External
Engine Overheats
5. Plugged Fuel Tank
V acuum Vent In
Fuel Cap
Remove fuel cap. If loud “hissing” noise is heard, vacuum
vent in fuel cap is plugged. Replace cap. (Slight hissing sound
is norm al).
6. R estricted Fuel Supply
From Fuel Tank To
Injection Pump
Examine fuel supply system to determ ine cause o f
restriction. Repair as required.
7. Restricted Fuel
Tank Filter
Remove fuel tank and check filter. (Filter for diesel fuel is
blue).
8. Pinched or Otherwise
Restricted Return System
Examine system for restriction and correct as required.
9. Incorrect or
Contam inated Fuel
Flush fuel system and install correct fuel.
10. External Compression
Leaks
Check for com pression leaks at all nozzles and glow plugs,
using “ Leak-Tec” or equivalent. If leak is found, tighten
nozzle or glow plug.
11. Plugged Nozzle(s)
Remove nozzles. Have them checked for plugging and repair or
replace.
12. Low Compression
Check compression to determ ine cause.
1. Nozzle(s) Sticking Open
or with very low Nozzle
Opening Pressure
Remove nozzle for test and replace as necessary.
2. Mechanical Problem
Refer to Mechanical Diagnosis Section 6A5.
1. Timing Not Set To
Specification
Make certain that tim ing m ark on injection pum p is aligned
with m ark on adapter.
2. EGR Malfunction
Refer to Emission Diagnosis. (Section 6E)
3. Injection Pump Housing
Pressure Out Of
Specifications
Check housing pressure as described in Section 6A5.
4. Injection Pump
Internal Problem
Remove injection pum p for repair.
1. Engine Fuel Pump,
G enerator, Water Pum p,
Valve Train, Vacuum
Pum p, Bearings, Etc.
Repair or replace as necessary. If noise is internal, see
Diagnosis For Noise - Rap From One or More Cylinders and
Engine Starts and Idles Rough With Excessive Noise and/or
Smoke.
1. Coolant System Leak,
Oil Cooler System Leak
or Coolant Recovery
System Not Operating
Check for leaks and correct as required. Check coolant
recovery jar, hose and radiator cap.
2. Belt Slipping or Damaged
Replace or adjust as required.
3. Therm ostat Stuck Closed
Check and replace if required.
4. Head Gasket Leaking
Check and repair as required.
6-17
Diesel Diagnosis 4
LIG H T T R U C K SERVICE M A N U A L
6-18
ENGINE
Oil Warning Lamp
“ ON” at Idle
Engine Will Not Shut
O ff With Key
NOTE With engine at
idle, pinch the fuel
return line at the
flexible hose to
shut o ff engine.
1. Oil Cooler or Oil or
Cooler Line Restricted
Remove restriction in cooler or cooler line.
2. Oil Pum p Pressure Low
See Section 6A5 for oil pum p repair procedures.
1. Injection Pump Fuel
Solenoid Does Not
Return Fuel Valve To
“ O F F ” Position
Refer to ELECTRICAL DIAGNOSIS.
V A C U U M PU M P D IA G N O S IS
Excessive noise or clattering
noise.
1. Loose screws between pump
assy, and drive assy.
1. A - Tighten screws to spec.
B -R eplace “ 0 ” ring.
C -R eplace pum p assy.
2. Loose tube on pum p assy.
2. Replace pum p assy.
Hooting noise.
Valves not functioning properly.
Replace pum p assy.
Pump assy, loose on drive assy.
Stripped threads.
Replace pum p assy.
Oil around end plug.
Loose plug.
Oil leaking out crimp.
Bad crimp.
Install hose and vacuum gage
to pum p, engine running, gage
should have reading o f 20
inches vacuum m inim um . With
engine off, vacuum level loss
should not drop from 20
inches to 19 inches in less than
1-1/2 seconds.
Replace pum p assy.
1. Defective valves.
2. Defective diaphragm.
3. Worn push rod seal.
4. Loose tube.
Diesel Diagnosis 5
LIG H T T R U C K SERVIC E M A N U A L
1. Seat Plug.
2. Replace drive assy.
Replace pum p assy.
ENGINE
6-19
DIESEL ENGINE IDLE ROUGHNESS DIAGNOSIS PROCEDURE
DIESEL ENGINE
ROUGHNESS AT IDLE
ON NEW C ARS - VEHICLE SHOULD HAVE 1/4 TANK FUEL
& IT M AY BE NEC ESSA R Y TO RUN ENGINE AT HIGH
RPM TO PURGE A IR FROM SYSTEM.
REMOVE A IR CLEANER
INSTALL COVER J-26996-1
INSTALL MAG-TACH J-26925 - CHECK IDLE SPEED (SLOW & FAST)
__________________ I_____________
IDLE SPEED INCORRECT
IDLE SPEEDS OK
SET IDLE SPEED TO SPEC. (IF FAST IDLE WAS
ADJUSTED. ADJUST HIGH VACUUM SWITCH.
CALIF. T Y P E D
CHECK T IM IN G M A RK ON INJECTION PUMP AND ADAPTER FOR ALIGNMENT
I
_____________________________________ ___________________________________
T IM IN G OFF
T IM IN G OK
I
ALIGN M A R K S
DISCONNECT VACUUM HOSE FROM VACUUM PUMP - CHECK IDLE QUALITY
IDLE IMPROVES
NO IMPROVEMENT
REINSTALL VACUUM HOSE TO PUMP. LOOSEN
VACUUM PUM P HOLD DOWN CLAMP. ROTATE
PUM P IN ENGINE. IF IDLE IMPROVES, CLAMP
IN THAT POSITION. IF IDLE DOES NOT IMPROVE,
REMOVE VACUUM PUMP AND REINSTALL WITH
DR IV E GEAR IN DIFFERENT RELATIONSHIP TO
CAMSHAFT.
--------- —
I
EXAM INE NOZZLES FOR LEAKS AT NOZZLE BODY
OR AT FUEL LINE CONNECTION. (ENGINE RUNNING)
I
LEAKS
NO LEAKS
CORRECT
CHECK FOR LEAK AT INJECTION PUM P TO HIGH PRESSURE LIN ES
I
LEAKS
NO LEAKS
CORRECT
CHECK FOR FUEL PRESSURE BY C RA CK IN G LINE AT
FITTING BETWEEN FUEL FILTER AND INJECTION PUMP
PRESSURE EVIDENT
NO PRESSUR: EVIDENT
DETERMINE CAUSE OF LACK
nr'O R |
ppr;<;iipr
CONTINUE ON NEXT PAGE
Diesel Diagnosis 6
L IG H T T R U C K SERVIC E M AN U AL
6-20
ENGINE
REMOVE FUEL RETURN LINE FROM TOP OF PUMP.
INSTALL SHORT PIE C E S OF CLEAR P L A S T IC TUBE
BETWEEN RETURN LINE AND CHECK FOR PRESENCE
OF BUBBLES OR FOAM IN TUBE.
NO BU BBLES OR FOAM
BU BBLES EVIDENT
F IN D C A U SE IN FUEL SU P PLY
LOOSEN THE LINE AT THE NOZZLES TO BLEED A SM ALL AMOUNT OF FUEL FROM THE
L IN E IF S O L ID FUEL APPEARS, GO ON TO THE NEXT NOZZLE. IF FOAM A P P E A R S
SHUT THE ENGINE OFF AND DISCONNECT THE LINE FROM THE N O Z ZLE MOVE THE
LINE SO THE INLET TO THE NOZZLE CAN BE OBSERVED. REMOVE THE P IN K W IRE
TO THE PU M P AND CRANK THE ENGINE AND O BSERVE THE NOZZLE INLET FOR
BUBBLES. IF BUBBLES ARE EVIDENT, REPLACE THE N O Z ZLE S Q U IR T SOME
O IL OR FUEL IN THE NEW NOZZLE INLET AND RECHECK FOR BUBBLES. IF BU BBLES
ARE NOT EVIDENT RECONNECT THE LINE AND P IN K W IR E AND GO ON TO THE
NEXT NOZZLE AND REPEAT THE PROCESS. CHECK THE REMOVED NOZZLE ON A
TESTER TO DETERMINE IF IT IS INOPERATIVE OR IF IT IS IN C O M PA T IB LE WITH
THE C YLIN D ER HEAD.
IF AN OBJECTIONABLE ROUGH IDLE CO N D IT IO N STILL EXIST S,
PROCEED U S IN G GLOW PLUG R E SIST A N C E CHECK TO CORRECT
ROUGH IDLE
Diesel Diagnosis 7
LIG H T T R U C K SERVIC E M A N U A L
IN-LINE 6
6A1-1
Valves..............................................................................
Torsional D am per.......... ............ .................................
C rankcase Front C o v e r..............................................
Oil Seal (Front C o v er)...............................................
C a m s h a ft.......................................................................
C am shaft B earings......................................................
Oil P a n .......................... .................................................
Oil Pum p........................................................................
Engine Bearings............................................................
Oil Seal (R ear M a in ).................................................
Piston and Connecting Rod A ssem blies................
Flyw heel..........................................................................
Engine A ssem bly..........................................................
C ra n k sh a ft.....................................................................
Specifications...................................................................
6A1-16
6A1-16
6A1-16
6A1-17
6A1-17
6A1-18
6A1-19
6A1-19
6A1-20
6A1-24
6A1-25
6A1-28
6A1-29
6A1-30
6A1-32
Section 6A1
Contents
4.1 L (D) L-6 - RPO LE3
4.8 L (T) L-6 - RPO L25
G eneral D escription....................................................... 6A1-1
Engine L ubrication........................................................ 6A1-2
On Vehicle Service........................................................ 6A1-9
Engine M o u n ts.................. ...........................................6A1-9
M anifold A ssem bly-N on-Integrated H e a d .......... .6A1-10
Exhaust M anifold-Integrated H e a d ........................6A1-10
Rocker A rm C o v er......................... ............................ .6 A 1-11
Push Rod Side C o v e r...................................................6 A 1-11
Valve M echanism ........................................................ .6A1-11
Valve Stem Oil Seal an d /o r Valve S p rin g .............6A 1-11
Valve L ifte rs................................................................. .6A1-12
C ylinder H e a d ...............................................................6A1-14
Rocker A rm S tud s....................................................... .6A1-15
Valve G uides................................................................. .6A1-15
Valve S e a ts .....................................................................6A1-16
:br
GENERAL DESCRIPTION
CYLINDER BLOCK
The cylinder block is m ade of cast iron and has 6
cylinders arranged "In -L in e". Seven main bearings support
the crankshaft which is retained by recessed bearing caps
th at are m achined with the block for proper alignm ent and
clearances. Cylinders are completely encircled by coolant
jackets.
CYLINDER HEAD
The cast iron cylinder head has individual intake and
exhaust ports for each cylinder. Valve guides are integral
and rocker arm s are retained on individual threaded studs
pressed into head. The 4.1 L(D ) heads have integrated inlet
manifolds. The 4.8 L(T) uses separate inlet manifolds.
CRANKSHAFT AND BEARINGS
The crankshaft is cast nodular iron and is supported by
seven main bearings. N um ber seven bearing is the end
thrust bearing. M ain bearings are lubricated from oil holes
which intersect the main oil gallery located on the right side
of the block. The cam bearings are also fed oil by intersect
ing holes with main oil gallery. The lifters are located in the
m ain oil gallery.
A dam per assembly, on the forward end of the crank
shaft, dampens any engine torsional vibrations. The outer
ring of the dam per is grooved for the accessory drive belts.
CAMSHAFT AND DRIVE
The cast iron cam shaft is supported by four bearings
and is gear driven. A cast iron crankshaft gear drives the
alum inum cam shaft gear. Cam lobes are ground, hardened
and tap ered w ith the high side tow ard the rear. This,
coupled with a spherical face on the lifters, causes the valve
lifters to rotate.
PISTONS AND CONNECTING RODS
The pistons are m ade of a cast alum inum alloy using
two compression rings and one oil control ring.
Piston pins in the 4.1 L (D) engine are offset .060"
(1.5m m ) toward the th ru st side (right hand side) to provide
a gradual change in th ru st pressure against the cylinder wall
as the piston travels its path. This also provides for quieter
operation. 4.8 L (T ) engine piston pins are on piston
centerline for best durability and reduced friction. Pins are
chrom ium steel and have a floating fit in the pistons. They
are retained in the connecting rods by a press fit.
Connecting rods are made of forged steel. Full pressure
lubrication is directed to the connecting rods by drilled oil
passages from the adjacent main bearing journal. Oil holes
at the connecting rod journals are located so that oil is
supplied to give m axim um lubrication just prior to full
bearing load.
VALVE TRAIN
A very simple ball pivot-type train is used. M otion is
transm itted from the cam shaft through the hydraulic lifters
and push rods to the rocker arms. The rocker arm pivots on
its ball and transm its the cam shaft motion to the valve. The
rocker arm ball is retained by a self locking nut.
HYDRAULIC VALVE LIFTERS
H ydraulic Valve Lifters are used to keep all parts of the
valve train in constant contact for quiet operation.
L IG H T T R U C K SERVICE M A N U A L
6A1-2
IN-LINE 6
The hydraulic lifter assembly consists of: the lifter
body, which rides in the cylinder block boss, a plunger, a
push rod seat, a m etering valve, a plunger spring, a check
ball and spring, a check ball retainer and a push rod seat
retainer.
W hen the lifter is riding on the low point (base circle)
of the cam , the plunger spring keeps the plunger and push
rod seat in contact with the push rod.
W hen the lifter body begins to ride up the cam lobe, the
check ball traps the oil in the reservoir below the plunger.
The plunger and lifter body then rise as a unit, pushing up
the push rod and opening the valve. A very small am ount of
oil will leak out between the plunger and the body.
As the lifter body rides down the other side of the cam,
the plunger follows with it until the valve closes. The lifter
body continues to follow the cam to its low point, but the
plunger spring keeps the plunger in contact with the push
rod. The ball check valve will then move off its seat and the
lifter reservoir will be refilled with oil.
INTAKE MANIFOLD
The intake manifold is of cast iron, single level design
for efficient fuel distribution. The 4.1 L (D) manifold is an
integral unit with the head on all vehicles. 4.8 L (T) engines
use separate components. The carburetor pad is centrally
located w ith an early fuel evaporation (E F E ) passage
running underneath the pad, through which exhaust gases
are forced, to promote faster fuel vaporization when the
engine is cold. An exhaust gas recirculation port is also cast
into the manifold on 4.1 L (D ) engines, for the induction of a
m etered am ount of exhaust gases into the air and fuel
m ixture which has entered through the carburetor.
EXHAUST MANIFOLD
On 4.8 L (T) engines a single four port, underslung,
center take down manifold of cast ironl is used to direct
exhaust gases from the com bustion cham bers. On 4.1 L (D)
engines a single four port, underslung, dual center take
down manifold of cast iron is used. A heat shield is m ounted
to the manifold th a t is used to route heated air to the air
cleaner for better fuel vaporization.
Engine Lubrication
Full pressure lubrication, through a full flow oil filter is
furnished by a gear-type oil pump. The distributor, driven
by a helical gear on the cam shaft, drives the oil pump.
Oil draw n by the pick-up screen and pipe is pressurized
in the pum p and routed to the oil filter. If excessive
backpressure is encountered at the filter, a bypass valve
allows oil flow to the m ain oil gallery, located along the right
side of the block. This rifle drilled gallery supplies oil to the
cam shaft bearings, the hydraulic lifters and the crankshaft
main bearings.
LIG H T T R U C K SERVICE M A N U A L
The connecting rod bearings are supplied oil from the
c ran k sh a ft m ain bearings by m eans of cross drilled
passages.
The valve train is supplied its lubrication from the valve
lifters. Oil within the lifters is pum ped up through the top of
the lifters through the hollow push rods to the rocker arms.
From the head, oil is drained back to the crankcase through
oil drain back holes and the push rod holes. (Fig. 6A1-1).
IN-LINE 6
6A1-3
OIL PRESSURE
SENDING UNIT
Fig. 6 A 1-1--In-Line Engine Lubrication
LIG H T T R U C K SERVIC E M AN U AL
6A1-4
IN-LINE 6
LIG H T T R U C K SERVIC E M A N U A L
IN-LINE 6
6A1-5
FOUR-SPEED MANUAL WITH PROP SHAFT BRAKE
Fig. 6 A l - 3 - - " P " Series - Engine Rear M o u n t
Fig. 6 A l- 4 - - " C " Series - Engine Rear Mounts
L IG H T TR U C K SERVIC E M AN U AL
6A1-6
IN-LINE 6
250 CU. IN. ENGINE
LEFT & RIGHT MOUNT
& FRAME BRACKET
292 CU. IN. ENGINE
LEFT MOUNT & FRAME
BRACKET
VIEW
ENGINE BRACKET
ALL C SERIES
WITH L-6 ENGINE
292 CU. IN. ENGINE
RIGHT FRAME
BRACKET & MOUNT
VIEW
Fig. 6 A l- 5 - - " C " Series - Engine Front M ount
LIG H T T R U C K SERVICE M A N U A L
A
L
ENGINE MOUNT & BRACKET
ALL K SERIES WITH L-6 ENGINE
Z........... 7
VIEW A \
FWD
X
292 CU. IN. R. SIDE
ENGINE M O U N T FRAME BRACKET
ALL K SERIES WITH L-6 ENGINE
6A1-8
IN-LINE 6
LIG H T T R U C K SERVICE M A N U A L
IN-LINE 6
6A1-9
M AR MOUNT
FRONT MOUNT
Fig. 6 A 1 -8 --" G " Series - Engine Mounts
ON VEHICLE SERVICE
ENGINE MOUNTS
Engine mounts (Fig. 6A1-2 - 6A 1-8) are the nonad ju sta b le type and seldom req u ire service. Broken or
d e te rio ra ted m ounts should be replaced im m ediately,
because of the added strain placed on other m ounts and
drive line components.
Checking Engine Mounts
Front Mount
Raise the engine to remove weight from the m ounts and
to place a slight tension in the rubber. Observe both mounts
while raising engine. If an engine m ount exhibits:
a. H ard rubber surface covered with heat check cracks;
b. R ubber separated from a m etal plate of the mount;
c. R ubber split through center,
replace the m ount. If th e re is relative m ovem ent
between a m etal plate of the m ount and its attaching points,
lower the engine on the m ounts and tighten the screws or
nuts attaching the m ount to the engine, frame, or bracket.
Rear Mount
Raise the vehicle on a hoist. Push up and pull down on
the transm ission tailshaft while observing the transm ission
m ount. If the rubber separates from the metal plate of the
m ount or if the tailsahft moves up but not down (m ount
bottom ed out) replace the m ount. If there is relative
movement between a m etal plate of the m ount and its
attaching point, tighten the screws or nuts attaching the
m ount to the transm ission or crossmember.
Front Mount Replacement
1. Remove engine m ount through bolt.
2. R aise engine and remove m ount to fram e bracket
atta c h in g bolts. Remove m ount. R aise engine only
enough for sufficient clearance. Check for interference
between rear of engine and cowl panel.
LIG H T T R U C K SERVICE M A N U A L
6A 1-10
IN-LINE 6
3. Install new engine m ount to fram e bracket and torque
attaching bolts to specifications.
4. Install engine m ount through bolt and torque to 30 lb.
ft. (40 N-m) specifications.
Rear Mount Replacement
1. Support engine weight to relieve rear mounts.
2. Remove crossm em ber-to-m ount bolts.
3. On " P " Series with m anual transm ission and propeller
shaft parking brake, remove mount attaching bolts
from fram e outrigger and clutch housing and remove
rear mounting cushions.
4. Rem ove m ount-to-tran sm issio n bolts, then remove
mount.
5. On "P " Series with m anual transm ission and propeller
shaft parking brake, install new mounting cushions and
bolts.
6. Install new m ount on transm ission.
7. W hile lowering transm ission, align and sta rt crossm em ber-to-m ount bolts.
8. Torque bolts to 45 lb. ft. (60 N-m ) then bend lock tabs
to bolt head as applicable.
MANIFOLD ASSEMBLY - NON-INTEGRATED
HEAD
Removal
1. Disconnect battery negative cable at battery.
2. Remove air cleaner.
3. D isconnect both th ro ttle controls at bellcrank and
remove throttle retu rn spring.
4. Disconnect fuel and vacuum lines at carburetor.
5. Disconnect crankcase ventilation hose at rocker arm
cover.
6. Disconnect vapor hose at canister.
7. Disconnect exhaust pipe at m anifold flange.
8. Remove m anifold a tta c h in g bolts and clam ps then
remove m anifold assembly.
9. Check for cracks in manifold castings.
10. Separate manifolds by removing one bolt and two nuts
at center of assembly.
11. Observe gaskets and packing if necessary to diagnose a
leakage problem.
Installation
1. Clean gasket surfaces on cylinder head and manifolds.
2. Lay a straight edge along the full length of the exhaust
port faces and m easure any gaps between the straight
edge and the port faces. If at any point a gap of .030"
(.80m m) or more exists, it is likely th at the m anifold
has distorted to a point where it will not seat properly.
If a good exhaust seal is to be expected, the exhaust
manifold must be replaced.
3. Assem ble intake and exhaust manifolds using a new
gasket by reinstalling the one bolt and two nuts at the
center of the manifold to finger tight.
4. Position a new gasket over m anifold end studs on the
cylinder head.
5. Install manifold assembly bolts, clamps and washers
while holding manifold assembly in place by hand.
LIG H T T R U C K SERVIC E M A N U A L
6. Clean, oil and torque all manifold assembly to cylinder
head bolts and nuts to 40 lbs. ft. (55 N-m).
7. Com plete torquing the inlet to exhaust manifold bolt
and two nuts at the center of the manifold to 45 lb. ft.
(61 N-m).
8. Connect exhaust pipe to manifold using a new packing.
9. C onnect crankcase ventilation hose at rocker arm
cover.
10. Connect vapor hoses at canister.
11. Connect fuel and vacuum lines a carburetor.
12. C onnect th ro ttle controls at bellcrank and install
throttle return spring.
13. Install air cleaner, start engine, check for leaks and
adjust carburetor idle speed.
EXHAUST MANIFOLD ASSEMBLY - INTEGRATED
HEAD
Removal
1. Disconnect negative battery cable.
2. Remove air cleaner.
3. Remove power steering pum p a n d /o r A .I.R . pum p
brackets, if so equipped.
4. Remove P A IR pipes as outlined in Section 6E.
5. Raise vehicle on hoist and disconnect exhaust pipe at
manifold and converter bracket at transmission mount.
6. Lower vehicle.
7. Remove exhaust manifold bolts.
8. Remove exhaust manifold, check EFE Valve to see if
free and check manifold for cracks.
Installation
If a new exhaust manifold is being installed, the E.F.E.
valve and actuator and rod assembly m ust be transferred
from the old component.
1. C lean gasket surface and position new gasket on
exhaust manifold.
2. Install manifold bolts, while holding manifold assembly
in place.
3. Torque all manifold to cylinder head bolts in sequence
to torques shown in figure 6 A 1-9.
4. Raise vehicle on hoist.
5. Connect exhaust pipe at manifold flange and converter
bracket at transm ission mount. A ttach exhaust pipe
and align exhaust system. Torque attaching bolts to
specification.
/ 12W
w
^
1 8 -2 5 — ( 5 }
ft. lbs
w
&
_
ex.
3 5 -4 0
n 't T'vrcue rear main bearing cap to
10- TC
41 ( 1 4
N ■
I tap end of crankshaft,
first rearw ard then forward with a lead ham m er. This
will line up rear main bearing
id
- 1 thrust
surfaces. Retorque all main bearing
' ' !b.
ft. (88N -m ).
I mWT TDI IPK q p-pv/ irr
6A1-24
IN-LINE 6
.0 0 4 S H IM STOCK
1 1 /6 4
Fig. 6A1-34--Oil Seal Installation Tool
Fig. 6 A 1-37--Crankshaft Oil Seal - Rear Main
APPLY
SEALANT
TO SHADED
AREAS ONLY
Fig. 6Al-35--Removing Oil Seal Lower Half - Typical
Fig. 6Al-38--Sealing Bearing Cap - Typical
1. W ith the oil pan and oil pum p removed, remove the
rear main bearing cap.
2. Remove oil seal from the bearing cap by prying from
the bottom with a small screw driver (fig. 6 A 1-35).
3. Use a small ham m er to tap a brass pin punch on one
end of the upper seal until it protrudes far enough to be
removed with pliers (fig. 6 A 1-36).
4. Clean all sealant and foreign m aterial from cylinder
case bearing cap and crankshaft, using a nonabrasive
cleaner.
Fig. 6Al-36--Removing Oil Seal Upper Half - Typical
OIL SEAL (REAR MAIN)
5. Inspect com ponents for nicks, scratches, b u rrs and
m achining defects at all sealing surfaces, case assembly
and crankshaft.
6. C oat seal lips and seal bead with light engine oil - keep
oil off seal m ating ends.
Replacement
7. Position tip of tool between crankshaft and seal seat in
cylinder case.
The rear main bearing oil seal can be replaced (both
halves) w ithout removal of the crankshaft. Always replace
the upper and lower seal as a unit. Install seal with lip facing
front of engine. Extrem e care should be exercised when
installing this seal to protect the sealing bead located in the
channel on the outside diam eter of the seal. An installation
tool (fig. 6A1-34) can be used to protect the seal bead when
positioning seal as follows:
8. Position seal between crankshaft and tip of tool so that
seal bead contacts tip of tool. M ake sure *hat oil-seal lip
is positioned toward front of engine (fig. 6 A 1-37).
9. Roll seal around crankshaft using tool as a "shoe
horn" to protect seal bead from sharp corner of seal
seat surface in cylinder case. Installation tool must
remain in position until seal is properly positioned with
both ends flush with block.
IN-LINE 6
6A1-25
10. Remove tool, being careful not to w ithdraw seal.
11. Install seal half in bearing cap, again using tool as a
"shoe-horn", feeding seal into cap using light pressure
with thum b and finger.
PRESS
12. Install bearing cap to case with sealant applied to the
cap-to-case interface being careful to keep sealant off
the seal split line (fig. 6A1-38).
13. Install the rear main bearing cap (with new seal) and
torque to 10-12 lb. ft. (14-16 N -m ). T ap end of
crankshaft first rearw ard then forward with a lead
ham m er. This will line up re a r m ain bearing and
crankshaft thrust surfaces. R etorque bearing cap to 65
lb. ft. (88N-m ).
-PISTON PIN
REMOVER
J -2 4 0 8 6 -8
PISTON AND CONNECTING ROD ASSEMBLIES
Removal
1. Remove oil pan, oil pump and cylinder head as pre
viously outlined.
FIXTURE &
SUPPORT
ASSEMBLY
J -2 4 0 8 6 -2 0
2. For the cylinder being serviced, turn crankshaft until
piston is at the bottom of the stroke. Place a cloth on top
of the piston.
3. Use a ridge ream er to remove any ridge an d /o r deposits
from the upper end of the cylinder bore.
4. T urn crankshaft until piston is a t top of stroke and
remove cloth and cuttings.
5. Remove connecting rod cap and install Tool J-6305
(1 1 /3 2 ") on studs. Push connecting rod and piston
assem bly out of top of cylinder block (fig. 6A1-39). It
will be necessary to turn the crankshaft slightly to
disconnect some of the connecting rod and piston
assemblies and push them out of the cylinder.
Fig. 6A1-40--Removing Piston Pin
Disassembly
1. Remove connecting rod bearings from connecting rods
and caps. If bearings are being reused, place them in a
rack so they m ay be reinstalled in th e ir original
positions.
2. Remove piston rings by expanding and sliding them off
the pistons. Tools J-8021 (3 -7 /8 ") and J-22249 (3-15/
16") are available for this purpose.
3. Place connecting rod and piston assem bly on tool
J-24086-20. U sing an arbor press and piston pin
remover, J-24086-8, press the piston pin out of connect
ing rod and piston (fig. 6 A 1-40).
Cleaning and Inspection
Connecting Rods
W ash connecting rods in cleaning solvent and dry with
compressed air.
Check for twisted or bent rods and inspect for nicks or
cracks. Replace connecting rods th at are damaged.
Pistons
Fig. 6Al-39--Removing Connecting Rod & Piston
Assembly
C lean varnish from piston skirts and pins w ith a
cleaning solvent. DO N O T W IR E BRU SH A N Y PA R T
O F T H E PIS T O N . Clean the ring grooves with a groove
cleaner and make sure oil ring holes and slots are clean.
Inspect the piston for cracked ring lands, skirts or pin
bosses, wavy or worn ring lands, scuffed or dam aged skirts,
eroded areas at top of the piston. Replace pistons that are
dam aged or show signs of excessive wear.
Inspect the grooves for nicks or burrs that might cause
the rings to hang up.
M easure piston skirt (across center line of piston pin)
and check clearance.
LIGHT TRUCK SERVICE MANUAL
6A1-26
IN-LINE 6
Piston Pins
Piston Rings
The piston pin clearan ce is designed to m aintain
adequate clearance under all engine operating conditions.
Because of this, the piston and piston pin are a m atched set
and not serviced separately.
All compression rings are m arked on the upper side of
the ring. W hen installing compression rings, make sure the
m arked side is toward the top of the piston. The top ring is
chrom e faced, or treated with molybdenum for m axim um
life.
The oil control rings are of three piece type, consisting
of two segments (rails) and a spacer.
1. Select rings com parable in size to the piston being used.
2. Slip the compression ring in the cylinder bore; then
press the ring down into the cylinder bore about 1/4"
(6.5m m ) (above ring travel). Be sure ring is square
with cylinder wall.
3. M easure the space or gap between the ends of the ring
with a feeler gage.
4. If the gap betw een th e ends of the ring is below
specifications, remove the ring and try another for fit.
5. Fit each compression ring to the cylinder in which it is
going to be used.
6. If the pistons have not been cleaned and inspected as
previously outlined, do so.
7. Slip the outer surface of the top and second com pres
sion ring into the respective piston ring groove and roll
the ring entirely around the groove to make sure that
the ring is free. If binding occurs at any point the cause
should be determ ined, and if caused by ring groove,
remove by dressing with a fine cut file. If the binding is
caused by a distorted ring, check a new ring.
8. Install piston rings as follows (fig. 6A1-42):
a. Install oil ring spacer in groove and insert an ti
rotation tang in oil hole.
b. Hold spacer ends butted and install lower steel oil
ring rail with gap properly located.
Inspect piston pin bores and piston pins for wear. Piston
pin bores and piston pins m ust be free of varnish or scuffing
when being m easured. The piston pin should be measured
with a m icrom eter and th e piston pin bore should be
measured with a dial bore gage or an inside m icrom eter. If
clearance is in excess of the .001 " wear limit, the piston and
piston pin assembly should be replaced.
ASSEMBLY
1. Lubricate piston pin holes in piston and connecting rod
to facilitate installation of pin.
2. Place connecting rod in piston and hold in place with
piston pin guide and piston pin. Place connecting rod
and piston assem bly on fixture and support assembly.
3. Using piston pin installer, J-24086-9, press the piston
pin into the piston and connecting rod (Fig. 6A1-41).
M ake sure in staller is set properly (see tool
instructions).
NOTICE: A fter installer hub bottoms on support assem
bly, do not exceed 5000 psi pressure, as this could cause
structural dam age to the tool.
4. Remove piston and connecting rod assembly from tool
and check piston for freedom of movement on piston
pin.
PRESS
PISTON PIN
INSTALLER
J -2 4 0 8 6 -9
PISTON PIN
c. Install upper steel oil ring rail with gap properly
located.
d. Flex the oil ring assembly to m ake sure ring is free. If
binding occurs at any point, the cause should be
determ ined, and if caused by ring groove, remove by
dressing groove with a fine cut file. If binding is
caused by a distorted ring, check a new ring.
e. Install second compression ring expander then ring
with gaps properly located.
f. Install top com pression ring w ith gap properly
located.
9. Proper clearance of the piston ring in its piston ring
groove is very im portant to provide proper ring action
and reduce wear. Therefore, when fitting new rings, the
clearances between the surfaces of the ring groove
should be m easured (fig. 6A 1-43). (See Specifications.)
Installation
C ylinder bores must be clean before piston installation.
This may be accomplished with a hot w ater and detergent
wash or with a light honing as necessary. A fter cleaning, the
bores should be swabbed several tim es with light engine oil
and a clean dry cloth.
Fig. 6 A 1-41--Installing Piston Pin
LIGHT TRUCK SERVICE MANUAL
1. L ubricate connecting rod bearings and install in rods
and rod caps.
IN-LINE 6
ENGINE LEFT
ENGINE FRONT
6A1-27
ENGINE RIGHT
INSERT PISTONS WITH NOTCHES
TOWARD FRONT OF ENGINES
FRONT OF
ENGINE
A " O IL R IN G
SPACER G A P
Fig. 6Al-44--Pistons-lnstalled Position
B" O IL R IN G RAIL G A P S
“C"
2N D
C O M P R E S S IO N
'D ' 1 TO P C O M P R E S S IO N
R IN G
R IN G
GAP
GAP
Fig. 6Al-42--Ring Gap Location
Fig. 6A1-45--lnstalling Connecting Rod and Piston
Assembly
Fig. 6Al-43--Measuring Ring Groove Clearance
2. Lightly coat pistons, rings and cylinder walls with light
engine oil.
3. W ith bearing caps removed, install Tool J-6305 (11/
32 ") on connecting rod bolts.
4. Install each connecting rod and piston in its respective
bore. Pistons m ust have notches facing front of engine
(fig. 6 A 1-44).
Use Tool J-8037 to compress the rings (fig. 6A1-45).
Guide the connecting rod into place on the crankshaft
journal with Tool J-6305 (1 1 /3 2 "). Use a ham m er
handle and light blows to install the piston into the
bore. H old the ring com pressor firmly ag ain st the
cylinder block until all piston rings have entered the
cylinder bore.
5. Remove J-6305.
6. Install the bearing caps and torque nuts to 35 lb. ft.
(47N-m ).
CYLINDER BLOCK
Cleaning and Inspection
1. W ash cylinder block thoroughly in cleaning solvent and
clean all sealing surfaces.
LIGHT TRUCK SERVICE MANUAL
6A1-28
IN-LINE 6
2. Remove oil gallery plugs and clean all oil passages.
3. Clean and inspect w ater passages in the cylinder block.
4. Inspect the cylinder block for cracks in the cylinder
walls, w ater jacket, valve lifter bores and main bearing
webs.
5. M easure the cylinder walls for taper, out-of-round or
excessive ridge at top of ring travel. This should be done
with a dial indicator. Set the gage so th at the thrust pin
must be forced in about 1/4" (6.5m m ) to enter gage in
cylinder bore. C enter gage in cylinder and turn dial to
" O " . Carefully work gage up and down cylinder to
determ ine taper and turn it to different points around
cylinder wall to determ ine the out-of-round condition.
If cylinders were found to exceed specifications, honing
or boring will be necessary.
Conditioning
The perform ance of the following operation is contin
gent upon engine condition at tim e of repair.
If the cylinder block inspection indicated th at the block
was suitable for continued use except for out-of-round or
tapered cylinders, they can be conditioned by honing or
boring.
If the cylinders were found to have less than .005"
taper or wear they can be conditioned with a hone and fitted
with the high limit standard size piston. A cylinder bore of
less then .005 " wear or taper may not entirely clean up when
fitted to a high limit piston. If it is desired to entirely clean
up the bore in these cases, it will be necessary to rebore for
an oversize piston. If m ore than .005" taper or wear, they
should be bored and honed to the sm allest oversize th at will
perm it complete resurfacing of all cylinders.
W hen pistons are being fitted and honing is not
necessary, cylinder bores may be cleaned with a hot water
and d eterg en t w ash. A fter cleaning, the cylinder bores
should be swabbed several times with light engine oil and a
clean cloth and then wiped with a clean dry cloth.
Boring
1. Before using any type boring b ar, th e top of the
cylinder block should be filed to remove any dirt or
burrs. This is very im portant. If not checked, the boring
bar may be tilted which would result in the rebored
cylinder wall not being a t rig h t angles to the
crankshaft.
2. The piston to be fitted should be m easured with a
m icrom eter, m easuring at the center of the piston skirt
and at right angles to the piston pin. The cylinder
should be bored to the sam e diam eter as the piston and
honed to give the specified clearance.
3. The instructions furnished by the m anufacturer of the
equipm ent being used should be carefully followed.
Honing
1. W hen cylinders are to be honed follow the hone
m anufacturer’s recom m endations for the use of the
hone and cleaning and lubrication during honing.
2. Occasionally during the honing operation, the cylinder
bore should be th oroughly cleaned and th e piston
selected for the individual cylinder checked for correct
fit.
3. W hen finish honing a cylinder bore to fit a piston, the
hone should be moved up and down at a sufficient speed
LIGHT TRUCK SERVICE MANUAL
to obtain very fine uniform surface finish m arks in a
cross-hatch pattern of approxim ately 45 to 65° in
cluded angle. The finish m arks should be clean but not
sharp, free from imbedded particles and torn or folded
m etal.
4. Perm anently m ark the piston for the cylinder to which
it has been fitted and proceed to hone cylinders and fit
the rem aining pistons.
NOTICE: H andle the pistons with care and do not
attem pt to force them through the cylinder until the
cylinder has been honed to correct size as this type
piston can be distorted through careless handling.
5. Thoroughly clean the bores with hot w ater and deter
gent. Scrub well with a stiff bristle brush and rinse
thoroughly with hot w ater. It is extrem ely essential that
a good cleaning operation be perform ed. If any of the
abrasive m aterial is allowed to rem ain in the cylinder
bores, it will rapidly wear the new rings and cylinder
bores in addition to the bearings lubricated by the
contam inated oil. The bores should be swabbed several
times with light engine oil and a clean cloth and then
wiped with a clean dry cloth. Cylinders should not be
cleaned with kerosene or gasoline. Clean the rem ainder
of the cylinder block to remove the excess m aterial
spread during the honing operation.
PISTON SELECTION
1. C heck U SE D piston to cylinder bore clearance as
follows:
a. M easure the "C y lin d er Bore D iam eter" w ith a
telescope gage (2 -1 /2 " (64m m ) from top of cylinder
bore).
b. M easure the "P iston D ia m e te r" (a t skirt across
center line of piston pin).
c. S ubtract piston diam eter from cylinder bore diam e
ter to determ ine " Piston to Bore C learance ".
d. D eterm ine if piston to bore clearance is in the
acceptable range.
2. If used piston is not acceptable, determ ine if a new
piston can be fitted to the cylinder bore.
3. If cylinder bore must be reconditioned, m easure new
piston diam eter (across center line of piston pin) then
hone cylinder bore to correct clearance.
4. M ark the piston to identify the cylinder for which it
was fitted.
FLYWHEEL
Removal
All Except L25 Engines
1. Remove transmission an d /o r clutch housing and clutch
from engine.
2. Remove flywheel retaining bolts and remove flywheel.
L25 Engines
1. Remove transmission an d /o r clutch housing and clutch
from engine.
2. M ark relationship of flywheel and crankshaft so th at
dowel holes can be aligned in their original positions on
assembly.
3. Remove engine oil pan and rear main bearing cap.
IN-LINE 6
4. Remove flywheel retaining bolts and drive crankshaft
dowels out of flywheel and crankshaft. R otate crank
shaft as necessary so dowels clear cylinder block.
5. Remove flywheel and discard used dowel pins.
Repair
Only repair recom m ended at flywheel used with con
ventional clutch is replacem ent of starter gear in event gear
is worn or otherwise dam aged.
Use torch to heat the gear around entire circum ference,
then drive the gear off flywheel, using care not to dam age
the flywheel.
U niform ly heat the flywheel gear to tem perature which
will expand gear to perm it installation. [T em perature must
not exceed 400°F (204° C )|.
As soon as gear has been heated, install on flywheel.
NOTICE: NEVER HEAT STARTER GEAR TO RED
HEAT AS TH IS W ILL CHANGE METAL
STRUCTURE.
Installation
All Except L25 Engines
1. Clean the mating surfaces of flywheel and crankshaft
to m ake certain there are no burrs.
2. Install flywheel on crankshaft and position to align
dowel hole of crankshaft flange and flywheel.
3. Install flywheel retain in g bolts and torque to
specifications.
L25 Engine
1. Clean the mating surfaces of flywheel and crankshaft
to m ake certain there are no burrs.
2. Install flywheel on crankshaft and position to align
dowel holes of crankshaft flange and flywheel.
3. In stall flywheel retain in g bolts and torque to
specifications.
• The interference fit dowel pins used on 4.8 L (T)
engines must be replaced with an oversize dowel pin
when installing the flywheel.
4. W hen installing the original flywheel, ream the dowel
pin holes with Tool J-22808-2. W hen installing a new
flywheel, first ream the dowel pin holes w ith Tool
J-22808-2 and then finish ream ing them with Tool
J-22808-1.
5. Install oversize dowel pins flush with flywheel retaining
bolt surface.
6. In stall rear m ain b earing cap and torque bolts to
specifications. Install oil pan with new gaskets and
seals. Torque oil pan retaining screws to specifications.
7. Remove grille and grille cross brace.
8. Remove windshield washer ja r and, if equipped, A /C
vacuum reservoir.
9. Disconnect radiator hoses from radiator.
10. Remove radiator to radiator support attaching brackets
and remove radiator.
• If equipped with autom atic transm ission, remove
cooler lines from rad iato r before a ttem p tin g
removal.
• If equipped with A /C , remove condenser to radiator
support attaching bolts and swing condenser to the
side, out of the way.
11 . Remove heater hoses from engine.
12. Disconnect all necessary wiring from engine:
• G enerator
• D istributor
• All sending switches
• S tarte r
13. Raise vehicle.
14. Remove fuel line hose from suction side of fuel pump.
15. Drain crankcase.
16. Remove propshaft and plug end of transmission.
17. Remove exhaust pipe from manifold flange.
18. Remove linkage from transm ission and disconnect
speedometer cable.
19. Remove transm ission m ount bolts.
• If equipped with m anual transm ission, disconnect
clutch linkage and remove clutch cross shaft.
20. Remove engine m ount "th ro u g h " bolts.
21. Lower vehicle.
22. A ttach lifting devise to engine.
23. Raise engine slightly and remove right hand m ount
assembly from engine.
24. Remove engine/transm ission assembly.
Installation ("G " Van/Code D Engine)
1. Place engine/transm ission assembly into vehicle.
2. Install right hand engine m ount assembly and lower
engine onto m ounts.
3. Remove lifting tool.
4. R aise vehicle and install engine m ount " th ro u g h "
1. Disconnect battery negative cable a t battery.
2. D rain cooling system.
3. Remove engine cover.
4. Remove air cleaner.
5. If equipped, evacuate A /C system and remove A /C
compressor.
6. D isconnect accelerato r linkage a t c a rb u reto r and
remove carburetor from manifold.
bolts. Torque to specifications.
transm ission m ount bolts. T orque to
specifications.
Connect transm ission shift linkage and speedom eter
cable.
• If equipped w ith m anual transm ission, connect
clutch linkage and install clutch cross shaft.
A ttach exhaust pipe to manifold flange.
Install propshaft.
Connect fuel tank line to fuel pump.
Lower vehicle.
Connect all wiring to engine components:
• G enerator
• D istributor
• All sending units
• S tarter
5. Install
6.
ENGINE ASSEMBLY
Removal ("G " Van/Code D Engine)
6A1-29
7.
8.
9.
10.
11 .
LIGHT TRUCK SERVICE MANUAL
6A1-30
IN-LINE 6
12. Connect heater hoses to engine.
13. Install radiator and hold in place with radiator to
support attaching brackets.
• If equipped with A utom atic Transm ission, connect
cooler lines to radiator.
• If equipped with A /C , install condenser in front of
radiator. Bolt to radiator support.
14. Connect radiator hoses to radiator.
15. Install windshield washer ja r and, if equipped, A /C
vacuum reservoir.
16. Install grille cross brace and grille.
17. Using a new pad gasket, install carburetor. Connect
accelerator linkage.
18. If equipped, m ount A /C compressor.
19. Fill crankcase with oil.
20. Fill cooling system.
21. Connect battery negative cable and start engine. Check
ignition tim ing and adjust carburetor if necessary.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
22. Install air cleaner and engine cover.
Removal (CK Series/Code D & T Engines)
1.
2.
3.
4.
Disconnect b attery cables at battery.
Remove air cleaner.
Drain cooling system.
Disconnect accelerator cable from carburetor throttle
lever.
• If equipped with autom atic transm ission, remove
detent cable from carburetor throttle lever.
5. Disconnect all wiring from engine.
6. Remove radiator hoses from radiator.
7. Remove heater hoses from engine.
8. Remove radiator.
9. Remove fan and w ater pump pulley.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
Disconnect fuel line from fuel pump.
Remove vehicle hood.
Raise vehicle.
Remove starter.
Remove flywheel or torque converter splash shield, as
applicable.
Disconnect exhaust pipe from exhaust m anifold flange.
W ire up and out of way.
Remove engine m ount ’through’ bolts.
• If equipped with autom atic transm ission, remove
converter to flex plate bolts.
• If ’K’ model, remove strut rods at motor mounts.
Remove bell housing to engine retaining bolts. Support
transm ission with chain.
Lower vehicle.
A ttach engine lifting device.
20. Remove engine.
Installation (CK Series/Code D & T Engines)
1. Place engine in vehicle.
2. Raise vehicle.
3. Install bell housing to engine retaining bolts. Torque to
specifications.
IKHT TRUCK SERVICE MANUAL
16.
17.
18.
19.
20.
• If equipped with au to m a tic transm ission, install
torque converter to flex plate attaching bolts. Torque
to specifications.
Install engine mount to fram e retaining bolts. Torque
to specifications.
Connect exhaust pipe to exhaust manifold flange.
Install flywheel or torque converter splash shield, as
applicable.
Install starter. Torque bolts to specifications.
Lower vehicle.
A ttach fuel line to fuel pump.
Install w ater pump pulley and fan. Torque bolts to
specifications.
Install radiator.
Connect heater hoses to engine.
Connect radiator hoses to radiator.
Connect all wiring to engine.
Connect accelerator cable to carburetor throttle lever.
• If equipped with autom atic transmission, connect
detent cable to throttle lever.
Fill cooling system.
Fill crankcase with oil.
Install vehicle hood.
Connect battery cables, start engine. Check tim ing and
carburetor adjustm ent. A djust if necessary.
Install air cleaner.
CRANKSHAFT
Removal
1. Remove engine as previously outlined. Remove clutch,
if applicable, and flywheel and m ount engine on stand.
2. Remove the oil dipstick and oil dipstick tube.
3. Remove the spark plugs.
4. Remove crankshaft pulley and torsional dam per.
5. Remove oil pan and oil pump.
6. Remove crankcase front cover.
7. Remove the connecting rod caps and push the pistons to
the top of bores.
8. Remove main bearing caps and lift cranksahft out of
cylinder block.
9. Remove rear main bearing oil seal and main bearings
from cylinder block and m ain bearing caps.
Cleaning and Inspection
1. W ash crankshaft in solvent and dry with compressed
air.
2. M easure dim ensions of m ain bearing jo u rn als and
crankpins with a m icrom eter for out-of-round, taper or
undersize. (See Specifications.)
3. Check crankshaft for run-out by supporting the front
and rear main bearing journals in "V " blocks and
check at the front and rear interm ediate journals with a
dial indicator. (See Specifications.)
4. R eplace or recondition th e cra n k sh aft if out of
specifications.
Installation
IN-LINE 6
APPLY
SEALANT
TO SHADED
AREAS ONLY
Fig. 6Al-46--Sealing Bearing Cap
1. Install rear main bearing oil seal in cylinder block and
rear main bearing cap grooves. Install with lip of seal
tow ard front of engine. Install lip and helix towards
front of engine.
2. L ubricate lips of seal with engine oil. Keep oil off
parting line surface.
3. In stall m ain bearings in cylinder block and m ain
bearing caps then lubricate bearing surface with engine
oil.
4. Install crankshaft, being careful not to dam age bearing
surfaces.
6A1-31
5. Apply a thin coat of brush-on type oil sealing com
pound to block m ating surface and corresponding
surface of cap only (fig. 6A1-46). Do not allow sealer
on crankshaft or seal.
6. Install main bearing caps with arrows pointing toward
front of engine.
7. T orque all except re ar m ain bearing cap bolts to
specifications. Torque rear main bearing cap bolts to
10-12 lbs. ft. (14-16 N-m) then tap end of crankshaft,
first rearw ard then forward with a lead ham m er. This
will line up rear main bearing and crankshaft thrust
surfaces. R etorque all m ain bearing cap bolts to
specifications.
8. M easure crankshaft end play with a feeler gage. Force
crankshaft forward and m easure clearance between the
front of the rear main bearing and the crankshaft
thrust surface.
9. Install flywheel and torque to specifications. Align
dowel hole in flywheel with dowel hole in crankshaft.
• On vehicles equipped with autom atic transm issions,
install flywheel with the converter attaching pads
towards transmission.
Gear Replacement
Remove crankshaft gear using Tool J-8105 and install
using Tool J-5590 (fig. 6A1-47).
REMOVAL
IN
Fig. 6A l-47--G ear Replacement
LIGHT TRUCK SERVICE MANUAL
TRUCK
M AN U AL
4.1 (D)
4.8 (T)
LE3
L25
.9270-.9273
.00015-.00025
PRODUCTION
CLEARANCE
.001 M A X .
SERVICE
RPO
3.876
BORE
STROKE
COMPRESSION RATIO
4.120
8.25:1
8.0:1
MAIN
JOURNAL
DIAMETER
TAPER
ALL
2.2979-2.2994
DIAMETER
1-5-3-6-2-4
C YLIN D ER BORE:
TAPER
3.8750-3.8780
PRODUCTION
.0005 M AX.
SERVICE
.002 M AX.
PRODUC
TION
.0008-.0016 INTERFERENCE
FIT IN ROD
CRANKSHAFT
3.530
FIRING ORDER
OUT OF
ROUND
L25
THRUST
SIDE
OUT OF
ROUND
PRODUCTION
.0002 M A X .
SERVICE
.001 M A X .
PRODUCTION
.0002 M A X .
SERVICE
.001 M A X .
.0005 M AX.
RELIEF
SIDE
MAIN
BEARING
CLEARANCE
.0005 M AX.
# 1 -6 .0010-.0024
# 7 .0016-.0035
PRODUCTION
.001 M AX.
SERVICE
SERVICE
# 1 -6
.0010-.0025
PRODUCTION
.0010-.0020
.0026-.0036
.0030 M AX.
.0045 M A X .
DIAMETER
#7
1.999-2.000
2.099-2.100
CLEARANCE
SERVICE
PRODUCTION
.0005
SERVICE
.001 M A X .
PRODUCTION
.0005
TAPER
CRANKPIN
PISTON RIN G:
0
M
P
R
E
S
S
1
o
TOP
GROOVE PRODUC
CLEAR TION
2ND
ANCE
SERVICE
GAP
PRODUC
TION
0
1
L
GROOVE
CLEAR
ANCE
.0020-.0040
.0012-.0032
HI LIM IT + .001
.0 1 0.0 2 0
2ND
.010-.020
PRODUCTION
OUT OF
ROUND
.0020-.0040
TOP
SERVICE
N
.0012-.0027
SERVICE
.001 M A X .
.0010-.0026
PRODUCTION
SERVICE
.0030
ROD SIDE CLEARANCE
HI LIM IT + .010
.005 M AX.
ROD BEARING
CLEARANCE
.005-.0055
.006-.017
CAMSHAFT
LOBE LIFT
± .002
INTAKE
EXHAUST
.2315
.2217
.2315
SERVICE
HI LIM IT + .001
PRODUCTION
.015-.055
JOURNAL DIAMETER
1.8677-1.8697
SERVICE
HI LIM IT + .010
CAMSHAFT END PLAY
.003-.008
GAP
* VIN Designation
ggJI
.002-.006
CRANKSHAFT END PLAY
PISTON:
C
IN-LINE 6
SERVICE
LITRE (*)
|
6A1-32
LIGHT
DIAMETER
IN LINE L-6
TYPE
DISPLACEMENT
LE3
PISTON PIN
GENERAL DATA:
TORQUE SPECIFICATIONS
VALVE SYSTEM_______________ LE 3
|
L25
L IF T E R
H YD RAULIC
RO CKER A R M R A T IO
1.75:1
IN T A K E
VALVE
LASH
ONE TURN D O W N FROM ZERO LASH
EXHAUST
FACE A N G L E ( IN T . & EXH.)
45°
46°
SE AT A N G L E ( IN T. & EXH.)
46°
SEAT R U N O U T
SE AT
W ID T H
STEM
CLEARANCE
.002 M A X .
IN T A K E
1/32-1/16
EXHAUST
1/16-3/32
P R O D U C TIO N
SE RVIC E
FREE LENG TH
VALVE
SPRING
( O U TE R )
.0010-.0027
INT.
EXH.
PRESSURE
LBS. @ IN.
.0015-.0032
HI I IM IT
MIU[V111
INTAKE
+ .002 EXHAUST
2.08
CLOSED
7 8 -8 6 @ 1.66
OPEN
1 7 0 -1 8 0 @ 1.26
I N S T A L L E D H E IG H T
1.66
± 1 /3 2 "
FREE L E N G TH
1.94
APPROX. # OF COILS
4
D AM PER
C a m sha ft T h ru s t P la te ......................................... 80 lb. in.
C ra n ksh aft F ron t C o v e r ....................................... 80 lb. in.
F lyw heel H o using C over ................................... 80 lb. in.
Oil Pan (To Crankcase) (1/4-20) .......................80 lb. in.
Oil Pan (To F ront Cover) ................................... 50 lb. in.
Oil P um p C o v e r......................................................70 lb. in.
Rocker A rm C over ............................................... 45 lb. in.
C o n n e ctin g Rod C a p ............ .............................. 35 lb. ft.*
C lutch Pressure P la t e ......................................... 20 lb. ft.*
Oil Pan (To C rankcase) 5 /1 6 -1 8 ).......................75 lb. in.
Oil P u m p ................................................................ 115 lb. in.
Push Rod C over ....................................................50 lb. in.
W a te r P u m p ............................................................15 lb. in.
C lutch Pressure P la t e ....................................... 30 lb. ft.@
D is trib u to r C la m p ..................................................25 lb. ft.
F lyw heel H o usin g ..................................................30 lb. ft.
M a n ifo ld (E xhaust) ........................................... 30 lb. ft. 2
M a n ifo ld (E xhaust To Inlet) .............................45 lb. ft.
M a n ifo ld To H e a d ................................................40 lb. f t . 2
T h e rm o s ta t H o u s in g ............................................. 30 lb. ft.
W a te r O u t le t ................................... .....................30 lb. ft.
C o n necting Rod C a p ......................................... 40 lb. ft.@
M a in B earing C a p ..................................................65 lb. ft.
F ly w h e e l.................................................................. 60 lb. ft.*
T o rsio n a l D a m p e r ............................................. 60 lb. ft.@
C y lin d e r H e a d ..........................................................95 lb. f t . 1
T e m p e ra tu re S e nd ing U n i t ................................. 20 lb. ft.
Oil F ilte r .............................................................. Hand T ig h t
Oil Pan D rain P lu g ................................................. 20 lb. ft.
F ly w h e e l.............................................................. 110 1b. ft.@
S park P lu g ..........................................................17-27 lb. ft.
* 4.1 (D) o n ly
@ 4.8 (T) o n ly
1 Except LH Front Bolt 85 lb. ft.
2 Non-Integral Head
SMALL BLOCK
6A4-1
SECTION 6A4
5.0L (G) V-8 - RPO LG9
5.0L (F) V-8 - RPO LF3
5.0L (H) V-8 - RPO LE9
5.7L (L) V-8 - RPO LS9
5.7L (M) V-8 - RPO LT9
Contents
G eneral Description.......................................................
Engine L ubrication........................................................
On Vehicle Service........................................................
Engine M o u n ts.............................................................
Intake M anifold...........................................................
Exhaust M anifold........................................................
Rocker Arm C over......................................................
Valve M echanism ........................................................
Valve Stem Oil Seal and /or
Valve S p rin g .................................................................. .
Valve L ifte rs.................................................................
C ylinder H ead A ssem bly..........................................
Rocker A rm S tu d s.......................................................
Valve G uide Bores.......................................................
Valve S e a ts ...................................................................
Valves..............................................................................
6A4-1
6A4-2
6A 4-11
6A 4-11
6A4-11
6A4-12
6A 4-12
6A4-13
6A4-14
6A4-14
6A4-15
6A4-18
6A4-19
6A4-19
6A4-19
Torsional D am per........................................................
Crankcase Front C o v er..............................................
Oil Seal (Front C ov er)...............................................
C a m s h a ft.......................................................................
C am shaft B earings......................................................
Oil P a n ...........................................................................
Oil Pum p........................................................................
Connecting Rod B earin g s........................... .............
M ain B earings..............................................................
Oil Seal (R ear M a in ).................................................
Connecting Rod Piston A sem blies..........................
Cylinder Block..............................................................
Oil Filter Bypass V alve..............................................
Engine A ssem bly.........................................................
C ra n k sh a ft.....................................................................
Sprocket or G ear R eplacem ent................................
Specifications..................................................................
6A4-19
6A4-20
6A4-20
6A4-21
6A4-21
6A4-22
6A4-23
6A4-23
6A4-24
6A4-26
6A4-28
6A4-31
6A4-32
6A4-32
6A4-33
6A4-34
6A4-35
GENERAL DESCRIPTION
CYLINDER BLOCK
The cylinder block is made of cast iron and has 8
cylinders arranged in a "V " shape with 4 cylinders in each
bank. Five main bearings support the crankshaft which is
retained by bearing caps th at are m achined with the block
for proper alignment and clearnances. Cylinders are com
pletely encircled by coolant jackets.
CYLINDER HEAD
The cylinder heads are cast with individual intake and
exhaust ports for each cylinder. Valve guides are integral,
and rocker arm s are retained on individual studs.
CRANKSHAFT AND BEARINGS
The crankshaft is cast nodular iron, and is supported by
five main bearings. N um ber five bearing is the end thrust
bearing.
M ain bearings are lubricated from oil holes which
intersect the cam shaft bearings. The cam shaft bearings are
fed oil by the main oil gallery which is rifle drilled down the
center of the block, above the cam shaft. Two additional oil
gallerys are on either side of the main oil gallery to provide
an oil supply for the hydraulic lifters.
A torsional dam per on the forward end of the crank
shaft dampens any engine torsional vibrations.
CAMSHAFT AND DRIVE
The cast iron cam shaft is supported by five bearings
and is chain driven. A steel or sintered iron crankshaft gear
drives the timing chain which in turn drives the cam shaft
through either a nylon/alum inum or cast iron gear depend
ing on application.
Cam lobes are ground, hardened and tapered with the
high side toward the rear. This, coupled with a spherical
face on the lifter, causes the valve lifters to rotate.
C am shaft bearings are lubricated through oil holes
which intersect the main oil gallery. The main oil gallery is
rifle drilled down the center of the block, above the
cam shaft.
PISTONS AND CONNECTING RODS
The pistons are made of cast alum inum alloy using two
compression rings and one oil control ring. Piston pins are
L IG H T T R U C K SERVICE M ANUAL
6A4-2
SMALL BLOCK
offset 1/16" (1.6m m ) tow ard the thrust side (right hand
side) to provide a gradual change in thrust pressure against
the cylinder wall as the piston travels its path. Pins are
Chrom ium steel and have a floating fit in the pistons They
are retained in the connecting rods by a press fit.
Connecting rods are m ade of forged steel. Full pressure
lubrication is directed to the connecting rods by drilled oil
passages from the adjacent main bearing journal. Oil holes
at the connecting rod journals are located so th at oil is
supplied to give m axim um lubrication just prior to full
bearing load.
VALVE TRAIN
A very simple ball pivot-type train is used. Motion is
transm itted from the cam shaft through the hydraulic lifter
and push rod to the rocker arm . The rocker arm pivots on its
ball and transm its the cam shaft motion to the valve. The
rocker-arm ball is retained by a nut.
HYDRAULIC VALVE LIFTERS
H ydraulic Valve Lifters are used to keep all parts of the
valve train in constant contact.
The hydraulic lifter assembly consists of: the lifter
body, which rides in the cylinder block boss, a plunger, a
push rod seat, a m etering valve, a plunger spring, a check
ball and spring, a check ball retainer and a push rod seat
retainer.
W hen the lifter is riding on the low point of the cam,
the plunger spring keeps the plunger and push rod seat in
contact with the push rod.
W hen the lifter body begins to ride up the cam lobe, the
check ball cuts off the transfer of oil from the reservoir
below the plunger. The plunger and lifter body then rise as a
unit, pushing up the push rod and opening the valve.
As the lifter body rides down the other side of the cam,
the plunger follows with it until the valve closes. The lifter
body continues to follow the cam to its low point, but the
plunger spring keeps the plunger in contact with the push
rod. The ball check valve will then move off its seat and the
lifter reservoir will rem ain full.
INTAKE MANIFOLD
The intake manifold is of cast iron double level design
for efficient fuel distribution. The carburetor pad is centrally
located with a passage running underneath the pad (E .F.E .)
through which exhaust gases are forced to promote faster
fuel vaporization when the engine is cold. An EG R port is
also cast into the manifold for the m ixture of exhaust gases
with the fuel air mixture.
EXHAUST MANIFOLDS
Two cast iron exhaust manifolds are used to direct
exhaust gases from the combustion cham bers to the exhaust
system. The right hand side m anifold receives a heat shield
th at is used to route heated air to the air cleaner for better
fuel vaporization.
COMBUSTION CHAMBERS
C om bustion C ham bers are cast to insure uniform
shape for all cylinders. Spark plugs are located between the
intake and exhaust valves.
The contoured wedge shape of the combustion cham ber
minimizes the possibility of detonation, facilitates breath
ing, and provides swirling turbulence for smooth, complete
combustion.
ENGINE LUBRICATION
Full pressure lubrication through a full flow oil filter, is
furnished by a gear-type oil pump. The distributor, driven
by a helical gear on the cam shaft, drives the oil pump. The
main oil gallery feeds oil, through drilled passages, to the
LIG H T TRUCK SERVICE M A N U A L
cam shaft and crankshaft to lubricate the bearings. The
valve lifter oil gallery feeds the valve lifters which, through
hollow push rods, feed the individually mounted rocker arms
(fig. 6A4-1 and 6A4-2).
SMALL BLOCK
6A4-3
Fig. 6A4-1--Engine Lubrication
L IG H T TRUCK SERVICE M ANUAL
6A4-4
SMALL BLOCK
Fig. 6A4-2--Engine Lubrication
L IG H T TR U C K SERVICE M AN U AL
SMALL BLOCK
6A4-5
LIG H T T R U C K SERVICE M A N U A L
6A4-6
SMALL BLOCK
L IG H T T R U C K SERVICE M A N U A L
SMALL BLOCK
6A4-7
Fig. 6A4-5--"P" Series Engine Front Mount
LIGHT T R U C K SERVICE M A N U A L
6A4-8
SMALL BLOCK
Fig. 6A 4-6--"G " Series Engine Mounts
LIG H T T R U C K SERVIC E M A N U A L
SMALL BLOCK
6A4-9
Fig. 6A4-7--"K" Series Engine Mounts
L IG H T TR U C K SERVICE M AN U AL
6A4-10
SMALL BLOCK
Fig. 6A4-8--"C" Series Engine Mounts
L IG H T T R U C K SERVIC E M A N U A L
SMALL BLOCK
6A4-11
ON VEHICLE SERVICE
ENGINE MOUNTS
INTAKE MANIFOLD
E ngine m ounts (fig. 6 A 4 -3 - 6 A 4 -8 ) are the nonad ju sta b le type and seldom req u ire service. Broken or
d e te rio ra ted m ounts should be replaced im m ediately,
because of the added strain placed on other m ounts and
drive line components.
Removal
1. D rain radiator and remove air cleaner.
2. Disconnect:
• B attery negative cable at battery.
• R adiator upper hose and heater hose at manifold.
Checking Engine Mounts
Front Mount
Raise the engine to remove weight from the mounts and
to place a slight tension in the rubber. Observe both mounts
while raising engine. If an engine m ount exhibits:
a. H ard rubber surface covered with heat check cracks;
b. R ubber separated from a metal plate of the mount;
c. R ubber split through center
replace the m ount. If th e re is relative m ovem ent
between a m etal plate of the m ount and its attaching points,
lower the engine on the m ounts and tighten the screws or
nuts attaching the mount to the engine, fram e, or bracket.
• A ccelerator linkage a t carburetor.
3.
4.
5.
6.
• Fuel line at carburetor.
• Crankcase ventilation lines.
• Spark advance hose at distributor.
Remove distributor cap and m ark rotor position with
chalk, then remove distributor.
Remove air conditioning compressor and bracket (if
equipped), accelerator return spring and bracket, and
accelerator bellcrank.
Remove generator upper mounting bracket.
Remove manifold attaching bolts, then remove m ani
fold and carburetor as an assembly. Discard gaskets.
Remove A .I.R . crossover.
Rear Mount
7.
R aise the vehicle on a hoist. Push up and pull down on
the transm ission tailshaft while observing the transm ission
m ount. If the rubber separates from the m etal plate of the
m ount or if the tailshaft moves up but not down (m ount
bottom ed out) replace th e m ount. If th ere is relative
movement between a m etal plate of the m ount and its
attaching point, tighten the screws or nuts attaching the
m ount to the transm ission or crossm em ber.
8. If manifold is being replaced, transfer:
• C arburetor and carburetor attaching bolts.
• T em perature sending unit.
Front Mount Replacement
1. Rem ove m ount retain in g bolt from below fram e
m ounting bracket.
2. R aise front of engine and rem ove m ount-to-engine
bolts and remove mount.
NOTICE: Raise engine only enough for sufficient clear
ance. Check for interference between rear of engine
and cowl panel which could cause distributor dam age.
3. Replace mount to engine and lower engine into place.
4. Install retain in g bolt and torque all bolts to
specifications.
Rear Mount Replacement
1. Support engine weight to relieve rear mounts.
2. Remove crossm em ber-to-m ount bolts.
3. On " P " Series with m anual transm ission and propeller
shaft parking brake, remove m ount attaching bolts
from fram e outrigger and clutch housing and remove
rear m ounting cushions.
4. Rem ove m ount-to-transm ission bolts, then rem ove
mount.
5. On " P " Series with m anual transm ission and propeller
shaft parking brake, install new m ounting cushions and
bolts.
6. Install new mount on transm ission.
7. W hile lowering transm ission, align and start cross
m em ber-to-m ount bolts.
8. Torque bolts to specifications then bend lock tabs to
bolt head as applicable.
• T herm ostat with housing (use new gasket).
• H eater hose adapter.
• E G R Valve (use new gasket).
• TVS switch.
• Vacuum fitting(s).
• Choke spring assembly (where applicable).
Installation
1. Clean gasket and seal surfaces on manifold, block, and
cylinder heads with degreaser. Remove all RTV th at is
loose or will cause installation interference.
2. Install gaskets on cylinder heads and place a 3 /1 6 "
(5m m ) bead of RTV , # 1 0 5 2 3 6 6 or equivalent, on the
front and rear ridges of the cylinder case. Extend the
bead 1/2" (13m m ) up each cylinder head to seal and
retain the manifold side gaskets.
3. Install manifold and torque bolts to specifications in the
sequence outlined in fig. 6A4-9.
4. Install (if rem oved) air com pressor and brack et,
accelerator bellcrank.
5. Install distributor, positioning rotor at chalk m ark,
then install distributor cap.
6. Connect:
• Spark advance hose a t distributor.
• Crankcase ventilation lines.
• Fuel line at carburetor.
• A ccelerator linkage at carburetor.
• B attery negative cable at battery.
7. Install air cleaner.
8. Fill w ith coolant (refer to section 6B for proper
procedure), start engine, adjust ignition timing and
carburetor idle speed (if necessary) and check for leaks.
LIG H T T R U C K SERVICE M A N U A L
6A4-12
SMALL BLOCK
W IN G NUT
LOWER STOVE
NOTE: Inboard flange
of lower stove must be
installed on top of rib
of exhaust manifold.
CARBURETOR TEE
AIR CLEANER
HOSE
3 5 0 /4 0 0 V8 4Bbl
IvSwfBl
UPPER STOVE
LOWER STOVE
Fig. 6A4-10--Carburetor Heat Stove Assembly
EXHAUST MANIFOLD
Removal
1. Remove carburetor heat stove pipe.
2. Remove the spark plug wiring heatshields.
3. D isconnect exhaust pipe from m anifold and hang
exhaust pipe from fram e with wire.
4. Remove end bolts then remove center bolts and remove
manifold.
Installation
1.
2.
3.
4.
5.
6.
• If installing a new right side manifold, the carburetor
heat stove m ust be transferred from the old unit (fig.
6A4-10).
Clean m ating surfaces on m anifold and head, then
install m anifold in position and install bolts
(fingertight).
Torque manifold bolts to specifications.
Connect exhaust pipe to manifold.
Install carburetor heat stove pipe.
Install spark plug wiring heatshields.
S tart engine and check for leaks.
ROCKER ARM COVER
Removal
1. Disconnect battery negative cable.
2. Remove air cleaner.
3. Disconnect crankcase ventilation hoses at rocker arm
covers.
4. Disconnect electrical wiring harness from rocker arm
clips.
5. Remove carburetor heat stove pipe from right exhaust
manifold.
6. If the vehicle is equipped with air conditioning, remove
the A /C compressor rear brace (fig. 6 A 4 -11).
L IG H T T R U C K SERVIC E M A N U A L
SMALL BLOCK
6A4-13
push rods in a rack so they may be reinstalled in the
same locations.
Installation and Adjustment
7. Remove rocker arm cover to head attaching bolts and
remove rocker arm cover.
NOTICE: If cover adheres to cylinder head, shear off by
bum ping end of rocker arm cover with a block of wood
and a rubber m allet. If cover still will not come loose,
CAREFULLY pry until loose. DO N O T D IS T O R T
S E A L IN G FL A N G E .
Installation
1. C lean sealing surface on cylinder head and rocker arm
cover with degreaser. Using a 3 /1 6 " (5m m ) bead of
R TV , # 1052366 or equivalent, place rocker arm cover
on the head, install retaining bolts and torque to 40 lb.
in. (4.6 N-m). Loose RTV sealant, or pieces causing
installation interference, m ust be removed from both
cylinder head and cover seal surfaces prior to applying
new sealant.
• W hen going around the attaching bolt holes, always
flow the RTV on the inboard side of the holes. Install
cover and torque bolts while RTV is still wet (within
10 minutes).
2. On A /C equipped vehicles, install the A /C compressor
upper brace. A djust pulley belt to specification.
• W henever new rocker arm s an d /o r rocker arm balls
are being installed, coat bearing surfaces of rocker
arm s and rocker arm balls with "M olykote" or its
equivalent.
1. Install push rods. Be sure push rods seat in lifter socket.
2. Install rocker arm s, rocker arm balls and rocker arm
nuts. T ighten rocker arm nuts until all lash is
elim inated.
3. A djust valves when lifter is on base circle of cam shaft
lobe as follows:
a. C rank engine until m ark on torsional dam per lines
up with center or "O " m ark, on the tim ing tab,
fastened to the crankcase front cover, and the engine
is in the # 1 firing position. This may be determ ined
by placing fingers on the # 1 valve as the m ark on the
dam per comes near the " O " m ark on the crankcase
front cover. If the valves are not moving, the engine is
in the # 1 firing position. If the valves move as the,
m ark comes up to the tim ing tab, the engine is in # 6
firing position and should be rotated one more tim e to
reach the # 1 position.
b. W ith the engine in the # 1 firing position as just
determ ined, the following valves may be adjusted:
- E xhaust--1, 3,4 , 8
-- I n ta k e - 1, 2, 5, 7
c. Back out adjusting nut until lash is felt at the push
rod then tu rn in adjusting n ut until all lash is
removed. This can be determ ined by rotating push
rod while turning adjusting nut (fig. 6A 4-12). W hen
play has been removed, turn adjusting nut in one full
additional turn (to center lifter plunger).
d. R otate the engine one revolution until the pointer
"O " m ark and torsional dam per m ark are again in
alignm ent. This is the # 6 firing position. W ith the
engine in this position the following valves may be
adjusted.
3. Install carburetor heat stove pipe.
4. C onnect electrical wiring harness at clips on rocker arm
cover.
5. Connect crankcase ventilation hoses.
6. Install air cleaner. Connect b attery negative cable,
sta rt engine and check for leaks.
VALVE MECHANISM
Removal
1. Remove rocker arm covers as previously outlined.
2. Remove rocker arm nuts, rocker arm balls, rocker arm s
and push rods. Place rocker arm s, rocker arm balls and
LIG H T T R U C K SERVICE M AN U AL
6A4-14
SMALL BLOCK
2. Remove spark plug, rocker arm and push rod on the
cylinder(s) to be serviced.
3. Install air line adapter Tool J-23590 to spark plug port
and apply compressed air to hold the valves in place.
4. Using Tool J-5892 to compress the valve spring, remove
the valve locks, valve cap, oil shedder and valve spring
and dam per (fig. 6A4-13).
5. Remove the valve stem oil or head oil seal.
Installation
1. Install valve stem seal over valve stem and seat against
head.
2. Set the valve spring and dam per, oil shedder and valve
cap in place. Compress the spring with Tool J-5892 and
install oil seal in the lower groove of the stem , making
sure the seal is flat and not twisted. A light coat of oil on
the seal will help prevent twisting.
3. Install the valve locks and release the compressor tool
m aking sure the locks seat properly in the upper groove
of the valve stem. G rease may be used to hold the locks
in place while releasing the compressor tool.
4. Using tool J-23994, apply vacuum to the valve cap to
m ake sure no air leaks past the seal.
Fig. 6A4-12--Valve Adjustment
5. Install spark plug, and torque to 22 lb. ft. (30 N-m).
-- Exhaust--2, 5 ,6 , 7
- I n ta k e - 3 ,4 ,6 , 8
4. Install rocker arm covers as previously outlined.
5. S ta rt engine and a d ju st c a rb u re to r idle speed, if
needed.
VALVE STEM OIL SEAL and/or VALVE SPRING
(Fig. 6A 4-11A)
Removal
6. Install and ad ju st valve m echanism as previously
outlined.
VALVE LIFTERS
H ydraulic valve lifters very seldom require attention.
The lifters are extrem ely simple in design, readjustm ents
are not necessary, and servicing of the lifters requires only
th at care and cleanliness be exercised in the handling of
parts.
Removal
1. Remove rocker arm cover as previously outlined.
1. Remove intake manifold as previously outlined.
2. Remove valve mechanism as previously outlined.
3. Remove valve lifters. Place valve lifters in a rack so that
they may be reinstalled in the sam e location.
Installation
1. C oat foot of valve lifters w ith "M o ly k o te" or its
equivalent and install valve lifters. M ake sure lifter foot
is convex.
2. Install intake manifold as previously outlined.
3. Install and adjust valve m echanism as outlined.
Disassembly
1. Hold the plunger down with a push rod, and using the
blade of a small screw driver, remove the push rod seat
retainer.
2. Remove the push rod seat and m etering valve (fig. 6A414).
J-2 3 5 9 0
ADAPTER
Fig. 6A4-13--Compressing Valve Spring
L IG H T T R U C K SERVIC E M A N U A L
3. Remove the plunger, ball check valve assembly and the
plunger spring.
4. Remove the ball check valve and spring by prying the
ball retainer loose from the plunger with the blade of a
small screw driver (fig. 6A 4-15).
SMALL BLOCK
6A4-15
Assembly
1. Lifte r Body
2. Push Rod Seat
3. M etering Valve
4 Check Ball
5 Check Ball Retainer
6
7
8
9
Push Rod Seat
Retainer
Plunger
Check Ball Spring
Plunger Spring
Fig. 6A4-14--Hydraulic Valve Lifter
1. Place the check ball on mall hole in bottom of the
plunger.
2. Insert check ball spring >n seat in ball retainer and
place retainer over ball scthat spring rests on the ball.
Carefully press the retaner into position in plunger
with the blade of a small crew driver (fig. 6 A 4 -16).
3. Place the plunger springover the ball retainer and slide
the lifter body over tie spring and plunger, being
careful to line up the oil eed holes in the lifter body and
plunger.
4. Fill the assembly with SAE 10 oil, then insert the end of
a 1/8" drift pin into tie plunger and press down solid.
Do not attem pt to for;e or pump the plunger. A t this
point, oil holes in the ifter body and plunger assembly
will be aligned (fig. 6A4-17)
5. Insert a 1/16" drif: pin through both oil holes to hold
the plunger down against :he lifter spring tension (fig.
6A4-17).
6- Remove the l/8 " d r if t p ir, refill assem bly w ith SA E 10
oil.
7. Install the metering valve and push rod seat (fig. 6A414).
8. Install the push rod sea: retainer, press down on the
push rod seat and remove the 1/16" drift pin from the
oil holes. The lifter is now completely assembled, filled
with oil and ready for installation. Before installing
lifters, coat the bottom of the lifter with " Molykote " or
its equivalent.
CYLINDER HEAD ASSEMBLY
Removal
1. Remove intake manifold as previously outlined
2. Remove generator lower m ounting bolt and lay unit
aside.
3. Remove exhaust manifolds as previously outlined.
Fig. 6A4-15--Removing Ball Check Valve
Cleaning and Inspection
Thoroughly clean all parts in cleaning solvent, and
inspect them carefully. If any parts are dam aged or worn,
the entire lifter assembly should be replaced. If the lifter
body wall is scuffed or worn, inspect the cylinder block lifter
bore. If the bottom of the lifter is scuffed or worn, inspect the
cam shaft lobe. If the push rod seat is scuffed or worn,
inspect the push rod. An additive containing EP lube, such
as EOS, should always be added to crankcase oil for run-in
when any new cam shaft or lifters are installed. All dam aged
or worn lifters should be replaced.
W henever a new cam shaft is installed, replace oil, oil
filter and all valve lifters. Install G M E.O.S. or equivalent
over the cam and lifter feet after the parts are installed.
• For proper lifter rotation during engine operation,
lifter foot m ust be convex.
Fig. 6A4-16--lnstalling Ball Chtk Valve
LIG H T T R U C K SERVICE M A N U A L
6A4-16
SMALL BLOCK
3. Remove valves from cylinder head and place them in a
rack in their proper sequence so th a t they can be
assembled in their original positions.
Cleaning
1. Clean all carbon from com bustion cham bers and valve
ports using Tool J-8089 (fig. 6 A 4 -19).
2. Thoroughly clean the valve guides using Tool J - 8 101.
3. Clean all carbon and sludge from push rods, rocker
arm s and push rod guides.
4. Clean valve stems and heads on a buffing wheel.
5. C lean carbon deposits from head gasket m ating
surface.
Inspection
1. Inspect the cylinder head for cracks in the exhaust
ports, combustion cham bers, or external cracks to the
coolant cham ber.
2. Inspect the valves for burned heads, cracked faces or
dam aged stems.
Fig. 6A4-17--Assenbling Hydraulic Lifter
4. Drain cylinder block of coolant.
5. If vehicle is equipped wi.h A /C , remove A /C com pres
sor and forw ard mounting bracket. Lay unit aside.
NOTICE: Excessive valve stem to bore clearance will
cause excessive oil consumption and may cause valve
breakage. Insufficient clearance will result in noisy and
sticky functioning of the valve and d isturb engine
smoothness.
6. Remove valve push rods as previously outlined.
7. Remove cylinder head belts, cylinder head and gasket.
Place cylinder head on two blocks of wood to prevent
damage.
Disassembly
1. With cylinder head removed, remove valve rocker arm
nul.s, balls and rocker arm s (if not previously done).
2. U sng Tool J-8062, compress the valve springs (fig.
6 A M 8) and remove valve keys. Release the compres
sor ool and remove rotators or spring caps, oil shedders springs and spring dam per, then remove oil seals
and ialve spring shims.
Fig. 6A-18--Compressing Valve Spring
LIG H T T R U C K SERVIC E M A N U A L
3. M easure valve stem clearance (fig. 6A4-20) as follows:
a. Clam p a dial indicator on one side of the cylinder
head rocker arm cover gasket rail.
b. Locate the indicator so th at movement of the valve
stem from side to side (crosswise to the head) will
cause a direct movement of the indicator stem. The
indicator stem m ust contact the side of the valve
stem ju st above the valve guide.
c. Drop the valve head about 1/16" (1.6m m ) off the
valve seat.
d. Move the stem of the valve from side to side using
light pressure to obtain a clearance reading. If
clearance exceeds specifications, it will be necessary
to ream valve guides for oversize valves as outlined.
4. Check valve spring tension with Tool J-8056 spring
tester (fig. 6A 4-21). Springs should be compressed to
Fig. 6A4-19--Cleaning Combustion Chambers
SMALL BLOCK
6A4-17
SEAL
SHIELD
DAMPER
* * ROTATOR O N EXHAUST VALVE
* NOT USED ON 250 CU. IN. L6
Fig. 6A4-22--Valve Spring Installation
Fig. 6A4-20--Measuring Valve Stem Clearances
Fig. 6A4-23--Checking Valve Stem Oil Seals
b. Compress the spring with Tool J-8062.
c. Install oil seal in the lower groove of the stem ,
making sure th at the seal is flat and not twisted.
d. Install the valve locks and release the compressor
tool, making sure th at the locks seat properly in the
upper groove of the valve stem. G rease may be used
to hold the locks in place while releasing the com
pressor tool.
Fig. 6A4-21 --Checking Valve Spring Tension
the specified height and checked against the specifica
tions chart. Springs should be replaced if not within 10
lbs. (44 N ) of the specified load (w ithout dam pers).
5. Inspect rocker arm studs for wear or dam age.
Assembly
1. Insert a valve in the proper port.
2. Assemble the valve spring and related parts as follows:
a. Set the valve spring shim, valve spring, oil shedder
and valve cap or rotator in place (fig. 6A4-22).
3. Install the rem aining valves.
4. Check each valve stem oil seal by placing Valve Seal
Leak D etector (Tool J-23994) over the end of the valve
stem and against the cap. O perate the vacuum pum p
and make sure no air leaks past the seal (fig. 6A 4-23).
5. Check the installed height of the valve springs, using a
narrow thin scale. A cutaw ay scale will help (fig. 6A424). M easure from the top of the shim or the spring seat
to the top of the oil shedder (fig. 6A 4-25). If this is
found to exceed the specified height, install a valve
spring seat shim approxim ately 1/16" (1.6mm) thick.
LIG H T T R U C K SERVICE M A N U A L
6A4-18
SMALL BLOCK
ROCKER ARM STUDS
,
GRIND OUT THIS PORTION
n-rp-rn l|i l|l|IM|l|> 1| 1| 1| 1J1| 1| 1| 1J1| 1| 1| 1| I| >| 1| 1| 1| 1| 1| 1| 1| 1| 1| 1 M'| Mfj'irpt'
3
4
/
f
6
Fig. 6A4-24--Cutaway Scale
Replacement
Rocker arm studs th at have dam aged threads or are
loose in cylinder heads should be replaced with new studs
available in .003" and .013" oversize. S tuds m ay be
installed after ream ing the holes as follows:
1. Remove old stud by placing Tool J-5802-1 over the
stud, installing nut and flat washer and removing stud
by turning nut (fig. 6A4-26).
2. Ream hole for oversize stud using Tool J-5715 for
.003" oversize or Tool J-6036 for .013" oversize (fig.
6A4-27).
NOTICE: Do not attem pt to install an oversize stud
without ream ing stud hole as this could dam age the
head casting.
Fig. 6A4-25~Measuring Valve Spring Installed Height
A t no tim e should the spring be shimmed to give an
installed height under the m inim um specified.
Installation
• The gasket surfaces on both the head and the block
m ust be clean of any foreign m atter and free of nicks
or heavy scratches. Cylinder bolt threads in the block
and threads on the cylinder head bolts m ust be clean
as d irt will affect bolt torque.
1. If using a ST E E L gasket, coat both sides of a new
gasket with a good sealer. Spread the sealer thin and
even. O ne m ethod of applying the sealer th a t will
assure the proper coat is with the use of a paint roller.
Too m uch sealer may hold the gasket away from the
head or block.
Fi9- 6A4-26--Removing Rocker Arm Stud
• Use no sealer if using a composition ST E E L A S
BESTO S gasket.
2. Place the gasket in position over the dowel pins with the
bead up.
3. Carefully guide the cylinder head into place over the
dowel pins and gasket.
OVERSIZE
4. C oat th read s of cylinder head bolts w ith sealing
compound, # 1 0 5 2 0 8 0 or equivalent, and install bolts
finger tight.
5. Tighten each cylinder head bolt a little at a tim e in the
sequence shown in the torque sequence chart until the
specified torque is reached.
6. Install exhaust manifolds as previously outlined.
7. Install intake manifold as previously outlined.
8. Install and ad ju st valve m echanism as previously
outlined.
LIG H T T R U C K SERVIC E M A N U A L
Fig. 6A4-27--Reaming Rocker Arm Stud Bore
SMALL BLOCK
6A4-19
TORSIONAL DAMPER
Removal
J- 6880
1. Remove fan belt, fan and pulley.
2. Remove the fan shroud assembly.
• If additional operations (such as cam shaft removal)
are not being perform ed, radiator removal will not be
necessary.
3. Remove accessory drive pulley then remove dam per
retaining bolt.
4. Install Tool J-23523 on dam per then, turning puller
screw, remove dam per (fig. 6A4-30).
Installation
Fig. 6A4-28--lnstalling Rocker Arm Stud
3. C oat press-fit area of stud with hypoid axle lubricant.
Install new stud, using Tool J-6880 as a guide. Gage
should bottom on head (fig. 6A4-28).
VALVE GUIDE BORES
Valves with oversize stems are available (see specifica
tions). To ream the valve guide bores for oversize valves use
Tool Set J-5830.
VALVE SEATS
NOTICE: The inertial weight section of the torsional
dam per is assembled to the hub with a rubber type
m aterial. The installation procedures (with proper tool)
m ust be followed or movement of the inertia weight
section on the hub will destroy the tuning of the
torsional dam per.
1. Coat front cover seal contact area (on dam per) with
engine oil.
2. Place dam per in position over key on crankshaft.
3. Pull dam per onto crankshaft as follows:
a. Install appropriate threaded end of Tool J-23523
into crankshaft. Install tool in crankshaft so th at at
least 1 /2 " (13m m ) of th re ad engagem ent is
obtained.
R econditioning the valve seats is very im p o rtan t,
because the seating of the valves m ust be perfect for the
engine to deliver the power and perform ance built into it.
A nother im portant factor is the cooling of the valve
heads. Good contact between each valve and its seat in the
head is im perative to insure th a t the heat in the valve head
will be properly carried away.
Several different types of equipm ent are available for
reseating valves seats. The recom m endations of the m anu
facturer of the equipm ent being used should be carefully
followed to attain proper results.
4.
5.
6.
Regardless of what type of equipm ent is used, however,
it is essential th a t valve guide bores be free from carbon or
dirt to ensure proper centering of pilot in the guide.
7.
8.
b. Install plate, th rust bearing and nut to complete tool
installation.
c. Pull dam per into position as shown in Figure 6A431.
d. Remove tool from crankshaft then install dam per
retaining bolt and torque to specifications.
Install accessory drive pulley.
Install fan shroud.
Install fan and pulley to w ater pum p hub and tighten
securely.
Install fan belt and adjust (see section 6B).
Fill cooling system (see section 6B) and check for leaks.
VALVES
Valves th at are pitted can be refaced to the proper
angle, insuring correct relation between the head and stem
on a valve refacing mechanism. Valve stems which show
excessive wear, or valves th at are warped excessively should
be replaced. W hen a valve head which is warped excessively
is refaced, a knife edge will be ground on part or all of the
valve head due to the am ount of metal th at must be removed
to completely reface. Knife edges lead to breakage, burning
or pre-ignition due to heat localizing on this knife edge. If
the edge of the valve head is less than 1/32" (.80m m ) thick
after grinding, replace the valve.
Several different types of equipm ent are available for
refacing valves. The recom m endation of the m anufacturer
of the equipm ent being used should be carefully followed to
attain proper results.
Fig. 6A4-30--Removing Torsional Damper - Typical
LIG H T T R U C K SERVICE M A N U A L
6A4-20
SMALL BLOCK
2. Install new seal so that open end of the seal is toward
the inside of cover and drive it into position with Tool
J-23042. Support rear of cover at seal area.
With Cover Installed
1. W ith torsional dam per removed, pry seal out of cover
from the front with a large screw driver. Be careful not
to dam age the surface on the crankshaft.
2. Install new seal so that open end of seal is toward the
inside of cover and drive it into position with Tool
J-23042 (fig. 6A4-32).
Fig. 6A4-31--Installing Torsional Damper
CRANKCASE FRONT COVER
Removal
1. Remove torsional dam per as previously outlined.
2. Remove w ater pump (see section 6B).
3. Remove crankcase front cover attaching screws and
remove front cover and gasket, then discard gasket.
Installation
1. Clean gasket surface on block and crankcase front
cover.
2. Use a sharp knife or other suitable cutting tool to
remove any excess oil pan gasket m aterial th at may be
protruding at the oil to engine block junction.
3. Apply a 1/8" (3m m ) bead of RTV, # 1 0 5 2 3 6 6 or
equivalent, to th e jo in t form ed at the oil pan and
cylinder block.
4. Coat the cover gasket with gasket sealant and place in
position on cover.
5. Install cover-to-oil pan seal, lightly coat bottom of seal
with engine oil, and position cover over crankshaft end.
6. Loosely install the cover-to-block upper atta c h in g
screws.
7. Tighten screws alternately and evenly while pressing
downward on cover so th a t dowels in block are aligned
with corresponding holes in cover. Position cover so that
dowels enter holes in cover without binding. Do not
force cover over dowels so th a t cover flange or holes are
distorted.
8. Install rem aining cover screws and torque to
specifications.
9. Install torsional dam per and w ater pum p as previously
outlined.
Fig. 6A4-32--lnstalling Oil Seal
OIL SEAL (FRONT COVER)
Replacement
With Cover Removed
1. W ith cover removed, pry oil seal out of cover from the
front w ith a large screw driver.
LIG H T T R U C K SERVICE M A N U A L
Fig. 6A4-33--Measuring Camshaft Lobe Lift
SMALL BLOCK
6A4-21
Inspection
CAMSHAFT
Measuring Lobe Lift
1. Remove the valve m echanism as previously outlined.
2. Position in d icato r w ith ball socket ad ap te r (Tool
J-8520) on push rod (fig. 6A 4-33). M ake sure push rod
is in the lifter socket.
3. R otate the crankshaft slowly in the direction of rotation
until the lifter is on the heel of the cam lobe. A t this
point, the push rod will be in its lowest position.
4. Set dial indicator on zero, then rotate the crankshaft
slowly, or a tta c h an au x iliary s ta rte r sw itch and
"b u m p " the engine over, until the push rod is fully
raised position.
• W henever the engine is cranked remotely at the
starter, with a special jum per cable or other means,
the distributor prim ary lead should be disconnected
from the distributor (coil).
5. C om pare the total lift recorded from the dial indicator
with specifications.
6. If cam shaft readings for all lobes are within specifica
tions, remove dial indicator assembly.
7. Install and adjust valve m echanism as outlined.
Removal
1. Remove valve lifters as previously outlined.
2. Remove crankcase front cover as previously outlined.
The cam shaft bearing journals should be m easured
with a m icrom eter for an out-of-round condition. If the
journals exceed .001" (,025m m ) out-of-round, the cam shaft
should be replaced.
Installation
W henever a new cam shaft is installed coat cam shaft
lobes with "M olykote" or its equivalent.
W henever a new cam shaft is installed, replacem ent of
all valve lifters oil filter, and new oil is recom m ended to
insure durability of the cam shaft lobes and lifter feet.
1. L ubricate cam shaft journals with engine oil and install
cam shaft.
2. Install tim ing chain on cam shaft sprocket (fig. 6A435). Hold the sprocket vertically w ith the chain
hanging down and align m arks on c am sh aft and
crankshaft sprockets.
3. Align dowel in cam shaft with dowel hole in cam shaft
sprocket then install sprocket on cam shaft.
4. Draw the cam shaft sprocket onto cam shaft using the
m ounting bolts. Torque to specifications.
5. Lubricate tim ing chain with engine oil.
6. Install fuel pump push rod and fuel pump (see section
6C).
7. Install grille.
8. Install crankcase front cover as previously outlined.
9. Install valve lifters as previously outlined.
3. Remove grille.
4. Remove fuel pump and push rod (see section 6C).
5. Com plete cam shaft removal as follows:
• Sprocket is a light fit on cam shaft. If sprocket does
not come off easily a light blow on the lower edge of
the sprocket (with a plastic m allet) should dislodge
the sprocket.
6. Install two 5 /1 6 " - 18 x 4" bolts in cam shaft bolt holes
then remove cam shaft (fig. 6A4-34).
CAMSHAFT BEARINGS
Removal
C am shaft bearings can be replaced with engine com
pletely or p artially disassem bled. To replace bearings
without complete disassembly, remove the cam shaft and
crankshaft leaving cylinder heads attached and pistons in
place. Before removing crankshaft, tape threads of connect
ing rod bolts to prevent dam age to cran k sh aft. Fasten
NOTICE: All cam shaft journals are the same diam eter
and care m ust be used in removing cam shaft to avoid
dam age to bearings.
Fig. 6A4-34--Removing Camshaft
Fig. 6A4-35--Camshaft Sprocket Alignment Marks
LIG H T T R U C K SERVICE M A N U A L
6A4-22
SMALL BLOCK
connecting rods against sides of engine so they will not be in
the way while replacing cam shaft bearings.
1. W ith cam shaft and crankshaft removed, drive cam
shaft rear plug from cylinder block.
2. Using Tool J-6098, with nut and thrust washer in
stalled to end of threads, index pilot in cam shaft front
bearing and install puller screw through pilot.
3. Install remover and installer tool with shoulder toward
bearing, m aking sure a sufficient am ount of threads are
engaged.
4. Using two wrenches, hold puller screw while turning
nut. W hen bearing has been pulled from bore, remove
remover and installer tool and bearing from puller
screw (fig. 6A4-36).
5. Remove rem aining bearings (except front and rear) in
the sam e m anner. It will be necessary to index pilot in
cam shaft rear bearing to remove the rear interm ediate
bearing.
6. Assemble remover and installer tool on driver handle
and rem ove c am sh aft front and re a r bearings by
driving towards center of cylinder block (fig. 6A4-37).
Installation
The cam sh aft front and re a r bearings should be
installed first. These bearings will act as guides for the pilot
and center the rem aining bearings being pulled into place.
1. Assemble remover and installer tool on driver handle
and install cam shaft front and rear bearings by driving
towards center of cylinder block (fig. 6A4-37).
2. Using Tool Set J-6098, with nut then thrust washer
installed to end of threads, index pilot in cam shaft front
bearing and install puller screw through pilot.
3. Index cam shaft bearing in bore (with oil hole aligned as
outlined below), then install remover and installer tool
on puller screw with shoulder toward bearing.
• N um ber one cam bearing oil hole m ust be positioned
so th a t oil holes are e q u id istan t from 6 o’clock
position.
Fig. 6A4-37--Replacing Camshaft Front Bearing
• N um ber two through num ber four bearing oil holes
m ust be positioned at 5 o’clock position (tow ard left
side of engine, and at a position even with bottom of
cylinder bore).
• N um ber five bearing oil hole m ust be in 12 o’clock
position.
4. Using two wrenches, hold puller screw while turning
nut. A fter bearing has been pulled into bore, remove
the remover and installer tool from puller screw, and
check alignm ent of oil hole in cam shaft bearing.
5. Install rem aining bearings in the sam e m anner. It will
be necessary to index pilot in the cam shaft rear bearing
to install the rear interm ediate bearing.
6. C oat new cam shaft rear plug O.D. with # 1 0 5 2 0 8 0
sealan t, or equivalent, and install flush to 1 /3 2 "
(.80m m ) deep.
OIL PAN
Removal
1. D rain engine oil.
2. Remove exhaust crossover pipe.
3. On vehicles equipped w ith a u to m a tic transm ission,
remove converter housing under pan.
4. On ’K’ models with autom atic transm ission, remove
strut rods at motor mounts.
5. Remove oil pan and discard gaskets and seals.
Installation
Fig. 6A4-36--Removing Camshaft Bearings
LIG H T T R U C K SERVIC E M A N U A L
1. Thoroughly clean all gasket and seal surfaces on oil
pan, cylinder block, crankcase front cover and rear
main bearing cap.
2. Install new oil pan side gaskets on cylinder block using
gasket sealant as a retainer. Install new oil pan rear seal
in rear main bearing cap groove, with ends butting side
gaskets. Install new oil pan front seal in groove in
crankcase front cover with ends butting side gaskets.
3. Install oil pan and torque bolts to specifications.
4. If ’K ’ model, replace strut rods.
5. Install converter housing under pan.
SMALL BLOCK
6. Install exhaust crossover pipe.
7. Fill with oil, start engine and check for leaks.
6A4-23
4. Check the drive gear shaft for looseness in the pump
body.
5. Inspect inside of pum p cover for w ear th a t would
perm it oil to leak past the ends of the gears.
OIL PUMP
Removal
1. Remove oil pan as previously outlined.
2. Rem ove pum p to re a r m ain bearing cap bolt and
remove pum p and extension shaft.
Disassembly (Figure 6A4-38)
1. Rem ove th e pum p cover a tta c h in g screws and the
pump cover.
2. M ark gear teeth so they may be reassem bled with the
same teeth indexing. Remove the idler gear and the
drive gear and shaft from the pump body.
3. R em ove the pressure reg u lato r valve retaining pin,
pressure regulator valve and related parts.
4. If the pickup screen and pipe assembly need replacing,
m ount the pump in a soft-jawed vise and extract pipe
from pump. Do not disturb the pickup screen on the
pipe. This is serviced as an assembly.
6. Inspect the pickup screen and pipe assem bly for
dam age to screen, pipe or relief grom m et.
7. Check the pressure regulator valve for fit.
Assembly (Figure 6A4-38)
1. If the pickup screen and pipe assembly was removed, it
should be replaced with a new part. Loss of press fit
condition could result in an air leak and loss of oil
pressure. M ount the pump in a soft-jawed vise, apply
sealer to end of pipe, and using Tool J-8369 (fig. 6 A 4 39) tap the pipe in place with a plastic ham m er.
2.
3.
4.
5.
Cleaning and Inspection
1. W ash all p arts in cleaning solvent and dry with
compressed air.
2. Inspect the pump body and cover for cracks or exces
sive wear.
3. Inspect pum p gears for dam age or excessive wear.
• The pum p gears and body are not serviced sepa
rately. If the pum p gears or body are dam aged or
worn, replacem ent of the entire oil pump assembly is
necessary.
6.
NOTICE: Be careful of twisting, shearing or collapsing
pipe while installing in pump.
Install the pressure regulator valve and related parts,
Install the drive gear and shaft in the pump body.
Install the idler gear in the pump body with the smooth
side of gear towards pum p cover opening.
Install the pump cover and torque attaching screws to
specifications.
Turn drive shaft by hand to check for smooth operation.
Installation
1. A ssem ble pum p and extension shaft to re a r m ain
bearing cap, aligning slot on top end of extension shaft
with drive tang on lower end of distributor drive shaft.
2. Install pum p to rear bearing cap bolt and torque to
specifications.
3. Install oil pan previously outlined.
CONNECTING ROD BEARINGS
Connecting rod bearings are of the precision insert type
and do not utilize shims for adjustm ent. DO N O T F IL E
R O D S O R RO D CA PS. If clearances are found to be
excessive a new bearing will be required. Service bearings
are available in standard size and .001" and .002" under.size for use with new and used standard size crankshafts,
1.
2.
3.
4.
5.
6.
S haft Extension
Pump Body
Drive Gear and Shaft
Idler Gear
Pump Cover
Pressure Regulator
Valve
7.
8.
9.
10.
Pressure R egulator
Spring
R etaining Pin
Screws
Pickup Screen and
Pipe
Fig. 6A4-38--Oil Pump
Fig. 6A4-39--lnstalling Screen
LIG H T TR U C K SERVICE M A N U A L
6A4-24
SMALL BLOCK
and in .010" and .020" undersize for use with reconditioned
crankshafts.
On removing a connecting rod cap, it is possible to find
a .009" undersize bearing. These are used in m anufacturing
for selective fitting.
Inspection and Replacement
1. W ith oil pan and oil pum p rem oved, rem ove the
connecting rod cap and bearing.
Before removal of connecting rod cap, m ark the side of
the rod and cap with the cylinder num ber to assure
m atched reassembly of rod and cap.
2. Inspect the bearing for evidence of wear or dam age.
(Bearings showing the above should not be installed.)
3. W ipe both upper and lower bearing shells and crankpin
clean of oil.
4. M easure the crankpin for out-of-round or taper with a
m icrom eter. If not w ithin specifications replace or
recondition the crankshaft. If within specifications and
a new bearing is to be installed, m easure the maxim um
diam eter of the crankpin to determ ine new bearing size
required.
5. If within specifications m easure new or used bearing
clearances with Plastigage or its equivalent.
If a bearing is being fitted to an out-of-round crankpin,
be sure to fit to the m axim um diam eter of the crankpin.
If the bearing is fitted to the m inim um diam eter and
the cran k p in is o u t-of-round .001" interference
between the bearing and crankpin will result in rapid
bearing failure.
a. Place a piece of gaging plastic, the length of the
bearing (parallel to the crankshaft), on the crankpin
or bearing surface (fig. 6A 4-40). Plastic gage should
be positioned in the middle of upper or lower bearing
shell. (B earings are eccen tric and false readings
could occur if placed elsewhere).
Fig. 6A4-40--Gaging Plastic On Crankpin
LIG H T T R U C K SERVICE M A N U A L
b. Install the bearing in the connecting rod and cap.
c. Install the bearing cap and evenly torque nuts to
specifications.
Do not turn the crankshaft with the gaging plastic
installed.
d. Remove the bearing cap and using the scale on the
gaging plastic envelope, m easure the gaging plastic
width at the widest point (fig.6A4-41).
6. If the clearance exceeds specifications, select a new,
correct size, bearing and rem easure the clearance.
Be sure to check w hat size bearing is being removed in
order to determ ine proper replacem ent size bearing. If
clearance cannot be brought to within specifications,
the crankpin will have to be ground undersize. If the
crankpin is already at m axim um undersize, replace
crankshaft.
7. Coat the bearing surface with oil, install the rod cap
and torque nuts to specifications.
8. W hen all connecting rod bearings have been installed
tap each rod lightly (parallel to the crankpin) to make
sure they have clearance.
9. M easure all connecting rod side clearances (see speci
fications) between connecting rod caps (fig. 6A 4-42).
M AIN BEARINGS
M ain bearings are of the precision insert type and do
not utilize shims for adjustm ent. If clearances are found to
be excessive, a new bearing, both upper and lower halves,
will be required. Service bearings are available in standard
size and .001", .002 ", .009 " ,.0 1 0 " and .020 " undersize.
Selective fitting of both rod and m ain bearing inserts is
necessary in production in order to obtain close tolerances.
For this reason you may find one half of a standard insert
with one half of a .001" undersize insert which will decrease
the clearance .0005 " from using a full standard bearing.
Fig. 6A4-41 --Measuring Gaging Plastic
S/ALL BLOCK
6A4-25
clearance can be m easured between th lower bearing and
jo u rn al. If the engine is to rem ain * the vehicle, the
cran k sh aft m ust be supported upwail to remove any
clearance from the upper bearing. The ttal clearance can
then be m easured between the lower bearig and journal.
To assure the proper seating of th crankshaft, all
bearing cap bolts should be at their speified torque. In
addition, preparatory to checking fit of beamgs, the surface
of the crankshaft journal and bearing shoul-be wiped clean
of oil.
1. W ith the oil pan and oil pum p removei and starting
with the rear main bearing, remove bering cap and
wipe oil from journal and bearing cap.
2. Place a piece of gaging plastic the full vidth of the
bearing (parallel to the crankshaft) on theournal (fig.
6A4-43).
Do not rotate the crankshaft while the gagig plastic is
between the bearing and journal.
Fig. 6A4-42--Measuring Connecting Rod Side
Clearance
W hen a production c ra n k sh a ft can n ot be precision
fitted by this method, it is then ground .009" undersize ON
ONLY THOSE MAIN JOURNALS THAT CANNOT BE
PROPERLY FITTED. ALL JOURNALS W ILL NOT
NECESSARILY BE GROUND. A .009" undersize bearing
or .010" undersize bearing will then be used for precision
fitting in the same m anner as previously described.
Identification of a reground c ra n k sh a ft is by the
following:
• The crankshaft throw will be stam ped on one side of the
undersize journal with " 9 " , along with a large spot of
green paint.
• The main bearing cap will be painted light green on
each side of the affected journal.
If, for any reason, m ain bearing caps are replaced,
shimm ing may be necessary. L am inated shims for each
cap are available for service. Shim requirem ent will be
determ ined by bearing clearance.
3. Install the bearing cap and evenly torque the-etaining
bolts to specifications. Bearing cap M U ST b»torqued
to specifications in order to assure proper eading.
V ariations in torque affect th e com pressio. of the
plastic gage.
4. Remove bearing cap. The flattened gaging platic will
be found adhering to either the bearing shell or jurnal.
5. On the edge of gaging plastic envelope thee is a
graduated scale which is correlated in thousanths of
an inch. W ithout removing the gaging plastic, m asure
its compressed width (at the widest point) wih the
graduations on the gaging plastic envelope (fig.6A444).
N orm ally main bearing journals wear evenly an are
not out-of-round. However, if a bearing is being itted
to an out-of-round (.001 " m ax.), be sure to fit tcthe
m axim um diam eter of the journal: If the bearig is
Inspection
In general, the lower half of the bearing (except # 1
bearing) shows a g reater wear and the most distress from
fatigue. If upon inspection the lower half is suitable for use,
it can be assumed th a t the upper half is also satisfactory. If
the lower half shows evidence of wear or dam age, both upper
and lower halves should be replaced. N E V E R R E PL A C E
O N E H A L F W IT H O U T R E P L A C IN G T H E O T H E R
H A L F.
Checking Clearance
To obtain the most accurate results with "P lastigage"
(or its equivalent) a wax-like plastic m aterial which will
compress evenly between the bearing and journal surfaces
w ithout dam aging either surface, certain precautions should
be observed.
If the engine is out of the vehicle and upside down, the
crankshaft will rest on the upper bearings and the total
Fig. 6A4-43--Gaging Plastic on Journal
LIG H T T R U C K SERVICE M A N U A L
6A4-26
SMALL BLOC
7. A standard, .001" or .002" undersize bearing may
produce the proper clearance. If not, it will be neces
sary to regrind the crankshaft journal for use with the
next undersize bearing.
A fter selecting new bearing, recheck clearance.
8. Proceed to the next bearing. A fter all bearings have
been checked rotate the crankshaft to see th at there is
no excessive drag.
W hen checking # 1 main bearing, loosen accessory
drive belts so as to prevent tapered reading with plastic
gage.
9. M easure crankshaft end play (see specifications) by
forcing the crankshaft to the extrem e front position.
M easure at the front end of the rear m ain bearing with
a feeler gage (fig. 6A4-45).
10. Install a new rear main bearing oil seal in the cylinder
block and main bearing cap.
Replacement
M ain bearings m ay be replaced w ith or w ithout
removing the crankshaft.
With Crankshaft Removal
Fig. 6A4-44--Measuring Gaging Plastic
fitte to the m inim um diam eter and the journal is outof-rund .001", interference between the bearing and
jounal will result in rap id bearing failure. If the
flatened gaging plastic tapers toward the middle or
en6, there is a difference in clearance indicating taper,
lo\ spot or other irregularity of the bearing or journal.
Bfsure to m easure the journal with a m icrom eter if the
fUtened gaging plastic indicates m ore th an .001"
dference.
6. I the bearing clearance is within specifications, the
baring insert is satisfactory. If the clearance is not
nth in specifications, replace the insert. Always replace
>oth upper and lower inserts as a unit,
if a new bearing cap is being installed and clearance is
less than .0 0 1 ", inspect for burrs or nicks; if none are
found then install shims as required.
1. Remove and inspect the crankshaft.
2. Remove the main bearings from the cylinder block and
main bearing caps.
3. C oat bearing surfaces of new, correct size, m ain
bearings with oil and install in the cylinder block and
main bearing caps.
4. Install the crankshaft.
Without Crankshaft Removal
1. W ith oil pan, oil pum p and sp ark plugs rem oved,
remove cap on main bearing requiring replacem ent and
remove bearing from cap.
2. Install a main bearing removing and installing tool in
oil hole in crankshaft journal. If such a tool is not
availale, a cotter pin may be bent as required to do the
job.
3. R otate the crankshaft clockwise as viewed from the
front of engine. This will roll upper bearing out of
block.
4. Oil new selected size upper bearing and insert plain
(unnotched) end between crankshaft and indented or
notched side of block. R otate the bearing into place and
remove tool from oil hole in crankshaft journal.
5. Oil new lower bearing and install in bearing cap.
6. Install main bearing cap with arrows pointing toward
front of engine.
7. Torque all main bearing caps E X C E P T T H E R E A R
M A IN C A P to specifications. Torque rear main bear
ing cap to 10-12 lb. ft. (14-16N -m ) then tap end of
crankshaft, first rearw ard then forward with a lead
ham m er. This will line up re a r m ain bearing and
crankshaft thrust surfaces. R etorque all main bearing
caps to specifications.
OIL SEAL (REAR MAIN)
Replacement
Fig. 6A4-45--Measuring Crankshaft End Play
LIG H T T R U C K SERVIC E M A N U A L
• ALW AYS REPLA CE TH E
LO W E R SE A L AS A U N IT .
U PPER
AND
SMALL BLOCK
6A4-27
until it protrudes far enough to be removed with pliers
(fig. 6A4-48).
.004 SHIM STOCK
/
— 1 / 2 —►
1
I
t
—
h I
-
.............. '
11/64
Fig. 6A4-46--Oil Seal Installation Tool
4. Clean all sealant and foreign m aterial from cylinder
case bearing cap and crankshaft, using a non-abrasive
cleaner.
5. Inspect com ponents for nicks, scratches, burrs and
machining defects at all sealing surfaces, case assembly
and crankshaft.
6. Coat seal lips and seal bead with light engine oil - keep
oil off seal m ating ends.
7. Position tip of tool between crankshaft and seal seat in
cylinder case.
8. Position seal between crankshaft and tip of tool so that
seal bead contacts tip of tool. M ake sure th at oil-seal lip
is positioned tow ard front of engine (fig. 6A4-49).
9. Roll seal around crankshaft using tool as a "shoe
horn" to protect seal bead from sharp corner of seal
seat surface in cylinder case. Installation tool must
remain in position until seal is properly positioned with
both ends flush with block.
10. Remove tool, being careful not to withdraw seal.
11. Install seal half in bearing cap, again using tool as a
"shoe-horn", feeding seal into cap using light pressure
with thum b and finger.
Fig. 6A4-47--Removing Oil Seal - Lower Half
DUST SEAL
Fig. 6A4-49-Crankshaft Oil Seal - Rear Main
Fig. 6A4-48--Removing Oil Seal - Upper Half
The rear main bearing oil seal can be replaced (both
halves) w ithout removal of the crankshaft. Extrem e care
should be exercised when installing this seal to protect the
sealing bead located in the channel on the outside diam eter
of the seal. An installation tool (fig. 6A4-46) m ust be used to
protect the seal bead when positioning seal as follows:
1. W ith the oil pan and oil pum p removed, remove the
rear m ain bearing cap.
2. Remove oil seal from the bearing cap by prying from
the bottom with a small screw driver (fig. 6A4-47).
3. To remove the upper half of the seal, use a small
ham m er to tap a brass pin punch on one end of seal
APPLY
SEALANT
TO SHADED
AREAS ONLY
Fig. 6A4-50--Sealing Bearing Cap
LIGHT T R U C K SERVICE M A N U A L
6A4-28
SMALL BLOCK
12. Install bearing cap to case with sealant applied to the
cap-to-case interface being careful to keep sealant off
the seal split line (fig. 6A4-50).
13. Install the rear m ain bearing cap (with new seal) and
torque to 10-12 lb. ft. (14-16N -m ). T ap end of crank
shaft rearw ard then forw ard with lead ham m er. This
will line up thru st surfaces. Retorque bearing cap to
specifications.
PRESS
CONNECTING ROD AND PISTON ASSEMBLIES
-PISTON PIN
REMOVER
J-24086-8
Removal
1. Remove oil pan, oil pum p and cylinder head as pre
viously outlined.
2. For the cylinder being serviced turn crankshaft until
piston is a t the bottom of the stroke. Place a cloth on top
of the piston.
3. Use a ridge ream er to remove any ridge an d /o r deposits
from the upper end of the cylinder bore.
4. Turn crankshaft until piston is at top of stroke and
remove cloth and cuttings.
5. Remove connecting rod cap and install Tool J-5239 (3/
8 " ) on studs. Push connecting rod and piston assembly
out of top of cylinder block (fig. 6A 4-51). It will be
necessary to turn the crankshaft slightly to disconnect
some of the connecting rod and piston assemblies and
push them out of the cylinder.
FIXTURE
SUPPORT
ASSEMBLY
J-24086-20
Disassembly
Fig. 6A4-52--Removing Piston Pin
1. Remove connecting rod bearings from connecting rods
and caps. If bearings are being reused, place them in a
rack so they m ay be reinstalled in their original rod and
cap.
2. Remove piston rings by expanding and sliding them off
the pistons.
3. Place connecting rod and piston assem bly on Tool
J-24086-20. U sing an arb o r press and piston pin
remover, J-24086-8, press the piston pin out of connect
ing rod and piston (fig. 6A4-52).
Cleaning and Inspection
Connecting Rods
W ash connecting rods in cleaning solvent and dry with
compressed air. Check for twisted or bent rods and inspect
for nicks or cracks. R eplace connecting rods th a t are
dam aged.
Pistons
C lean varnish from piston skirts and pins w ith a
cleaning solvent. DO N O T W IR E B R U SH A N Y PA R T
O F T H E P IS T O N . Clean the ring grooves with a groove
cleaner and make sure oil ring holes and slots are clean.
Inspect the piston for cracked ring lands, skirts or pin
bosses, wavy or worn ring lands, scuffed or dam aged skirts,
eroded areas at top of the piston. Replace pistons th at are
dam aged or show signs of excessive wear.
Inspect the grooves for nicks or burrs th at might cause
the rings to hang up.
M easure piston skirt (across center line of piston pin)
and check clearance.
w
Piston Pins
Fig. 6A4-51--Removing Connecting Rod & Piston
Assembly
The piston pin clearance is designed to m aintain
adequate clearance under all engine operating conditions.
Because of this, the piston and piston pin are a m atched set
and not serviced separately.
LIG H T T R U C K SERVICE M A N U A L
i
SMALL BLOCK
Inspect piston pin bores and piston pins for wear. Piston
pin bores and piston pins m ust be free of varnish or scuffing
when being m easured. The piston pin should be m easured
w ith a m icrom eter and th e piston pin bore should be
m easured with a dial bore gage or an inside m icrom eter. If
clearance is in excess of the .001" wear limit, the piston and
piston pin assembly should be replaced.
Assembly
1. L ubricate piston pin holes in piston and connecting rod
to facilitate installation of pin.
2. Place connecting rod in piston and hold in place with
piston pin guide and piston pin. Place assembly on
fixture and support assembly.
3. Using piston pin installer, J-24086-9, press the piston
pin into the piston and connecting rod (fig. 6A4-53).
NOTICE: A fter installer hub bottom s on support assem
bly, do not exceed 5000 psi pressure, as this could cause
structural dam age to the tool.
4. Remove piston and connecting rod assembly from tool
and check piston for freedom of movement on piston
pin.
6A4-29
ring is a tapered face acting as both a compression and oil
control ring.
The oil control rings are of three piece type, consisting
of two segments (rails) and a spacer.
1. Select rings com parable in size to the piston being used.
2. Slip the compression ring in the cylinder bore; then
press the ring down into the cylinder bore about 1/4"
(6.5m m ) (above ring travel). Be sure ring is square
with cylinder wall.
3. M easure the space or gap between the ends of the ring
with a feeler gage (fig. 6A4-54).
4. If the gap betw een the ends of the ring is below
specifications, remove the ring and try another for fit.
5. Fit each compression ring to the cylinder in which it is
going to be used.
6. If the pistons have not been cleaned and inspected as
previously outlined, do so.
7. Slip the outer surface of the top and second com pres
sion ring into the respective piston ring groove and roll
the ring entirely around the groove (fig. 6A4-55) to
make sure th at the ring is free. If binding occurs at any
point, the cause should be determ ined. If binding is
Piston Rings
All compression rings are m arked on the upper side of
the ring. W hen installing compression rings, make sure the
M A R K E D S ID E IS T O W A R D T H E T O P O F T H E
P IS T O N . The top ring is chrom e faced, or treated with
molybdenum for m axim um life. The second compression
Fig. 6A4-54~Measuring Ring Gap
Fig. 6A4-53--lnstalling Piston Pin
Fig. 6A4-55--Checking Ring in Groove
LIG H T T R U C K SERVICE M A N U A L
6A4-30
SMALL BLOCK
Fig. 6A4-57--Measuring Ring Groove Clearance
caused by ring groove, correct by dressing with a fine
cut file. If the binding is caused by a distorted ring,
check a new ring.
8. Install piston rings as follows (fig. 6A4-56):
a. Install oil ring spacer in groove and insert anti
rotation tang (where applicable) in drilled hole.
b. Hold spacer ends butted and install lower steel oil
ring rail with gap properly located.
c. Install upper steel oil ring rail with gap properly
located.
d. Flex the oil ring assem bly to make sure ring is free. If
binding occurs at any point the cause should be
determ ined. If binding is caused by ring groove,
correct by dressing groove with a fine cut file. If
binding is caused by a distorted ring, check a new
ring.
e. Install second compression ring (m anufacturer m ark
up) with gaps properly located.
f. Install top compression ring (m anufacturer m ark
up) with gap properly located.
9. Proper clearance of the piston ring in its piston ring
groove is very im portant to provide proper ring action
and reduce wear. Therefore, when fitting new rings, the
clearances between the surfaces of the ring and groove
should be m easured (fig. 6A 4-57). (See Specifications).
Installation
Cylinder bores m ust be clean before piston installation.
This may be accomplished with a hot w ater and detergent
wash or with a light honing as necessary. A fter cleaning, the
bores should be swabbed several tim es with light engine oil
and a clean dry cloth.
1. L ubricate connecting rod bearings and install in rods
and rod caps.
2. Lightly coat pistons, rings and cylinder walls with light
engine oil.
LIG H T T R U C K SERVIC E M A N U A L
Fig. 6A4-58--lnstalling Connecting Rod Piston
Assembly
3. W ith bearing caps removed, install Tool J-5239 (3 /8 " )
on connecting rod bolts.
4. Install each connecting rod and piston assembly in its
respective bore. Install with connecting rod bearing
tang slots on side opposite cam shaft. Use Tool J-8037
to compress the rings (fig. 6A4-58). G uide the connect
ing rod into place on the crankshaft journal with Tool
J-5239 ( 3 /8 " ) Use a ham m er handle and light blows to
install the piston into the bore. Hold the ring com pres
sor firmly against the cylinder block until all piston
rings have entered the cylinder bore.
5. Remove Tool J-5239.
6. Install the bearing
specifications.
caps
and
torque
nuts
to
Be sure to install new pistons in the cylinders for which
they were fitted, and used pistons in the cylinder from which
they were removed. Each connecting rod and bearing cap
should be m arked, beginning at the front of the engine.
Cylinders 1,3,5 and 7 are the left bank and, 2 4, 6 and 8 are
the right bank. The num bers on the connecting rod and
SMALL BLOCK
bearing cap m ust be on the sam e side when installed in the
cylinder bore. If a connecting rod is ever transposed from
one block or cylinder to another, new bearings should be
fitted and th e connecting rod should be num bered to
correspond with the new cylinder num ber.
CYLINDER BLOCK
Cleaning and Inspection
1. W ash cylinder block thoroughly in cleaning solvent and
clean all gasket surfaces.
2. Remove oil gallery plugs and clean all oil passages.
3. Clean and inspect coolant passages in the cylinder
block.
4. Inspect the cylinder block for cracks in the cylinder
w alls, coolant ja c k e t, valve lifter bores and m ain
bearing webs.
5. M easure the cylinder walls for taper, out-of-round or
excessive ridge at top of ring travel. This should be done
with a dial indicator. Set the gage so th a t the thrust pin
m ust be forced in about 1/4" (6.5m m ) to enter gage in
cylinder bore. C enter gage in cylinder and turn dial to
" 0 " . Carefully work gage up and down cylinder to
determ ine taper and turn it to different points around
cylinder wall to determ ine the out-of-round condition.
If cylinders were found to exceed specifications, honing
or boring will be necessary.
Conditioning
The perform ance of the following operation is contin
gent upon engine condition at tim e of repair.
If the cylinder block inspection indicated th at the block
was suitable for continued use except for out-of-round or
tapered cylinders, they can be conditioned by honing or
boring.
If the cylinders were found to have less than .005"
(. 13mm) taper or wear, they can be conditioned with a hone
and fitted w ith the high lim it sta n d a rd size piston. A
cylinder bore of less then .005" (.13m m ) w ear or taper may
not entirely clean up when fitted to a high lim it piston. If it is
desired to entirely clean up the bore in these cases, it will be
necessary to rebore for an oversize piston. If more than
.005" (.13m m ) taper or wear, they should be bored and
honed to the sm allest oversize th at will perm it complete
resurfacing of all cylinders.
W hen pistons are being fitted and honing is not
necessary, cylinder bores m ay be cleaned with a hot w ater
and d eterg en t wash. A fte r cleaning, th e cylinder bores
should be swabbed several tim es with light engine oil and a
clean cloth and then wiped with a clean dry cloth.
Boring
1. Before using any type boring b ar, th e top of the
cylinder block should be filed to remove any dirt or
burrs. This is very im portant. If not checked, the boring
bar m ay be tilted which would result in the rebored
cylinder wall not being a t rig h t angles to the
crankshaft.
2. The piston to be fitted should be m easured with a
m icrom eter, m easuring at the center of the piston skirt
and at right angles to the piston pin. The cylinder
should be bored to the sam e diam eter as the piston and
honed to give the specified clearance.
6A4-31
3. The instructions furnished by the m anufacturer of the
equipm ent being used should be carefully followed.
Honing
1. W hen cylinders are to be honed, follow the hone
m anufacturer’s recom m endations for the use of the
hone and cleaning and lubrication during honing.
2. Occasionally during the honing operation, the cylinder
bore should be thoroughly cleaned and the piston
selected for the individual cylinder checked for correct
fit.
3. W hen finish honing a cylinder bore to fit a piston, the
hone should be moved up and down at a sufficient speed
to obtain very fine uniform surface finish m arks in a
cross-hatch pattern of approxim ately 45° to 65° in
cluded angle. The finish m arks should be clean but not
sharp, free from imbedded particles and torn or folded
metal.
4. Perm anently m ark the piston for the cylinder to which
it has been fitted and proceed to hone cylinders and fit
the rem aining pistons.
NOTICE: H andle th e pistons with care and do not
attem pt to force them through the cylinder until the
cylinder has been honed to correct size as this type
piston can be distorted through careless handling.
5. Thoroughly clean the bores with hot water and deter
gent. Scrub well with a stiff bristle brush and rinse
thoroughly with hot w ater. It is extremely essential th at
a good cleaning operation be performed. If any of the
abrasive m aterial is allowed to rem ain in the cylinder
bores, it will rapidly wear the new rings and cylinder
bores in addition to the bearings lubricated by the
contam inated oil, the bores should be swabbed and then
wiped with a clean dry cloth. C ylinder should not be
cleaned with kerosene or gasoline. Clean the rem ainder
of the cylinder block to remove the excess m aterial
spread during the honing operation.
Piston Selection
1. C heck U S E D piston to cylinder bore clearan ce as
follows:
a. M easure the "C y lin d er Bore D ia m e te r" w ith a
telescope gage |2 - l / 2 " (64m m ) from top of cylinder
bore]).
b. M easure the "P iston D iam eter" (a t sk irt across
center line of piston pin).
c. S ubtract piston diam eter from cylinder bore diam e
ter to determ ine " Piston to Bore C learance ".
d. Locate piston to bore clearance on Piston Selection
C hart and determ ine if piston to bore clearance is in
the acceptable range.
2. If used piston is not acceptable, determ ine if a new
piston can fit cylinder bore.
3. If cylinder bore m ust be reconditioned, m easure new
piston diam eter (across center line of piston pin) then
hone cylinder bore to correct clearance.
4. M ark the piston to identify the cylinder for which it
was fitted.
LIG H T T R U C K SERVICE M A N U A L
6A4-32
SMALL BLOCK
OIL FILTER BYPASS VALVE
Inspection and Replacement
W ith the oil filter removed, check the spring and fibre
valve for operation. Inspect for a cracked or broken valve. If
replacem ent is necessary, the oil filter adapter and bypass
valve assembly m ust be replaced as an assembly. Clean
valve cham ber in cylinder block thoroughly. Torque retain
ing screws to specifications.
ENGINE ASSEMBLY
Removal ("G " V an )
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
27.
28.
Disconnect battery cables at battery.
D rain cooling system.
Remove coolant reservoir bottle.
Remove grille, upper radiator support and lower grille
valance.
Disconnect radiator hoses at radiator.
• If equipped with autom atic transm ission, remove
cooler lines from radiator.
• If equipped with A /C , evacuate system and remove
condenser. Remove A /C vacuum reservoir.
Remove w asher ja r and bracket.
Remove radiator to rad iato r support attaching brackets
and remove radiato r and shroud.
If equipped with P /S , remove pum p and lay aside.
Remove engine cover.
Remove air cleaner air stove pipe.
Remove accelerator cable from carburetor and remove
carburetor.
Disconnect engine wiring harness from connection on
firewall.
Disconnect heater hoses a t engine.
Remove therm ostat housing.
Remove oil fill pipe.
If equipped w ith cruise control, rem ove servo and
bracket and transducer.
Raise vehicle.
D isconnect ex h au st pipe from exhaust m anifold
flanges.
Remove propshaft; plug transm ission end.
Disconnect transm ission shift linkage and speedometer
cable.
Disconnect fuel hose from fuel pump.
Remove transm ission m ount bolts.
Remove engine m ount bracket to fram e bolts.
Drain crankcase.
Remove engine m ount "th ro u g h " bolts.
Raise engine slightly and remove engine m ounts. Block
up engine with wood between oil pan and crossm ember.
Lower vehicle and install lifting tool.
Remove engine/transm ission assembly.
Installation ("G " Van)
1. Place engine/transm ission assembly into vehicle. Sup
port engine with blocks of wood between the oil pan and
crossmembers.
LIG H T T R U C K SERVIC E M A N U A L
2. Raise vehicle and install engine m ounts. R etain by
inserting engine mount "th ro u g h " bolts.
3. Raise engine slightly, remove wooden blocks and lower
engine onto mounts.
4. Install engine mount bracket to fram e bolts. Torque to
specifications.
5. Install transm ission m ount bolts. T orque to
specifications.
6. Connect fuel tank line and return line to fuel pump.
7. Connect transmission shift linkage and speedom eter
cable.
8. Install propshaft.
9.
10.
11.
12.
Connect exhaust pipe to exhaust manifold flanges.
Lower vehicle.
Connect heater hoses.
Connect engine wiring harness.
13. Using a new gasket, install carburetor. Connect accel
erator cable.
14. Install radiator. Install radiator to radiator support
attaching brackets.
• If equipped with autom atic transm ission, connect
cooler lines to radiator.
• If equipped with A /C , install condenser to radiator
support.
15. Connect radiator hoses to radiator.
16. Install grille cross brace and grille.
17. Fill cooling system.
18. Fill crankcase with oil.
• If equipped with A /C , m ount compressor, connect
hosing and charge system.
19. Connect battery cables and start engine. Check ignition
tim ing and adjust carburetor if necessary.
20. Install air cleaner and engine cover.
Removal (CK Series)
1. Disconnect battery cables at battery.
2. D rain cooling system.
3. Remove air cleaner.
4. Remove all accessory drive belts.
5. Remove fan and w ater pum p pulley.
6. Disconnect upper and lower radiator hoses at engine.
7. Disconnect heater hoses at engine.
• If equipped with autom atic transm ission, disconnect
cooler lines a t radiator.
8. Remove radiator and shroud.
9. Disconnect accelerator linkage and detent linkage, if so
equipped, from carburetor.
10. If A /C equipped, remove com pressor from engine and
lay aside.
11. If power steering equipped, remove pum p from engine
and lay aside.
12. Remove engine wiring harness from engine.
13. Disconnect fuel line at fuel pump.
14. Disconnect all vacuum lines from intake manifold.
15. Raise vehicle.
16. D rain crankcase.
SMALL BLOCK
17. D isconnect ex h au st pipe from ex haust m anifold
flanges.
• ’K ’ m odels w ith au to m atic transm ission, rem ove
stru t rods at motor mounts.
6A4-33
CRANKSHAFT
The crankshaft can be removed while the engine is
disassembled for overhaul, as previously outlined, or without
complete disassembly as outlined below.
18. Rem ove flywheel or convertor splash shield, as
applicable.
Removal
19. Disconnect wiring along right pan rail.
20. Disconnect wiring at starter and remove starter.
21. Disconnect wiring for gas gage.
22. If equipped w ith au to m atic transm ission, remove
convertor to flex plate attaching bolts.
23. Support transm ission.
24. Remove bell housing to engine retaining bolts.
25. Remove lower engine m ount bracket to fram e bolts.
26. Lower vehicle.
27. Remove vehicle hood.
28. A ttach engine lifting device.
29. Remove engine.
Installation (CK Series)
1. Place engine in vehicle.
2. Raise vehicle.
3. Install engine m ount bracket to fram e bolts.
4. Install bell housing to engine retaining bolts. Remove
transm ission support.
5. If equipped with autom atic transm ission, install con
vertor to flex plate attaching bolts.
6. In stall flywheel
applicable.
or
convertor
splash
shield,
as
7. Connect wiring for gas gage.
8. Install starter. Connect wiring.
9. Install engine wiring harness along right pan rail.
10. Connect exhaust pipe to exhaust m anifold flanges.
11. Lower vehicle.
12. Connect all vacuum lines to intake manifold.
13. Connect fuel line a t fuel pump.
14. Install engine wiring harness to engine.
1. W ith the engine removed from the vehicle and the
transm ission an d /o r clutch housing removed from the
engine, m ount engine in stand and clam p securely.
2. Remove the oil dip stick and oil dip stick tube, (if
applicable).
3. Remove the sta rtin g m otor, clutch assem bly (if
equipped) and flywheel.
4. Remove the spark plugs.
5. Remove crankshaft pulley and torsional dam per.
6. Remove oil pan and oil pump.
7. Remove crankcase front cover, and if so equipped,
remove tim ing chain and cam shaft sprocket.
8. Check the connecting rod caps for cylinder num ber
identification. If necessary, m ark them .
9. Remove the connecting rod caps and push the pistons to
top of bores.
10. Remove main bearing caps and lift crankshaft out of
cylinder block.
11. Remove rear main bearing oil seal and main bearings
from cylinder block and main bearing caps.
Cleaning and Inspection
1. W ash crankshaft in solvent and dry with compressed
air.
2. M easure dim ensions of m ain bearing jo u rn als and
crankpins with a m icrom eter for out-of-round, taper or
undersize. (See Specifications.)
3. Check crankshaft for run-out by supporting a t the front
and rear main bearings journals in "V " blocks and
check at the front and rear interm ediate journals with a
dial indicator. (See Specifications.)
4. R eplace or recondition the cra n k sh a ft if out of
specifications.
15. If power steering equipped, install pum p on engine.
16. If A /C equipped, install com pressor on engine.
17. Connect accelerator linkage and detent linkage, if so
equipped, to carburetor.
18. Install radiator.
• If equipped with autom atic transm ission, connect
cooler lines to radiator.
19. Connect heater hoses to engine.
20. Connect radiator hoses to engine.
21. Install w ater pum p pulley and fan to w ater pump.
22. Install accessory drive belts. A djust to specifications.
23. Fill cooling system.
24. Fill crankcase.
25. Connect battery cables and start engine. Check timing
and carburetor adjustm ent and adjust if necessary.
26. Install air cleaner and vehicle hood.
Fig. 6A4-59--Sprocket or Gear Replacement
LIG H T T R U C K SERVICE M A N U A L
6A4-34
SMALL BLOCK
SPROCKET OR GEAR REPLACEMENT (REFER TO
FIG. 6A4-59)
• Rem ove c ra n k sh a ft sprocket using Tool J-5825,
install using Tool J-5590.
Installation
1. Install rear m ain bearing oil seal in cylinder block and
rear main bearing cap grooves. Install with lip of seal
toward front of engine. W here seal has two lips install
lip with helix tow ards front of engine.
2. Lubricate lips of seal with engine oil. Keep oil off
parting line surface.
3. Install m ain b earings in cylinder block and m ain
bearing caps then lubricate bearing surface with engine
oil.
4. Install crankshaft, being careful not to dam age bearing
surfaces.
5. Apply a thin coat of brush-on type oil sealing com
pound to block m ating su rface and corresponding
surface of cap only (fig. 6A4-60). Do not allow sealant
on crankshaft or seal.
6. Install main bearing caps with arrows pointing toward
front of engine.
7. T orque all except re a r m ain bearing cap bolts to
specifications. Torque rear m ain bearing cap bolts to
10-12 lbs. ft. (14-16 N -m ) then tap end of crankshaft,
first rearw ard then forw ard with a lead ham m er. This
will line up rear main bearing and crankshaft thrust
LIG H T T R U C K SERVICE M A N U A L
surfaces. R etorque all m ain bearing cap bolts to
specifications.
8. M easure crankshaft end play with a feeler gage. Force
crankshaft forward and m easure clearance between the
front of the rear main bearing and the crankshaft
thrust surface.
9. Install flywheel and torque to specifications. A wood
block placed between the crankshaft and cylinder block
will prevent crankshaft from rotating.
• Align dowel hole in flywheel with dowel hole in
crankshaft. On vehicles equipped with autom atic
transm issions, install flywheel with the converter
attaching pads towards transm ission.
APPLY
SEALANT
TO SHADED
AREAS ONLY
Fig. 6A4-60--Sealing Bearing Cap
5.0 (F)
5.0 (G)
5.0 (H)
L ITR E (* )
LF3
RPO
LG9
CLEARANCE
.001 M A X .
S E R V IC E
.0008-.001 6 IN T E R F E R E N C E
F IT IN R O D
LS9 /L T 9
LE9
•00025-.00035
P R O D U C T IO N
5.7 (L)
5.7 (M)
3.736
BORE
CRANKSHAFT
4.000
#1 2.44 84 -2 .4 4 93
3.480
STROKE
8.6: i j 8.5: 1* 9.2:1 I 8.2:1
C O M P R E S S IO N R A T IO
j 8.3:1
D IA M E T E R
# 2 -3 -4
1-8-4-3-6-5-7-2
F IR IN G O R D E R
LS9/LT9
.9270-.9273
D IA M E T E R
90° V-8 G A S O LIN E
TYPE
D IS P L A C E M E N T
LF3.LG9,LE9,
PISTON PIN
GENERAL DATA:
#5
M A IN
JO UR NAL
C YLINDER BORE:
2.4481 -2 .4 4 90
2.4479 -2 .4 4 88
.0002 M A X .
P R O D U C T IO N
1A r t H
3.7350-3.7385
D IA M E T E R
O U T OF
ROUND
TAPER
3.9995-4.0025
P R O D U C T IO N
.001 M A X .
S E R V IC E
.002 M A X .
PRODUC
T IO N
THRUST
S ID E
.0005 M A X .
R E L IE F
S ID E
.001 M A X .
O UT OF
ROUND
.0002 M A X .
P R O D U C T IO N
.001 M A X .
S E R V IC E
#1
M A IN
B E A R IN G
C L E A R A N I: e
#5
S E R V IC E
#1
.0 0 1 .0 0 1 5
P R O D U C T IO N
.0007-.0017
S E R V IC E
.0027 M A X .
.0011-.0023
.001 7-.0032
# 2 -4
.0 0 1 .0 0 2 5 # 5 .0 0 2 5 .0035
.0 0 2 .0 0 6
CRANKSHAFT END PLA Y
PISTON:
.0 0 8 .0 0 2 0
#2-3-4
P R O D U C T IO N
.001 M A X .
S E R V IC E
.001 M A X .
S E R V IC E
2.0988-2.0998
D IA M E T E R
CLEARANCE
G ROOVE
CLEAR
ANCE
PRODUC
T IO N
R
S
S
I
O
N
2N D
PRODUC
T IO N
.001 2-.0032
HI L IM IT PR O D U C TIO N
TO P
.0 1 0 .0 2 0
2N D
.0 1 0 .0 2 5
S E R V IC E
GROOVE
CLEAR
ANCE
O U T OF
ROUND
S E R V IC E
GAP
.001 2 .0 0 3 2
P R O D U C T IO N
S E R V IC E
P R O D U C T IO N
GAP
S E R V IC E
HI L IM IT PR O D U C TIO N
+
.001
+
.010
.0013-.0035
P R O D U C T IO N
.0030
S E R V IC E
.008-.014
CAMSHAFT
L O B E L IF T
± 002
+
.001
.01 5-.055
HI L IM IT PR O D U C TIO N
.001 M A X .
S E R V IC E
R O D S ID E C L E A R A N C E
.002-.007
HI L IM IT P R O D U C TIO N
R O D B E A R IN G
CLEARANCE
.0005
P R O D U C T IO N
+
.010
IN T A K E
.2484
.2600
EXHAUST
.2667
.2733
J O U R N A L D IA M E T E R
1.8682-1.8692
CAM SHAFT END PLAY
.0 0 4.0 1 2
SMALL BLOCK
O
I
L
TO P
.001 M A X .
S E R V IC E
C R A N K P IN
PISTON RING:
C
O
M
p
.0005
P R O D U C T IO N
* VIN D esignation
6A4-35
TRUCK
6A4-36
LIGHT
MANUAL
LF3.
ROCKER A R M R A T IO
EXHAUST
FACE A N G L E (IN T . & EXH.)
45
SEAT A N G L E (INT. & EX H.)
46
.002 M AX.
1/32-1/16
IN T A K E
1/1 6-3/32
EXHAUST
STEM
CL E A R A N C E
P R O D U C T IO N
IN T .
.0010-.0027
EX H
.0010-.0027
SERVICE
HI L IM IT + .001 IN T A K E + .002 EXHAUST
FREE L E N G T H
2.03
O
z
CO
VALVE
SPRING
(O UTE R)
LT9
ONE TURN DOWN
FROM ZERO LASH
IN T A K E
SEAT
W ID T H
LS9;
1.50:1
SEAT R U N O U T
n
3I
n
>
LE9
H Y D R A U LIC
L IF T E R
VALVE
LASH
LG9L J L
PRESSURE
LBS. @ IN.
CLOSED
76-84 @ 1.70 INT. @ 1.61 EXH.
OPEN
194-206 @ 1.25 INT. @ 1.16 EXH.
IN S T A L L E D H E IG H T
1-23/32 INT.
1-19/32 EXH.
± 1/32"
FREE L E N G T H
DAMPE R
APPROX. # OF COILS
1.86
80 LB. IN.
CRANKCASE FRONT C O V E R ...........................
80 LB. IN.
FLYW H EEL HOUSING C O V E R ........................
O IL FILTE R BYPASS V A L V E ...........................
80 LB. IN.
O IL PAN (TO CRANKCASE) (1 /4 -2 0 )..............
80 LB. IN.
O IL PUMP C O V E R ................................................
80 LB. IN.
ROCKER ARM C O V E R ........................................
45 LB. IN.
CAM SHAFT S P R O C K E T ......................................
20 LB. FT.
O IL PAN TO CRANKCASE (5 /1 6 -1 8 )..............165 LB. IN.
CLUTCH PRESSURE P L A T E ..............................
30 LB. FT.
DISTR IBU TO R CLAMP . . . .................................
25 LB. FT.
FLYW H EEL H O U S IN G ........................................
30 LB. FT.
M A N IF O LD (E X H A U S T )......................................20 LB. F T .i
M A N IF O LD (IN L E T )..............................................
30 LB. FT.
WATER O U T L E T ...................................................
30 LB. FT.
WATER P U M P .........................................................
30 LB. FT.
CONNECTING ROD CAP......................................
45 LB. FT.
C Y LIN D E R H E A D ................................................
65 LB. FT.
M AIN BEAR IN G C A P ................................ ..
80 LB. FT.2
65 LB. FT.
O IL P U M P ................................................................
F L Y W H E E L ..............................................................
60 LB. FT.
T O R S IO N A L D A M P E R ........................................
60 LB. FT.
TEM PER ATU RE SENDING U N IT ......................
20 LB. FT.
O IL F I L T E R ...........................................................
25 LB. FT.
O IL PAN D R A IN PLUG ........................................
20 LB. FT.
SPARK P L U G ........................................................ 17-27 LB. FT.
1 Inside bolts on 5.7 (L) 30 LB. FT.
2 Intermediate outer bolts are 70 LB. FT.
SMALL BLOCK
SERVICE
T O R Q U E S P E C IF IC A T IO N S
VA LV E SYSTEM
MARK IV
6A5-1
SECTION 6A5
7.4 L (W) V-8 - RPO LE8
Contents
G eneral D escription.......................................................
Engine L ubrication........................................................
On Vehicle S erv ice........................................................
Engine M o u n ts .............................................................
Intake M anifold............................................................
E xhaust M anifold........................................................
Rocker A rm C o v er......................................................
Valve M echanism ........................................................
Valve Stem Oil Seal and/or
Valve S p rin g ....................................................................
Valve L ifte rs.................................................................
Cylinder Head A ssem bly..........................................
Rocker A rm S tu d s.......................................................
Valve G uide Bores.......................................................
Valve S e a ts ....................................................................
V alves..............................................................................
Torsional D am per........................................................
6A5-1
6A5-4
6A5-4
6A5-9
6A5-9
6A5-10
6A5-10
6A5-11
6A5-11
6A5-12
6A5-13
6A5-16
6A5-16
6A5-16
6A5-16
6A5-16
Crankcase Front C o v e r..............................................
Oil Seal (Front C ov er)...............................................
C a m s h a ft.......................................................................
C am shaft B earings....................................................;.
Oil P a n ............................................................................
Oil Pum p........................................................................
Connecting Rod B e a rin g s.........................................
M ain B earings..............................................................
Oil Seal (R ear M a in ).................................................
Connecting Rod Piston A sem blies..........................
Cylinder B lo c k .............................................................
Oil Filter ByPass V alve..............................................
Engine A ssem bly.........................................................
C ra n k sh a ft.....................................................................
Sprocket or G ear R eplacem ent................................
Specifications...................................................................
6A5-17
6A5-18
6A5-18
6A5-19
6A5-20
6A5-20
6A5-21
6A5-22
6A5-24
6A5-25
6A5-28
6A5-29
6A5-29
6A5-30
6A5-30
6A5-31
GENERAL DESCRIPTION (FIG. 6A5-1 & 6A5-2)
CYLINDER BLOCK
The cylinder block is made of cast iron and has 8
cylinders arranged in a "V " shape with 4 cylinders in each
bank. Five main bearings support the crankshaft which is
retained by bearing caps th at are m achined with the block
for proper alignm ent and clearnances. Cylinders are com
pletely encircled by coolant jackets.
tim ing chain which in turn drives the cam shaft through an
alum inum and nylon sprocket.
Cam lobes are ground, hardened and tapered with the
high side toward the rear. This, coupled with a spherical
face on the lifter, causes the valve lifters to rotate.
C am shaft bearings are lubricated through oil holes
which intersect the main oil gallery. The main oil gallery is
rifle drilled down the left side of the cylinder case.
CYLINDER HEAD
The cast iron cylinder heads have individual intake and
exhaust ports for each cylinder. Valve guides are integral,
and rocker arms are retained on individual threaded studs.
CRANKSHAFT AND BEARINGS
The crankshaft is cast nodular iron, and is supported by
five main bearings. N um ber five bearing is the end thrust
bearing.
All main bearings are lubricated from oil holes th at
connect to the main oil gallery. This runs along the left side
of the cylinder case, ju st above the oil pan rail. Two
additional galleries supply oil to the valve lifters.
A torsional dam per on the forward end of the crank
shaft dampens any engine torsional vibrations.
CAMSHAFT AND DRIVE
The cast iron cam shaft is supported by five bearings
and is chain driven. A steel crankshaft gear drives the
PISTONS AND CONNECTING RODS
The pistons are m ade of cast alum inum alloy using two
compression rings and one oil control ring. Pins are C hro
mium steel and have a floating fit in the pistons They are
retained in the connecting rods by a press fit.
Connecting rods are m ade of forged steel. Full pressure
lubrication is directed to the connecting rods by drilled oil
passages from the adjacent main bearing journal. Oil holes
at the connecting rod journals are located so th at oil is
supplied to give m axim um lubrication just prior to full
bearing load.
VALVE TRAIN
A very simple ball pivot-type train is used. Motion is
transm itted from the cam shaft through the hydraulic lifter
and push rod to the rocker arm. The rocker arm pivots on its
ball and transm its the cam shaft motion to the valve. The
rocker-arm ball is retained by a nut.
LIG H T T R U C K SERVICE M A N U A L
6A5-2
MARK IV
CO VER
DISTRIBUTO R
STUD
NUT
BALL
CLAMP
OUTLET
ARM
STUD
GASKE T
G U ID E
THERMOSTAT
M A N IFO L D
SPRING
BO L T
SEAL
SHIM
BOLT
ROTATOR
PLUG
GSKT
HEAD
G ASKE T
BOLT
M A N IFO L D
VALVE
L IF T E R
VALVE
Fig. 6A5-1--Engine Upper End
LIG H T T R U C K SERVIC E M A N U A L
MARK IV
6A5-3
PISTON
BOLT
BEARING SET
CAMSHAFT
FLYWHEEL
CHAIN
GEAR
PLUG
WASHER
BOLT (5/16-18 x 3/4)
BOLT
PUMP
GASKET
GASKET
BLOCK
BOLT
(3/8-16 x 1 3/4)
CRANKSHAFT
ADAPTER
WASHER ( 5 / 1 6 ) ^ '
GASKET
PRO LOC A
COVER
SEAL
EXTENSION
CONNECTOR
SEAL
GEAR
SHAFT
FILTER
DAMPER
BOLT
PUMP
WASHER
BOLT
BOLT
SCREEN
BOLT
GASKET
SEAL
GASKET
BOLT
BOLT
PLUG
Fig. 6A5-2--Engine Lower End
LIG H T TR U C K SERVICE M A N U A L
6A5-4
MARK IV
HYDRAULIC VALVE LIFTERS
INTAKE MANIFOLD
Hydraulic Valve Lifters are used to keep all parts of the
valve train in constant contact.
The intake manifold is of cast iron double level design
for efficient fuel distribution. The carburetor pad is centrally
located with a passage running underneath the pad (E.F.E.)
through which exhaust gases are forced to prom ote faster
fuel vaporization when the engine is cold.
The hydraulic lifter assembly consists of: the lifter
body, which rides in the cylinder block boss, a plunger, a
push rod seat, a m etering valve, a plunger spring, a check
ball and spring, a check ball retainer and a push rod seat
retainer.
W hen the lifter is riding on the low point of the cam,
the plunger spring keeps the plunger and push rod seat in
contact with the push rod.
W hen the lifter body begins to ride up the cam lobe, the
check ball cuts off the transfer of oil from the reservoir
below the plunger. The plunger and lifter body then rise as a
unit, pushing up the push rod and opening the valve.
As the lifter body rides down the other side of the cam,
the plunger follows with it until the valve closes. The lifter
body continues to follow the cam to its low point, but the
plunger spring keeps the plunger in contact with the push
rod. The ball check valve will then move off its seat and the
lifter reservoir will rem ain full.
EXHAUST MANIFOLDS
Two cast iron exhaust manifolds are used to direct
exhaust gases from the combustion cham bers to the exhaust
system. The right hand side manifold receives a heat shield
th at is used to route heated air to the air cleaner for better
fuel vaporization.
COMBUSTION CHAMBERS
C om bustion C ham bers are cast to insure uniform
shape for all cylinders. Spark plugs are located between the
intake and exhaust valves.
The contoured wedge shape of the com bustion cham ber
minimizes the possibility of detonation, facilitates breath
ing, and provides swirling turbulence for smooth, complete
combustion.
ENGINE LUBRICATION
Full pressure lubrication through a full flow oil filter, is
furnished by a gear-type oil pump. The distributor, driven
by a helical gear on the cam shaft, drives the oil pump. The
main oil gallery feeds oil, through drilled passages, to the
cam shaft and crankshaft to lubricate the bearings. The
valve lifter oil gallery feeds the valveiifters which, through
hollow push rods, feed the individually mounted rocker arm s
(fig. 6A5-3).
ON VEHICLE SERVICE
Fig. 6A5-4--"P" Series Engine Mount Bracket
LIG H T T R U C K SERVICE M A N U A L
MARK IV
6A5-5
FUEL PUMP PUSH ROD OILING
CRANKCASE AND CRANKSHAFT OILING
VALVE MECHANISM OILING
Fig. 6A5-3--"Mark IV" Engine Lubrication
LIG H T T R U C K SERVICE M A N U A L
6A5-6
MARK IV
MANUAL TRANSMISSION
ALL TURBO HYDRA-MATIC 400
(EXCEPT MOBILE HOME CHASSIS)
WITH PROPELLER SHAFT PARKING BRAKE
WITHOUT PROPELLER SHAFT PARKING BRAKE
ALL MANUAL TRANSMISSION
ALL TURBO HYDRA-MATIC 350
ALL MOBILE HOME CHASSIS
WITHOUT PROPELLER SHAFT PARKING BRAKE
AUTOMATIC TRANSMISSION
WITH PROPELLER SHAFT PARKING BRAKE
Fig. 6A5-5--"P" Series Engine Rear Mount
LIG H T T R U C K SERVIC E M A N U A L
MARK IV
6A5-7
Fig. 6A5-6--"P" Series Engine Front Mount
LIG H T T R U C K SERVICE M A N U A L
6A5-8
MARK IV
Fig. 6A5-7--"C" Series Engine Mounts
LIG H T T R U C K SERVIC E M A N U A L
MARK IV
ENGINE MOUNTS
E ngine m ounts (fig. 6A 5-4 - 6A 5-7) are the nonad ju stab le type and seldom req u ire service. Broken or
d e te rio ra ted m ounts should be replaced im m ediately,
because of the added strain placed on other m ounts and
drive line components.
Checking Engine Mounts
Front Mount
Raise the engine to remove weight from the m ounts and
to place a slight tension in the rubber. Observe both mounts
while raising engine. If an engine m ount exhibits:
a. H ard rubber surface covered with heat check cracks;
b. R ubber separated from a m etal plate of the mount;
or
c. R ubber split through center
R eplace the m ount. If th e re is relativ e m ovem ent
between a m etal plate of the m ount and its attaching points,
lower the engine on the m ounts and tighten the screws or
nuts attaching the mount to the engine, fram e, or bracket.
Rear Mount
Raise the vehicle on a hoist. Push up and pull down on
the transm ission tailshaft while observing the transm ission
m ount. If the rubber separates from the m etal plate of the
m ount or if the tailshaft moves up but not down (m ount
bottom ed out) replace th e m ount. If th ere is relative
movement between a metal plate of the m ount and its
attaching point, tighten the screws or nuts attaching the
m ount to the transm ission or crossm em ber.
6A 5-9
INTAKE MANIFOLD
Removal
1. D rain radiator and remove air cleaner.
2. Disconnect:
• B attery negative cable at battery.
• R adiator upper hose and heater hose at manifold.
• W ater pum p by-pass at w ater pump.
• A ccelerator linkage at carburetor.
• Fuel line at carburetor.
• Crankcase ventilation lines.
• Spark advance hose at distributor.
3. Remove distributor cap and m ark rotor position with
chalk, then remove distributor.
4. Rem ove (as req u ired ) air com pressor and b racket,
accelerator return spring and bracket, and accelerator
bellcrank.
5. Remove generator upper m ounting bracket.
• W ith A /C , remove rear compressor bracket.
6. Remove manifold attaching bolts, then remove m ani
fold and carburetor as an assembly. Discard gaskets
and seals.
7. If manifold is to be replaced, transfer:
• C arburetor and carburetor attaching bolts.
• T em perature sending unit.
• T herm ostat with housing (use new gasket).
• H eater hose and w ater pump by-pass adapters.
• TVS switch (if applicable).
• Vacuum fitting(s).
Front Mount Replacement
1. Rem ove m ount retain in g bolt from below fram e
m ounting bracket.
2. R aise front of engine and rem ove m ount-to-engine
bolts and remove m ount. R aise engine only enough for
sufficient clearance. C heck for interference between
re a r of engine and cowl panel w hich could cause
distributor damage.
3. R eplace m ount to engine and lower engine into place.
4. Install retain in g bolt and to rq u e all bolts to
specifications.
Installation
1. Clean gasket and seal surfaces on manifold, block, and
cylinder heads with degreaser.
2. Install gaskets on cylinder heads and new end seals on
block.
3. Install manifold and torque bolts to specifications in the
sequence outlined in fig. 6A5-8.
4. Install (if rem oved) air com pressor and b racket,
accelerator bellcrank.
Rear Mount Replacement
1. Support engine weight to relieve rear mounts.
2. Remove crossm em ber-to-m ount bolts.
3. On " P " Series with m anual transm ission and propeller
shaft parking brake, remove m ount attaching bolts
from fram e outrigger and clutch housing and remove
rear m ounting cushions.
4. Rem ove m ount-to -tran sm issio n bolts, then rem ove
mount.
5. On " P " Series with m anual transm ission and propeller
shaft parking brake, install new mounting cushions and
bolts.
6. Install new mount on transm ission.
7. W hile lowering transm ission, align and start crossm em ber-to-m ount bolts.
8. T orque bolts to specifications then bend lock tabs to
bolt head as applicable.
MARK IV V8
Fig. 6A5-8--lntake Manifold Torque Sequence
LIGHT TRUCK SERVICE MANUAL
6A 5-10
MARK IV
5. Install distributor, positioning rotor at chalk m ark,
then install distributor cap.
6. Connect:
• Spark advance hose at distributor.
• C rankcase ventilation lines.
• Fuel line at carburetor.
• A ccelerator linkage at carburetor.
• W ater pump by-pass at w ater pump.
• B attery negative cable at battery.
7. Install air cleaner.
8. Fill with coolant, sta rt engine, adjust ignition tim ing
and carburetor idle speed and check for leaks.
EXHAUST MANIFOLD
Removal
1. Remove carburetor air cleaner and heat stove pipe.
2. Remove spark plugs.
3. D isconnect exh au st pipe from m anifold and hang
exhaust pipe from fram e with wire.
4. Remove end bolts then remove center bolts and remove
manifold.
Fig. 6A5-10--A/C Compressor Mounting
ROCKER ARM COVER
Removal
Installation
If installing a new right side manifold, the carburetor
heat stove m ust be transferred from the old unit (fig. 6A59).
1. Clean m ating surfaces on manifold and head, then
install m anifold in position and install bolts.
2. Torque manifold bolts to specifications.
3. Connect exhaust pipe to manifold.
4. Install spark plugs and torque to 22 lb. ft. (30 N-m).
5. Install carburetor heat stove pipe.
6. S ta rt engine and check for leaks.
1. Remove air cleaner.
2. Disconnect crankcase ventilation hoses at rocker arm
covers.
3. Disconnect electrical wiring harness from rocker arm
clips.
4. Remove carburetor heat stove pipe from right exhaust
manifold.
5. If the vehicle is equipped with air conditioning, remove
the A /C compressor upper brace (fig. 6A5-10).
6. Remove rocker arm cover to head attaching bolts and
remove rocker arm cover.
NOTICE: If cover adheres to cylinder head, shear off by
bum ping end of rocker arm cover with a rubber m allet.
If cover will not come loose, C A REFU LLY pry until
loose. DO N O T D IST O R T S E A L IN G FL A N G E .
Installation
STUD
DUCT
ASSEMBLY
Fig. 6A5-9--Carburetor Heat Stove Assembly
LIGHT TRUCK SERVICE MANUAL
1. Clean sealing surface on cylinder head and rocker arm
cover with degreaser. Using a 3 /1 6 " (5m m ) bead of
RTV, # 1052366 or equivalent, place rocker arm cover
on the head, install retain in g bolts and torque to
specification. Loose RTV sealant, or pieces causing
installation interference, m ust be removed from both
cylinder head and cover seal surfaces prior to applying
new sealant.
• W hen going around the attaching bolt holes, always
flow the RTV on the inboard side of the holes.
2. On A /C equipped vehicles, install the A /C compressor
upper brace. A djust pulley belt to specification.
3. Install carburetor heat stove pipe.
4. Connect electrical wiring harness at clips on rocker arm
cover.
5. Connect crankcase ventilation hoses.
6. Install air cleaner, start engine and check for leaks.
MARK IV
VALVE MECHANISM
Removal
1. Remove rocker arm covers as previously outlined.
2. Remove rocker arm nuts, rocker arm balls, rocker arm s
and push rods. Place rocker arm s, rocker arm balls and
push rods in a rack so they m ay be reinstalled in the
sam e locations.
Installation and Adjustment
W henever new rocker arm s an d /o r rocker arm balls are
being installed, coat bearing surfaces of rocker arm s and
rocker arm balls with " M olykote" or its equivalent.
1. Install push rods. Be sure push rods seat in lifter socket.
2. Install rocker arm s, rocker arm balls and rocker arm
nuts. T ig h ten rocker arm nuts until all lash is
elim inated.
3. A djust valves when lifter is on base circle of cam shaft
lobe as follows:
a. C ran k engine until m ark on torsional dam per lines
up with center or " O " m ark on the tim ing tab
fastened to the crankcase front cover and the engine
is in the # 1 firing position. This may be determ ined
by placing fingers on the # 1 valve as the m ark on the
dam per comes near the " O " m ark on the crankcase
front cover. If the valves are not moving, the engine is
in the # 1 firing position. If the valves move as the
m ark comes up to the tim ing tab, the engine is in # 6
firing position and should be turned over one more
tim e to reach the # 1 position.
b. W ith the engine in the # 1 firing position as deter
mined above, the following valves may be adjusted.
- E x h a u s t- 1, 3 ,4 , 8
- I n t a k e - 1,2, 5, 7
6 A 5 -1 1
removed. This can be determ ined by rotating push
rod while turning adjusting nut (fig. 6A 5-11). W hen
play has been removed, turn adjusting nut in one full
additional turn (to center lifter plunger),
d. C rank the engine one revolution until the po in ter"o "
m ark and torsional dam per m ark are again in
alignm ent. T his is # 6 firing position. W ith the
engine in this position the following valves may be
adjusted.
- Exhaust--2, 5 ,6 , 7
— In ta k e--3 ,4, 6, 8
4. Install rocker arm covers as previously outlined.
5. S tart engine and adjust carburetor idle speed.
VALVE STEM OIL SEAL and/or VALVE SPRING
Removal
1. Remove rocker arm cover as previously outlined.
2. Remove spark plug, rocker arm and push rod on the
cylinder(s) to be serviced.
3. Install air line adapter Tool J-23590 to spark plug port
and apply compressed air to hold the valves in place.
4. Using Tool J-5892 to compress the valve spring, remove
the valve locks, valve cap and valve spring and dam per
(fig. 6A5-12).
5. Remove the valve stem oil seal.
Installation
1. Install new valve stem oil seal (coated with oil) in
position over valve guide (fig. 6A5-13). Seal installa
tion instructions are supplied with each service kit.
Install seal following procedures outlined on the sup
plied instruction sheet.
c. Back out adjusting nut until lash is felt at the push
rod th en tu rn in ad ju stin g n u t u ntil all lash is
J-23590
Fig. 6 A 5 -1 1--Valve Adjustment
Fig. 6A5-12--C om pressing Valve Spring
LIGHT TRUCK SERVICE MANUAL
6A 5-12
MARK IV
L ifte r B o d y
Push Rod Seat
M e te rin g V a lv e
Fig. 6A5-13—Installing Valve Stem Oil Seal
C h e c k B a ll
C h e c k B a ll R e ta in e r
2. Set the valve spring and dam per and valve cap in place.
3. Com press the spring with Tool J-5892 and install the
valve locks then release the compressor tool, making
sure the locks seat properly in the groove of the valve
stem. G rease m ay be used to hold the locks in place
while releasing the compressor tool.
4. Install spark plug, and torque to 22 lb. ft. (30 N-m).
5. Install and ad ju st valve m echanism as previously
outlined.
Push Rod Seat
R e ta in e r
P lu n g e r
C h e c k B a ll S p rin c
P lu n g e r S p rin g
Fig. 6A5-14--Hydraulic Valve Lifter
VALVE LIFTERS
H ydraulic valve lifters very seldom require attention.
The lifters are extrem ely simple in design, readjustm ents
are not necessary, and servicing of the lifters requires only
that care and cleanliness be exercised in the handling of
parts.
Removal
1. Remove intake m anifold as previously outlined.
2. Remove valve m echanism as previously outlined.
3. Remove valve lifters. Place valve lifters in a rack so that
they m ay be reinstalled in the sam e location.
Installation
1. C oat foot of valve lifters w ith "M o ly k o te" or its
equivalent and install valve lifters. M ake sure lifter foot
is convex,
2. Install intake manifold as previously outlined.
3. Install and adjust valve m echanism as outlined.
Disassembly
1. Hold the plunger down with a push rod, and using the
blade of a small screw driver, remove the push rod seat
retainer.
2. Remove the push rod seat and m etering valve (fig. 6A514).
3. Remove the plunger, ball check valve assembly and the
plunger spring.
4. Remove the ball check valve and spring by prying the
ball retainer loose from the plunger with the blade of a
small screw driver (fig. 6A5-15).
LIGHT TRUCK SERVICE MANUAL
i
Fig. 6A5-15--Removing Ball Check Valve
Cleaning and Inspection
Thoroughly clean all parts in cleaning solvent, and
inspect them carefully. If any parts are dam aged or worn,
the entire lifter assembly should be replaced. If the lifter
body wall is scuffed or worn, inspect the cylinder block lifter
bore. If the bottom of the lifter is scuffed or worn, inspect the
cam shaft lobe. If the push rod seat is scuffed or worn,
inspect the push rod. An additive containing EP lube, such
as EOS, should always be added to crankcase oil for run-in
when any new cam shaft or lifters are installed. All dam aged
or worn lifters should be replaced.
• For proper lifter rotation during engine operation,
lifter foot m ust be convex.
MARK IV
6A 5-13
5. Insert a 1/16" drift pin through both oil holes to hold
the plunger down against the lifter spring tension (fig.
6A5-17).
6. Remove the 1/8" drift pin, refill assembly with SA E 10
oil.
7. Install the m etering valve and push rod seat (fig. 6A514).
8. Install the push rod seat retainer, press down on the
push rod seat and remove the 1/16" drift pin from the
oil holes. The lifter is now completely assembled, filled
with oil and ready for installation. Before installing
lifters, coat the bottom of the lifter with " M olykote" or
its equivalent.
CYLINDER HEAD ASSEMBLY
Removal
Fig. 6A5-16--lnstalling Ball Check Valve
Assembly
1. Place the check ball on small hole in bottom of the
plunger.
2. Insert check ball spring on seat in ball retainer and
place retainer over ball so th a t spring rests on the ball.
C arefully press the retainer into position in plunger
with the blade of a small screw driver (fig. 6A5-16).
3. Place the plunger spring over the ball retainer and slide
the lifter body over th e spring and plunger, being
careful to line up the oil feed holes in the lifter body and
plunger.
4. Fill the assembly with SA E 10 oil, then insert the end of
a 1 /8 " drift pin into the plunger and press down solid.
Do not attem pt to force or pum p the plunger. A t this
point, oil holes in the lifter body and plunger assembly
will be aligned (fig. 6A5-17).
1. Remove intake manifold as previously outlined.
2. Remove generator lower m ounting bolt and lay unit
aside.
3. Remove exhaust manifolds as previously outlined.
4. If vehicle is equipped with A /C , remove A /C com pres
sor and forward m ounting bracket. Lay unit aside.
5. Remove valve m echanism as previously outlined.
6. Drain cylinder block of coolant.
7. Remove cylinder head bolts, cylinder head and gasket.
Place cylinder head on two blocks of wood to prevent
dam age.
Disassembly
1. W ith cylinder head removed, remove valve rocker arm
nuts, balls and rocker arm s (if not previously done).
2. Using Tool J-8062, compress the valve springs (fig.
6A5-18) and remove valve keys. Release the com pres
sor tool and remove rotators or spring caps, springs and
spring dam per, then remove oil seals and valve spring
shims.
Vs" DRIFT PIN
OIL FEED HOLE
Fig. 6A5-17--Assem bling Hydraulic Lifter
Fig. 6A5-18--C om pressing Valve Spring
LIGHT TRUCK SERVICE MANUAL
6A 5-14
MARK IV
3. Remove valves from cylinder head and place them in a
rack in their proper sequence so th at they can be
assembled in their original positions.
Cleaning
1. Clean all carbon from combustion cham bers and valve
ports using Tool J-8089 (fig. 6A5-19).
2. Thoroughly clean the valve guides using Tool J-8101
(fig. 6A5-20).
3. Clean all carbon and sludge from push rods, rocker
arm s and push rod guides.
4. Clean valve stems and heads on a buffing wheel.
5. C lean carbon deposits from head g asket m ating
surface.
NOTICE: Excessive valve stem to bore clearance will
cause excessive oil consumption and may cause valve
breakage. Insufficient clearance will result in noisy and
sticky functioning of the valve and distu rb engine
smoothness.
3. M easure valve stem clearance (fig. 6A5-21) as follows:
a. Clam p a dial indicator on one side of the cylinder
head rocker arm cover gasket rail.
b. Locate the indicator so th at movement of the valve
stem from side to side (crosswise to the head) will
Inspection
1. Inspect the cylinder head for cracks in the exhaust
ports, combustion cham bers, or external cracks to the
coolant cham ber.
2. Inspect the valves for burned heads, cracked faces or
dam aged stems.
Fig. 6A5-21--Measuring Valve Stem Clearances
Fig. 6A5-19--Cleaning Combustion Chambers
J- 8101
Fig. 6A 5-20--C lean ing Valve Guides
LIGHT TRUCK SERVICE MANUAL
Fig. 6A 5-22--C hecking Valve Spring Tension
MARK IV
6 A 5 -1 5
cause a direct movement of the indicator stem. The
indicator stem m ust contact the side of the valve
stem ju st above the valve guide.
c. Drop the valve head about 1/16" (1.6m m ) off the
valve seat.
d. Move the stem of the valve from side to side using
light pressu re to obtain a clearan ce reading. If
clearance exceeds specifications, it will be necessary
to ream valve guides for oversize valves as outlined.
4. Check valve spring tension with Tool J-8056 spring
tester (fig. 6A5-22). Springs should be compressed to
the specified height and checked against the specifica
tions chart. Springs should be replaced if not within 10
lbs. (44 N ) of the specified load (w ithout dam pers).
5. Inspect rocker arm studs for wear of dam age. Inspect
push rod guides for wear or dam age.
Assembly
Fig. 6A5-25--Measuring Valve Spring Installed Height
1. Insert a valve in the proper port.
2. A ssem ble the valve spring and related parts as follows:
a. Install valve spring shim on valve spring seat then
install a new valve stem oil seal over valve and valve
guide.
b. Set the valve spring (w ith dam per); and valve cap in
place (fig. 6A5-23).
c. Com press the spring with Tool J-8062.
d. Install the valve locks and release the compressor
tool, m aking sure th e locks seat properly in the
groove of the valve stem. G rease may be used to hold
the locks in place while releasing the compressor tool.
3. Install the rem aining valves.
4. Check the installed height of the valve springs, using a
narrow thin scale. A cutaw ay scale will help (fig. 6A524). M easure from the top of the shim or the spring seat
to the top of the valve spring or valve spring shield (fig.
6A5-25). If this is found to exceed the specified height,
install a valve spring seat shim approxim ately 1/16"
(1.6m m ) thick. A t no tim e should the spring be
shimmed to give an installed height under the mini
mum specified.
Installation
• The gasket surfaces on both the head and the block
must be clean of any foreign m atter and free of nicks
or heavy scratches. Cylinder bolt threads in the block
and threads on the cylinder head bolts m ust be clean
as dirt will affect bolt torque.
1. On engines using a ST E E L gasket, coat both sides of a
new gasket with a good sealer. Spread the sealer thin
and even. One method of applying the sealer th at will
assure the proper coat is with the use of a paint roller.
Too much sealer may hold the gasket away from the
head or block.
Fig. 6A5-23--Valve Spring Installation
\
L
G R IN D O U T THIS P O R T IO N
T j T T T ] T | l | ' | l | T F j ' l ' | U lj TP | rTTj
<1»| rr 1j n 7] 1
'
'2
3
r^ ry n y T T j
4
Fig. 6 A 5 -2 4 ~ C u ta w a y Scale
1
! ' ] 1111 11' | 1 11 | 1111T 1'
5
6
Fig. 6 A 5 -2 6 --C ylin d e r Head Torque Sequence
LIGHT TRUCK SERVICE MANUAL
6A 5-16
2.
3.
4.
5.
6.
7.
8.
MARK IV
• Use no sealer on engines using a composition ST EEL
A SB E ST O S gasket.
Place the gasket in position over the dowel pins with the
bead up.
Carefully guide the cylinder head into place over the
dowel pins and gasket.
C oat th read s of cylinder head bolts with sealing
compound, # 1 0 5 2 0 8 0 or equivalent, and install bolts
finger tight.
Tighten each cylinder head bolt a little at a tim e in the
sequence shown in figure 6A5-26 until the specified
torque is reached.
Install exhaust m anifolds as previously outlined.
Install intake manifold as previously outlined.
Install and a d ju st valve m echanism as previously
outlined.
ROCKER ARM STUDS
Replacement
The push rod guides are attached to the cylinder head
by the rocker arm studs (fig. 6A 5-27). R eplace where
necessary and torque rocker arm studs to specifications.
VALVE GUIDE BORES
head is im perative to insure th at the heat in the valve head
will be properly carried away.
Several different types of equipm ent are available for
reseating valves seats. The recom m endations of the m anu
facturer of the equipm ent being used should be carefully
followed to attain proper results.
Regardless of what type of equipm ent is used, however,
it is essential th at valve guide bores be free from carbon or
dirt to ensure proper centering of pilot in the guide.
VALVES
Valves th at are pitted can be refaced to the proper
angle, insuring correct relation between the head and stem
on a valve refacing m echanism. Valve stems which show
excessive wear, or valves th at are w arped excessively should
be replaced. W hen a valve head which is warped excessively
is refaced, a knife edge will be ground on part or all of the
valve head due to the am ount of m etal th at must be removed
to completely reface. Knife edges lead to breakage, burning
or pre-ignition due to heat localizing on this knife edge. If
the edge of the valve head is less than 1/3 2 " (.80m m ) thick
after grinding, replace the valve (fig. 6A 5-29).
Several different types of equipm ent are available for
refacing valves. The recom m endation of the m anufacturer
of the equipm ent being used should be carefully followed to
attain proper results.
Valves with oversize stems are available (see specifica
tions). To ream the valve guide bores for oversize valves use
Tool Set J-7049.
TORSIONAL DAMPER
VALVE SEATS
Removal
R econditioning the valve seats is very im p ortant,
because the seating of the valves must be perfect for the
engine to deliver the power and perform ance built into it.
A nother im portant factor is the cooling of the valve
heads. Good contact between each valve and its seat in the
1. Remove fan belt, fan and pulley.
2. Remove the fan shroud assembly as outlined in Section
6B.
• If additional operations (such as cam shaft removal)
are not being perform ed, the radiator removal will
not be necessary.
3. Remove accessory drive pulley then remove dam per
retaining bolt.
4. Install Tool J-23523 on dam per then, turning puller
screw, remove dam per.
Fig. 6A5-27--R ocker Arm Stud & Push Rod G uide
LIGHT TRUCK SERVICE MANUAL
Fig. 6A 5-29--M easuring Valve Head
MARK IV
6A 5-17
Installation
NOTICE: The inertial weight section of the torsional
dam per is assembled to the hub with a rubber type
m aterial. The installation procedures (with proper tool)
m ust be followed or movement of the inertia weight
section on th e hub will destroy the tuning of the
torsional dam per.
1. C oat front cover seal contact area (on dam per) with
engine oil.
2. Place dam per in position over key on crankshaft.
3. Pull dam per onto crankshaft as follows:
a. Install appropriate threaded end of Tool J-23523
into crankshaft. Install tool in crankshaft so th at at
least 1 /2 " (6.5m m ) of th re a d engagem ent is
obtained.
4.
5.
6.
7.
8.
b. Install plate, thrust bearing and nut to complete tool
installation.
c. Pull dam per into position as shown in Figure 6A530.
d. Remove tool from crankshaft then install dam per
retaining bolt and torque to specifications.
Install accessory drive pulley.
Install fan shroud as outlined in Section 6B.
Install fan and pulley to w ater pump hub and tighten
securely.
Install fan belt and adjust to specifications using strand
tension gage.
Fill cooling system, sta rt engine and check for leaks.
CRANKCASE FRONT COVER
Removal
1. Remove torsional dam per and w ater pum p as outlined.
2. Rem ove the two, oil p an -to -fro n t cover attach in g
screws.
3. Remove the front cover-to-block attaching screws.
4. Pull the cover slightly forward only enough to perm it
cutting of oil pan front seal.
Fig. 6A5-31--Cutting Tabs on Oil Pan Front Seal
5. Using a sharp knife or other suitable cutting tool, cut
oil pan front seal flush with cylinder block at both sides
of cover (fig. 6A5-31).
6. Remove front cover and attaching portion of oil pan
front seal. Remove front cover gasket.
Installation
1. Clean gasket surface on block and crankcase front
cover.
2. C ut tabs from the new oil pan front seal (fig. 6A5-32).
Use a sharp instrum ent to ensure a clean cut.
3. Install seal to front cover, pressing tips into holes
provided in cover.
4. Coat the gasket with gasket sealer and place in position
on cover.
5. Apply a 1/8" (3m m ) bead of RTV sealer, # 1052366
or equivalent, to the joint formed at the oil pan and
cylinder block (fig. 6A 5-33).
6. Position crankcase front cover over crankshaft.
7. Press cover downward against oil pan until cover is
aligned and installed over dowel pins on block.
Fig. 6A5-30--lnstalling Torsional Dam per
LIGHT TRUCK S E R V I^ MANUAL
6A 5-18
MARK IV
Fig. 6A5-33--Applying Front Cover Sealer
8. Install and partially tighten the two, oil pan-to-front
cover attaching screws.
9. Install the front cover-to-block attaching screws.
10. Torque all screws to specifications.
11. Install torsional dam per and w ater pump as previously
outlined.
Fig. 6A5-34--lnstalling Oil Seal
OIL SEAL (FRONT COVER)
Replacement
With Cover Removed
1. W ith cover removed, pry oil seal out of cover from the
front with a large screw driver.
2. Install new seal so th a t open end of the seal is toward
the inside of cover and drive it into position with Tool
J-22102. Support rear of cover at seal area.
With Cover Installed
1. W ith torsional dam per removed, pry seal out of cover
from the front with a large screw driver. Be careful not
to dam age the surface on the crankshaft.
2. Install new seal so th a t open end of seal is toward the
inside of cover and drive it into position with Tool
J-22102. (fig. 6A 5-34).
CAMSHAFT
Measuring Lobe Lift
1. Remove the valve m echanism as previously outlined.
2. Position in d icato r w ith ball socket a d a p te r (Tool
J-8520) on push rod (fig. 6A5-35). M ake sure push rod
is in the lifter socket.
3. R otate the crankshaft slowly in the direction of rotation
until the lifter is on the heel of the cam lobe. At this
point, the push rod will be in its lowest position.
4. Set dial indicator on zero, then rotate the crankshaft
slowly, or a tta c h an au x iliary sta rte r sw itch and
"bum p" the engine over, until the push rod is fully
raised position.
• W henever the engine is cranked remotely at the
starter, with a special jum per cable or other means,
Fig. 6A5-35--Measuring Camshaft Lobe Lift
the distributor prim ary lead should be disconnected
from the distributor (coil).
5. C om pare the total lift recorded from the dial indicator
with specifications.
6. If cam shaft readings for all lobes are within specifica
tions, remove dial indicator assembly.
7. Install and adjust valve m echanism as outlined.
Removal
1.
2.
3.
4.
Remove valve lifters as previously outlined.
Remove crankcase front cover as previously outlined.
Remove grille.
Remove fuel pum p push rod as outlined in Section 6C.
MARK IV
6A 5-19
W henever a new cam shaft is installed, replacem ent of
all valve lifters oil filter and engine oil is recommended to
insure durability of the cam shaft lobes and lifter feet.
1. Lubricate cam shaft journals with engine oil and install
cam shaft.
2. Install tim ing chain on cam shaft sprocket. Hold the
sprocket vertically with the chain hanging down and
align m arks on cam shaft and crankshaft sprockets.
(Refer to fig. 6A5-37).
3. Align dowel in cam shaft with dowel hole in cam shaft
sprocket then install sprocket on cam shaft.
4. Draw the cam shaft sprocket onto cam shaft using the
mounting bolts. Torque to specifications.
5. Lubricate tim ing chain with engine oil.
6. Install fuel pump push rod as outlined in Section 6C.
7. Install grille.
8. Install crankcase front cover as previously outlined.
Fig. 6A5-36--Removing Camshaft
5. Complete cam shaft removal as follows:
• Sprocket is a light fit on cam shaft. If sprocket does
not come off easily a light blow on the lower edge of
the sprocket (with a plastic m allet) should dislodge
the sprocket.
6. Install two 5 /1 6 " - 1 8 x 4 " bolts in cam shaft bolt holes
then remove cam shaft (fig. 6A5-36).
NOTICE: All cam shaft journals are the same diam eter
and care must be used in removing cam shaft to avoid
dam age to bearings.
Inspection
The cam shaft bearing journals should be m easured
with a m icrom eter for an out-of-round condition. If the
journals exceed .001" out-of-round, the cam shaft should be
replaced.
Installation
W henever a new cam shaft is installed coat cam shaft
lobes with "M olykote" or its equivalent.
9. Install valve lifters as previously outlined.
CAMSHAFT BEARINGS
Removal
C am shaft bearings can be replaced while engine is
disassembled for overhaul or w ithout complete disassembly
of the engine. To replace bearings without complete disas
sembly remove the cam shaft and crankshaft leaving cylin
der heads attached and pistons in place. Before removing
crankshaft, tape threads of connecting rod bolts to prevent
dam age to crankshaft. Fasten connecting rods against sides
of engine so they will not be in the way while replacing
cam shaft bearings.
1. W ith cam shaft and crankshaft removed, drive cam
shaft rear plug from cylinder block.
2. Using Tool J-6098 with nut and thrust washer installed
to end of threads, index pilot in cam shaft front bearing
and install puller screw through pilot.
3. Install remover and installer tool with shoulder toward
bearing, making sure a sufficient am ount of threads are
engaged.
#6 C Y LIN D ER
AT T.D.C.
Fig. 6A 5-37--Tim ing Sprocket Alignment M arks
Fig. 6A5-38--R em oving Cam shaft Bearings
LIGHT TRUCK SERVICE MANUAL
6A 5-20
MARK IV
4. Using two wrenches, hold puller screw while turning
nut. W hen bearing has been pulled from bore, remove
remover and installer tool and bearing from puller
screw (fig. 6A 5-38).
5. Remove rem aining bearings (except front and rear) in
the same m anner. It will be necessary to index pilot in
cam shaft rear bearing to remove the rear interm ediate
bearing.
6. Assemble remover and installer tool on driver handle
and rem ove c a m sh a ft front and re a r bearings by
driving towards center of cylinder block (fig. 6A5-39).
Installation
T he cam sh aft fro n t and re a r bearings should be
installed first. These bearings will act as guides for the pilot
and center the rem aining bearings being pulled into place.
1. Assemble remover and installer tool on driver handle
and install cam shaft front and rear bearings by driving
towards center of cylinder block (fig. 6A5-39).
2. Using Tool Set J-6098 with nut then thrust washer
installed to end of threads, index pilot in cam shaft front
bearing and install puller screw through pilot.
3. Index cam shaft bearing in bore (with oil hole aligned as
outlined below), then install remover and installer tool
on puller screw with shoulder toward bearing.
• N um ber one through num ber four cam bearing oil
hole m ust be aligned with oil holes in cam bearing
bore.
• The num ber five bearing bore is annulus, and cam
bearing m ust be positioned at or near the 6 o’clock
position.
4. Using two wrenches, hold puller screw while turning
nut. A fter bearing has been pulled into bore, remove
the remover and installer tool from puller screw, and
check alignm ent of oil hole in cam shaft bearing.
5. Install rem aining bearings in the same m anner. It will
be necessary to index pilot in the cam shaft rear bearing
to install the rear interm ediate bearing.
6. C oat new rear plug O.D. with # 1052080 sealant, or
equivalent, and install flush to 1/32" (.80m m ) deep.
OIL PAN
Removal
1.
2.
3.
4.
5.
Disconnect battery negative cable.
Loosen fan shroud.
Remove air cleaner.
Remove distributor cap.
Raise vehicle and drain oil pan.
• If equipped with m anual transm ission, rem ove
starter.
6. Rem ove torque converter cover or clutch cover as
applicable.
7. Remove oil filter.
8. On gage equipped vehicles, remove oil pressure line
from side of block.
NOTICE: Rem oval of pressure line is im p o rtan t to
prevent crushing of line when raising engine.
9. Remove m ount "th ro u g h " bolts and raise engine.
10. Remove oil pan bolts and drop pan.
Installation
If installing new oil pan, transfer dipstick tube from old
unit.
1. W ith clean sealing surfaces on pan and block, place oil
pan on block and install oil pan bolts. Torque to 135 lb.
in. (15N-m ).
2. Lower engine on mounts and install m ount through
bolts. Torque to 75 lb. ft. (100 N-m).
3. Install oil pressure line, if applicable, and install oil
filter.
4. Install torque converter cover or clutch cover, as
applicable.
• If equipped with m anual transm ission, install starter.
5. Lower vehicle.
6. Install distributor cap and tighten fan shroud.
7. Fill crankcase with oil; see owners m anual.
8. Install air cleaner and connect battery negative cable.
9. S ta rt engine and check for leaks.
OIL PUMP
Removal
1. Remove oil pan as previously outlined.
2. Rem ove pum p to rea r m ain bearing cap bolt and
remove pump and extension shaft.
Disassembly (Figure 6A5-40)
1. Rem ove the pum p cover a ttac h in g screws and the
pum p cover.
Fig. 6A5-39--Replacing Camshaft Front Bearing
LIGHT TRUCK SERVICE MANUAL
2. M ark gear teeth so they m ay be reassem bled with the
same teeth indexing. Remove the idler gear and the
drive gear and shaft from the pum p body.
3. Rem ove the pressure reg u lato r valve retain in g pin,
pressure regulator valve and related parts.
MARK IV
6A5-21
3. Install oil pan previously outlined.
CONNECTING ROD BEARINGS
Connecting rod bearings are of the precision insert type
and do not utilize shims for adjustm ent. DO N O T FILE
R O D S O R R O D CA PS. If clearances are found to be
excessive a new bearing will be required. Service bearings
are available in standard size and .001" and .002" under
size for use with new and used standard size crankshafts,
and in .010" and .020" undersize for use with reconditioned
crankshafts.
Inspection and Replacement
2
1.
2.
3.
4.
5.
6.
7.
S h a ft Extension
S h a ft C ouplin g
Pump Body
Drive Gear and S haft
Id le r Gear
P ickup Screen and
Pipe
Pump Cover
8.
9.
10.
11.
12.
Pressure R e gulator
Valve
Pressure R egulator
S p rin g
W a sh e r
R etaining Pin
S crew s
Fig. 6A5-4C)--Oil Pump
4. If the pickup screen and pipe assem bly need replacing,
the entire pump m ust be replaced. The screen and pipe
assembly is welded to the pum p body.
Cleaning and Inspection
1. W ash all parts in cleaning solvent and dry with
compressed air.
2. Inspect the pump body and cover for cracks or exces
sive wear.
3. Inspect pump gears for dam age or excessive wear.
• The pum p gears and body are not serviced sepa
rately. If the pump gears or body are dam aged or
worn, replacem ent of the entire oil pum p assembly is
necessary.
4. Check the drive gear shaft for looseness in the pum p
body.
5. Inspect inside of pum p cover for w ear th a t would
perm it oil to leak past the ends of the gears.
6. Inspect the pickup screen and pipe assem bly for
dam age to screen, pipe or relief grom m et.
7. Check the pressure regulator valve for fit.
1. W ith oil pan and oil pum p rem oved, rem ove the
connecting rod cap and bearing. Before removal of
connecting rod cap, m ark the side of the rod and cap
with the cylinder num ber to assure m atched reassem
bly of rod and cap.
2. Inspect the bearing for evidence of wear or dam age.
(Bearings showing the above should not be installed.)
3. W ipe both upper and lower bearing shells and crankpin
clean of oil.
4. M easure the crankpin for out-of-round or taper with a
m icrom eter. If not w ithin specifications replace or
recondition the crankshaft. If within specifications and
a new bearing is to be installed, m easure the m axim um
diam eter of the crankpin to determ ine new bearing size
required.
5. If within specifications m easure new or used bearing
clearances with Plastigage or its equivalent.
If a bearing is being fitted to an out-of-round crankpin,
be sure to fit to the m axim um diam eter of the crankpin.
If the bearing is fitted to the minimum diam eter and
the crankpin is out-of-round .001" in terference
between the bearing and crankpin will result in rapid
bearing failure.
Assembly (Figures 6A5-40)
1. Install the pressure regulator valve and related parts.
2. Install the drive gear and shaft in the pum p body.
3. Install the idler gear in the pum p body with the smooth
side of gear towards pum p cover opening.
4. Install gasket and the pum p cover and torque attaching
screws to specifications.
5. T urn drive shaft by hand to check for smooth operation.
Installation
1. A ssem ble pum p and extension sh aft to rear m ain
bearing cap, aligning slot on top end of extension shaft
with drive tang on lower end of distributor drive shaft.
2. Install pum p to rear bearing cap bolt and torque to
specifications.
Fig. 6A5-41--Gaging Plastic On Crankpin
LIGHT TRUCK SERVICE MANUAL
6A 5-22
MARK IV
a. Place a piece of gaging plastic, the length of the
bearing (parallel to the crankshaft), on the crankpin
or bearing surface (fig. 6A 5-41). Plastic gage should
be positioned in the middle of upper or lower bearing
shell. (B earings are eccentric and false readings
could occur if placed elsewhere).
b. Install the bearing in the connecting rod and cap.
c. Install the bearing cap and evenly torque nuts to
specifications. Do not turn the crankshaft with the
gaging plastic installed.
d. Remove the bearing cap and using the scale on the
gaging plastic envelope, m easure the gaging plastic
width at the widest point (fig.6A5-42).
6. If the clearance exceeds specifications, select a new,
correct size, bearing and rem easure the clearance. Be
sure to check w hat size bearing is being removed in
order to determ ine proper replacem ent size bearing.
If clearance cannot be brought to within specifications,
the crankpin will have to be ground undersize. If the
crankpin is already at m axim um undersize, replace
crankshaft.
7. C oat the bearing surface with oil, install the rod cap
and torque nuts to specifications.
8. W hen all connecting rod bearings have been installed
tap each rod lightly (parallel to the crankpin) to make
sure they have clearance.
9. M easure all connecting rod side clearances (see speci
fications) between connecting rod caps (fig. 6A5-43).
Fig. 6A5-43--Measuring Connecting Rod Side
Clearance
Selective fitting of both rod and main bearing inserts is
necessary in production in order to obtain close tolerances.
For this reason you may find one half of a standard insert
with one half of a .001" undersize insert which will decrease
the clearance .0005 " from using a full standard bearing.
MAIN BEARINGS
Inspection
M ain bearings are of the precision insert type and do
not utilize shims for adjustm ent. If clearances are found to
be excessive, a new bearing, both upper and lower halves,
will be required. Service bearings are available in standard
size and .0 0 1 ", .0 0 2 ", .0 0 9 ", .010" and .020" undersize.
In general, the lower half of the bearing (except # 1
bearing) shows a greater wear and the most distress from
fatigue. If upon inspection the lower half is suitable for use,
it can be assum ed th a t the upper half is also satisfactory. If
the lower half shows evidence of w ear or dam age, both upper
and lower halves should be replaced. Never replace one half
w ithout replacing the other half.
Checking Clearance
To obtain the most accurate results with "P lastig ag e",
(or its equivalent) a wax-like plastic m aterial which will
compress evenly between the bearing and journal surfaces
w ithout dam aging either surface, certain precautions should
be observed.
If the engine is out of the vehicle and upside down, the
crankshaft will rest on the upper bearings and the total
clearance can be m easured between the lower bearing and
jo u rn al. If the engine is to rem ain in th e vehicle, the
cran k sh a ft m ust be supported upw ard to rem ove the
clearance from the upper bearing. The total clearance can
then be m easured between the lower bearing and journal.
To assure the proper seating of the crankshaft, all
bearing cap bolts should be at their specified torque. In
addition, preparatory to checking fit of bearings, the surface
of the crankshaft journal and bearing should be wiped clean
of oil.
Fig. 6 A 5 -4 2 -M e a s u rin g G agin g Plastic
LIGHT TRUCK SERVICE MANUAL
1. W ith the oil pan and oil pum p removed, and starting
with the rear main bearing, remove bearing cap and
wipe oil from journal and bearing cap.
MARK IV
6A 5-23
5. On the edge of gaging plastic envelope th ere is a
graduated scale which is correlated in thousandths of
an inch. W ithout removing the gaging plastic, measure
its compressed width (at the widest point) with the
graduations on the gaging plastic envelope (fig. 6A545).
N orm ally main bearing journals wear evenly and are
not out-of-round. However, if a bearing is being fitted
to an out-of-round (.001" m ax.), be sure to fit to the
m axim um diam eter of the journal: If the bearing is
fitted to the m inim um diam eter and the journal is outof-round .001", interference between the bearing and
jo u rn a l will result in rapid bearing failure. If the
flattened gaging plastic tapers toward the middle or
ends, there is a difference in clearance indicating taper,
low spot or other irregularity of the bearing or journal.
Be sure to m easure the journal with a m icrom eter if the
flattened gaging plastic indicates m ore th a n .001"
difference.
Fig. 6A5-44--Gaging Plastic on Journal
2. Place a piece of gaging plastic the full width of the
bearing (parallel to the crankshaft) on the journal (fig.
6A5-44). Do not rotate the crankshaft while the gaging
plastic is between the bearing and journal.
3. Install the bearing cap and evenly torque the retaining
bolts to specifications. Bearing cap M U ST be torqued
to specifications in order to assure proper reading.
V ariatio n s in torque affect th e com pression of the
plastic gage.
4. Remove bearing cap. The flattened gaging plastic will
be found adhering to either the bearing shell or journal.
Fig. 6A 5-45--M easuring G agin g Plastic
6. If the bearing clearance is within specifications, the
bearing insert is satisfactory. If the clearance is not
within specifications, replace the insert. Always replace
both upper and lower inserts as a unit. If a new bearing
cap is being installed and clearance is less than .001",
inspect for burrs or nicks; if none are found then install
shims as required.
7. A standard, .001" or .002" undersize bearing may
produce the proper clearance. If not, it will be neces
sary to regrind the crankshaft journal for use with the
next undersize bearing. A fter selecting new bearing,
recheck clearance.
8. Proceed to the next bearing. A fter all bearings have
been checked rotate the crankshaft to see th a t there is
no excessive drag. W hen checking # 1 main bearing,
loosen accessory drive belts so as to prevent tapered
reading with plastic gage.
Fig. 6A 5-46--M easuring Crankshaft End Play
LIGHT TRUCK SERVICE MANUAL
6A 5-24
MARK IV
9. M easure crankshaft end play (see specifications) by
forcing the crankshaft to the extrem e front position.
M easure at the front end of the rear m ain bearing with
a feeler gage (fig. 6A 5-46).
10. Install a new rear m ain bearing oil seal in the cylinder
block and m ain bearing cap.
.004 SHIM STOCK
Replacement
M ain bearings m ay be replaced w ith or w ithout
removing the crankshaft.
11/64
With Crankshaft Removal
1. Remove and inspect the crankshaft.
2. Remove the m ain bearings from the cylinder block and
main bearing caps.
3. C oat bearing su rfaces of new, correct size, m ain
bearings with oil and install in the cylinder block and
main bearing caps.
4. Install the crankshaft.
Fig. 6A5-47--Oil Seal Installation Tool
Without Crankshaft Removal
1. W ith oil pan, oil pum p and spark plugs rem oved,
remove cap on m ain bearing requiring replacem ent and
remove bearing from cap.
2. Install a m ain bearing removing and installing tool in
oil hole in crankshaft journal. If such a tool is not
availale, a cotter pin m ay be bent as required to do the
job.
3. R otate the crankshaft clockwise as viewed from the
front of engine. This will roll upper bearing out of
block.
4. Oil new selected size upper bearing and insert plain
(unnotched) end between crankshaft and indented or
notched side of block. R otate the bearing into place and
remove tool from oil hole in crankshaft journal.
5. Oil new lower bearing and install in bearing cap.
6. Install m ain bearing cap with arrows pointing toward
front of engine.
7. Torque all m ain bearing caps E X C E P T T H E R E A R
M A IN C A P to specifications. Torque rear m ain bear
ing cap to 10-12 lb. ft. (14-16N -m ) then tap end of
crankshaft, first rearw ard then forward with a lead
ham m er. T his will line up re a r m ain bearing and
crankshaft th ru st surfaces. R etorque all m ain bearing
caps to specifications.
Fig. 6A5-48--Removing Oil Seal - Lower Half
OIL SEAL (REAR MAIN)
Replacement
• Always replace the upper and lower seal as a unit.
The rear m ain bearing oil seal can be replaced (both
halves) without removal of the crankshaft. E xtrem e care
should be exercised when installing this seal to protect the
sealing bead located in the channel on the outside diam eter
of the seal. An installation tool (fig. 6A5-47) can be used to
protect the seal bead when positioning seal as follows:
1. W ith the oil pan and oil pum p removed, remove the
rear m ain bearing cap.
2. Remove oil seal from the bearing cap by prying from
the bottom with a sm all screw driver (fig. 6A5-48).
LIGHT TRUCK SERVICE MANUAL
Fig. 6A5-49--Removing Oil Seal - Upper Half
3. To remove the upper half of the seal, use a small
ham m er to tap a brass pin punch on one end of seal
until it protrudes far enough to be removed with pliers
(fig. 6A5-49).
4. Clean all sealant and foreign m aterial from cylinder
case bearing cap and crankshaft, using a non-abrasive
cleaner.
5. Inspect com ponents for nicks, scratches, burrs and
m achining defects at all sealing surfaces, case assembly
and crankshaft.
6. C oat seal lips and seal bead with light engine oil - keep
oil off seal m ating ends.
MARK IV
7. Position tip of tool between crankshaft and seal seat in
cylinder case.
8. Position seal between crankshaft and tip of tool so that
seal bead contacts tip of tool. M ake sure th at oil-seal lip
is positioned toward front of engine (fig. 6A5-50).
9. Roll seal around crankshaft using tool as a "shoe
horn" to protect seal bead from sharp corner of seal
seat surface in cylinder case. Installation tool must
rem ain in position until seal is properly positioned with
both ends flush with block.
10. Remove tool, being careful not to w ithdraw seal.
11. Install seal half in bearing cap, again using tool as a
"shoe-horn", feeding seal into cap using light pressure
with thum b and finger.
12. Install bearing cap to case with sealant applied to the
cap-to-case interface being careful to keep sealant off
the seal split line (fig. 6A 5 -5 1).
13. Install the rear m ain bearing cap (with new seal) and
torque to 10-12 lb. ft. (14-16N -m ). T ap end of crank
shaft first rearw ard then forw ard with lead ham m er.
This will line up thru st surfaces. R etorque bearing cap
to specifications.
DU ST SEAL
6A 5-25
CONNECTING ROD AND PISTON ASSEMBLIES
Removal
1. Remove oil pan, oil pum p and cylinder head as pre
viously outlined.
2. For the cylinder being serviced, turn crankshaft until
piston is at the bottom of the stroke. Place a cloth on top
of the piston.
3. Use a ridge ream er to remove any ridge an d /o r deposits
from the upper end of the cylinder bore.
4. Turn crankshaft until piston is at top of stroke and
remove cloth and cuttings.
5. Remove connecting rod cap and install Tool J-5329 (3/
8 " ) on studs. Push connecting rod and piston assembly
out of top of cylinder block. It will be necessary to turn
the c ra n k sh aft slightly to disconnect some of the
connecting rod and piston assemblies and push them
out of the cylinder.
Disassembly
1. Remove connecting rod bearings from connecting rods
and caps. If bearings are being reused, place them in a
rack so they may be reinstalled in their original rod and
cap.
2. Remove piston rings by expanding and sliding them off
the pistons.
3. Place connecting rod and piston assem bly on Tool
J-24086-20. U sing an arb o r press and piston pin
remover, J-24086-8, press the piston pin out of connect
ing rod and piston (fig. 6A5-52).
PRESS
-PISTON PIN
REMOVER
J-24086-8
Fig. 6A5-50--Crankshaft Oil Seal - Rear Main
APPLY
SEALANT
TO SHADED
AREAS ONLY
FIXTURE &
SUPPORT
ASSEMBLY
J-24086-20
Fig. 6 A 5 -5 1 -S e a lin g Bearing C ap
Fig. 6A5-52--R em oving Piston Pin
LIGHT TRUCK SERVICE MANUAL
6A 5-26
MARK IV
Cleaning and Inspection
Connecting Rods
PRESS
W ash connecting rods in cleaning solvent and dry with
compressed air. Check for twisted or bent rods and inspect
for nicks or cracks. R eplace connecting rods th a t are
dam aged.
Pistons
C lean varnish from piston skirts and pins w ith a
cleaning solvent. DO N O T W IR E B R U SH A N Y PA R T
O F T H E PIST O N . Clean the ring grooves with a groove
cleaner and m ake sure oil ring holes and slots are clean.
Inspect the piston for cracked ring lands, skirts or pin
bosses, wavy or worn ring lands, scuffed or dam aged skirts,
eroded areas at top of the piston. Replace pistons th at are
dam aged or show signs of excessive wear.
Inspect the grooves for nicks or burrs th at m ight cause
the rings to hang up.
M easure piston skirt (across center line of piston pin)
and check clearance.
PISTON PIN— ^
INSTALLER
J-24086-9
PISTON PIN
Piston Pins
T he piston pin c learan ce is designed to m aintain
adequate clearance under all engine operating conditions.
Because of this, the piston and piston pin are a m atched set
and not serviced separately.
Inspect piston pin bores and piston pins for wear. Piston
pin bores and piston pins m ust be free of varnish or scuffing
when being m easured. The piston pin should be m easured
with a m icrom eter and the piston pin bore should be
measured with a dial bore gage or an inside m icrom eter. If
clearance is in excess of the .001" wear limit, the piston and
piston pin assembly should be replaced.
Fig. 6A5-53--lnstalling Piston Pin
Assembly
1. L ubricate piston pin holes in piston and connecting rod
to facilitate installation of pin.
2. Place connecting rod in piston and hold in place with
piston pin guide and piston pin. Place assembly on
fixture and support assembly.
3. Using piston pin installer, J-24086-9, press the piston
pin into the piston and connecting rod (fig. 6A5-53).
NOTICE: A fter installer hub bottom s on support assem
bly, do not exceed 5000 psi pressure, as this could cause
structural dam age to the tool.
4. Remove piston and connecting rod assembly from tool
and check piston for freedom of movement on piston
pin.
Piston Rings
All compression rings are m arked on the upper side of
the ring. W hen installing compression rings, make sure the
m arked side is tow ard the top of the piston. The top ring is
chrome faced, or treated with molybdenum for m aximum
life.
The oil control rings are of three piece type, consisting
of two segments (rails) and a spacer.
1. Select rings com parable in size to the piston being used.
LIGHT TRUCK SERVICE MANUAL
Fig. 6A5-54--Measuring Ring Gap
2. Slip the compression ring in the cylinder bore; then
press the ring down into the cylinder bore about 1/4"
(6.5m m ) (above ring travel). Be sure ring is square
with cylinder wall.
3. M easure the space or gap between the ends of the ring
with a feeler gage (fig. 6A 5-54).
MARK IV
Fig. 6A5-55--Checking Ring in Groove
6A 5-27
the ring entirely around the groove (fig. 6A5-55) to
make sure th at the ring is free. If binding occurs at any
point, the cause should be determ ined. If binding is
caused by ring groove, correct by dressing with a fine
cut file. If the binding is caused by a distorted ring,
check a new ring.
8. Install piston rings as follows (fig. 6A5-56):
a. Install oil ring spacer in groove.
b. Hold spacer ends butted and install lower steel oil
ring rail with gap properly located.
c. Install upper steel oil ring rail with gap properly
located.
d. Flex the oil ring assembly to make sure ring is free. If
binding occurs at any point the cause should be
determ ined. If binding is caused by ring groove,
correct by dressing groove with a fine cut file. If
binding is caused by a distorted ring, check a new
ring.
e. Install second compression ring expander then ring
with gaps properly located.
f. Install top com pression ring with gap properly
located.
9. Proper clearance of the piston ring in its piston ring
groove is very im portant to provide proper ring action
and reduce wear. Therefore, when fitting new rings, the
clearances between the surfaces of the ring and groove
should be m easured (fig. 6A5-57). (See Specifications).
Installation
C ylinder bores m ust be clean before piston installation.
This may be accomplished with a hot water and detergent
wash or with a light honing as necessary. A fter cleaning, the
bores should be swabbed several times with light engine oil
and a clean dry cloth.
1. Lubricate connecting rod bearings and install in rods
and rod caps.
Fig. 6A5-56--Ring Gap Location
4. If th e gap betw een the ends of th e ring is below
specifications, remove the ring and try another for fit.
5. Fit each compression ring to the cylinder in which it is
going to be used.
6. If the pistons have not been cleaned and inspected as
previously outlined, do so.
7. Slip the outer surface of the top and second com pres
sion ring into the respective piston ring groove and roll
Fig. 6A5-57--Measuring Ring Groove Clearance
LIGHT TRUCK SERVICE MANUAL
6A 5-28
MARK IV
2. Lightly coat pistons, rings and cylinder walls with light
engine oil.
3. W ith bearing caps removed, install Tool J-5329 (3 /8 " )
on connecting rod bolts.
4. Install each connecting rod and piston assembly in its
respective bore. Install with connecting rod bearing
tang slots on side opposite cam shaft. Use Tool J-8037
to compress the rings. G uide the connecting rod into
place on the crankshaft journal with Tool J-6305 (11/
3 2 "). Use a ham m er handle and light blows to install
the piston into the bore. Hold the ring compressor
firmly against the cylinder block until all piston rings
have entered the cylinder bore.
5. Remove Tool J-5329.
6. Install the b earin g caps and to rq u e nuts to
specifications.
Be sure to install new pistons in the cylinders for which
they were fitted, and used pistons in the cylinder from which
they were removed. Each connecting rod and bearing cap
should be m arked, beginning at the front of the engine.
Cylinders 1,3,5 and 7 in the left bank and, 2 4, 6 and 8 in the
right bank. The num bers on the connecting rod and bearing
cap must be on the sam e side when installed in the cylinder
bore. If a connecting rod is ever transposed from one block
or cylinder to another, new bearings should be fitted and the
connecting rod should be num bered to correspond with the
new cylinder num ber.
CYLINDER BLOCK
Cleaning and Inspection
1. W ash cylinder block thoroughly in cleaning solvent and
clean all gasket surfaces.
2. Remove oil gallery plugs and clean all oil passages.
3. Clean and inspect w ater passages in the cylinder block.
4. Inspect the cylinder block for cracks in the cylinder
walls, w ater jacket, valve lifter bores and main bearing
webs.
5. M easure the cylinder walls for taper, out-of-round or
excessive ridge at top of ring travel. This should be done
with a dial indicator. Set the gage so th a t the thrust pin
must be forced in about 1/4" (6.5m m ) to enter gage in
cylinder bore. C enter gage in cylinder and turn dial to
" 0 " . C arefully work gage up and down cylinder to
determ ine taper and turn it to different points around
cylinder wall to determ ine the out-of-round condition.
If cylinders were found to exceed specifications, honing
or boring will be necessary.
Conditioning
The perform ance of the following operation is contin
gent upon engine condition a t tim e of repair.
If the cylinder block inspection indicated th at the block
was suitable for continued use except for out-of-round or
tapered cylinders, they can be conditioned by honing or
boring.
If the cylinders were found to have less than .005"
taper or wear, they can be conditioned with a hone and fitted
with the high limit standard size piston. A cylinder bore of
less then .005 " wear or taper m ay not entirely clean up when
fitted to a high limit piston. If it is desired to entirely clean
up the bore in these cases, it will be necessary to rebore for
LIGHT TRUCK SERVICE MANUAL
an oversize piston. If more than .005" taper or wear, they
should be bored and honed to the sm allest oversize that will
perm it complete resurfacing of all cylinders.
W hen pistons are being fitted and honing is not
necessary, cylinder bores may be cleaned with a hot w ater
and deterg en t wash. A fter cleaning, the cylinder bores
should be swabbed several times with light engine oil and a
clean cloth and then wiped with a clean dry cloth.
Boring
1. Before using any type boring b ar, the top of the
cylinder block should be filed off to remove any dirt or
burrs. This is very im portant. If not checked, the boring
bar may be tilted which would result in the rebored
cylinder wall not being a t rig h t angles to the
crankshaft.
2. The piston to be fitted should be m easured with a
microm eter, m easuring at the center of the piston skirt
and at right angles to the piston pin. The cylinder
should be bored to the same diam eter as the piston and
honed to give the specified clearance.
3. The instructions furnished by the m anufacturer of the
equipm ent being used should be carefully followed.
Honing
1. W hen cylinders are to be honed, follow the hone
m anufacturer’s recom m endations for the use of the
hone and cleaning and lubrication during honing.
2. Occasionally during the honing operation, the cylinder
bore should be thoroughly cleaned and the piston
selected for the individual cylinder checked for correct
fit.
3. W hen finish honing a cylinder bore to fit a piston, the
hone should be moved up and down at a sufficient speed
to obtain very fine uniform surface finish marks, in a
cross-hatch pattern of approxim ately 45° to 65° in
cluded angle. The finish m arks should be clean but not
sharp, free from imbedded particles and torn or folded
metal.
4. Perm anently m ark the piston for the cylinder to which
it has been fitted and proceed to hone cylinders and fit
the rem aining pistons.
NOTICE: H andle th e pistons w ith care and do not
attem pt to force them through the cylinder until the
cylinder has been honed to correct size as this type
piston can be distorted through careless handling.
5. Thoroughly clean the bores with hot w ater and deter
gent. Scrub well with a stiff bristle brush and rinse
thoroughly with hot w ater. It is extrem ely essential that
a good cleaning operation be perform ed. If any of the
abrasive m aterial is allowed to rem ain in the cylinder
bores, it will rapidly wear the new rings and cylinder
bores in addition to the bearings lubricated by the
contam inated oil, the bores should be swabbed and then
wiped with a clean dry cloth. C ylinder should not be
cleaned with kerosene or gasoline. Clean the rem ainder
of the cylinder block to remove the excess m aterial
spread during the honing operation.
Piston Selection
1. C heck U SE D piston to cylinder bore clearance as
follows:
MARK IV
a. M easure th e "C y lin d er Bore D ia m e ter" w ith a
telescope gage |2 - 1/2" (64m m ) from top of cylinder
bore|.
b. M easu re th e "P isto n D ia m e te r" (a t skirt across
center line of piston pin).
c. S u b tract piston diam eter from cylinder bore diam e
ter to determ ine " Piston to Bore C learance ".
d. Locate piston to bore clearance on Piston Selection
C h art and determ ine if piston to bore clearance is in
the acceptable range.
2. If used piston is not acceptable,-determ ine if a new
piston can fit cylinder bore.
3. If cylinder bore m ust be reconditioned, m easure new
piston diam eter (across center line of piston pin) then
hone cylinder bore to correct clearance.
4. M ark the piston to identify the cylinder for which it
was fitted.
OIL FILTER BYPASS VALVE
Inspection and Replacement
W ith the oil filter removed, check the spring and fibre
valve for operation. Inspect for a cracked or broken valve. If
replacem ent is necessary, the oil filter adapter and bypass
valve assembly must be replaced as an assembly. Clean
valve cham ber in cylinder block thoroughly. Torque retain
ing screws to specifications.
ENGINE ASSEMBLY
Removal
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
Remove hood.
Disconnect battery cables at battery.
Remove air cleaner.
D rain radiator and block.
D isconnect ra d ia to r and h eater hoses and remove
radiator and fan shroud.
Disconnect wires at:
• S ta rte r Solenoid
• G enerator
• T R C Speed Switch
• T R C Solenoid
• T em perature switch
• Oil Pressure Switch
• D istributor
Disconnect:
• A ccelerator linkage a t inlet manifold.
• Fuel line, from tank, at fuel pump.
• Hoses at fuel vapor storage canister (if applicable).
• Vacuum line to power brake unit a t manifold, if so
equipped.
Remove power steering pump and A /C compressor and
lay aside, if so equipped.
Raise vehicle on hoist.
D rain crankcase.
D isconnect exhaust pipe at m anifold and, if so
equipped, converter b rack et a t transm ission rear
m ount.
Remove starter.
6A 5-29
13. Remove flywheel splash shield or converter housing
cover as applicable.
14. On vehicles with au to m atic transm ission, remove
converter to flywheel attaching bolt.
15. Remove m ount "th ro u g h " bolts.
16. Remove bell housing bolts.
17. Lower vehicle on hoist.
18. Raise transm ission using floor jack.
19. A ttach engine lifting devices, raise engine.
20. Remove motor m ount to engine brackets.
21. Remove engine assembly.
Installation
1. Position engine assembly in vehicle.
2. A ttach motor m ount to engine brackets and lower
engine in place.
3. Remove engine lifting device.
4. Remove transm ission floor jack.
5. Raise vehicle on hoist.
6. Install
m ount
" th ro u g h "
bolts. T orque
to
specifications.
7. Install bell housing bolts. Torque to specifications.
8. On vehicles w ith au to m atic transm issions, install
converter to flywheel attach in g bolts. T orque to
specifications.
9. Install flywheel splash shield of converter housing cover
as applicable. Torque attaching bolts to specifications.
10. Install starter.
11. C onnect exhaust pipe at m anifold and converter
bracket at transm ission rear mount.
12. Lower vehicle on hoist.
13. Reinstall power steering pum p and A /C compressor, if
so equipped.
14. Connect:
• A ccelerator linkage at inlet manifold.
• Fuel line, from tank, at fuel pump.
• Hoses at fuel vapor storage canister.
• Vacuum line to power brake unit at manifold, if
equipped.
15. Connect wires at:
• S tarter Solenoid
• G enerator
• ?T R C Speed Switch
• T R C Solenoid
• T em perature Switch
• Oil Pressure Switch
• D istribotor
16. Install radiator and fanshroud and reconnect radiator
and heater hoses.
17. Fill cooling system.
18. Fill crankcase w ith oil. See Section OB for
specifications.
19. Install air cleaner.
20. Install hood.
21. Connect battery cables.
NOTICE: To avoid possible arcing of battery, connect
positive battery cable first.
LIGHT TRUCK SERVICE MANUAL
6A 5-30
MARK IV
22. S ta rt engine, check for leaks and check timing.
CRANKSAHFT
APPLY
SEALANT
TO SHADED
AREAS ONLY
The crankshaft can be removed while the engine is
disassembled for overhaul, as previously outlined or without
complete disassem bly as outlined below.
Removal
1. W ith the engine removed from the vehicle and the
transm ission an d /o r clutch housing removed from the
engine, m ount engine in stand and clam p securely.
2. Remove the oil dip stick and oil dip stick tube, (if
applicable).
3. Rem ove the sta rtin g m otor, clutch assem bly (if
equipped) and flywheel.
4. Remove the spark plugs.
5. Remove crankshaft pulley and torsional dam per.
6. Remove oil pan and oil pump.
7. Remove crankcase front cover, and if so equipped,
remove tim ing chain and cam shaft sprocket.
8. Check the connecting rod caps for cylinder num ber
identification. If necessary, m ark them.
9. Remove the connecting rod caps and push the pistons to
top of bores.
10. Remove m ain bearing caps and lift crankshaft out of
cylinder block.
11. Remove rear main bearing oil seal and m ain bearings
from cylinder block and main bearing caps.
Fig. 6A5-58--Sealing Bearing Cap
2.
3.
4.
5.
Cleaning and Inspection
1. W ash crankshaft in solvent and dry with compressed
air.
2. M easure dim ensions of m ain bearing jo u rn als and
crankpins with a m icrom eter for out-of-round, taper or
undersize. (See Specifications.)
3. Check crankshaft for run-out by supporting at the front
and rear m ain bearings journals in "V " blocks and
check a t the front and rear interm ediate journals with a
dial indicator. (See Specifications.)
4. R eplace or recondition the cra n k sh a ft if out of
specifications.
6.
7.
8.
SPROCKET OR GEAR REPLACEMENT
Remove crankshaft sprocket using Tool J 1619, install
using Tool J -2 1058.
Installation
1. Install rear m ain bearing oil seal in cylinder block and
rear main bearing cap grooves. Install with lip of seal
LIGHT TRUCK SERVICE MANUAL
9.
tow ard front of engine. W here seal has two lips install
lip with helix towards front of engine.
Lubricate lips of seal with engine oil. Keep oil off
parting line surface.
Install m ain bearings in cylinder block and m ain
bearing caps then lubricate bearing surface with engine
oil.
Install crankshaft, being careful not to dam age bearing
surfaces.
Apply a thin coat of brush-on type oil sealing com
pound to block m ating su rface and corresponding
surface of cap only (fig. 6A 5-58). Do not allow sealant
on crankshaft or seal.
Install main bearing caps with arrows pointing toward
front of engine.
T orque all except rea r m ain bearing cap bolts to
specifications. Torque rear m ain bearing cap bolts to
10-12 lbs. ft. (14-16 N-m) then tap end of crankshaft,
first rearw ard then forward with a lead ham m er. This
will line up rear main bearing and crankshaft thrust
surfaces. R etorque all m ain bearing cap bolts to
specifications.
M easure crankshaft end play with a feeler gage. Force
crankshaft forward and m easure clearance between the
front of the rear main bearing and the crankshaft
thrust surface.
Install flywheel and torque to specifications. A wood
block placed between the crankshaft and cylinder block
will prevent crankshaft from rotating.
• Align dowel hole in flywheel with dowel hole in
crankshaft. On vehicles equipped with autom atic
transm issions, install flywheel w ith th e converter
attaching pads towards transm ission.
G ENERAL DATA:
LE8
PISTON PIN
.9895-.9898
D IA M E T E R
90° V -8 G A S O L I N E
TYPE
PRODUCTION
DISPLACE MENT
LITRE (*)
7.4 (W)
.000 25-.0003 5
CLEARANCE
SERVICE
RPO
LE8
BORE
4.250
STROKE
4 .0 0 0
COMPRESSION RA TIO
8.5:1
F IR IN G ORDER
1-8-4-3-6-5-7-2
DIAM ET ER
SERVICE
.002 M A X .
O
D
C
0
1
.001 M A X .
TAPER
PF
TION
D IA M E T E R
THRUST
SIDE
RELIEF
SIDE
TAPER
SERVICE
OUT OF
RO UND
PRODUCTIO N
SERVICE
.001 M A X .
PRODUCTIO N
.0 002 M A X .
SERVICE
.001 M A X .
# 1 -2 -3 -4
M AIN
BEARING
CLEARANCE
#■5 .0 0 2 4 .0 0 4 0
SERVICE
C R A N K S H A F T END P L A Y
PRODUCTION
.0 0 3 0 -.0 0 4 0
SERVICE
.0050 M A X .
.001 3 -.0 0 2 5
PRODUCTION
.001 M A X .
P IS T O N :
2 .7 4 7 6 -2 .7 4 8 6
.0 0 0 2 M A X .
.0005 M A X .
.001 M A X .
IN T E R F E R E N C E
# 1 -2 -3 -4 2 .7 4 8 1 -2 .7 4 9 0
#5
4.2495-4.2525
PRODUCTION
.0 0 1 3 -.0 0 2 1
CRANKSHAFT
M AIN
J O URNAL
C Y L IN D E R BORE:
OUT OF
ROUND
FIT IN ROD
.001 M A X .
D IA M E T E R
CLEARANC E
n .
m
.
.0 0 1 4 .0 0 2 5
+U-
'*0
.006-.010
2.20 00-2.199 0
PRODUCTION
.0 0 0 5
SERVICE
.001 M A X .
PRO DUCTION
.000 5
SERVICE
.001 M A X .
TAPER
CRANKPIN
P IS T O N R I N G :
c
o
M
p
R
PRODUC
TION
O
1
L
TOP
.0017-.0032
2ND
.0017-.0032
SERVICE
GAP
PRODU C
T IO N
2 O
S
S
1
GROOVE
CLEAR
ANCE
TOP
.010 - . 0 2 0
2ND
.010 - . 0 2 0
SERVICE
GROOVE
CLEAR
ANCE
HI L I M I T P R O D U C T I O N +.001
PRODUCTION
SERVICE
HI L I M I T P R O D U C T I O N + .01 0
.0 0 5 - . 0 0 6 5
HI L I M I T P R O D U C T I O N +.001
PRODU CTION
.0 1 5 -.0 5 5
SERVICE
HI L I M I T P R O D U C T I O N + .01 0
GAP
* VIN D e sig n a tio n
OUT OF
ROUND
ROD BEARING
CLEARANCE
PRO DUCTION
SERVICE
ROD SIDE CLEARANCE
.0 0 0 9 -0 0 2 5
.0030 M A X .
.0 1 3 -.0 2 3
CAMSHAFT
LOBE L IF T
± .002
IN T A K E
.2 343
E X HAUST
.2530
J O URNAL D IA M E T E R
1 .9 4 8 2 -1 .9 4 9 2
.0 0 2 5 .0 0 3 5
V A L V E SYSTEM
LE8
L IF T E R
H Y D R A U L IC
ROCKER A R M R A T IO
1.70:1
VALVE
LASH
8 0 LB . IN.
80 LB. IN.
EXHAUST
FROM ZERO LASH
O I L P A N ( T O F R O N T C O V E R ) .....................
55 LB . IN.
O I L P U M P C O V E R ...........................................
80 LB . IN .
45°
46°
.002 M AX.
C O V E R ....................................
50 LB . IN.
C A M S H A F T S P R O C K E T .................................
ROCKER ARM
20 LB . FT.
O I L P A N T O C R A N K C A S E ( 5 / 1 6 - 1 8 ) ............ 13 5 LB . IN.
C L U T C H P R E S S U R E P L A T E ..........................
30 LB . FT.
D I S T R I B U T O R C L A M P ....................................
25 L B . FT.
F L Y W H E E L H O U S I N G ....................................
3 0 LB . FT.
IN TA K E
1 /3 2 -1 /1 6
EXHAUST
1 /1 6 -3 /3 2
M A N IF O L D
( E X H A U S T ) .................................
20 LB . FT.
IN T .
.0010-.0027
M A N IF O L D
( I N L E T ) ........................................
30 LB . F T.
EXH.
.001 2-’. 0029
W A T E R O U T L E T .............................................
30 LB . FT.
W A T E R P U M P ..................................................
30 LB. FT.
P R O D U C T IO N
S E R V IC E
HI L IM IT + .001 IN . + .0 0 2 E X .
C O N N E C T IN G
R O D C A P ...............................
50 LB. FT.
H E A D ...........................................
8 0 LB . FT.
O I L P U M P .........................................................
6 5 LB . FT.
C Y L IN D E R
FREE L E N G T H
SPRING
(OUTER)
80 LB . IN.
O I L F I L T E R B Y P A S S V A L V E ........................
SE A T R U N O U T
VALVE
F R O N T C O V E R ........................
F L Y W H E E L H O U S I N G C O V E R .....................
ONE TURN DOWN
SE AT A N G L E ( IN T . & EX H .)
STEM
CLEARANCE
CRANKCASE
IN T A K E
FACE A N G L E ( IN T . & E X H .)
SE AT
W ID T H
TORQUE SPECIFICATIONS
PRESSURE
LBS. @ IN.
2.12
CLOSED
8 4 -9 6 @ 1.80
OPEN
2 1 0 -2 3 0 @1.40
IN S T A L L E D H E I G H T
± 1/32"
1-51/64
FREE L E N G T H
1.86
APPROX. # O F COILS
4
DAM PE R
R O C K E R A R M S T U D ......................................
5 0 LB . FT.
FLYW HEEL
6 5 LB . FT.
M A IN
....................................................
B E A R I N G C A P ...................................... 110 LB . FT.
T E M P E R A T U R E S E N D I N G U N I T ...................
20 LB . FT.
T O R S I O N A L D A M P E R ....................................
8 5 LB . FT.
O I L F I L T E R ............................................. ..
25 LB . FT.
O IL PA N D R A IN
20 LB . F T.
SPA R K PLUG
PLUG
.................................
................................................17-27 LB . FT.
V8-D IE SE L
6A6-1
Oil P a n ............................................................................
Oil P um p........................................................................
Connecting Rod and P is to n ......................................
Rod B earings................................................................
Rod Assem bly...............................................................
P isto n ..............................................................................
Rod and P isto n .............................................................
Piston P in s .....................................................................
C rankshaft Pulley........................................................
B alancer.........................................................................
Front C o v e r...................................................................
Oil S e a l...........................................................................
Timing Chain and G ears............................................
C am shaft, Injection Pum p Drive and Driven
Gears
. . '. . . .............................................................
C am shaft and Injection Pum p Driven G ear
B earings............................................................................
U N IT R E P A IR ..............................................................
E ng ine.............................................................................
C ra n k sh a ft.....................................................................
M ain B earings..............................................................
M ain Bearing Upper Oil S e a l..................................
R ear M ain Bering Lower Oil S e a l.........................
Flex P la te .......................................................................
Engine Oil Dipstick and G u id e s..............................
Specifications...................................................................
6A6-26
6A6-26
6A6-27
6A6-27
6A6-28
6A6-28
6A6-30
6A6-31
6A6-32
6A6-32
6A6-32
6A6-34
6A6-34
SECTION 6A6
5.7 L (N) 350 Diesel
Contents
G eneral D escription.......................................................
On Vehicle Service........................................................
Injection P u m p .............................................................
T hrottle Shaft Seal R ep lacem ent............................
Oil Filter B ase..............................................................
Engine M ounting.........................................................
Exhaust M anifolds......................................................
Checking or A djusting T im in g ................................
Compression T e s t........................................................
Linkage A d justm en ts.................................................
Transmission Vacuum R egulator V alve................
C hecking Injection Pum p Housing Fuel
P re s s u re .........................
Injection Pum p Fuel L ines........................................
Injection Pump and L in e s.........................................
Injection Pum p A dapter and S e a l..........................
Valve C o v e r..................................................................
Intake M anifold............................................................
Rocker Arm Assemblies.............................................
Valve L ifters.................................................................
Injection N o z z le ..........................................................
Cylinder Head and G a s k e t.......................................
Valves and Springs with H ead R em ov ed..............
Valve Guide B o re ........................................................
Replacing Valve Spring (H ead on E ngine)..........
6A6-1
6A6-4
6A6-4
6A6-4
6A6-6
6A6-6
6A6-7
6A6-8
6A6-8
6A6-8
6A6-9
6A6-10
6A6-11
6A6-12
6A6-13
6A6-14
6A6-14
6A6-16
6A6-16
6A6-19
6A6-22
6A6-23
6A6-24
6A6-25
6A6-34
6A6-34
6A6-37
6A6-37
6A6-37
6A6-39
6A6-40
6A6-41
6A6-41
6A6-41
6A6-44
GENERAL DESCRIPTION
ENGINE CONSTRUCTION
spring loaded and calibrated to open at a specified fuel
pressure, and are not adjustable.
T he engine is a 5.7 L iter V-8 four cycle diesel fuel
engine. C ylinder num bers 1, 3, 5 and 7 are on the left bank.
C ylinder num bers 2, 4, 6 and 8 are on the right bank. The
firing order is 1-8-4-3-6-5-7-2. T he m ajor difference
between a gasoline engine and the diesel is in the cylinder
heads, com bustion cham ber, fuel distribution system, air
intake m anifold and m ethod of ignition. The cylinder block,
crankshaft, main bearings, rods, pistons and pins are of a
heavier construction because of the high compression ratio
required to ignite diesel fuel. Diesel ignition occurs because
of h eat developed in the com bustion ch am b er during
compression. This elim inates the need for spark plugs and
high voltage ignition.
Intake and exhaust valves in the cylinder heads operate
the sam e as in a gasoline engine, but are of a special design
and m aterial for diesel operation. The stainless steel pre
cham ber inserts in the cylinder head com bustion cham bers
are serviced separately from the head. W ith the cylinder
head removed they can be pushed out after removing the
glow plugs and injection nozzles. Glow plugs and nozzles are
threaded into the cylinder head. The injection nozzles are
Fi9* 6A6-1--Injection Pump-Cutaway
LIGHT TRUCK SERVICE MANUAL
6A 6-2
V8 - DIESEL
Fig. 6A6-2--Nozzle Cutaway (Exec. Calif.)
Fig. 6A6-4--System Fuel Circuit
injects a m etered am ount of fuel to each cylinder at the
proper time. The eight high pressure delivery pipes from the
pump to the injection nozzle in each cylinder are the same
length to prevent any difference in tim ing, cylinder-tocylinder. The fuel injection pum p provides the required
tim ing advance under all operating conditions. Engine R PM
is controlled by a rotary fuel m etering valve. Pushing down
on the accelerator pedal moves the th rottle cable to open the
m etering valve and allow more fuel to be delivered. The
injection pum p also has a low pressure transfer pum p to
deliver fuel from the fuel line to the high pressure pump.
INLET FITTING
NOZZLE GASKET
NOZZLE BODY
The fuel filter is located between the m echanical fuel
pum p and the injection pump. The diaphragm type m echan
ical fuel pum p is m ounted on the right side of the engine and
driven by a cam on the c ran k sh a ft. The fuel ta n k is
connected by fuel pipes and hoses to the m echanical fuel
pump. Excess fuel returns from the fuel injection pum p to
the fuel tank through pipes and hoses.
Fig. 6A6-2a--Nozzle Cutaway (Calif.)
GOVERNOR
SPRING
HOUSING
PRESSURE
REGULATOR
METER NG VALVE
I k
VENT WIRE
ASSEMBLY
HEAD PRESSURE
TRANSFER PRESSURE
TAP HOIf PLUG
CAM
/
BALL
CHECK
'
ASSEMBLY
^GOVERNOR;
AUTOMATIC ADVANCE
MECHANISM
HQUSW g LUBEI
CHARGING
PASSAGE
FILTER
DELIVERY
TRANSFER PUMP
TRANSFER PUMP PRESSURE CIRCUIT
M
HOUSING PRESSURE CIRCUIT
NOZZLE
E Z 3 INLET PRESSURE AND RETURN OIL CIRCUIT
Fig. 6A6-3--Pump Fuel Circuit
FUEL SYSTEM (Figs. 6A6-1, 2, 2a, 3&4)
The diesel fuel injection pum p is m ounted on top of the
engine. It is gear driven off the cam shaft and turns at
cam shaft speed. It is a high pressure rotary pum p that
LIGHT TRUCK SERVICE MANUAL
The H PC A feature is designed to advance the injection
tim ing about 3° during cold o peration. This circu it is
actuated by a tem perature switch on the right rear head
bolt. The switch is calibrated to open the circuit at 125°F.
Below the switching point, housing pressure is decreased
from 10 psi to zero which advances the tim ing 3°. Above
125°, the switch opens de-energizing the solenoid and the
housing pressure is returned to 10 psi. T he fast idle solenoid
is energized by the sam e switch. T he switch again closes
when the tem perature falls below 95°F.
PU R PO SE :
FILTER
HIGH PRESSURE DISCHARGE CIRCUIT
■
HOUSING PRESSURE COLD ADVANCE (HPCA) (IF
EQUIPPED)
1. Emission Control device.
2. B etter cold starts.
3. Improves idle and noise when cold.
W hen changing the fuel filter or when the car has run
out of fuel, disconnect the connector from the tem pera
ture switch and jum per connector term inals. This will
aid in purging air from the pump. (This procedure is
necessary only on a hot engine, as the circuit will
always be closed when the engine is cold.)
V 8 - DIESEL
HOUSING PRESSURE
COLD ADVANCE TERMINAL
THROTTLE SHAFT
ADVANCE CAM“
PRESSURE TAP
PLUG AND SEAL
FUEL SOLENOID
. TERMI NAL
/ tfS k V ft
GUIDE S T U D - ^ ^ v
PS^TH RO TTLE
SHAFT
PIN
"
ADVANCE CAM
^ ^ A C T U A T I N G ARM
Fig. 6A6-5--lnjection Pump Housing Right Side View
DIESEL FUEL HEATER, OPTION K07 (Fig. 6A6-27)
This cold w eather option consists of an inline diesel fuel
heater and an engine coolant heater.
The diesel fuel heater is a therm ostatically controlled
electrical resistance type heater designed to heat the fuel
before it enters the engine m ounted fuel filter to reduce the
possibility of wax plugging the filter when the fuel tem pera
ture is 20°F or lower.
Twelve volts are directed to the heater whenever the
ignition is in the run position. The heater consists of a strip
spiral wound around the fuel pipe. A bim etal therm al switch
senses the fuel tem perature and closes and electrical circuit
when the fuel tem perature is about 20°F. The circuit opens
at 50°F.
The fuel tank filter sock has a bypass valve which opens
when the filter is covered w ith wax allowing fuel to flow to
the heater.
ENGINE LUBRICATION SYSTEM (Fig. 6A6-6)
The engine oil pan forms a reservoir for engine oil to
provide lubrication and also hydraulic fluid to operate the
valve lifters. Oil pressure for lubrication is furnished by a
gear type oil pum p th at is bolted to the rear m ain bearing
l.
O IL PICK-U P
LIFTER FEED
3. ROCKER ARM
VALVE TIP FEED
4. SPLASH LUBE TO
TIM IN G CHAIN FUEL
PUMP CAM & DIST.
& OIL PUMP DRIVE
LEFT
MAIN GALLERY
5.
FEED
6. CAM BEARING FEED
7. M A IN BEARING FEED
ROD BEARING FEED
9. INJECTION PUMP
DRIVE BEARING FEED
z
RIGHT MAIN
GALLERY
VACUUM PUMP
AND OIL PUMP DRIVE
6A 6-3
cap and driven by the cam shaft gear through a hexagonal
drive shaft.
Oil enters the pum p through a screened inlet located
near the bottom rear of the oil pan. The pressurized oil from
the pum p passes through the oil filter located on the right
rear side of the engine block. The oil filter base has a by-pass
valve which, in the event of filter restriction, will open at 5.5
to 6.5 psi (38 to 45 kPa). Engine oil is directed to the oil
cooler, located in the radiator, then from the cooler to the
filter base. The oil then is directed back to the engine oil
galleries. A by-pass valve in the filter base allows continuous
oil flow to the engine in case of cooler line or cooler
restriction. This by-pass valve opens at about 12 psi (83
k P a). Oil then enters th e rig h t oil gallery w here it is
distributed to the five m ain bearings. The right bank valve
lifters receive oil from this gallery from eight feed holes th at
intersect the gallery.
The five cam shaft bearings are lubricated from vertical
passages intersecting the main bearing oil passages. A t the
front m ain bearing a third passage connects the right main
oil gallery to the left gallery which then feeds the left bank
of valve lifters.
The injection pum p driven gear is lubricated by oil
directed th ro u g h a passage from the top of th e front
cam shaft bearing. An angled passage in the shaft portion of
the driven gear then directs the oil to the rear driven gear
bearing.
The engine oil pressure warning light switch is con
nected to the front of the left oil gallery. The switch is
calibrated to turn on the instrum ent panel w arning light
when engine oil pressure is too low. The switch, norm ally
closed, is set to open a t 2-6 psi (14 to 41 kPa). The rear oil
gallery plug has a .040" (1m m ) orifice to help purge
contam inants from the gallery and to lubricate the vacuum
pum p driven gear.
A t the front end of the right gallery, a small orifice
sprays oil to lubricate the fuel pump eccentric cam on the
crankshaft and the tim ing chain.
The vacuum pum p drive gear is lubricated by oil from
the left rear oil gallery.
The rocker arm s and valve tips are lubricated by oil
furnished through the hydraulic lifters and hollow pushrods. A disc valve in the lifter m eters oil to the push rods.
The connecting rod bearings are oiled by constant oil
flow from passages drilled through the crankshaft, connect
ing the main journals to the rod journals. A groove around
each m ain bearing furnishes oil to the drilled crankshaft
passages.
Oil returns to the oil pan reservoir from the rocker arm s
through passages at each end of the cylinder heads. Oil from
the valve lifter co m p artm en t retu rn s th ro u g h clearan ce
holes in the lower portion of the com partm ent near the
cam shaft. The tim ing chain com partm ent drains directly
into the oil pan.
I f FT MAIN
GALLERY
To check engine oil pressure, See Fig. 6A6-7.
a
COOLING
Fig. 6 A 6 -6 -E n g in e Lubrication
Engine cooling is the same as used in gasoline engines
except the radiator tank has two oil coolers. One is con
nected to the transm ission, the other one connects into the
oil filter base.
LIGHT TRUCK SERVICE MANUAL
6A 6-4
V 8 - DIESEL
ignition key is turned to the " R U N " position prior to
starting the engine. They pulse a short tim e after starting,
then autom atically turn off. (The circuit and operation is
covered in detail under the subject-Diesel Electrical.) Two
12-volt batteries connected in parallel are required for the
higher electrical load due to the glow plugs and starter. The
starter is larger and designed to crank the engine a t least the
100 R PM required for starting (240 R PM if engine is hot).
The two batteries, one on each side in the engine com part
ment, provide the required capacity and elim inates the need
for a single double size special battery. A standard genera
tor supplies charging current to both batteries a t the same
time. There are no switches or relays in the charging circuit.
1. ENGINE AT OPERATING TEMPERATURE.
2. TRANSMISSION IN "NEUTRAL" POSITION.
_ ^ 3 . OIL PRESSURE SHOULD BE:
AT SLOW IDLE - 7 PSI MIN.
1500 - 3000 R P M -35 PSI MIN.
\\ \ \
WK
Fig. 6A6-7--Checking Engine Oil Pressure
ENGINE CLEANING
Do not clean the engine until it has cooled down to
surrounding tem perature. Spraying w ater or engine clean
ing fluid on the diesel injection pum p when it is warm or hot
will dam age the pump.
ELECTRICAL
Eight glow plugs are used to heat the pre-cham ber to
aid in starting. They are 6 volt heaters th at pulse when the
ON VEHICLE SERVICE
Reinstall the guide stud with a new washer making
certain th a t the upper extension of the m etering valve
spring rides on top of the guide stud. Torque the guide
stud to 9.5 N-m (85 in. lbs.) O vertorquing the guide
stud may strip the alum inum threads in the housing
(Figs. 6A6-5 and 6A6-8).
INJECTION PUMP ON VEHICLE SERVICE
There are three areas on the injection pum p where
leaks can be corrected w ithout removing the pum p from the
engine. These are cover seal, guide stud seal and throttle
shaft seal.
Pump Cover Seal and/or Guide Stud Seal
Replacement
9. Hold the throttle in the idle position.
10 . Install new pum p cover seal. M ake sure the screws are
not in the cover and position the cover about 1/4 inch
forw ard (tow ard shaft end) and about 1/8 inch above
the pum p (Fig. 6A 6 -10).
1. Disconnect the negative cables from both batteries.
2. Rem ove th e a ir clean er and air crossover. Install
screens J-26996-2 (C alif.) or J-26996-10 (Excl. Calif.)
in the intake m anifold.
3. D isconnect the injection pum p fuel solenoid and
(housing pressure cold advance if equipped) wires and
the fuel return pipe.
4. Clean the injection pum p cover, upper portion of the
pum p and the guide stud area (Fig. 6A 6-5). Place
several rags in engine valley to catch fuel.
11
Move the cover rearw ard and downward into position,
being careful not to cut the seal and reinstall the cover
screws. Be careful not to drop or lose flat washer and
internal lock w asher with each screw. Flat washer must
be against pum p cover. T orque to 3.7 N-m (33 in. lbs.)
12. Reconnect the negative cables to both batteries.
M I N - M A X GOVERNOR
ASSEM BLY
5. Remove injection pum p cover and remove screws from
the cover.
IDLE GOVERNOR
S P R IN G
NOTICE: E x trem e care m ust be exercised to keep
foreign m aterial out of the pum p when the cover is off.
If any objects are dropped into the pump, they m ust be
removed before the engine is started or injection pump
dam age or engine dam age could occur.
ST E PS 6, 7 and 8 A R E FO R G U ID E ST U D SEA L
R EPLA CEM EN T ONLY.
6. Observe position of m etering valve spring over the top
of the guide stud. T his position m ust be exactly
duplicated during reassem bly (Fig. 6A6-8).
7. Remove the guide stud and washer. N ote location of
parts prior to removal.
LIGHT TRUCK SERVICE MANUAL
Fig. 6A 6 -8 -ln je c tio n Pump Cover Removed
V 8 - DIESEL
13. T urn the ignition switch to the run position and touch
the pink solenoid wire to the solenoid. A clicking noise
should be heard as the wire is connected and discon
nected. If this clicking is not observed, the linkage may
be jam m ed in a wide open throttle position and the
engine M U ST N O T be started. If clicking is observed,
connect the pum p solenoid and (housing pressure cold
advance if equipped) wires (Fig. 6A 6-5), then proceed
to step 16.
a. Install tool J-29601 over the throttle shaft with slots
of tool engaging pin. Put the spring clip over the
throttle shaft advance cam and tighten the wing nut.
W ithout loosening the wing nut, pull the tool off the
shaft. (This provides the proper alignm ent on reas
sembly, Fig. 6A6-9).
b. Drive the pin from the throttle shaft and remove the
throttle shaft advance cam and fiber washer. Remove
any burrs from the shaft th at may have resulted from
pin removal (Fig. 6A6-5).
If the injection pump does not have an Advance Cam
A ctuating Arm:
a. Drive the throttle shaft drive pin out of shaft and
remove the throttle retaining ring and fiber washer.
Remove any burrs from the shaft th at may have
resulted from pin removal.
8. Clean the injection pum p cover, upper portion of the
pump, the throttle shaft and the guide stud area.
(Fig. 6A6-5). Place several rags in the engine valley
to catch fuel.
9. Remove injection pum p cover and remove screws
from the cover.
14. Remove the cover. G round the solenoid lead (opposite
the hot lead) and connect the pink wire. W ith the
ignition switch in the run position, the solenoid in the
cover should move the linkage. If not, the solenoid must
be replaced. M inim um voltage across solenoid term i
nals m ust be 12.0.
15. Reinstall the cover and repeat Step 10.
16. R einstall the fuel return pipe and the throttle cable and
return springs.
17. S ta rt the engine and check for leaks.
18. Idle roughness may be observed due to the air in the
pump, give it plenty of tim e to purge which it will do by
allowing the engine to idle. It m ay be necessary to shut
the engine down for several m inutes to allow air bubble
to rise to the top of the pum p where they will be purged.
19. Remove the intake m anifold screens, then reinstall the
air crossover and air cleaner.
10.
Throttle Shaft Seal Replacement
1. Disconnect the negative cables from both batteries.
2. Rem ove the air cleaner and air crossover. Install
screens J-26996-2 (Calif.) or J-2 6 9 9 6 -10 (Exc. Calif.)
in the intake manifold.
11.
12.
3. D isconnect the injection pum p fuel solenoid and
(housing pressure cold advance if equipped) wires and
the fuel return pipe (Fig. 6A6-5).
4. Remove the vacuum regulator valve, the throttle rod
and return springs.
13.
5. Remove the throttle cable bracket.
6. If injection pump is equipped with an Advance Cam
A ctuating Arm:
14.
THROTTLE SHAFT
ADVANCE CAM
.005" CLEARANCE
THROTTLE
SHAFT
PIN
J-29601
15.
16.
17.
ADVANCE CAM
ACTUATING ARM
Fig. 6A6-9--lnjection Pump W ith Tool J-29601
Installed
6A 6-5
18.
19.
NOTICE: E xtrem e care m ust be exercised to keep
foreign m aterial out of the pump when the cover is off.
If any objects are dropped into the pump, they must be
removed before the engine is started or injection pump
dam age or engine dam age could occur.
Observe position at m etering valve spring over the top
of the guide stud. T his position m ust be exactly
duplicated during reassembly. (Fig. 6A6-8).
Remove the guide stud and washer. N ote location of
parts prior to removal. (Fig. 6A6-5)
R otate the m in-m ax governor assembly up to provide
clearance and remove from the throttle shaft. (Fig.
6A6-8). If idle governor spring becomes disengaged
from throttle block, it m ust be reinstalled with tightly
wound coils toward throttle block.
Remove the throttle shaft assembly and exam ine the
shaft for unusual wear or dam age, replace if required.
It may be necessary to loosen the nuts at the injection
pump m ounting flange and rotate the pum p slightly to
allow the throttle shaft assembly to clear the intake
manifold.
E xam ine th e th ro ttle sh aft bushings in the pum p
housing for any evidence of dam age or unusual wear.
Remove the pum p and send to the local Roosa M aster
dealer if bushing replacem ent is necessary.
Remove the throttle shaft seals. Do not attem pt to cut
the seals to remove, as nicks in the seal seat will cause
leakage.
Install new shaft seals using care not to cut the seals on
the sharp edges of the shaft. Apply a light coating of
clean chassis grease on the seals.
C arefully slide the throttle shaft back into the pump to
the point where the m in-m ax governor assembly will
slide back onto the throttle shaft. (Fig. 6A6-8)
R o ta te the m in-m ax governor assem bly dow nw ard,
hold in position and slide the th ro ttle shaft and
governor into position.
Install a new fiber washer, the throttle shaft advance
cam, (do not tighten cam screw at this tim e), and a new
LIGHT TRUCK SERVICE MANUAL
6A 6-6
V8 - DIESEL
throttle shaft drive pin on pumps w ithout actuating
arm install a new throttle shaft retaining ring (Fig.
6A6-5)
20. On pumps with the A dvance C am A ctuating Arm:
a. Align the throttle shaft advance cam so tool J-29601
can be reinstalled over the throttle shaft, pin in the slots
and the spring clip over the advance cam.
b. Put a .005" feeler gage between the cam and the fiber
w asher. T ig h ten th e cam screw and rem ove tool
J-29601.
21. Reinstall the guide stud with a new washer, m aking
certain th at the upper extension of the m etering valve
spring rides on top of the guide stud. Torque the guide
stud to 9.5 N-m (85 in. lbs.) O vertorquing the guide
stud may strip the alum inum threads in the housing
(Figs. 6A6-5 and 6A 6-9)
22. Hold the throttle in the idle position.
23. Install new pum p cover seal. M ake sure the screws are
not in the cover and position the cover about 1/4 inch
forward (tow ard shaft end) and about 1/8 inch above
the pum p (Fig. 6A 6-10).
24. Move the cover rearw ard and downward into position,
being careful not to cut the seal and reinstall the cover
screws. Be careful not to drop and lose flat washer and
internal lock w asher with each screw. Flat washer must
be against pum p cover. Torque to 3.7 N-m (33 in. lbs.).
Install vacuum regulator valve.
25. Reconnect the negative cables to both batteries.
26. T urn the ignition switch to the run position and touch
the pink solenoid wire to the solenoid. A clicking noise
should be heard as the wire is connected and discon
nected. If this clicking is not observed, the linkage may
be jam m ed in a wide open throttle position and the
engine M U S T N O T be started. If clicking is observed,
connect the pum p solenoid and housing pressure cold
advance wires (Fig. 6A 6-5), then proceed to step 30.
27. Remove the cover. G round the solenoid lead opposite
the hot lead and connect th e pink wire. W ith the
ignition switch in the run position, the solenoid in the
cover should move the linkage. If not the solenoid must
be replaced. M inim um voltage across solenoid term i
nals m ust be 12.0.
28. R einstall the cover and repeat Step 27.
29. R einstall throttle cable bracket and throttle rod.
30. R einstall the throttle cable and return springs. M ake
sure the tim ing m ark on the pum p and adapter are
aligned and m ake sure the nuts attaching pump to
adapter are tight. Install fuel return pipe.
31. S ta rt the engine and check for leaks.
32. Idle roughness m ay be observed due to the air in the
pump, give it plenty of tim e to purge which it will do by
allowing the engine to idle. It m ay be necessary to shut
the engine down for several m inutes to allow air bubble
to rise to the top of the pump where they will be purged.
33. A djust vacuum reg u lato r valve. See "V A C U U M
R E G U L A T O R V A LV E A D J U S T M E N T ".
34. Remove the intake m anifold screens, then reinstall the
air crossover and air cleaner.
LIGHT TRUCK SERVICE MANUAL
LONGER
BOLT
GASKET
Fig. 6 A 6 -ll--O il Filter Base
OIL FILTER BASE (Fig. 6A6-11)
Removal
1.
2.
3.
4.
5.
6.
Remove oil cooler lines.
Bend exhaust manifold lock tabs away from bolts.
Hoist vehicle.
Disconnect exhaust system from exhaust manifold.
Remove exhaust manifold.
Remove oil filter base retaining bolts and remove base.
Installation
If a new oil filter elem ent is installed, add one q u art of
oil. Clean sealing surfaces and re-bend manifold bolt lock
tabs. S tart engine, check for leaks and proper oil level.
Torque oil filter base attaching bolts to 35 lbs. ft. (47N -m )
and exhaust manifold bolts to 25 lbs. ft. (34N -m ).
ENGINE MOUNTING
R efer to Fig. 6A6-12.
V 8 - DIESEL
6A 6-7
Fig. 6A6-12--Engine Mounts
EXHAUST MANIFOLD
Removal and Installation (Left Side)
1. Remove air cleaner and install air crossover screened
cover J-26996-1.
2. Remove lower generator bracket.
3. Hoist vehicle.
4. Remove crossover pipe.
5. Lower vehicle.
6. Remove exhaust manifold from above.
To install, reverse removal procedure. R efer to Fig.
6A 6 -13 for proper bolt torque.
Removal and Installation (Right Side)
1. Hoist vehicle.
Fig. 6A6-13--Exhaust Manifold Bolts
2. Remove crossover pipe.
3. Remove exhaust manifold.
To install, reverse removal procedure. See figure 6A613 for proper bolt torque.
LIGHT TRUCK SERVICE MANUAL
6A 6-8
V 8 - DIESEL
COMPRESSION TEST
To determ ine if the valves or rings are the cause of low
com pression, a test should be m ade to determ in e the
cylinder compression pressure.
W hen checking compression, the batteries should be at
or near full charge. The lowest reading cylinder should not
be less than 70% of the highest and no cylinder reading
should be less than 275 p.s.i. (1900 kPa).
1. Remove air cleaner then install air crossover cover
J-26996-1.
2. Disconnect the wire from the fuel solenoid term inal of
the injection pump.
3. Disconnect wires from glow plugs then remove all glow
plugs.
4. Screw the compression gage J-26999 into the glow plug
hole of the cylinder th at is being checked.
5. C rank engine.
This should be done with six "puffs" per cylinder.
• N orm al-Com pression builds up quickly and evenly
to specified compression on each cylinder.
• Piston R ings Leaking-C om pression low on first
stroke tends to build up on following strokes but does
not reach normal.
NOTICE: Do not add oil to any cylinder to compression
test as extensive dam age may result.
LINKAGE ADJUSTMENTS (Figs. 6A6-14, 15 and
16)
Throttle Linkage
1. Check timing, adjust if needed.
CHECKING OR ADJUSTING TIMING
Checking (Fig. 6A6-14, 14a)
For the engine to be properly timed, the m arks on the
top of the injection pum p adapter and the flange of the
injection pump m ust be aligned. The engine m ust be off
when the timing is reset.
Adjusting
If the marks are not aligned, adjustm ent is necessary.
1. Loosen the th re e pum p retain in g nuts w ith tool
J-26987.
2. Align the m ark on the injection pum p with the m arks
on the adapter and tighten nuts. Torque to 35 lbs. ft.
(47N-m ).
• Use a 3/4" open end wrench on the boss at the front
of the injection pum p to aid in rotating the pum p to
align the marks.
3. A djust
th ro ttle
rod
(See
"L IN K A G E
A D JU S T M E N T ").
2. If equipped with cruise control, remove clip from cruise
control throttle rod and disconnect the rod from the
throttle lever assembly.
3. Disconnect the transm ission T.V. (or detent) cable
from the throttle assembly.
4. Loosen the lock nut on the pum p rod and shorten
several turns.
FUEL
ELB0W
SHUT-OFF
SO LE N O ID
(H ID D EN )
SLOW IDLE
A DJU ST M EN T
SCREW
FUEL RETURN
H O U S IN G P R E S S U R E
L IN E CONNECTOR
COLD A D V A N C E
T ER M IN A L
(H ID D EN )
P R E-SET
DO NOT A D J U S T
P R E S S U R E TAP
PLUG & SEA L
THROTTLE
LEVER
Fig. 6A6-15--lnjection Pump Slow Idle Screw
LIGHT TRUCK SERVICE NANUAL
V 8 - DIESEL
6A 6-9
3. Loosen the vacuum regulator valve injection pump
bolts.
4. Install J-2 6 7 0 1-15 carburetor angle gage adapter to the
injection pum p throttle lever. Place angle gage J-2 6 7 0 1
on adapter.
5. R otate throttle lever to the wide open throttle position
and set angle gage to zero degrees. (Fig. 6 A 6 -17).
6. C enter bubble in level.
7. Set angle gage to 58 degrees.
8. R otate throttle lever so level bubble is centered (Fig.
6A6-18).
9. A ttach vacuum source such as J-23738 vacuum pump
to Port A. Install vacuum gage to Port B. Apply 18-22
inches of vacuum to Port A, Fig. 6 A 6 -19.
10. R otate vacuum valve clockwise to obtain 8.5 to 9.0
inches of vacuum.
5. R otate the lever assembly to the full throttle position
and hold in th at position.
6. Lengthen the pum p rod until the injection pum p lever
ju st contacts the full th ro ttle stop.
7. Release the lever assem bly and tighten the pum p rod
lock nut.
8. Remove the pump rod from the lever assembly.
9. Reconnect the transm ission T.V. (or detent) cable.
10. Depress and hold the m edal lock tab on the cable upper
end. Move the slider through the fitting in the direction
away from the lever assem bly until the slider stops
against the m etal fitting.
11. Release the m etal tab, rotate the lever assembly to the
full throttle stop and release the lever assembly.
12. Reconnect the pum p rod (and cruise control throttle
rod, if so equipped).
13. Remove the connector from the fast idle switch a n d
bridge the harness connector with a jum per. Do not
allow the jum per to touch ground.
11. Tighten vacuum valve bolts. Remove vacuum source
and vacuum gage.
12. Install throttle rod to bellcrank.
13. Remove screened covers, then install air crossover.
Vacuum Regulator Valve
Removal
1. Remove the two vacuum hoses from the valve noting
the location of the vacuum hoses.
2. Remove the two (2) attaching bolts.
Installation:
1. Install the valve following the “Vacuum Regulator
Valve Adjustment Procedure.”
2. Attach the two vacuum hoses to the valve. Put the
hose from the vacuum pump to the inboard port and
the hose to the transmission on the outboard port.
14. W ith the driving wheels blocked and the parking brake
on, sta rt the engine and adjust the solenoid (energized)
to th e specification listed on th e Em ission C ontrol
Inform ation Label.
15. Check and adjust the slow idle speed with the engine at
operating tem perature.
To check idle speeds, it will be necessary to insert the
probe of the m agnetic pickup tach, J-26925, in the
tim ing indicator hole.
16. W ith the driving wheels blocked and the parking brake
on, adjust the slow idle screw on the injection pum p to
the specification shown on the emission control label.
17. If equipped with cruise control, adjust the servo throttle
rod to m inim um slack (engine off) then put clip in first
free hole closest to the bellcrank, but within the servo
bail.
Vacuum Regulator Valve Adjustment
1. Rem ove air crossover and in stall screened covers
J-26996-2 (C alif.) or J-26996-10 (Exc. C alif.) on
intake manifold.
2. Remove throttle rod from throttle lever.
Vacuum Adjustment
LIGHT TRUCK SERVICE MANUAL
6 A 6-10
V8 - DIESEL
3. Put the seal from the pressure tap plug on the pressure
tap adapter J-29382, then screw the adapter into the
pump housing.
4. Screw pressure tap adapter J-28526 into pressure tap
adapter J-29382 then attach a low pressure gage to the
adapter.
5. Install m agnetic pick-up tachom eter J-26925.
6. Check the pressure with the engine running at 1000
R PM (P A R K ), parking brak e on, drive wheels
blocked. The pressure should be 8-12 PSI (55-83 kPa)
with not more than 2 PSI (14 kPa) fluctuation.
7. If equipped with H PC A and the pressure is zero, check
the operation of the houing pressure cold advance as
follows:
a. Remove the electrical connector from the housing
pressure cold advance term inal, Fig. 6A6-5. If the
pressure rem ains zero, remove the injection pump
cover and check the operation of advance solenoid. If
it is binding, free up or replace parts as needed.
b. If the pressure becam e norm al with lead off, check
the operation of the te m p e ra tu re switch on the
cylinder head bolt. See "D iesel E lectrical".
8. If the pressure is still incorrect, replace the fuel return
line connector assembly. If the pressure is too high, the
fuel retu rn system m ay be restricted . Remove the
return line at the injection pump. Install a fitting and
short piece of hose to allow the return flow to em pty into
a small container.
9. If th e pressure is lower th an before, correct the
restriction in the fuel line.
10. If still to high, replace the fuel return line connector
assembly.
11. If it rem ains too high, remove the injection pump for
repair.
12. Remove the tachom eter, pressure gage, and adapters.
13. Put a new pressure tap plug screw seal on the pressure
tap plug, then screw in the tap plug.
14. Remove screened covers, then install air crossover.
Fig. 6A6-19--lnstrument Hook Up Points
CHECKING INJECTION PUMP HOUSING FUEL
PRESSURE - ENGINE WARM
1. Rem ove air crossover and install screened covers
J-26996-2 (C alif.) or J-26996-10 (Exc. Calif.).
2. Remove the pressure tap plug (Fig. 6A 6 -15).
LIGHT TRU CK SERVICE MANUAL
V 8 - DIESEL
6A6-11
BREATHER CAP
AND VALVE ASSY.
Removal
All lines may be removed w ithout removing injection
pump. It is not necessary to use a back-up wrench when
removing the lines from pump.
1. Remove air cleaner. (Fig. 6A6-20 and 6A6-21).
2. Remove filters and pipes from valve covers and air
crossover.
3. Remove air crossover (Fig. 6A6-22, 6A6-23) and cap
intake manifold with J-26996-2 (Calif) and J-2699610 (exc. Calif) screened covers.
4. Remove injection pum p line clamps. C ap open lines,
nozzles, and pum p fittings. Use a back-up wrench on
the nozzle upper hex to prevent a fuel leak.
Installation
INJECTION PUMP FUEL LINES (Fig. 6A6-14,14a)
W hen lines are to be removed, clean all line fittings
thoroughly before loosening. Im m ed iately cap all lines,
nozzles and pum p fittings to m aintain cleanliness.
1. In stall new injection pum p line, install loose then
torque both ends. T orque pum p end to 35 lbs. ft.
(47N-m ) and nozzle end to 25 lbs. ft. (34 N-m ). Use a
back-up wrench on the nozzle upper hex to prevent
nozzle dam age. Then install clamps.
• If several lines are to be replaced, sta rt with the
bottom lines.
2. S tart engine and check for fuel leaks.
LIGHT TRUCK SERVICE MANUAL
6A 6-12
V8-D IE SE L
3. Rem ove screened covers from intak e m anifold and
install air crossover.
4. Connect pipes to flow control valve in air crossover and
ventilation filters in the valve covers. (Fig. 6A6-24 and
6A6-25).
5. Install air cleaner.
INJECTION PUMP AND LINES
Removal
1. Remove air cleaner.
2. Remove filters and pipes from valve covers and air
crossover.
3. Remove air crossover and cap intake m anifold with
J-26996-2 (C alif) or J-26996-10 (Exc. Calif.) screened
covers.
4. Disconnect throttle rod and return spring. (Fig. 6A6-16
and 6A6-26).
5. Remove bellcrank.
6. Remove throttle and T.V. cables from intake manifold
brackets. Position cable away from engine.
Fig. 6A6-28--Fuel Return Lines (Exc. Calif.)
20 FT. LBS.
FUEL FILTER
FUEL PUMP TO FILTER PIPE
7. Remove lines to fuel filter, then remove fuel filter (Fig.
6A6-27).
8. Disconnect fuel line at fuel pump. If A /C equipped,
remove rear compressor brace. Remove fuel line.
9. Disconnect the fuel return line from the injection pump
(Fig. 6A6-28).
10. Using two wrenches, disconnect injection pump lines at
the nozzles.
20 FT. LBS.
11. Remove 3 nuts retaining injection pump, using tool
J-26987.
Fig. 6A6-27--Fuel Filter Lines
LIGHT TRUCK SERVICE MANUAL
12. Remove pum p and cap all open lines and nozzles.
V8 - DIESEL
Installation
1. Position engine No. 1 cylinder. Align m ark on balancer
with zero m ark on indicator. R efer to Figure 6A6-29
for position of injection pum p driven gear. (The index is
offset to the right when num ber one is at T.D .C .).
2. Remove protective caps then line up offset tang on
pum p driveshaft with the pum p driven gear and install
pum p, fully seating pum p by hand.
3. In stall 3 nuts and lock w ashers retain in g injection
pum p, do not tighten. Connect injection pump lines at
nozzles, then tighten, using two wrenches. Torque to 25
lbs. ft. (34 N-m).
4. Connect fuel return lines to the injection pump (fig.
6A 6-28).
5. Align m ark on injection pum p with line on adapter and
tighten nuts. Torque to 18 lbs. ft. (24N -m ) (Fig. 6A614).
• Use a 3 /4 " open end wrench on the boss at the front
of the injection pump to aid in rotating the pump to
align the m arks.
6. A d ju st
the
th ro ttle
rod
(see
L IN K A G E
A D JU S T M E N T ).
7. In stall fuel line from fuel pum p to fuel filter. If
equipped with A /C , install rear compressor brace.
8. Install bellcrank and hairpin clip.
9. Install throttle and T.V. cable or detent cable to intake
manifold and attach to bellcrank. A djust T.V. or detent
cable (see L IN K A G E A D JU S T M E N T ).
10. Connect throttle rod and retu rn spring.
11. S ta rt engine and check for fuel leaks.
12. Remove screened covers from intake manifold then
install air crossover.
13. Install tubes in flow control valve in air crossover and
ventilation filters in the valve covers.
14. Install air cleaner.
15. S ta rt engine and let run for one to two minutes.
16. T urn off engine for about two m inutes, then restart.
(This lets air bleed off within the pump.)
6A 6-13
Replacement of Adapater (Fig. 6A6-30, 6A6-31)
1. R efer to "Injection Pum p and Lines" removal for
pump assembly removal.
2. Remove the adapter to block bolts and remove the
adapter.
3. Loosely install the adapter in the block.
4. R efer to "R ep la ce m en t of A d apter S e a l," steps 4
through 7.
5. R efer to "M a rk in g Injection P um p A d a p te r" for
completion.
Marking Injection Pump Adapter (Fig. 6A6-32)
1. File off the original m ark on the adpater. DO N O T file
off the m ark on the pump.
2. Position engine on N o. 1 cylinder. A lign m ark on
balancer with zero m ark on indicator. R efer to Fig.
6A6-29 for position of injection pump driven gear. (The
index is offset to the right when num ber one is at
T.D .C.).
3. Install T im ing Tool, J-26896, into pum p ad a p ter.
Torque tool tow ard cylinder No. 1 to 50 ft. lbs. (68
N -m ). W hile holding torque, m ark injection pum p
adapter. Remove tool.
INJECTION PUMP ADAPTER, ADAPTER SEAL
AND NEW ADAPTER TIMING MARK
Replace of Adapter Seal (Fig. 6A6-30 and 6A5-31)
1. R efer to "Injection Pum p and Lines" removal for
pum p assembly removal.
2. Using probe, pry out the adapter seal w ithout nicking
the adapter.
3. Loosen the adapter to block bolts.
4. Lube the new seal with chassis lube on both the I.D.
and O.D. of the seal.
5. Install the seal using tool J-28425. First install the seal
on the tool, then install the seal into the adapter. (See
Fig. 6A6-30).
6. Remove the tool and inspect to see if the seal is properly
installed.
7. M ake sure the lower adapter to block bolt has a washer,
then torque the adapter bolts to 39 N -m (25 ft. lbs.).
8. R efer to "M ark in g Injection P um p A d a p te r" for
completion.
Fig. 6A6-30--lnstalling Adapter Seal
LIGHT TRUCK SERVICE MANUAL
6A 6-14
V8-D IE SE L
VALVE COVER
Removal
1. R efer to " IN J E C T IO N P U M P A N D L IN E S " for
removal of lines.
2. Remove valve cover to cylinder head attaching screws.
Remove accessory m ounting brackets as necessary and
remove valve cover.
Installation
1. Thoroughly clean the head and valve cover sealing
surfaces. Apply # 1 0 5 2 2 8 9 RTV sealer (or equivalent)
to the valve cover. (Fig. 6A6-33).
2. Install valve cover and screws so they are fully seated
and not stripped. Install any m ounting brackets which
were removed. (Fig. 6A 6-34).
3. Refer to "IN J E C T IO N P U M P A N D L IN E S " for
installation of lines.
INTAKE MANIFOLD
Removal
1. Remove air cleaner assembly.
LIGHT TRUCK SERVICE MANUAL
2. D rain radiator, then disconnect upper radiator hose
and therm ostat bypass hose from w ater outlet. Also
disconnect heater hose and vacuum hose from w ater
control valve.
3. Rem ove b re ath er pipes from valve covers and air
crossover.
4. Remove air crossover and cap intake manifold with
J-26996-2 or J-26996-10 screened covers.
5. Disconnect throttle rod and return spring. If equipped
with cruise control, remove servo.
6. Remove hairpin clip at bellcrank and disconnect cables,
then remove throttle and T.V. or detent cables from
bracket on the intake manifold and position cable away
from engine.
7. Disconnect wiring as necessary.
8. Remove generator an d /o r air conditioning compressor
brackets as necessary.
9. Disconnect fuel line from fuel pum p and fuel filter and
remove fuel filter and bracket.
10. Disconnect lines at nozzles, using a backup wrench on
the nozzles. Remove injection pum p and cap all open
lines and fittings on injection pump, filter and nozzles.
DO NOT BEND INJECTION P U M P LINES.
V 8-D IE SE L
6A 6-15
11. Disconnect fuel return line from injection pump.
12. Disconnect vacuum lines a t vacuum pump and remove
vacuum pump.
INTAKE MANIFOLD
RAIN TUBE
DRAIN TUBE CLAMP
13. Remove drain tube.
14. R em ove in tak e m anifold bolts, then rem ove intake
m anifold. Remove adap ter seal.
15. Remove injection pum p adapter.
16. C lean machined surfaces of cylinder head and intake
manifold with a putty knife. Use care not to gouge or
scratch machines surfaces.
Installation
1. C oat both sides of gasket sealing surface th at seal the
intake manifold to the head with # 1 0 5 0 8 0 5 sealer, or
equivalent, and position intake manifold gasket. (Fig.
6A6-35).
Fig. 6A6-37--lntake Manifold Drain Tube
2. Install end seals, m aking sure th a t ends are positioned
under cylinder heads.
3. Position intake manifold on engine and connect th er
m ostat bypass hose to w ater pump.
ADAPTER
SEAL
ADAPTER
LUBRICATE SEAL TOOL ADAPTER & MANIFOLD
''C
^
Fig. 6A6-38--lnstalling A dapter Seal
VACUUM PUMP
(OIL PUMP DRIVE)
20 FT. LBS:
(27 N-m)
" 0 " RING
(APPLY LUBE TO
0 " RING BEFORE
INSTALLING)
NOTICE: DO NOT OPERATE ENGINE WITHOUT
VACUUM PUMP AS THIS IS THE DRIVE
FOR THE ENGINE OIL PUMP AND ENGINE
DAMAGE WOULD OCCUR.
Fig. 6A6-39--Drive V acuum Pum p
4. Dip intake manifold bolt in engine oil and torque in
sequence shown to 15 lbs. ft. (20 N -m ). T hen re-torque
to 40 lbs. ft. (54 N -m ) (Fig. 6A6-36).
5. Apply RTV sealer on the cone shaped surface of the
drain tube and on the cham fered hole of the intake
LIGHT TRUCK SERVICE MANUAL
6A 6-16
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
V8 - DIESEL
manifold. Apply sealer to the threads of the drain tube
clamp bolt, then install drain tube (Fig. 6A6-37).
Apply chassis lube to seal area on adapter, taper edge
and seal area in intake manifold.
Apply chassis lube to I.D. and O.D. of adapter seal and
to seal installing tool J-28425. Install seal on tool.
Push seal on injection pum p adapter with tool J-28425
(fig. 6A6-38).
Remove tool and inspect to see if properly positioned.
Remove caps from injection pum p lines. Align offset
tang on pum p drive shaft with offset in pum p driven
gear then install injection pump. Connect injection
pum p lines to nozzles. Align m ark on injection pump
with m ark on adapter. Use a 3 /4 " open end wrench on
the boss a t the front of the injection pum p to aid in
rotating the pump to align the marks.
Install fuel filter bracket and filter, then connect fuel
lines.
Connect the fuel return line to the injection pump.
Install vacuum pum p and vacuum lines. (Fig. 6A6-39).
NOTICE: Do not operate engine without vacuum pump
assembly, as this is the drive for the engine oil pump, and
engine damage may result.
Connect wiring.
Install an d /o r connect generator and air conditioning
compressor brackets as necessary.
Install cable in cable bracket and bellcrank, then install
bellcrank to intake manifold. A djust the T.V. or detent
cable (See " Linkage A d ju stm en t").
Connect throttle rod and return spring.
S ta rt engine and check for fuel leaks.
Remove screened covers from intake manifold.
Install air crossover.
Install breather tubes from valve cover filters and flow
control valve at the air crossover.
Connect upper rad iato r hose and heater hose. Connect
vacuum hose to w ater control valve.
Fill cooling system.
ROCKER ARM ASSEMBLIES (Figs. 6A6-40&6A641)
Removal
1.
2.
3.
4.
Remove air cleaner and install screened cover.
Remove high pressure fuel lines to nozzles.
Remove valve cover.
Remove rocker arm flanged bolts, pivots and rocker
arm s. Remove each set (one set per cylinder) as a unit.
Fig. 6A6-41--Removing Rocker Arms
VALVE LIFTERS
Roller hydraulic lifters are used to reduce the am ount
of friction between the valve lifter and the cam shaft lobe.
Guides keep the lifters from rotating on the cam shaft lobes.
Installation
1. Position a set of rocker arm s (for one cylinder) in the
proper location. R efer to "V alve Lifter Bleed Down"
as lifters m ust be bled down as possible valve to piston
interference, due to close tolerances, could exist.
2. Lubricate wear points with # 1 0 5 0 1 6 9 lubricant or
equivalent and install the pivots.
3. Install the hardened flanged bolts and tighten alter
nately. Torque bolts to 25 lbs. ft. (34 N-m).
LIGHT TRUCK SERVICE MANUAL
Operation
Oil is supplied to the lifter through a hole in the side of
the lifter body which indexes with a groove and hole in the
lifter plunger. Oil is then m etered past the oil m etering valve
in the lifter, through the push-rods to the rocker arm s. (Fig.
6A6-42).
W hen the lifter begins to roll up the cam lobe, the check
valve disc is held against its! seat in the plunger by the check
V8-D IE SE L
ENGINE
VALVE CLOSED
6A 6-17
V IE W A
ENGINE
VALVE OPEN
Fig. 6A6-44--Valve Lifter Guide and Retainer
valve disc spring which traps the oil in the base of the lifter
body below the plunger. The plunger and lifter body then
raise as a unit, pushing up the push-rod to open the valve.
The force of the valve spring which is exerted on the plunger
through the rocker arm and push-rod causes a slight am ount
of leakage between the plunger and lifter body. This "leakdow n" allows a slow escape of trapped oil in the base of the
lifter body. As the lifter rides down the other side of the cam
lobe and reaches the base circle or "valve closed" position,
the plunger spring quickly moves the plunger back (up) to
its original position. This movement causes the check valve
disc to open against the check valve disc spring and oil from
within the plunger is draw n into the base of the lifter. This
restores the lifter to zero lash.
The cylinder block will also be m arked if the oversize lifter is
used. (Fig. 6A6-43).
1. Refer to " IN T A K E M A N IF O L D " for removal.
2. Remove valve covers, rocker arm assemblies and pushrods.
3. Remove valve lifter guide retainer bolts (Fig. 6A 6-44).
4. Remove the retainer guides and valve lifters.
Disassembly
1.
2.
3.
4.
Remove the retainer ring with a small screwdriver.
Remove push-rod seat and oil m etering valve.
Remove plunger and plunger spring.
Remove check valve retain e r from plunger, then
remove valve and spring.
Removal
Valve lifters and push-rods should be kept in order so
they can be reinstalled in their original position. The push
rods have a "w ing" at the upper end so the push rod can
only be installed one way. This is necessary as the ball
hardness is not the sam e on both ends. Some engines will
have both standard and .010" oversize valve lifters. The
.010" oversize lifter is etched " 0 " on the side of the lifter.
Cleaning and Inspection
A fter lifters are disassem bled, all p arts should be
cleaned in clean solvent. A small particle of foreign m aterial
under the check valve will cause m alfunctioning of the lifter.
Close inspection should be made for nicks, burrs or scoring
of parts. If either the roller body or plunger is defective,
replace with a new lifter assembly.
Fig. 6 A 6 -4 3 --O .S . Valve Lifter Identification
LIGHT TRUCK SERVICE MANUAL
6A 6-18
V 8 - DIESEL
W henever lifters are removed, check as follows:
1. Roller should rotate freely, but without excessive play.
2. Check for missing or broken needle bearing.
3. Roller should be free of pits or roughness. If present,
check cam sh aft for sim ilar condition. If pits or
roughness are evident, replace lifter and cam shaft.
Assembly
1. C oat all lifter parts with a light coating of clean engine
oil.
2. Assem ble valve disc spring and retainer into plunger.
(Fig. 6A6-45). M ake sure retainer flange is pressed
tight against bottom of recess in plunger.
3. Install plunger spring over check retainer.
4. Hold plunger with spring up and insert into lifter body.
Hold plunger vertically to prevent cocking spring.
5. Install oil m etering valve and push rod seat into lifter
and install retaining ring.
VALVE LIFTER BLEED DOWN
If the intake m anifold has been removed and if any
rocker arm s have been loosened or removed; it will be
necessary to remove those valve lifters, dissassemble, drain
the engine oil then reassem ble the lifters. See "V A LV E
L IF T E R D IS A S S E M B L Y ".
If the intake m anifold has not been removed but rocker
arm s have been loosened or removed, valve lifters can be
bled down by the following procedure:
1. Before installing any removed rocker arm s, rotate the
engine crankshaft to a position of No. 1 cylinder being
32° before top dead cen ter. T his is 13mm ( 1 /2 " )
beyond the end of the tim ing indicator. It may be
necessary to remove No. 1 cylinder’s glow plug to
determ ine if the position of the piston is the correct one.
The compression pressure will tell you th a t you are in
the right position.
2.
3.
4.
5.
6.
7.
NOTICE: Use only hand wrenches to torque the rocker
arm pivot bolt to avoid engine dam age.
If removed, install the N o. 5 cylinder pivot and rocker
arm s. Torque the bolts alternately between the intake
and exhaust valves until the exhaust valve begins to
open, then stop.
Install rem aining rocker arm s but w atch No. 3 intake
and N o. 8 intake valves (if these rocker arm s were
removed) as the pivot bolts are being torque.
Do not torque No. 3 and No. 8 intake valve pivots
beyond the point th a t the valve would be fully open.
This is indicated by strong resistance while still turning
the pivot retaining bolts. Going beyond this would bend
the push rod. T orque the bolts S L O W L Y allowing the
lifter to bleed down.
Finish torquing N o. 5 cylinder rocker arm pivot bolt
SL O W L Y . Do not go beyond the point th a t the valve
would be fully open. T his is in d icated by strong
resistance while still turning the pivot retaining bolts.
Going beyond this would bend the push rod.
DO N O T turn the engine crankshaft for at least 45
minutes.
Finish reassem bling the engine as the lifters are being
bled.
LIGHT TRUCK SERVICE MANUAL
NOTICE: Do not rotate the engine until the valve lifters
have been bled down, or dam age to the engine will
occur.
Valve Lifter Diagnosis
1. M om entarily Noisy W hen Vehicle Is Started:
This condition is normal. Oil drains from the lifters
which are holding the valves open when the engine is
not running. It will take a few seconds for the lifters to
fill after the engine is started.
2. In te rm itte n tly N oisy On Idle O nly, D isappearing
W hen Engine Speed Is Increased:
Interm ittent clicking may be an indication of a pitted
check valve disc, or it may be caused by dirt.
Correction: Clean the lifter and inspect. If check valve
disc is defective, replace lifter.
3. Noisy A t Slow Idle O r W ith H ot Oil, Q uiet W ith Cold
Oil O r As Engine Speed Is Increased:
Leak check the suspected lifters and replace any lifters
th at do not meet specifications.
4. Noisy A t High C ar Speeds A nd Q uiet A t Low Speeds:
a. High oil level-Oil level above the " F u ll" m ark allows
crankshaft counterw eights to churn the oil into foam.
W hen foam is pumped into the lifters, they will
become noisy since a solid colum n of oil is required
for proper operation.
Correction: D rain oil until proper level is obtained.
See P E R IO D IC M A IN T E N A N C E Section.
b. Low oil level - Oil level below the "A d d " m ark
allows air to the pump at high speeds which results in
noisy lifters.
Correction: Fill until proper oil level is obtained. See
P E R IO D IC M A IN T E N A N C E Section.
c. Oil pan bent on bottom or pump screen cocked,
replace or repair as necessary.
5. Noisy A t Idle Becoming Louder As Engine Speed Is
Increased To 1500 rpm:
This noise is not connected with lifter m alfunction. It
becomes most noticeable in the vehicle at 10 to 15 mph
(16 to 24 k m /h ) " L " range, or 30 to 35 mph (48 to 56
km /h) "D " range and is best described as a hashy
sound. A t slow idle, it may be entirely gone or appear as
Fig. 6A6-46--C hecking Valve Spring
V 8 - DIESEL
a light ticking noise in one or more valves. It is caused
by one or m ore of the following:
a. Badly worn or scuffed valve tip and rocker arm pad.
b. Excessive valve stem to guide clearance.
6 A 6-19
possible valve to piston in terference, due to close
tolerances, could exist.
2. Install lifters and push-rods into original position in
cylinder block. See note under Removal.
c. Excessive valve seat runout.
3. Install manifold gaskets and manifold.
d. Off square valve spring.
e. Excessive valve face runout.
4. Position rocker arm s, pivots and bolts on cylinder head
as shown in Fig. 6A6-40.
f. Valve spring dam per clicking on rotator.
5. Install valve covers.
To check valve spring and valve guide clearance,
remove the valve covers:
a. Occasionally this noise can be elim inated by rotating
the valve spring and valve. C rank engine until noisy
valve is off its seat. R otate spring. This will also
rotate valve. R epeat until valve becomes quiet. If
correction is obtained, check for an off square valve
spring. If spring is off square m ore th an 1 /1 6 "
(1.6m m ) in free position, replace spring. (Fig. 6A646).
b. C heck for excessive valve stem to guide clearance. If
necessary, correct as required.
6. Valves N oisy R egardless O f E ngine Speed: This
condition can be caused by foreign particles or exces
sive valve lash.
Check for valve lash by turning engine so the piston in
th a t cylinder is on top dead center of firing stroke. If
valve lash is present, the push-rod can be freely moved
up and down a certain am ount with rocker arm held
against valve. If OK, clean suspected valve lifters.
Valve lash indicates one of the following:
6. Install intake m anifold assembly.
GLOW PLUG
A burned out FA ST G LO W glow plug tip may bulge
then break off and drop into the pre-cham ber when the glow
plug is removed. W hen this occurs, the cylinder head must
be removed and the pre-cham ber removed from the head to
remove the broken tip.
DIESEL INJECTION NOZZLE TESTING
W hen a m alfunction occurs where the injection nozzles
are suspected as the cause, they may be tested as follows:
a. W orn push-rod.
b. W orn rocker arm .
c. L ifter plunger stuck in down position due to dirt or
carbon.
d. Defective lifter.
Checking of the above four items:
1. Look at the upper end of push-rod. Excessive wear of
the spherical surface indicates one of the following
conditions.
a. Im proper hardness of the push-rod ball. T he pushrod and rocker arm m ust be replaced.
b. Im proper lubrication of the push-rod. The push-rod
and rocker arm m ust be replaced. The oiling system
to the push-rod should be checked.
2. If push-rod appears in good condition and has been
properly lubricated, replace rocker arm and recheck
valve lash.
3. If valve lash exists and push-rod and rocker arm are
okay, trouble is in the lifter. L ifter should be replaced.
Installation
C oat the roller and bearings of lifter with # 1052365
lubricant or equivalent.
P rim e new lifters by w orking lifter plunger while
subm erged in new kerosene or diesel fuel. Lifter could be
dam aged if dry when starting engine
1. W hen a rocker arm is loosened or removed, valve lifter
bleed down is required. R efer to "V A L V E L IF T E R
B L E E D D O W N ". L ifters m ust be bled down as
LIGHT TRUCK SERVICE MANUAL
6A 6-20
V 8 - DIESEL
Test Preparation
To ensure correct preparation of the nozzle for testing,
the following procedure should be performed.
1. Clean the carbon from the tip of the nozzles with a
brass wire brush. Do not use motorzed brush or a steel
wire brush as they could dam age the nozzle tip.
Diesel fuel should never be used as a test fluid. It is
recom m ended th at SA E J967D or equivalent be used.
M ake sure th at the tester reservoir has a sufficient
am ount of fluid to complete test.
A t this point the proper connecting adapter to be used
from th e nozzle to the te ste r should be selected
(adapters are available from the tester m anufacturer).
Connect the nozzle to the tester (available tool) with
the tip pointing down.
Testing Procedure
12 FT. LBS.
(16 N-m)
25 FT. LBS.
(34 N-m)
NOZZLE
(TORQUE MUST BE
APPLIED TO LARGEST
NOZZLE HEX)
Fig. 6A6-48a~lnjection Nozzle Installation
Injection Nozzle Removal (With Lines Removed)
Roosa-Master
Removal
1. Remove the fuel retu rn line clam ps from all nozzles on
the bank where a nozzle is to be removed then remove
th a t fuel return line.
2. Remove nozzle spring clam p and spacer; then remove
nozzle using tool J-29082.
3. Cap the nozzle inlet line and the tip of the nozzle.
Installation
1. If a nozzle is to be reinstalled after removal, a new
compression seal and carbon stop seal m ust be installed
after removal of the used seals. See Figure 6A6-47 for
seal installation.
2. Remove protective caps then install injection nozzle
and spring clam p and spacer. T orque bolt to 25 lb. ft.
(34 N -m ) (Fig. 6A 6-48).
3. Install fuel return line.
4. Start engine and check for leaks.
LIGHT TRUCK SERVICE MANUAL
CAUTION:When testing nozzles, do not place your
hands or arms near the tip of the nozzle. The high
pressure atomized fuel spray from a nozzle has
sufficient penetrating power to puncture flesh and
may result in blood poisonging and/or damaged
tissue. The nozzle tip should always be enclosed in
a receptacle, preferably transparent, to contain
the spray.
To test the perform ance of the nozzle, the following
items should be checked as described.
1. Opening pressure test
Close the pressure gage valve and flush the nozzle by
operating the test pump rapidly. Open the gage valve
and raise the pressure slowly until the nozzle opens.
(The gage reading will drop sharply at this point.) The
nozzle opening pressure will be the m axim um gage
pressure observed and should be within the following
limit: 1750 PSI to 1900 PSI.
2. Spray pattern test
Close the pressure gage valve. O perate the tester at
approxim ately 30 strokes per m inute (one strke every
two seconds) and observe spray pattern.
CAUTION:Test fuel spray is flam mable. Keep
vapor aw ay from open flames or personal injury
could result.
When testing nozzles, do not place your hands or
arms near the tip of the nozzle. The high pressure
atomized fuel spray from a nozzle has sufficient
penetrating power to puncture flesh and destroy
tissue and may result in blood poisoning. The
nozzle tip should always be enclosed in a recepta
cle, preferably transparent, to contain the spray.
The nozzle should have a finely atom ized cloud-like
pattern. The pattern should not be streaky with tester
fluid. Refer to Figure 6A6-49.
3. Seat tightness test
W ith the nozzle top pointed downward and the gage
valve closed, operate the tester rapidly to firmly seat the
valve. Dry the nozzle tip thoroughly. Open the gage
valve and raise the pressure to 1300-1400 P S I/ W hile
holding this pressure, a drop of tester fluid should not
form on the tip within ten seconds.
Slight dam pness, however, is perm issable with a used
nozzle.
V8-D IE SE L
4. C h atter Test
W ith gage valve closed, the nozzle should ch atter when
the tester is operated rapidly. C h atter is rapid opening
and closing of the nozzle valve while fuel is being
pumped through the nozzle. This checks the nozzle
under extrem e load conditions.
C h atter should be audible and can also be felt in the
handle of the tester. C h atter does not occur in the
engine. It is an indication of valve freedom. C h atter
action is generally also an indication of proper seat
width and interference angle.
5. R eturn Fuel Test
Loosen connector nuts and reposition nozzle tip slightly
above horizontal plane, as shown in Figure 6A6-49.
R e-tighten connector nuts and raise pressure to 1500
PSI. N ozzle should not open. Observe fluid from nozzle
return. A fter the first drop forms on return fuel end of
nozzle, there should be 3 to 10 more drops in 30 seconds
while m aintaining 1500 O SI.
If a nozzle fails to m eet any of th e specifications
described in the five tests above, it should be serviced by
R oosa-M aster.
6A6-21
Injection Nozzle Removal (With Lines Removed)
Lucas/D.E.D.
Removal
W hen lines are removed use back-up wrench on upper
injection nozzle hex.
1. Remove nozzle by applying torque to the largest nozzle
hex (Fig. 6A 6-47a).
NOTICE: Always cap the nozzle and lines to prevent
dam age or contam ination.
2. Remove copper nozzle gasket from the cylinder head if
the gasket did not rem ain on the nozzle.
Cleaning Inspection and Testing
The most im portant checks on nozzles are seat tig h t
ness and opening pressure. W hen a nozzle passes these tests,
the spray pattern with the nozzle in the engine is nearly
always satisfactory.
1. Check the torque of the inlet fitting to nozzle body (Fig.
6A6-47).
2. Clean the carbon from the tip of the nozzle with a soft
brass wire brush.
3. Assemble nozzle to tester.
a. Use SA E J967D calibrating oil at room tem perature,
approxim ately 70°F (20°C).
CAUTION:Do not use diesel fuel. Diesel fuel is
unstable with respect to corrosion inhibition and
may cause skin problems.
b. Use a connecting line from the nozzle to the tester
12" long by 1 /4 " O .D .b y 1/16" I.D.
c. Refer to the equipm ent m anufacturers instructions
for exact test procedures.
4. T E ST S P E C IF IC A T IO N S
a. O P E N IN G P R E S S U R E - The pressure control
valve should be slightly opened and the handle of the
test equipm ent operated at a slow rate (between
three and six seconds for one full stroke) to deter
mine the actual opening pressure of the nozzle. The
minimum opening pressure is 870 P.S.I. (6000 kPa).
b. SPR A Y P A T T E R N
NOTICE: Close the pressure gage for this test or the
gage could be dam aged.
CAUTION:Test fuel spray is fam m able. Keep
vapor away from open flames or personal injury
could result.
CAUTION:When testing nozzles, do not place your
hands or arms near the tip of the nozzle. The high
pressure atomized fuel spray from a nozzle has
sufficient penetrating power to puncture flesh and
destroy tissue and may result in blood poisoning.
The nozzle tip should always be enclosed in a
receptacle, preferably transparent, to contain the
spray.
Fig. 6 A 6 -4 9 --N o zzle Testing
1. O perate the handle of the test equipm ent at a rate
of thirty strokes per m inute.
2. The spray pattern should be atom ized near the tip.
Any solid column of fuel or small droplets forming
near the tip m ake the pattern unacceptable.
LIGHT TRUCK SERVICE MANUAL
6A 6-22
V 8 - DIESEL
c. SE A T T IG H T N E S S -- Slightly open the pressure
gage for this test the line pressure should first be
allow ed to fall to a t least 290 P S I (2000 kP a)
B ELO W the actual opening pressure (Step 4a). Dry
the nozzle tip then increase the line pressure to 218
PSI (1500 kPa) B ELO W the actual opening pres
sure (S tep 4 a). M a in ta in this p ressure for five
seconds. A fter 5 seconds, patterns 1, 2 and 3 are
acceptable, patterns 4 and 5 are not acceptable (Fig.
6A 6-49a).
CYLINDER HEAD AND GASKET
Removal
1. Rem ove intake m anifold. See " IN T A K E M A N I
FO LD " for removal.
2. Remove valve cover. Loosen or remove any accessory
brackets which interfere.
3. Disconnect glow plug wiring.
4. Remove ground strap from right cylinder head.
Installation (Fig. 48a)
1. Remove protective caps from nozzle (If installed after
testing).
2. M ake sure copper nozzle gasket is installed on the
nozzle.
3. Install the nozzle and torque to 25 ft. lbs. (34 N-m ).
Torque m ust be applied to the largest nozzle hex.
4. A ttach the lines using a back-up wrench on the upper
injection nozzle hex. T orque the line nut to 25 ft. lbs.
(34 N-m ).
5. Remove rocker arm bolts, pivots, rocker arm s and push
rods. Scribe pivots and keep rocker arm s separated so
they can be installed in their original locations.
6. Disconnect the exhaust m anifold from the head. Leave
attached to the crossover pipe.
7. Remove engine block drain plug, from side of the block
where head is being removed.
8. Remove cylinder head bolts and remove cylinder head.
^ If necessary to remove pre-cham ber, remove the glow
plug and injection nozzle, then tap out with a small
blunt drift.
SEAT TIGHTNESS CHECK
Fig. 6 A 6 -5 T -C y lin d e r H ead
LIGHT TRUCK SERVICE MANUAL
Gasket
V 8 - DIESEL
Fig. 6A6-54--Valve Location
Fig. 6A6-52--Cylinder Head Torque Sequence
Installation
VALVES AND SPRINGS WITH HEAD REMOVED
H ead gaskets are a special composition gasket th at
m ust be used W IT H O U T a sealer.
N o additional sealer can be used when installing the
head gaskets as the passage surfaces are sealed when the
gaskets are made, using a newly developed method and
m aterial. This sealer is accurately printed on the surface of
the gasket in the exact q u antity required and provides the
desired bond between the head and the block. Applying
additional sealer would only result in the possibility of
leakage.
1. Install pre-cham ber, if removed. The pre-cham ber can
only be installed in one position. (Fig. 6A6-50).
2. U se a 1 -1 /4 " socket to rein stall p re-ch am b er and
install in cylinder head.
3. Install glow plug.
The pre-cham ber should be flush ± .003 " to the face of
the head.
4. Clean cylinder head bolts and dip in engine oil, torque
bolts to 100 lbs. ft. (136 N -m ) in sequence shown, then
re-torque in sequence to 130 lbs. ft.(176 N-m ). (Figs.
6A6-51 & 6A6-52). T orque head bolts before installing
rocker arm s and pivots. Install the coolant drain plug.
Bleed valve lifters. See "V alve L ifter Bleed D ow n."
•
•.
n s s fo
VALVE
FACE
ANGLE
VALVE
SEAT
ANGLE
VALVE
SEAT
I NSERT
I NTAKE
1.875” (5. 7L)
44°
45°
NO
YES
EXHAUST
1.625 (5. 7L)
30°
31 °
NO
NO
I NDUCTI ON
HARDENED
VALVE SEAT
Fig. 6 A 6 -5 3 --V a lve Train Inform ation Chart
t?
1. Remove valve keys by compressing valve spring with a
tool such as J-5892-1.
2. Remove valve spring rotators or retainers and springs.
3. Remove oil seals from valve stems.
4. Remove valves. Keep valves separated so they can be
installed in their original locations. (Fig. 6A 6-54).
VALVE SEAL IDENTIFICATION
Intake
STD . - .005 " O.S. (G ray Colored)
.010" - .013" O.S. (O range Colored)
Exhaust
STD. - .005" O.S. (Ivory Colored)
.010" - .013" O.S. (Blue Colored)
Installation
1. Install valves in their respective guides.
2. Install new oil seals over valve stem.
.(nfi'iBO
HEAD
DI AMETER
bn'R -..'s?!/- •
Removal
V A L V E T RA IN IN F O R M A T IO N
TYPE
6A 6-23
3.
4.
5.
6.
Position seals dow n as far as possible on valve stem .
The seals will correctly position them selves w hen the
engine is started.
Position valve springs over valve stems.
Install valve rotators then compress springs with a tool
such as J-5892-1 and install valve stem keys.
C heck valve springs and keys to be sure they are
properly seated.
Install exhaust manifold. Torque bolts and nuts to 25
ft. lbs. (34 N -m ). Bend exhaust m anifold bolt lock tabs.
LIGHT TRUCK SERVICE MANUAL
6A 6-24
V 8 - DIESEL
T
~
V
IN T A K E V A L V E
FACE A N G LE
IN T A K E V A L V E
SEAT A N G LE
E XH AUST V A L V E
FACE A N G LE
EXH AUST V A L V E
SEAT A N G LE
Fig. 6A6-55--Relation of Valve S eat Angles
Fig. 6A6-57--Measuring Rotator Height
Reconditioning
Measuring Valve Stem Height
W hen reconditioning valves and valve seats, clean
carbon from cylinder heads and valves using care not to
gouge or scratch m achined surfaces. A soft wire brush is
suitable for this purpose. W henever valves are replaced or
new valves installed, the valve seats m ust be reconditioned.
(Fig. 6A6-55).
N arrow the valve seats to the specified width.
This operation is done by grinding the portside with a
30° stone to lower the seat and a 60° stone to raise the seat.
Intake valve seats are induction hardened and m ust be
ground, not cut.
If valve guide bores are worn excessively, they can be
ream ed oversize. This will require replacem ent of the valves
with oversize valves (stem s). The guide bores should be
ream ed before grinding the valve seats. Valve clearance in
guide bore should be .0015 " to .0032 " (exhaust) or .001" to
.0027 " for the intake valve.
W henever a new valve is installed, or after grinding
valves, it will be necessary to m easure valve stem height as
follows:
.015" M IN IM U M BETWEEN
VALVE STEM AND GAGE
Install gage J-25289 as shown in Fig. 6A6-56.
T here should be at least .015" (.38m m ) clearance on
all valves between gage surface and end of valve stem.
(Valve stem can be gaged with or w ithout the valve rotator
on the valve.) If clearance is less than .015" (.38m m ),
remove valve and grind tip of valve stems as required on a
valve refacing m achine, using the "V ee" block attachm ent
to insure a smooth 90° end. Also be certain to break sharp
edge on ground valve tip. Observe an original valve to
determ ine cham fer.
A fter all valve keys have been installed on valves, tap
each valve stem end with a m allet to seat valve rotators and
keys. Using gage J-25289 as shown in Figs. 6A6-56 and
6A6-57, regage all valves between valve stem and gage
.015" (.38m m ) m inim um and valve ro ta to r and gage
.030" (.76m m ) m inim um . If any valve stem end is less
than .005 " (. 12mm) above rotator, the valve is too short and
a new valve m ust be installed.
EX A M PLE:
Valve R otator to G age C learance-.038 " (.97m m )
M inus Valve Stem to G age C learance-.035" (.89mm)
-.003" (.08m m ).
This is less than .005" (.12m m ) and new valve should
be installed.
T here m ust be a m inim um of .030" (.76m m ) clearance
between valve rotator and gage. Failure to m aintain this
clearance will cause rocker arm and valve ro ta to r
interference.
VALVE GUIDE BORE
.015" GAGE INCLUDED IN
CA RBURETOR K IT
If the valve guide bores are worn excessively, they can
be ream ed oversize. The following ream ers are available:
J-5830-1 ........... 003" (.08m m ) Oversize Valve G uide
R eam er
Fig. 6A 6-56--M easuring Valve Stem Height
LIGHT TRU CK SERVICE MANUAL
J-6621 ............. 005" (.12m m ) Oversize Valve Guide
Ream er
V8 - DIESEL
6A 6-25
J5830-7 ............013" (.33m m ) Oversize Valve Guide
Ream er
If a standard or .003" O.S. valve guide bore is being
ream ed, use the .003" oversize ream er. For the .005"
oversize valve guide bore, use the .005 " oversize ream er; use
the .013" ream er for the .010" or .013" O.S. valve guide
bore. If too large a ream er is used and the spiraling is
removed, the valve may not receive the proper lubrication.
Occasionally a valve guide bore will be oversize as
m anufactured. These are m arked on the inboard side of the
cylinder heads on the m achined surface ju st above the
intake manifold surface. (Fig. 6A6-58). These m arkings are
visible w ithout removing any parts other than the air cleaner
assembly. Before removing the cylinder heads to perform
service to either the valves or valve guide bores, the cylinder
heads should be inspected to determ ine if these m arkings are
present. If no m arkings are present, the guide bores are
stan d ard . If oversize m arkings are present, any valve
replacem ent will require an oversize valve. If the oversize
m arking is present, only th a t p a rtic u la r bore would be
oversize, not all bores in th at cylinder head. Service valves
are available in five different stem diam eters: Standard,
.003" oversize, .005" oversize, .010" oversize, and .013"
oversize.
Reaming
Before attem pting to ream the valve guide bores they
should be cleaned using Tool J-8101 as shown in Fig. 6A659.
This procedure to ream valve guide bores is shown in
Fig. 6A6-60. Use care to hold ream er straight in valve guide
bore.
VALVE SPRING (HEAD ON ENGINE)
To replace a worn or broken valve spring w ithout
removing the cylinder head proceed as follows:
Removal
1. Remove rocker arm assemblies.
2. R otate engine so piston is at top dead center for each
cylinder.
3. Install Tool J-5892-1 (Fig. 6A6-61) and compress the
valve spring until valve keys are accessible; then remove
keys, valve rotators and springs. If valve spring does not
compress, tap tool with a m allet to break bind at rotator
and keys.
Checking Rotators
T he ro tato rs cannot be disassem bled and require
replacem ent only when they fail to rotate the valve.
R otator action can be checked by applying a daub of
paint across the top of the body and down the collar. Run
engine approxim ately 1500 rpm. There should appear to be
motion between the body and collar; the body will appear to
"w alk" around the collar. R otator action can be either
clockwise or counterclockwise. Sometimes on removal and
LIGHT TRUCK SERVICE MANUAL
6A 6-26
V8 - DIESEL
6.
7.
8.
9.
Disconnect exhaust and crossover pipes.
Remove oil cooler lines at filter base.
Remove starter assembly.
Remove engine mounts from engine block, then jack
front of engine up.
10. Remove oil pan attaching bolts and remove oil pan.
Installation (Fig. 6A6-63)
1. Apply # 1 0 5 0 8 0 5 sealer or equivalent to both sides of
pan gaskets and install on block.
2. Install front and rear seals (rubber).
3. W ipe lube, # 1050169 or equivalent, on seal area and
install pan. Torque bolts to 10 lbs. ft. (14N-m ). Reverse
the removal procedure. Fill crankcase as explained in
the P E R IO D IC M A IN T E N A N C E Section.
OIL PUMP
Removal
1. Remove oil pan.
2. Remove the oil pum p to rear main bearing cap a tta c h
ing bolts, then remove pum p and drive shaft extension.
reinstallation, the direction of rotation will change but this
does not m atter so long at it rotates.
Any tim e the valves are removed for service the tips
should be inspected for im proper p a tte rn w hich could
indicate valve ro tato r m alfunction. (Fig. 6A6-62).
Installation
1. Install valve spring and rotator. Using Tool J-5892-1,
compress the valve spring until the valve keys can be
installed.
2. Install rocker arm assemblies.
3. Bleed valve lifters w here rocker arm pivots were
loosened. R efer to "V A L V E L IF T E R B L E E D
D O W N ".
OIL PAN
Removal
1. Remove oil pum p drive and vacuum pump.
2. Disconnect b attery cables. Remove dipstick.
3. Remove upper radiato support and fan shroud a ttac h
ing screws.
4. H oist the car and drain oil.
5. Remove flywheel cover.
LIGHT TRUCK SERVICE MANUAL
V 8 - DIESEL
Disassembly (Fig. 6A6-64)
1. Remove the oil pump drive shaft extension.
2. Position thum b over pressure regulator bore before
removing cotter pin, as the spring is under pressure.
Then remove the cotter pin, spring and the pressure
regulator valve.
3. R em ove th e oil pum p cover a tta c h in g screws and
remove the oil pump cover and gasket.
4. Remove the drive gear and idler gear from the pump
body.
Inspection
Check the gears for scoring or other dam age. If they
are dam aged, new gears should be installed. D uring assem
bly, the gear end clearance should be gaged. Proper end
clearance is .0005" to .0075". Also check the pressure
regulator valve, valve spring and bore for dam age. Proper
valve to bore clearance is .0025 " to .0050". The checking of
gear end clearance will be covered in "A ssem bly". Check
the extension shaft at each end for abnorm al wear. The shaft
is h ard en ed a t both ends and identified by a red dye
m arking.
Assembly
1. Install the gears and shaft in the oil pump body and
check the gear end clearance by placing a straight edge
over the gears and m easure the clearance between the
straight edge and the gasket surface. The clearance
should be betw een .0 0 0 5 " to .0 0 7 5 ". If the end
clearance is to the high lim it, check for scores in the
cover th a t would bring the total clearance over the
specified am ount.
2. Install the cover screws and tighten alternately and
evenly. The torque is 8 lbs. ft. (1 lN -m ).
3. Position the pressure regulator valve into the pump
cover, closed end first, then install th e spring and
retaining pin.
4. Assemble the drive shaft extension to the drive shaft.
6A 6-2 7
Installation
1. Insert the drive shaft extension through the opening in
the main bearing cap and block until the shaft m ates
into the vacuum pum p driven gear.
2. Position pum p onto the rear main bearing cap and
install attaching bolts. Torque bolts to 35 lb. ft. (47
N-m) (Fig. 6A 6-65).
3. Install the oil pan. R efer to O IL PAN Installation.
CONNECTING ROD AND PISTON
Removal
1. Remove intake m anifold, head or heads.
2. Remove oil pan.
3. Remove oil pum p assembly.
4. S tam p cylinder num ber on the m achined surfaces of
the bolt bosses of the connecting rod and cap for
identification when reinstalling. If the pistons are to be
rem oved from the connecting rod, m ark cylinder
num ber on piston with a silver pencil or quick drying
paint for proper cylinder identification and cap to rod
location. The right bank is num bered 2-4-6-8, left bank
1-6-5-7.
5. Exam ine the cylinder bore above ring travel. If ridge
exists, remove ridge with ridge ream er before a ttem p t
ing to remove the piston and rod assembly.
6. Remove rod bearing cap and bearing.
7. Install guide hose over threads of rod bolts. This to
prevent dam age to bearing jo u rn al and rod bolt
threads. (Fig. 6A 6-66).
8. Remove rod and piston assembly through the top of the
cylinder bore.
9. Remove other rod and piston assemblies in the same
m anner.
ROD BEARINGS
The connecting rod bearings are designed to have a
slight projection above the rod and cap faces to insure a
positive contact.
Fig. 6A 6-66~C o nn ecting Rod Bolt G uide
LIGHT TRUCK SERVICE MANUAL
6A 6-28
V8 - DIESEL
C onnecting rod b earings can be replaced w ithout
removing the rod and piston assembly from the engine.
1. Remove oil pan.
• It m ay be necessary to remove oil pum p to provide
access to rear connecting rod bearings.
2. W ith crankpin at the bottom , stam p cylinder num ber
on m achined surfaces of connecting rod and cap for
identification when reinstalling, then remove caps.
3. Inspect cran k p in s for roughness and w ear. S light
roughness m ay be removed with a fine grit polishing
cloth satu rated with engine oil. Burrs m ay be removed
with a fine oil stone by moving the stone on the crankpin
circum ference. Do not move the stone back and forth
across the crankpin. If the crankpins are scored or
ridged, the crankshaft m ust be replaced.
4. T he crankpins should be checked for out-of-round and
correct size with a m icrom eter. M axim um out-of-round
m ust not exceed .0015".
• C rankpins will norm ally be standard size. If any
undersized crankshafts are used, all will be .010"
U.S. and an .010" will be stam ped on the num ber six
counterw eight.
LIGHT TRUCK SERVICE MANUAL
5. Clean oil from crankpin bearing cap, connecting rod
and outer and inner surface of bearing inserts. Position
insert so th a t tang is properly aligned with notch in rod
and cap. (Fig. 6A6-67).
6. Place a piece of plastic gaging m aterial in the center of
lower bearing shell.
7. Remove bearing cap and determ ine bearing clearances
by com paring the width of the flattened plastic gaging
m aterial at its widest point with the graduation on the
container. The num ber w ithin the graduation on the
envelope indicates the clearance in thousandths of an
inch. If this clearance is g reater than .0035", replace
the bearing and recheck clearance with plastic gaging
m aterial. L u b ricate bearing w ith engine oil before
installation. R epeat Steps 2 through 8 on rem aining
connecting rod bearings. All rods m ust be connected to
their crankpins when rotating the crankshaft to prevent
engine dam age. Bearings are identified as shown in Fig.
6A6-68.
8. M easure the rod side clearance as shown in Fig. 6A669. Clearance should be .006 " to .020 ".
ROD ASSEMBLY
If a rod is twisted or bent, a new rod m ust be installed.
NO
ATTEM PT
SH O U LD
BE
MADE
TO
S T R A IG H T E N C O N N E C T IN G RO D S.
PISTON (Fig. 6A6-70)
Measuring Piston
Piston Selection
1. Check used piston to cylinder bore clearance as follows:
V 8 - DIESEL
6A 6-29
4. Select new piston and m ark piston to identify the
cylinder for which it was fitted. (On some cars, oversize
pistons may be found. These pistons will be .010"
oversize).
Honing
1. W hen cylinders are being honed, follow the m anufac
tu re r’s recom m endations for the use of the hone.
2. Occasionally during the honing operation, the cylinder
bore should be thoroughly cleaned and the selected
piston checked for correct fit.
3. W hen finish honing a cylinder bore, the hone should be
moved up and down at a sufficient speed to obtain very
fine uniform surface finish m arks in a cross hatch
pattern of approxim ately 45 to 65 degrees included
angle. The finish m arks should be clean but not sharp,
free from imbedded particles and torn or folded metal.
4. Perm anently m ark the piston for the cylinder to which
it has been fitted and proceed to hone the rem aining
cylinders.
NOTICE: H andle pistons with care. Do not attem pt to
force pistons through cylinders until the cylinders have
been honed to correct size. Pistons can be distorted
through careless handling.
5. Thoroughly clean the bores with hot w ater and deter
gent. Scrub well with a stiff bristle brush and rinse
thoroughly with hot w ater. It is extrem ely essential that
a good cleaning operation be performed. If any of the
abrasive m aterial is allowed to remain in the cylinder
bores, it will rapidly wear the new rings and cylinder
bores. The bores should be swabbed several tim es with
light engine oil and a clean cloth and then wiped with a
clean dry cloth. C Y L IN D E R S S H O U L D N O T BE
C L E A N E D W IT H K E R O S E N E O R G A S O L IN E .
Clean the rem ainder of the cylinder block to remove the
excess m aterial spread during the honing operation.
Checking Cylinder Bore
a. M easure the cylinder bore diam eter with a telescope
gage.
b. M easure the piston diam eter (Fig. 6A 6-71). W hen
m easuring piston fo size or taper, m easurem ent must
be m ade as shown with the piston pin removed.
c. S ubstract piston diam eter from cylinder bore diam e
ter to determ ine piston-to-bore clearance.
d. C om pare piston-to-bore clearan ce o b tain ted with
those clearances recom m ended (.005" to .006").
D eterm ine if piston-to-bore clearance is in accepta
ble range.
e. W hen m easuring taper, the largest reading m ust be
at the bottom of the skirt. Allowable taper is .000" to
.002 ".
2. If used piston is not acceptable, check service piston
sizes and determ ine if a new piston can be selected.
(Service pistons are available in standard, high lim it
and standard .010" over size).
3. If cylinder bore m ust be reconditioned, m easure new
piston diam eter (Fig. 6A 6-71) then hone cylinder bore
to obtain preferable clearance.
Cylinder bore size can be m easured with inside m i
crom eters or a cylinder gage. M axim um allowable taper of
the cylinder bore is .001". The most wear will occur at the
top of the ring travel.
Reconditioned cylinder bores should be held to not
more than .001" out-of-round and .001" taper.
If the cylinder bores are smooth, the cylinder walls
should not be deglazed. If the cylinder walls are scored, the
walls m ay have to be honed before installing new rings. It is
im portant th at reconditioned cylinder bores be thoroughly
washed with a soap and w ater solution to remove all traces
of abrasive m aterial to elim nate prem ature wear.
Cleaning Piston
Clean the pistons by scraping carbon off the top of the
piston. Deposits in the ring grooves should be removed with
a suitable ring groove cleaning tool. It is im portant th at the
ring grooves be completely free of deposits.
Rings (Fig. 6A6-72)
The pistons have three rings (two compression rings
and one oil ring). The oil ring consists of two rails and an
expander.
LIGHT TRUCK SERVICE MANUAL
6A 6-30
V8 - DIESEL
See Piston Ring C learance C h a rt Fig. 6A6-75.
Side Clearance
Each ring m ust be checked for side clearance in its
respective piston groove by inserting a feeler gage between
the ring and its upper land. (Fig. 6A6-74). The piston
grooves m ust be cleaned before checking ring for side
clearance. See Piston Ring C learance C hart. To check oil
ring side clearance, the oil rings m ust be installed on the
piston.
Ring Installation
For service ring specifications and detailed installation
instructions, refer to the instructions furnished with the
parts package.
ROD AND PISTON
Installation
1. Install connecting rod bolt guide hose over rod bolt
threads. (Fig. 6A6-76).
Pistons do not have oil drain holes behind rings.
Ring Tolerances
W hen installing new rings, ring gap and side clearance
should be checked as follows:
Piston Ring and Rail Gap
Each ring and rail gap m ust be m easured with the ring
or rail positioned squarely and at the bottom of the ringtravel area of the bore. (Fig. 6A6-73).
FEELER
GAUGE
MEASURE RING GAP CLEARANCE
WITH RING POSITIONED AT
BOTTOM RING TRAVEL AS SHOWN
Fig. 6A 6-73--M easuring Piston Ring G a p
LIGHT TRUCK SERVICE MANUAL
PISTON RING CLEARANCE CHART
END GAP**
Top Comp. Ring
2nd Comp. Ring
Oil Ring Rails
.015"-. 025"
.015"-. 025"
.015"-. 055"
SIDE CLEARANCE*
Top Comp. Ring
2nd Comp. Ring
.004"-. 006"
.0018"-. 0038"
** Refer to Fig. 6A5-73
* Refer to Fig. 6A5-74
Fig. 6A6-75--Piston Ring Clearance Chart
V8 - DIESEL
6A6-31
PISTON AND CONNECTING
ROD. INSTALL IN
CYLINDER BORES
#5, %
, #7 & #8
Fig. 6A6-76--Connecting Rod Bolt Guide
CONNECTING ROD BEARING
CONNECTING
ROD CAP
/
PISTON AND CONNECTING
ROD. INSTALL IN
CYLINDER BORES
#1. #2, #3 & #4
Fig. 6A6-78--Piston Locations in Block
Fig. 6A6-77--Piston Ring Compressor
2. Apply engine oil to rings and piston, then install piston
ring compressing tool on piston. (Fig. 6A6-77).
3. Install each piston and rod in its respective cylinder
bore so valve depression in top of piston is towards the
inner side of engine. (Fig. 6A 6-78).
• On the forw ard half of the engine, cylinders 1, 2, 3
and 4, the large valve depression goes to the front.
• O n the rear h alf of the engine, cylinders 5, 6, 7 and 8,
the large valve depression goes to the rear of engine.
4. L u b ric a te th e cran k p in w ith engine oil and install
connecting rod bearing and cap, with bearing index
tang in rod and cap on sam e side.
W hen m ore than one rod and piston is being installed,
the connecting rod cap a tta c h in g nuts should only be
tightened enough to keep each rod in position until all have
been installed. This will facilitate installation of rem aining
piston assemblies.
T he cle a ra n ce betw een th e a d ja c e n t rods, when
checked with a feeler gage on each crankpin, should be from
.006" to .020 " .(F ig . 6A6-79).
Fig. 6A6-79--Connecting Rod Side Clearance
PISTON PINS
The piston pin is free floating and the correct fit in the
piston is .0003 " to .0005 " and rod is .0003 " to .0013 " loose.
If the pin to piston clearance is to the high lim it (.0005"
piston or .0013" rod)., the pin can be inserted in the piston
or rod with very little hand pressure and will fall through the
piston or rod by its own weight. If the clearance is .0003",
5. Torque rod bolt nuts to 42 lbs. ft. (57 N-m ).
LIGHT TRUCK SERVICE MANUAL
6A 6-32
V8 - DIESEL
the pin will not fall through. It is im portant th a t the piston
and rod pin hole be clean and free of oil when checking pin
fit.
The rod may be installed in the piston with either side
facing up.
W henever the replacem ent of a piston pin is necessary,
remove the snap ring retaining the pin. Then remove the pin.
It is very im portant th a t after installing the piston pin
retaining snap rings th at the rings be rotated to make sure
they are fully seated in their grooves.
CRANKSHAFT PULLEY
Removal
1. Remove belt(s).
2. Hoist vehicle.
3. Remove pulley bolts and pulley.
Installation
1. Install pulley, and bolts. Torque to 20 lbs. ft. (27 N-m).
BALANCER
Removal
1. Remove belts and crankshaft pulley.
2. Remove balancer hub bolt and washer.
3. Using balancer puller, remove balancer as shown in
Fig. 6A6-80.
NOTICE: Use of any o th er type puller such as a
universal claw type which pulls on the outside of the
hub can destroy the harm onic balancer. The outside
ring of the balancer is bonded in rubber to the hub; by
pulling on the outside, rath er than the hub, it is possible
to break the bond. The T .D .C . slot is on the outside ring
of the balancer; if the bond between the hub and the
outside ring is broken, the outside ring could slip which
would change the location of the slot mark. If it is
suspected th at the bond between the sections of the
harm onic b alancer has been broken and the slot
changed, it can be visually checked as shown in Fig.
6A6-81 The center of the keyway should be approx
imately 16° from the center of the tim ing slot. In
addition, there are chisel aligning m arks between the
weight and hub, m arks should be together.
2. Install belt(s). A djust belts using Tool J-23600.
Installation
1. A pply sealer # 1 0 5 0 8 0 5 , or equivalent, to inside
diam eter of pulley hub and to crankshaft key to prevent
possible oil leakage. C oat outside area of crankshaft
pulley hub w hich enters seal w ith seal lu b rican t
# 1050169, or equivalent.
2. Install balancer on crankshaft. Balancer to crankshaft
fit is .001 " tight to .007 " loose.
3. Install washer and bolt. Torque 200-310 lb. ft. (271 420 N -m ).
4. Install pulley and belts. A djust belts using belt adjust
ing gage J-23600. Torque pulley bolts to 10 lb. ft.
(14N-m).
FRONT COVER
Removal
1. D rain cooling system. Disconnect radiator hoses and
bypass hose.
2. Remove all belts, fan and fan pulley, crankshaft pulley
and harm onic balancer, and accessory brackets.
3. Remove cover to block attaching bolts and remove
cover, tim ing indicator and w ater pum p assembly.
4. Remove front cover and both dowel pins. It may be
necessary to grind a flat on the pins to get a rough
surface for gripping.
Installation
1. G rind a cham fer on one end of each dowel pin as shown
in Fig. 6A6-82.
2. C ut excess m aterial from front end of oil pan gasket on
each side of engine block.
3. Clean block, oil pan and front cover m ating surfaces
with solvent.
4. Trim about 1/8" (3m m ) from each end of new front
pan seal, using a sharp tool as shown in Fig. 6A6-83.
LIGHT TRUCK SERVICE MANUAL
V8 - DIESEL
6A 6-33
6. Apply R.T.V. sealer (# 1 0 5 2 2 8 9 ) a t junction of block,
pan and front cover as shown in Fig. 6A6-84 and 6A6-
86 .
7. Place cover on front of block and press downward to
compress seal. R otate cover left and right and guide
pan seal into cavity using a small screwdriver as shown
in Fig. 6A6-85.
8. Apply engine oil to bolts (threads and heads).
9. Install two bolts finger tight to hold cover in place.
10. Install two dowel pins (cham fered end first).
Fig. 6A6-82--Dowel Pin Chamfer
Downward
INJECTION P U M P D R IV E
GEAR - P U SH CAM
A G A IN S T REAR CUP
PLUG
KEY
CRANKSHAFT SPROCKET
35 FT. LBS.
GASKET
(47 N-m I
1 FT. LBS.
(30 N-m)
5. Install new front cover gasket on engine block and new
front seal on front cover. Apply 1050805 or equivalent
sealer to gasket around coolant holes and place on
block.
CAM SH A FT SPROCKET
T IM IN G C H A IN
CRANKSHAFT O IL SLINGER
(SEAL TWO LOWER
WATER P UM P BOLTS)
Fig. 6A6-86--E ngine Front Cover Bolts
LIGHT TRUCK SERVICE MANUAL
6A 6-34
V8 - DIESEL
11. Install tim ing in d icato r and w ater pum p assem bly.
Then torque bolts evenly as shown in Fig. 6A6-86.
12. Apply lubricant # 1 0 5 0 1 6 9 or equivalent on balancer
seal surface.
13. Install balancer and balancer bolt. Torque from 2003101b. ft. (271-420N -m ).
14. Install necessary brackets.
15. Connect bypass hose and radiator hoses.
16. In stall c ra n k sh a ft pulley and four a tta c h in g bolts.
Torque to 20 lbs. ft. (27 N -m ).
17. Install fan pulley, fan and four attaching bolts. Torque
bolts to 20 lbs. ft. (27 N-m ).
18. Install belts and adjust, using Tool J-23600.
19. Fill radiator.
20. Road test vehicle and check for leaks. Use of spray foot
powder or equivalent m ay aid in detecting leaks.
OIL SEAL
Removal (Front Cover Installed)
1. Rem ove th e c ra n k sh a ft balan cer, See "B alan cer
R em oval."
2. Remove oil seal.
Fig. 6A6-88--Aligning Timing M arks
Installation
1. A pply # 1 0 5 0 8 0 5 S ealer or equivalent, to outside
diam eter of seal.
2. Using Tool J-25264 and Screw J-23952, install oil seal
as shown in Fig. 6A6-87.
3. Install the pulley hub and crankshaft pulley.
4. Install and adjust belts using Tool J-23600.
TIMING CHAIN AND GEARS
Removal
1. Remove oil slinger, cam gear, crank gear and timing
chain.
2. Remove fuel pum p eccentric from crankshaft if re
placem ent is necessary.
Installation
1. Install key in crankshaft if removed.
2. If removed, install fuel pum p eccentric.
3. Install cam sh aft gear, c ra n k sh a ft gear and tim ing
chain together, and align tim ing m arks. (Fig. 6A6-88)
4. Torque cam shaft sprocket bolt to 65 lbs. ft. (88 N-m).
• W hen the two m arks are in alignm ent, num ber six is
at T.D .C . To obtain T .D .C . for num ber one cylinder,
slowly rotate crankshaft one revolution. This will
bring the cam m ark to the top, num ber one then will
be in firing position.
5. Install oil slinger.
• Any tim e the tim ing chain and gears are replaced, it
will be necessary to retim e the engine. R efer to
"M A R K IN G IN JE C T IO N P U M P A D A P T E R ".
Fig. 6A6-32.
CAMSHAFT, INJECTION PUMP DRIVE AND
DRIVEN GEARS
Removal
1.
2.
3.
4.
5.
6.
7.
8.
9.
Fig. 6A6-87--Front Oil Seal Installation
LIGHT TRUCK SERVICE MANUAL
Disconnect battery.
D rain coolant from engine.
Remove upper radiator baffle.
Disconnect upper radiator hose at w ater outlet.
Disconnect upper radiator hose support clamp.
Disconnect cooler lines at radiator.
Remove radiator fan shroud.
Remove radiator.
Remove intake manifold and gasket, front and rear
seal.
10. Remove balancer pulley.
V 8 - DIESEL
6A 6-35
11. Remove balancer attaching bolt.
12. Remove balancer.
13. Remove engine front cover.
INJECTION PUMP
DRIVEN GEAR
SH IM
FUEL INJECTION PUMP
SHAFT SPRING
14. Remove both valve covers.
15. Remove rocker arm s, push rods and valve lifters. Parts
position should be noted so they will be installed in their
original position.
16. If equipped w ith air conditioning, disch arge A /C
system, remove condenser attaching bolts and remove
condenser.
CAUTION:: Always wear goggles and wrap a
clean cloth around fittings and connections when
doing work that involves opening the refrigeration
system. If liquid refrigerant comes into contact
with the skin or eyes, injury can result.
17. Remove bolt securing cam shaft gear and tim ing chain,
then remove tim ing gears and chain.
FUEL PUMP ECCENTRIC
Fig. 6A6-90--lnjection Pump Driven Gear Shim
18. Position cam shaft dowel pin a t the 3 o’clock position.
19. W ith the cam shaft held rearw ard, remove pum p drive
gear by sliding off the cam shaft while rocking the pump
driven gear.
INJECTION PUM P D RIVE
GEAR PUSH C A M A G A IN ST
REAR CU P PLUG
22 FT. LBS
PO SIT IO N AT
20. If necessary to rem ove pum p driven gear, rem ove
injection pump adapter, then remove snap ring and
selective washer. Remove the driven gear and spring.
21. Remove cam shaft by carefully sliding it out the front of
the engine. Do not force shaft as dam age can occur to
cam shaft bearings. R efer to Fig. 6A6-86 for cam shaft
identification.
22. If cam bearings are being replaced, it is necessary to
remove oil pan. Refer to "O IL P A N R E M O V A L ".
'3 O'CLOCK
'S '
CRANKSHAFT AND
CAMSHAFT SPROCKET
T IM IN G CH A IN
35 FT. LBS.
GASKET
CRANKSHAFT O IL SLINGER
22 FT. LBS.
ENGINE T IM IN G INDICATOR
Installation
Any tim e the injection pum p adap ter is replaced or if
pum p drive or driven gears or chain and gears are replaced,
it is necessary to rem ark the tim ing m ark on the adapter.
If either the pump drive or driven gears are to be
replaced, replace BOTH gears.
Fig. 6A6-91--Installing Injection Pump Drive Gear
C oat cam shaft and bearings liberally with # 1 0 5 2 3 6 5
or equivalent before installing. C am shaft gear and crank
shaft gear m ust be aligned as shown if Fig. 6A6-88.
Check the injection pum p driven gear bushing, etc.
Install the injection pum p driven gear, spring, shim and
snap ring. Check the gear end play. If not within .002" to
.006", replace the shim to obtain the clearance. (Fig. 6A690).
Shims are available from .080" to .115" in .003"
increm ents .094 " to . 115 ".
Position the cam shaft dowel pin at 3 o’clock, algin the
" O " m arks on the pump drive and driven gears. Then with
the cam shaft held in the rearw ard position, slide the pump
drive gear on the cam shaft. (Fig. 6A6-91).
Tim ing indicator attaching stud m ust be installed and
properly torqued before installing power steering pum p
bracket. Bleed valve lifter. S ta rt engine, recharge A /C
system, check for possible leaks.
CAMSHAFT AND INJECTION PUMP DRIVEN
GEAR BEARINGS
The cam shaft bearings must be replaced in complete
sets. All bearings m ust be removed before any can be
LIGHT TRUCK SERVICE MANUAL
6A 6-36
V8 - DIESEL
Fig. 6A6-92--Checking # 5 Oil Hole
installed. # 1 bearing m ust be removed first, then # 2 , then
3, 4 and 5. W hen installing the bearings, # 5 m ust be
installed first, then 4, 3, 2 and 1.
C am shaft Bearing Remover and Installer J-6098-01 is
available for this procedure.
This set can be used to remove cam bearings with the
engine either in or out of the vehicle.
To replace bearings with engine in vehicle proceed as
follows:
Removal
1. Remove engine oil pan and cam shaft.
2. Install # 1 C am B earing Rem over and In staller
J-25262 on H andle J-8092 and drive out front cam
bearing.
3. Place Pilot on Driver and install # 2 C am bearing Tool
on driver and drive out # 2 bearing.
4. Remove # 3 , 4 and 5 bearings in the sam e m anner.
• Each cam bearing is a different diam eter and the
correct sequence m ust be used both for removal and
installation.
5. To remove the injection pum p driven gear bushings,
drive both bushings at the same tim e from the rear to
the front of the block using tool J-28439-2 and driver
handle J-8092.
Installation
To aid aligning bearings with oil passages, place each
bearing in the front bore with tapered edge tow ard block
and align the oil hole in the bearing with the center of the oil
slot in the bore. M ark bottom of bearing. W hen installing
the bearings, the m ark will act as a guide.
Slide bearing pilot spacer on bearing pilot. For bearings
5, 4, 3 and 2 put the driver through the pilot, then screw the
installer on the driver. Install the bearings as follows:
LIGHT TRUCK SERVICE MANUAL
1. Place new # 5 bearing on driver and drive bearing in
until the last white line on the driver is flush with the
front face of the pilot.
2. Use a piece of 3 /3 2 " (2.4m m ) brass rod with a 90°
bend at the end to check the oil hole opening as shown
in Fig. 6A6-92.
3. Place # 4 bearing on installer and drive in until the
next to last white line on driver is flush with pilot.
4. Follow the same procedure to install # 3 and # 2.
5. Place # 1 bearing on installer. Drive bearing in until it
is flush with front face of block.
6. To install the injection pum p bushings, align the holes
in the bushings with the holes in the block. Install both
bushings from the front; driving the rear bushing first,
using the long end of tool J-28439-1 and driver handle
J-8092. Drive the front bushing with the short end of
J-28439-1.
7. Use a piece of 3 /3 2 " (2.4m m ) brass rod with a 90°
bend a t the end to check all oil hole openings. W ire
must enter hole or the bearing will not receive sufficient
lubrication. (See Fig. 6A 6-92).
8. Install cam shaft and engine oil pan.
Camshaft and Oil Gallery Plugs (Fig. 6A6-93)
The left-hand rear oil gallery plug is not shown. It is a
threaded plug in the end of the left gallery just rearw ard of
the vacuum pump. A small hole is provided in the plug for
vacuum pump lubrication. The cup plug shown provides
access to the threaded plug.
The front oil gallery plugs (not shown) are threaded.
The plug on the right side has a small hole which provides
lubrication for the tim ing chain and gears.
To find out if the cam shaft plug at the rear of the
engine is properly installed, place a straight edge across the
m achined surface of the rear of the block and m easure from
the straight edge to the lip of the plug. Dimension should be
4.8 mm (.1 9 0 ") m axim um to 3.8mm (.1 5 0 ") m inim um .
V 8 - DIESEL
6A 6-37
UNIT REPAIR
ENGINE
Removal
1. D rain cooling system.
THREAD
2. Remove air cleaner and install screened cover J-269961.
PROTECTORS
3. Remove hood from hinges, m ark hood for reassembly.
4. Disconnect battery negative cables at batteries and
ground wires at inner fender panel. Disconnect engine
ground strap.
5. Disconnect radiator hoses, cooler lines, heater hoses,
vacuum hoses, power steering pum p hoses at power
steering gear, air conditioning com pressor with brack
ets and hoses attached, fuel hose from fuel pump and
wiring.
/
RUBBER
" 'V B A N D S
NOTE O VERLA P
OF ADJACENT RODS
6. Remove hairpin clip at bellcrank.
7. Remove throttle cable from intake manifold bracket,
then position cable away from engine.
8. Remove upper radiator support and radiator.
9. Raise vehicle.
10. Disconnect exhaust pipes at manifolds.
11. Remove torque converter cover and three bolts holding
converter to flywheel.
FRONT OF ENGINE
12. Remove engine m ount through bolts.
13. Remove three bolts, transm ission to engine on the right
side. Disconnect wires from starter and remove starter.
14. Lower vehicle.
15. Place board on top of jack and slightly raise transm is
sion. Remove three left transm ission to engine bolts.
Remove engine.
16. If vehicle is to be moved, install converter holding tool
J - 2 1654 and support transm ission with chain support.
Installation
1. In stall engine in place. L ocate engine dowels into
transm ission and position through bolts into mounts
and tighten. Install three left transm ission to engine
bolts. Remove support chains and jack.
2. Raise vehicle. Replace three transm ission to engine
bolts on the right side. Replace starter and attaching
bolts and attach wires.
3. Install three converter to flywheel bolts and torque
converter cover bolts to 40 lbs. ft. (54 N -m ).
4. C onnect exhaust pipes and lower vehicle.
5. Install radiator and upper radiato r support.
6. C onnect ra d ia to r hoses, cooler lines, h eater hoses,
vacuum hoses, power steering pum p hoses at pump,
power steering hose bracket to engine, air conditioning
compressor, fuel hose to fuel pum p and wiring.
7. Position bellcran k and cables to intak e m anifold.
Install bellcrank. In stall th ro ttle rod to bellcrank.
Connect b reather pipes and connect fuel return line to
pump.
8. Install air cleaner.
9. Install and align hood with scribe marks.
10. Connect battery cables and ground wires.
11. Add engine oil and coolant.
Fig. 6A6-94--Crankshaft Removal
CRANKSHAFT
Removal (Cylinder Heads On)
1. W ith engine on stand and oil pan, oil pump and front
cover removed, rotate crankshaft to the position where
the connecting rod nuts are most accessible. Fig. 6A694 shows the engine with the # 3 and # 4 rods in the
fully extended position.
2. Remove connecting rod caps and install thread protec
tors. Remove fuel pum p eccentric from crankshaft.
3. Remove main bearing caps.
4. N ote position of keyway in crankshaft so it can be
installed in the same position.
5. Lift crankshaft out of block. Rods will pivot to the
center of the engine when the crankshaft is removed.
Do not allow pistons to move in their bore during or
after crankshaft removal.
Installation
1. Install sufficient oil pan bolts in pan rails to align rods
with rubber bands. Align rods so th at the inner thread
protectors of adjacent rods overlap approxim ately one
inch as shown. A lignm ent can be adjusted by increas
ing tension on ru b b er bands w ith additional tu rn s
around the pan bolts or thread protectors.
2. M easure the crankshaft journals and crankpins with a
m icrom eter to determ ine the correct size rod and main
bearings to be used.
• W henever a new or reconditioned cran k sh aft is
installed, new connecting rod bearings and main
bearings should be installed.
3. Position crankshaft keyway in the sam e position as
removed and lower into block. The connecting rods will
LIGHT TRUCK SERVICE MANUAL
6A6-38
V8 - DIESEL
follow the crankpins into the correct position as the
crankshaft is lowered.
4. Remove rubber bands, thread protectors and pan bolts
and assemble engine.
CENTER M A IN BEARING
THRUST FLANGES
NOTICE: In order to prevent the possibility of cylinder
block and/or main bearing cap damage, the main
bearing caps are to be tapped into their cylinder block
cavity using a brass or leather mallet before attaching
bolts are installed. Do not use attaching bolts to pull
main bearing caps into their seats. Failure to observe
this information may damage a cylinder block or
bearing cap.
WOOD
BLOCK
B U M P SHAFT IN EACH
Removal (Cylinder Heads Removed)
1. With engine on stand, remove oil pan, front cover,
connecting rods, oil pump and fuel pump eccentric
from crankshaft.
2. Remove main bearing caps and lift crankshaft out of
block.
DIRECTION TO A LIG N
THRUST FLANGES O F -------/^CENTER M A IN BEARIN G
----- ^
------x
Fig. 6A6-96--Aligning Center Main Bearing Flanges
Installation
1. Measure the crankshaft journals and crankpins with a
micrometer to determine the correct size rod and main
bearings to be used.
• W henever a new or reconditioned crankshaft is
installed, new connecting rod bearings and main
bearings should be installed.
R.H. O IL
P ASSAG E PLUG
.^ .p .p f M Q .O - O llP A S S A C E
L H . O IL
/
P ASSAG E PLUG
y
° ^
i
/-
—
J
\
C U P P lU G
L H. O IL
PASSAG E PLUG
--------C RANKSHAFT REAR
BEARING SEAL
CRANKSHAFT
2. Position upper half of main bearings in block and
lubricate with engine oil.
3. Install a new rear main bearing seal. (Fig. 6A6-95).
Rear bearing must be removed to replace seal.
4. After oil passages in crankshaft have been checked for
being open and shaft is clean, place shaft in block.
Lubricate thrust flanges of the center bearing with
\
J_
GROOVES IN UPPER
AND LOWER HALF
OF ALL BEA R IN G S
EXCEPT NUMBER
ONE. NUMBER ONE
LOWER DOES NOT
HAVE A GROOVE.
120 FT. LBS.
Fig. 6A6-97--Crankshaft-Exploded View
# 1 0 5 0 1 6 9 Lubricant or equivalent. Install caps with
lower half of bearing lubricated with engine oil.
Lubricate cap bolts with engine oil and install, but do
not tighten.
5. With a block of wood (Fig. 6A6-96) bump shaft in each
direction to align thrust flanges of center main bearing.
After bumping shaft in each direction, wedge the shaft
to the front and hold it while torquing # 3 cap bolts.
6. Torque all main bearing bolts to 120 lbs. ft. (163 N-m).
(Fig. 6A6-97).
7. Reassemble engine and install in chassis.
NOTICE: In order to prevent the possibility of cylinder
block and/or main bearing cap damage, on all engines
including diesels, the main bearing caps are to be
tapped into their cylinder block cavity using a brass or
leather mallet before attaching bolts are installed. Do
not use attaching bolts to pull main bearing caps into
their seats. Failure to observe information may damage
cylinder block or bearing cap.
MAIN BEARINGS
Main bearing clearance must not exceed .0035" on all
bearings. The .0035" clearance is permissible only if the
LIG H T T R U C K SE RV IC E M A N U A L
V8 - DIESEL
6A6-39
engine is disassembled for other than a bearing noise
condition. If bearings are noisy or if a visual inspection
indicates defective bearings, new bearings must be installed
within the specifications outlined under M A IN BEARINGS-REPLACE.
Bearings which fall within the .0035" specifications
should not be replaced if the bearings show normal wear
pattern or slight radial grooves.
Checking Bearing Clearances
1. Remove bearing cap and wipe oil from crankshaft
journal and outer and inner surfaces of bearing shell.
2. Place a piece of plastic gaging material in the center of
bearing.
3. Use a floor jack or other means to hold crankshaft
against upper bearing shell. This is necessary to obtain
accurate clearance readings when using plastic gaging
material.
4. Reinstall bearing cap and bearing. Place engine oil on
cap bolts and install. Torque bolts to 120 lbs. ft. (163
N-m).
5. Remove bearing cap and determine bearing clearance
by comparing the width of the flattened plastic gaging
material at its widest point with graduations on the
gaging material container. The number within the
graduation on the envelope indicates the clearance in
thousandths of an inch. (Fig. 6A 6-98). If the clearance
is greater than .0035", REPLACE BOTH BEARING
SH ELLS AS A SET. Recheck clearance after replac
ing shells. (Refer to M A IN BEARING S-REPLACE)
Main bearing end thrust clearance should be .0035" to
.0135 " as checked with a dial indicator.
COAT SEAL GROOVE.
ENDS OF SEAL AND
AREA INDICATED WITH
1050026 SEALER OR
EQUIVALENT.
J-28693
SEALER
Main Bearings Replacement
Main bearing clearances must be corrected by the use
of selective upper and lower shells. U N D E R N O CIR
C U M STA N C E S should the use of shims behind the shells,
to compensate for wear, be attempted.
The upper and lower shells must be installed in pairs.
Sizes of the bearings are located on the tang. (Fig. 6A6-99).
AFTER CORRECTLY PO SITION IN G
SEAL, ROTATE TOOL SLIGHTLY
AND CUT OFF EACH END OF SEAL
FLUSH WITH CAP.
Fig. 6A6-100--lnstalling Rear Main Oil Seal
It is possible to have more than one bearing size in the same
engine.
To install main bearing shells, proceed as follows:
1. Loosen all main bearing caps.
2. Remove bearing cap and remove lower shell.
3. Insert a flattened cotter pin or roll out pin in the oil
passage hole in the crankshaft, then rotate the crank
shaft in the direction opposite to cranking rotation. The
pin will contact the upper shell and roll it out.
4. The main bearing journals should be checked for
roughness and wear. Slight roughness may be removed
with a fine grit polishing cloth saturated with engine oil.
Burrs may be removed with a fine oil stone. If the
L IG H T T R U C K SERVICE M AN U AL
6A6-40
5.
6.
7.
8.
9.
10.
V8 - DIESEL
journals are scored or ridged, the crankshaft must be
replaced.
• The journals can be measured for out-of-round with
the crankshaft installed by using a crankshaft caliper
and inside micrometer or a main bearing microme
ter. The upper bearing shell must be removed when
measuring the crankshaft journals. Maximum outof-round of the crankshaft journals must not exceed
.0015".
Clean crankshaft journals and bearing caps thoroughly
before installing new main bearings.
Apply Special Lubricant, # 1 0 5 0 1 6 9 or equivalent, to
the thrust flanges of bearing shells on # 3 bearing.
Place new upper shell on crankshaft journal with
locating tang in correct position and rotate shaft to turn
it into place using cotter pin or roll out pin as during
removal.
Place new bearing shell in bearing cap.
# 5 bearing - Install new asbestos oil seal in the rear
main bearing cap. (REAR M A IN BEARING OIL
SEAL) (Fig. 6A 6-100) Install # 1 0 5 0 0 2 6 or equiv
alent sealer on cap as shown.
Install bearing caps, lubricate bolt threads with engine
oil, then install. Torque bolts to 120 lbs. ft. (163 N-m).
NOTICE: In order to prevent the possibility of cylinder
block and/or main bearing cap damage, the main
bearing caps are to be tapped into their cylinder block
cavity using a brass or leather mallet before attaching
bolts are installed. Do not use attaching bolts to pull
main bearing caps into their seats. Failure to observe
this information may damage a cylinder block or
bearing cap.
REAR MAIN BEARING UPPER OIL SEAL
Repair
Tools have been released to provide a means of correct
ing engine rear main bearing upper seal leaks without the
necessity of removing the crankshaft. The procedure for seal
leak correction is listed below.
1. Drain oil and remove oil pan and rear main bearing
cap.
2. Insert Packing Tool BT-6433 against one end of seal in
cylinder block and drive the old seal gently into the
groove until it is packed tight. This varies from 1/4"
(6mm) to 3/4" (19mm), depending on the amount of
pack required. (Fig. 6A6-101).
3. Repeat this on the other end of the seal in the cylinder
block.
4. Measure the amount the seal was driven up on one side;
add 1/16" (1.6mm), then cut this length from the old
seal removed from the main bearing cap with a single
edge razor blade. Measure the amount the seal was
driven up on the other side. Add 1/16" (1.6mm) and
cut another length from old seal. Use main bearing cap
as a holding fixture when cutting seal as shown in Fig.
6A6-102.
5. Place a drop of # 1 0 5 0 0 2 6 Sealer or equivalent, on
each end of seal and cap as indicated.
6. Work these two pieces of seal into the cylinder block
(one piece on each side) with two small screwdrivers.
Using Packing Tool, pack these short pieces up into the
block.
7. Form a new rope seal in the rear main bearing cap as
outlined.
8. Assem ble the cap to the block and torque to
specifications.
NOTICE: In order to prevent the possibility of cylinder
Fig. 6A6-101--Packing Oil Seal
LIG H T T R U C K SERVIC E M A N U A L
block and/or main bearing cap damage, the main
bearing caps are to be tapped into their cylinder block
cavity using a brass or leather mallet before attaching
bolts are installed. Do not use attaching bolts to pull
main bearing caps into their seats. Failure to observe
this information may damage a cylinder block or
bearing cap.
V8 - DIESEL
6A6-41
REAR MAIN BEARING LOWER OIL SEAL
FLEX PLATE
Removal
One bolt hole in the flex plate is offset and the flywheel
will attach to the crankshaft in only one position. The flex
plate ring gear is not replaceable.
1.
2.
3.
4.
Remove oil pan.
Remove the rear main bearing cap.
Remove rear main bearing insert and old seal.
Clean bearing cap and seal grooves and inspect for
cracks.
ENGINE OIL DIPSTICK AND DIPSTICK GUIDES
(Fig. 6A6-103)
Removal
Installation
1. Install seal into bearing cap, packing by hand.
2. Using seal installer, hammer seal into groove (Fig.
6A 6-100).
To check if seal is fully seated in the bearing cap, slide
the tool away from seal. With tool fully seated in the bearing
cap, slide tool against the seal. If undercut area of tool slides
over the seal, the seal is fully seated. If tool butts against the
seal, the seal must be driven further into the seal groove.
Rotate tool before cutting off excess seal packing.
3. With tool slightly rotated, cut seal flush with mating
surface. With screwdriver, pack seal end fibers towards
center, away from edges. Rotate seal installer when
cutting seal to avoid damage to tool.
4. Clean bearing insert and install in bearing cap.
5. Clean crankshaft bearing journal and seal contact.
Install sealer on cap as shown.
NOTICE: In order to prevent the possibility of cylinder
block and/or main bearing cap dam age, the main
bearing caps are to be tapped into their cylinder block
cavity using a brass or leather mallet before attaching
bolts are installed. Do not use attaching bolts to pull
main bearing caps into their seats. Failure to observe
this information may dam age a cylinder block or
bearing cap.
6. Install bearing caps, lubricate bolt threads with engine
oil and install. Torque bolts to 120 lbs. ft. (163 N-m).
7. Install pan with new gaskets.
8. Install lower flex plate cover.
Removal of the dipstick guide will assist in easier
removal and installation of the left cylinder head. Before
removing the left cylinder head, the guide can be removed
using the following procedure:
1. Position the slide hammer from Tool J-2619 on a 1/4"
(6mm) diameter 6 " (1 52mm) long bolt.
2. Insert the threaded end of the bolt into the oil dipstick
guide and clamp with a vise grip type pliers.
3. Use slide hammer to tap out tube.
To install, insert a 1/4" (6m m ) diameter x 1/2"
(13mm) long bolt into the tube and tap on the bolt head to
drive tube into the block.
4 FRONT OF ENGINE
P O SIT IO N GUIDE TO
REAR OF OPENING
EXH AU ST M AN IFO LD
D IP S T IC K GUI
•V .
-- 45
«.,?
CENTER LINE OF O PENING
IN EXHAUST M A N IFO LD
GUIDE______
I— 11 21/64"- r j
■17
7/32
(YELLOW P L A ST IC PLUG
AND HANDLE COATING)
Fig. 6A6-103--Engine Oil Dipstick Identification
LIG H T T R U C K SERVICE M A N U A L
DRIVE AND VACUUM PUMPS
GENERAL DESCRIPTION
The vacuum pump is used to provide vacuum
required for some accessories. It is a diaphragm
pump which needs no periodic maintenance. It is
driven by a cam inside the drive assembly to which it
mounts. The pump’s diaphragm moves back and
forth causing air to flow into the inlet tube, through
the pump, and exhaust out the rear port.
The vacuum pump is driven two ways, gear driven
and belt driven. The gear driven pump has a drive
gear on the lower end which meshes with the cam
shaft gear in the engine. This drive gear causes the
cam in the drive housing to rotate. The drive gear
also powers the engine oil lubricating pump. The
belt driven pump has a pulley attached to the shaft
at the lower end of the housing assembly. The
pump pulley is driven off the belt cluster at the front
of the engine.
Fig. 6A6-104--Vacuum
CAUTION: Do not operate engine
w itho u t drive and vacuum pum p
assembly as this is also the drive
for the engine oil p um p (gear
driven p u m p only)
Pump
K ey N o.
D R IV E G EAR
1
2
3
4
—
—
—
—
P a rt N a m e
PU M P ASSY, V A C U U M
SCREW , HEX.H E A D T A P P IN G
SEAL, “O" RING
DR IVE ASSY, V A C U U M PU M P
(G EAR D RIVEN ) - SERVICE C O M P O N E N TS
Key No.
1
2
3
4
5
—
—
—
—
—
Part Name
PU M P AS SY , V A C U U M
SC REW , HE X H E A D T A P P IN G
SEAL, “O ” R IN G
D R IV E AS SY , V A C U U M PU M P
B O LT AS SY , SE AL &
(B E L T D R IVE N ) - S ER V IC E C O M P O N E N T S
V8 - DIESEL
REMOVE AND INSTALL (GEAR DRIVEN)
REMOVE
INSTALL
R e m o ve h o se fro m
p u m p in le t.
R e m o ve b o lt a nd
b ra c k e t h o ld in g p u m p
to e n g in e b lo ck.
R e m o ve p u m p .
x
V A C U U M HOSE
In s e rt p u m p in e n g in e ,
m a k in g s u re th e g ea rs
o n th e p u m p m esh
w ith th e g e a rs o n th e
e n g in e ca m sh a ft.
R o ta te th e p u m p in to
p o s itio n so th e
b ra c k e t a n d b o lt ca n
be in s ta lle d .
6A6-43
DISASSEMBLE AND ASSEMBLE
CAUTION: Take extrem e care when
c la m p in g the vacuum p u m p in vise.
DISASSEMBLE
1. R e m o v e hex head
ta p p in g s c re w s .
ASSEMBLE
1. In s ta ll " O ” R in g Seal
in c a v ity o f d riv e
2. R e m o v e “ O ” R in g
Seal
a s s e m b ly .
2. C o n n e c t d riv e
a s s e m b ly to v a c u u m
p u m p w ith h e x hea d
ta p p in g s c re w s .
In s ta ll v a c u u m h ose .
O ” R IN G S E A L
D RIVE & V A C U U M
PU M P A S S E M B LY
BO LT
Install Seal “O" Ring
BRACKET
in cavity of drive
assembly.
S c re w s s h o u ld be
tig h te n e d e v e n ly a n d to a
to rq u e o f 12 N *m
(9 Ft. L bs.)
j
REMOVE AND INSTALL (BELT DRIVEN)
REMOVE
R e m o ve b e lt fro m
p u m p a sse m b ly.
1. In s ta ll p u m p to
m o u n tin g o n e n g in e .
R e m o ve hose fro m
p u m p in le t.
2. In s ta ll v a c u u m hose,
3 |nstaM b e |t jn
R e m o ve b o lts h o ld in g
p u m p to b ra c k e t.
C la m p a s s e m b ly in
vise in a rea s h o w n . C a re
s h o u ld be ta k e n n o t
to o v e r tig h te n .
INSTALL
T h e g e a r s h o u ld
be fre e to tu rn w h e n
in s ta llin g th e
s c re w s to th e p u m p
a s s e m b ly .
p u lle y a nd a d ju s t
b e lt te n s io n .
R e m o ve p u m p .
T h e b e a rin g a s s e m b ly in th e b e lt
d riv e n p u m p n e e d s lu b ric a n t.
T h is s h o u ld be c h e c k e d a n d k e p t fille d
a t a ll tim e s (see b e lo w ).
Seal a n d b o lt a s s e m b ly
tig h te n to 4 to 6 N «m
(4 Ft. Lbs.)
F ill w ith 1052271 (S A E 80W--90)
g e a r lu b ric a n t (b e lt d riv e n
p u m p o n ly )
T h e s h a ft s h o u ld
be fre e to tu rn w h e n
in s ta llin g th e
s c re w s to th e p u m p
a s s e m b ly .
Fig. 6A6‘ 105--Vacuum Pump Service
LIG H T TR U C K SE R V IC E M AN U AL
PISTON PIN
V -8 D IE S E L
DISPLACEMENT
LITRE {*)
5 .7 (N )
LF9
DIAMETER
1 .0 9 4 9 -1 .0 9 5 3
PRODUCTION
CLEARANCE
.0 0 0 3 -.0 0 0 5
SERVICE
RPO
LF9
BORE
4 .0 5 7
STROKE
3 .3 8 5
COMPRESSION RATIO
2 2 .5 :1
FIRING ORDER
1 - 8 - 4 - 3 - 6 - 5 -7 -2
DIAMETER
OUT OF
ROUND
TAPER
FIT IN ROD
i A rtH
PRODUCTION
PRODUC
TION
N .A .
RELIEF
SIDE
N .A .
SERVICE
PRODUCTION
N .A .
SERVICE
N .A .
PRODUCTION
N .A .
SERVICE
N .A .
# 1 -2 -3 -4
.0 0 0 5 -.0 0 2 1
MAIN
BEARING
CLEARANCE
#5
.0 0 1 5 -.0 0 3 1
N .A .
PISTON:
CLEARANCE
OUT OF
ROUND
N .A .
THRUST
SIDE
ALL
2 .9 9 9 3 -3 .0 0 0 3
DIAMETER
4 .0 5 6 -4 .0 5 8
SERVICE
.0 0 0 3 -.0 0 1 3
CRANKSHAFT
MAIN
JOURNAL
CYLINDER BORE:
N .A .
SERVICE
N .A .
CRANKSHAFT END PLAY
PRODUCTION
N.A.
SERVICE
. 0 0 5 " — .0 0 6 ”
PISTON RING:
t
0 GROOVE PRODUC
* V IN D e s ig n a tio n
DIAMETER
PRODUCTION
CRANKPIN
TOP
M CLEAR TION
2ND
P ANCE
R
SERVICE
E
S
PRODUC TOP
S
TION
2ND
GAP
1
o
SERVICE
N
GROOVE PRODUCTION
CLEAR
0 ANCE
SERVICE
1
PRODUCTION
L
GAP
SERVICE
.0 0 5 -.0 0 7
OUT OF
ROUND
.0 0 1 8 -.0 0 3 8
N .A .
.0 1 5 -.0 2 5
.0 1 5 *.0 2 5
N .A .
.0 0 1 -.0 0 5
N .A .
.0 1 5 -.0 5 5
N .A .
.0 0 3 5 -.0 1 3 5
ROD BEARING
CLEARANCE
2 .1 2 3 8 -2 .1 2 4 8
N .A .
................................
(...
SERVICE
N .A .
PRODUCTION
N .A .
SERVICE
PRODUCTION
N .A .
.0 0 0 5 -.0 0 2 6
SERVICE
ROD SIDE CLEARANCE
N .A .
.0 0 6 -.0 2 0
CAMSHAFT
LOBE LIFT
± .002
INTAKE
N .A .
EXHAUST
JOURNAL DIAMETER
CAMSHAFT END PLAY
N .A .
#1 2 0357 2 0365
#2 2.0157-2 0166
#3 1 9957 1 9965
#4 1 9757 1 9765
#5 1.9567-1.9566
.0 1 1 -.0 7 7
V8 - DIESEL
TYPE
6A6-44
GENERAL DATA:
TORQUE SPECIFICATIONS
Ib. ft.
V A L V E SYSTEM
LF9
LIFTER
HYDRAULIC
ROCKER ARM RATIO
N.A.
VALVE
LASH
INTAKE
NONADJUSTABLE
EXHAUST
FACE ANGLE (INT. & EXH.)
SEAT ANGLE (INT. & EXH.)
>
SEAT
WIDTH
.075.098
INTAKE
EXHAUST
.037-.075
INT.
PRODUCTION
STEM
EXH.
CLEARANCE
SERVICE
FREE LENGTH
VALVE
SPRING
(OUTER)
PRESSURE
LBS. e IN.
*
.003
SEAT RUNOUT
T5
@
.0010-.0027
.0015-.0032
N.A.
2.09
CLOSED
85-95 @ 1.670
OPEN
203-207 @ 1.300
INSTALLED HEIGHT
N.A.
± 1/32"
FREE LENGTH
N.A.
APPROX. # OF COILS
N.A.
DAMPER
@ — 44° INTAKE — 30° EXHAUST
* — 45° INTAKE — 31° EXHAUST
N-m
LIGHT
TRUCK
Injection Pump A tta ch ing Nuts ...................... .......... 19. .___ 26
Injection Line Nut To Pum p ..................
..........25. ■ . . . 34
Injection Pum p A da pter B o lts ....................
.......... 25- • . . . 34
Injection Line Nut To N o z z le ............
.......... 25- . . . . 34
Injection Pum p Fuel Filter Inlet L in e .............. ..........20. . . . . 27
Injection Pum p Fuel Filter O utlet L i n e .......... ..........18. . . . . 24
Injection Pum p Fuel Inlet Line ........................ ..........20. . . . . 27
Injection Nozzle H old-D ow n C la m p ................ ..........25. . . . . 34
G lo w P lu g .............................................................. ..........12. . . . . 16
Crankshaft Bearing Cap B o lts .......................... ........120. . , . 163
Flywheel To C o n v e rte r...................................... ..........40. . . . . 54
Flywheel To C rankshaft .................................... ..........60. . . . . 81
Oil Pum p To Bearing Cap B o lt s ...................... ..........35. . . . . 47
Oil Pum p Cover To Pum p B o lt s ...................... ............8. . . . . 11
Rocker A rm Pivot B olt To H e a d ...................... ..........28 . . . . 38
Valve Cover Bolts Fully Driven, Seated, Not Stripped
Oil Pan Bolts ........................................................ ..........10. . . . . 14
Oil Pan Drain Plug .............................................. ..........30. . . . . 41
Crankshaft Balancer To C rankshaft Bolt . . . . .200-310. . 2 7 1 -4 ;
Oil Filter Elem ent To B a s e ................................ ..........20 - . . . . 27
Oil Filter A ssem bly To C ylinder Block Bolts . ..........35- • . . . 47
Oil C ooler Lines To Oil Filter Base ................ ..........12- ■ . . . 16
Oil C ooler Lines To R a d ia to r............................ ..........25- • . . . 34
S upport/F ront Cover To C ylinder Block
Bolts 3/8" .............................................................. ..........35- • . . . 34
Fan Driven Pulley To Hub B o lt s ...................... ..........20 . . . . . 27
Fan D riving Pulley To Balancer B o lt s ............ ..........20. . . . . 27
W ater Pum p To Front Cover Bolts ................ ..........13. - . . . 18
W ater O utlet To M anifold B o lt s ...................... ..........20. . . . . 27
*lntake M a n ifold To C ylinder Head Bolts . . . ..........40. . . . . 54
Exhaust M a n ifold To C ylinder Head Bolts .. ..........25. . . . . 34
Engine M o u n t To C ylinder Block Bolts ........ ..........75. . . . 102
Engine M o u n t To Frame M o u n t...................... ..........50. . . . . 68
Starter To C ylinder Block Bolts ...................... ..........35. . . . . 47
Starter Brace To C ylinder Block Bolts .......... ..........25. . . . . 34
S tarter Brace To Starter B o lt............................ ..........15. . . . . 20
Vaccum Pum p C lam p To C ylinder Block Bolt ........ 17. . . . . 23
*C ylin d e r Head B o lts .......................................... ........130. . . . 176
C onnecting Rod Nuts ........................................ ..........42. . . . . 57
C am shaft Sprocket Bolt .................................... ..........65. .
88
SERVICE
* Clean and d ip entire bolt in engine oil before tig htening to obtain a correct torq ue reading.
M AN U AL
ENGINE COOLING
6B-1
SECTION 6B
ENGINE COOLING
CONTENTS
General Description......................................................... .6B-1
Coolant Level.................................................................. ..6 B -1
Thermostat................. ..................................................... ..6B-2
Drive B elts....................................................................... .6B-7
Diagnosis...............................................................................6B-7
System C hecks................................................................ .6B-7
O verheat/N oise............................................................... ..6B-7
Fan C lu tch....................................................................... .6B-8
On Vehicle S ervice...........................................................
Water Pump.....................................................................
Thermostat.......................................................................
Radiator............................................................................
Fan Shroud......................................................................
Fan/Fan C lutch..............................................................
Coolant Recovery Bottle...............................................
Engine Oil C ooler...........................................................
6 B -1 1
6B-11
6B-11
6B-12
6B-12
6B-12
6B-13
6B-14
GENERAL DESCRIPTION
All Chevrolet Light Duty Trucks have pressure type
engine cooling systems with thermostatic control of coolant
circulation. The cooling system is sealed by a pressure type
radiator filler cap which causes the system to operate at
higher than atmospheric pressure. The higher pressure
raises the boiling point of the coolant which increases the
cooling efficiency of the radiator. The 15 pound (103 kPa)
pressure cap used raises the boiling point of coolant to
approximately 258° F (125°C) at sea level.
The radiator cap should be washed with clean water
and pressure checked every 12 months.
All models have a closed cooling system using a round
pressure cap (Fig. 6B-1) and a coolant reservoir. Coolant
can be added without removing the radiator cap.
A pressure-vacuum valve radiator cap is used which
allows the coolant to expand through the pressure valve in
the center of the cap without building unnecessary pressure.
The expanding coolant flows into the coolant reservoir. The
vent valve closes due to expansion and coolant flow. The
nominal 15 pound (103 kPa) pressure will not be reached
until the system is working at maximum capacity.
Any air or vapor in the cooling system will be forced to
the coolant reservoir under the liquid level and leave
through the vent tube at the top of the reservoir. As the
system cools, the extra coolant in the reservoir will be drawn
back to the radiator through the vent valve. In this manner,
the radiator will keep itself full at all times.
COOLANT LEVEL
The need for additional coolant can be detected by
observing the level of coolant in the "see through" reservoir
while the engine is at normal operating temperature. The
radiator cap need not normally be removed.
The coolant level should be at the "Full Cold" mark
when the system is cool or at ambient temperature. After
the vehicle has been driven sufficiently to obtain normal
operating temperatures, the level should be above the "Full
Cold" mark.
Periodically, the radiator cap should be removed to
observe coolant level in the radiator.
CAUTION:The radiator coolant level should only
be checked when the engine is cool. If the radiator
cap is removed from a hot cooling system, serious
personal injury may result.
Coolant levels in crossflow radiators with coolant
recovery bottles should be maintained to the top of the filler
neck.
The recovery bottle should be at its appropriate mark
when checked.
Regardless of whether freezing temperatures are
expected or not, cooling system protection should be
maintained at least to -34°F (-37°C), to provide adequate
corrosion protection and loss of coolant from boiling. With
glycol content less than requirement for -34°F (-37°C )
protection, coolant boiling point is less than the temperature
indicating light setting. When adding solution due to loss of
coolant for any reason or in areas where temperatures lower
than -34°F (-37°C) may occur, a sufficient amount of an
ethylene glycol base anti-freeze that meets GM Specifica
tion 1899-M should be used.
NOTICE: Alcohol or methanol base anti-freeze, or plain
water, are not recommended for your engine at any
time. They will not provide proper protection against
corrosion.
Flushing Cooling System
Fig. 6B-1--Radiator Pressure Cap
Various methods and equipment may be used to
perform this service. If special equipment such as a back
flusher is used, equipment manufacturer’s instructions
should be followed. However, it is advisable to remove the
thermostat before flushing the system.
LIG H T T R U C K SE RV IC E M AN U AL
6B-2
ENGINE COOLING
THERMOSTAT
The thermostat consists of a restriction valve actuated
by a thermostatic element. This is mounted in the housing at
the cylinder head coolant outlet above the water pump on
L-6, and in the forward part of the intake manifold, under
the coolant outlet on "small block" and "Mark". Thermo
stats are designed to open and close at predetermined
temperatures and if not operating properly should be
removed and tested.
ALL L6 ENGINES AND ALL V8 ENGINES EXCEPT DIESEL
GENERATOR
A.I.R. PUMP
P/S PUMP
50 LB.
(222 N)
MIN.
A/C
COMPRESSOR
65 LB.
(289 N)
MIN.
ADJUST TO 75 + 5 LBS. USED
(334 ± 22 N)
ADJUST TO 125 ± 5 LBS. NEW
(556 + 22 N)
ADJUST TO 95 ± 5 LBS. USED
(423 + 22 N)
ADJUST TO 140 ± 5 LBS. NEW
(623 ± 22 N)
5.7L — V8 DIESEL
GENERATOR
P/S PUMP
A.I.R. PUMP
(NON A/C)
70 LB.
(311 N)
MIN.
A/C
COMPRESSOR
A.I.R. PUMP
80 LB.
(356 N)
MIN.
ADJUST TO 75 ± 5 LBS. USED
(334 ± 22 N)
ADJUST TO 110-140 LBS. NEW
(480-623 N)
ADJUST TO 90 ± 5 LBS. USED
(400 ± 22 N)
ADJUST TO 135-165 LBS. USED
(600-734 N)
Fig. 6B-2--Drive Belt Tension Specifications
LIG H T T R U C K SE RV IC E M A N U A L
ENGINE COOLING
ADJU STM EN T
BOLT
DJUSTM ENT BOLT
IN LIN E
PIVOT
BOLT
6B-3
IN L IN E /L 2 5
PIVOT
BOLT
VIEW
ADJU STM EN T BO LT
PIVO T BOLT
S M A L L BLOCK
DIESEL - EXCEPT A /C
ADJU STM EN T BOLT
PIVO T
BOLT
PIV O T BOLT
[ v i ew]
ADJU STM EN T
BOLTS
A
D IE S E L -A /C EQUIPPED
Fig. 6B-3--Generator Adjustment
6B-4
ENGINE COOLING
IIM LINE/LE3
IN |iN E /W 5 ^ "
B0LT
^
^
ADJUSTMENT NUT
A D JUSTM EN^^
SMALL BLOCK - *P' & 'G'
SMALL BLOCK-EXCEPT 'P' & 'G'
ADJUSTMENT
-W '
ll
^^JPIVOT BOLT
NUT
& NUT
MK IV
DIESEL
Fig. 6B-4--P/S Pump Adjustment
ENGINE COOLING
6B-5
PIVOT BOLT
& NUT
ADJUSTMENT BOLT
PIVOT BOLT
ADJUSTMENT
'I
BOLT
ADJUSTMENT BOLT
IN LINE-'G' MODEL
■BRACE
ADJUSTING
BOLT
.SUPPORT
ADJUSTMENT
BOLTS.!
V
PIVOT BOLT
A L L W ITH SM ALL BLOCK & C-69
^
LOOSEN (4) AND
TURN ADJUSTING BOLT
VIEW
SMALL BLOCK-EXCEPT 'G ', LS9, LT9, L69
SMALL BLOCK 'G' MODEL
.BRACE
ADJUSTMENT
BOLT
\
SUPPORT,
.SUPPORT
TAPPED HOLE
■PIVOT BOLT
.ADJUSTMENT/
BOLTS
PIVOT
BOLT
Fig. 6B-5--A/C Compressor Adjustment
LIG H T T R U C K SERVICE M AN U AL
6B-6
ENGINE COOLING
Fig. 6B-5A--A/C and A.I.R. Adjustment
L IG H T T R U C K SE RV IC E M A N U A L
ENGINE COOLING
DRIVE BELTS
Frayed or cracked belts should be replaced and tensioned to specifications using a strand tension gage, such as
tool J-23600-B or equivalent.
Loose belts may place an extremely high impact load
on driven component bearings due to the whipping action of
the belt.
An over tightened belt places unnecessary loads on the
component bearings.
6B-7
In figure 6B-2, the minimum reading is the lowest
allowable setting before the belt must be reset. When
readjusting, the adjustment specification should be met.
When adjusting a drive belt, it is important that the proper
adjustment specification be used. Refer to figures 6B-3 thru
6B-5 for adjustment.
• A ’Used’ belt is one that has been rotated at least one
complete revolution on engine pulleys. This begins
the ’seating’ of the belt and it should never be reset to
’N ew ’ belt specifications.
DIAGNOSIS
If the cooling system requires frequent addition of
coolant in order to maintain the proper level, check all units
and connections in the cooling system for evidence of
leakage. Inspection should be made with cooling system
cold. Small leaks which may show dampness or dripping can
easily escape detection when the engine is hot, due to the
rapid evaporation of coolant. Tell-tale stains of grayish
white or rusty color, or dye stains from anti-freeze, at joints
in cooling system are almost always sure signs of small leaks
even though there appears to be no damage.
Air may be drawn into the cooling system through
leakage at the water pump seal or through leaks in the
coolant recovery system. Gas may be forced into the cooling
system through leakage at the cylinder head gasket(s) even
though the leakage is not sufficient to allow coolant to enter
the combustion chamber.
SYSTEM CHECKS
Exhaust Leaks
To check for exhaust leaks into the cooling system,
drain the system until the coolant level stands just above the
top of the cylinder head(s), then disconnect the radiator
upper hose and remove the thermostat and fan belt(s). Start
the engine and quickly accelerate several times. At the same
time note any appreciable coolant rise or the appearance of
bubbles which are indicative of exhaust gases leaking into
the cooling system.
NOTICE: A defective head gasket may allow exhaust
gases to leak into the cooling system. This is particu
larly damaging to the cooling system as the gases
combine with the water to form acids which are
harmful to the radiator and engine.
Water Pump
Water pump operation may be checked by running the
engine while squeezing the radiator upper hose (engine
warm). A pressure surge should be felt. Check for a plugged
venthole in pump.
Radiator
Test for restriction in the radiator, by warming the
engine up and then turning the engine off and feeling the
radiator. The radiator should be hot along the left side and
warm along the right side, with an even temperature rise
from right to left. Cold spots in the radiator indicate clogged
sections.
Thermostat
An operational check of the thermostat can be made by
hanging the thermostat on a hook in a 33% glycol solution
25°F (4°C) above the temperature stamped on the thermo
stat valve. Submerge the valve completely and agitate the
solution thoroughly. Under this condition the valve should
open. Remove the thermostat and place in a 33% glycol
solution 10°F (-12°C) below temperature indicated on the
valve. With valve com pletely submerged and coolant
agitated thoroughly, the valve should close completely.
Overheat and/or Noise
Engine overheat and/or cooling system noise may be
caused by restrictions in the cooling system.
Components which may be prone to this condition are
cylinder head, water pump, block, thermostat housing and
inlet manifold. Symptoms of this condition are as follows:
• Engine may make snapping/cracking noises.
• Heater core may gurgle or surge.
• Radiator hoses may collapse and expand.
• Heater hoses may vibrate and thump.
• Overheat light may or may not come on.
Symptoms are the result of coolant boiling at some
localized area and may be noticed after extending idling
and/or while being driven. Determine which side of the
engine is involved and whether it is more at the front or rear
of engine.
Diagnosis & Inspection
1. Isolate area of engine the localized boiling is originat
ing from. This can be done by probing engine with a
sounding bar (large screw driver).
2. With radiator cap removed, observe water being
circulated in radiator. Feel the front area of radiator
for cold spots which indicate blockage. Blocked radia
tors generally occur on units that have accrued miles
and not on new vehicles.
CAUTION:The radiator cap should be removed
from a cool engine only. If the radiator cap is
removed from a hot cooling system, serious per
sonal injury may result.
3. Inspect thermostat to see if it opens completely.
4. Inspect thermostat housing to make sure it is com
pletely free of obstructions.
5. Remove water pump from vehicle and remove the back
cover on the pump. All internal passages can be
inspected using a flash light.
L IG H T T R U C K SERVICE M AN U AL
6B-8
ENGINE COOLING
6. Inspect cross over at the front of the inlet manifold.
This entire passage can be seen with only the thermo
stat removed.
7. Remove heads, but lay them aside for now and check
the block first because the heads are the most complex
pieces as far as coolant passages are concerned.
8. With water pump and heads removed, ALL coolant
passages C A N be inspected by using a pen light flash
light. All water jacket areas can be seen directly and a
block should never be replaced as being suspect unless
the restricted area can be DIRECTLY SEEN .
9. If none of the above inspections reveal the problem
area, the heads must be considered prime suspect.
Heads with blocked coolant passages generally have
more than one area that is blocked. Inspect the heads
for signs of overheat discoloration (a dark blue or black
area). If none are found look in the coolant passages for
blockage and probe all passages that are accessible.
The head is very intricate and all passages cannot be
reached. Use a probe that is fairly substantial as a tag
wire may go through or around a partially blocked
area. If nothing is found by visual inspection and
probing, inspect the passages for a rough ragged
appearance. The roughest internal passages are proba
bly the ones that are blocked.
Replace a blocked or suspect head and inspect the
replacement head in the same manner before installing
it.
FAN CLUTCH
1
Noise
Fan noise is sometimes evident under the following
normal conditions:
LIG H T T R U C K SE RV IC E M A N U A L
• When clutch is engaged for maximum cooling.
• During first few minutes after start-up until the
clutch can re-distribute the silicone fluid back to its
normal disengaged operating condition after over
night settling.
Fan noise or an excessive roar will generally occur
continuously, however, under all high engine speed condi
tions (2500 r.p.m. and up) if the clutch assembly is locked
up due to an internal failure. If the fan cannot be rotated by
hand or there is a rough grating feel as the fan is turned, the
clutch should be replaced.
2. - Looseness
Under various temperature conditions, there is a visible
lateral movement that can be observed at the tip of the fan
blade. This is a normal condition due to the type of bearing
used. Approximately 1/4" (6.5m m ) maximum lateral
movement measured at the fan tip is allowable. This is not
cause for replacement.
3. - Silicone Fluid Leak
The operation of the unit is generally not affected by
small fluid leaks which may occur in the area around the
bearing assembly. If the degree of leakage appears exces
sive, however, proceed to item 4.
4. - Engine Overheating
If the fan and clutch assembly free-wheels with no drag
(revolves over 5 times when spun by hand), the clutch should
be replaced.
ENGINE COOLING
6B-9
ENGINE COOLING SYSTEM COMPLAINT
TO AVO ID NEEDLESS TIME AND COST IN DIAGNOSING COOLING SYSTEM COMPLAINTS, THE CUSTOMER
SHOULD BE QUESTIONED ABOUT D R IVIN G CONDITIONS THAT PLACE ABNORM AL LOADS ON THE COOLING
SYSTEM.
1. DOES OVERHEATING OCCUR WHILE PULLING A TRAILER ?
IF ANSWER IS "Y E S " - HOW HEAVY IS TRAILER? IF TRAILER WEIGHT IS GREATER THAN 2,000 LBS. & CAR IS EQUIPPED
WITH NORMAL DUTY COOLING SYSTEM, A HEAVY DUTY COOLING PACKAGE IS REQUIRED [PER MFR'S TRAILER HAULING
SPECS.). FURTHER DIAGNOSTIC CHECKS SHOULD NOT BE REQUIRED.
2. IS CAR EQUIPPED WITH A D D -O N OR AFTER MARKET AIR CONDITIONING SYSTEM?
IF ANSWER IS "YES” - WAS HEAVY DUTY RADIATOR INSTALLED WITH THE SYSTEM? IF NOT, INSTALL HEAVY DUTY AIR
CONDITIONING RADIATOR FOR THE CAR MODEL INVOLVED [PER MANUFACTURER'S SPECS.]. FURTHER DIAGNOSTIC
CHECKS SHOULD NOT BE REQUIRED.
3. IS OVERHEATING OCCURRING AFTER PROLONGED IDLE. IN GEAR. A/C SYSTEM OPERATING?
IF ANSWER IS "Y E S " - INSTRUCT OWNER ON DRIVING TECHNIQUES THAT WOULD AVO ID OVERHEATING SUCH AS:
a. IDLE IN NEUTRAL AS MUCH AS POSSIBLE - INCREASE ENGINE R.P.M. TO GET HIGHER AIR FLOW & WATER
FLOW THROUGH RADIATOR.
b. TURN A/C SYSTEM OFF DURING EXTENDED IDLES IF OVERHEATING IS INDICATED BY HOT LIGHT OR TEMP. GAGE.
FURTHER DIAGNOSTIC CHECKS SHOULD NOT BE REQUIRED.
4. IS O VERHEATING OCCURRING AFTER PROLONGED D RIVING IN SLOW CITY TRAFFIC, TRAFFIC JAMS.
PARADES. ETC.?
IF ANSWER IS "Y E S " - INSTRUCT OWNER ON DRIVING TECHNIQUES THAT WOULD AVO ID OVERHEATING - SAME AS
FOR PROLONGED IDLES - NO. 3. FURTHER DIAGNOSTIC CHECKS SHOULD NOT BE REQUIRED.
IF NONE OF THE ABOVE APPLY, GO TO DIAGNOSTIC CHART
TO EFFECTIVELY USE THIS CHART, QUESTION THE OWNER TO DETERMINE WHICH OF THE FOLLOWING
[3] CATEGORIES APPLIES TO THE COMPLAINT:
1. HOT LIGHT OR HOT INDICATION ON TEMPERATURE GAGE
2. BOILING
3. COOLANT LOSS
1. IF COMPLAINT IS HOT LIGHT OR HOT INDICATIO N ON TEMPERATURE GAGE WAS HOT LIGHT ACCOMPANIED BY BOILING? IF ANSWER IS "Y E S ",
GO TO
IF ANSWER IS "N O ", GO TO
2. IF COMPLAINT IS BOILING -
GO TO
B O IL IN G
BOILING
HOT LIGHT
ON CHART
ON CHART
ON C H AR T
3. IF COMPLAINT IS COOLANT LOSS DETERMINE IF CUSTOMER IS O VERFILLING THE SYSTEM, THIS WOULD NORM ALLY RESULT IN SMALL AMOUNTS OF
COOLANT LOSS THROUGH THE OVERFLOW TUBE. IF THIS IS THE CASE, INSTRUCT THE CUSTOMER ON PROPER F ILL
LEVEL & NO FURTHER DIAGNOSTIC CHECKS SHOULD BE REQUIRED.
IF OVERFILLING IS NOT THE PROBLEM, GO TO
NOTICE: AN Y TIM E COOLING SYSTEM
D RAIN ED AND FLUSHED.
COOLANT LOSS ON CHART.
IS OBVIOUSLY CONTAM INATED, THE SYSTEM SHOULD BE
\>
/
. y •
j S
( CJ X
CAUTION - THE COOLING SYSTEM IS DESIGNED TO OPERATE AT 15 P.S.I. PRESSURE & TEMPERATURES
EXCEEDING 200° F. CAUTION SHOULD BE EXERCISED WHEN REMOVING PRESSURE CAP OR
SERVICING THE SYSTEM.
.
1316
L IG H T T R U C K SERVICE M A N U A L
6B-10
CHART
ENGINE COOLING
DIAGNOSIS
H O T L IG H T
C O O L A N T LOSS
B O IL IN G
(or Tem p. Gage)
•'ON” OR
C H E C K P R E S S U R E CA P
HOT TEMP
C H EC K PRESSURE CAP
Use Pressure Cap Tester Per
C H E C K BULB
Chassis Service M anual
OK
C H E C K S E N D IN G U N IT
Use Pressure Cap Tester Per
Chassis Service M anual
REPLACE
OK
O.K.
A N T I FREEZE
REPLACE
CHECK C O O LA N T LE V E L
P R O T E C T IO N
REPLACE
i_fdE
V IS U A L S Y S T E M C H E C K
T O SPEC.
YES
ADD
1. L E A K S
Check Hoses, R a d ia to r, Clamps,
W ater Pum p, Therm ostat Housing, Rad.
D ra in , S o ft or Core Plugs, Heater W ater
H O T L IG H T
G O TO " B O IL IN G ”
OR LOW
TEMP?
ON C H A R T
CH E C K S E N D IN G U N IT
(or Tem p. Gage)
■’O N” OR
HOT TEMP
Valves, Heater Core.
ON CAR TH E R M O S TA T CHECK J
_____________________________________ * SEE T H E R M O S T A T
D IA G N O S T IC C H A R T
2. F O A M IN G C O O L A N T
Observe
neck after engine w arm up.
3. O V E R F L O W
F A N B E L T T E N S IO N
T IG H T E N TO SPEC.
in fille r
S Y S T E M (Sem i-Sealed
System)
A . Check fo r Gasket in Pressure Cap.
B. Check fo r Leaks • Hoses, Clam ps. O ver
REPLACE
flo w B o ttle , F ille r Neck N ipple.
C. Check fo r O bstructions or Plugging
in
Hose Betw een R adiator and B o ttle.
NO
/
I
C O L L A P S E D UPPER OR
LO W ER R A D IA T O R
HOSE?
SYSTEM
O .K .
\
J
R E P A IR OR
REPLA CE D E FEC TS
D IR T , BU GS, B E N T F IN S . E T C . |
B L O C K IN G R A D IA T O R OR
A /C C O N D E N S E R ?
1
YES
C L E A N OR
S T R A IG H T E N
PRESSURE CHECK SYSTEM
Install Pressure Cap Checker on
R a dia tor F ille r Neck and Pressurize
I
1
1
1
System to Rated Pressure.
NO
I f System Does not H o ld Pressure,
L po k fo r Leak Location.
A N Y F IX E S A B O V E ?
NO
If
none
of
the
above
required
repair, the problem
is
out of the ordinary or of a m ajor nature.
Listed on
Sheet 3 are tw o groups o f p roblem areas th at should be
checked in the order listed.
R E P A IR
ENGINE COOLING
6B-11
ON VEHICLE SERVICE
WATER PUMP
Removal - L6
1.
2.
3.
4.
Disconnect battery negative cable at battery.
Drain cooling system.
Remove accessory drive belts.
Remove fan to water pump hub (or fan clutch to water
pump hub) attaching bolts (or nuts) and remove fan
and pulley.
5. Remove lower radiator hose and heater hose from
water pump.
6. Remove water pump to block attaching bolts and
remove water pump.
• On some vehicles, the generator adjusting brace is
retained by one of the water pump to block bolts. If
necessary, loosen generator adjusting bolt to allow
this brace to be moved away from pump to prevent
removal interference.
Installation - L6
1. With clean sealing surfaces on both water pump and
block, place new gasket on water pump, mount on block
and retain with attaching bolts. Torque bolts to 15 lb.
ft. (20 N-m).
• If generator adjusting brace was moved, move to
original position before torquing water pump bolts.
2. Install lower radiator hose and heater hose to pump.
3. Install water pump pulley and fan (or fan clutch
assem bly) on water pump hub. Torque retaining
fasteners to 30 N-m (25 N-m if engine has fan clutch
assembly).
4. Install accessory drive belts and adjust to specifications.
5. Connect battery negative cable.
6. Fill cooling system with an ethylene glycol anti-freeze
and water mixture of 50/50%.
7. Start engine and run, with radiator cap removed, until
radiator upper hose becomes hot (thermostat open).
8. With engine idling, add coolant taradiator until level
reaches bottom of filler neck.
9. Install cap, making sure arrows line up with overflow
tube.
Removal - V8
1.
2.
3.
4.
5.
6.
7.
8.
Disconnect battery negative cable at battery.
Drain cooling system.
Remove accessory drive belts.
Remov^fan to water pump hub (or fan clutch to water
pump hub) attaching bolts (or nuts) and remove fan
and pulley.
Remove generator lower brace to water pump attach
ing bolts and swing brace down and out of way.
Remove generator upper brace to water pump attach
ing bolts.
Remove lower radiator hose and heater hose from
water pump. On 7.4 liter engine, remove by-pass hose.
Remove water pump to block attaching bolts and
remove pump.
Installation - V8
If installing new water pump, transfer heater hose
fitting from old unit. On 7.4 liter engine, also transfer by
pass fitting.
1. With clean sealing surfaces on both water pump and
block, place a 1/8 " (3mm) bead of RTV, # 1052366 or
equivalent, along the sealing edge of each water pump
leg. Place pump against block and retain with attaching
bolts. Torque bolts to 20 N-m.
2. Attach lower radiator hose and heater hose to water
pump. On 7.4 liter engine, install by-pass hose.
3. Attach generator upper and lower braces to water
pump. Torque bolts to 35 N-m.
4. Install water pump pulley and fan (or fan clutch) to
water pump hub. Torque fasteners to 30 N-m.
5. Install accessory drive belts. Adjust to specifications.
6. Connect battery negative cable.
7. Fill cooling system with an ethylene glycol anti-freeze
and water mixture of 50/50%.
8. Start engine and run, with radiator cap removed, until
radiator upper hose becomes hot (thermostat open).
9. With engine idling, add coolant to radiator until level
reaches bottom of filler neck.
10. Install cap, making sure arrows line up with overflow
tube.
Removal - Diesel
1. Drain radiator.
2. Disconnect lower radiator hose at water pump.
3. Disconnect heater hose and by-pass hose at water
pump.
4. Remove fan assembly.
5. Remove all pulley belts.
6. Remove water pump pulley.
7. Disconnect generator, P /S pump bracket and, if
equipped, A /C compressor bracket.
8. Remove water pump attaching bolts and water pump.
Installation - Diesel
1. Transfer studs to new water pump, if applicable.
2. Clean gasket material from engine block.
3. Apply a thin coat of # 1050026 sealer, or equivalent, to
the water pump housing to retain gasket, then position
new gasket on housing.
4. Reverse removal procedure.
5. Adjust belts to specifications.
6. Refill cooling system.
THERMOSTAT
Removal (All Engines)
1. Disconnect battery negative cable at battery.
2. Drain cooling system until radiator coolant level is
below thermostat.
3. Remove water outlet attaching bolts and remove outlet.
Remove thermostat.
LIG H T T R U C K SERVICE M AN U AL
6B-12
ENGINE COOLING
Installation (All Engines)
Prior to installing thermostat, make sure thermostat
housing and coolant outlet sealing surfaces are clean.
1. Place a 1/8" (3mm) bead of RTV sealer, # 1 0 5 2 3 6 6 or
equivalent, all around the coolant outlet sealing surface
on the thermostat housing.
2. Place thermostat in housing.
3. Install coolant outlet while RTV is still wet. Torque
retaining bolts to 20 lb. ft. (27 N-m).
4. Connect battery negative cable.
5. Fill cooling system with an ethylene glycol anti-freeze
and water mixture of 50/50%.
6. Start engine and run, with radiator cap removed, until
radiator upper hose becomes hot (thermostat open).
7. With engine idling, add coolant to radiator until level
reaches bottom of filler neck.
8. Install cap, making sure arrows line up with overflow
tube.
RADIATOR (FIG. 6B-6 THRU 6B-9)
5. Connect battery negative cable.
6. Fill cooling system with an ethylene glycol anti-freeze
and water mixture of 50/50%.
7. Start engine and run, with radiator cap removed, until
radiator upper hose beocmes hot (thermostat open).
8. With engine idling, add coolant to radiator until level
reaches bottom of filler neck.
9. Install cap, making sure arrows line up with overflow
tube.
FAN SHROUD (FIG. 6B-10 THRU 6B-12)
Removal (CK Series)
1. Disconnect battery negative cable.
2. Remove fan shroud to radiator retainer attaching
screws.
3. Remove fan clutch to water pump hub attachments.
4. Remove shroud by pulling up and out of lower retaining
clips. Fan shroud and fan clutch assembly must be
removed together.
Installation (CK Series)
Removal (G & CK Series)
1.
2.
3.
4.
5.
6.
Disconnect battery negative cable at battery.
Drain cooling system.
Remove radiator hoses from radiator.
Remove overflow hose from radiator.
Remove fan shroud.
Remove radiator to radiator support retainers (upper
mounting panel on "CK ") and remove radiator.
Installation
1. Place radiator in vehicle and install radiator to radiator
support retainers.
2. Install fan shroud.
3. Connect overflow hose to radiator.
4. Connect radiator hoses to radiator.
1. Lower fan shroud and fan clutch along back of radia
tor. Make sure lower edge fits into lower retaining clips.
2. Install fan clutch to water pump attachm ents and
torque to 27 N-m.
3. Install shroud to radiator retainer attaching screws.
Torque to 6 N-m.
4. Connect battery negative cable.
Removal ( "G" Series-V8 Engines)
1.
2.
3.
4.
5.
6.
Disconnect battery negative cable.
If A /C equipped, remove vacuum reservoir.
Remove windshield washer jar and bracket.
Remove shroud retaining screws.
Remove radiator support bracket.
Remove dip stick from engine (transmission also if
equipped with automatic).
7. Remove radiator hose strap from shroud.
8. Remove fan shroud from water pump (leave pulley),
then remove fan and shroud together.
Installation ( " G" Series-V8 Engines)
1. Install fan and shroud together then, attach fan to
water pump.
2. Attach radiator hose strap to shroud.
3. Install dipstick in engine and, where applicable, in
transmission.
4. Install radiator support bracket.
5. Install shroud retaining screws.
6. Install windshield washer jar and bracket.
7. If equipped with A /C , install vacuum reservoir.
8. Connect battery cable.
FAN/FAN CLUTCH
Removal (All)
1. Remove battery negative cable at battery.
2. Remove radiator fan shroud as required.
LIG H T T R U C K SE RV IC E M AN U AL
ENGINE COOLING
6B-13
CK 2 0 0 -3 0 0 5.7 AUTO-ALL
CK-100 5 .0 -5 .7 AUTO W / A / C
OR H.D. COO LING
6.6-7.4-ALL
5.7-DIESEL-ALL
5 .0 -5 .7-M AN.-ALL
CK-100 5 .0 -5 .7-AUTO W / O A /C
OR H.D. COOLING
4.1-4.8-ALL W / A / C
4.1-4.8-ALL W / O
A /C
Fig. 6B-7--'CK' Radiator Mounting
RADIATOR.
SUPPORT
RADIATOR SUPPORT
BRACE
P000(42)
RADIATOR ASM
0
m
Mounting location fo r L25
&M15 or M20.
RADIATOR
Mounting location fo r L25
&M38 or M40; &LS9.
W /L F 8
EXC. LF8
Fig. 6B-8--'P' (42) R adiator Mounting
3. Remove fan clutch hub-to-water pump hub attaching
bolts or nuts, as applicable, and remove fan clutch
assembly.
4. Remove fan from fan clutch hub.
Installation (All)
CAUTION:lf a fan blade is bent or damaged in
any way, no attempt should be made to repair
and/or reuse the damaged part. A bent or dam
aged fan assembly should always be replaced
with a new fan assembly.
It is essential that the fan assembly remain in
proper balance. Balance cannot be assured once a
fan assembly has been bent or damaged. A fan
assembly that is not in proper balance could fail
and fly apart during subsequent use, creating an
extremely dangerous condition.
All mating surfaces (water pump hub and fan clutch
hub) should be inspected for smoothness and reworked as
necessary to eliminate burrs or other imperfections.
1. With fan on fan clutch hub, install fan clutch assembly
to water pump hub. Torque attaching bolts, or nuts, to
20 lb. ft. (27 N-m). Be sure to align reference marks on
both hubs.
2. Install radiator shroud as required.
3. Connect battery negative cable.
COOLANT RECOVERY BOTTLE (FIG. 6B-13 & 6B14)
Removal
1. Disconnect battery negative cable.
2. Remove coolant overflow hose from recovery bottle.
3. Remove recovery bottle retaining fasteners and remove
bottle from vehicle.
LIG H T T R U C K SERVICE M AN U AL
6B-14
ENGINE COOLING
STUD
B R AKE C YL
SUPPORT
VIEW
[z ]
[^ C A U T IO N ] Radiator Support Asm is
not a structural member. No Body
Mtg Supports o r other attachments
used fo r structural purposes are to be
fastened to Radiator Support Asm.
Upper & lo w e r ra d ia to r su p p orts
must be in sta lle d w ith studs in
fo rw a rd p o s itio n .
Fig. 6B-9--'P' (32) Radiator Mounting
In sta lla tio n
When installing coolant recovery bottle, make sure unit
is clean and free from contamination. If needed, wash bottle
with soap and water. Rinse thoroughly.
1. Install bottle in vehicle and retain with appropriate
fasteners.
2. Connect coolant overflow hose to recovery bottle.
3. Fill recovery bottle to appropriate mark with a 50/50
solution of water and ethlyne glycol base anti-freeze.
4. Connect battery cable.
ENGINE OIL COOLER
All truck vehicle lines have available, as either stan
dard or optional equipment, oil coolers for the engine oil. For
the location of these units, refer to figures 6B -15 & 6B -16.
Fig. 6 B -1 0 --"G " Van Fan Shroud
LIG H T TR U C K SE RV IC E M AN U AL
ENGINE COOLING
6B-15
RADIATOR M O U N T IN G PANEL
RADIATOR SUPPORT 5 .0 /5 .7
RADIATOR SUPPORT WITH
7 .4 OR 5.7 DIESEL
RADIATOR M O U N TIN G PANEL
jV IE W
|VIEW
A
&LE3 OR L25
Fig. 6B-11--"CK" Series Fan Shroud
M O T O R H O M E C H A S S IS
P (3 2 )
Fig. 6B-12--"P" Series Fan Shroud
LIG H T T R U C K SERVICE M AN U AL
6B-16
ENGINE COOLING
LIG H T TR U C K SE RV IC E M A N U A L
S T R U T ROD
ENG INE MTG B R K T
CO O LER
/
/
/
R ETU R N HOSE
/
SUPPLY HOSE
A D A P T ASM
Fig. 6B-16--Engine Oil Coolers Except LF9
ENGINE COOLING
'G ' V A N
6B-17
ENGINE FUEL
6C-1
SECTION 6C
ENGINE FUEL
CONTENTS
General...
Diagnosis
Model 1ME Carburetor
Model 2SE Carburetor
6C-1
6C-1
6C1- 1
6C2- 1
Model M 2M E Carburetor
Model M4M Carburetor
Fuel System
6C3- 1
6C4- 1
6C5- 1
GENERAL
ALL N EW GM VEHICLES ARE CERTIFIED BY THE U N ITED
ST A T E S E N V IR O N M E N T A L PRO TECTIO N A G E N C Y A S C O N
FO RM ING TO THE R EQ U IR EM EN TS OF THE REG U LATIO NS
FOR THE CONTROL OF AIR POLLUTION FROM N EW MOTOR
VEHICLES. THIS CERTIFICATION IS C O N T IN G E N T O N CER
T A IN A D JU ST M E N T S BEING SET TO FACTORY ST A N D A R D S. IN
M OST C A SE S, TH ESE A D JU ST M E N T PO IN T S EITH ER HAVE
BEEN PE R M A N E N T L Y SEALED A N D /O R MADE INA CCESSIBLE
TO PREVENT IN D ISC R IM IN A T E OR ROUTINE A D JU ST M E N T IN
THE FIELD. FOR THIS REA SO N , THE FACTORY PROCEDURE
FOR TEM PORARILY REM OVING PLUGS, CAP, ETC., FOR PU R
POSES OF SE R V IC IN G THE PR O D U C T, M U ST BE STR IC TLY
FOLLOW ED A N D , W HEREVER PRACTICABLE, R E T U R N E D TO
THE O R IG IN A L IN TEN T OF THE DESIGN.
This section, divided into sub-sections by carburetor
model, covers the repair and adjustment procedure for fuel
system components. Typical illustrations and procedures are
used except where specific illustrations or procedures are
necessary to clarify the operation.
NOTICE: All engines require the use of unleaded fuel
only. Use of leaded and/or low lead fuel can result in
engine damage and reduce the effectiveness of the
Emission Control Systems.
LIG H T T R U C K SERVICE M A N U A L
6C-2
ENGINE FUEL
CARBURETOR DIAGNOSIS
T h e fo llo w in g d ia g n o s tic p ro c e d u re s are f o r c a r b u re to r re la te d p ro b le m s a n d th e ir e ffe c ts o n c a r p e rfo rm a n c e . O th e r syste m s o f th e c a r can
also cause s im ila r p ro b le m s a n d s h o u ld be c h e c k e d w h e n lis te d o n th e c h a r t. T h e p r o b le m areas d e s c rib e d are:
1.
E n g in e c ra n k s n o r m a lly . W ill n o t s ta rt.
2.
E n g in e s ta rts a n d sta lls .
3.
E n g in e s ta rts h a rd .
4.
E n g in e id le s a b n o rm a lly a n d / o r sta lls.
5.
In c o n s is te n t e n g in e id le speeds.
6.
E n g in e die se ls (a fte r- ru n ) u p o n s h u t o f f .
7.
E n g in e h e sita te s o n a c c e le ra tio n .
8.
E n g in e has less th a n n o rm a l p o w e r a t lo w speeds.
9.
E n g in e has less th a n n o rm a l p o w e r o n h e a vy a c c e le ra tio n o r a t h ig h speed.
10.
E n g in e surges.
11.
P o o r gas m ile a ge .
C O N D I T IO N
E n g in e C ra n k s N o r m a lly
P O S S IB L E C A U S E
Im p r o p e r s ta rtin g p ro c e d u re used.
- W ill N o t S ta r t.
C O R R E C T IO N
C h e c k w it h th e c u s to m e r t o d e te rm in e
if p r o p e r s ta rtin g p ro c e d u re is used,
as o u t lin e d in th e O w n e r's M a n u a l.
C h o k e va lve n o t o p e ra tin g
p r o p e r ly .
A d ju s t th e c h o k e th e r m o s ta tic c o il
to s p e c ific a tio n . C h e c k th e c h o k e
va lv e a n d /o r lin k a g e as nece ssa ry.
R e p la c e p a rts i f d e fe c tiv e . I f caused
b y fo re ig n m a te ria l a n d g u m , clea n w it h
s u ita b le n o n - o il base s o lv e n t.
N O T E : A f t e r a n y c h o k e s y s te m w o r k , c h e c k
c h o k e v a c u u m b re a k s e ttin g s a n d c o r r e c t
as necessary.
N o fu e l in c a rb u re to r .
R e m o v e fu e l lin e a t c a r b u r e to r . C o n n e c t
hose to fu e l lin e a n d ru n in t o m e ta l
c o n ta in e r . R e m o v e th e w ir e fr o m th e " b a t "
te r m in a l o f th e d is t r ib u t o r . C ra n k
o v e r e n g in e — i f th e re is n o fu e l d is
ch arg e f r o m th e fu e l lin e , te s t fu e l
p u m p as o u t lin e d in S e c tio n 6 . I f fu e l
s u p p ly is o k a y , c h e c k th e f o llo w in g :
a. In s p e c t fu e l in le t f il t e r . I f
p lu g g e d , re p la c e .
b . I f fu e l f i l t e r is o k a y , re m o v e a ir
h o rn a nd c h e c k f o r a b in d in th e
f lo a t m e c h a n is m o r a s tic k in g in le t
n e e d le . I f o k a y , a d ju s t f lo a t as s p e c ifie d .
E n g in e flo o d e d . T o c h e c k
R e m o v e th e a ir h o r n .
f o r flo o d in g , re m o v e th e a ir
cle a n e r w it h th e e n g in e
C h e c k fu e l in le t n e e d le a n d seat f o r
im m e d ia te ly s h u t o f f a nd
p r o p e r seal. I f a n e e d le a n d seat
lo o k in t o th e c a rb u r e to r
te s te r is n o t a v a ila b le , a p p ly v a c u u m
b ore s. F uel w il l be d r ip p in g
to th e n e e d le seat w it h n e e d le in s ta lle d .
o f f n o zzle s.
I f th e n e e d le is le a k in g , re p la c e .
C h e c k f lo a t f o r fre e m o v e m e n t,
b e n t f lo a t h a n g e r o r b in d s in th e
f lo a t a rm .
I f fo r e ig n m a te ria l is in fu e l s y s te m , cle a n
th e s y s te m a nd re p la c e fu e l filt e r s as
n ece ssa ry. I f e xcessive fo r e ig n m a te ria l is
fo u n d , c o m p le te ly d is a s s e m b le a n d c le a n .
Fig. 6C-1--Diagnosis 1 of 8
LIG H T T R U C K SERVICE M A N U A L
ENGINE FUEL
6C-3
CARBURETOR DIAGNOSIS CONT'D.
CONDITION
E n g in e S ta rts — W ill
CORRECTION
POSSIBLE CAUSE
C h e c k fu e l p u m p p re ssu re a n d v o lu m e , re p la c e
Fuel pum p.
i f n e ce ssa ry. See F U E L S Y S T E M D IA G N O S IS ,
N o t K e e p R u n n in g
S e c tio n 6 .
Id le speed.
A d ju s t id le t o s p e c ific a tio n s .
C h o k e h e a te r s y s te m m a l
C h e c k v a c u u m s u p p ly a t h o t a ir in le t
f u n c tio n in g (m a y cause
t o c h o k e h o u s in g . S h o u ld be n o t less
th a n m a n ifo ld v a c u u m m in u s 3 " H g. w it h
lo a d in g ).
e n g in e r u n n in g a t id le . (E x c . IM V )
C h e c k w ir in g .
C h e c k f o r p lu g g e d , r e s tr ic te d , o r b ro k e n
h e a t tu b e s .
C h e c k r o u t in g o f a ll h o t a ir p a rts .
L o o s e , b ro k e n o r in c o r r e c t
C h e c k c o n d itio n a n d r o u t in g o f all
v a c u u m hose r o u tin g .
v a c u u m hoses — c o r r e c t as necessary.
E n g in e doe s n o t have
C h e c k f o r fre e m o v e m e n t o f fa s t
e n o u g h fa s t id le speed
id le c a m . C le a n a n d / o r re a lig n as
w h e n c o ld .
n ece ssa ry.
C h o k e v a c u u m b re a k u n its
A d ju s t b o th v a c u u m b re a k assem blies
are n o t a d ju s te d to
to s p e c ific a tio n . I f a d ju s te d o k a y ,
s p e c ific a tio n o r are
c h e c k th e v a c u u m b re a k u n its f o r p ro p e r
d e fe c tiv e .
o p e r a tio n as fo llo w s :
T o c h e c k th e v a c u u m b re a k u n its , a p p ly
a c o n s ta n t v a c u u m s o u rc e o f a t least
1 0 " H g ., p lu n g e rs s h o u ld s lo w ly m o ve
in w a rd a n d h o ld v a c u u m . I f n o t , re pla ce
th e u n it .
A lw a y s c h e c k th e fa s t id le ca m a d ju s tm e n t
w h e n a d ju s tin g v a c u u m b re a k u n its .
C h o k e va lve s tic k in g
a n d / o r b in d in g .
C le a n a n d a lig n lin k a g e o r re pla ce
i f n e ce ssa ry. R e a d ju s t a ll c h o k e s e ttin g s ,
see S e c tio n 6 M , i f p a r t re p la c e m e n t
o r re a lig n m e n t is necessary.
I n s u ffic ie n t fu e l in
C h e c k fu e l p u m p p ressure a nd v o lu m e .
C a rb u re to r.
C h e c k f o r p a r t ia lly p lu g g e d fu e l
in le t f il t e r . R e p la c e if c o n ta m in a te d .
C h e c k th e f l o a t level a d ju s tm e n t
f o r b in d in g c o n d itio n . A d ju s t as
s p e c ifie d .
E n g in e S ta rts H a rd
L o o s e , b ro k e n o r in c o r r e c t
C h e c k c o n d itio n a nd r o u tin g o f
(C ra n k s N o r m a lly )
v a c u u m hose r o u tin g .
a ll v a c u u m hoses — c o r r e c t as
nece ssa ry. See S e c tio n 6 E .
I n c o r r e c t s ta r tin g p ro c e d u re .
C h e c k t o be sure c u s to m e r is usin g
th e s ta r tin g p ro c e d u re o u t lin e d in
O w n e r 's M a n u a l.
Fig. 6C-2--Diagnosis 2 of 8
LIG H T T R U C K SERVICE M A N U A L
6C-4
ENGINE FUEL
CARBURETOR DIAGNOSIS CONT'D.
CONDITION
POSSIBLE CAUSE
CORRECTION
E n g in e S ta rts H a rd
M a lf u n c t io n in a c c e le ra to r
C h e c k a c c e le ra to r p u m p a d ju s tm e n t
(C ra n k s N o r m a lly )
p u m p s y s te m .
an d o p e r a tio n .
(C o n tin u e d )
C h e c k p u m p d is c h a rg e b a ll f o r s tic k in g
o r leakage.
C h o k e v a lv e n o t c lo s in g .
A d ju s t c h o k e th e r m o s ta tic c o il. C h e c k
c h o k e v a lv e a nd lin k a g e f o r b in d s a n d
a lig n m e n t. C le a n a nd re p a ir o r re p la c e
as necessary.
V a c u u m b re a k s m is a d ju s te d
C h e c k f o r a d ju s tm e n t a n d fu n c tio n o f
o r m a lfu n c tio n in g .
v a c u u m b re a k s . C o r r e c t as necessary.
In s u ffic ie n t fu e l in b o w l.
C h e c k fu e l p u m p p ressu re a n d v o lu m e .
C h e c k f o r p a r t ia lly p lu g g e d fu e l
in le t f il t e r . R e p la c e i f d ir t y . C h e c k
f lo a t m e c h a n is m . A d ju s t as s p e c ifie d .
F lo o d in g .
C h e c k f lo a t a nd n e e d le a n d seat
f o r p r o p e r o p e r a tio n .
S lo w e n g in e c ra n k in g speed.
R e fe r to s ta r tin g c ir c u it d ia g n o s is .
S e c tio n 6 D .
E n g in e Id le s A b n o r m a lly
In c o r r e c t id le speed.
(T o o fa s t o r to o s lo w )
R ese t id le speed p e r in s tr u c tio n s
o n u n d e r h o o d la b e l.
A i r leaks in t o c a rb u r e to r
C h e c k a ll v a c u u m hoses a nd re s tr ic to r s
b o re s b e n e a th t h r o t t le valve s,
le a d in g in t o th e m a n ifo ld o r c a r b u r e to r
m a n ifo ld lea ks, o r v a c u u m
base f o r leaks o r b e in g d is c o n n e c te d .
hoses d is c o n n e c te d o r in
In s ta ll o r re pla ce as nece ssa ry.
s ta lle d im p r o p e r ly .
T o r q u e c a r b u r e to r to m a n ifo ld b o lts
to 10 f t . lbs. U s in g a p re ssu re o il c a n ,
s p ra y lig h t o il o r ke ro s e n e a ro u n d
m a n ifo ld to head su rfa ce s a n d c a r b u r e to r
t h r o t t le b o d y .
N O T E : D o n o t s p ra y a t t h r o t t l e s h a ft
end s.
I f e n g in e R P M ch an g e s, tig h te n o r re
p la ce th e c a r b u r e to r o r m a n ifo ld gas
k e ts as necessary.
C lo g g e d o r m a lf u n c t io n in g
C h e c k P C V s y s te m . C le a n a n d / o r re p la c e
P C V syste m .
as necessary.
C a rb u r e to r flo o d in g .
R e m o v e a ir h o rn a n d c h e c k f lo a t
a d ju s tm e n ts .
C h e c k b y u s in g p ro c e d u re
o u t lin e d u n d e r " E n g in e
C h e c k f lo a t n e e d le a n d seat f o r p r o p e r
Flooded".
seal. I f a n ee d le a n d seat te s te r is n o t
a v a ila b le , a p p ly v a c u u m t o th e n e e d le
seat w it h n ee d le in s ta lle d . I f th e
n e e d le is le a k in g o r d a m a g e d , re p la c e .
Fig. 6C-3--Diagnosis 3 of 8
LIG H T T R U C K SERVIC E M A N U A L
ENGINE FUEL
6C-5
CARBURETOR DIAGNOSIS CONT'D.
CONDITION
CORRECTION
POSSIBLE CAUSE
E n g in e Id le s A b n o r m a lly
C h e c k f lo a t f o r fre e m o v e m e n t.
(T o o fa s t o r to o s lo w )
C h e c k f o r b e n t f l o a t h a n g e r o r b in d s
( C o n tin u e d )
in th e f l o a t a rm .
I f fo r e ig n m a te r ia l is fo u n d in
th e c a r b u r e to r , c le a n th e fu e l s y s te m
a nd c a r b u r e to r . R e p la c e fu e l f i l t e r
as n e ce ssa ry.
R e s tric te d a ir c le a n e r e le m e n t.
R e p la c e as nece ssa ry.
Id le s y s te m p lu g g e d
C le a n c a r b u r e to r , see S e c tio n 6 C 1 .
o r re s tric te d .
In c o r r e c t id le m ix tu r e
R e a d ju s t p e r s p e c ifie d p ro c e d u re . See
a d ju s tm e n t.
S e c tio n 6 C 1 .
D e fe c tiv e id le s to p s o le n o id ,
C h e c k s o le n o id a n d w ir in g .
id le sp e e d -u p s o le n o id o r
w ir in g .
T h r o t t le b la d e s o r lin k a g e
C h e c k t h r o t t l e lin k a g e a n d t h r o t t le
s tic k in g a n d / o r b in d in g .
b la d e s ( p r im a r y a n d s e c o n d a ry ) f o r
s m o o th a n d fre e o p e r a tio n . C o r r e c t
p r o b le m areas.
E n g in e D iesels ( A ft e r
L o o s e , b ro k e n o r im p r o p e r ly
C h e c k c o n d itio n a n d r o u t in g o f all
R u n ) u p o n S h u t O ff
ro u te d v a c u u m hoses.
v a c u u m hoses. C o r r e c t as necessary.
In c o rr e c t id le speed.
R ese t id le speed p e r in s tr u c tio n s
o n la b e l in e n g in e c o m p a r tm e n t.
M a lf u n c t io n o f id le s to p
C h e c k f o r c o r r e c t o p e r a tio n o f id le
s o le n o id , id le s p e e d -u p
s o le n o id . C h e c k f o r s tic k y o r b in d in g
s o le n o id o r d a s h p o t.
s o le n o id .
F a st id le ca m n o t f u l ly o f f .
C h e c k fa s t id le c a m f o r fr e e d o m o f
o p e r a tio n . C le a n , re p a ir, o r a d ju s t
as r e q u ir e d . C h e c k c h o k e h e a te d a ir
tu b e s f o r r o u t in g , f it t in g s b e in g
t ig h t o r tu b e s p lu g g e d . C h e c k c h o k e
lin k a g e f o r b in d in g . C le a n a nd c o r r e c t
as nece ssa ry.
E x c e s s iv e ly lean c o n d itio n
A d ju s t c a r b u r e to r id le m ix tu r e as
caused b y m a la d ju s te d c a r
d e s c rib e d in S e c tio n 6 C 1 .
b u r e t o r id le m ix tu r e .
Ig n it io n tim in g re ta rd e d .
S e t to s p e c ific a tio n s .
E n g in e H e s ita te s O n
L o o s e , b ro k e n o r in c o r r e c t
C h e c k c o n d itio n a n d r o u tin g o f a ll v a c u u m
A c c e le r a tio n
v a c u u m hose r o u tin g
hoses — c o r r e c t o r re p la c e .
A c c e le r a to r p u m p n o t a d ju s te d
A d ju s t a c c e le ra to r p u m p , re p la c e .
t o s p e c ific a tio n o r in o p e r a tiv e .
In o p e r a tiv e a c c e le ra to r p u m p
R e m o v e a ir h o r n a nd c h e c k p u m p c u p .
I f c ra c k e d , s c o re d o r d is t o r t e d , re
sy s te m .
p la c e th e p u m p p lu n g e r.
Fig. 6C-4--Diagnosis 4 of 8
L IG H T T R U C K SERVICE M AN U AL
6C-6
ENGINE FUEL
CARBURETOR DIAGNOSIS CONT'D.
CONDITION
POSSIBLE CAUSE
CORRECTION
E n g in e H e s ita te s O n
N O T E : A q u ic k c h e c k o f th e
C h e c k th e p u m p d is c h a rg e b a ll f o r
A c c e le ra tio n
p u m p sy s te m can be m a de as
p ro p e r s e a tin g a n d lo c a tio n .
( C o n tin u e d )
fo llo w s : W ith th e e n g in e
o f f , lo o k in t o th e c a r b u r e to r
b o re s a n d o b se rve p u m p n o z z le s
w h ile q u ic k ly o p e n in g t h r o t t le
le ve r. A f u ll s tre a m o f fu e l
s h o u ld e m it f r o m each p u m p
n o z z le .
F o re ig n m a tte r in p u m p passages.
C le a n a n d b lo w o u t w it h c o m p re s s e d
a ir.
F lo a t leve l to o lo w .
C h e c k a nd re set f l o a t le v e l to
s p e c ific a tio n .
F r o n t v a c u u m b re a k d ia p h ra g m
C h e c k a d ju s tm e n t a n d o p e r a tio n o f
n o t f u n c tio n in g p r o p e r ly .
v a c u u m b re a k d ia p h ra g m .
A i r va lve m a lfu n c tio n .
C h e c k o p e r a tio n o f s e c o n d a ry a ir
va lv e . C h e c k s p rin g te n s io n a d ju s tm e n t.
P o w e r e n r ic h m e n t s y s te m n o t
C h e c k f o r b in d in g o r s tu c k p o w e r
o p e ra tin g c o r r e c t ly .
p is to n (s ) — c o r r e c t as nece ssa ry.
In o p e ra tiv e a ir c le a n e r h ea ted
C h e c k o p e r a tio n o f th e r m o s t a tic a ir
a ir c o n t r o l.
c le a n e r s y s te m .
F u e l f i l t e r d ir t y o r p lu g g e d .
R e p la c e f i l t e r a nd clea n fu e l s y s te m as
necessary.
D is t r ib u t o r v a c u u m o r m e c h a n ic a l
C h e c k f o r p r o p e r o p e r a tio n .
ad va n ce m a lfu n c tio n in g .
T im in g n o t to s p e c ific a tio n s .
A d ju s t to s p e c ific a tio n s .
C h o k e c o il m is a d ju s te d (c o ld
A d ju s t t o s p e c ific a tio n s .
o p e ra tio n .)
E G R v a lve s tu c k o p e n .
In s p e c t a nd cle a n E G R v a lv e .
E n g in e Has Less T h a n
L o o s e , b ro k e n o r in c o r r e c t
C h e c k c o n d itio n a nd r o u t in g o f a ll
N o rm a l P o w e r A t N o rm a l
v a c u u m hose r o u tin g .
v a c u u m hoses.
C lo g g ed o r d e fe c tiv e P C V s y s te m .
C le a n o r re p la c e as n e ce ssa ry.
C h o k e s tic k in g .
C h e c k c o m p le te c h o k e s y s te m f o r s tic k in g
A c c e le ra tio n s .
o r b in d in g . C le a n a n d re a lig n as
n ece ssa ry. C h e c k a d ju s tm e n t o f c h o k e
th e r m o s ta tic c o il.
C h e c k c o n n e c tio n s a n d o p e r a tio n o f
c h o k e h o t a ir s y s te m .
C h e c k je ts a n d c h a n n e ls f o r p lu g g in g ;
c le a n a n d b lo w o u t passages.
C lo g g e d o r in o p e ra tiv e p o w e r
R e m o v e a ir h o rn a nd c h e c k f o r fre e
syste m .
o p e r a tio n o f p o w e r p is to n s .
Fig. 6C-5-Diagnosis 5 of 8
L IG H T T R U C K SERVICE M A N U A L
ENGINE FUEL
6C-7
CARBURETOR DIAGNOSIS CONT'D.
CORRECTION
POSSIBLE CAUSE
CONDITION
E n g in e Has Less T h a n
A i r c le a n e r te m p e ra tu r e reg
C h e c k r e g u la tio n a n d o p e r a tio n o f
N o rm a l P o w e r A t N o rm a l
u la tio n im p ro p e r.
a ir c le a n e r s y s te m .
T ra n s m is s io n m a lf u n c t io n .
R e fe r t o tra n s m is s io n d ia g n o s is .
Ig n it io n s y s te m m a lf u n c t io n .
C h e c k ig n itio n s y s te m . See S e c tio n 6 D .
A c c e le ra tio n s . (C o n tin u e d )
R e fe r t o H .E .l. d ia g n o s is .
E x h a u s t s y s te m .
C h e c k f o r r e s tr ic tio n s . C o r r e c t as
re q u ire d .
Less T h a n N o rm a l P o w e r
C a r b u r e to r t h r o t t l e valves
C o r r e c t t h r o t t l e lin k a g e to o b ta in
O n H e a v y A c c e le ra tio n
n o t g o in g w id e o p e n . T u r n o f f
w id e o p e n t h r o t t l e in c a r b u r e to r .
O r A t H ig h Speed
e n g in e a n d c h e c k b y p u s h in g
a c c e le ra to r p e d a l to f lo o r .
S e c o n d a ry t h r o t t le lo c k o u t
n o t a llo w in g s e c o n d a rie s to
C h e c k f o r b in d in g o r s tic k in g lo c k o u t
le v e r.
open.
C h e c k f o r fre e m o v e m e n t o f fa s t id le
ca m .
C h e c k c h o k e h e a te d a ir s y s te m f o r p ro p e r
a n d t i g h t c o n n e c tio n s p lu s f lo w th r o u g h
s y s te m .
C h e c k a d ju s tm e n t o f c h o k e th e r m o s ta tic
c o il.
M a k e nece ssa ry c o r r e c tio n s a nd a d ju s tm e n ts .
S p a rk p lu g s fo u le d , in c o r r e c t
C le a n , re g a p , o r re p la c e p lu g s.
gap.
P lug g e d a ir c le a n e r e le m e n t.
R e p la c e e le m e n t.
A i r va lve m a lf u n c t io n .
C h e c k f o r fre e o p e r a tio n o f a ir v a lve .
(W h e re a p p lic a b le )
C h e c k s p rin g te n s io n a d ju s tm e n t. M a k e
n ecessary a d ju s tm e n ts a n d c o r r e c tio n s .
P lu g g e d fu e l in le t f ilt e r .
R e p la c e w it h a n e w f i l t e r e le m e n t.
In s u ffic ie n t fu e l to c a r b u r e to r .
C h e c k fu e l p u m p a nd s y s te m , ru n p ressu re
a nd v o lu m e te s t. See F U E L S Y S T E M
D IA G N O S IS , S e c tio n 6 .
P o w e r e n r ic h m e n t s y s te m
R e m o v e th e a ir h o r n a n d c h e c k f o r fre e
n o t o p e ra tin g c o r r e c t ly .
o p e r a tio n o f b o th p o w e r p is to n ( s ) , clea n
a n d c o r r e c t as n ece ssa ry.
C h o k e clo se d o r p a r t ia lly
F re e c h o k e v a lv e o r lin k a g e .
c lo s e d .
C h e c k f o r lo o se je ts .
F lo a t level t o o lo w .
C h e c k a n d re set f lo a t level to
s p e c ific a tio n .
Fig. 6C-6--Diagnosis 6 of 8
LIG H T T R U C K SERVICE M A N U A L
6C-8
ENGINE FUEL
CARBURETOR DIAGNOSIS CONT'D.
CONDITION
Less T h a n N o rm a l P o w e r
POSSIBLE CAUSE
CORRECTION
T ra n s m is s io n m a lf u n c t io n .
R e fe r to tra n s m is s io n d ia g n o s is .
I g n it io n s y s te m m a lf u n c t io n .
C h e c k ig n itio n s y s te m . See S e c tio n 6 D .
O n H e a v y A c c e le ra tio n
O r A t H ig h Speed
(C o n tin u e d )
F u e l m e te rin g je ts re s tric te d .
I f th e fu e l m e te rin g je ts are r e s tric te d
and an excessive amount of foreign material
is found in th e fu e l b o w l, th e c a r b u r e to r
s h o u ld be c o m p le te ly d is a s s e m b le d a nd
c le a n e d .
Fuel p u m p .
C h e c k fu e l p u m p p ressu re a n d v o lu m e , in s p e c t
lin e s f o r leaks a nd r e s tr ic tio n s . See
F U E L S Y S T E M D IA G N O S IS , S e c tio n 6.
E x h a u s t s y s te m .
C h e c k f o r r e s tr ic tio n s . C o r r e c t as
required.
E n g in e Surges
L o o s e , b r o k e n o r in c o r r e c t
C h e c k c o n d itio n a n d r o u t in g o f all
v a c u u m hose r o u tin g .
v a c u u m hoses. C o r r e c t as nece ssa ry.
P C V s y s te m clo g g e d o r
C h e c k P C V s y s te m . C le a n o r re p la c e
m a lf u n c t io n in g .
as necessary.
Lo o se c a r b u r e to r , E G R o r in ta k e
T o r q u e c a r b u r e to r to m a n ifo ld b o lts
m a n ifo ld b o lts a n d /o r le a k in g
t o 10 f t . lbs. U s in g a p re ssu re o il
gaskets.
c a n , s p ra y lig h t o il o r ke ro s e n e
a ro u n d m a n ifo ld t o hea d m o u n tin g s u r
fa c e a nd c a r b u r e to r base. I f e n g in e R P M
changes, tig h te n o r re p la c e th e c a r
b u r e t o r o r m a n ifo ld g aske ts as necessary.
C h e c k E G R m o u n tin g b o l t to r q u e .
L o w o r e r r a t ic fu e l p u m p p ressu re .
C h e c k fu e l d e liv e ry a n d p ressu re .
C o n ta m in a te d fu e l.
C h e c k f o r c o n ta m in a n ts in fu e l. C lean
s y s te m i f necessary.
F u e l f i l t e r p lu g g e d .
C h e c k a n d re p la c e as nece ssa ry.
F lo a t level t o o lo w .
Check and reset float level to
specification.
M a lf u n c t io n in g f lo a t a n d /o r
C h e c k o p e r a tio n o f s y s te m . R e p a ir o r
n e e d le a n d seat.
re p la c e as necessary.
P o w e r p is to n s tu c k o r b in d in g .
C h e c k f o r fre e m o v e m e n t o f p o w e r
p is to n ( s ) . C le a n a n d c o r r e c t as necessary.
F u e l je ts o r passages p lu g g e d
C le a n a n d b lo w o u t w it h c o m p re s s e d
o r re s tric te d .
a ir.
Ig n it io n s y s te m m a lf u n c t io n .
C h e c k ig n itio n s y s te m . See S e c tio n 6 D .
E x h a u s t s y s te m .
C h e c k f o r r e s tr ic tio n s . C o r r e c t as
necessary.
P o o r Gas M ile a g e
C u s to m e r d r iv in g h a b its .
R u n m ile a g e te s t w it h c u s to m e r d r iv in g
i f p o s s ib le . M a k e sure c a r has 2 0 0 0 - 3 0 0 0
m ile s f o r th e " b r e a k - in " p e r io d .
Fig. 6C-7--Diagnosis 7 of 8
L IG H T T R U C K SERVICE M A N U A L
ENGINE FUEL
6C-9
CARBURETOR DIAGNOSIS CONT'D.
CONDITION
CORRECTION
POSSIBLE CAUSE
P o o r Gas M ile a g e
L o o s e , b ro k e n o r im p r o p e r ly
C h e c k c o n d itio n o f a ll v a c u u m hose
( C o n tin u e d )
ro u te d v a c u u m hoses.
r o u tin g s . C o r r e c t as necessary.
E n g in e in need o f s e rvice .
C h e c k e n g in e c o m p re s s io n , e x a m in e s p a rk
p lu g s ; if fo u le d o r im p r o p e r ly g a p p e d ,
c le a n a n d re ga p o r re p la c e . C h e c k ig n itio n
w ir e c o n d itio n a n d c h e c k a n d re s e t ig
n it io n t im in g . R e p la c e a ir c le a n e r e le m e n t
i f d ir t y . C h e c k f o r r e s tr ic te d e x h a u s t
s y s te m a n d in ta k e m a n ifo ld f o r leakage.
C h e c k c a r b u r e to r m o u n tin g b o lt to r q u e . C h e c k
v a c u u m a n d m e c h a n ic a l adva n ce .
C h e c k fu e l ta n k , fu e l lin e s a nd fu e l
F u e l lea ks.
p u m p f o r a n y fu e l leakage.
P o o r Gas M ile a g e
H ig h fu e l'le v e l in c a r b u r e to r .
C h e c k fu e l in le t n e e d le a n d seat f o r p r o p e r
a n d /o r B la c k S m o k e
seal. T e s t, u s in g s u c tio n fr o m a v a c u u m
f r o m T a il P ipe
s o u rc e . I f n e e d le is le a k in g , re p la c e .
C h e c k f o r lo a d e d f lo a t . R ese t f lo a t
level to s p e c ific a tio n .
I f e xcessive fo r e ig n m a te ria l is p re s e n t
in th e c a r b u r e to r b o w l, th e c a r b u r e to r
s h o u ld be c le a n e d .
P o w e r s y s te m in c a r b u r e to r
R e m o v e a ir h o rn a n d c h e c k f o r fre e
n o t fu n c tio n in g p r o p e r ly .
m o v e m e n t o f p o w e r p is to n (s ). C le a n
P o w e r p is to n (s ) s tic k in g o r
a n d c o r r e c t as n ece ssa ry.
m e te rin g ro d s o u t o f je ts .
C h o k e s y s te m .
C h e c k c h o k e h e a te d a ir tu b e s f o r r o u tin g
a n d /o r p lu g g in g w h ic h w o u ld r e s tr ic t
h o t a ir f l o w to c h o k e h o u s in g . C h e c k c h o k e
lin k a g e f o r b in d in g . C le a n o r re p a ir
as r e q u ire d . C h e c k a d ju s tm e n t o f th e r m o
s ta tic c o il. R e a d ju s t t o s p e c ific a tio n
as r e q u ir e d . C h e c k e le c tr ic c h o k e
w ir in g .
P lu g g e d a ir c le a n e r e le m e n t.
R e p la c e e le m e n t.
E x h a u s t sy s te m .
C h e c k f o r r e s tr ic tio n s . C o r r e c t as re q u ire d .
L o w tir e p ressure o r in c o r r e c t
I n fla te tire s to s p e c ific a tio n s a n d use
t ir e size.
c o r r e c t size tire s .
E v a p o ra tiv e e m is s io n c a n is to r
See e v a p o ra tiv e s e c tio n (D a ig n o s is )
T ra n s m is s io n m a lf u n c t io n
R e fe r t o tra n s m is s io n d ia g n o s is .
o r in w r o n g gear*
C a r fe e ls lik e i t is
P lu g g e d fu e l filte r s .
R e m o v e a n d re p la c e filte r s .
F a u lt y fu e l p u m p .
P e r fo r m fu e l p u m p te s t.
r u n n in g o u t o f gas — s u rg in g
o c c u rs in m id -s p e e d range
R e m o v e a n d re p la c e fu e l p u m p as re q u ir e d .
F o re ig n m a te ria l in fu e l s y s te m o r
In s p e c t p ip e s ,a n d hoses f o r k in k s a nd
k in k e d fu e l p ip e s o r hoses.
b e n d s , b lo w o u t to c h e c k f o r p lu g g in g .
R e m o v e a n d re p la c e as re q u ire d .
Fig. 6C-8--Diagnosis 8 of 8
L IG H T T R U C K SE RV IC E M A N U A L
6C-10
ENGINE FUEL
C O N D IT IO N
P O S S IB L E
CAUSE
C O R R E C T IO N
Evidence o f fuel loss o r fuel
vapor od or
A) From area o f fue l ta n k o r fuel
cap - Perform pressure check
to determ ine possible causes
B) From under hood - Perform
pressure check to determ ine
possible causes
1. Leaking or plugged fuel
or EVAP hoses
1. Repair o r replace hoses as
necessary
2. Leaking fuel cap
2. Repair o r replace cap as
necessary
3. Leaking fuel fille r neck
3. Repair o r replace as necessary
4. Fuel fille r neck gasket surface
nicked, burred, o r dented
4. Repair o r replace as necessary
5. Leaking sending u n it o r gasket
5. Repair o r replace as necessary
6. Leaking ta n k sw itch u n it
(Dual ta n k system)
6. Replace u n it
7. Inoperative ta n k switch u n it
(Dual ta n k system)
7. Replace u n it
8. Plugged or inoperative ta n k
pressure co n tro l valve
8. Repair or replace as necessary
1. L iq u id fuel leaking fro m fuel
lines, fuel pum p or carburetor
1. T ighten fuel lines, repair or
replace fue l pum p or carburetor
as necessary
2. Cracked or damaged canisters
2. Repair o r replace canisters as
necessary
3. Inoperative bowl vent valve
(see Bowl V en t Check Pro
cedures)
3. Repair or replace hoses
Replace canister
4. Inoperative purge valve
(see Purge Valve Check Pro
cedures)
4. Repair o r replace hoses
Replace canister
5. Disconnected, m isrouted,
5. Check fo r proper connections,
and check ro u tin g as w ell as
kinked, deteriorated or
damaged vapor hoses or
c o n tro l hoses
Poor idle o r d riv e a b ility
or d riv e a b ility slugging
Collapsed fuel ta n k
(Loss o f ta n k capacity)
c o n d itio n . C orrect as necessary
6. Bowl vent hose m isrouted
6. Reroute hose w ith o u t lo w spots
7. A ir cleaner or air cleaner
gasket im p ro p e rly seated
7. Reinstall air cleaner an d/or
replace gasket
8. Leaking or inoperative ta n k
pressure co n tro l valve
8. Repair or replace as necessary
1. Inoperative purge valve
(see Purge Valve Check
Procedures)
1. Replace o r repair hoses
Replace canister
2. Inoperative bow l vent valve
(see Bowl V e n t Check Pro
cedures)
2. Repair o r replace hoses
Replace canister
3. Vacuum leak at ta n k pressure
co n tro l valve
3. Repair o r replace hoses a n d/or
valve
1. Plugged or pinched vapor
pipe o r hoses and defective
cap
1. Check all lines fro m ta n k to
canister and replace cap
2. Canister filte r plugged and
defective cap
2. Replace filt e r in canister and
cap
3. Plugged or ru p tu re d diaphragm
in ta n k pressure c o n tro l valve
and defective cap
3. Replace ta n k pressure co n tro l
valve and cap
Fig. 6C-9--Evaporative Control System Diagnosis
ENGINE FUEL
6C-11
DIAGNOSIS
FUEL TANK
CORRECTION
POSSIBLE CAUSE
CONDITION
1.
Tank o v e rfille d .
Do n o t ''p a c k '' tan k. F ill to a u to m a tic
s h u t-o ff.
2.
Fuel feed line leaking.
3.
Leak in fuel tan k.
C orrect as required.
Purge tan k and repair or replace ta n k as
required.
Gasoline O dor
4.
Disconnected fuel vapor pipe o r hoses.
C onnect pipe or hoses as required.
6.
F a u lty f ill cap or tan k neck.
Install new cap o r tank neck as required.
1.
Plugged o r pinched vapor pipe or hoses,
Check all lines fro m tank to canister and
& defective cap.
replace cap.
2.
Canister filte r plugged & de fective cap.
Replace filte r in canister & cap.
1.
M o u n tin g straps loose.
T igh te n straps to specifications.
2.
B affle loose.
Replace fuel ta n k.
3.
Foreign m aterial in tan k.
Remove tan k and clean.
1.
Tank gage u n it filte r plugged.
Replace filte r.
2.
Fuel line pinched, plugged or m is-routed.
Check open or re-route as required.
Collapsed Fuel Tank
Fuel Tank Rattles
Fuel S tarvation
Fig. 6C-10--Fuel Tank Diagnosis
LIG H T T R U C K SERVICE M A N U A L
w
- V
CARBURETOR MODEL 1ME
6C1-1
SECTION 6C1
CARBURETOR MODEL 1ME
CONTENTS
General Description.........................................................
On-Vehicle Service................... ......................................
Adjustments.....................................................................
Choke Checking Procedure.........................................
Idle Mixture Adjustm ent.............................................
Carburetor Mounting Torque.....................................
Carburetor Replacement..............................................
Solenoid Replacement..................................................
6C1-1
6C1-7
6C1-7
6C1-7
6C1-7
6C1-7
6C1-7
6C1-8
Choke Coil Replacement.............................................. 6C1-8
Throttle Lever Actuator............................................... 6C1-9
Unit Repair........................................................................ 6C1-10
D isassem bly..................................................................... 6C1-10
Cleaning............................................................................ 6C1-13
Assembly........................................................................... 6C1-13
Adjustment Specifications.............................................. 6C1-16
GENERAL DESCRIPTION
The Monojet, carburetor (Fig. 6C1-1) is a single bore
downdraft carburetor using a triple venture in conjunction
with a plain tube nozzle.
Fuel flow through the main metering system is control
led by a main well air bleed and a variable orifice jet. A
power enrichment system is used to provide good perform
ance during moderate to heavy acceleration and at higher
engine speeds.
The model 1ME incorporates an integral automatic
choke system which uses and electrically heated choke coil.
The vacuum diaphragm unit is mounted externally on the
air horn and connects to the thermostatic coil lever through
a connecting line.
The electric choke coil is contained in a choke housing
mounted on a bracket attached to the float bowl. Special
rivets are installed to retain the factory setting of the choke
coil and provide a non-adjustable design.
An integral, pleated-paper fuel inlet filter is mounted in
the fuel bowl behind the fuel inlet nut to give maximum
filtraton of incoming fuel. A check valve on light duty
T H R O T T L E LEVER A C T U A T O R
(V A C U U M O PER A TED )
VACUUM
BR EAK
emissions is used in the filter inlet to prevent fuel draining
from the fuel system after roll-over.
To improve hot engine starting and meet evaporative
emission requirements, fuel vapors from the carburetor bowl
are vented to the vapor canister on some models. A tube
(location F) is added to the air horn to connect air horn and
canister.
Other features of the Monojet carburetor include an
aluminum throttle body for decreased weight and improved
heat distribution and a thick throttle body to bowl insulator
gasket to keep excessive engine heat from the float bowl.
On California models seals have been added in the float
bowl to seal the power piston drive rod and the pump lever to
prevent escape of fuel vapors to atmosphere. During unit
repair, the seals and retainer, where used, must be removed
prior to immersion of the float bowl in carburetor cleaner.
The carburetor model identification is stamped on a
vertical portion of the float bowl, adjacent to the fuel inlet
nut (Fig. 6C1-2).
If replacing the float bowl, follow the manufacturer’s
instructions contained in the service package so that the
identification number can be transferred to the new float
bowl.
An electrically operated idle stop solenoid is used on all
models.
E L E C T R IC A L
CONNECTO R
(TO E LE C T R IC
CHOKE)
Fig. 6C1-1--Model 1ME Carburetor
LIG H T T R U C K SERVICE M AN U AL
6C 1-2
CARBURETOR MODEL 1ME
INTERNAL VENT
TO P A IR BLEED
PRESSURE
RELIEF VALVE
IDLE C H A N N E L
R E S T R IC T IO N
FLOAT
CHECK VALVE
SEAT
T H R O TTLE
VALVE
IDLE D IS C H A R G E
HOLE
Fig. 6Cl-3--Float System
Dual throttle return springs are used on all carburetors.
The throttle lever has a spun-in plastic bushing, this is
used as the bearing surface for the dual throttle return
springs.
The spun-in plastic return spring bushing will with
stand normal cleaning time in an approved cold immersion
type carburetor cleaner. The bushing is not serviced sepa:
rately and should not be removed from the carburetor
throttle lever.
Six basic systems of operation are used: float, idle, main
metering, power enrichm ent, pump and choke. 6C1-3
through 8).
Fig. 6C1 -4—Idle System
•FACTORY ADJUSTED
M A IN WELL A IR BLEED TUBE
METERING ROD HANGER
POWER PISTON
METERING ROD
M A IN DISCHARGE
NOZZLE
DRIVE ROD
POWER PISTON
SPRING
BOOST VENTURI
M A IN VENTURI
M A IN METERING
JET
-P L U G
PARTTHROTTLE
ADJUSTM ENT SCREW *
LOWER IDLE
A IR BLEED
THROTTLE
VALVE
POWER PISTON
A C TU ATING LINKAGE
POWER PISTON VA C U U M
Fig. 6CT5--Main Metering System Typical
L IG H T T R U C K SERVICE M A N U A L
CARBURETOR MODEL 1ME
6C 1-3
•F A C T O R Y ADJUSTED
"T" DISCHARGE
, SPRING RETAINER
,PUMP PLUNGER
ft DURATION
SPRING
PO W ER PIS TO N
S P R IN G
PUMP RETURN
SPRING
-AS PLUNGER
'MOVES UP.
FUEL FLOWS
PAST CUP INTO
PUMP WELL
M A IN M E TE R IN G
JET
PLUG
PARTTHROTTLE
AD JU STM EN T SC REW 1
PUMP ACTUATING LINK
PO W ER PIS TO N
A C T U A T IN G LIN K A G E
TH R O TTLE V A L V E
PUMP CUP OPERATION
PO W ER P IS TO N V A C U U M
Fig. 6Cl-7--Pump System
Fig. 6Cl-6--Power Enrichment System
CHOKE ROD
CHOKE VALVE
CHOKE
HOUSING
CHOKE VACUUM
DIAPHRAGM UNIT
I
PLUNGER
e l e c t r ic
BUCKING
CHOKE
\
SPRING
CHOKE COIL
LINK
FAST IDLE
CAM FOLLOWER
VA CU UM
INLET
RESTRICTIOr
VA CU UM
BREAK LINK
INSIDE
COIL LEVER
MANIFOLD J )
VACUUM
r
HOSE
.jJ
CHOKE SYSTEM
Fig. 6CT8--Choke System
LIG H T T R U C K SERVICE M AN U AL
6C1-4
CARBURETOR MODEL 1ME
F L O A T LEVEL A D J U S T M E N T
G A U G E FROM TO P O F
C A S T IN G TO TO P O F
IN D E X P O IN T A T TO E
O F FLOAT
( T ) B E N D H E R E TO
A D JU S T F L O A T
UP O R DOW N
1 )H O L D F L O A T R E T A IN IN G
' ^ P I N F IR M L Y IN P L A C E PUSH D O W N ON EN D O F
F L O A T A R M , A G A IN S T
TO P O F F L O A T N E E D L E
M E T E R IN G R O D A D J U S T M E N T
( 3 )H O L D
POWER
PISTO N D O W N A N D SW ING
M E T E R IN G R O D H O L D E R
OVER F LA T SURFACE
( 5 ) BEN D HERE
T O A D JU S T
(G A S K E T R E M O V E D )
O F BO W L C A S T IN G N E X T
T O C A R B U R E T O R BORE
(7),
1 ) R E M O V E M E T E R IN G RO D
B Y H O L D IN G T H R O T T L E
V A L V E W ID E O PEN . PUSH
^ 4 J S P E C IF IE D P LU G
D O W N W A R D ON M E T E R IN G
G A U G E - S L ID E F IT
R O D A G A IN S T SPR IN G
T E N S IO N , T H E N S L ID E
B A C K O U T ID L E
M E T E R IN G ROD O U T OF
STOP S O L E N O ID —
S L O T IN H O L D E R A N D
HO LD TH R O TT LE
R E M O V E FR O M M A IN
V A LV E C OM PLETELY
C LO S E D
M E T E R IN G JE T.
F A S T ID LE A D J U S T M E N T
SUPPORT LEVER WITH
PLIERS-BENDTANGIN
OR OUT TO OBTAIN SPECIFIED
FAST IDLE R.P.M. (SEE INSET).
NOTE: M A N U A L C H O K E
M ODELS W ITH SM O O TH
CONTOUR C A M SURFACE
ROTATE FAST IDLE C A M
CLOCKWISE TO ITS
FARTHEST UP PO SITIO N.
PREPARE VEHICLE FOR
A D JU S TM E N TS SEE EM ISSIO N LABEL
ON VEHICLE. IG N ITIO N
T IM IN G SET PER LABEL.
SECOND jC
HIGH
FAST IDLE CAM
STEPS
ADJUST CURB IDLE
SPEED WITH IDLE STOP
SOLENOID.
Fig. 6C1-9--1ME Adjustments - 1 of 3
L IG H T T R U C K SERVICE M A N U A L
CARBURETOR MODEL 1ME
6C1-5
C H O K E C O IL LEVER A D J U S T M E N T - 1M E
© HOLD CHOKE VALVE
120' PLUG
GAUGE M U S T
PASSTHRO UG H
HOLE IN LEVER
A N D ENTER HOLE
IN C ASTIN G
COMPLETELY CLOSED
o
PLACE FAST
IDLE CAM
FOLLOWER ON
H IG H EST STEP
OF FAST IDLE
CAM
C H O K E R O D (F A S T ID LE C A M ) A D J U S T M E N T (2N D STEP)
GAUGE BETWEEN LOWER
EDGE OF CHOKE VALVE (AT
CENTER) A N D IN SID E AIR
HORN WALL.
© HOLD DOW N
ON CHOKE V A L V E ROD IN END OFSLO
W ITH FAST IDLE
A DJUSTM ENT M ADE.
FAST IDLE CAM FOLLOWER
M U S T BE HELD FIRM LY
ON SECOND STEP OF
FAST IDLE C A M A G A IN S T
H IG H EST STEP
Fig. 6C1-10--1ME Adjustments - 2 of 3
LIG H T TR U C K SERVICE M AN U AL
6C1-6
CARBURETOR MODEL 1ME
V A C U U M BREAK A D J U S T M E N T - 1M E (B O W L S ID E )
v
0
NOTE:
HOLD GAUGE
PUSH DOW N ON
CHOKE VALVE
(COMPRESS PLUNGER
BUCKING SPRING A N D
SEAT PLUNGER STEM
ON M ODELS SO
EQUIPPED).
PLACE GAUGE
BETWEEN LOWER EDGE
OF CHOKE VALVE AND
IN SID E AIR HORN WALL
© USE OUTSIDE
V A C U U M SOURCE
TO SEAT
D IA P H R A G M .
PLACE FAST
IDLE CAM
FOLLOWER ON
HIGHEST STEP
OF C A M .
NOTE: ON DELAY FEATURE
M O D ELS, COVER PLUG AND
PURGE BLEED HOLE W ITH 1"
SQ U A R E PIECE OF M A S K IN G
TA PE. REMOVE AFTER
ADJUSTMENT.
U N L O A D E R A D J U S T M E N T - 1M E (WIDE OPEN KICK)
©
INSTALL CHOKE COIL IN
CHOKE H O USING A N D INDEX
PROPERLY (SEE NOTE)
NOTE: IF CHOKE COIL IS
W A R M , COOL DOW N TO
PO IN T WHERE CHOKE
VALVE WILL CLOSE
FULLY.
GAUGE BETWEEN LOWER
EDGE OF CHOKE VALVE
A N D IN SID E A IR HORN
W ALL (SEE NOTE).
© HOLD THROTTLE
VALVE W IDE OPEN
BEND TA N G TO
A D JU S T (SEE INSET).
ID LE SP EE D A D J U S T M E N T
TO ADJUST BASE
IDLE TURN 1/8”
HEX SCREW
(SOLENOID NOT
ENERGIZED)
© NOTE: ENGINE M U ST BE
W A R M -C H O K E WIDE OPEN FAST IDLE CAM FOLLOWER OFF
STEPS OF C A M (SEE EM ISSIO N
LABEL)
SET CURB IDLE
TO SPECIFICATIONS —TURN
ASSEM BLY IN OR OUT
TO A D JU S T R P M.
(SOLENOID ENERGIZED)
Fig. 6C1-11--1ME Adjustments - 3 of 3
LIG H T T R U C K SERVIC E M A N U A L
CARBURETOR MODEL 1ME
6C 1-7
ON-VEHICLE SERVICE
1ME CARBURETOR ADJUSTMENTS
Refer to figure 6C1-9 through 6C1-11 for adjustment
specifications and procedures.
Choke Checking Procedure
1. Remove air cleaner. With engine off, hold throttle half
open. Open and close choke several times. Watch
linkage to be certain all links are connected and there
are no signs of damage.
2. If choke or linkage binds, sticks, or works sluggishly,
clean with Choke Cleaner X -20-A or equivalent. Use
cleaner as directed on can. Refer to disassembly
instructions for additional direction if cleaning does not
correct.
3. Visually inspect carburetor to be certain all vacuum
hoses are connected. Inspects hoses for cracks, abra
sions, hardness or other signs of deterioration. Replace
or correct as necessary.
4. Make sure vacuum break diaphragm shaft is fully
extended when engine is off. If shaft is not fully
extended, replace vacuum break assembly. Start engine
- vacuum break diaphragm shaft should fully retract
within 10 seconds. If unit fails to retract, replace
vacuum break assembly.
5. Allow choke to cool so that when throttle is opened
slightly choke blade fully closes. This check must be
performed at an ambient temperature of 60°F to 80°F.
6. Start engine and determine time for choke blade to
reach full open position. (Start timer when engine
starts).
7. If the choke blade fails to open fully within 3-1/2
minutes proceed with steps 8-9-10 below.
8. Check voltage at the choke heater connection. (Engine
must be running). If the voltage is approximately 12-15
volts, replace the electric choke unit.
9. If the voltage is low or zero, check all wires and
connections. If the connections at the oil pressure
switch are faulty, the oil warning light will be off with
the key "on" and engine off. If the fuse is blown, the
radio or turn signal indicator will be inoperative.
Repair wires or replace fuses as required.
10. If step 9 is good, replace oil pressure switch.
N o gasket is used between the choke cover and the
choke housing due to grounding requirements.
Checking Solenoid
1. Turn on ignition, but do not start engine.
2. Open throttle to allow solenoid plunger to extend.
3. Hold throttle lever wide open, feel end of plunger and
disconnect wire at solenoid.
4. Plunger should move. Some spring tension should be
felt.
5. If plunger did not move, back out 1/8 hex screw
(counterclockwise) one full turn and repeat steps 3 and
4.
6. If plunger moves in step 5, connect wire to solenoid and
adjust idle speed.
7. If plunger did not move in step 5 insert test lamp (1893
bulb or smaller) between solenoid feed wire and
ground.
8. If lamp lights, replace solenoid.
9. If lamp does not light, locate cause of open circuit in
solenoid feed wire.
IDLE MIXTURE ADJUSTMENT (LEAN DROP)
For Heavy Duty Emission Vehicles Without 4 Barrel
1. Set parking brake and block drive wheels.
2. Remove air cleaner for access to carburetor, but keep
vacuum hoses connected.
3. Disconnect and plug other hoses, as directed on Emis
sion Control information Label under the hood.
4. Start engine and bring to normal operating tempera
ture, choke open, air conditioning off.
5. Connect an A C CURA TE tachometer to engine.
6. Disconnect vacuum advance and plug hose. Check
ignition timing. If necessary, adjust to specification
shown on Emission Control Information Label. Recon
nect vacuum advance.
7. Carefully remove cap from idle mixture screw. Be
careful not to bend screw. Lightly seat screw, then back
out just enough so engine will run.
8. Place transmission in Neutral.
9. Back screw out (richen) 1/8 turn at a tim e until
maximum idle speed is obtained. Then set idle speed to
value shown on Engine Emission Control Information
Label. Repeat step 9 to be certain you have maximum
idle speed.
10. Turn screw in (lean) with 1/8 turn increments until idle
speed reaches value shown on Engine Emission Control
Information Label.
11. Reset idle speed to specification shown on Engine
Emission Control Information Label.
12. Check and adjust fast idle as described on the Engine
Emission Control Information Label.
13. Reconnect vacuum hoses. Install air cleaner.
14. Recheck idle speed. If necessary, reset to specification.
CARBURETOR MOUNTING TORQUE
When torquing carburetor after removed, overhaul,
replacement or when installing a new heat insulator, torque
mounting bolts, in a clockwise direction to 23 N-m (198 in.
lbs.).
When retorquing carburetor at recommended mainte
nance intervals, retorque to 16 N-m (144 in. lbs.) maximum.
CARBURETOR REPLACEMENT (FIG. 6C1-12)
Removal
Flooding, stumble on acceleration and other perform
ance complaints are, in many instances, caused by presence
of dirt, water, or other foreign matter in carburetor. To aid
in diagnosing cause, carburetor should be carefully removed
from engine without draining fuel from bowl. Contents of
fuel bowl may then be examined for contamination as
carburetor is disassembled. Check filter.
LIG H T T R U C K SERVICE M A N U A L
6C1-8
CARBURETOR MODEL 1ME
2. Disconnect electrical connector at solenoid.
3. Unscrew and
assembly.
remove solenoid
from float
bowl
Installation
1. Hold choke valve wide open so that fast idle cam
follower clears fast idle cam.
2. Install solenoid and turn in until it contacts lever tang.
3. Connect electrical connector.
4. Install air cleaner.
5. Check and adjust idle speed.
CHOKE COIL REPLACEMENT (Fig. 6Cl-12a)
Choke mechanism should be checked for free opera
tion. A binding condition may have developed from petro
leum gum formation on the choke shaft or from damage.
Choke shafts can usually be cleaned without disassembly by
using Carbon X (X 55) or equivalent.
1.
2.
3.
4.
5.
6.
Remove air cleaner.
Disconnect fuel and vacuum lines from carburetor.
Disconnect electrical connector at choke.
Disconnect accelerator linkage.
Disconnect solenoid electrical connector.
Remove carburetor attaching nuts and remove car
buretor and solenoid assembly attachment.
7. Remove insulator gasket.
Installation
It is good shop practice to fill carburetor bowl before
installing carburetor. This reduces strain on starting motor
and battery and reduces the possibility of backfiring while
attempting to start engine. A small supply of fuel will enable
carburetor to be filled and the operation of float and intake
needle and seat to be checked. Operate throttle lever several
times and check discharge from pump jets before installing
carburetor.
.V gff
Fig. 6C l-12 a--C hoke Coil
1. Be certain throttle body and intake manifold sealing
surface are clean.
2. Install carburetor insulator.
3. Install carburetor over manifold studs.
4. Install vacuum and fuel lines at carburetor
5. Install attaching nuts and tighten alternately to 21 N-m
(16 ft. lbs.).
6. Tighten fuel line.
7. Connect accelerator linkage.
8. Connect choke and solenoid electrical connectors.
9. Install air cleaner.
10. Check and adjust idle speed.
SOLENOID REPLACEMENT
An inoperative solenoid should be replaced.
Removal
1. Remove carburetor air cleaner.
LIG H T T R U C K SERVICE M A N U A L
Fig. 6 C 1-12b—Installing Choke
CARBURETOR MODEL 1ME
6 C 1-9
3 / 16 ’
ADAPTER (Procure steel tubing locally)
Fig. 6Cl-12c--Riveting Adapter
1. Remove air cleaner and disconnect choke electrical
connector.
2. Align a # 2 1 drill (.159") on rivet head and drill only
enough to remove rivet head. After removing rivet
heads and retainers, use a draft and small hammer to
drive the remainder of the rivets out of the Use care in
drilling to prevent damage to choke cover or housing.
Remove the three retainers and choke cover assembly
from choke housing.
3. Remove choke coil from housing.
4. Install the choke cover and coil assembly in choke
housing as follows:
a. Install the choke cover and coil assembly in the choke
housing, aligning notch in cover with raised casting
projection on housing cover flange. Make sure coil
pick-up tang engages the inside choke coil lever.
A choke cover retainer kit is required to attach choke
cover to choke housing. Install proper retainers and
rivets contained in kit using suitable blind rivet
installing tool (Fig. 6 C 1-12b). It may be necessary to
use an adapter (tube) if installing tool interferes with
electrical connector tower on choke cover (Fig. 6C112c).
5. Connect choke electrical connector.
6. Start engine, check operation of choke and then install
air cleaner.
THROTTLE LEVER ACTUATOR ADJUSTMENT (Fig.
6C1-12d)
Adjust the Throttle Return Control (TRC) idle speed
to specification, shown on Vehicle Emission Label, as
follows:
1. Disconnect hose from solenoid valve to actuator at the
solenoid valve, and connect hose to an external vacuum
source equipped with a vacuum gage.
2. Check the throttle lever, shaft, and linkage to be sure
that they operate freely without binding or sticking.
3. Apply 20 in. Hg. vacuum to the actuator. Manually
open the throttle slightly and allow to close against the
extended actuator plunger. Note the engine rpm.
4. If the rpm is not within the specified TRC speed range,
then turn the screw on the actuator plunger in the
appropriate direction and repeat step 3 until the
specified TRC speed range is obtained.
LIG H T T R U C K SERVICE M A N U A L
6C1-10
CARBURETOR MODEL 1ME
Fig. 6 C M 2 d -T R C
UNIT REPAIR
DISASSEMBLY
Place carburetor on a holding fixture to prevent
damage to throttle valve.
Air Horn
Removal
1. Remove choke vacuum break diaphragm hose.
2. Remove vacuum break diaphragm assembly from air
horn by removing two attaching screws. These screws
have a tapered head and do not use lockwashers.
Remove diaphragm plunger stem from diaphragm to
choke lever link. (Fig. 6 C 1-13).
NOTICE: Screw that retains vacuum break lever to
choke shaft is installed with thread torque retaining
compound. It is not necessary to remove this screw and
lever unless choke shaft replacement is required.
3. Remove fast idle cam attaching screw; then remove fast
idle cam (Fig. 6C1-14).
Fig. 6C1-13--Vacuum Break Diaphragm
LIG H T T R U C K SERVIC E M A N U A L
Remove choke rod from choke coil lever on end of
choke shaft.
4. R em ove choke coil assem bly as follows; Align a#21
drill (.159 ") on rivet head and drill only enough to
rem ove rivet head. Drill the tw o remaining rivet
heads and then use a drift and small hammer to drive
the remainder o f the rivets out o f the choke housing.
R em ove the three retainers and choke cover assem
bly from choke housing.
5. Choke coil housing need not be removed from float
bowl unless replacement is necessary. To remove choke
housing, remove three attaching screws from float
bowl. Two screws have lockwashers and the one facing
the choke housing has a tapered head for locating choke
housing.
6. Remove four remaining air horn to bowl attaching
screws and lockwashers (three long and one short
screw).
7. Remove air horn by lifting and twisting back towards
choke housing so that the choke coil lever link will
disengage from the choke coil lever at the choke
Fig. 6C1-14--Fast Idle Cam
CARBURETOR MODEL 1ME
6C 1-11
housing, invert and place on clean bench. Air horn to
float bowl gasket can remain on bowl for removal later
(Fig. 6 C 1-15).
Disassembly
1. If required, the choke valve and choke shaft can be
removed from air horn by removing the screw that
retains the vacuum break lever to the choke shaft. Care
should be exercised when removing this screw because
it is retained in place by thread torque retaining
compound. Remove the two attaching screws from the
choke valve, then, remove the choke valve and choke
shaft from air horn.
The choke valve screws are staked in place so it will be
necessary to file off staking and re-stake during assem
bly. Do not bend choke shaft when restaking.
2. N o further disassembly of the air horn is necessary.
Float Bowl Disassembly
1. Remove air horn to float bowl gasket. Gasket is slit next
to metering rod lever so that it can be slid over lever for
ease in removal. (Fig. 6C1-16).
2. Remove float assembly from float bowl by lifting
upward on float hinge pin. Remove hinge pin from float
arm.
3. Remove float needle from seat.
4. Disconnect accelerator pump and power piston actua
tor lever from end of throttle shaft by removing lever
attaching screw (Fig. 6C1-17).
5. Hold down on power piston while removing lever.
Power piston spring and metering rod assembly may
now be removed from float bowl (Fig. 6 C 1-18).
6. Remove lower end of power piston link from actuator
lever by rotating until tang on rod slides out of notch in
lever.
Fig. 6CT16--Float Bowl Disassembly
7. Remove actuator lever from lower end of accelerator
pump link in same manner.
8. Push down on accelerator pump and remove actuator
link by rotating until tang on rod aligned with slot on
pump plunger lever. Remove the link.
9. Remove pump assembly from float bowl (Fig. 6 C 1-19).
10. Remove pump return spring and power piston spring
from float bowl (Fig. 6 C 1-19).
11. Remove "T" guide and pump discharge spring using
needle nose pliers (Fig. 6C1-20).
12. Pump discharge ball and idle tube can be removed at
the same time by inverting the bowl.
13. Remove main metering jets from bottom of fuel bowl.
Fig. 6C1-15--Air Horn Removal
Fig. 6CT17--Pump and Power Piston Actuator Lever
LIG H T T R U C K SERVICE M A N U A L
6C 1-12
CARBURETOR MODEL 1ME
Fig. 6Cl-18--Float Bowl Assembly
14. Remove float needle seat and gasket using Tool
J-22769.
15. The idle stop solenoid can be removed at this time if
desired.
16. Remove the fuel inlet nut, filter and spring (Fig. 6C12 1 ).
N o further disassembly of the float bowl is required.
Fig. 6Cl-20--Pump Discharge " T " Retainer
Throttle Body (Fig. 6C1-22)
1. Invert carburetor bowl on bench and remove two
throttle body to bowl attaching screws. Throttle body
and insulator gasket may now be removed.
2. N o further disassembly of the throttle body is neces
sary unless the idle mixture needle is damaged or the
idle channels need cleaning. If necessary to remove the
idle mixture needle, cut the tang from the plastic
limiter cap. Do not install a replacement cap as a bare
mixture screw is sufficient to indicate that the mixture
has been readjusted.
SPRING
CHECK VALVE
FUEL FILTER
GASKET
INLET NUT
Fig. 6C1-19--Metering Rod and Accelerator Pump
LIG H T T R U C K SERVIC E M A N U A L
Fig. 6C1-21-Fuel Filter and Check Valve
CARBURETOR MODEL 1ME
6C 1-13
4. Install two throttle body to bowl attaching screws and
lockwashers. Tighten even and securely to 20 N-m (15
ft. lbs.).
Float Bowl
1. Install fuel filter spring, filter, and check valve assem
bly, (if used), inlet nut and gasket rubber seal on check
valve faces fuel inlet nut.
The fuel inlet check valve must be installed (where
required) in the filter to meet Motor Vehicle Safety
Standards (M .V .S.S.) for roll-over. New service re
placement filter include the check valve, where
required.
Fig. 6Cl-22--Throttle Body
Due to the close tolerance fit of the throttle valve in the
bore of the throttle body, do not remove the throttle
valve or shaft.
CLEANING AND INSPECTION
The carburetor should be cleaned in a cold immersion
type cleaner.
Rubber and plastic parts should not be immersed in
carburetor cleaner. However, the air horn which has the
plastic relief valve will withstand normal cleaning in
carburetor cleaner.
1. Thoroughly clean carburetor castings and metal parts
in an approved carburetor cleaner such as Carbon X
(X -55) or equivalent.
2. Blow out all passages in castings with compressed air.
Do not pass drills through jets or passages.
3. Examine float needle and seat assem bly for wear.
Install a new factory matched set if worn.
4. Inspect upper and iower casting sealing surfaces for
damage.
5. Inspect holes in levers for excessive wear or out of
round condition. If levers are worn they should be
replaced.
6. Examine fast idle cam for excessive wear or damage.
7. Check throttle and choke levers and valve for binds and
other damage.
8. Check all springs for distortion or loss in tension;
replace as necessary.
CARBURETOR ASSEMBLY
2. Install idle stop solenoid and spring, if removed. Adjust
later for correct idle speed.
3. Install main metering jet into bottom of fuel bowl.
Tighten securely.
4. Using wide blade screwdriver install needle seat and
gasket.
5. Install idle tube flush with bowl casting.
6. Install pump ball, spring and "T" into pump discharge
hole (Fig. 6C1-20).
7. Drive pump discharge "T" in until flush with bowl
casting.
8. Install accelerator pump return spring.
9. Install power piston return spring into piston cavity in
the bowl.
10. Install lower end of pump link into actuator lever which
fits on throttle shaft. Ends of link point toward car
buretor. Bend in link faces fuel inlet nut.
11. Install curved power piston actuator link into throttle
actuator lever. End protrudes outward away from
throttle bore and has tang which retains link to lever.
12. Install pump plunger assembly into pump well with
actuating lever protruding through bottom of bowl
casting. Push downward on pump lever and install
pump assembly drive link into slot in lower end of shaft.
Tang on upper end of link retains link to pump shaft
(Fig. 6C1-23).
ALTITUDE MODELS ONLY
, PUMP LEVER
, EVAPORATIVE SEAL*
" T ‘ DISCHARGE
-SPRING RETAINER
PUMP PLUNGER
& DURATION
SPRING
After carburetor has been disassembled, new gaskets
and filter must be used.
Throttle Body (Fig. 6C1-22)
1. If removed, install idle mixture needle and spring into
throttle body until lightly seated. Back out two turns as
a preliminary adjustment. Final idle mixture adjust
ment will be made on vehicle.
2. Invert float bowl and install new throttle body to bowl
insulator gasket.
3. Install throttle body on bowl gasket so all holes in
throttle body are aligned with holes in gasket.
PUMP RETURN
SPRING
-AS PLUNGER
MOVES UP.
FUEL FLOWS
PAST CUP INTO
PUMP WELL
PUMP CUP OPERATION
Fig. 6Cl-23--Pump Drive Link
LIG H T T R U C K SERVICE M A N U A L
6C1-14
CARBURETOR MODEL 1ME
13."Assembly metering rod to holder on power piston.
Spring must be on top of arm when assembled cor
rectly. Then install power piston actuating rod (right
angle end) into slot in the power piston.
14. Install power piston, metering rod and drive rod
assembly into the float bowl. End of drive rod must
enter hole in bowl and end of metering rod into jet.
©
B E N D IN G T O O L
©
H O L D POW ER
P IS TO N D O W N
/P L U G GAUGE
15. Before fastening power piston and pump actuator lever
to end of throttle shaft, hold power piston assembly
down and slide upper end of curved power piston
actuator link into lower end of power piston actuating
rod.
©
F L O A T BOW L
SURFACE
(G A S K E T R E M O V E D )
16. Install actuating lever on end of throttle shaft by
aligning flats or lever with flats on shaft. Install lever
retaining screw and tighten securely.
©
B A C K O U T ID L E SPEED SCREW
H OLD TH R O TTLE V A LV E
C O M P L E T E L Y C LO S E D
17. Install float needle valve on to float arm hooking pull
clip over edge of float arm.
18. Install float hinge pin into float arm. Install float needle
into seat and float with hinge pin into float bowl. Hinge
pin should in locating channels in float bowl.
Float Level Adjustment (Fig. 6C1-24)
1. Hold float retaining pin firmly in place push down on
float arm at outer end against top of float needle, as
shown.
2. Use adjustable "T" scale and measure distance from
top of float at index point on toe to float bowl gasket
surface (gasket removed).
3. To adjust, bend float pontoon up or down at float arm
junction.
Fig. 6Cl-25--Metering Rod Adjustment
4. Holding downward pressure on power piston, swing
metering rod holder over flat surface of bowl casting
next to carburetor bore.
5. Insert gage between bowl casting and lower surface of
metering rod holder. Gage should have a slide fit
between both surfaces, as shown.
6. To adjust, carefully bend metering rod holder up or
down.
7. Install air horn gasket on float bowl by carefully sliding
slit portion of gasket over metering rod holder. Then
align gasket with dowels provided on top of bowl
casting and press gasket firmly in place.
Metering Rod Adjustment (Fig. 6C1-25)
Air Horn
1. Open throttle valve, slide metering rod out of holder
and remove from main metering jet.
2. To check adjustment, back out 1/8" hex screw on idle
stop solenoid and rotate fast idle cam so that cam
follower is not contacting steps on cam.
3. With throttle valve completely closed, apply pressure to
top of power piston and hold piston down against stop.
Fig. 6Cl-24--Float Level Adjustment
LIG H T T R U C K SERVIC E M A N U A L
Fig. 6Cl-26--lnstalling Air Horn
CARBURETOR MODEL 1ME
6C 1-15
3. Install the choke vacuum break diaphragm assembly
using two short air horn screws opposite the choke
housing, connecting the choke vacuum break dia
phragm link to slotted diaphragm plunger stem. The
two attaching screws for the choke vacuum break
assembly have tapered heads for locating choke dia
phragm bracket. Make sure to use these in this
location. Tighten all air horn screws evenly and
securely using proper tightening sequence (Fig. 6C127).
4. If removed, install choke housing to float bowl using
three attaching screws. Two screws have lockwashers
and the other one which face the choke housing has a
tapered head for locating choke housing.
5. Install fast idle cam, and fast idle cam link to upper
choke lever assembly. Numbers on fast idle cam face
outward.
6. Install the choke cover and coil assembly in choke
housing as follows:
1. Install choke shaft assembly and choke valve into air
horn, if removed. Align choke valve, tighten two
retaining screws and stake securely in place.
NOTICE: Apply a torque retaining compound to the
vacuum break lever retaining screw and install lever to
choke shaft.
2. Install air horn to float bowl by engaging choke coil
lever link into notched hole in choke coil lever on choke
housing. Then carefully twist and lower air horn onto
float bowl. Install three long and one short air horn to
float bowl attaching screws and lockwashers (Fig. 6C126).
a. Install the choke cover and coil assembly in the choke
housing, aligning notch in cover with raised casting
projection on housing cover flange. Make sure coil
pick-up tang engages the inside choke coil lever.
A choke cover retainer kit is required to attach choke
cover to choke housing. Install proper retainers and
rivets contained in kit using suitable blind rivet
installing tool. It may be necessary to use an adapter
(tube) if installing tool interferes with electrical
connector tower on choke cover.
Do not use a gasket between electric coil and
housing, as the coil is electrically grounded through
housing.
7. Install choke vacuum diaphragm hose to tube on
diaphragm and connect to vacuum tube on bowl.
L IG H T T R U C K SERVICE M A N U A L
6C 1-16
CARBURETOR MODEL 1ME
ADJUSTMENT SPECIFICATIONS - MODELS - ME - M (MONOJET)
CARBURETOR
NUMBER
FLOAT
LEVEL
METERING
ROD
CHOKE ROD
CAM ADJ
VACUUM
BREAK
UNLOADER
Inches
Inches
Inches
Inches
Inches
.090
.275
.400
.520
N.A.
.090
.275
.400
.520
.090
.275
.400
.520
N.A.
N.A.
17081009
ME
17081309
ME
11/32
11/32
17081329
ME
11/32
CHOKE
SETTING
t-
N.A. = NOT ADJUSTABLE
Fig. 6Cl-28--Adjustment Specifications
LIG H T T R U C K SERVIC E M A N U A L
CARBURETOR MODEL 2SE
6C2-1
SECTION 6C2
CARBURETOR MODEL 2SE
CONTENTS
General Description.........................................................
Carburetor Operation....................................................
On-Vehicle Service..........................................................
Adjustments.....................................................................
Checking Idle Solenoid................ ................................
Solenoid Replacem ent...................................................
Choke Coil Replacement..............................................
Idle Mixture Check and Adjustment........................
6C2-1
6C2-2
6C2-4
6C2-4
6C2-4
6C2-4
6C2-14
6C2-14
Carburetor Mounting Torque..................................... 6C2-15
Carburetor Replacem ent.............................................. 6C2-15
Unit Repair........................................................................ 6C2-15
Disassem bly..................................................................... 6C2-16
Cleaning............................................................................ 6C2-19
Assembly........................................................................... 6C2-20
Adjustment Specifications.............................................. 6C2-25
GENERAL DESCRIPTION
The Model 2SE is a two barrel, two stage carburetor of
down-draft design for use on the 4.1 litre engine. To reduce
carburetor weight, aluminum die castings are used for the
air horn, float bowl, throttle body and choke housing. A heat
insulator gasket is used between the throttle body and float
bowl to reduce heat transfer to the float bowl.
The primary stage has a triple venturi, with a small
35mm bore that results in good fuel control during idle and
part throttle operation.
The secondary stage has a large 46mm bore that
provides sufficient air capacity for engine power require
ments. An air valve is used in the secondary stage with a
single tapered metering rod.
On the 2SE models, an integral 2" pleated paper fuel
filter with check valve is mounted in the front of the float
bowl behind the fuel inlet nut to give maximum filtration of
incoming fuel. The check valve is used to shut off fuel flow to
the carburetor and prevent fuel leaks if a vehicle roll-over
should occur.
The float chamber is located adjacent to the primary
and secondary bores. This feature assures adequate fuel
supply to both carburetor bores during all vehicle normal
maneuvers. A single pontoon float, brass needle seat, and a
rubber tipped float valve with pull clip are used to control
fuel level in the float chamber. The float chamber is
internally vented through a vertical vent cavity in the air
horn. Above this vent cavity is a removable vent stack
assembly that has a small meshed screen as its top portion.
This vent stack provides the correct height for the internal
vent and the screen offers necessary backfire protection to
the float chamber.
The Model 2SE float chamber also is externally vented
through a tube in the air horn. A hose connects this tube
directly to a vacuum operated vapor vent valve. When the
engine is not running, the canister vapor vent valve is open
allowing fuel vapors from the float chamber to pass into the
canister where they are stored until normally purged. The
venting of fuel vapors from the carburetor float bowl to the
canister meets evaporative emission requirements and
improves hot engine starting.
An adjustable part throttle screw is used in the float
bowl to aid in refinement of fuel mixtures for good emission
control. This screw is pre-set at the factory and a plug is
installed to prevent tampering and to seal against any fuel
L IG H T T R U C K SERVICE M A N U A L
6C2-2
CARBURETOR MODEL 2SE
leaks. No attempt should be made to adjust this screw in the
field. If it becomes necessary to replace the float bowl, the
new service float bowl will include an adjustable part
throttle (A.P.T.) screw which has been pre-set at the factory
and plugged as required.
A hot idle compensator assembly (when used) is
located in the air horn casting. The opening and closing of
the hot idle compensator valve is controlled by a bi-metal
strip that is calibrated to a specific temperature. When the
valve opens, additional air is allowed to by-pass the throttle
valves and enters the intake manifold to prevent rough idle
during periods of hot engine operation.
The idle mixture needle is recessed in the throttle body
casting and sealed with a hardened steel plug to discourage
tampering with the factory adjusted mixture setting in the
field which could upset exhaust emissions. The plug must
not be removed and idle mixture screw re-adjusted unless
required due to major carburetor overhaul or throttle body
replacement in which case special service procedures must
be carefully followed.
The choke system of the 2SE carburetor uses a dual
vacuum break system. The front (primary side) vacuum
break unit with bracket is mounted on the air horn and the
rear unit is mounted on the idle speed solenoid bracket
located on the secondary side of the carburetor. An electri
cally heated thermostatic choke coil is mounted in the choke
housing located on the secondary side of the carburetor. To
provide a non-adjustable design to discourage field readjust
ment of factory settings, the 2SE carburetor usues vacuum
break rods of a non-bendable design, a special cap over the
vacuum break unit adjustment screw, a special notch in
choke cover which must be indexed with a raised boss cast in
cover mounting flange on the choke housing, and special
rivets (with retainers) to retain choke thermostatic cover
and coil assembly in choke housing.
VENTSTACK
HOT IDLE COMPENSATOR
SECONDARY AIR VALVE
SECONDARY AIR
VALVE LEVER
CHOKE VALVE
PUMP LEVER
CHOKE HOUSING
/P R IM A R Y SIDE
♦/V A C U U M BREAK
SECONDARY SIDE
VACUUM BREAK
SLOW IDLE
SPEED SCREW
Sr
■
FAST IDLE
ADJUSTING SCREW
Fig. 6C2-l--M odel 2SE Carburetor
LIG H T T R U C K SERVIC E M A N U A L
The 2SE carburetor has a separate screw located in the
primary throttle lever for fast idle speed adjustment. A
separate screw, located in the throttle body, is used to make
the base speed setting (solenoid de-energized).
The carburetor model identification is stamped verti
cally on the float bowl in a flat area adjacent to the vacuum
tube Figure 6C2-2). If replacing the float bowl, follow the
manufacturer’s instructions contained in the service pack
age so that the identification number can be transferred to
the new float bowl. Refer to the carburetor part number on
the bowl when servicing the carburetor.
An exhaust gas recirculation system (E.G.R.) is used
on all applications to help control oxides of nitrogen. The
vacuum supply ports necessary to operate the recirculation
valve are located in the throttle body and connect through a
channel to a tube (location C) in the float bowl. This tube is
connected by a rubber hose to the E.G.R. valve. California
models use a fixed idle air by-pass system to reduce the
amount of air flowing through the carburetor primary
venturi to prevent the main nozzle from feeding fuel at idle.
On the 2SE carburetor, the primary and secondary
throttle shafts, the secondary actuating lever and lock-out
lever are coated with a special coating to reduce friction and
wear in these operating parts. Also, the secondary throttle
bore and valve are coated with a special graphite compound
for minimum air leakage past the valve for good idle air
control. Care should be taken during carburetor service to
not disturb or damage these coatings.
A throttle body mounted idle speed solenoid is used to
position the primary throttle valve to obtain idle speed
requirements of the engine.
Carburetor Operation
The m odel 2SE carburetor has six basic system s.
T hey are float, idle, main metering, power, pump and
choke (Fig. 6C2-3).
CARBURETOR MODEL 2SE
FLOAT HINGE
HOT IDLE
COMPENSATOR
IDLE CROSS-OVER
PASSAGE
•EXHAUST GAS
RECIRCULATION
PLASTIC
INSERT
6C2-3
UPPER
IDLE AIR BLEED
PULL CLIP
IDLE CHANNEL
RESTRICTION
VENT TUBE
TO CANISTER
FLOAT VALVE
TIMED VACUUM
PORT FOR E.G.R.*
LOWER IDLE
AIR BLEED
THROTTLE VALVE
(DOTTED LINE - OFF
IDLE POSITION)
OFF IDLE
PORT
_
IDLE DISCHARGE
HOLE
— PLUG
IDLE MIXTURE
SCREW AND SPRING
IDLE SYSTEM
FLOAT SYSTEM
(TYPICAL)
SIDE MAIN WELL
AIR BLEED
TOP MAIN WELL
AIR BLEED
CALIBRATION SCREW
(FACTORY ADJUSTED)
METERING ROD
HANGER
SECONDARY
METERING
ROD
, SECONDARY
METERING
JET
MAIN (PRIMARY)
METERING ROD
MAIN DISCHARGE
NOZZLE
SECONDARY
AIR VALVE
(OPEN)
MAIN METERING
ROD
■
FUEL PICKUP
TUBE
■
MAIN METERING
JET
POWER PISTON
POWER PISTON
SPRING
PLUG
PART THROTTLE
CALIBRATION SCREW
(FACTORY ADJUSTED)
SECONDARY
THROTTLE
VALVE
VACUUM CHANNEL
(TO POWER PISTON)
(TYPICAL)
PUMP SUCTION
BREAKER
SECONDARY SIDE
VACUUM
BREAK LINK
PUMP DISCHARGE SPRING
AND BALL RETAINER
PUMP ROD
(ACTUATED BY
THROTTLE LEVER)
VACUUM CHANNEL
(TO POWER PISTON)
POWER SYSTEM
(INCLUDING SECONDARY STAGE)
MAIN METERING SYSTEM
PUMP
DISCHARGE
SPRING
AND BALL
(SHOWN
UNSEATED)
FUEL WELL
(SECONDARY
P U M P LE V E R
INTERMEDIATE
CHOKE
IN T E R M E D IA T E
CHOKE
VALVE
CHOKE LEVER
„
VACUUM BREAK
AND CHOKE LEVER
---- VACUUM BREAK
LINK
AIR VALVE
ROD
AP DURATION
SPRING
PUMP PLUNGER
CUP SEAL
(SEATED)
PUMP CUP
OPERATION
AS PLUNGER MOVES
UP, CUP SEAL
UNSEATS FROM
PLUNGER HEAD
AND FUEL FLOWS
PAST CUP INTO
.
PUMP WELL
PRIMARY SIDE
VACUUM BREAK
UNIT
(AIR VALVE DASHPOT)
EXPANDER
SPRING
PUMP RETURN
SPRING
DISCHARGE
PASSAGE
FAST IDLE
CAM
SECONDARY SIDE
VACUUM BREAK
UNIT
SECONDARY
LOCKOUT LEVER
CHOKE SYSTEM
PUMP SYSTEM
Fig. 6C2-3--Carburetor Systems
LIG H T T R U C K SERVICE M A N U A L
6C2-4
CARBURETOR MODEL 2SE
ON-VEHICLE SERVICE
MODEL 2SE ADJUSTMENTS
Before checking or resetting the carburetor as the cause
of poor engine performance or rough idle, check ignition
system including distributor, timing, spark plugs and wires.
Check air cleaner, evaporative emission system, EFE
system, PCV system, EGR valve and engine compression.
Also inspect intake manifold vacuum hose gaskets and
connections for leaks and check torques of carburetor
mounting bolts/nuts.
Refer to Figures 6C2-A through 6C2-I for carburetor
adjustment procedures and specifications.
Checking Idle Solenoid
1. Turn on ignition, but do not start engine.
2. Open throttle to allow solenoid plunger to extend, close
throttle.
3. Disconnect lead at solenoid. Solenoid plunger should
drop away from throttle lever.
4. Connect solenoid lead. Plunger should move out and
contact the throttle lever. Solenoid may not be strong
enough to open the throttle, but the plunger should
move.
LIG H T T R U C K SERVIC E M A N U A L
5. If plunger does not move in and out as lead is discon
nected and connected, insert test lamp (1893 bult or
smaller) between the solenoid feed wire and ground.
6. If light lights, replace solenoid.
7. If light does not light, locate cause of open circuit in
solenoid feed wire.
IDLE SOLENOID REPLACEMENT
An inoperative solenoid should be replaced.
Removal
1. Remove carburetor air cleaner.
2. Disconnect electrical connector at solenoid.
3. Unscrew and remove solenoid from float bowl
assembly.
Installation
1. Hold choke valve wide open so that fast idle cam
follower clears fast idle cam.
2. Install solenoid and turn in until it contacts lever tang.
3. Connect electrical connector.
4. Install air cleaner.
5. Check and adjust idle speed.
CARBURETOR MODEL 2SE
6C2-5
2SE CARBURETOR ADJUSTMENTS
FLOAT ADJUSTMENT
HOLD RETAINER
C j) GAUGE AT TOE OF FLOAT AT
POINT FURTHEST AWAY FROM
FLOAT HINGE PIN (SEE INSET).
^
REMOVE FLOAT AND
BEND FLOAT ARM UP
OR DOWN TO ADJUST
®
PUSH FLOAT DOWN
LIGHTLY AGAINST NEEDLE
VISUALLY CHECK FLOAT
ALIGNMENT AFTER
ADJUSTING
PUMP ADJUSTMENT
NON-ADJUSTABLE
Fig. 6C2-A--2SE Carburetor Adjustments
LIG H T TR U C K SERVIC E M AN U AL
6C2-6
CARBURETOR MODEL 2SE
2SE CARBURETOR ADJUSTMENTS
FAST IDLE ADJUSTMENT (TYPICAL)
(BENCH SETTING)
Q
PLACE FAST IDLE SCREW
ON HIGHEST STEP OF
FAST IDLE CAM. „
T
TURN FAST IDLE SCREW
IN OR OUT TO JUST CONTACT
CAM, THEN TURN SCREW IN
SPECIFIED NUMBER OF TURNS.
CHOKE COIL LEVER ADJUSTMENT (TYPICAL)
©
REMOVE RIVETS AND CHOKE
© BEND INTERM EDIATE CHOKE
ROD TO ADJUST
COVER AND COIL ASSEMBLY
FOLLOW ING INSTRUC TIO NS
IN CHOKE STAT COVER
® PLACE FAST IDLE
RETAINER KIT (SEE NOTE).
SCREW ON H IG H STEP
NOTE: DO NOT REMOVE
OF FAST IDLE CAM
.0 8 5
GAGEJi
RIVETS AND RETAINERS
HO LD IN G CHOKE COVER AND
CO IL ASSEMBLY IN PLACE
UNLESS NECESSARY TO
CHECK THE CHOKE COIL
LEVER ADJUSTM ENT. IF RIVETS
AND COVER ARE REMOVED, A
CHOKE STAT COVER RETAINER
KIT IS REQUIRED FOR
REASSEMBLY.
EDGE OF LEVER SHO ULD
JUST C O N T A C T SIDE OF
PLUG G AG E AS SHOW N
INSERT .0 8 5
PLUG G AG E INTO
HOLE PROVIDED
Fig. 6C2-B--2SE Carburetor Adjustments
LIG H T T R U C K SERVICE M A N U A L
PUSH ON IN T E R
M EDIATE CHOKE
LEVER U N TIL
CHOKE VALVE
IS CLOSED
CARBURETOR MODEL 2SE
6C2-7
2SE CARBURETOR ADJUSTMENTS
FAS T IDLE CAM (CHOKE ROD) RELATION ADJUSTMENT - TYPICAL
FIGURE 1
1. CHOKE COIL LEVER ADJUSTMENT MUST BE CORRECT AND FAST IDLE
ADJUSTMENT MUST BE MADE BEFORE PROCEEDING.
2. USE CHOKE VALVE MEASURING GAUGE J-26701. TOOL MAY
BE USED WITH CARBURETOR ON OR OFF ENGINE. IF OFF ENGINE,
PLACE CARBURETOR ON HOLDING FIXTURE SO THAT IT WILL REMAIN
IN SAME POSITION WHEN GAUGE IS IN PLACE.
3. ROTATE DEGREE SCALE UNTIL ZERO (0) IS OPPOSITE POINTER.
4. WITH CHOKE VALVE COMPLETELY CLOSED (NECESSARY FOR FAST
IDLE SCREW TO BE ON HIGH STEP OF FAST IDLE CAM FOR INITIAL ZERO
SETTING OF GAUGE). PLACE MAGNET SQUARELY ON TOP OF CHOKE VALVE.
5. ROTATE BUBBLE UNTIL IT IS CENTERED.
FIGURE 2
6. ROTATE SCALE SO THAT DEGREE SPECIFIED FOR ADJUSTMENT IS
OPPOSITE POINTER.
7. PLACE FAST IDLE SCREW ON SECOND STEP OF CAM AGAINST RISE OF
HIGH STEP.
8. HOLD CHOKE VALVE TOWARD CLOSED POSITION BY LIGHTLY PUSHING
ON INTERMEDIATE CHOKE LEVER.
9. TO ADJUST, BEND FAST IDLE CAM ROD UNTIL BUBBLE IS CENTERF.D.
10. REMOVE GAUGE.
^
©DEGREE
SCA LF
LEVE LIN G
BUBBLE
(C E N T E R E D )
S P E C IF IE D A N G L E
SEE SP EC S .)
/
B EN D RO D T O A D J U S T
P O IN T E R
MAGNET
FIG U R E 1
HOLD C H O K E VALVE
TOW ARD C L O S E D
PO S ITIO N BY LIG H TLY
PU S H IN G ON IN T E R
M E D IA T E C H O K E LEVER
FIG U R E 2
PLACE FAST IDLE
SCREW O N S E C O N D
STEP OF C A M A G A IN S T
RISE OF H IG H STEP
FAST ID LE CAM
FIG U R E 2
®
R E M 0V E GAUGE
Fig. 6C2-C--2SE Carburetor Adjustments
LIGHT TRUCK SERVICE MANUAL
6C2-8
CARBURETOR MODEL 2SE
2 S E CARBURETO R A D J U S T M E N T S
PRIMARY SIDE VACUUM BREAK ADJUSTMENT
NOTE: PRIOR TO A D JUSTM ENT, REMOVE PRIMARY VAC UUM BREAK FROM
CARBURETOR. PLACE BRACKET IN A VISE AND, USING SAFETY PRECAUTIO N S,
G R IN D OFF A D JU S TM EN T SCREW CAP. REINSTALL VACUUM BREAK.
FIGURE 1
1. USE CHOKE VALVE M EASURING GAUGE J-26701 . TO O L MAY
BE USED W ITH CARBURETOR ON OR OFF ENGINE. IF OFF ENGINE, PLACE
CARBURETOR ON HO LD IN G FIXTURE SO TH A T IT WILL REMAIN IN SAME
PO SITIO N WHEN G AUGE IS IN PLACE.
2. ROTATE DEGREE SCALE U N TIL ZERO (0) IS OPPO SITE POINTER.
3. W ITH CHOKE VALVE COM PLETELY CLOSED (FAST IDLE SCREW M UST
BE ON H IG H STEP OF FAST IDLE CAM ), PLACE M AG NET SQUARELY
ON TOP OF CHOKE VALVE.
4. ROTATE BUBBLE U NTIL IT IS CENTERED.
FIGURE 2
5. ROTATE SCALE SO TH A T DEGREE SPECIFIED FOR AD JU S TM EN T IS
O PPOSITE PO INTER.
6. SEAT CHOKE VAC UUM DIAPHRAGM USING VAC UUM SOURCE. OVER 5"
HG. VACUUM M UST BE APPLIED TO VACUUM BREAK. ALSO, AIR VALVE
ROD M UST N O T BE RESTRICTING VACUUM DIAPHRAG M FROM SEATING.
IT MAY BE NECESSARY TO BEND AIR VALVE ROD TO O BTAIN A SLIG HT
CLEARANCE BETWEEN ROD AND END OF SLOT IN AIR VALVE LEVER.
PROCEED TO AIR VALVE ROD AD JU S TM EN T AFTER PRIMARY VACUUM
BREAK ADJUSTM ENT.
7. DURING READING OF ANGLE GAUGE, HOLD CHOKE VALVE TOW ARD
CLOSED P O S ITIO N BY LIG H TLY P USHING ON INTER M ED IA TE CHOKE LEVER.
8. TO ADJUST, USING 1/8" HEX W RENCH, TURN SCREW IN REAR COVER
UNTIL BUBBLE IS CENTERED. APPLY SEALER (SUCH AS SILICO NE
SEALANT RTV RUBBER OR EQ UIVALENT) OVER SCREW HEAD TO SEAL
SETTING .
9. REMOVE GAUGE.
FI G U R E 2
SILICONE SEALANT RTV RUBBER
OR EQUIVALENT) OVER SCREW HEAD TO
SEAL SETTING.
Fig. 6C2-D--2SE Carburetor Adjustments
LIGHT TRU CK SERVICE MANUAL
CARBURETOR MODEL 2SE
6C2-9
2SE CARBURETOR ADJUSTMENTS
AIR VALVE ROD ADJUSTMENT - TYPICAL
®
©
ROTATE Al« VALVE
IN THE DIRECTION
OF OPEN AIR VALVE
BY APPLYING ALIGHT
PRESSURE TO THE
AIR VALVE SHAFT.
© L E V E L IN G
BUBBLE
(CENTERED)
ODEGREE
SCALE
SPECIFIED ANGLE
(SEE SPECS.)
AIR VALVE
CLOSED
\
POINTER
MAGNET
FIGURE 1
TO ADJUST,
BEND AIR
VALVE ROD
UNTIL BUBBLE
IS CENTERED.
SEAT VACUUM
DIAPHRAGM USING
VACUUM SOURCE
Fig. 6C2-E--2SE Carburetor Adjustments
LIGHT TRUCK SERVICE MANUAL
6C2-10
CARBURETOR MODEL 2SE
2 S E CARBURETOR A D J U S T M E N T S
SECONDARY VACUUM BREAK ADJUSTMENT
FIG URE 1
1. REMOVE VACUUM BREAK FROM CARBURETOR. PLACE BRACKET IN A
VISE AND, USING SAFETY PRECAUTIONS, G RIND OFF ADJUSTM ENT
SCREW CAP.
2. PLUG END COVER USING AN ACCELERATOR PUMP PLUNGER CUP - VARAJET
TYPE OR EQUIVALENT. CUP M UST BE REMOVED AFTER ADJUSTM ENT
(SEE STEP 10, FIGURE 3) REINSTALL VACUUM BREAK.
FIG UR E 2
3. USE CHOKE VALVE M EASURING GAUGE J-26701 . TO O L MAY
BE USED W ITH CARBURETOR ON OR OFF ENG INE. IF OFF ENGINE,
PLACE CARBURETOR ON HO LDING FIXTURE SO TH A T IT WILL REMAIN
IN SAME PO S ITIO N WHEN GAUGE IS IN PLACE.
4. RO TATE DEGREE SCALE U NTIL ZERO (0) IS O PPOSITE POINTER.
5. W ITH CHOKE VALVE COM PLETELY CLOSED (FAST IDLE SCREW M UST BE ON
HIG H STEP OF FAST IDLE CAM), PLACE M AGNET SQUARELY ON TOP OF
CHOKE VALVE.
6. ROTATE BUBBLE U N TIL IT IS CENTERED.
FIGURE 3
7. ROTATE SCALE SO TH A T DEGREE SPECIFIED FOR AD JU S TM EN T IS O PPOSITE
POINTER.
8. SEAT CHO KE VAC UUM DIAPHRAGM USING VACUUM SOURCE. (AIR
BLEED SEALED AND OVER 5" HG. VAC UUM )
9. DU R IN G READING OF ANGLE GAUGE, HOLD CHOKE VALVE TOW ARD
CLOSED PO SITIO N BY LIG HTLY PUSHING ON INTERM EDIATE CHOKE
LEVER. MAKE SURE VACUUM DIAPHRAG M IS SEATED (OVER 5" HG. APPLIED
TO VACUUM BREAK).
10. TO ADJUST, USING 1/8" HEX W RENCH, TURN SCREW IN REAR COVER U N T IL
BUBBLE IS CENTERED. REMOVE CUP INSTALLED IN STEP 2 (FIG URE 1)
AFTER ADJUSTM ENT. APPLY SEALER (SUCH AS SILICO NE SEALANT RTV
RUBBER OR EQ UIVALENT) OVER SCREW HEAD TO SEAL SETTING .
11. REMOVE GAUGE.
©
S E A T D IA P H R A G M U S IN G V A C U U M S O U R C E .
(A IR B L E E D S E A L E D A N D O V E R
5 ” H g V A C U U M ).
SPECIFIED ANGLE
(SEE SPECS.)
©
©
ADJUSTMENT
SCREW ACCESS
(CAP REMOVED)
bubble
(C ENTERED )
© Ii PUMP
©
;9 )
' ©CHOKE
/
VALVE
CLOSED
^ . ( F A S T IDLE
SCREW
MUST BE ON
HIGH STEP OF
FAST IDLE
CAM)
PLUNGER CUP
^ FIGURE 1
DURING READING OF ANGLE
GAUGE, LIGHTLY PUSH
CLOCKW ISE ON IN T E R
MEDIATE CHOKE
w
LEVER (IN DIRECTION T
OF CLOSED CHOKE
VALVE) AND HOLD
IN POSITION WITH
RUBBER BAND.
FIGURE 3
rj
®
TO ADJUST, USING 1 /8 ”
HEX WRENCH, TURN
SCREW IN REAR COVER
UNTIL BUBBLE IS CENTERED.
REMOVECUP INSTALLED IN STEP 2
(FIGURE 1) AFTER ADJUSTMENT.
APPLY SEALER (SUCH AS SILICONE
'SEALANT RTV RUBBER OR EQUIVALENT) OVER
SCREW HEAD TO SEAL SETTING.
Fig. 6C2-F--2SE Carburetor Adjustments
LIGHT TRUCK SERVICE MANUAL
LEVELING
CARBURETOR MODEL 2SE
6C 2-11
2SE CARBURETOR ADJUSTMENTS
UNLOADER ADJUSTMENT (TYPICAL)
1. USE CHOKE VALVE MEASURING GAUGE J-26701 . TOOL MAY
BE USED WITH CARBURETOR ON OR OFF ENGINE. IF OFF ENGINE,
PLACE CARBURETOR ON HOLDING FIXTURE SO THAT IT WILL REMAIN
IN SAME POSITION WHEN GAUGE IS IN PLACE.
2. ROTATE DEGREE SCALE UNTIL ZERO (0) IS OPPOSITE POINTER.
3. WITH CHOKE VALVE COMPLETELY CLOSED (NECESSARY FOR FAST IDLE
SCREW TO BE ON HIGH STEP OF FAST IDLE CAM FOR INITIAL ZERO
SETTING OF GAUGE), PLACE MAGNET SQUARELY ON TOP OF CHOKE VALVE.
4. ROTATE BUBBLE UNTIL IT IS CENTERED.
FIGURE 2
5. ROTATE SCALE SO THAT DEGREE SPECIFIED FOR ADJUSTMENT IS
OPPOSITE POINTER.
6. HOLD PRIMARY THROTTLE VALVE WIDE OPEN.
7. DURING READING OF ANGLE GAUGE:
LIGHTLY PUSH CLOCKWISE ON INTERMEDIATE CHOKE LEVER (IN
DIRECTION OF CLOSED CHOKE VALVE) AND HOLD IN POSITION WITH
RUBBER BAND.
8. TO ADJUST, BEND TANG ON THROTTLE LEVER UNTIL BUBBLE IS CENTERED.
9. REMOVE GAUGE.
10. AT THIS POINT REINSTALL CHOKE COVER AND COIL ASSEMBLY (IF
PREVIOUSLY REMOVED AND NOT REINSTALLED) FOLLOWING
INSTRUCTIONS IN CHOKE STAT COVER RETAINER KIT (INCLUDES
REPLACEMENT ATTACHING RIVETS).
© L E V E L IN G
V -T
B U B B LE
/
J (C E N T E R E D )
©
S P E C IF IE D A N G L E
(S E E S P E C S .)
"
CHOKE
V A LV E
CLOSED
BEND TANG TO
A D J U S T U N T IL
B U B B L E IS
CENTERED.
© D U R I N G R E A D IN G O F A N G L E G A U G E ,
L IG H T L Y P U S H C L O C K W IS E ON
IN T E R M E D IA T E C H O K E LEVER (IN
D IR E C T IO N O F C L O S E D C H O K E
V A L V E ) A N D H O L D IN P O S IT IO N
W IT H R U B B ER B A N D .
©V
H O L D P R IM A R Y T H R O T T L E
V A LV E W ID E O P E N
Fig. 6C2-G--2SE Carburetor Adjustments
LIGHT TRUCK SERVICE MANUAL
6C2-12
CARBURETOR MODEL 2SE
2S E CARBURETO R A D J U S T M E N T S
SECONDARY LOCKOUT ADJUSTMENT
O
IF NECESSARY TO ADJUST, BEND
LOCKOUT LEVER TANG CONTACTING
FAST IDLE CAM.
HOLD CHOKE VALVE
WIDE OPEN BY
PUSHING COUNTER
CLOCKWISE ON
INTERMEDIATE
CHOKE LEVER.
GAUGE CLEARANCE D IMENSION SHOULD BE
AS SPECIFIED.
OPEN THROTTLE LEVER
UNTIL END OF SECONDARY
ACTUATING LEVER IS OPPOSITE
TOE OF LOCKOUT LEVER.
FAST IDLE ADJUSTMENT (ON VEHICLE]
©
PREPARE VEHICLE FOR ADJUST
MENTS - SEE EMISSION LABEL
ON VEHICLE. NOTE: IG N ITIO N
TIM IN G SET PER LABEL.
©
TURN FAST IDLE SCREW
IN OR O UT TO OBTAIN
SPECIFIED FAST IDLE
R.P.M. - (SEE LABEL)
PLACE FAST IDLE
SCREW ON HIGHEST
STEP OF FAST IDLE CAM
IDLE SPEED ADJUSTMENT
(ON VEHICLE)
O
PREPARE VEHICLE FOR ADJUSTMENTS SEE EMISSION LABEL ON VEHICLE.
NOTE: IG N ITIO N TIM IN G SET PER LABEL.
©
SOLENOID ENERGIZED - A /T IN DRIVE,
M /T IN NEUTRAL
©
©
TURN IDLE SPEED SCREW
TO SET BASIC IDLE
SPEED TO SPECIFICATIONS
(SOLENOID DE-ENERGIZED)
RECONNECT
SOLENOID
ELECTRICAL
LEAD AFTER
ADJUSTMENT
TURN SOLENOID
SCREW TO ADJUST
CURB IDLE SPEED
TO SPECIFIED RPM
(SOLENOID ENERGIZED)
Fig. 6 C 2 -H —C a rb u re to r Adjustments
LIGHT TRUCK SERVICE MANUAL
OPEN THROTTLE
SLIGHTLY TO
ALLOW SOLENOID
PLUNGER TO
FULLY EXTEND
NOTE: FUEL LEVEL MAY BE
AFFECTED BY FUEL PUMP
PRESSURE AS WELL AS BY
FLOAT LEVEL ADJUSTMENT.
©
REMOVE AIR
HORN SCREW
( 4) READING AT EYE LEVEL, OBSERVE
MARK ON GAUGE THAT LINES UP
WITH TOP OF CASTING AT THE
VENT HOLE. SETTING SHOULD BE
WITHIN ±1.5mm FROM SPECIFIED
FLOAT LEVEL SETTING.
/T \
REMOVE VENT STACK SCREWS
> 1 / AND VENT STACK
WITH ENGINE RUNNING AT IDLE,
CHOKE WIDE-OPEN, CAREFULLY
INSERT GAUGE IN AIR HORN SCREW
HOLE WITH SCALE IN VENT HOLE.
RELEASE GAUGE AND ALLOW IT
TO FLOAT FREELY.
REMOVE FLOAT GAUGE
FROM AIR HORN
( 5) IF THE MECHANICAL
SETTING (STEP 4) VARIES
MORE THAN ±1.5mm FROM
SPECIFICATIONS, REMOVE
AIR HORN AND ADJUST
FLOAT LEVEL TO SPECIFI
CATIONS FOLLOWING
NORMAL ADJUSTMENT
PROCEDURES.
© I F MECHANICAL SETTING IS FOUND TO BE WITHIN
SPECIFIED TOLERANCE - REPLACE AIR HORN SCREW,
VENT STACK AND VENT STACK SCREWS.
CAUTION: DO NOT PRESS DOWN
ON GAUGE TO CAUSE FLOODING
OR DAMAGE TO FLOAT.
SELECT
GAUGE
TO MATCH
CARBURETOR
SERIES BEING
CHECKED
TOOL J-9789-135
BLUE - 1979-81 2SE
RED - 1979 1/2-80 E2SE
WHITE - 1981 E2SE
FLOAT GAUGE - EXTERNAL CHECKING PROCEDURE
(2SE - E2SE TYPICAL)
6C2-14
CARBURETOR MODEL 2SE
CHECKING ELECTRIC CHOKE
1. Remove air cleaner. W ith engine off, hold throttle half
open. O pen and close choke several tim es. W atch
linkage to be certain all links are connected and there
are no signs of dam age or binding.
2. If choke or linkage binds, sticks or works sluggishly due
to petroleum gum form ation, clean with choke cleaner
or equivalent. Use cleaner as directed on can.
3. Allow choke to cool so th at when throttle is opened
slightly, choke blade fully closes. This check should be
m ade at an am bient tem perature of 15° to 27°C (59° to
80°F).
4. S ta rt engine and determ ine tim e for choke blade to
reach full open position. (S ta rt tim er when engine
starts.)
5. If choke blade fails to open fully within 3-1/2 minutes,
open throttle about 1/3. If choke still fails to open fully,
proceed with steps 6 and 7.
6. Check voltage at the choke heater connection: (Engine
m ust be running).
a. If the voltage is approxim ately 12-15 volts, replace
the electric choke unit.
b. If the voltage is low or zero, check all wires and
connections. If any connections in the oil pressure
sw itch c irc u itry are faulty or if the oil pressure
switch is failed open, the oil pressure w arning light
will be on with engine running. R epair wires or
connections as required.
7. If steps 4a and 4b do not correct problem, replace oil
pressure switch.
No gasket is used between the choke cover and the
choke housing due to grounding requirem ents.
8. Reinstall air cleaner.
CHOKE COIL REPLACEMENT
Choke m echanism should be checked for free opera
tion. A binding condition may have developed from petro
leum gum form ation on the choke shaft or from dam age.
Choke shafts can usually be cleaned without disassembly.
1. Remove air cleaner and disconnect choke electrical
connector.
2. Align a # 2 1 drill (.1 5 9 ") on rivet head and drill only
enough to remove rivet head. A fter removing rivet
LIGHT TRUCK SERVICE MANUAL
3.
4.
5.
6.
heads and retainers, use a draft and small ham m er to
drive the rem ainder of the rivets out of the choke
housing. Use care in drilling to prevent dam age to the
choke cover or housing. Remove the three retainers and
choke cover assembly from choke housing.
Remove choke coil from housing.
Install the choke cover and coil assembly in choke
housing as follows:
a. Install the choke cover and coil assembly in the choke
housing, aligning notch in cover with raised casting
projection on housing cover flange. M ake sure coil
pick-up tang engages the inside choke coil lever.
A choke cover retainer kit is required to attach the
choke cover to the choke housing. Install proper
retainers and rivets contained in kit using a suitable
blind rivet installing tool. It may be necessary to use
an adapter (tube) if installing tool interferes with
electrical connector tower on choke cover.
Connect choke electrical connector.
S ta rt engine, check operation of choke and then install
air cleaner.
Idle Mixture Check and Adjustment (Propane
Enrichment)
Idle m ixture screws have been present at the factory
and sealed. Idle m ixture should be adjusted only in the case
of m ajor carburetor overhaul, th rottle body replacem ent or
high emissions as determ ined by offical inspections. A djust
ing m ixture by other than the following method may violate
Federal an d /o r California or other state or provincial laws.
Because of the sealed idle m ixture screws, the idle
m ixture checking procedure requires artificial enrichm ent
by adding propane.
1. Set parking brake and block drive wheels. On cars
equipped with vacuum parking brake release, discon
nect and plug hose at brake. Engine must be at normal
operating tem perature and air conditioning off.
2. Disconnect and plug hoses as directed on the Emission
Control Inform ation Label under the hood.
3. Connect an accurate tachom eter to engine.
4. Disconnect vacuum advance and set tim ing to specifi
cation shown on the Emission Control Inform ation
Label. Re-connect vacuum advance.
CARBURETOR MODEL 2SE
6C 2-15
5. Set carburetor idle speed to specification as shown on
Emission C ontrol Inform ation Label.
6. Disconnect crankcase ventilation tube from air cleaner.
7. Using tool J-26911, insert hose with rubber stopper,
from propane valve into crankcase ventilation tube
opening in air cleaner. P ro p an e c a rtrid g e m ust be
vertical.
8. W ith engine idling in drive (neutral for m anual shifts)
slowly open propane control valve while pressing
button. C ontinue to add propane until speed drops due
to over richness. N ote m axim um engine speed (en
riched speed). If rich speed drop cannot be obtained
check for em pty cartridge or propane system leaks.
9. If the enriched idle speed is within the enriched idle
specification the m ixture is correct. Go to step 17.
10. If the enriched idle speed is not within specifications,
remove m ixture screw plugs following procedures.
11. Lightly seat screws, then back out equally, ju st enough
so engine will run.
12. Place transm ission in Drive (autom atics) or N eutral
(m anuals).
13. Back each screw out (richen 1/8 turn at a tim e until
m axim um idle speed is obtained). Then set idle speed to
the enriched idle specification.
14. T urn each m ixture screw in (clockwise) 1/8 turn at a
tim e until idle speed reaches value given on Emission
Control Inform ation Label.
15. Recheck enriched speed with propane. If not within
specification, repeat adjustm ent beginning with Step
12 .
16. Check and adjust fast idle as described on Emission
Control Inform ation Label.
17. T urn off engine. Remove propane tool, connect crank
case ventilation tube. Re-connect vacuum hoses.
Carburetor Mounting Torque
W hen torquing carburetor after removed, overhaul,
replacem ent or when installing a new heat insulator, torque
m ounting bolts in a clockwise direction to 23 N-m (198 in.
lbs.).
W hen retorquing carburetor at recom m ended m ainte
nance intervals, retorque to 16 N-m (144 in. lbs.) maxim um .
CARBURETOR REPLACEMENT (FIG. 6C2-3a)
Removal
Flooding, stum ble on acceleration and other perform
ance com plaints are, in many instances, caused by presence
of dirt, w ater, or other foreign m atter in carburetor. To aid
in diagnosing cause, carburetor should be carefully removed
from engine w ithout draining fuel from bowl. Contents of
fuel bowl may then be examined for contamination as
carburetor is disassembled. Check filter.
1. Remove air cleaner.
2. Disconnect fuel and vacuum lines from carburetor.
3. Disconnect electrical connector at choke.
4. Disconnect accelerator linkage and transmission cable.
5. Disconnect solenoid electrical connector.
6. Remove carburetor attaching nuts and remove car
buretor and solenoid assembly attachment.
7. Remove insulator gasket.
Installation
It is good shop practice to fill carburetor bowl before
installing carburetor. This reduces strain on starting motor
and battery and reduces the possibility of backfiring while
attempting to start engine. A small supply of fuel will enable
carburetor to be filled and the operation of float and intake
needle and seat to be checked. Operate throttle lever several
times and check discharge from pump jets before installing
carburetor.
1. Be certain throttle body and intake manifold sealing
surface are clean.
2. Install carburetor insulator.
3. Install carburetor over manifold studs.
4. Install vacuum and fuel lines at carburetor.
5. Install attaching nuts and tighten alternately to 21 N-m
(16 ft. lbs.).
6. Tighten fuel line.
7. Connect accelerator linkage and transmission cable.
8. Connect choke and solenoid electrical connectors.
9. Install air cleaner.
10. Check and adjust idle speed.
UNIT REPAIR
The procedures below apply to the com plete overhaul
with the carburetor removed from the engine. However, in
m any cases service adjustm ents of individual systems may
be com pleted without removing the carburetor from the
engine (refer to On-Car Service). A complete carburetor
overhaul includes disassembly, thorough cleaning, inspec
tion, and replacement of all gaskets - diaphragms - seals LIGHT TRUCK SERVICE MANUAL
6C2-16
CARBURETOR MODEL 2SE
worn or dam aged parts, and service adjustm ent of individual
systems.
CARBURETOR DISASSEMBLY
Before perform ing any service on the carburetor, it is
essential th at the carburetor be placed on a holding fixture
such as tool J-9 7 8 9 -1 18 or equivalent. W ithout the use of
the holding fixture, it is possible to dam age throttle valves.
Idle Speed Solenoid
Removal
1. Bend back retaining tabs on lockwasher; then remove
large solenoid retaining nut using suitable wrench. Use
care in removing nut with wrench to avoid bending or
dam ag in g choke linkage, solenoid b rack et, vacuum
break unit or throttle lever.
2. Remove lockwasher and solenoid unit from bracket.
T he solenoid should not be imm ersed in any
type of c a rb u re to r cleaner and should alw ays be
removed before com plete carburetor overhaul. Im m er
sion in cleaner will dam age solenoid.
NOTICE:
Air Horn
1. Remove clip from hole in pump lever. Do not remove
pump lever retaining screw or pum p lever from air horn
assembly.
2. Rem ove hose from prim ary side vacuum break
assembly.
3. Rem ove (2) screws securing p rim ary side vacuum
break bracket to air horn (Fig. 6C2-3b); then, rotate
vacuum break and b rack et assem bly to disengage
vacuum break link from slot in vacuum break and
choke lever and air valve rod from slot in air valve lever.
N O TIC E: Do not place vacuum break assem bly in
carburetor cleaner. Immersion in cleaner will dam age
vacuum break diaphragm .
4. If necessary to replace the vacuum break rod or air
valve rod, remove and discard retaining clips from end
of air valve rods. New retaining clip is required for
INTERMEDIATE CHOKE
reassembly. Remove plastic bushing used on rods and
retain for later re-use.
5. Remove secondary side idle speed solenoid-vacuum
break b racket a ttac h in g screws from th ro ttle body
(Fig. 6C2-3b). Then, rotate bracket to remove second
ary side vacuum break link from slot in break and
choke lever.
6. Remove and discard retaining clip from interm ediate
choke rod at choke lever (Fig. 6C2-4). A new retaining
clip is required for reassembly. Remove choke rod and
plastic bushing from choke lever, and save the bushing
for later re-use.
7. Remove (2) sm all screws th a t retain the hot idle
com pensator valve (Fig. 6C2-5). Remove valve and seal
from air horn. Discard seal. Hot idle com pensator valve
m ust be removed to gain access to short air horn to bowl
attaching screw.
8. Remove the seven (7) air horn to bowl attaching screws
and lockwashers (Fig. 6C 2-6). Remove vent and screen
assembly.
9. R otate fast idle cam to the full U P position and remove
air horn assembly by tilting to disengage fast idle cam
and pum p rod from hole in pump lever (Fig. 6C2-7). If
pum p plunger came out of float bowl with air horn
removal, remove pump plunger from air horn. The air
horn gasket should rem ain on the float bowl for removal
later.
Do not remove fast idle cam screw and cam from float
bowl. These parts are not serviced separately and are to
rem ain perm anently in place as installed by the factory.
The new service replacem ent float bowl will include the
secondary lock-out lever, fast idle cam and screw
installed as required.
10. Remove fast idle cam rod from choke lever by rotating
rod to align squirt on rod with small slot in lever.
Air Horn Disassembly
1. Remove pump plunger stem seal by inverting air horn
and use a small screwdriver to remove staking holding
the seal retainer in place. Remove and discard retainer
and seal.
VACUUM BREAK AND
CHOKE LEVER
LINK (SECONDARY SIDE
V A C U U M BREAK)
CUP
AIR VALVE ROD
BREAK
CHOKE LEVER
LO CATING LUG
VALVE
LEVER
BRACKET AT TAC H IN G
SCREWS
SECONDARY SIDE
VACUUM
PR IM AR Y SIDE
V A C U U M BREAK
LINK (PRIM ARY SIDE
V A C U U M BREAK!
BRACKET A TTAC H IN G
SCREWS
Fig. 6C2-3b--Vacuum Break and Idle Speed Solenoid
LIGHT TRUCK SERVICE MANUAL
IDLE
SPEED SOLENOID
Fig. 6C2-4--Choke Rod and Choke Lever
CARBURETOR MODEL 2SE
6C 2-17
H O T IDLE
Fig. 6C2-5--Hot Idle Compensator
Fig. 6C2-7--Air Horn Assembly
2. F urth er disassembly of the air horn is not required for
cleaning purposes or air horn replacem ent. The new
service a ir horn assem bly includes the secondary
m etering rod-air valve assembly and is pre-set at the
factory. N o attem pt should be m ade to change this
adjustm ent in the field. The air valve and choke valve
screws are perm anently staked in place and should not
be removed.
Float Bowl Disassembly
1. Remove air horn gasket. G asket is pre-cut for easy
removal around m etering rod and hanger assembly.
2. Remove pump plunger from pum p well.
3. Remove pump return spring from pum p well.
4. Remove plastic filler block over float valve.
5. Remove float assembly and float valve by pulling up on
retaining pin. Remove float valve seat and gasket, using
a wide blade screwdriver th a t fully fits the slots on top
of the float valve seat.
6. Remove power piston and m etering rod assembly by
depressing piston stem and allowing it to snap free (Fig.
6C2-8). The power piston can be easily removed by
A IR H O R N S C R E W S -
a id
lio d k i
pressing the piston down and releasing it with a snap.
This will cause the power piston spring to snap the
piston up against the plastic retainer. This procedure
may have to be repeated several times. Do not remove
power piston by using pliers on m etering rod holder.
7. Remove the power piston spring from the piston bore. If
necessary, m etering rod may be removed from power
piston hanger by compressing spring on top of m etering
rod and aligning groove on rod with slot in holder. Use
extrem e care in handling the m etering rod to prevent
dam age to m etering rod tip.
8. Remove the m ain m etering jet using a wide blade
screwdriver th at fully fits the slot in top of the jet (Fig.
6C2-8).
9. Using a small slide ham m er or equivalent, remove
plastic retainer holding pump discharge spring and
check ball in place (Fig. 6C 2-10). D iscard plastic
retainer (a new retainer is required for reassem bly).
T urn bowl upside down catching pum p discharge
spring and check ball in palm of hand.
Do not attem pt to remove plastic retainer by
prying out with a tool such as a punch or screwdriver this will dam age the sealing beads on the bowl casting
surface requiring com plete float bowl replacem ent.
NOTICE:
c r o c u /c
Choke Disassembly
Fig. 6C2-6--Air Horn Screws
1. Support float bow and throttle body as an assembly on a
suitable holding fixture such as Tool J-9789-1 18. Align
a # 2 1 drill (.1 5 9 ") on rivet head and drill only enough
to remove rivet head (Fig. 6C 2-11). D rill the two
rem aining rivet heads and then use a drift and small
ham m er to drive the rem ainder of the rivets out of the
choke housing. Use care to prevent dam age to choke
cover or housing.
2. Remove the choke cover assembly from choke housing.
3. Remove screw from end of interm ediate choke shaft
inside choke housing. Remove choke coil lever from
shaft.
4. Remove interm ediate choke shaft and lever assembly
from float bowl by sliding rearw ard out throttle lever
side (Fig. 6C2-12).
LIGHT TRUCK SERVICE MANUAL
6C2-18
CARBURETOR MODEL 2SE
PUMP DISCHARGE SPRING
AND BALL RETAINER
POWER
RETAINER
MAIN METERING
ROD
MAIN METERING
JET
Fig. 6C2-10--Pump Discharge Spring and Ball
Fig. 6C2-8--Power Piston and Metering Rod Assembly
5. Remove choke housing by removing two (2) attaching
screws in throttle body (Fig. 6C2-13).
Rivets
and
Retainers
Disassembly of Rem aining Float Bowl Parts
1. Remove/fuel inlet nut, gasket, check valve filter assem
bly, and spring.
2. Remove (4) throttle body to bowl attaching screws and
lockwashers and remove throttle body assembly (Fig.
6C2-14).
3. Remove throttle body to bowl insulator gasket.
Throttle Body
Disassem bly
Place throttle body assembly on carburetor holding
fixture to avoid damaging throttle valves.
Fig. 6C2-11--Riveted Choke Cover
S P R IN G R E T A IN E R
HOLDER
GROD
R E T A IN E R
PO W ER P IS T O N
INTERMEDIATE CHOKE
SHAFT AND LEVER
ASSEMBLY
Fig. 6C2-9~Power Piston Assembly
LIGHT TRUCK SERVICE MANUAL
Fig. 6C2-12--Choke Shaft and Lever Assembly
CARBURETOR MODEL 2SE
6C 2-19
Remove idle m ixture needle and plug as follows (Fig.
6C2-15):
a. Invert throttle body and place on carburetor holding
fixture-manifold side up.
b. M ake two parallel cuts in throttle body on either side of
the locator points beneath the idle m ixture needle plug
(manifold side) with a hack saw. The cuts should reach
down to the steel plug but should not extend more than
1/8" beyond the locator points. The distance between
the saw m arks depends on the size of the punch to be
used.
c. Place a flat punch at a point near the ends of the saw
m arks in the throttle body. Holding the punch at a 45
degree angle, drive it into the throttle body until the
casting breaks away, exposing the steel plug.
d. Holding a center punch vertical, drive it into the steel
plug. Then, holding the punch at a 45 degree angle,
drive the plug out of the casting.
H ardened plug will sh a tte r ra th e r th a n rem aining
intact. It is not necessary to remove the plug com
pletely; instead, remove loose pieces to allow use of Idle
M ixture A djusting Tool J-29030.
Fig. 6C2-13--Choke Housing Screws
1. Hold prim ary throttle lever wide-open and disengage
pum p rod from throttle lever by rotating rod until
squirt on rod aligns with slot in lever.
2. If replacem ent is necessary, remove fast idle screw and
clip in prim ary throttle lever.
3. F u rth er disassembly of the thro ttle body is not required
for cleaning purposes. T he p rim ary and secondary
throttle valve screws are perm anently staked in place
and should not be rem oved. T he th ro ttle body is
serviced as a complete assembly.
4. DO N O T R E M O V E plugs covering idle m ixture
needle unless it is necessary to replace the m ixture
needle or norm al soaking and air pressure fails to clean
the idle m ixture passages.
Idle m ixture should be adjusted only if required at time
of m ajor carburetor overhaul, throttle body replace
m ent, or high em issions as d eterm in ed by offical
inspections.
THROTTLE BODY
**
ATTACHING SCREWS v
e. Using Tool J-29030, remove idle m ixture needle and
spring from throttle body.
f. Using Tool J-29030-B, remove idle m ixture needle, and
spring from throttle body.
CLEANING AND INSPECTION
T he c a rb u re to r p arts should be cleaned in a cold
im mersion-type cleaner such as C arbon X (X -55) or its
equivalent.
The solenoid, electric choke, rubber parts,
plastic parts, diaphragm s, pump plunger, plastic filler
block should N O T be immersed in carburetor cleaner
as they will swell, harden or distort.
NOTICE:
1. Thoroughly clean all m etal parts and blow dry with
com pressed air. M ake sure all fuel passages and
m etering parts are free of burrs and dirt. Do not pass
drills or wires through jets and passages.
2. Inspect upper and lower surface of carburetor castings
for dam age.
3. Inspect holes in levers for excessive wear or out of
round conditions. If worn, levers should be replaced.
Inspect plastic bushings for dam age and excessive
wear. Replace as required.
4. Check, repair, or replace parts if the following prob
lems are encountered:
A.Flooding
1. Inspect float valve and seat for dirt, deep wear
grooves, scores, and proper seating.
2. Inspect float valve pull clip for proper installation
(Fig. 6C2-16). Be careful not to bend pull clip.
Fig. 6C2-14--Throttle Body Screws
3. Inspect float, float arm s and hinge pin for distor
tion, binds, and burrs. Check density of m aterial in
the float; if heavier than norm al, replace float.
4. Clean or replace fuel inlet filter and check valve
assembly.
B. Hesitation
LIGHT TRUCK SERVICE MANUAL
6C2-20
CARBURETOR MODEL 2SE
FLAT PUNCH
CENTER PUNCH
STEP#2
STEP #1
LOCATOR
p 0 |N T
\
HACKSAW
RECESSED IDLE MIXTURE
NEEDLE AND PLUG LOCATION
Fig. 6C2-15—Idle Mixture Needle
1. Inspect pump plunger and cup for cracks, scores,
or cup excessive wear. A used pum p cup will
shrink when dry. If dried out, soak in fuel for 8
hours before testing.
2. Inspect pum p d u ratio n and retu rn springs for
being weak or distorted.
3. Check all pum p passages and je t for dirt, im proper
seating of discharge check ball and scores in pump
well. Check condition of pump discharge check
ball spring.
4. Check pump linkage for excessive wear; repair or
replaceas necessary.
C .H ard S tarting - Poor Cold O peration
1. Check choke valve and linkage for excessive wear,
binds or distortion.
2. Inspect choke vacuum diaphragm s for leaks.
3. Clean or replace carburetor fuel filter.
4. Inspect float valve for sticking, dirt, etc.
5. Also check items under " Flooding".
D.Poor Perform ance - Poor Gas Mileage
1. Clean all fuel and vacuum passages in castings.
2. Check choke valve for freedom of movement.
3. Check power piston, m etering rod, and jet for dirt,
sticking, binding, d am aged p arts or excessive
wear.
LIGHT TRUCK SERVICE MANUAL
4. Check air valve and secondary metering rod for
binding conditions.
If air valve or m etering rod is dam aged, the air
horn assembly must be replaced. Also, check air
valve spring for proper installation (tension
against air valve lever)
E.Rough Idle
1. Inspect gasket and gasket m ating surfaces on
castings for dam age to sealing beads, nicks, burrs
and other dam age.
2. Clean all idle fuel passages.
3. If removed, inspect idle m ixture needle for ridges,
burrs, or being bent.
4. Check throttle lever and valves for bind, nicks and
other dam age.
5. C heck all d iaphragm s for possible ru p tu res or
leaks.
6. C lean plastic p arts only in S to d d ard solvent never in gasoline.
CARBU RETO R A SSEM B LY
Throttle Body
1. Holding prim ary throttle lever wide open, install lower
end of pump rod in throttle lever by aligning squirt on
CARBURETOR MODEL 2SE
6C2-21
HOOK CLIP OVER EDGE OF FLAT
ON FLOAT ARM FACING FLOAT PO N TO O N
C A U TIO N : DO N O T
HO O K PULL CLIP
IN THESE HOLES
FLOAT AND
LEVER ASSEMBLY
FLOAT NEEDLE PULL CLIP LOCATION
________________________________ (VARAJET II)______________________________ _
Fig. 6C2-16-Pull Clip Location
rod with slot in lever. End of rod should point outw ard
tow ard throttle lever.
2. If removed, install idle m ixture needle and spring using
tool J-29030-B Lightly seat needle and then back out 3
turns as a prelim inary idle m ixture adjustm ent. Final
idle m ixture adjustm ent m ust be made on-car using the
procedure described under Idle M ixture A djustm ent.
Float Bowl
Assem bly
T H R O T T L E B OD Y TO
B O W L G A SK ET
If a new float bowl assembly is used, stam p or engrave
the model num ber on the new float bowl.
1. Install new throttle body to bowl insulator gasket over
two locating dowels on bowl (Fig. 6C2-17).
2. Holding fast idle cam so th at cam steps face fast idle
screw on throttle lever when properly installed, install
throttle body making certain throttle body is properly
located over dowels on float bowl; then install (4)
th ro ttle body to bowl screws and lockw ashers and
tighten securely (Fig. 6C2-14).
Inspect linkage to insure lockout tan g is located
properly to engage slot in secondary lockout lever and
th a t linkage moves freely and does not bind.
3. Place carburetor on proper holding fixture such as
J-9789-1 18 or equivalent.
4. Install fuel inlet filter spring, check valve filter assem
bly, new gasket and inlet nut and tighten nut to 24 N-m
Fig. 6C2-17--Throttle Body to Bowl Gasket
6C2-22
5.
6.
7.
8.
9.
10.
11.
12.
13.
CARBURETOR MODEL 2SE
(18 ft. lbs.). Tightening beyond specified torque can
dam age nylon gasket and cause fuel leak.
W hen installing a service replacem ent filter, make sure
the filter is the type th at includes the check valve to
m eet U .S. M otor V ehicle S afety S ta n d ard s
(M .V .S.S.). W hen properly installed,hole in filter faces
toward inlet nut. Ribs on closed end of filter element
prevent filter from being installed incorrectly unless
forced.
Install choke housing on throttle body, m aking sure
raised boss and locating lug on rear of housing fit into
recesses in float bowl casting (Fig. 6C 2-13). Install (2)
choke housing attaching screws and lockwashers in
throttle body and tighten screws evenly and securely.
Install interm ediate choke shaft and lever assembly in
float bowl by pushing through from throttle lever side
(Fig. 6C2-12).
W ith interm ediate choke lever in the U P (12 o’clock)
position, install therm ostatic coil lever inside choke
housing onto flats on interm ediate choke shaft. Coil is
properly aligned when the coil pick-up tang is at the top
(12 o’clock) position. Install inside lever retaining
screw into end of interm ediate choke shaft and tighten
securely.
Do not install th e rm o sta tic choke cover and coil
assembly in housing until inside coil lever is adjusted
(see A djustm ents).
Install pum p discharge steel check ball and spring in
passage next to float cham ber (Fig. 6C2-10). Insert end
of new plastic retainer into end of spring and install
retainer in float bowl, tapping lightly in place until top
of retainer is flush with bowl casting surface.
Using a wide-blade screwdriver th a t fully fits the slot in
the top, install m ain m etering je t and the float valve
seat (with gasket) into bottom of float bowl. Tighten jet
and seat securely (Fig. 6C2-26).
To m ake adjustm ent easier, carefully bend float arm
upward at notch in arm before assembly.
Install float valve onto float arm by sliding float lever
under pull clip. C orrect installation of the pull clip is to
hook the clip over the edge of the float on the float arm
(Fig. 6C2-16).
Install float retaining pin into float arm with end of loop
of pin facing pum p well. Then, install float assembly by
aligning valve in the seat and float retaining pin into
locating channels in float bowl.
A djust float level as follows:
a. Hold float retaining pin firmly in place and push
down lightly on float arm at outer end against top of
float needle.
b. Using adjustable " T " scale, m easure from top of
float bowl casting surface (air horn gasket removed)
to top of float at toe (See inset, Float A djustm ent
Fig. 6C 2-A ).
c. Bend float arm as necessary for proper adjustm ent by
pushing on pontoon (see specifications).
d. Visually check float alignm ent after adjustm ent.
14. Install power piston spring into piston bore.
15. If removed, assemble m etering rod to holder on power
piston. Spring m ust be on top of arm when assembled
correctly (Fig. 6C2-9).
16. Install power piston and m etering rod assembly into the
float bowl and main m etering jet. Use care installing
the m etering rod into the jet to prevent dam aging the
m etering rod tip. Press down firmly on plastic power
piston retainer to make sure the retainer is seated in
recess in bowl and the top is flush with the top of the
bowl casting. If necessary, tap retainer lightly in place
using a drift and small ham m er.
17. Install plastic filler block over float valve, pressing
dow nw ard until properly seated (flush w ith bowl
casting surface).
18. Install air horn gasket on float bowl by carefully sliding
slit portion of gasket over the two dowel locating pins on
the float bowl.
19. Install pump return spring in pum p well.
20. Install pump plunger assembly in pump well.
Air Horn
Assembly
1. Install new pum p plunger stem seal and retainer in air
horn casting. Lightly stake seal retainer in three places,
choosing locations different from the original stakings.
2. Install fast idle cam rod in lower hole of vacuum break
and choke lever, aligning squirt on rod with small slot in
lever (squirt end of rod points inward toward air horn).
Air Horn To Bowl
Installation
1. R otate fast idle cam to the full U P position and tilt the
air horn assembly to engage lower end of fast idle cam
rod in slot in fast idle cam and install pump rod end into
hole in pump lever (Fig. 6C2-24). Then, holding down
on the pump plunger assembly, carefully lower air horn
assembly onto float bowl, guiding pump plunger stem
through hole in air horn casting. Do not force air horn
assembly onto bowl, but rath er lightly lower in place.
2. Install vent and screen assembly over vent stack in air
horn Then, install (7) air horn to bowl attaching screws
and lockwashers. following proper installation location
and tightening sequence. All air horn screws must be
tightened evenly and securely. See Fig. 6C2-18 for
proper tightening sequence.
3. Install new retainer clip through hole in end of pump
rod extending through pum p lever, making sure clip is
securely locked in place.
4. Install new seal in recess of air horn, then install hot
idle com pensator valve and retain w ith (2) sm all
attaching screws. Tighten screws securely (Fig. 6C211).
5. Install plastic bushing in upper hole in vacuum break
and choke lever, m aking sure small end of bushing
faces retaining clip when installed. W ith inner coil
lever and interm ediate choke lever at the 12 o’clock
position, install interm ediate choke rod in bushing.
R etain rod with new clip, pressing clip securely in place
with needlenose pliers (Fig. 6C2-10). M ake sure clip
has full contact on rod but is not seated tightly against
bushing. Rod to bushing clearance should be ,8mm
(.030").
CARBURETOR MODEL 2SE
6C2-23
"TRAPPED S T A T ”
COIL
AIR HORN SCREW
TIGHTENING SEQUENCE
(VARAJET - TYPICAL)
Fig. 6C2-18--Air Horn Tightening Sequence
6. Install idle speed solenoid, lockwasher and retaining
nut on secondary side vacuum break (Fig. 6C2-3).
Tighten nut securely. Then, bend back two (2) retain
ing tabs on lockwasher to fit slots in bracket.
7. R o tate secondary side vacuum break and bracket
assembly and insert end ( " T " pin) of vacuum break
link into upper slot of vacuum break and choke lever.
Install bracket on throttle body and install countersunk
screws. Tighten screws securely (Fig. 6C2-3).
8. If air valve rod has been removed from prim ary side
vacuum break plunger, install plastic bushings in holes
in prim ary side vacuum break plunger, making sure
small end of bushings face retaining clips when in
stalled. Then install vacuum break rod in upper hole of
plunger and air valve rod in lower hole of plunger and
secure new clips to rods using tool J-28697 or needle
nosed pliers.
R etaining clip is "d ish ed ". Install clip on rod with
outw ard bend of self-locking clip facing end of rod.
Check th at clips fully engage rods and th at clip is not
distorted.
9. R otate prim ary side vacuum break and bracket assem
bly and insert end of air valve rod into slot of air valve
lever and end of ( " T " pin) of vacuum break link into
lower slot of vacuum break and choke lever. Position
bracket over locating lug on air horn and install (2)
countersunk screws and tighten securely (Fig. 6C2-3).
10. Reinstall hose to prim ary side vacuum break assembly
and throttle body.
11. A fter completion of final choke coil lever adjustm ent
(refer to C arburetor A djustm ents), install choke cover
and coil assembly as follows:
a. Install the choke cover and coil assembly in the
choke housing, aligning notch in cover with raised
Fig. 6C2-19--Trapped Stat Choke Cover
casting projection on housing cover flange. M ake
sure choke coil lever is located inside the "trapped
sta t" coil tang when installing the choke cover and
coil assembly (Fig. 6 C 2 -19).
G round contact for the electric choke is provided
by a metal plate located at the rear of the choke
cover assembly. Do not install a choke cover gasket
between the electric choke assembly and the choke
housing.
b. A choke cover retainer kit is required to attach
choke cover to choke housing. Install proper
retain ers and rivets contained in kit, using a
suitable blind rivet installing tool (Fig. 6C2-20). It
may be necessary to use an a d ap te r (tu b e) if
installing tool interferes with electrical connector
tower on choke cover (Fig. 6C2-21).
Fig. 6C2-20~Rivet Installation
LIGHT TRUCK SERVICE MANUAL
6C2-24
CARBURETOR MODEL 2SE
3 /1 6 ”
ADAPTER (P ro c u re s te e l tu b in g lo c a lly )
Fig. 6C2-21 --Rivet Installation-Adapter
LIGHT TRUCK SERVICE MANUAL
CARBURETOR
NUMBER
FLOAT
LEVEL
PUMP
SETTING
m m /ln c h
m m /ln c h
FAST IDLE
CAM
(CHOKE ROD)
AIR VALVE
ROD
VAC. BREAK
PRI.
VAC. BREAK UNLOADER
SEC.
Fig. 6C2-22--Adjustment Specifications
17081621
4.5
3/16
15.5
5 /8
15°
1°
26°
38°
17081622
.4 .5
3/16
15.5
5/8
15°
1°
26°
38°
38°
17081623
4.5
3/16
15.5
5/8
15°
1°
26°
38°
38°
170811624
4.5
3/16
15.5
5/8
15°
1°
26°
38°
38°
17081625
4.5
3/16
15.5
5/8
15°
1°
26°
38°
38°
17081626
4.5
3/16
15.5
5/8
15°
1°
26°
38°
17081627
4.5
3/16
15.5
5 /8
15°
1°
26°
38°
38°
38°
17081629
3/16
3/16
3/16
15.5
5/8
15°
1°
24°
34°
41°
15.5
5/8
15°
1°
26°
38°
38°
17081633
4.5
4.5
4.5
15.5
5/8
15°
1°
26°
38°
38°
17081720
4.5
3/16
15.5
5/8
15°
1°
30°
37°
41°
17081721
4.5
3/16
15.5
5 /8
15°
1°
30°
37°
41°
17081725
4.5
3/16
15.5
5 /8
15°
1°
30°
37°
41°
17081726
4.5
3/16
15.5
5/8
15°
1°
30°
37°
41°
17081727
4.5
3/16
15.5
5/8
15°
1°
30°
37°
41°
17081630
38°
CARBURETOR
1
cX
o
6 C 2 -2 5
3<
o
2
MODEL 2SE
CD
CARBURETOR MODEL M2ME
6C3-1
SECTION 6C3
CARBURETOR MODEL M2ME
CONTENTS
G eneral D escription......................................................... ..6C3-1
C arb u reto r O peratio n ......................................................6C3-2
On-Vehicle S ervice.......................................................... ..6C3-2
A d ju stm en ts.......................................................................6C3-2
Checking C hoke................................................................6C3-11
Checking Idle S olen o id................................................ ..6C3-11
Idle M ixture A d ju stm e n t...............................................6C3-11
C arburetor M ounting T o rq u e .......................................6C3-11
C arburetor R eplacem ent........ ..................................... ..6C3-11
U nit R e p a ir........................................................................ ..6C3-12
D isassem bly..................................................................... ..6C3-12
C lean in g ..............................................................................6C3-16
A ssem bly......................................................... ...................6C3-17
A djustm ent Specifications..............................................6C3-21
GENERAL DESCRIPTION
The M 2M E carburetors (Fig. 6C3-2) for light duty
emission vehicles are basically carryover for the 1981 model
except a new electric choke carburetor is used replacing the
hot air choke model (M 2M C ) previously used. All models
include ta m p e r-re sista n t featu res such as rivets, plugs,
covers, etc. to discourage readjustm ent of facotory settings
which could affect eith er or both em ission control and
driveability. For example, as a carryover feature, blind
^
j-
&
.
VAPOR VENTTUBE
(TO CANISTER)
IDLE SPEED
SOLENOID
FRONT VACUUM
BREAK
PLUG (IDLE
MIXTURE NEEDLE)
Fig. 6C3-1-M odel M2ME
rivets are installed at the factory to retain the setting of the
therm ostatic coil in the housing.
A special cut-out is notched in the choke cover which
m ust be aligned with an extended tab on one of the choke
retainers which is located in the 2 o’clock position. The other
two retainers are of the conventional design (no tab).
The choke therm ostatic cover and coil assembly m ust
not be removed unless required during major carburetor
overhaul, or replacem ent of the cover and coil assembly or
choke housing in which case special service procedures are
necessary. An integral 2" pleated paper fuel filter, with
check valve, is m ounted in the front of the float bowl behind
the fuel inlet nut to give m axim um filtration of incoming
fuel. The check valve is used to shut off fuel flow to the
ca rb u re to r and prevent fuel leaks if a vehicle roll-over
should occur.
A single pontoon float, brass needle seat, and a rubber
tipped float valve with pull clip are used to control fuel level
in the float cham ber. The aneroid cavity insert, used on past
models, is deleted. This change was m ade to improve fuel
handling during vehicle m aneuvers. A plastic filler block is
used above the float cham ber to reduce fuel slosh in the float
bowl.
To reduce the possibility of fuel vapor losses, the
following c a rb u re to r changes have been m ade to m eet
evaporative emission requirem ents.
• Pum p plunger stem seal and retainer added to the air
horn on all models.
• Raised beads added to the air horn and float bowl
gasket m ating surfaces, and air horn gasket, for good
air horn to bowl sealing.
• The new model M 2M E carburetor uses two (2) addi
tional air horn to bowl a tta ch in g screws and
lockwashers.
• Four (4) throttle body to bowl screws used for improved
sealing as a carryover feature.
• Idle m ixture needle plugs vapor sealed.
T he c a rb u re to r has internally balanced venting
through a vent tube, pressed into the air horn casting,
located adjacent to the air intake, and by a vent slot located
directly over the float cham ber. In addition, vent baffles
located strategically in the float bowl provide efficient fuel
LIGHT TRUCK SERVICE MANUAL
6C3-2
CARBURETOR MODEL M2ME
handling during severe vehicle m aneuvers and hot engine
operation.
All m odels are ex tern ally vented th ro u g h a tube
(Location T) in the float bowl. A hose connects this tube
directly to a vacuum operated vapor vent valve located in the
vapor canister. W hen the engine is not running, the canister
vapor vent valve is open allowing fuel vapors from the float
cham ber to pass into the canister where they are storeed
until norm ally purged. T he venting of fuel vapors from the
ca rb u re to r float bowl to th e can ister m eets evaporative
emission requirem ents and improves hot engine starting.
Adjustable Part Throttle
In order to provide a close tolerance adjustm ent in the
main m etering system , an adjustm ent is provided to very
accurately set the depth of the m etering rods in the main
m etering jets.
The ad justm ent feature consists of a pin pressed in the
side of the power piston which extends through a slot in the
side of the piston well. W hen the power piston is down
(economy position), the side of the pin stops on top of a flat
surface on the ad justm ent screw located in the cavity next to
the power piston. T he adjustm ent screw is held from turning
by a tension spring beneath the head of the adjustm ent
screw. D uring production flow test, this adjustm ent screw is
turned up or down which, in turn, raises or lowers the power
piston and m etering rod assembly. This very accurately
controls the fuel flow between the rods and jets to meet
emission requirem ents.
N o a tte m p t should be m ade to change the A P T
adjustm ent. If float bowl replacem ent is required, the new
bowl assem bly will include an adjustm ent screw pre-set by
the factory.
All models use a bowl m ounted choke housing with a
n on -ad ju stab le electrically operated th e rm o sta tic choke
control assembly. A single front vacuum break is used for
control of choke valve opening after initial engine start.
O ther features include an alum inum throttle body for
decreased weight and improved heat distribution, plus a
thick throttle body to bowl insulator gasket to keep excessive
heat from the float bowl. A new special coated throttle body
to bowl gasket reduces fuel vapor losses.
For ease of service, alp h a b etic al code le tte rs are
included on the air horn, float bowl and throttle body casting
at external tube locations to identify air and vacuum hose
connections.
The carburetor part num ber is stam ped vertically on
the left rear corner of the float bowl (Fig. 6C3-2). R efer to
the part num ber on the bowl when servicing the carburetor.
W hen replacing the float bowl assembly, follow the instruc
tions contained in the service package. Stam p or engrave the
model num ber on the new float bowl.
As a carryover item , th e idle m ixture needles are
recessed in the throttle body casting and sealed with a
hardened steel plug to discourage tam pering in the field
which could upset exhaust emissions. The plugs m ust not be
removed and idle m ixture needles readjusted unless required
due to m ajor carburetor overhaul in which case special
procedures must be followed carefully.
An E xhaust G as R ecirculation System (E .G .R .) is used
on Light Duty vehicles to control oxides of nitrogen (N O x).
The vacuum ports necessary to operate the recirculation
valve are located in the throttle body and connect through a
channel to a tube in the throttle body. This tube is connected
by a hose to the E.G .R . valve (See Idle System for port
location).
On models used with air conditioning, an electrically
operated A /C idle speed solenoid is used to m aintain proper
idle speed when the air conditioning is in operation.
Carburetor Operation
Incorporated in the Model M 2M C carburetors are six
basic systems. They are float, idle, main metering, power,
pump, and choke (Figs. 6C3-3 and 4).
ON-VEHICLE SERVICE
CARBURETOR ADJUSTMENTS
Before checking or resetting the carburetor as the cause
of poor engine perform ance or rough idle, check ignition
system including distributor, timing, spark plugs and wires.
C heck air cleaner, evaporative em ission system , E F E
system, PCV system, E G R valve and engine compression.
Also inspect in tak e m anifold vacuum hose gaskets and
connections for leaks and check torques of c arb u reto r
m ounting bolts/nuts.
Refer to Figures 6C3-A through 6C 3-F for carburetor
adjustm ent procedures.
CARBURETOR MODEL M2ME
.FLOAT HINGE
PULL CLIP
6C3-3
INTERNAL VENT TUBE
/
INTERNAL VENT SLOT
/
FLOAT NEI
FLOAT NEEDLE
SEAT
VE NTTUBE
TO CANISTER
INLET FILTER
FUEL I
CHECK VALVE
SEAT
FLOAT SYSTEM
‘ EXHAUST GAS RECIRCULATION
RICH MIXTURE SCREW
(FACTORY ADJUSTED)
COVER
IDLE AIR BLEED VALVE
(FACTORY ADJUSTED)
LEAN M IXTURE SCREW
(FACTORY ADJUSTED)
VALVE
STEM
IDLE AIR
BLEED
MAIN M ETERING ROD
MAIN METERING JET
IDLE MIXTURE
IDLE
NEEDLE
DISCHARGE
(FACTORY ADJUSTED)
HOLE
PLUG
THRO TTLE VALVE
(DO TTED LINE - OFF
IDLE PO SITION )
IDLE SYSTEM
IDLE AIR BLEED VALVE
(FA C TO R Y A D JU S TE D )
RIC H M IX TU R E SCREW
(F A C TO R Y A D JU S TE D )
M AIN W ELL
AIR BLEEDS
LEAN M IX TU R E SCREW
(FA C T O R Y A D JU S TE D )
S O L E N O ID
PLU N G ER
(SHO'.VN UP)
PU LL-OVER
E N R IC H M E N T
/
r M A IN D IS C H A R G E
N O ZZLE
M A IN VE N TU R I
M A IN M E TE R IN G RO DS ( 2 )'
M A IN M ETE R IN G JETS (2)
T H R O TTLE VALVE
MAIN METERING SYSTEM
(PART THROTTLE OPERATION)
Fig. 6C3-3--Basic Systems
LIGHT TRUCK SERVICE MANUAL
6C3-4
CARBURETOR MODEL M2ME
R IC H M IX TU R E SCREW
(FA C TO R Y A D JU S TE D )
S
RIVETED
COVER
IDLE AIR BLEED VALVE
(FA C TO R Y A D JU S TE D )
LEAN M IX TU R E SCREW
(FA C TO R Y A D JU S TE D )
SO LE N O ID
PLUNG ER
(SH O W N U P ).
M A IN D IS C H A R G E
N O ZZL E
M AIN M ETE R IN G RO DS (2)
PLUG
M AIN M ETE R IN G JETS (2)
T H R O TTLE VALVE
W ID E-O P EN TH R O TTLE
EN R IC H M E N T S W IT C H
MAIN METERING SYSTEM
(WIDE-OPEN THROTTLE OPERATION)
R E T A IN E R
SEAL
PUMP
LE V E R
P U M P S U C T IO N
BREAKER
D IS C H A R G E
PASSAGE
D IS C H A R G E
B A L L R E T A IN E R
D IS C H A R G E
C H E C K BALL
CUP SEAL
! PUM P PLUNG ER
PUMP SYSTEM
CHOKE
CHOKE
INSET
VA CU UM BREAK
W IT H LE AF-TYP E
BUCKING SPRING
(S E E IN S E T)
UNLOADER
TANG
FAST
IDLE
ADJUSTING
SCREW
CHOKE SYSTEM
(ELECTRIC CHOKE TYPE)
Fig. 6C3-4--Basic Systems
LIGHT TRUCK SERVICE MANUAL
CARBURETOR MODEL M2ME
6C3-5
FLOAT ADJUSTMENT
(M EC H A N IC AL SETTIN G )
G A U G E F R O M T O P O F C A S T I N G TO T O P
OF F L O A T — G A U G I N G P O I N T 3 1 6 " B A C K
F R O M E N D OF F L O A T A T T O E (SEE IN S E T )
G A U G IN G PO INT
(3 1 6
BACK
F R O M TO E )
REM OVE FLOAT A N D BEND FLOAT
A R M U P OR D O W N TO A D J U S T
PUSH FLOAT D O W N
LIG H TL Y A G A I N S T NEEDLE
V IS U A L L Y CHECK FLOAT A L IG N M E N T
AFTER A D J U S T IN G
PUMP ADJUSTMENT
©
GAUGE FROM
TO P OF C H O K E
V A L V E W A L L , N E X T TO V E N T
S T A C K , TO TO P
OF P U M P S T E M
A S S P E C IF IE D
m u
5JB E N D
PUMP-
LEVER TO
ADJUST
^
©
ROD
IN S P E C IF I E D
HOLE
OF P U M P L E V E R
S U P P O R T LEVER W IT H
S C R E W D R IV E R
B E N D IN G
©
W H IL E
LEVER
THROTTLE VALVES
C O M PLETELY CLOSED
N O T E : M A K E S U R E F A S T ID L E
CAM
FO LLOW ER LEVER
IS OFF
S T E P S O N F A S T ID L E C A M
Fig. 6C3-A--Model M2ME Adjustments
LIGHT TRUCK SERVICE MANUAL
6C3-6
CARBURETOR MODEL M2ME
CHOKE COIL LEVER ADJUSTMENT
(SEE NOTE)
N O T E : IF A D J U S T M E N T
,s N E C E S S A R Y , D R IL L
0 UT R IV E T S A N D R E M O V E
B E N D C H O K E R O D A T T H IS
P O IN T T O A D J U S T (SEE IN S E T )
i l ------1
C H O KE VALVE
C LO SED
n
INSET
C H O KE C O V ER . USE S TA T
C O V E R R E T A IN E R K IT .
3 ) P U S H U P O N T H E R M O S T A T IC
C O IL T A N G (C O U N T E R C L O C K W IS E )
U N T IL C H O K E V A L V E IS C L O S E D .
LO W E R E D G E O F LE V E R S H O U L D
J U S T C O N T A C T S ID E O F P L U G
GAUGE.
UJ
\
4 ; IN S E R T 1 2 0 ”
PLUG G A U G E
IF N E C E S S A R Y , D R IL L OUT A N D R EM O V E
R IV E T S . R E M O V E T H E T H E R M O S T A T IC
C O V E R A N D C O IL A S S E M B L Y F R O M C H O K E
H O U S IN G
P L A C E F A S T ID L E C A M
F O L L O W E R O N H IG H S TE P
OF F A S T ID L E C A M .
FAST IDLE ADJUSTMENT (BENCH SETTING)
NOTE: R E C H E C K FAST
ID L E A D JU ST M EN T ON
THE V E H IC L E SETT IN G
TO SP EC IF IC A T IO N S.
H O LD CAM
FO LLO W ER ON
H IG H EST S T E P ----OF FAST ID L E CA M
S
TU RN SCREW IN TO
C O N T A C T L E V E R THEN
T U RN SCREW IN 4 V 2 T U R N S (NOTE)
S
T U R N FAST ID L E SCREW
OUT U N T IL P R IM A R Y
T H RO TTLE V A L V E S A R E
CLO SED.
Fig. 6C3-B--Model M2ME Adjustments
LIGHT TRUCK SERVICE MANUAL
CARBURETOR MODEL M2ME
6C3-7
FAST IDLE CAM (CHOKE ROD)
RELATION ADJUSTMENT
FIGURE 1
1.
CHOKE COIL LEVER ADJUSTMENT MUST BE CORRECT AND FAST IDLE
ADJUSTMENT MUST BE MADE BEFORE PROCEEDING.
2.
USE CHOKE VALVE MEASURING GAUGE J-26701. TOOL M AY
BE USED WITH CARBURETOR ON OR OFF ENGINE. IF OFF ENGINE. PLACE
CARBURETOR ON HOLDING FIXTURE SO THAT IT WILL REMAIN IN
SAME POSITION WHEN GAUGE IS IN PLACE.
3.
ROTATE DEGREE SCALE UNTIL ZERO (0) IS OPPOSITE POINTER.
4.
WITH CHOKE VALVE COMPLETELY CLOSED, PLACE MAGNET SQUARELY
ON TOP OF CHOKE VALVE.
5.
ROTATE BUBBLE UNTIL IT IS CENTERED.
FIGURE 2
6.
ROTATE SCALE SO THAT DEGREE SPECIFIED FOR ADJUSTMENT IS
OPPOSITE POINTER.
7.
PLACE CAM FOLLOWER ON SECOND STEP OF CAM AGAINST RISE OF
HIGH STEP.
8.
CLOSE CHOKE BY PUSHING UPWARD ON CHOKE COIL LEVER OR VACUUM
BREAK LEVER TANG (HOLD IN POSITION WITH RUBBER BAND).
9.
10.
TO ADJUST, BEND TANG ON FAST IDLE CAM UNTIL BUBBLE IS CENTERED.
REMOVE GAUGE.
LEVELING
BUBBLE
(CENTERED)
Sl/C HO KE
VALVE
CLOSED
© M A K E CHOKE COIL LEVER
AND FAST IDLE ADJUSTMENT
(BENCH OR ON-THE-CAR SETTING).
SPECIFIED
ANGLE (SEE SPECS.)
®
TO ADJUST, BEND TANG
ON FAST IDLE CAM
UNTIL BUBBLE IS
CENTERED.
©
CLOSE CHOKE BY
PUSHING UPWARD
ON CHOKE COIL
LEVER OR
VACUUM BREAK
LEVER TANG (HOLD
IN POSITION WITH
RUBBER BAND).
FAST IDLE CAM
PLACE CAM FOLLOWER
ON SECOND STEP OF
CAM AGAINST RISE OF
HIGH STEP.
REMOVE GAUGE.
N O TE : MAKE C H O K E C O IL LEVER AND FAST IDLE A D JU S T M E N T (B E N C H OR O N -TH E -C A R
S E TTIN G ). DO N O T R EM O VE RIVETS A ND C H O K E COVER TO PERFO RM TH IS
A D JU S TM E N T. USE RUBBER BAND ON V A C U U M BREAK LEVER TA N G TO HOLD
CHOKE VALVE C LO SE D (STEP 8 ).
Fig. 6C3-C--Model M2ME Adjustments
LIGHT TRUCK SERVICE MANUAL
6C3-8
CARBURETOR MODEL M2ME
FRONT VACUUM BREAK ADJUSTMENT
ANGLE GAUGE METHOD
FIGURE 1
1. USE CHOKE VALVE M EASU RIN G GAUGE J-26701 . TOOL M AY
BE USED WITH CARBURETOR ON OR OFF ENGINE. IF OFF ENGINE, PLACE
CARBURETOR ON HOLDING FIXTURE SO THAT IT WILL REM AIN IN
S A M E POSITION WHEN GAUGE IS IN PLACE.
2. ROTATE DEGREE SCALE UNTIL ZERO (0) IS OPPOSITE POINTER.
3. PLACE M AGNET SQUARELY ON TOP OF CHOKE VALVE.
4. CHOKE VALVE COMPLETELY CLOSED.
5. ROTATE BUBBLE UNTIL IT IS CENTERED.
FIGURE 2
6. ROTATE SCALE SO THAT DEGREE SPECIFIED FOR ADJUST MENT IS
OPPOSITE POINTER.
7. SEAT CHOKE VACUUM DIAPHRAGM USING VACUU M SOURCE.
8. HOLD CHO KE VALVE TOWARD CLO SED POSITION, PUSH IN G UPW ARD
ON CHOKE COIL LEVER OR VACUUM BREAK LEVER TANG (HOLD IN
POSITION WITH RUBBER BAND).
9. TO ADJUST, TURN SCREW IN OR OUT UNTIL BUBBLE IS CENTERED.
10. REMOVE GAUGE.
SPECIFIED ANGLE
(SEE SPECS.)
©DEGREE>,
SCALE
© P O IN T E R
NOTE 2:
LEAF BUCKING
SPRING MUST BE
SEATED AGAINST
LEVER
(WHERE USED)
RUBBER
BAND
LEVELING
BUBBLE
(CENTERED)
,
©CHOKE
VALVE
CLOSED
Y\
M A G N ET O j/-'\ }
TURN SCREW
TO ADJUST
UNTIL BUBBLE
FIGURE 1
IS CENTERED
S
SEAT DIAPHRAGM
?
(
M
W
LIGHTLY CLOSE CHOKE
FIGURE
BY PUSHING UPWARD
ON CHOKE COIL LEVER OR VACUUM
BREAK LEVER TANG (HOLD IN POSITION
WITH RUBBER BAND).
J z ) USING VACUUM SO U RCE
N0TE:T H R O T T L E V A L V E S
CO M PLETELY CLOSED
NO TE
M A K E S U R E F A S T ID LE
C A M F O L L O W E R L E V E R IS OFF
S T E P S O N F A S T ID L E C A M
B E N D S E C O N D A R Y C L O S IN G T A N G
A W A Y T O C L O S E P R IM A R Y V A L V E S ,
T H E N RE A D J U S T
Fig. 6C4-A--M4M Adjustments-1 of 9
LIGHT TRU CK SERVICE MANUAL
CARBURETOR MODEL M 4M
6C4-7
CHOKE COIL LEVER ADJUSTMENT
(SEE N O TE )
BEND C H O K E R O D A T T H IS
P O IN T TO A D JU S T (SEE IN S E T)
11
I
C H O K E VALVE
C LO SED
NO TE: IF A D JU S T M E N T
IS N E C E S S A R Y , DRILL
O UT R IV E TS AND REM O VE
C H O K E CO VER . USE S T A T
CO VER RETAINER KIT.
■\
PUSH UP ON T H E R M O S T A T IC
C O IL T A N G (C O U N T E R C L O C K W IS E )
U N T IL C H O K E VALVE IS CLOSED.
W
LOW ER ED G E OF LEVER S H O U L D
JU ST C O N T A C T S ID E OF PLUG
G A U G E.
43 IN S E R T .1 2 0
PLUG G AUG E.
IF N E C E S S A R Y , DRILL OUT A N D REMOVE
R IV E T S . REM O VE TH E T H E R M O S T A T IC
CO VER A N D C O IL ASSEM BLY FRO M C H O K E
H O U S IN G .
© P L A C E FAST IDLE CAM
FO LLO W ER O N H IG H STEP
O F FAST IDLE CA M .
FAST IDLE ADJUSTMENT (BENCH SETTING)
N O T E : R E C H E C K FA ST
ID L E A D J U S T M E N T O N
T H E V E H IC L E S E T T IN G
T O S P E C IF IC A T IO N S .
cx
( 7 ) H O LD CAM
FOLLOW ER ON
H IG H E S T STEP
O F FAST ID L E C A M
0
T U R N SCREW IN T O
CO NTACT LEVER THEN
T U R N SC R EW IN S P E C IF IE D
N U M B E R O F T U R N S (N O T E )
T U R N F A S T ID L E SCREW
O U T U N T IL P R IM A R Y
T H R O T TL E V A L V E S ARE
CLOSED.
Fig. 6C4-B--M4M Adjustments - 2 of 9
LIGHT TRUCK SERVICE MANUAL
6C4-8
CARBURETOR MODEL M 4M
FAST IDLE CAM (CHOKE ROD) RELATION ADJUSTMENT
FIGURE 1
1.
CHOKE COIL LEVER ADJUSTMENT MUST BE CORRECT AND FAST IDLE
ADJUSTMENT MUST BE MADE BEFORE PROCEEDING.
2.
USE CHOKE VALVE MEASURING GAUGE J-26701 . TOOL MAY
BE USED WITH CARBURETOR ON OR OFF ENGINE. IF OFF ENGINE, PLACE
CARBURETOR ON HOLDING FIXTURE SO THAT IT WILL REMAIN IN
SAME POSITION WHEN GAUGE IS IN PLACE.
ROTATE DEGREE SCALE UNTIL ZERO (0) IS OPPOSITE POINTER.
3.
4.
WITH CHOKE VALVE COMPLETELY CLOSED, PLACE MAGNET SQUARELY
ON TOP OF CHOKE VALVE.
5. ROTATE BUBBLE UNTIL IT IS CENTERED.
6.
FIGURE 2
ROTATE SCALE SO THAT DEGREE SPECIFIED FOR ADJUSTMENT IS
OPPOSITE POINTER.
7.
PLACE CAM FOLLOWER ON SECOND STEP OF CAM AGAINST RISE OF
HIGH STEP.
8. CLOSE CHOKE BY PUSHING UPWARD ON CHOKE COIL LEVER OR VACUUM
BREAK LEVER TANG (HOLD IN POSITION WITH RUBBER BAND).
9.
10.
TO ADJUST, BEND TANG ON FAST IDLE CAM UNTIL BUBBLE IS CENTERED.
REMOVE GAUGE.
© M A K E CHOKE COIL LEVER AND FAST IDLE ADJUSTMENT (BENCH OR ON-THECAR SETTING).
NOTE: DO NOT REMOVE RIVETS AND CHOKE COVER TO PERFORM THIS
ADJUSTMENT. USE RUBBER BAND ON VACUUM BREAK LEVER TANG TO HOLD
CHOKE VALVE CLOSED, (STEP 8).
{ § ) SPECIFIED
ANGLE (SEE SPECS.)
( D TO ADJUST, BEND TANG
ON FAST IDLE CAM
RUBBER
UNTIL BUBBLE IS
BAND
CENTERED.
FAST IDLE CAM
LIGHTLY CLOSE CHOKE
BY PUSHING UPWARD
ON CHOKE COIL
LEVER OR VACUUM
BREAK LEVER TANG
(HOLD IN POSITION
WITH RUBBER BAND).
REMOVE GAUGE.
FIGURE 2
PLACE CAM FOLLOWER
ON SECOND STEP OF
CAM AGAINST RISE OF
HIGH STEP.
AIR VALVE ROD ADJUSTMENT - FRONT
®
©
PLACE .015 GAUGE BETWEEN ROD
AND END OF SLOT IN LEVER
SEAT CHOKE VACUUM
AIR VALVE
DIAPHRAGM USING
COMPLETELY
OUTSIDE VACUUM
SOURCE
©
BEND HERE FOR SPECIFIED
CLEARANCE BETWEEN ROD
AND END OF SLOT IN LEVER
Fig. 6C4-C--M4M Adjustments-3 of 9
LIGHT TRUCK SERVICE MANUAL
CARBURETOR MODEL M 4M
6C4-9
AIR VALVE ROD ADJUSTMENT - REAR
(LIGHT DUTY TRUCK ONLY — NON-CALIFORNIA APPLICATIONS)
AIR VALVE
COMPLETELY CLOSED
©
PLACE GAUGE BETWEEN
ROD AND END OF SLOT
IN LEVER
BEND ROD FOR SPECIFIED
CLEARANCE BETWEEN ROD
AND END OF SLOT IN LEVER
SEAT CHOKE VACUUM
DIAPHRAGM USING
OUTSIDE VACUUM SOURCE
FRONT VACUUM BREAK ADJUSTMENT ANGLE GAUGE METHOD
FIG U RE 1
USE C H O K E VA LVE M E A S U R IN G G AUG E J 26701 . TO OL M A Y
BE USED W IT H C A R B U R ETO R O N OR OFF EN G INE. IF OFF EN G IN E . PLACE
C A R B U R ETO R O N H O LD IN G FIXTU RE SO T H A T IT W ILL R E M A IN IN
S A M E P O S ITIO N W H E N G A U G E IS IN PLACE.
1.
2.
ROTATE DEGREE SCALE UNTIL ZERO (OHS OPPOSITE POINTER.
3.
PLACE M A G N E T S Q U A R E LY O N TO P OF CHOKE VALVE.
4.
CH OK E VA LV E CO M PLETELY CLOSED.
5.
RO TA TE BUBBLE UN TIL IT IS CENTERED.
FIGURE 2
6.
ROTATE SCALE SO T H A T DEGREE SPECIFIED FOR A D JU S T M E N T IS
O PPO SITE POINTER.
7.
SEAT CHOKE VACUUM DIAPHRAGM USING VACUUM SOURCE.
8.
H O L D C H O K E VA LVE T O W A R D C L O S E D P O S IT IO N , P U S H IN G U P W A R D
O N C H O K E C O IL LEVER OR V A C U U M B R EA K LEVER T A N G (H O L D IN
P O S IT IO N W IT H R U B B ER B A N D ).
9.
10.
TO A D JU S T , T U R N SCREW IN OR O U T U N TIL BUBBLE IS CENTERED.
RE M O VE G AUGE.
LEVELING
BUBBLE
(CENTERED)
CHOKE
% , VA LVE
CLOSED
N O T E 2:
LEAF B U C K IN G
S P R IN G M U S T BE
SE A TE D A G A IN S T ;
LEVER
_____ _
(W H ER E U S E D )
»
^
'
BA ND
-
S E A T D IA P H R A G M
\ / \ /}
U S IN G V A C U U M S O U R C E
/
/X
J ? N O T E : O N D E LA Y M O D E L S W IT H AIR
c /A m
o,
r e m o v e R U BB ER C O V E R O VER
E L E M E N T A N D P LU G SM A LL
BLEED HO LE IN V A C U U M T U B E W IT H
TA PE. R E M O VE TA PE A FTER A D J U S T
M ENT.
L IG H T L Y C L O S E C H O K E
BY P U S H IN G UP W A R D
O N C H O K E C O IL LEVER OR V A C U U M
BREAK LEVER T A N G (H O L D IN P O S IT IO N
W IT H R U BB ER B A N D ).
REMOVE V A C U U M BREAK FROM C A RB UR
ETOR. PLACE BRACKET IN A VISE AN D .
USING SAFETY PR ECAUTIO NS, G RIND OFF
W ELD HOLDING A D JU S T M E N T SCREW
COVER. REMOVE COVER A N D REINSTALL
V A C U U M BREAK.
N O TE 1: MAKE CHOKE COIL LEVER A N D FAST IDLE A D JU S TM E N T (BENCH OR ON-THE-CAR SETTING).
D £ NOT REMOVE RIVETS A N D CHOKE COVER TO PERFORM TH IS A D JU S TM E N T . USE RUBBER
BA ND ON VA C U U M BREAK LEVER TANG TO HOLD CHOKE VALVE CLOSED (STEP 8).
Fig. 6C 4-D-M 4M Adjustments - 4 of 9
LIGHT TRUCK SERVICE MANUAL
6C4-10
CARBURETOR MODEL M4M
REAR VACUUM BREAK ADJUSTMENT - TYPICAL
(SCREW ADJUSTMENT TYPE)
1. USE CHOKE VALVE MEASURING GAUGE J-26701. TOOL MAY
BE USED WITH CARBURETOR ON OR OFF ENGINE. IF OFF ENGINE, PLACE
CARBURETOR ON HOLDING FIXTURE SO THAT IT WILL REMAIN IN
SAME POSITION WHEN GAUGE IS IN PLACE.
FIGURE 1
2. CHOKE COIL LEVER ADJUSTMENT MUST BE CORRECT AND FAST IDLE
ADJUSTMENT MUST BE MADE BEFORE PROCEEDING.
3. ROTATE DEGREE SCALE UNTIL ZERO (0) IS OPPOSITE POINTER.
4. WITH CHOKE VALVE COMPLETELY CLOSED, PLACE MAGNET SQUARELY
ON TOP OF CHOKE VALVE.
5. ROTATE BUBBLE UNTIL IT IS CENTERED.
FIGURE 2
6. ROTATE SCALE SO THAT DEGREE SPECIFIED FOR ADJUST MENT IS
OPPOSITE POINTER.
7. SEAT CHOKE VACUUM DIAPHRAGM USING VACUUM SOURCE.
8. HOLD CHOKE VALVE TOWARD CLOSED POSITION, PUSHING UPWARD
ON CHOKE COIL LEVER OR VACUUM BREAK LEVER TANG (HOLD IN
POSITION WITH RUBBER BAND).
9. TO ADJUST, USING 1/8” HEX WRENCH TURN SCREW IN REAR COVER
UNTIL BUBBLE IS CENTERED. APPLY SEALER (SUCH AS SILICONE
SEALANT RTV RUBBER OR EQUIVALENT) OVER SCREW HEAD TO
SEAL SETTING.
10. REMOVE GAUGE.
©
REMOVE V A C U U M BREAK FROM
CARBURETOR. PLACE BRACKET IN
A VISE A N D , USING SAFETY
PRECAUTIONS, GRIND OFF
A D J U S T M E N T SCREW CAP. RE
IN STA LL VA C U U M BREAK.
SPECIFIED
ANGLE (SEE SPECS.)
_
L
TO ADJUST, USING 1 /8 ” HEX
W RENCH TURN SCREW IN REAR
COVER UNTIL BUBBLE IS CENTERED.
APPLY SEALER (SU C H AS SILIQONE
SEA LAN T RTV RUBBER OR EQ UIVALENT)
OVER SCREW HEAD TO
SEAL S E TT IN G .
LEVELING
BUBBLE
(C E N TFR E D )
RUBBER
BAND
FIG U R E 3
PLUNGER
BUCKING
SPRING
®
SEAT DIAPHRAGM
USIN G VAC UUM SOURCE
(S E E NOTE 2)
LIGHTLY CLOSE CHOKE BY PUS H IN G
UPWARD ON CHOKE CO IL LEVER
OR VACUUM BREAK LEVER TA N G
(HO LD IN PO S ITIO N W ITH
RUBBER BAND). MAKE SURE
PLUNGER BUCKING SPRING (IF
USED) IS COMPRESSED A ND S E A T E D .
NOTE 2: ON DELAY M O DELS, PLUG END COVER USING AN ACCELERATOR PUMP PLUNG ER CUP • 2G
TYPE (FIG U R E 3 ) OR EQUIVALENT. SE A T VACUUM DIAPHRAGM M AKING SURE VAC UUM IS
ABOVE 5 " Hg WHEN READING GAUGE (STEP 9 ). REMOVE CUP AFTER A D JUSTM ENT.
NOTE 1: MAKE CHOKE COIL LEVER A D JU S TM EN T A N D FAST IDLE A D JU S TM E N T. DO NOT REMOVE
RIVETS A N D CHOKE COVER TO PERFORM THIS A D JU S TM E N T . USE RUBBER BAND ON V A C U U M
BREAK LEVER TANG TO HOLD CHOKE VALVE CLOSED (STEP 8).
Fig. 6C4-E--M4M Adjustments-5 of 9
LIGHT TRU CK SERVICE MANUAL
CARBURETOR MODEL M 4M
6C 4-11
UNLOADER ADJUSTMENT - TYPICAL
1. USE CHOKE VALVE M EA SU R IN G GAUGE J-26701. TOOL M A Y
BE USED WITH CARBURETOR ON OR OFF ENGINE. IF OFF ENGINE, PLACE
CARBURETOR ON HOLDING FIXTURE SO THAT IT WILL REM A IN IN
S A M E POSITION WHEN GAUGE IS IN PLACE.
FIGURE 1
2. CHOKE COIL LEVER ADJUSTMENT MUST BE CORRECT AND FAST IDLE
ADJUSTMENT MUST BE MADE BEFORE PROCEEDING.
3. ROTATE DEGREE SCALE UNTIL ZERO (0) IS OPPOSITE POINTER.
4. WITH CHOKE VALVE COMPLETELY CLOSED. PLACE M A G N ET SQUARELY
ON TOP OF CHOKE VALVE.
5. ROTATE BUBBLE UNTIL IT IS CENTERED.
FIGURE 2
6. ROTATE SCALE SO THAT DEGREE SPECIFIED FOR ADJUST MENT IS
OPPOSITE POINTER.
7. IF REMOVED, INSTALL CHOKE THERMOSTATIC COVER AND COIL
ASSEMBLY IN HOUSING.
8. CLOSE CHOKE VALVE BY PUSHING UP ON TANG ON V A C U U M BREAK
LEVER (HOLD IN POSITION WITH RUBBER BAND).
9. HOLD P R IM A R Y THROTTLE VALVES W IDE OPEN.
10. TO ADJUST, BEND TANG ON FAST IDLE LEVER UNTIL BUBBLE IS
CENTERED.
11. REMOVE GAUGE.
© MAKE CHOKE COIL LEVER AND FAST IDLE ADJUSTMENT (BENCH OR ON-THE-CAR
SETTING).
NOTE: DO NOT REMOVE RIVETS AND CHOKE COVER TO PERFORM THIS ADJUSTMENT.
USE RUBBER BAND ON VACUUM BREAK LEVER TANG TO HOLD CHOKE VALVE
CLOSED (STEP 8).
6) SPECIFIED
HOLD PRIM ARY
ANGLE (SEE SPECS.)
THROTTLE VALVES
LEVELING
W ,DE0PEN
BUBBLE
(CENTERED)
VACUUM BREAK
\
LEVER TANG
CHOKE
RUBBER
VALVE
BAND
CLOSED
FIGURE 1
IF REMOVED, INSTALL CHOKE
© THERMOSTATIC
COVER AND COIL
ASSEMBLY IN HOUSING.
BEND TANG TO
A D JU ST UNTIL
BUBBLE IS CENTERED.
CLOSE CHOKE VALVE BY PUSHING UP ON TANG ON
VACUUM BREAK LEVER (HOLD IN POSITION WITH RUBBER BAND).
Fig. 6C4-F--M4M Adjustments - 6 of 9
LIGHT TRUCK SERVICE MANUAL
6C 4-12
CARBURETOR MODEL M 4M
SECONDARY LOCKOUT ADJUSTMENT
CHOKE VA L V E
PUSH DOWN
ON T A IL OF
CAM
(STEP 2)
H O L D C H O K E V A L V E W ID E
O P E N BY P U S H IN G D O W N O N
CHOKE VALVE
CLOSED
THROTTLE
VALVES
CLOSED
B E N D P IN
TO A D J U S T
x
^ 5 '
x
----- --015 MAX
CLEARANCE
T A IL OF F A S T ID L E C A M
C H E C K L O C K O U T P IN
FO R C L E A R A N C E
FILE E N D OF P IN
(C H E C K FO R N O
B U R R S AFTER
F IL IN G )
S E C O N D A R Y L O C K O U T LEVER
©
S ID E C L E A R A N C E
^GAUGE
FOR C L E A R A N C E
SECO ND ARY LO CKOUT
©2 )
O P E N IN G C L E A R A N C E
SECONDARY CLOSING ADJUSTMENT
( T ) L E V E R AG AINST TANG
( T ) E N G I N E ID L E
^ " " s E T TO PROPER
ID L E R.P.M.
(7)c
HOKE V A L V E
^ ^ “^ W ID E OPEN CAM FOLLOW ER
O F F STEPS O F FAST ID L E CAM
( j H B E N D TANG
^ T O ADJUST
(7 ) .020"
^ -" C L E A R A N C E
SECONDARY OPENING ADJUSTMENT
Fig. 6C4-G--M4M Adjustments - 7 of 9
LIGHT TRU CK SERVICE MANUAL
CARBURETOR MODEL M4M
6C 4-13
CARBURETOR ADJUSTMENTS
AIR VALVE SPRING ADJUSTMENT
C 3*J) T' U R N
TENSIO N ADJUSTING SCREW
CLOCKWISE U N T IL A IR V A L V E JUST CLOSES.
THEN T U R N ADJUSTING SCREW CLOCKWISE
SPECIFIED NUM BER O F TURNS
T IG H T E N LOCK SCREW
(LOOSEN LOCK SCREW
USING SPECIAL
HEX WRENCH
2 J T U R N TENSIO N ADJUSTING
V " S C R E W COUNTERCLOCKWISE
U N T IL A IR V A L V E
OPENS PART WAY
IDLE SPEED ADJUSTMENT - WITHOUT SOLENOID
® PREPARE V E H I C L E
FOR A D J U S T M E N T S SEE EMISSION L A B E L ON V E H IC L E .
N OTE : I G N I T I O N T I M I N G SET PER L A B E L .
1T U R N ID L E SPEED SCREW TO
SET C UR B I D L E SPEED TO
S P E C IF IC A T IO N S - A / C OF F
(SEE EMISSION L A B E L )
A/C IDLE SPEED ADJUSTMENT - WITH SOLENOID
SOLENOID ENERGIZED A /C COMPRESSOR LEAD
DISCONNECTED AT A/C
COMPRESSOR, A /C O N ,
A /TTR A N S M IS SIO N IN .
DRIVE, M /T IN NEUTRAL
©
PREPARE VEHICLE FOR ADJUSTMENTS
SEE EMISSION LABEL ON VEHICLE.
NOTE: IGNITION TIM ING SET PER LABEL.
J”
TURN SOLENOID SCREW TO
ADJUST TO SPECIFIED RPM.
(RECONNECT A/C COMPRESSOR
LEAD AFTER ADJUSTMENT)
'OPEN THROTTLE SLIGHTLY TO ALLOW
SOLENOID PLUNGER TO FULLY EXTEND
\( 3
TURN IDLE SPEED SCREW TO
SET CURB IDLE SPEED TO
SPECIFICATIONS - A/C OFF
(SEE EMISSION LABEL)
Fig. 6C4-H--M4M Adjustments 8 of 9
LIGHT TRUCK SERVICE MANUL
6C4-14
CARBURETOR MODEL M4M
THROTTLE LEVER ACTUATOR ADJUSTMENT
(ON VEHICLE)
NOTE: ENGINE MUST BE W ARM CHOKE WIDE OPEN - CA M FOLLOWER
OFF STEPS OF FAST IDLE CAM.
©TWITH
PLUNGER HELD INWARD.
l’RN PLUNGER SCREW IN OR OUT
TO OBTAIN SPECIFIED R.P.M.
ADJUST IDLE SPEED
SCREW TO OBTAIN
SPECIFIED CURB IDLE
R.P.M. (SEE LABEL).
MANUALLY OPEN THROTTLE
SLIGHTLY AND ALLOW TO
CLOSE AGAINST EXTENDED
PLUNGER.
I
WITH ENGINE SET AT SPECIFIED IDLE SPEED, USING OUTSIDE VACUUM SOURCE
APPLY SUFFICIENT VACUUM TO THE ACTUATOR TO EXTEND THE PLUNGER FULLY.
FAST IDLE ADJUSTMENT (ON VEHICLE)
©
P O SITIO N T R A N S M IS S IO N
IN P A R K OR N EU TRAL
I T
y-
®
09
HOLD C A M FOLLOWER ON
P RO P ER STEP OF FAST IDLE
C A M PER E M IS S IO N LABEL
S____t
®
D IS C O N N E C T A N D PLUG
V A C U U M H O SE AT EGR
VALV E
TU RN FAST IDLE SC R E W
TO O B T A IN SP EC IF IED R P M
ON E M IS S IO N LABEL
Fig. 6C4-I--M4M Adjustments 9 of 9
UGH TRUCK SERVICE MANUAL
ENGINE RUNNING AT IDLE,
© WITH
CHOKE WIDE-OPEN, CAREFULLY
READING AT EYE LEVEL, OBSERVE
© MARK
ON GAUGE THAT LINES UP
o
n
WITH TOP OF CASTING AT THE
VENT SLOT OR VENT HOLE.
SETTING SHOULD BE WITHIN
±1/16" FROM SPECIFIED FLOAT
LEVEL SETTING.
INSERT GAUGE IN VENT SLOT
OR VENT HOLE (NEXT TO AIR
CLEANER MOUNTING STUD) IN
AIR HORN. RELEASE GAUGE AND
ALLOW IT TO FLOAT FREELY.
CAUTION: DO NOT PRESS DOWN
ON GAUGE TO CAUSE FLOODING
OR DAMAGE TO FLOAT.
REMOVE FLOAT GAUGE
FROM AIR HORN.
n
©
IF THE MECHANICAL SETTING
(STEP 2) VARIES OVER ±1/16" FROM
SPECIFICATIONS, REMOVE AIR
HORN AND ADJUST FLOAT
LEVEL TO SPECIFICATIONS
FOLLOWING NORMAL ADJUST
MENT PROCEDURES.
LIGHT TRUCK
SERVICE M AN U AL
FLOAT GAUGE — EXTERNAL
CHECKING PROCEDURE
(DUALJET AND QUADRAJET - TYPICAL)
6C4-16
CARBURETOR MODEL M4M
IDLE MIXTURE CHECK AND ADJUSTMENT
(PROPANE ENRICHMENT)
Light Duty Emission Vehicles Only
Idle m ixture screws have been preset at the factory and
sealed. Idle m ixture should be adjusted only in the case of
major carburetor overhaul, throttle body replacem ent or
high emissions as determ ined by offical inspections. A djust
ing m ixture by other than the following method may violate
Federal an d /o r California or other state or Provincial laws.
Because of the sealed idle m ixture screws, the idle
m ixture checking procedure requires artificial enrichm ent
by adding propane.
1. Set parking brake and block drive wheels. On cars
equipped with vacuum parking brake release, discon
nect and plug hose at brake. Engine m ust be at normal
operating tem perature and air conditioning off.
2. Disconnect and plug hoses as directed on the Emission
Control Inform ation Label under the hood.
3. Connect an accurate tachom eter to engine.
4. Disconnect vacuum advance and set tim ing to specifi
cation shown on the Emission Control Inform ation
Label. Re-connect vacuum advance.
5. Set carburetor idle speed to specification as shown on
Emission Control Inform ation Label.
6. Disconnect crankcase ventilation tube from air cleaner.
7. Using tool J-2691 1, insert hose with rubber stopper,
from propane valve into crankcase ventilation tube
opening in air cleaner. Propane c a rtrid g e m ust be
vertical.
11. Lightly seat screws, then back out equally, just enough
so engine will run.
12. Place transmission in Drive (autom atics) or N eutral
(m anuals).
13. Back each screw out (richen 1/8 turn a t a time until
m axim um idle speed is obtained). Then set idle speed to
the enriched idle specification.
14. T urn each m ixture screw in (clockwise) 1/8 turn at a
tim e until idle speed reaches value given on Emission
Control Inform ation Label.
15. Re-check enriched speed with propane. If not within
specification, repeat adjustm ent beginning with Step
12 .
16. Check and adjust fast idle as described on Emission
Control Inform ation Label.
17. Turn off engine. Remove propane tool, connect crank
case ventilation tube. Re-connect vacuum hoses.
IDLE MIXTURE ADJUSTMENT - BEST IDLE
METHOD
(For Heavy Duty Emission Vehicles With 4-Barrel)
Perform this ad ju stm en t w ith engine at o perating
tem perature, parking brake applied and transmission in
park or neutral.
1. Remove air cleaner.
2. Connect tachom eter and vacuum gage to engine.
3. As a prelim inary adjustm ent, turn idle m ixture screws
in lightly to seat and back out 2 turns.
8. W ith engine idling in drive (neutral for m anual shifts)
slowly open propane control valve while pressing
button. Continue to add propane until speed drops due
to over richness. N ote m axim um engine speed (en
riched speed).
If rich speed drop cannot be obtained check for empty
cartridge or propane system leaks.
4. W ith engine running (choke wide open and transm is
sion in neutral) adjust idle speed screw to idle speed
specified on Engine Em ission C ontrol Inform ation
Label.
9. If the enriched idle speed is within the enriched idle
specification the m ixture is correct. Go to step 17.
6. R epeat steps 4 and 5 until "b e st" idle is obtained.
10. If the enriched idle speed is not within specifications,
remove m ixture screw plugs following procedures.
LIGHT TRUCK SERVICE MANUAL
NOTICE: Do not turn idle m ixture screw tightly against
seat or dam age may result.
5. A djust idle m ixture screw to obtain highest R PM .
7. Shut down the engine, remove gages and install air
cleaner.
CARBURETOR MODEL M 4M
6C 4-17
CARBURETOR REPLACEMENT
Removal (Fig. 6C4-7)
Flooding, stum ble on acceleration and other perform
ance complaints are in many instances, caused by presence
of dirt, w ater, or other foreign m atter in carburetor. To aid
in diagnosis, carburetor should be carefully removed from
engine w ithout draining fuel from bowl. Contents of fuel
bowl may then be exam ined for contam ination as carburetor
is disassembled. Check filter.
1. Remove air cleaner and gasket.
2. Disconnect wire at solenoid, if equipped.
3. Disconnect fuel pipe and vacuum lines.
4. Disconnect choke system.
5. Disconnect accelerator linkage.
6. If equipped with autom atic transm ission, disconnect
downshift cable.
7. If equipped with cruise control, disconnect linkage.
8. Remove c a rb u re to r atta c h in g bolt, c a rb u re to r and
insulator.
Installation
CARBURETOR MOUNTING TORQUE
W hen torquing c a rb u re to r a fte r rem oval overhaul,
replacem ent or when installing a new heat insulator, torque
m ounting bolts, in a clockwise direction, to 16 N-m (144 in.
lbs.).
W hen retorquing carburetor a t recom m ended m ainte
nance intervals, check in clockwise direction. If less than 7
N-m (60 in. lbs.), retorque to 11 N-m (96 in. lbs.); if greater
than 7 N-m (60 in. lbs.), do not retorque.
1. C lean sealing surfaces on intake m anifold and
carburetor.
2. Fill carburetor bowl before installing carburetor.
3. Install carburetor with new insulator and tighten bolts
to correct torque (See C arburetor M ounting Torque).
4. Connect downshift cable as required.
5. Connect cruise control cable as required.
6. Connect accelerator linkage.
7. Connect choke system.
8. Connect fuel pipe and vacuum hoses.
9. Connect solenoid as required.
10. Install air cleaner.
11. Check and adjust idle speed.
UNIT REPAIR
DISASSEMBLY
Place c a rb u re to r on a holding fixture to prevent
dam age to throttle plates.
Solenoid (If Equipped)
Remove screws securing the solenoid and bracket to
float bowl and remove solenoid and bracket assembly.
The solenoid should not be im m ersed in any type of
carburetor cleaner and should always be removed before
com plete carburetor overhaul.
Air Horn
1. Remove upper choke lever from the end of choke shaft
by removing retaining screw (Fig. 6C4-8). Then rotate
upper choke lever to remove choke rod from slot in
lever.
2. Remove choke rod from lower lever inside the float
bowl casting by holding lower lever outw ard with small
screwdriver and twisting rod counterclockwise.
Fig. 6C4-8--Removing Upper Choke Lever
LIGHT TRUCK SERVICE MANUAL
6C4-18
CARBURETOR MODEL M 4M
3. Rem ove secondary m etering rods by rem oving the
small screw in the top of the m etering rod hanger. Lift
upw ard on m etering rod hanger until the secondary
m etering rods are com pletely out of the air horn.
M etering rods m ay be disassem bled from the hanger by
rotating ends out of the holes in the end of the hanger.
(Fig. 6C4-9).
C O U N TE R S U N K
SCREWS (2)
(BELOW CHOKE
VALVE)
4. Using special tool J-25322, drive small roll pin (pum p
lever pivot pin) inw ard ju st enough until pum p lever
can be removed from air horn. Then remove pum p lever
from pum p rod (Fig. 6C4-10).
5. Remove front vacuum break hose from tube on float
bowl.
6. Remove eleven(l 1) air horns to bowl attaching screws;
then remove the two counter-sunk screws located next
to the venturi (Fig. 6C4-11). Remove secondary air
baffle deflector from under the two center air horn
screws.
SHORT
SHORT
LO NG
LO NG
Fig. 6C4-11—Air Horn Screws
Remove air horn from float bowl by lifting straight up.
The air horn gasket should rem ain on the float bowl for
removal later (Fig. 6C4-12).
W hen removing air horn from float bowl, use care to
prevent bending the small tubes protruding from the air
horn. These tubes are perm anently pressed into the air
horn casting. DO N O T R E M O V E .
Air Horn Disassembly
1. Remove front vacuum break bracket attaching screws
(Fig. 6C4-13). The vacuum break diaphragm assembly
may now be removed from the air valve dashpot rod
Fig. 6C4-9--Removing Secondary Metering Rods
Fig. 6C4-10--Removing Pump Lever
LIGHT TRUCK SERVICE MANUAL
Fig. 6C4-12--Removing Air Horn
CARBURETOR MODEL M 4M
and the dashpot rod from the air valve lever. Do not
place vacuum break assembly in carburetor cleaner.
2. If used, remove pum p plunger stem seal by inverting air
horn and using a small screwdriverto remove staking
holding the seal re ta in e r in place (Fig. 6C 4-14).
Remove and discard retainer and seal.
F urth er disassembly of the air horn is not required for
cleaning purposes. If part replacem ent is required, proceed
as follows:
T he air valves and air valve sh aft should not be
removed. If it is necessary to replace the air valve closing
spring or center plastic eccen tric cam , a rep air kit is
available. Instructions for assem bly are included in the
repair kit.
6C 4-19
Float Bowl
1. Remove air horn gasket by lifting out of dowel locating
pins and lifting tab of gasket from beneath the power
piston hanger, being careful not to disto rt springs
holding the main m etering rods (Fig. 6C4-15).
2. Remove pum p plunger, and pump plunger stem seal
(Fig. 6 C 4 -14) if used, from pump well.
3. Remove pum p return spring from pump well.
4. Remove power piston and m etering rods by depressing
piston stem and allowing it to snap free (Fig. 6C4-16).
The power piston can be easily removed by pressing the
piston down and releasing it with a snap. This will cause
the power piston spring to snap the piston up against
the retainer. This procedure may have to be repeated
several times.
Do not remove power piston by using pliers on m etering
rod hanger.
Remove the power piston spring from the well.
The A.P.T. m etering rod adjustm ent screw is pre-set at
the factory and no attem pt should be m ade to change
this adjustm ent in the field. If float bowl replacem ent is
required during service, the new bowl assem bly will be
supplied with an A .P.T. m etering rod screw which will
be pre-set as required.
5. Remove m etering rods from power piston by discon
necting tension spring from top of each rod, then rotate
rod to remove from hanger.
Use care when disassem bling rods to prevent distortion
of tension spring an d /o r m etering rods. N ote carefully
position of tension spring for later reassembly.
6. Remove plastic filler block over float valve.
Fig. 6C4-13--Removing Front Vacuum Break-Typical
7. Remove float assembly and float needle by pulling up
on retaining pin. Remove float needle seat and gasket.
(Fig. 6C4-17).
8. If used, remove aneroid cavity insert from float bowl
(Fig. 6C4-18).
9. Remove prim ary main m etering jets (only if necessary)
(Fig. 6C4-19).
FLO AT BOWL
Fig. 6C4-14--Pump Plunger Stem Seal
Fig. 6C4-15--Float Bowl
LIGHT TRUCK SERVICE MANUAL
6C4-20
CARBURETOR MODEL M 4M
RETAINING
SPRING
METERING
ROD
POWER
PISTON
POWER
PISTON
SPRING
A N E R O ID
C A VITY
INSERT
Fig. 6C4-18--R em oving A neroid Cavity Insert
Fig. 6 C 4-16--P o w er Piston and M etering Rods
PUMP DISCHARGE
CHECK BALL RETAINER
AND CHECK BALL
NEEDLE SEAT
■ R E M O V IN G TO O L
Fig. 6 C 4 -1 9 --F lo a t Bowl Jets
Fig. 6C 4-17--R em oving N eedle Seat-Typical
NOTICE: N o attempt should be made to remove the
secondary metering jet (metering orifice plates). These
jets are fixed and, if damaged, bowl replacement is
required.
10. Remove pump discharge check ball retainer and check
ball.
11. Remove secondary air baffle, if replacement is
required.
12. Remove pump well fill slot baffle only if necessary.
13. Remove rear vacuum break control and bracket assem
bly by removing (2) screws from bracket and rotating
LIGHT TRUCK SERVICE MANUAL
the assembly to remove vacuum break rod from slot in
plunger head (Fig. 6C4-20). The non-adjustable vac
uum break rod, riveted to the intermediate choke lever,
is not removed at this tim e, but is removed after
removal of the choke assembly from the float bowl.
Choke
Disassembly
The non-adjustable choke cover design is used to
discourage readjustment of the choke thermostatic cover
and coil assembly in the field. However, it is necessary to
CARBURETOR MODEL M 4M
6C 4-21
ATTACHING
SCREWS
REAR VACUUM BREAK
C H O K E COVER
RETAINERS
VACUUM BREAK ROD
(NON —ADJUSTABLE)
Fig. 6C 4 -2 1 --C h o ke Rivets
Fig. 6 C 4 -20--R ear Vacuum Break-Typical
remove the cover and coil assembly during normal car
buretor disassembly for cleaning and overhaul using proce
dures described below.
A T T A C H IN G
CHOKE
H O U S IN G
SCREW
Rem oval of Choke Cover
1. Support float bowl and throttle body as an assembly on
a suitable holding fixture such as Tool J-9789-118.
2. Carefully align a # 2 1 drill (.159") on rivet head and
drill only enough to remove rivet head (Fig. 6C4-21).
Drill the two (2) remaining rivet heads and then use a
drift and small hammer to drive the remainder of the
rivets out of the choke housing. Use care in drilling to
prevent damage to choke cover or housing.
3. Remove the two conventional retainers, retainer with
tab, choke cover gasket, and choke cover assembly from
choke housing.
Do not remove baffle plate from beneath the thermo
static coil on the choke cover.
4. Remove choke housing assembly from float bowl by
removing retaining screw and washer inside the choke
housing (Fig. 6C4-22). The complete choke assembly
can be removed from the float bowl by sliding outward.
5. Remove plastic tube seal (hot air models only) from
vacuum inlet boss on choke housing.
6. Remove secondary throttle valve lock-out lever from
float bow l (6C4-23).
7. Remove lower choke lever from inside float bowl cavity
by inverting bowl.
8. To disassemble intermediate choke shaft from choke
housing, remove coil lever retaining screw at end of
shaft inside the choke housing (Fig. 6C4-22). Then
remove thermostatic coil lever from flats on intermedi
ate choke shaft. Remove intermediate choke shaft from
the choke housing by sliding outward. The fast idle cam
can now be removed from the intermediate choke shaft
(Fig. 6C4-23).
Remove the cup seal from inside choke housing shaft
hole if the housing is to be immersed in carburetor
cleaner. Also, remove the cup seal from the float bowl
SCREW
Fig. 6 C 4 -2 2 -R e m o v in g Choke Housing
plastic insert for bowl cleaning purposes. DO NOT
ATTEM PT TO REM OVE PLASTIC INSERT.
Float Bowl Disassembly
1. Remove fuel inlet nut, gasket and filter (Fig. 6C4-24).
2. Remove throttle body by removing throttle body to
bowl attaching screws (Fig. 6C4-25).
3. Remove throttle body to bowl insulator gasket (Fig.
6C4-26).
Throttle Body Disassembly
1. Remove pump rod from throttle lever by rotating rod
until tang on rod aligns with slot in lever.
LIGHT TRUCK SERVICE MANUAL
6C4-22
CARBURETOR MODEL M4M
INTERMEDIATE
CHOKE SHAFT SEAi
PLASTIC
TUBE SEAL
(HOT AIR CHOKE
MODELS ONLY)
INSULATOR
GASKET
•HROTTLE VALVE
LOCKOUT LEVER
ST IDLE
CAM
CHOKE HOUSING
l/ACUUIVI fc S K fc A K M U U
[MON—ADJUSTABLE)
Fig. 6C 4 -2 3 --C h o ke Housing Assembly
Fig. 6C4-26--R em oving Insulator Gasket
adjusted on the vehicle carefully following factory
recommended procedures.
Remove idle mixture needle and plug as follows:
1. Make two parallel cuts in the throttle body on either
side of the locator points beneath the idle mixture
needle plug (manifold side) with a hack saw (Fig. 6C426a). The cuts should reach down to the steel plug but
should not extend more than 1/8" beyond the locator
points. The distance between the saw marks depends on
the size of the punch to be used.
Fig. 6C4-24--Fuel Filter
Jk lifc;.*,-
THROTTLE BODY
TO BOWL SCREWS (3)
2. Place a flat punch at a point near the ends of the saw
marks in the throttle body. Holding the punch at a 45°
angle, drive it into the throttle body until the casting
breaks away, exposing the steel plug.
3. Holding a center punch vertical, drive it into the steel
plug. Then holding the punch at a 45° angle, drive the
plug out of the casting. Hardened plug will break
rather than remaining intact. It is not necessary to
remove the plug completely; instead, remove loose
pieces.
4. Repeat procedure for the remaining mixture needle.
Further disassembly of the throttle body is not required
for cleaning purposes. The throttle valve screws are perma
nently staked in place and should not be removed. The
throttle body is serviced as a complete assembly.
CLEANING AND INSPECTION
Fig. 6C4-25--R em oving Throttle Body Screws
2. Do not remove the plugs covering idle mixture needles
during normal carburetor cleaning and servicing unless
diagnosis indicates the carburetor is the cause of a
driver complaint or emission failure, or the idle mixture
needles or throttle body must be replaced, in which
case, the plugs may be removed and the idle mixture
LIGHT TRUCK SERVICE MANUAL
The carburetor parts should be cleaned in cold immer
sion type cleaner.
NOTICE: The electric solenoid, rubber parts, plastic
parts, diaphragms, pump plungers, should not be put in
immersion type cleaner as they will swell, harden or
distort.
CARBURETOR MODEL M4M
6C4-23
FLAT PUNCH
SAW SLOTS
CENTER PUNCH
STEP #2
LOCATOR
POINTS
STEP #1
HACKSAW
RECESSED IDLE MIXTURE
NEEDLE AND PLUG LOCATIONS
Fig. 6 C 4 -2 6 a ~ ld le M ixture N eedle
1. Thoroughly clean all metal parts and blow dry with
compressed air. M ake sure all fuel passages and
metering parts are free of burrs and dirt.
2. Check, repair or replace the following parts if the
following problems were encountered.
a. Flooding
1. Inspect float needle seat for dirt, deep wear
grooves, scores and proper seating.
2. Inspect float, float arm and hinge pin for distor
tion, binds and burrs. Check float for leaks and/or
being loaded (heavier than normal).
b. Hesitation
1. Inspect pump plunger for cracks, scores or cup,
excessive wear. A used pump cup will shrink when
dry. Soak in fuel for 8 hours before testing if dried
out.
2. Inspect pump duration and return spring for being
weak or distorted.
3. Check all pump passages and jets for dirt, im
proper seating inlet or discharge balls, scores in
pump well.
4. Check pump linkage for excessive wear, repair or
replace as necessary.
c. Hard Starting - Poor Cold Operation
1. Check choke valve and linkage for excessive wear,
binds or distortion.
2. Inspect choke vacuum diaphragm for leaks.
3. Clean or replace carburetor filter.
4. Inspect needle for sticking, dirt etc.
5. Examine fast idle cam for wear or damage.
6. Also check items under "flooding ".
d. Poor Performance - Poor Gas Mileage
1. Power Piston, power valve, metering rods for dirt,
sticking, binding, damaged parts or excessive
wear.
2. Check air valve for binds and damage. If air valve
is damaged, the air horn assembly must be re
placed. A torsion spring kit is available for repairs
to air valve closing spring. A new plastic secondary
metering rod cam is included in the kit.
e. Rough Idle
1. Inspect gasket and gasket mating surfaces on
castings for damage to sealing beads, nicks, burrs
and other damage.
2. Clean all idle fuel passages.
3. If removed, inspect idle mixture meedles for
ridges, burrs, or being bent.
4. Check throttle lever and valves for binds, nicks,
and other damage.
LIGHT TRUCK SERVICE MANUAL
6C4-24
CARBURETOR MODEL M 4M
5. Check all diaphragms for possible ruptures or
leaks.
6. Clean plastic parts only in cleaning solvent - never
in gasoline.
The intermediate choke shaft lever and fast idle cam
are in correct relation when the tang on lever is beneath
the fast idle cam. Do not install choke cover and coil
assembly until inside coil lever is adjusted.
ASSEMBLY
1. If removed, install idle mixture needle, washer, and
spring using Idle Mixture Adjusting Tool J-29030.
Lightly seat needle and then back out 4-1/2 turns as a
preliminary idle mixture adjustment. Final idle mix
ture adjustment must be made on car using the
procedures described under Idle Mixture Adjustment.
2. Install lower end of pump rod in throttle lever by
aligning tang on rod with slot in lever. End of rod
should point outward toward throttle lever.
Float Bowl Assembly
1. Install new throttle body to bowl gasket over two
locating dowels on bowl.
2. Install throttle body making certain throttle body is
properly located over dowels on float bowl, then install
throttle body to bowl screws and tighten evenly and
securely (Fig. 6C4-25).
3. Place carburetor on proper holding fixture J-8328.
4. Install fuel inlet filter spring, filter, new gasket and inlet
nut and tighten nut to 24 N-m (18 ft. lbs.) (Fig. 6C424).
The fuel inlet check valve on a vehicle with light duty
emissions must be installed in the filter to meet Motor
Vehicle Safety Standards (M .V .S .S .) for roll-over.
New service replacement filter includes the check
valve.
Ribs on closed end of filter element prevent filter from
being installed incorrectly unless forced.
Tightening beyond specified torque can damage nylon
gasket.
Float Bowl
1. Install end of vacuum break rod in slot in rear vacuum
break plunger (Fig. 6C4-20). Then, install rear vacuum
break and bracket assembly on float bowl using two
large countersunk attaching screws. Tighten secure
ly.If vacuum break adjustment is necessary, see
adjustments.
2. If removed, install air baffle in secondary side of float
bowl with notches toward the top. Top edge of baffle
must be flush with bowl casting.
3. If removed, install baffle in pump well fill slot.
4. Install pump discharge check ball and retainer in
passage next to pump well. Tighten retainer securely.
5. Install primary main metering jets (if removed).
6. Install aneroid cavity insert into float bowl.
7. Install new needle seat assembly, with gasket.
8. To make adjustment easier, bend float arm upward at
notch in arm before assembly.
Install needle by sliding float lever under needle pull
clip-correct installation of the needle pull clip is to
hook the clip over the edge of the flat on the float arm
facing the float pontoon (Fig. 6C4-28). With float lever
in pull clip, hold float assem bly at toe and install
retaining pin from aneroid cavity side (ends of retain
ing pin face the accelerating pump well).
Do not install float needle pull clip into holes in float
arm.
9. Adjust float level as follow s:
Choke
1. Install new cup seal into plastic insert on side of float
bowl for intermediate choke shaft. Lip on cup seal faces
outward.
2. Install secondary throttle valve lock-out lever on boss
on float bowl with recess in hole in lever facing inward.
3. Install new cup seal into inside choke housing shaft
hole. Lips on seal face inward, towards inside of
housing.
4. Install fast idle cam onto the intermediate choke shaft
(steps on fast idle cam face downward) (Fig. 6C4-23).
5. Carefully install fast idle cam and intermediate choke
shaft assembly through seal in choke housing; then
install thermostatic coil lever onto flats on intermediate
choke shaft. Inside thermostatic choke coil lever is
properly aligned when both inside and outside levers
face towards fuel inlet. Install inside lever retaining
screw into end of intermediate choke shaft. Tighten
securely.
6. Using Tool J-23417, install lower choke rod lever into
cavity in float bowl. Install plastic tube seal into cavity
on choke housing before assembling choke housing to
bowl. Install choke housing to bowl sliding intermedi
ate choke shaft into lower choke lever (Fig. 6C4-27).
LIGHT TRUCK SERVICE MANUAL
CHOKE
ROD
J23417
lever
Fig. 6C4-27--lnstalling Choke Rod Lever
CARBURETOR MODEL M 4M
6C4-25
Air Horn to Bowl Installation
1. Holding down on air horn gasket at pump plunger
location, carefully lower air horn assembly onto float
bowl making sure that the bleed tubes, accelerating
well tubes, pull-over enrichment tubes (if used), and
pump plunger stem are positioned properly through the
holes in the air horn gasket.
Do not force the air horn assembly onto the bowl but
rather lightly lower in place.
Fig. 6C4-28--Pull Clip Location
10.
11.
12.
13.
14.
15.
a. Hold float retainer firmly in place.
b. Push float down lightly against needle.
c. With adjustable T-scale, gage from top of float bowl
casting (air horn gasket removed) to top of float
gauging point 3/16" back from end of float at toe.
d. Bend float arm as necessary for proper adjustment by
pushing on pontoon. Refer to adjustment for
specification.
e. Visually check float alignment after adjustment.
Install plastic filler block over float needle, pressing
downward until properly seated.
Install power piston spring in power piston well. If main
metering rods were removed from hanger, reinstall
making sure tension spring is connected to top of each
rod. Install power piston assembly in well (aligning pin
on piston with slot in well) with metering rods properly
positioned in metering jets. Press down firmly on plastic
power piston retainer to make sure the retainer is
seated in recess in bowl and the top is flush with the top
of the bowl casting. If necessary, using a drift punch
and small hammer, tap retainer lightly in place.
Install pump return spring in pump well.
Install pump plunger stem seal if removed.
Install air horn gasket by carefully sliding tab of gasket
around main metering rods and beneath the power
piston hanger. Position gasket over the two dowel pins
on the float bowl.
Carefully lift one corner of the air horn gasket and
install pump plunger in the pump well by pushing the
plunger to the bottom of the well against return spring
tension. While holding in this position, align pump
plunger stem with hole in gasket and press gasket in
place.
Air Horn
1. If used, install new pump plunger stem seal in air horn
casting (Fig. 6C4-32a). Lightly stake seal retainer in
three places, choosing locations diferent from the
original stakings.
2. Install two long air horn screws with lockwashers, and
two countersunk screws located next to the venturi
area.
Install secondary air baffle beneath screw number 3
and 4.
All air horn screws must be tightened evenly and
securely. See Figure 6C 4-29 for proper tightening
sequence.
3. Install air valve rod into slot in lever on the end of the
air valve shaft. Then, install the other end of rod in hole
in front vacuum break diaphragm plunger. Install front
vacuum break on air horn using two attaching screws.
Tighten screws securely.
4. Connect upper end of pump rod to pump lever by
placing rod in specified hole in lever. Align hole in
pump lever with hole in air horn casting using J-25322.
Using small screwdriver, push pump lever roll pin back
through casting until end of pin is flush with casting
bosses in air horn (Fig. 6C4-30).
Use care installing the small roll pin to prevent damage
to pump lever casting bosses.
5. Install two secondary metering rods into the secondary
metering rod hanger (upper end of rods point toward
each other). Install secondary metering rod holder,
with rods, onto air valve cam follower. Install retaining
screw end tighten securely. Work air valves up and
down several times to make sure they are free in all
positions.
AIR HORN SCREW T IG H T E N IN G
S EQ U E N C E - QUADRAJET
Fig. 6 C 4 -2 9 --A ir Horn Screw Tightening Sequence
LIGHT TRUCK SERVICE MANUAL
6C4-26
CARBURETOR MODEL M4M
a. Place cam follower on highest step of fast idle cam.
b. Install the thermostatic cover and coil assembly, and
gasket (if used), in the choke housing, making sure
coil tang engages inside coil pick-up lever.
On M 4M E models, ground contact for the electric
choke is provided by a metal plate located at the rear
of the choke cover assembly. Do not install a choke
cover gasket between the electric choke assembly
and the choke housing.
c. Align notch in choke cover with retainer tab (2
o’clock position, Fig. 6C4-31). Install blind rivet in
retainer and choke housing using riveting tool.
d. Install the remaining (2) retainers and blind rivets,
similarly.
e. On hot air choke models, torque the choke heat pipe
nut to 95 in./lbs.
8. Install hose on front vacuum break and on tube on float
bowl.
9. Position idle speed solenoid and bracket assembly on
float bowl, retaining with two large countersunk screws.
Tighten screws securely.
Fig. 6C 4-30--lnstalling Pump Lever Pivot Pin
6. Connect check rod into lower choke lever inside bowl
cavity; they install choke rod into slot in upper choke
lever and retain the choke lever to the end of the choke
shaft with attaching screw. Tighten securely. When
properly installed, the lever will point to the rear of the
carburetor and the number on the lever will face
outward (Fig. 6C 4-31).
Make sure that the flats on the end of the choke shaft
align with flats in the choke lever.
The choke coil pick up lever (inside the choke housing)
must be indexed properly before installing the choke
cover and coil assembly. Also, if necessary, the fast idle
cam (choke rod) relation adjustment and front and rear
vacuum break adjustments should be performed before
installing the choke cover and coil assembly.
7. After the inside thermostatic coil lever, fast idle cam
(choke rod), and front and rear vacuum break adjust
ments have been checked, install the cover and coil
assembly in choke housing as follows:
LIGHT TRUCK SERVICE MANUAL
RIVETS
A N D RETAINERS
Fig. 6 C 4 -3 T -C h o k e Cover - Typical
CARBURETOR MODEL M4M
6C4-27
ADJUSTMENT SPECIFICATIONS - QUADRAJET MODEL M 4 M C - M 4M E -
CARBURETOR
PART NUM BER
FLOAT
LEVEL
PUMP
ROD
LOCATION
PUMP
ROD
SETTING
FAST IDLE
CAM
(CHO KE ROD)
AIR
VALVE
ROD
VACUUM
BREAK
FRONT
VAC UUM
BREAK
REAR
AIR
VALVE
W INDUP
UNLOADER
17080212
3/8"
INNER
9/32"
46°
.025"
24°
30°
3/4
40°
17080213
17080215
17080298
17080507
17080512
17080513
17081200
17081201
17081205
17081206
17081220
17081226
17081227
17081290
17081291
17081292
17081506
17081508
17081524
3/8"
3/8"
3/8"
3/8"
3/8"
3/8"
15/32"
15/32"
15/32"
15/32"
15/32"
9/32"
37°
.025"
37°
37°
37°
.025"
.025"
.025"
30°
30°
30°
30°
1
1
1
1
40°
9/32"
9/32"
9/32"
23°
23°
9/32"
46°
37°
46°
46°
.025"
30°
9/32"
9/32"
9/32"
3/4
3/4
9/32"
46°
9/32"
46°
46°
13/32"
INNER
INNER
INNER
INNER
INNER
INNER
INNER
INNER
INNER
INNER
INNER
INNER
INNER
INNER
INNER
INNER
INNER
INNER
13/32"
OUTER
13/32"
OUTER
17081526
15/32"
15/32"
13/32"
13/32"
13/32"
13/32"
.025"
.025"
.025"
.025"
.025"
23°
23°
24°
23°
24°
23°
23°
23°
30°
23°
23°
23°
40°
40°
40°
7/8
7/8
7/8
7/8
40°
40°
42°
42°
42°
.025"
23°
23°
23°
46°
.025"
9/32"
9/32"
9/32"
9/32"
46°
46°
46°
46°
.025"
.025"
24°
24°
23°
23°
23°
23°
24°
24°
23°
24°
9/32"
9/32"
46°
.025"
23°
36°
7/8
7/8
7/8
46°
.025"
7/8
46°
.025"
23°
25°
36°
5/16"
36°
7/8
38°
25°
36°
7/8
38°
9/32"
9/32"
5/16"
46°
.025"
.025"
.025"
42°
7/8
42°
7/8
7/8
7/8
42°
42°
42°
42°
42°
36°
36°
Fig. 6C 4-32--A djustm ent Specifications
LIGHT TRUCK SERVICE MANUAL
6C4-28
CARBURETOR MODEL M 4M
PROPANE IDLE MIXTURE SPECIFICATIONS
ENG INE
5 .0 L (3 0 5 C I D )
E N G IN E F A M IL Y
TRANSM ISSION
M A X IM U M ENG INE (E N R IC H E D ) SPEED *
A U T O M A T IC
20 R P M
A U T O M A T IC
40 R PM
18L4 H H N A
RPO LF3
C A N D G S E R IE S
MANUAL
5 .0 L (3 0 5 C I D )
E X C . C S E R IE S
E N G IN E F A M IL Y
W /4 S P E E D
18L4 H A N A
O V E R D R IV E
RPO LE9
C, K A N D G S E R IE S
100 R P M
MANUAL
C S E R IE S
150 R P M
W /4 S P E E D
O V E R D R IV E
5 .0 L (3 0 5 C I D )
E N G IN E F A M IL Y
A U T O M A T IC
50 RPM
18Y4 H G N
RPO LE9
MANUAL
150 R P M
C S E R IE S
5 .7 L (3 5 0 C I D )
A U T O M A T IC
2 0 -5 0 R P M
E N G IN E F A M IL Y
18L4 H A N A A N D
18L4 H H N A
RPO LS9
C, K A N D G S E R I E S
MANUAL
* R P M A B O V E ID L E S P E E D S H O W N O N E M IS S IO N L A B E L
LIGHT TRUCK SERVICE MANUAL
100 R P M
FUEL SYSTEM
6C5-1
SECTION 6C5
FUEL SYSTEM
CONTENTS
Fuel Filter.......................................................................... ..6C5-1
Fuel Pump.......................................................................... ..6C5-1
Fuel Tank..............................................................................6C5-4
Cleaning Fuel S y stem .......................................................6C5-8
Fuel Feed and Vapor Pipes..............................................6C5-9
Evaporative Control System .......................................... ..6C5-10
Accelerator C ontrols....................................................... ..6C5-12
Specifications.......................................................................6C5-15
Angle to Decimal Conversion....................................... ..6C5-16
Special Tools...................................................................... ..6C5-17
FUEL FILTER
GENERAL DESCRIPTION
All engine fuel filters are located in the carburetor fuel
inlet. These fuel filter elem ents are of pleated paper.
Elements are placed in the inlet hole with the gasket surface
outward. A spring holds the element outward, sealing it by
compressing a gasket surface against the inlet fitting.
ON-VEHICLE SERVICE
The carburetor inlet fuel filter should be replaced at
intervals shown in Section OB. A plugged filter and/or check
valve will restrict fuel flow.
After assembling any filter element in the carburetor,
always start the engine and check for leaks in the fuel line
and fittings before installing the air cleaner.
abnormal amount of sediment or water; the tank should
therefore be removed and thoroughly cleaned.
Fuel Filter Replacement
1.
2.
3.
4.
5.
O th e r Filters or Strainers
A woven plastic filter is located on the lower end of the
fuel pickup pipe in the gas tank. This filter prevents dirt
from entering the fuel line and also stops water unless the
filter becomes completely submerged in water. This filter is
self cleaning and normally required no maintenance. Fuel
stoppage at this point indicates that the gas tank contains an
6.
7.
8.
Disconnect fuel line connection at fuel inlet filter nut.
Remove fuel inlet filter nut from carburetor.
Remove filter and spring.
If removed, install check valve in fuel inlet filter.
The fuel inlet check valve must be installed in the filter
to meet Motor Vehicle Safety Standards (M .V .S.S.)
for roll-over. N ew service replacement filter must
include the check valve.
Install fuel inlet filter spring, filter, and check valve
assembly in carburetor. Check valve end of filter faces
toward fuel line. Ribs on closed end of filter element
prevent filter from being installed incorrectly unless
forced.
Install new gasket on fuel inlet filter nut and install nut
in carburetor. Tighten nut to 24 N-m (18 ft. lbs.).
Tightening beyond specified torque can damage gasket.
Install fuel line and tighten connection.
Start engine and check for leaks.
FUEL PUMP
GENERAL DESCRIPTION
Low Pressure Complaint
The fuel pump (Figs. 6C5-1 through 6C 5-5) is a
diaphragm type pump and is actuated by the rocker arm
through a link and a push rod.
The only way to check fuel pump pressure is by
connecting an accurate pressure gage to the fuel line at
carburetor level. Never replace a fuel pump without first
making that simple check.
Some vehicles have a fuel pump with an outlet for a
vapor return system. Any vapor which forms is returned to
the fuel tank along with hot fuel through a separate line.
This greatly reduces any possibility of vapor lock by keeping
cool fuel from the tank constantly circulating through the
fuel pump.
DIAGNOSIS
Complete diagnosis of all possible causes of the trouble
prior to replacement of the fuel pump will save time, expense
and possible causes of the trouble prior to replacement of the
fuel pump will save time, expense and possibly prevent a
repeat complaint.
Not Enough Fuel Flow Complaint
When an engine has a "starving-out"- condition, many
mechanics jump to the conclusion that the fuel pump is not
pumping enough fuel. Many times the "starving-out"
condition is actually due to a weakness in the ignition
system, since these two troubles are very hard to separate.
Even when an engine is starving for fuel, the cause is more
likely to be a plugged fuel filter or a restricted fuel line than
a malfunctioning fuel pump.
LIGHT TRUCK SERVICE MANUAL
6C5-2
FUEL SYSTEM
ON-VEHICLE SERVICE
Inspection and Test
If the fuel system is suspected of delivering an improper
amount of fuel to the carburetor, it should be inspected and
tested in the vehicle, as follows:
Inspection of Fuel System
1. Make certain that there is fuel in the tank.
2. With the engine running, inspect for leaks at all fuel
feed hose connections from fuel tank to carburetor.
Tighten any loose connections. Inspect all hoses for
flattening or kinks which would restrict the flow of fuel.
Air leaks or restrictions on suction side of mechanical
fuel pump will seriously affect pump output.
3. Inspect for leaks at fuel pump diaphragm flange.
4. Disconnect feed pipe near carburetor.
5. Disconnect distributor connectors so that engine can be
cranked without firing. Place suitable container at end
of pipe and crank engine a few revolutions. If no fuel, or
only a little flows from pipe, the feed line is clogged or
fuel pump is inoperative. Before condemning the fuel
pump, disconnect feed line at both ends and blow
through it with air hose to make certain that fuel pump
is operating within specifications.
Fuel Pum p Pressure Test
1. Disconnect fuel line at pump and connect a suitable
pressure gage .
2. Start engine and check pressure with engine running at
slow idle speed. Fuel pump pressure should be as
specified at the end of this section On vehicles equipped
with a vapor return system, squeeze off the return hose
so that an accurate reading can be obtained.
3. If fuel pump pressure is below minimum, pump must be
replaced.
Fuel Pum p Flow Test
1. Disconnect fuel line from carburetor. Run fuel line into
a suitable measuring container.
2. While observing the sweep second hand of a clock or
watch, run the engine at idle until there is one pint of
fuel in the container. One pint should be pumped in 30
seconds or less.
3. If flow is below minimum, check for restriction in the
line.
Rem oval
1. Disconnect fuel inlet hose from pump. Disconnect
vapor return hose, if so equipped.
2. Disconnect fuel outlet pipe.
3. Remove two bolts holding fuel pump.
4. Remove fuel pump, push rod, gasket and mounting
plate (if used).
LIGHT TRUCK SERVICE MANUAL
Installation
1. Install push rod, gasket, mounting plate (if used) and
fuel pump.
2. Install two hex head bolts, turning them alternately and
evenly.
3. Install fuel outlet pipe. If it is difficult to start fitting,
time can be saved by disconnecting upper end of pipe
from carburetor. Tighten fitting securely, meanwhile
holding fuel pump nut with a wrench. Install and
tighten fitting at carburetor, if removed.
4. Install fuel inlet hose and clamp. Install vapor return
hose and clamp, if so equipped.
5. Start engine and check for leaks.
FUEL SYSTEM
6C5-3
30 N.m
(22 F T .-L B S .)
BO TH E N D S
O F P IP E
G ASKET
37 N.m
(27 F T .-L B S .)
PUSH ROD
PLUG
7.4L (LE-8)
Fig. 6C5-5--Fuel Pum p--7.4 L
LIGHT TRUCK SERVICE MANUAL
6C5-4
FUEL SYSTEM
FUEL TANK
ON-VEHICLE SERVICE
O utside Fram e Rail Fuel T an kCab a n d C rew ca b (Figs. 6 C 5 -6 an d 8)
1.
2.
3.
4.
Drain tank.
Disconnect fuel lines, meter wire and ground lead.
Remove strap supports (lines, vent) and clip.
Loosen clamps from filler neck and vent line.
LIGHT TRUCK SERVICE MANUAL
5. Remove strap bolts and lock washers from tank front
and rear locations on inside frame rail.
6. Remove tank from frame simultaneously disengaging
filler neck hose from filler neck (Fig. 6C5-8 and 6C59).
7. Remove meter assembly from fuel tank using Tool
J-24187 (Fig. 6C5-10).
8. Reverse removal procedure to install fuel tank.
FUEL SYSTEM
SIDE M EM BER
6C5-5
R.H.
PLATFO RM ASSEM BLY
H O S E -V E N T
STRAP
BRACKET
CLAM P
HOSE-FILLER
Fig. 6 C 5 -9 —Filler N eck-C ab Stake Body
Fig. 6C5-8--Fuel Tank Filler neck (03 & 43)
Fig. 6C5-10--R em oving M ete r Assembly
LIGHT TRUCK SERVICE MANUAL
6C5-6
FUEL SYSTEM
C enter a n d A u xilia ry Fuel Tank
CK 10 and 20 (06, 16) (Figs. 6C 5-11, 12) G Van (Fig.
6C5-13).
1. Drain tank.
2. Raise vehicle on hoist.
3. Unclamp upper filler neck and vent tube hose (Fig.
6C5-8 and 9).
4. Unclamp gage unit hoses at frame end.
5. Support tank and remove support straps.
6. Lower tank and disconnect meter wire.
7. Remove tank.
8. Install in the reverse order, using new antisqueak
material.
9. Lower vehicle and remove from hoist.
Fig. 6C5-13--Fuel Tank Installation G Van
LIGHT TRUCK SERVICE MANUAL
FUEL SYSTEM
6C5-7
Fig. 6C5-14--Fuel Tank and Filler Neck G Van
LIGHT TRUCK SERVICE MANUAL
6C5-8
FUEL SYSTEM
CLEANING FUEL SYSTEM
C leanin g
SPACER
■STRAP
ASSEMBLY
AN TI-SQ U EAK
CEMENT
SPACER
TORQUE AT
10 FT. LBS.
ASSEMBLY: Cem ent anti-squeak to upper
surface of tan k flan ge w ith 1.00 w ide
coverage before installation of tan k assembly.
Tighten upper nut a fte r low er nut has been
tightened.
Fig. 6C 5-15--F uel Tank and M ounting
- P10
Fram e M o u n te d Fuel Tan k - P M o del (Figs. 6 C 5 -1 5 , 16,
17)
1.
2.
3.
4.
5.
Drain tank.
Remove filler neck.
Disconnect meter unit fuel line and wiring.
Remove bolts attaching tank supports to frame.
Remove tank complete with mounting bracket and
support straps.
6. Remove tank from brackets and support straps, if
necessary.
7. Install in reverse order and replace antisqueak
material.
LIGHT TRUCK SERVICE MANUAL
If trouble is due to contam inated fuel or foreign
material that has been put into the tank, it can usually be
cleaned. If tank is rusted internally, it should be replaced.
1 . Disconnect battery negative cable and distributor feed
wire.
2. Drain fuel tank.
3. Remove fuel tank.
4. Remove fuel inlet filter at carburetor and inspect for
contamination. If filter is plugged replace (leave fuel
line disconnected).
5. Locate tank away from heat, flame, or other source of
ignition. Remove fuel gage tank unit and inspect
condition of filter. If filter is contaminated a new filter
should be installed upon reassembly.
6. Complete draining of tank by rocking it and allowing
fuel to run out of tank unit hole.
7. Purge fuel tank with steam or running hot water for at
least five minutes. Pour water out of tank unit hole
(rock tank to assure complete removal of water).
This procedure will not remove fuel vapor. Do not
attempt any repair on tank or filler neck where heat or
flame is required.
8. Disconnect inlet fuel line at pump and use air pressure
to clean fuel line and fuel return line (if equipped).
Apply air pressure in the direction fuel normally flows
through line.
9. Use low air pressure to clean pipes on tank unit.
10. Clean filter on fuel tank unit, if required. Install fuel
tank gage unit, (with new gasket) into tank and install
tank. Connect tank unit wires and all fuel lines, except
pump to carburetor line (see "Removal of Tank" for
proper procedure).
11. Connect a hose to fuel line at carburetor; insert other
end of hose into a one gallon fuel can.
12. Connect battery cable. Make sure distributor feed wire
is disconnected.
13. Put six gallons of clean fuel in tank and operate starter
to pump two quarts of fuel into fuel can. This will purge
fuel pump.
14. Remove hose and connect fuel line to carburetor.
15. Connect distributor feed wire.
16. Check all connections for leaks.
FUEL SYSTEM
6C5-9
Fig. 6C 5-17--Fuel Tank (5 0 G a l.) M ete r and Filler
Neck - P30
FUEL FEED AND VAPOR PIPES
GENERAL DESCRIPTION
Fuel feed pipes are secured to the underbody with
clamp and screw assemblies. Flexible hoses are located at
fuel tank fuel, vapor and return lines and fuel pump. The
pipes should be inspected occasionally for leaks, kinks or
dents. If evidence of dirt or foreign material is found in
carburetor, fuel pump or pipes, pipe should be disconnected
and blown out. Dirt or foreign material may be caused by a
damaged or omitted fuel strainer in fuel tank.
6C5-10
FUEL SYSTEM
ON-CAR SERVICE
Fuel Line Repair
Replacem ent
1. If replacement of a fuel feed, fuel return or emission
pipe is required use welded steel tubing meeting GM
Specification 124-M or its equivalent.
2. Do not use copper or aluminum tubing to replace steel
tubing. Those m aterials do not have satisfactory
durability to withstand normal vehicle vibrations.
3. When rubber hose is used to replace pipe, use only
reinforced fuel resistant hose which meets GM Speci
fication 6165-M . Hose inside diameter must match
pipe outside diameter.
4. Do not use rubber hose within 4" (100 mm) of any part
of the exhaust system or within 10" (254 mm) of the
catalytic converter.
5. In repairable areas, cut a piece of fuel hose 4" (100
mm) longer than portion of the line removed.
If more than a 6 inch (152 mm) length of pipe is
removed, use a combination of steel pipe and hose so
that hose lengths will not be more than 10 inches (254
mm).
Follow the same routing as the original pipe.
6. Cut ends of pipe remaining on car square with a tube
cutter. Using the first step of a double flaring tool, form
a bead on the end of both pipe sections. If pipe is too
corroded to withstand bead operation without damage,
the pipe should be replaced. If a new section of pipe is
used, form a bead on both ends of it also.
7. Use screw type hose clamp, Part Number 2494772, or
equivalent. Slide clamps onto pipe and push hose 2"
(51 mm) onto each portion of fuel pipe. Tighten clamps
on each side of repair.
8. Pipes must be properly secured to the frame to prevent
chafing.
EVAPORATIVE CONTROL SYSTEM (ECS)
GENERAL DESCRIPTION
Canister and Filter
All light duty emissions and some heavy duty emission
vehicles are equipped with a system designed to prevent
escape of fuel vapor to the atmosphere. Vapor generated by
evaporation of fuel in the tank, previously exhausted to
atmosphere, is transferred by an emission line to the engine
compartment. During periods of operation, vapors are fed
directly to the engine for consumption. During periods of
inoperation, an activated charcoal canister located in the
emission line stores any vapor generated for consumption
during the next period of operation.
Rem oval
The amount of vapor drawn into the engine at any time
is too small to have any effect on fuel economy or engine
operation.
With this closed system it is extremely important that
only vapors be transferred to the engine. To avoid the
possibility of liquid fuel being drawn into the system, these
following features are included as part of the total system:
1. A fuel tank overfill protector is provided on all series to
assure adequate room for expansion of liquid fuel
volume with temperature changes.
2. A one point fuel tank venting system is provided on all
series to assure that the tank will be vented under any
conceivable vehicle attitude.
3. To protect the tank from mechanical damage in the
event of excessive internal or external pressures result
ing from the operation of this closed system, a pressurevacuum relief valve, located in the gas cap, will control
the tank internal pressure.
ON-VEHICLE SERVICE
Maintenance requirement is that the oiled fiberglass
filter assembled in the bottom of the canister, be replaced at
intervals shown in Section 0B. Under extrem ely dusty
conditions, more frequent attention may be required.
Check operation of bowl vent and purge valve.
1.
2.
3.
4.
Note installed position of hoses on canister.
Disconnect hoses from top of canister.
Loosen clamps and remove canister.
If replacing filter, pull out filter from bottom of canister
with your fingers.
Inspection
1. Check hose connection openings. Assure that they are
open.
2. Check operation of purge valve by applying vacuum to
the valve. A good valve will hold vacuum.
Installation
1. Install new filter.
2. Install canister and tighten clamp.
3. Connect hoses in same order.
Canister Purge Valve
Disassembly
1. Disconnect lines at valve.
2. Snap off valve cap (slowly remove cap as diaphragm is
under spring tension). Remove diaphragm, spring
retainer and spring.
3. Replace parts as necessary. Check orifice openings.
Assembly
1. Install spring, spring retainer, diaphragm and cap.
2. Connect lines to valve.
Checking Purge V alv e
1. Remove purge valve control vacuum line. Check for a
vacuum signal with engine operating above idle (1500
RPM ). If no vacuum signal, perform EGR System
Function Check.
2. Apply an external vacuum source to the purge valve
control diaphragm. A good valve will hold vacuum.
FUEL SYSTEM
3. If the valve will not hold vacuum, replace canister.
4. If valve holds vacuum, remove purge line and check for
vacuum. If no vacuum, check PCV hoses and system.
Repair ir replace as necessary.
Checking Bowl V e n t V a lv e
1. Remove the bowl vent vapor hose from the carburetor.
2. Check the open condition of the valve by connecting to
a manual vacuum pump. It should not be possible to
obtain .5 inch Hg if the valve is open.
3. If a high resistance or plugged system is found, check
for a plugged or restricted hose. Hose may be cleared
with compressed air. If the hose is clear, remove the
canister filler. If the restriction persists, replace the
canister.
4. A simple check of the valve closed condition can be
obtained with the same procedure as in Step 2, but with
the engine operating at operating temperature. M ani
fold vacuum will be applied to the valve through the
control line. The bowl vent line should exhibit a
plugged condition.
5. If the valve is not closed, remove the control vacuum
line and check for vacuum. If no vacuum is present,
check hose for restriction or vacuum leak. Repair or
replace as required. If vacuum is present, replace
canister.
6C5-11
Pressure Checking E vaporative Control System
1. Stabilize vehicle by operating until warmed up.
2. Remove tank line at canister and observe for liquid in
the line. Hook-up pressure device.
3. Apply 15 " H 20 pressure to the fuel vapor line.
A.Observe for excessive loss of pressure.
B .If negligible pressure loss occurs observe for fuel
vapor smell or fuel loss at points listed in Diagnostics
under Possible Cause.
C.Remove fuel filler cap(s) and observe for pressure in
tank(s).
4. Remove fuel cap (LH on duel tank units) and blow on
vent line to check for obstructions. (Install LH cap on
dual tank units and remove RH cap. Repeat above.)
Fuel Tank Selector Valve
R eplacem ent (Fig. 6 C 5 -1 7 a )
1. Disconnect battery.
2. Remove hose shield and brace.
3. Remove fuel and vapor hoses noting their position for
later installation.
4. Remove two screws holding valve to frame and remove
valve.
5. Install valve and tighten screws.
6. Install fuel and vapor hoses in same positions noted at
removal.
7. Install brace and hose shield.
8. Connect battery.
Fig. 6C5-17a--Selector Valve
LIGHT TRUCK SERVICE MANUAL
6C5-12
FUEL SYSTEM
ACCELERATOR CONTROLS
GENERAL
The accelerator control system is cable type. There are
no linkage adjustments. A reference between the bottom of
accelerator pedal and floor pan should be used only as a
check for bent bracket assembly. Check torque references.
Check for correct opening and closing positions by
operating accelerator pedal and if any binding is present,
check routing of cable.
ACCELERATOR CONTROL CABLE
Refer to figures 6C5-18 through 6C5-21 for removal
and installation of accelerator control cable.
P
ACCELERATOR PEDAL
Refer to figures 6C5-22 through 25 for removal and
installation of accelerator pedal.
CAUTION
Cable is not to be kinked
or damaged in any way during assembly
operation.
SUPPORT
ENGINE
SEALER
OUTER SPRING
CABLE
RETAINER'
NOTE With Inner Spring inside
Outer Spring , anchor both springs
thru nylon bushing in carburetor
lever and hole in support.
CAUTION Flexible components (hoses,
wires, conduits, etc) must not be routed
within 2.00 inches of moving parts of
accelerator linkage forward of support
unless routing is positively controlled.
Fig. 6 C 5 -18--A ccelerato r Controls L6-Light Duty
Emissions
LIGHT TRUCK SERVICE MANUAL
Fig. 6 C 5 -19--Accelerator Controls L6-Heavy Duty
Emissions.
FUEL SYSTEM
C A U T IO N
Flexible components (hoses,
wires, conduits, etc) must not be routed
within 2 inches of moving parts of
accelerator linkage forward of
Support, unless routing is
positively controlled.
k.
STUD
6C5-13
N O T E Route Cabl e over
spark plug wires.
, — C A U T IO N Cable is not to be kinked c
damaged in any way during assembly
operation.
SEALER
..
CARB
LEVE « -
I
Conduit fitting at both ends must
have locking tangs expanded & locked in
attaching hole.
CARB
RETAINER
N O TE
N O TE
Springs can be installed with'
hook ends inboard or outboard.
INNER SPRING
With Inner Spring inside Outer
Spring, anchor both Springs thru nylon
bushing in Carburetor Lever and hole in Support.
Fig. 6C 5-20--A ccelerator Controls V8-2Bbl.
1 CAUTION 1 Flexible components (hoses,
wires, conduits, etc.), must not be routed
within 2 inches of moving parts Of
accelerator linkage forward of Support
unless routing is positively controlled.
CABLE ASSEMBLY
I NOTE 1 Cable is not to be
kinked or damaged in any
way during assembly.
SPRING OUTER
CARBURETOR STUD
FASTENER
l± _____
QF
SPRING
INNER
NOTE | With Inner Spring inside Outer Spring,
anchor both Springs thru hole in Carburetor
Lever and holes in Support and Bracket.
Fig. 6C 5-21--A ccelerator Controls V8-4Bbl.
LIGHT TRUCK SERVICE MANUAL
6C5-14
FUEL SYSTEM
CAUTION: Care must be used in pressing
Retainer into hole in Rod to assure Cable
is not kinked or damaged in any way.
I NOTE I Slip accelerator control cable thru slot in Rod.
Install retainer, being sure it is seated.
I CAUTION! Care must be used in pressing the retainer
into hole in Rod to assure cable is not kinked or
damaged in any way
LE ASSEMBLY
SUPPORT,
SPRING
REINFORCEMENT
PEDAL*— 1T ill'll j1
/
— L N U I U Retainer must
bear against pedal rib.
NOTE I Having secured all components ot tne accelerator
linkage as specified, linkage must operate freely without
bind between full closed throttle and full wide open throttle.
TIGHTEN TO
27 IN. LBS.
Fig. 6 C 5 -22--A ccelerato r Pedal-CK
NOTE: Slip a ccelerato r control
cable thru slot in rod. Install
retainer, being sure it is s e a te d ..^ ^ ^ RETAINER
SPRING (SHOWN IN
LOADED POSITION)
PEDAL
'C A U T IO N : C are must be used
in pressing the retainer into
hole in rod to assure cable is
not kinked or d am aged in any
LUBRICATE
Fig. 6 C 5 -23--A ccelerato r Pedal-G
W° y- ^REINFO RCEM ENT
ROD
SUPPORT
SPRING'
REINFORCEMENT
ACCELERATOR
CO NTRO L CABLE
T IG H T E N T O
PEDAL
5 0 IN . LBS.
TIGHTEN TO
42 IN. LBS.
SUPPORT
Fig. 6 C 5 -24--A ccelerato r Pedal-P42
Fig. 6C 5-2 5 --A cc e le ra to r Pedal-P32
LIGHT TRUCK SERVICE MANUAL
FUEL SYSTEM
6C5-15
SPECIFICATIONS
FUEL PUMP PRESSURE
ENGINE
P.S.I.
L6 (ALL)
4V2-6
V8 (ALL)
WITHOUT VAPOR RETURN LINE
71/2-9
V8 (EXC LF8)
WITH VAPOR RETURN LINE
51/2-7
V8 (LF8)
WITH VAPOR RETURN LINE
71
/2-9
TORQUE
SPECIFICATIONS
IM E C A R B U R E TO R
TORQUE
(IN. LBS.)
SCREW
SCREW
TORQUE
(IN. LBS.)
AIR HORN TO BOWL
45
FUEL INLET NUT
AIR CLEANER BRIDGE
70
FAST IDLE CAM
50
CHOKE LEVER
25
PUMP LEVER
30*
THROTTLE BODY TO BOWL
180
NEEDLE SEAT
45
METERING JET
40
400
*Loctite AVV or equivalent
M2M - M4M C A R B U R ETO R
SCREW
TORQUE
(IN. LBS.)
THROTTLE BODY
THROTTLE BODY TO BOWL
46
CHOKE HOUSING
CHOKE LEVER
CHOKE HOUSING ATTACHING
CHOKE HOUSING COVER
14
46
26
AIR HORN
AIR HORN TO BOWL 10-32
AIR HORN TO BOWL 8-32
AIR HORN TO THROTTLE BODY
CHOKE LEVER
VACUUM BREAK UNIT
FUEL INLET NUT
NEEDLE SEAT
METERING JET
SOLENOID BRACKET
46
26
46
14
26
400
45
40
71
Fig. 6C5-26--Specifications
LIGHT TRUCK SERVICE MANUAL
6C5-16
FUEL SYSTEM
ANGLE DEGREE TO DECIMAL CONVERSION
MODEL M2MC, M2ME AND M4MC CARBURETOR
THE RELATION BETWEEN DECIMAL AND ANGLE
TOLERANCES OF THE COMPONENT PARTS. THIS
WHO HAS ACCESS TO PLUG GAUGES ONLY. THE
ACCURACY AND BEST OVERALL PERFORMANCE
READINGS IS NOT EXACT DUE TO MANUFACTURING
CHART IS SUPPLIED FOR USE BY THE MECHANIC
RECOMMENDED TOOL IS AN ANGLE GAUGE FOR
AND EMISSIONS.
D E C IM A L E Q U IV .
D E C IM A L E Q U IV .
ANGLE DEG REES
TOP OF V A L V E
ANGLE DEG REES
TOP OF V A L V E
5
.023
33
.203
6
.028
34
.211
7
.033
35
.220
8
.038
36
.227
9
.043
37
.234
10
.049
38
.243
11
.054
39
.251
12
.060
40
.260
13
.066
41
.269
14
.071
42
.277
15
.077
43
.287
16
.083
44
.295
17
.090
45
.304
18
.096
46
.314
19
.103
47
.322
20
.110
48
.332
21
.117
49
.341
22
.123
50
.350
23
.129
51
.360
24
.136
52
.370
25
.142
53
.379
26
.149
54
.388
27
.157
55
.400
28
.164
56
.408
29
.171
57
.418
30
.179
58
.428
31
.187
59
.439
32
.195
60
.449
Fig. 6 C 5 -2 7 --A n gle to Decim al Conversion
FUEL SYSTEM
6C5-17
SPECIAL TOOLS
Idle Mixture Socket................................................................................ J-29030-B
Adjustable Float G age........................................................................... J-9789-90
Bending T ool.......................................................................................... J-9789-111
Needle Valve Seat Remover..................................................................... J-22769
Carburetor S tand.................................................................................. J-9789-1 18
Float Level G age.................................................................................... J-9789-130
Float Level G age................................................................................... J-9789-135
Carburetor Choke Angle Gage............................................................. J-26701-4
Hand Vacuum D evice................................................................................ J-23738
Thermae Thermometer.............................................................................. J-22973
Carburetor Gage S e t................................................................................ J-9789-C
Fuel Tank Sending Unit Remover.......................................................... J-24187
LIGHT TRUCK SERVICE MANUAL
' a b mwn jam
S.iiix:?.’
.. .... I
■.........
ll>
........ ....
‘Jt j
" ’
,
,r
* -
. •’ »
ENGINE ELECTRICAL
6D-1
SECTION 6D
ENGINE ELECTRICAL
CONTENTS
Electric Choke Heater.......................................................
General Electrical System Diagnosis.............................
Battery..................................................................................
Charging System ................................................................
Ignition S y stem ..................................................................
6D-1
6D-1
6D-5
6D-8
6D-18
Diesel Engine.....................................................................
Conventional E ngine.......................................................
Cranking System ................................................................
Specifications.......................................................................
6D-18
6D-33
6D-53
6D-67
ELECTRIC CHOKE HEATER-OIL PRESSURE SWITCH
'OIL" LIGHT
FUSIBLE
LINK
j —cTVo—
! 1
"GAUGE'
FUSE
CARB. CHOKE
HEATER
1*3
ir —
I
■((—
||l-
IGNITION
SWITCH
01L PRESSURE
SWITCH
Fig. 6D-1 A--Electric C hoke Heater D iag ra m
All engines have a two-terminal oil pressure switch
(sending unit) for controlling current to the electric choke
heater. This switch and its associated circuitry provide for
the illumination of the "Oil" tell tale lamp in the event of
loss of oil pressure or loss of voltage at the choke heater.
The diagram in Figure 6D-1A shows how the dual
function is accomplished. The "Bulb Check" feature is
same as present system. That is, with ignition switch in
"Run" position with engine off. This circuit will also
indicate continuity in the choke heater and its connector.
If "Oil" tell tale lamp illuminates with engine running,
it could indicate one or more of the following:
1. Loss of oil pressure.
2. Loss of choke heater voltage.
3. Blown GAGE fuse.
ELECTRIC CHOKE HEATER CHECKING
PROCEDURE
1. Allow choke to cool so that when throttle is opened
slightly, choke blade fully closes. This check must be
performed with engine not running and at an ambient
temperature of (60°C to 27°C).
2. Start engine and determine time for choke blade to
reach full open position. (Start timer when engine
starts).
3. If the choke blade fails to open fully within 3.5 minutes,
proceed with steps 4-5-6 below.
4. Check voltage at the choke heater connection. (Engine
must be running). If the voltage is approximately 12-15
volts, replace the electrical choke unit.
5. If the voltage is low or zero, check all wires and
connections. If any connections in the oil pressure
switch circuitry are faulty or if the oil pressure switch is
failed open, the oil warning light will be on with the
engine running. Repair wires or connections as
required.
6. If all wiring and connections are good, replace oil
pressure switch. No gasket is used between the choke
cover and the choke housing because of grounding
requirements.
GENERAL ELECTRICAL SYSTEM DIAGNOSIS
The diagnosis in figures 6D-2A and 6D-3A can be used
to find electrical system - faults. Once a fault has been
traced to a particular component, refer to that components
section of the service manual.
LIGHT TRUCK SERVICE MANUAL
6D-2
ENGINE ELECTRICAL
NO CRANKING, NO SOUND FROM SOLENOID
3634
Fig. 6D-2A--Electrical System Diagnosis
LIGHT TRUCK SERVICE MANUAL
ENGINE ELECTRICAL
6D-3
Fig. 6D-3A--Electrical System Diagnosis
LIGHT TRUCK SERVICE MANUAL
6D-4
ENGINE ELECTRICAL
Wiring
JUNCTION BLOCK
TEMPERATUR
GAGE SENDER
POWER UNIT
W/S WIPER
MOTOR
OIL PRESS
SWITCH
exc Z53
TAIL COMBINATION
EXTENSION WIRE
|THROTTLE
/KICKER
.
ENDER ASM
W/GAGE PACK
■SPEED
SWITCH
TEMPERATURE
SWITCH
CONNECTOR
CK 100+200
FORWARD LAMP
HARNESS
VIEW B
Fig. 6D-4A--Engine Speed Switch
LIGHT TRUCK SERVICE MANUAL
VIEW A
ENGINE ELECTRICAL
6D-5
BATTERY
General Description......................................................... .. 6 D -1
General Information....................................................... 6D-1
Common Causes of Failure........................................ .6 D -1
Electrolyte F reezing..................................................... 6 D -1
Carrier and Hold D ow n...............................................6D-1
Ratings..............................................................................6D-6
Built In H ydrom eter..................................................... 6D-6
Diagnosis............................................................................... 6D-6
On-Vehicle Service............................................................. 6D-7
Charging Procedure ......................................................... 6D-7
Jump Starting................................................................... 6D-7
Remove and Replace....................................................... 6D-8
GENERAL DESCRIPTION
The sealed battery (see Fig. 6D-1B) is standard on all
vehicle lines (see Specifications for specific applications).
There are no vent plugs in the cover. The battery is
completely sealed, except for two small vent holes in the
side. These vent holes allow the small amount of gas
produced in the battery to escape. The battery has the
following advantages over conventional batteries:
B U ILT-IN
H YD RO M ETER
1. N o water addition for the life of the battery. This
improvement makes the sealed battery possible.
2. Overcharge protection. If too high a level voltage is
applied to the battery, it will not accept as much
current as a conventional battery, the excess voltage
will cause gassing, which leads to liquid loss.
3. Reduced self-discharge compared to a conventional
battery. This is important when a battery is left
standing for long periods of time.
4. Comparable power available in a lighter and smaller
case.
The battery has three major functions in the electrical
system.
Fig. 6D-1 B~Sealed Top Battery
First, it is a source of electrical energy for cranking the
engine. Second it acts as a voltage stabilizer for the
electrical system. And third, it can, for a limited time,
provide energy when the electrical load exceeds the output
of the generator.
GENERAL INFORMATION
COMMON CAUSES OF FAILURE
A battery is not designed to last indefinitely; however,
with proper care, it will provide many years of service. If the
battery tests good but fails to perform satisfactorily in
service, the following are some of the more important factors
that may point to the cause of the trouble.
1. Accessories left on overnight.
2. Slow average driving speeds for short periods.
3. The cars electrical load is more than the generator
output particularly with the addition of after market
equipment such as radio equipment, air conditioning,
window defoggers or light systems.
Electrolyte Freezing
The freezing point of electrolyte depends on its specific
gravity. Since freezing may ruin a battery, it should be
protected against freezing by keeping it in a fully charged
condition.
Carrier and Hold-Down
The battery carrier and hold-down should be clean and
free from rust before installing the battery. The carrier
should be in good condition so that it will support the battery
securely and keep it level.
4. Defects in the charging system such as electrical shorts
slipping fan belt, faulty generator or voltage regulator.
Make certain there are no parts in carrier before
installing the battery.
5. Battery abuse, including failure to keep the battery
cable terminals clean and tight or loose battery hold
down. See On Vehicle Service for torque specifications.
To prevent the battery from shaking in its carrier, the
h old -d ow n bolts sh ou ld be tight. S ee On V eh icle Serv
ic e for torq u e sp ecifica tio n s.
LIGHT TRUCK SERVICE MANUAL
6D-6
ENGINE ELECTRICAL
Visual Inspection
The external condition of the battery should be checked
periodically for damage such as cracked cover or case.
RATINGS
A battery has two ratings: (1) a reserve capacity rating
at 80°F (27°C) which is the time a fully charged battery will
operate the car with no generator operation, (2) a cold crank
rating at 0°F (18°C) which indicates the cranking load
capacity. (See Specifications for specific battery ratings).
The Ampere/Hour rating formerly found on batteries was
based on the reserve capacity rating and is no longer used.
Built-In Hydrometer
The sealed battery has a built-in temperature compen
sated hydrometer in the top of the battery. This hydrometer
is to be used with the following diagnostic procedure. When
observing the hydrometer, make sure that the battery has a
clean top. A light may be required in some poorly-lit areas to
see the right indication.
Under normal operation, two indications can be ob
served (see Figure 6D-2B):
1. G REEN DOT VISIBLE
Any green appearance is interpreted as a green dot and
the battery is ready for testing.
2. DARK; G REEN DOT N O T VISIBLE
If there is a cranking complaint, the battery should be
tested as described in the Diagnosis section. The charging
and electrical systems should also be checked at this time.
Occasionally, a third condition may appear:
3. CLEAR OR LIGHT YELLOW
This means the fluid level is below the bottom of the
hydrometer. This may have been caused by excessive or
prolonged charging, a broken case, excessive tipping or
normal battery wearout. When finding a battery in this
condition, it may indicate high charging voltage caused by a
faulty charging system and therefore, the charging and
electrical system may need to be checked. If a cranking
complaint exists and is caused by the battery, it should be
replaced.
Replace battery. Do not charge, test or jump-start.
C A U T IO N :D o not charge, test or jum p start b a tte ry
w h e n th e h ydrom eter is clear or lig h t ye llo w . N ot
fo llo w in g
this ca u tio n could result in serious
personal injury (p articu larly to eyes) or property
d a m a g e from b a tte ry explosion or b attery acid.
DIAGNOSIS
The following procedure should be used for testing
batteries:
1. VISUAL INSPECTION
INSULATOR STRAP
PREVENTS TOOL SEPARATION
A ND LOSS WHEN NOT IN USE
Check for obvious damage, such as cracked or broken
case or cover, that could permit loss of electrolyte. If obvious
damage is noted, replace the battery. Determine cause of
damage and correct as needed. If not, go to step 2.
2. HYDROMETER CHECK (Fig. 6D-2B)
a. GREEN DOT VISIBLE
- go to step 3.
b. DARK; G R EEN DOT NOT VISIBLE.
Charge the battery as outlined under Charging Proce
dure section and proceed to Step 3.
3. LOAD TEST
Load testing may require use of battery side terminal
adapters to insure good connections (see Fig. 6D-3B).
a. Connect a voltmeter and a battery load tester across
the battery terminals.
LIGHT TRUCK SERVICE MANUAL
ADAPTER CHARGING
TOOL ATTACHED
TO TERMINALS
Fig. 6D-3B--Side Terminal Battery Adapters
ENGINE ELECTRICAL
MINIM UM VOLTAGE
B A TTER Y
Y 85-4
R85-5
R87-5
R89-5
9.6
9.5
9.4
9.3
9.1
8.9
8.7
8,5
TEST LOAD
130
170
210
230
AMPS
AMPS
AMPS
AMPS
6D-7
TEMPERATURE
°F
°C
70
60
50
40
30
20
10
0
21
*16
10
4
- 1
- 7
-1 2
-1 8
Fig. 6D-5B--M inim um V o lta ge D rop
2996
Fig. 6 D -4 B ~ Lo a d Test Values
b. Apply 300 ampere load for 15 seconds to remove
surface charge Remove load.
c. Wait 15 seconds to let battery recover and apply
specified load from load test chart. Read voltage
after 15 seconds, then remove load.
d. If voltage does not drop below the minimum listed in
Fig. 6D-5B, the battery is good. Temperature of the
battery will change the minimum voltage to pass the
load test. See Temperature vs. voltage drop Chart,
and estimate the temperature the battery has been
exposed to for the last several hours.
ON-VEHICLE SERVICE
CHARGING PROCEDURES
When it is necessary to charge the battery, the follow
ing safety precautions must be followed:
1. DO NOT CHARGE battery if hydrometer is clear or
light yellow. Replace battery.
2. If the battery feels hot 125°F (52°C), or if violent
gassing or spewing of electrolyte through the vent hole
occurs, discontinue charging or reduce charging rate.
Charge the battery until the green ball appears.
Tipping or shaking the battery may be necessary to
make the green ball appear.
Temperature of the battery will effect the charging
rate, and most charging equipment will not charge at a
constant rate. For example, if the charger starts at 30
amperes and drops off to 10 amperes after 1 hour, the
average current for that hour was 20 amperes. The
actual boost charge was 20 ampere-hours. The sealed
battery can be fast charged or slow charged with
ordinary chargers in the same manner as conventional
batteries. Either method will restore the battery to full
charge.
Many chargers have special settings for sealed batter
ies. These settings reduce the charge voltage and limit
the current. It is not necessary to use these settings with
this sealed battery.
JUMP STARTING IN CASE OF EMERGENCY WITH
AUXILIARY (BOOSTER) BATTERY
N O TIC E: Do not push or tow this vehicle to start.
Damage to the emission system and/or to other parts of
the vehicle may result.
Both booster and discharged battery should be treated
carefully when using jumper cables. Follow the procedure
outlined below, being careful not to cause sparks:
C A U T IO N :D ep artu res from these conditions or the
procedure b elo w could result in:
1.Serious personal injury (particularly to eyes) or
property d a m a g e from such causes as b a tte ry
explosion, b a tte ry acid, or electrical burns; a n d / or
2 . D a m a g e to electronic com ponents of e ith e r
vehicle.
N ever expose b a tte ry to open fla m e or electric
spark - batteries g e n e ra te a gas w hich is fla m
m ab le a n d explosive. Remove rings, w atches, a n d
other jew elry . W e a r ap p ro ved eye protection. Do
not a llo w b a tte ry flu id to contact eyes, skin,
fabrics, or p a in te d surfaces - it is a corrosive acid.
Flush a n y contacted a re a w ith w a te r im m e d ia te ly
an d thoroughly. Be careful th a t m e tal tools or
jum per cables do not contact th e positive b a tte ry
term in a l (or m e ta l in contact w ith it) an d a n y other
m e ta l on th e car, because a short circuit could
occur. Batteries should a lw a y s be kept out of the
reach of children.
1. Set parking brake and place automatic transmission in
PARK (N E U T R A L for manual transmission.) Turn
off lights, heater, and other electrical loads.
2. Check the built-in hydrometer. If it is clear or light
yellow, replace the battery, do not attempt to jump
start.
3. Only 12 volt batteries can be used to start this engine.
4. Hook up one end of the positive jumper cable to the
positive terminal of the booster battery and the other
end to the positive terminal of the discharged battery.
DO NOT PERMIT vehicles to touch each other as this
could cause a ground connection and counteract the
benefits of this procedure.
5. Hook up one end of the negative jumper cable to the
negative terminal of the booster battery, and the other
LIGHT TRUCK SERVICE MANUAL
6D-8
ENGINE ELECTRICAL
end to a solid engine ground (such as A /C compresser
or generator mounting bracket) at least 450 mm (18
inches) from the battery of the vehicle being started
(DO NO T C O N N E C T DIRECTLY TO THE N EG
ATIVE T E R M IN A L OF THE DEAD BATTERY).
6. Start the engine of the vehicle that is providing the
jump start and turn off electrical accessories. Then
start the engine in the car with the discharged battery.
7. Reverse these directions exactly when removing the
jumper cables. The negative cable must be removed
from the engine that was jump started first.
REMOVE AND REPLACE
1. Hydrogen gas is produced by the battery. A flame or
spark near the battery may cause the gas to ignite.
2. Battery fluid is highly acidic. Avoid spilling on clothing
or other fabric. Any spilled electrolyte should be
flushed with large quantities of water and cleaned
immediately. To remove or replace a battery, always
disconnect the negative cable first, then the positive
cable. Torque battery cables at battery to 12 Nm (9 lb.
ft.). Two types of battery hold-downs are used. The
hold-down rod going across the battery top should be
torqued to 3.0 N-m (25 lb. in.), and the clamp which
holds the bottom of the battery should be torqued to
16.0 N-m (12 lb. ft.).
When handling a battery, the following safety precau
tions should be observed:
CHARGING SYSTEM
General Description............................................................
Diagnosis...............................................................................
Faulty Indicator Lamp Operation...............................
Undercharged Battery.....................................................
Overcharged Battery............................................... .......
On-Vehicle Service.............................................................
Unit Repair..........................................................................
Disassembly.......................................................................
6D-8
6D-10
6D-12
6D-12
6D-13
6D-13
6D-14
6D-14
Stator C hecks...................................................................
Rotor Field Winding C hecks........................................
Diode Trio C heck............................................................
Rectifier Bridge Check....................................................
Brush Holder and Regulator Replacem ent...............
Slip Ring Servicing.........................................................
Bearing Replacement and Lubrication.......................
Reassembly.......................................................... .............
6D-14
6D-14
6 D -15
6D-15
6D-15
6D-16
6D-16
6D-16
GENERAL DESCRIPTION
The basic charging system is the SI integral regulator
charging system (Fig. 6D -1C ). The internal components are
connected electrically as shown in Fig. 6D-2C. The genera
tor is connected to the vehicle electrically as shown in Fig.
6D-3C.
The 15-SI generator is similar to the 10-SI except that:
1. It is slightly larger physically.
2. It produces 70 amps output at full speed.
3. It uses different drive end and slip ring end bearings.
4. The stator uses delta windings, which cannot be
checked for opens.
The brown field wire to the generator is used to initially
activate the generator. The 10 ohm resistance, provided by
either the generator warning lamp or the resistance wire
with optional gages, is needed to protect the diode trio.
Although several models of generators are available
with different outputs at idle and different maximum
outputs, their basic operating principles are the same.
The generator features a solid state regulator that is
mounted inside the generator slip ring end frame. All
regulator components are enclosed into a solid mold, and
this unit along with the brush holder assembly is attached to
LIGHT TRUCK SERVICE MANUAL
the slip ring end frame. The regulator voltage setting never
needs adjusting, and no means for adjustment is provided.
The generator rotor bearings contain a supply of
lubricant sufficiently adequate to eliminate the need for
periodic lubrication. Two brushes carry current through the
two slip rings to the field coil mounted on the rotor, and
under normal conditions will provide long periods of
attention-free service.
The stator windings are assembled on the inside of a
laminated core that forms part of the generator frame. A
recitifier bridge connected to the stator windings contains
six diodes, and electrically changes the stator a.c. voltages to
a d.c. voltage which appears at the generator output
terminal. Generator field current is supplied through a diode
trio which also is connected to the stator windings. A
capacitor or condenser, mounted in the end frame protects
the rectifier bridge and diode trio from high voltages, and
suppresses radio noise.
N o periodic adjustments or maintenance of any kind
are required on the entire generator assembly.
NOISY GENERATOR
Noise from a generator may be caused by a loose drive
pulley, loose mounting bolts, worn or dirty bearings,
defective diode, or defective stator.
ENGINE ELECTRICAL
6D-9
Fig. 6 D -1 C --1 0 S I G enerator
Fig. 6D-2C--Regulator in Charging Circuit
LIGHT TRUCK SERVICE MANUAL
6D-10
ENGINE ELECTRICAL
VOLTMETER
(R A L L Y GAUGE
ONLY)
GENERATOR WARNING
LAMP (EXC. R ALLY GAUGE)
SWITCH
BATTERY
BROWN (FIELD)
10 ohms RESISTANCE'
WIRE (R A LLY GAUGE
ONLY) [U
- ..............
10 ohms
RED (SENSING)
BULKHEAD
CONNECTOR
GENERATOR
Fig. 6 D -3 C --C h a rg in g Circuit - SI System
DIAGNOSIS
Most charging system troubles show up as a faulty
indicator lamp, an undercharged or an overcharged battery.
Since the battery itself may be defective, it should be
checked first to determine its condition. Also, in the case of
an undercharged battery, check for battery drain caused by
grounds or by accessories being left on.
A basic wiring diagram showing lead connections is
shown in Figure 6D-3C. To avoid damage to the electrical
equipment, always observe the following precautions:
• Do not polarize the generator.
• Do not short across or ground any of the terminals in
. the charging circuit except as specifically instructed.
• Never operate the generator with the output terminal
open circuited.
• Make sure the generator and battery are of the same
ground polarity.
LIGHT TRUCK SERVICE MANUAL
• When connecting a charger or a booster battery to the
vehicle battery, see Battery Charging Section.
• In some circuits (Gage option), a voltmeter may be
used instead of an indicator lamp. In this case, Section
"A" pertaining to faulty indicator lamp operation
should be omitted from the troubleshooting procedure.
Trouble in the charging system will show up as one or
more of the following conditions:
A. Faulty indicator lamp operation.
B. An undercharged battery as evidenced by slow crank
ing or test indicator dark.
C. An overcharged battery as evidenced by excessive
spewing of electrolyte from the vent holes.
IN D IC A T O R LAMP O P E R A T IO N
TEST NO. 1
Engine Running
Ig n itio n Sw itch
ON
Lam p O ff
NORMAL
See Test 2
TEST N O .2
Lam p O n
NORMAL
See Test 3
La m p On
C onnect v o ltm e te r to B A T .
te rm in al on generator and
chassis ground. T u rn
ignition key on.
Check 10 am p.
"G A U G E S "
" T R A N S ." fuse
in fuse block.
Engine S topped
Ig n itio n S w itch
ON
TEST NO. 3
La m p O n
D IM
L am p O ff
Ign. S w itch
OFF
L a m p O ff
NORMAL
La m p O n
If th e in d ic a to r lam p o p e ratio n
is norm al fo r all th re e tests,
refer to SI g enerator Diagnosis
Check drive b e lt and
w irin g connections at
generator and batte ry cables.
D isconnect N o . 1 and 2 C onn e c to r
at generator, G ro u n d N o . 1 w ire. Do
N O T ground N o . 2 w ire .
Disconnect N o . 1 and 2
C o n n e c to r a t ge n era to r.
Fig. 6D-4C--CHarging
r
La m p On
B a tte ry V oltag e
Zero V o lta g e
I
J
Disconnect N o . 1 and N o . 2 Connector
at generator. C onnect v o ltm e te r fro m
N o . 1 c onnec tor to chassis ground.
Repair open c irc u it betw een
B A T . term inal on generator
and junction b lo c k or
battery.
System
D iagnosis
La m p b urned o u t.
Replace R e c tifie r
Bridge in g e n era to r.
1.
Disconnect b a tte ry ground strap.
2.
Disconnect w ires fro m B A T .
term inal on generator.
3. Connect a m m e te r black lead to
B A T . te rm in a l wires and red
lead to B A T . te rm in a l.
4.
Connect b a tte ry ground strap.
5.
Turn o n all accessories, lights on
high beam , and b lo w e r o n high speed.
6.
Run engine as required to o b ta in
m a xim um c u rre n t o u tp u t and record
am m eter re ad in g .*
O u tp u t N O T w ith in 1 0 am ps o f rated
output stam p ed on generator fra m e.
1.
C o n n e c t N o . 1 and N o . 2
co n n ec to r to generator.
2.
Insert screw driver in to
test hole to ground r o to r
w in d in g .
Lam p On
L a m p O ff
T
1.
M a k e sure N o . 1 w ire
co n n ec to r is m aking
good co n ta ct on te rm in a l.
2.
Disassemble generator
and check brushes, slip
rings and ro to r w inding
fo r open.
Replace R egulator
Insert screw driver in to test hole.
End of screw driver m ust to u c h ta b and side
o f screwdriver gro u n d against end fra m e.
Run engine as b e fo re and recheck o u tp u t.
Rem ove generator. R e fe r to
G en e ra to r Disassem bly.
2427
6D -11
O u tp u t N O T w ith in 1 0 am ps o f rated
o u tp u t stam p ed o n generator fra m e.
ELECTRICAL
Replace Regulator
R e pa ir short betw een
N o . 1 and N o . 2
w ires in harness.
ENGINE
O u tp u t w ith in 1 0 am ps o f rated o u t
p u t stam ped on generator fram e.
L a m p On
O pen in N o . 1 w ire fro m
generator to ig n itio n sw itch.
Repair open c irc u it in N o l 1 w ire
fro m c onnec tor to ig n itio n switch.
C heck b a tte ry connections and b a ttery
c o n d itio n
Lam p O ff
Install N o . 1 and 2 C o n n e c to r.
Zero V oltag e
O u tp u t w ith in 10 amps o f rated o u t
p u t stam ped on generator fram e.
N O R M A *.
L a m p O ff
1.
A p p ro x im a te ly
2 to 4 V o lts
* l f b a tte ry is fu lly charged, use the
starter to p a rtia lly discharge it before
recording m a x im u m c urrent o u tp u t.
Check 10 am p.
"G A U G E S "
" T R A N S ." fuse
in fuse b lo c k.
6D-12
ENGINE ELECTRICAL
FAULTY INDICATOR LAMP OPERATION
UNDERCHARGED BATTERY
Check the indicator lamp for normal operation as
shown in Fig. 6D-5C.
This condition, as evidenced by slow cranking and
battery test indicator dark can be caused by one or more of
the following conditions even though the indicator lamp may
be operating normally. The following procedures also
applies to circuits with a voltmeter.
If the indicator lamp operates normally, proceed to
"Undercharged Battery" section. Otherwise, proceed to
either one of the following three abnormal conditions.
1. Switch Off, Lamp On-In this case, disconnect the two
leads from the generator No. 1 and No. 2 terminals. If
the lamp stays on, there is a short between these two
leads. If the lamp goes out, replace the rectifier bridge
as covered in the Generator Repair Section. This
condition will cause an undercharged battery.
2. Switch On, Lamp Off, Engine Stopped-This condition
can be caused by the defects listed in part 1 above, or by
an open in the circuit. To determine where an open
exists, proceed as follows:
a. Check for a blown fuse, or fusible link, a burned out
bulb, defective bulb socket, or an open in No. 1 lead
circuit between generator and ignition switch.
b. If no defects have been found, proceed to Under
charged Battery section.
3. Switch On, Lamp On, Engine Running-The possible
causes of this condition are covered in the "U N D E R
CHARGED BATTERY" section. If a defect has been
found and corrected at this point, no further checks
need be made.
1. Insure that the undercharged condition has not been
caused by accessories having been left on for extended
periods.
2. Check the drive belt for proper tension (see Section
6B).
3. If a battery detect is suspected, refer to Battery
Section.
4. Inspect the wiring for defects. Check all connections for
tightness and cleanliness, including the slip connectors
at the generator and firewall, and the cable clamps and
battery posts.
5. With ignition switch "on" and all wiring harness leads
connected, connect a voltmeter from generator " BAT"
terminal to ground, generator No. 1 terminal to ground
and generator No. 2 terminal to ground. A zero reading
indicates an open between voltmeter connection and
battery.
Generators have a built-in feature which avoids over
charge and accessory damage by preventing the gener
ator from turning on if there is an open in the wiring
harness connected to the No. 2 generator terminal.
Opens in the wiring harness connected between the No.
2 generator terminal and battery may be between the
terminals, at the crimp between the harness wire and
terminal, or in the wire.
6. If previous Steps 1 through 5 check satisfactorily,
check generator as follows:
a. Disconnect battery ground cable.
Switch
Lamp
Engine
OFF
ON
ON
OFF
ON
OFF
STOPPED
STOPPED
RUNNING
b. Connect an ammeter in the circuit at the "BAT"
terminal of the generator.
c. Reconnect battery ground cable.
d.Turn on radio, windshield wipers, lights high beam
and blower motor high speed. Connect a carbon pile
across the battery.
Fig. 6 D -5 C --ln dicator Lamp O peration
INSERT SCREWDRIVER
GROUND TAB TO
END FRAME
END
FRAME
HOLE
e. Operate engine at moderate speed as required, and
adjust carbon pile as required, to obtain maximum
current output.
f. If ampere output is within 10 amperes of rated
output as stamped on generator frame, generator is
not defective; recheck Steps 1 through 5.
g. If ampere output is not within 10 percent of rated
output, determine if test hole is accessible (Fig. 6D6C). If accessible go to step h. If not accessible go to
step 1.
h. Ground the field winding by inserting a screwdriver
into the test hole (Fig. 6D-6C).
NOTICE: Tab is within 3/4 inch (19mm) of casting
surface. Do not force screwdriver deeper than one inch
(25mm) into end frame to avoid damaging the tab.
L Operate engine at moderate speed as required, and
Fig. 6 D -6 C --G e n e ra to r Test Hole
LIGHT TRUCK SERVICE MANUAL
adjust carbon pile as required to obtain maximum
current output.
ENGINE ELECTRICAL
j. If output is within 10 amperes of rated output, check
field winding as covered in Generator Repair section,
and test regulator with an approved regulator tester,
k. If output is not within 10 amperes of rated output,
check the field winding, diode trio, rectifier bridge,
and stator as covered in the Generator Repair
Section.
7. If test hole is not accessible, disassemble generator and
make tests listed in Unit Repair section.
OVERCHARGED BATTERY
1. To determine battery condition refer to Battery section.
6D-13
2. Connect a voltmeter from generator No. 2 terminal to
ground. If reading is zero, No. 2 lead circuit is open.
3. If battery and No. 2 lead circuit check good, but an
obvious overcharge condition exists as evidenced by
excessive spewing of electrolyte, proceed to disassembly
section of Generator Overhaul and check field windings
for grounds and shorts. If defective, replace rotor, and
test regulator with an approved regulator tester.
Generator Tester - many testers are available to check
the generator. They provide a quick on-vehicle test, and can
save time over conventional diagnostic methods. Consult
manufacturer’s instructions for usage.
ON-VEHICLE SERVICE
The generator does not require periodic lubrication.
The rotor shaft is mounted on ball bearings at the drive end
and roller bearings at the slip ring end, and each contains a
permanent grease supply. A t periodic intervals, check
mounting bolts for tightness and adjust belt tension (see Sec.
6B).
When adjusting belt tension, apply pressure at center
of generator, never against either end frame.
Rem ove From Vehicle
1. Disconnect negative battery terminal at battery.
C A U T IO N :F ailure to observe this step m a y result in
an injury from hot b a tte ry lea d a t g en erator.
2. Remove two terminal plug and battery leads on back of
generator.
3. Loosen adjusting bolts (see Fig. 6D-6 through 6D-8 for
generator mounting).
4. Remove generator drive belt.
5. Remove thru bolt which retains generator.
6. Remove generator from vehicle.
Install In Vehicle
1. If removed from vehicle, install generator to mounting
bracket with bolts, washers and nuts. Do not tighten.
2. Install generator drive belt.
3. Tighten belt to the specified belt tension. See Engine
Cooling Section for proper belt tensioning procedures.
4. Tighten bolts to 41 N-m (30 lb. ft.), except bolt at
sliding slots on brackets which is 27 N-m (20 lb. ft.).
5. Install generator terminal plug and battery leads to
generator.
6. Connect negative battery terminal.
LIGHT TRUCK SERVICE MANUAL
6D-14
ENGINE ELECTRICAL
UNIT REPAIR
10SI, 15SI AND 27SI GENERATORS
DISASSEMBLY, TEST AND REASSEMBLY
(GENERATOR REMOVED FROM ENGINE)
T H R U -B O L T LO C A TIO N
NO. 1 TERMINAL
T E S TIN G STA TO R
(CHECK FOR OPENS)
OH
NO. 2 TERMINAL
"BAT
TERMINAL
THRU-BOLT
TEST HOLE
1. Make scribe marks on end frames to facilitate reassem
bly.
2. Remove four thru-bolts and separate drive end frame as
sembly from rectifier end frame assembly.
END FR A M E V IE W
RESISTOR
(USED ON
OME MODELS)
INSULATING
WASHERS
OHMMETER
(CHECK FOR
GROUNDS)
5. On 10SI only, check stator for opens with ohmmeter
(two checks). If either reading is high (infinite), replace
stator.
6. On all series, check stator for grounds. If reading is low,
replace stator.
T E S T IN G RO TO R
(CHECK FOR
GROUNDS) (OHMMETER)
RECTIFIER
BRIDGE
_
__
DIODE
CAPACITOR
■«> .«v,n.n.vi
NUTS
TR|0
3. Remove three attaching nuts and regulator attaching
screws.
4. Separate stator, diode trio and regulator from end frame.
NOTE: The regulator cannot be tested on the work bench
except with a regulator tester.
OHMMETER
CHECK FOR OPENS
7. Check rotor for grounds with ohmmeter. Reading should
be very high (infinite). If not, replace rotor.
8. Check rotor for opens. Should read 2.4-3.5 ohms, If not,
replace rotor.
Fig. 6D-7C--Generator Unit Repair
LIGHT TRUCK SERVICE MANUAL
ENGINE ELECTRICAL
6D-15
BRUSHES RETAINED IN HOLDER
TESTING TRIO
OHMMETER
BRUSH RETAINER
BRUSHES
SINGLE CONNECTOR
14. Clean brushes with soft, dry cloth.
15. Put brushes in holder and hold with brush retainer wire
DRIVE END BEARING
(Some models use flat washer instead of slinger)
THREE CONNECTORS
END FRAME
9. To check diode trio, connect ohmmeter as shown, then
reverse lead connections. Should read high and low. If
not, replace diode trio.
10. Repeat same test between single connector and each of
other connectors.
BEARING
TESTING RECTIFIER BRIDGE
BRUSH
HOLDER
SLINGER
REGULATOR
ARMATURE
SHAFT
To remove rotor and drive end bearing, remove shaft nut,
washer and pulley, fan and collar. Push rotor from hous
ing.
Remove retainer plate inside drive end frame and push
bearing out. Clean all parts with soft cloth.
Press against outer race to push bearing in. Fill cavity
between retainer plate and bearing with Part No. 1948791
lubricant. Assemble retainer plate.
Press rotor into end frame. Assemble collar, fan, pulley,
washer and nut. Torque shaft nut to 40-60 lb.-ft. (54-82
NM)
[/
X
INSULATED
HEATSINK
GROUNDED
HEATSINK
^ ^
V-----
Vl
INSULATING
WASHER
RETAINER
COLLAR
/ y BEARING
COLLAR
________OHMMETER
11. Check rectifier bridge with ohmmeter connected from
grounded heat sink to flat metal on terminal. Reverse
leads. If both readings are the same, replace rectifier
bridge.
12. Repeat test between grounded heat sink and other two
flat metal clips.
13. Repeat test between insulated heat sink and three flat
metal clips.
To replace bridge, remove attaching screws.
ROTOR
SHAFT
END FRAME
SCREW
Fig. 6D-8C--Generator Unit Repair
LIGHT TRUCK SERVICE MANUAL
6D-16
ENGINE ELECTRICAL
RECTIFIER END BEARING 15SI SERIES
USE TH IN W ALL TUBE
IN SPACE BETWEEN
GREASE CUP AND
HOUSING TO PUSH
BEARING IN FLUSH
W ITH HOUSING '
P AR TIA L
W
R EC TIFIER END FRAME
15S1/100
20. Push slip ring end bearing out from outside toward inside
of end frame.
21. On 10SI and 27SI, place flat plate over new bearing, press
from outside toward inside until bearing is flush with end
frame.
22. On 15SI, see illustration.
23. Assemble brush holder, regulator, resistor, diode trio,
rectifier bridge and stator to slip ring end frame.
24. Assemble end frames together with thru-bolts. Remove
brush retainer wire.
Fig. 6D-9C--Generator Unit Repair
LIGHT TRUCK SERVICE MANUAL
ENGINE ELECTRICAL
6D-17
generator must be dismantled and the regulator removed for
further testing.
1. Turn the tester OFF.
2. Make sure a regulator is not installed in the Tester
regulator holder.
3. Plug the on-vehicle testing accessory cable into the
accessory socket on the Tester front panel.
4. Disconnect the regulator connector from the generator.
Then plug the on-vehicle testing accessory cable in its
place. Connect the ground lead (alligator clip) to the
generator case.
5. Test the generator/regulator circuit using steps 2, 3, 4
and 15 of the instruction label located on the inside of
the case cover. If you do not obtain the proper lamp
and/or voltmeter indication, or if either or both lamps
flicker on and off when you perform these steps, the
regulator must be removed from the generator for
further testing to determine whether the problem is in
the generator or in the regulator.
Fig. 6 D -1 0 C --V o lta ge Regulator Tester
BRUSH HOLDER AND REGULATOR
REPLACEMENT
To determine if the regulator is defective, an approved
regulator tester must be used. After removing the three
attaching nuts, the stator, and diode trio screw, the brush
holder and regulator may be replaced by removing the two
remaining screws. Note the two insulators located over the
top of the brush clips and that these two screws have special
insulating sleeves over the screw body above the threads.
The third mounting screw may or may not have an insulat
ing sleeve. If not, this screw must not be interchanged with
either one of the other two screws, as a ground may result,
causing no output or uncontrolled generator output. Regula
tors may vary in appearance but are com pletely inter
changeable in these generators.
Using voltage regulator tester CTW -1170 or equiv
alent (Fig. 6D-10C), it is possible to check the voltage
regulator both on the vehicle and on the bench. Use the
instructions on the tester cover for testing the regulator on
the bench and use the following instructions for the on
vehicle test and the continuity test.
O n -V eh icle Test
This on-vehicle test procedure helps to quickly deter
mine if a problem exists in the generator/regulator circuit.
If you do not obtain the proper results in this test, the
C o n tin uity Test
The continuity test accessory cable is used in conjunc
tion with the meter on the Tester. A high meter reading
indicates an open circuit (no continuity) while a zero meter
reading indicates continuity.
When you make a continuity test, keep the following
points in mind:
1. Make sure a regulator is not installed in the holder.
2. The knob is turned clockwise only until it clicks.
3. All components must be isolated for testing.
4. Make sure voltage is not applied to the component
being tested.
SLIP RING SERVICING
If the slip rings are dirty, they may be cleaned and
finished with 400 grain or finer polishing cloth. Spin the
rotor, and hold the polishing cloth against the slip rings until
they are clean.
The rotor must be rotated in order to clean the
slip rings evenly. Cleaning the slip rings by hand
without spinning the rotor may result in flat spots on
the slip rings, causing brush noise.
NOTICE:
Slip rings which are rough or out of round should be
trued in a lathe to .002 inch maximum indicator reading.
Remove only enough material to make the rings smooth and
round. Finish with 400 grain or finer polishing cloth and
blow away all dust.
LIGHT TRUCK SERVICE MANUAL
6D-18
ENGINE ELECTRICAL
SPECIAL TOOLS
J-2150 1
PULLY
AD AP TER
Fig. 6D-11C--Special Tool
C IO Se rie s Diesel Engine Electrical
DIESEL ELECTRONIC CONTROL SYSTEM
General Description
Instrumentation
The major components of the system are, an electronic
control module, engine thermal probe, glow plugs, glow plug
relay, fast idle control (with A /C only), fast idle temp
switch, fast idle solenoid and auto disengagement lockout
relay.
Vehicles with the optional diesel engine have special
instrumentation indicators to permit the operator to prop
erly apply the starting procedure. A dual indicator (Don't
start/Glow Plugs) light on the I.P. provides this information
on engine starting conditions.
Diesel Electrical Circuitry
Electronic Module
The diesel engine electrical circuitry differs from
conventional gasoline engines as follows:
Operating on electrical signals from the probe, the
module controls glow plug operation and determines glow
plug power requirements.
The electronic module is designed to monitor the
system, probe, and associated wiring for malfunctions.
Should a malfunction occur, that might result in glow plug
damage, the module provides for system shutdown and
driver notification.
The electronic module provides automatic system
shutdown due to a malfunction and disconnects glow plug
relay from battery plus and ground.
Battery
Two 12 volt sealed top batteries connected in parallel
are required for the higher electrical load due to the glow
plugs and starter.
- ,,
Starter
The starter is larger and designed to crank the engine at
least the 100 RPM required for starting.
Charging
Thermal Probe
A Standard generator supplies charging current to both
batteries at the same time. There are no switches or relays in
the charging circuit.
The thermal probe, mounted on the engine in such a
position as to sense engine temperature, transmits this
information to the electronic module for controlling glow
plug operation.
Ignition
Glow Plugs
In the diesel engine, air alone is compressed in the
cylinder; then after the air has been compressed a charge of
fuel is sprayed into the cylinder and ignition occurs due to
the heat of compression. Eight glow plugs are used to
preheat the chamber as an aid to starting.
They are 6 volt heaters (operated at 12 volts) that turn
on when the ignition key is turned to the run position prior to
starting the engine. They remain on a short time after
starting, then automatically turn off.
The glow plugs used in this sytem are 6 volt units
operated at system voltage (12 volts), to provide rapid
heating.
LIGHT TRUCK SERVICE MANUAL
Glow Plug Relay
The glow plug relay is used to switch power to the glow
plugs, on or off, as determined by the electronic module. No
attempt should be made to bypass the relay using a jumper
cable or other means, as the glow plugs are not designed to
ENGINE ELECTRICAL
6D-19
burn continuously and the constant current provided by
jumping the relay will cause the glow plug elements to be
destroyed.
Fast Idle System
The fast idle relay increases engine speed at cold start
or low engine temperature or with A /C on, and after each
ignition cycle.
Auto Disengagement Lockout Relay
This relay senses "engine running" condition and
disengages starter circuitry at start up.
STARTER GENERATOR MOUNTING
Starter and Generator mounting is illustrated in
Figures 6D-7D through 6D-9D.
LIGHT TRUCK SERVICE MANUAL
6D-20
ENGINE ELECTRICAL
Fig. 6D-1D--C-10 Series Diesel Electrical Schematic
LIGHT TRUCK SERVICE MANUAL
ENGINE ELECTRICAL
6D-21
.8 YEL-508 (HW)
.8 PNK-30(HW)
PRODUCTION
TANK SENOER
Fig. 6D-2D-C-10 Series Diesel Electrical Schematic
LIGHT TRUCK SERVICE MANUAL
6D-22
ENGINE ELECTRICAL
MODULE CIRCUITS
B
C
-
D
E
-
F
-
A
G
H
J
K
L
M
N
-
-
Relay Circuits
Circuit
Module Terminal
Blank
Blank
502 - Probe
Blank
503 Right Bank Glow Plugs (Monitor)
505 Glow Plug Relay Coil Feed (+)
3 - Ignition
150 Ground (Power)
506 - Glow Plug Relay Coil Feed (-)
506 Glow Plug Relay Coil Feed (-)
505 Glow Plug Relay Coil Feed (+)
Glow Plug Feed (Power)
B la n k
501 - Probe
5 0 0 Module Logic Ground
Generator Output (Monitor)
System Operation (at Cold Start)
1
Ignition Switch-Off
Don't Start/Glow Plugs Lamp-Off
3
Ignition Switch "Start"
Don't Start/Glow Plugs Lp Pulsing on/off
2
Ignition Switch - "Run"
Don't Start/Glow Plugs Lp - On
4
Ign Sw Run
Don't Start/Glow Plugs Lp Pulsing on/off*
*G low Plugs (Don't Start/Glow Plugs Lp) will cycle on/off
for a maximum of 30 seconds after engine starts, then
turn off, and remain off.
LIGHT TRUCK SERVICE MANUAL
ENGINE ELECTRICAL
6D-23
ASM
Fig. 6 D -3 D --C -1 0 Series Diesel Engine C om partm ent C om pon en t Location
LIGHT TRUCK SERVICE MANUAL
6D-24
ENGINE ELECTRICAL
B R A K E LAM P
IN S T R U M E N T P A N E L
S W IT C H
W IR IN G H A R N E S S
BRAKE PEDAL
BEZEL
BRACKET
O P E N IN G
W A R N IN G
LAM P
IN S T R U M E N T
CLU STER
VIEW A
GROUND
BUS BAR
A u to m a tic
transm ission clutch
test connection.
VIEW B
________ _
Install C on ne ctor into
vacant cavity m arked " i G N 1 .
Fig. 6D-5D--Diesel Control M o d u le W irina
Fig. 6D-6D--Diesel Engine - A ccelerator Control and
Sole noid Assem bly
LIGHT TRUCK SERVICE MANUAL
Fig. 6D-7D--Diesel Starter M ou n tin g
ENGINE ELECTRICAL
6D-25
Fig. 6D -8 D --G e n e rator M ou n tin g - LF9
LIGHT TRUCK SERVICE MANUAL
TO IG NITIO N
SWITCH
ii
BATT
C KT3PNK
Fig. 6D-10D--C-10
GEN
CKT 2
RED
PRINTED CIRCUIT
BOARD RELAY
25 CKT BRN
A
Series Diesel Electrical System
EN G IN E
TEM P C
PROBE E
B
D
CKT 501 PPI
CKT 502 GRA
CKT 500 B
BJ_K/WHT
500
©
©
LOGIC
GROUND
C K T 505 YEL
TIM IN G
LATCHING
AND LEVEL
DETECTION
CIRCUIT
LOGIC.
TRANSISTOR
SWITCH
CKT 506 LT BLU
GLOW
PLUG
RELAY
CKT 509
C K T 150 BLK
©
POWER
GROUND
ELECTRONIC MODULE
CKT 503 B ORN
_________
— ■“DO N 'T ST A RT/G LOWPLUGS LAMP
BUS BAR GRD
D iagn osis
<►
juuub^jTnnni' >
.flinty jtiiiuv .
1980 CK SERIES DIESEL
LEFT BANK GLOW PLUGS
S IM P LIFIE D WIR. D IA G R A M GLOW PLUG CO NTRO L
jJUlfllb* RT
BANK GLOW PLUGS
ENGINE ELECTRICAL
6D-27
ENGINE DOES NOT START-COLD
1.
Fuel system checked and is O K .
2.
Battery voltage 12.4 or more (Ignition O F F )
3.
Engine cranking speed O K (100 R P M or more)
W IT H IG N IT IO N SW IN " R U N "
Listen for G low Plug Relay clicking with cold engine.
Relay should come on for approxim ately 6 seconds.
(Varies with engine temperature) Then turn off and
then pulse O N /O F F .
R E L A Y C L IC K S O N /O F F
G LO W PLU G R E L A Y N O T C L IC K IN G O N /O F F
I
I
Connect 12 volt test light to ground.
Touch glow plug relay terminal with 2
red wires. Test light should turn
O N / O F F as relay clicks on/off.
Connect 12 volt test light to
ground. Touch Yel wire (C K T 5 0 5 )
at G lo w Plug Relay connector
light should pulse on and off as
above with engine cold.
T E S T L IG H T D O E S N O T
T E S T L IG H T P U L S E S O N / O F F
P U LSE O N /O F F
I
M om entarily touch a jumper
wire from the light blue
terminal of the glow plug relay
to ground.
DOES NOT O PERATE
Check 506 circuit from relay to module.
W IR IN G O K
Replace relay
O P E N C IR C U IT
I
Replace module and
check module ground
-
Proceed to chart page 6D-19.
GLO W PLUG R E L A Y O P E R A T E S
Repair as necessary
T E S T L IG H T N O T
T U R N IN G O N / O F F
Touch test light to
single red wire
terminal (batt. fed)
on glow plug relay.
I
1
1
Touch each glow plug
harness connector with
12 volt test light connected
to ground. Light should
turn on/off.
'----1
Ir/,
1
T
1
OFF
ON
ON ST E A D Y
Relay contacts
shorted, replace
relay & glow
plugs as required.
Locate and
repair open
circuit in wire
from glow plug
relay to battery
Replace relay
i.,
L IG H T P U L S E S O N / O F F
\>t i-
1
ON A L L 8
Disconnect harness from
all 8 plugs. Connect
test light to 12 v source
and touch each glow plug
terminal. Light should be
on. Replace glow plug if
light is not on.
-
.1
NO T ON
ONE OR M O RE
Repair open circuit in
glow plug harness. If
open circuit caused by
burned wire, glow plug
is shorted, replace as
necessary.
Fig. 6D-11D--C-10 Series Diesel Electrical System Diagnosis
LIGHT TRUCK SERVICE MANUAL
6D-28
ENGINE ELECTRICAL
W ITH IG N ITIO N ON, CHECK VOLTAG E
AT C A V IT Y F OF MODULE (CKT 505)
I
12 VOLTS OR MORE
0 VOLTS
Repair open circuit in yellow wire
from module to relay
Check for ground at cavity
H of module (C K T 150 blk)
I
NO GROUND
I
GOOD GROUND
Repair wiring as required
Check voltage at cavity G of module
(CKT 3-Pnk) with ignition ON
I
12 VOLTS OR MORE
0 VOLTS
I
I
Check the voltage at cavity C
(C K T 502 Gray) of the module
Repair open in pink wire (C K T 3)
from module to Ign. Switch.
-------------------- ,
I
LESS THAN 6 VOLTS
12 VOLTS OR MORE
I
I
Turn ignition O F F , remove probe connector,
measure resistance between probe terminals C and D.
Measure voltage at module
connectors F and J
1
I
I
OPEN CIRCUIT
LESS THAN 20 OHMS
Replace the probe
Reconnect bulkhead connector, remove module. With
Ign. ON check voltage at module connector cavity C
......... *
2 TO 8 VOLTS (F)
2 TO 8 VOLTS (J)
I
Measure voltage at
module connector cavity M
-NO C O NTINUITY
r
502 circ. (G R A ) open
from probe to module
READS CO N TIN U ITY
J___________
--------1
0 VOLTS
LESS THAN 1 VOLT
I
I
Replace
module
500 circuit is open
in module jumper
or engine harness
Reconnect probe. Disconnect 12 terminal bulkhead connector and measure
resistance to ground of the 502 circuit (Gray) in the engine harness.
I
LESS THAN 10 OHMS
I
0 VOLTS
■Reconnect bulkhead connector,1 —
I
remove module. With Ign. ON
Replace the module
check voltage at module
connector cavity C
12 VOLTS OR M ORE'
I
502 circuit is shorted
to batt circuit in
harness
I-----------------
I
___ I__
I
I
0 - OHMS
3 OHMS
I
Replace relay
and module
I
Remove module
check terminal
in cavity J for
damage
I
____ L
12 VOLTS (F) 1 VO LT (J)
I
Disconnect probe and measure resistance
between probe terminals E to D with Ign. OFF
Measure Glow Plug
Relay coil resistance
_________ L _
----------------------------- 1
I
LESS THAN 1 VOLT, BOTH
12 VOLTS (F)/12 VOLTS (J)
OR
2 VOLTS (F)/2 VOLTS (J)
I
I
Measure voltage to ground at Glow Plug Relay coil
terminal 2 way connector (Y e ll/L t Blu)
______________ I____________
1
•
I
OPEN CIRCUIT
LESS THAN 30 OHMS
1 VOLT/1 VOLT
I
Replace probe
I
I
505 circuit open
Repair
Check continuity
from cavity D of probe
harness to ground
I
506 circuit
open
Repair
_________ I_________
r
NO C O NTINUITY
1
DAMAGED
NORMAL
I
Repair connector
I
Replace module
I
Repair open in 503 circuit
from probe to module
12 VOLTS/1 VO LT
I
-------------1
Replace relay
C O NTINUITY
I
Remove module, check for deformed
terminals in cavities C, G and H
I------------------ 1-------------------NORMAL
iFO R M ED
I
Repair the connector
I
Replace the module
Fig. 6D-12D--C-10 Series Diesel Electrical System Diagnosis
LIGHT TRUCK SERVICE MANUAL
12 VO LTS/2 VOLTS
ENGINE ELECTRICAL
6D-29
GLOW PLUG RELAY BUZZING
Disconnect the 12 w ay bulkhead
connector. Check the continuity
of the 503 circuit in the module
connector to the glow plug relay.
I
1
11
I
11
N O C O N T IN U IT Y
C O N T IN U IT Y
503 circuit is open
in the module jumper
Repair as required
Replace the module
•
GLOW PLUG RELAY NORMAL
DON'T START/GLOW PLUGS
LAMP DOES NOT LIGHT
|
I
1
C H EC K LAM P
r
11
“I
1I
GOOD
BAD
Check lamp
ground continuity
Replace lamp
C O N T IN U IT Y
N O C O N T IN U IT Y
503 circuit is open
between lamp and
12 w ay bulkhead
connector
150 circuit is open
11
11
Fig. 6D-13D--C-10 Series Diesel Electrical System Diagnosis
LIGHT TRUCK SERVICE MANUAL
6D-30
ENGINE ELECTRICAL
GLOW PLUG RELAY AND
DON'T START/GLOW PLUGS LAMP
ON AT COLD START, DOES NOT
CYCLE AFTER INITIAL ON PERIOD
(APPROX. 6 SECONDS AT 32°F)
I
Disconnect probe and check
continuity between probe terminals
C and D
NO CONTINUITY
Replace probe
CONTINUITY
I
Measure the resistance
between probe terminals
C and E.
MORE THAN 2 VOLTS
MORE THAN 5 OHMS
0 VOLTS
I
I
I
(Measure the voltage
at module connector cavity F.
W ith ignition O N , measure
the voltage at module
connector cavity N
Measure the voltage
of the 25 circuit at
the alternator
r
I
LESS THAN 1 VOLT
12 VOLTS
I
I
Turn ignition O F F ,
remove the module.
Turn ignition O N ,
Check voltage at cavity
F of the connector
Check continuity of cavity D
to ground of the probe harness
connector.
I
Observe alternator lamp
Brown wire from alternator
to module open, repair
as necessary.
CONTINUITY
I
12 VOLTS
Turn ignition O F F .
Remove the module.
Check continuity from
module connector
cavity C to ground.
I
505 circuit is
shorted to batt. plus
in the harness.
Repair as necessary
LAMP ON
LAMP OFF
I
Bad alternator
lamp or circuit 25
open from lamp
to alternator
Disconnect the tw o
terminal connector from
the alternator and check
the voltage of the 25 circuit
in the connector.
r
NO CONTINUITY
J
_________ L—
---------- I
0 VOLTS
12 VOLTS
CONTINUITY
I
I
I
25 circuit is shorted
to ground in the harness.
Repair short.
Repair alternator
502 circuit is short
to ground in the harness.
Fig. 6D-14D--C-10 Series Diesel Electrical System Diagnosis
LIGHT TRUCK SERVICE MANUAL
I
Replace the module
NO CONTINUITY
I
503 circuit is open
between the probe and
the glow plugs.
Repair as necessary.
ENGINE ELECTRICAL
6D-31
at m odule cavity L.
0 VOLTS
I
Turn ignition O F F .
Rem ove the module.
Check for con tinu ity to
ground from m odule
connector cavity L.
LESS THAN 6 VOLTS
12 VOLTS
Disconnect the^probe. Check
voltage at cavity L o f the
m odule connector.
Disconnect the probe.
Check the resistance
,
from probe term inals A to E.
r J_______
I
Turn ignition O F F . Rem ove
the module. Turn ignition O N .
Check voltage at m odule
cavity L
I.
501 circuit is shorted to
ground in the harness.
Repair as necessary
12 VOLTS
12 VOLTS
I
Turn Ignition off.
Measure the resustance
between these probe
terminals is it:
AtoE
A to B
Check cont. from
M od. term L to
probe term A
501 circuit is shorted
to batt + in the harness
4 to 10 O H M S
10 to 20 O H M S
0 VOLTS
Turn Ign. off.
Reconnect the probe. Check
resistance to ground from
m odule connector cavity L
NO
Replace probe
OPEN
CONTINUITY
I
I
Repair
501 circuit
Replace
M odule
YES
LESS THAN 20 OHM
I
\
Turn ignition O F F . Rem ove
the module. Check con tinu ity
to ground from m odule
connector cavity J
CONTINUITY
Repair short to
ground in 506 circuit
harness
I
Replace the probe
LESS THAN 20 OHMS
I
NO CO N TINU ITY
CONTINUITY
OPEN CIRCUIT
OPEN CIRCUIT
Replace the m odule
501 circuit is open
in the harness
NO CONTINUITY
I
Replace the module
Fig. 6D-15D--C-10 Series Diesel Electrical System Diagnosis
LIGHT TRUCK SERVICE MANUAL
6D-32
ENGINE ELECTRICAL
JUNCTION
BLOCK ASM
,W /S WIPER
MOTOR ASM
TEMP SENDER
Engine
I NOTE 1 For remainder of harness
routing see sheet 12H-17.
T A IL COMB
LP EXT ASM
BATTERY
CABLE
BRACE
FW D LA M P
HARNESS ASM
SENDER OR
SWITCH
GENERATOR
ASM &C60
/!°J
GLOW
PLUG
VIEW C
VIEW B
TRANSMISSION
ASM
STARTER
Engine
ENGINE W IRING
HARNESS ASM
SOLENOID
Engine
FAST IDLE SOLENOID
TEMP CONTROL
SWITCH-Engine
GLOW PLUG W IR IN G
HARNESS ASM
SOLENOID
GENERATOR
ASM exc C60
VIEW E
Fig. 6D-16D--Engine Compartment Wiring
LIGHT TRUCK SERVICE MANUAL
ENGINE ELECTRICAL
6D-33
IGNITION SYSTEM - CONVENTIONAL ENGINES
GENERAL DESCRIPTION
CONTENTS
General Description..............................................................6D-33
H .E.l. Distributor...............................................................6D-33
Ignition T im in g................................................................ ..6D-33
Secondary Wiring...............................................................6D-34
Spark Plugs........................................................................ ..6D-34
Ignition S w itch................................................................. ..6D-35
Diagnosis................................................. ............................. ..6D-35
H .E.l. Distributor...............................................................6D-35
On-Vehicle Service...............................................................6D-38
H.E.l. Distributor...............................................................6D-38
Remove and Replace.......................................................6D-39
Distributor..................................................................... 6D-39
Vacuum Advance U nit............................................... ...6D-39
Integral Ignition C o il................................................. ...6D-40
Module.............................................................................. 6D-41
Pick-up C oil..................................................................... 6D-41
Set Ignition Tim ing............................................................ 6D-43
Spark Plug W ires............................................................... 6D-43
GENERAL DESCRIPTION
The ignition circuit consists of the battery, the distrib
utor, the ignition switch, the spark plugs, and the primary
and secondary wiring. Refer to the Battery portion of this
section for battery information.
also features a longer spark duration, made possible by the
higher amount of energy stored in the coil primary. This is
desirable for firing lean mixtures.
H.E.l. DISTRIBUTOR
When making compression checks, disconnect ignition
switch connector (pink wire) from HEI system.
No periodic lubrication is required. Engine oil lubrica .es the lower bushing and an oil-filled reservoir provides
lubrication for the upper bushing.
The High Energy Ignition distributor used on all
engines combines all ignition components in one unit (Fig.
6D -17D and 6D-18D). The external electrical connections
are the ignition switch feed wire, the tachometer pickup, and
the four, six or eight spark plug leads. The ignition switch
feed connector to the distributor has full battery voltage
when the ignition switch is in the "R U N " and "START"
positions. There is NO RESISTOR W IRE FROM THE
IG N IT IO N SW ITCH TO TH E D IST R IB U T O R . The
ignition coil is in the distributor cap and connects through a
resistance brush to the rotor. The High Energy Ignition
System is basically identical in operation to conventional
ignition except the module and pick-up coil replace the
contact points.
The High Energy Ignition is a magnetic pulse trig
gered, transistor controlled, inductive discharge ignition
system. The magnetic pick-up assembly located inside the
distributor contains a permanent magnet, a pole piece with
internal teeth, and a pick-up coil. When the teeth of the
timer core rotating inside the pole piece line up with the
teeth of the pole piece, an induced voltage in the pick-up coil
signals the electronic module to trigger the coil primary
circuit. The primary current decreases and a high voltage is
induced in the ignition coil secondary winding which is
directed through the rotor and secondary leads to fire the
spark plugs. The capacitor in the distributor is for radio
noise supression.
The magnetic pick-up assembly is mounted over the
main bearing on the distributor housing, and is made to
rotate by the vacuum control unit, thus providing vacuum
advance. The timer core is made to rotate about the shaft by
conventional advance weights, thus providing centrifugal
advance.
The module automatically controls the dwell period,
stretching it with increasing engine speed. The HEI system
IGNITION TIMING
Timing specifications for each engine are
Section 6E and on the Vehicle Emissions Control
tion label on the radiator support. When using
light, connect an adapter between the No. 1 spark
GROUND
TERMINAL
listed in
Informa
a timing
plug and
BAT. TERMINAL
(CONNECTED TO
IGNITION SWITCH)
/
LATCH (4)
CONNECT TACHOMETER
FROM THIS TERMINAL
TO GROUND.
TACH TERMINAL
CONNECTOR
C-TERMINAL
(SOME TACHOMETERS
MUST CONNECT FROM
THIS TERMINAL TO
ENERGIZER POSITIVE ( + ).
CONSULT TACHOMETER
MANUFACTURER.)
Fig. 6D-17D-HEI Distributor Assembly
LIGHT TRUCK SERVICE MANUAL
6D-34
ENGINE ELECTRICAL
o
.
*
Fig. 6 D -1 9 D --S p a rk Plug - T apered Seat
SPARK PLUGS (FIG. 6D-19D)
Fig. 6 D -1 8 D --H E I Distributor - E xp loded View
the No. 1 spark plug wire, or use an inductive type pick-up.
Do not pierce the plug lead. Once the insulation of the spark
plug cable has been broken, voltage will jump to the nearest
ground, and the spark plug will not fire properly. The timing
procedure remains the same as the conventional ignition
system. Always follow Vehicle Emissions Control Informa
tion label procedures when adjusting timing.
Some engines will incorporate a magnetic timing probe
hole for use with special electronic timing equipment.
Consult m anufacturer’s instructions for use of this
equipment.
SECONDARY WIRING
The spark plug wiring used with the HEI system is a
carbon impregnated cord conductor encased in an 8mm
diameter silicone rubber jacket. The silicone wiring will
withstand very high temperatures and also provides an
excellent insulator for the higher voltage of the HEI system.
The silicone spark plug boots form a tight seal on the plug
and the boot should be twisted 1/2 turn before removing.
Care should also be exercised when connecting a timing
light or other pick-up equipment. Do not force contacts
between the boot and wiring or through the silicone jacket.
Connections should be made in parallel using an adapter.
DO NOT pull on the wire to remove. Pull on the boot, or use
a tool designed for this purpose.
LIGHT TRUCK SERVICE MANUAL
Resistor type, tapered seat spark plugs are used on all
gasoline engines. No gasket is used on these tapered seat
plugs. See Fig. 6D-20D for an explanation of letter coding
on spark plugs.
See Engine Exhaust Emissions Section (6E) for spark
plug application and gap sizes. Always replace plugs with
the correct plug listed on the tune-up label.
Normal or average service is assumed to be a mixture
of idling, slow speed, and high speed operation with some of
each making up the daily total driving. Occasional or
intermittent high-speed driving is essential to good spark
plug performance as it provides increased and sustained
combustion heat that burns away any excess deposits of
carbon or oxide that may have accumulated from frequent
idling or continual stop-and-go or slow-speed driving. Spark
plugs are protected by an insulating nipple made of special
heat-resistant material which covers the spark plug terminal
and extends downward over a portion of the plug insulator.
These nipples prevent flash-over with resultant missing of
engine, even though a film is allowed to accumulate on
exposed portion of plug porcelains.
Do not mistake corona discharge for flash-over or a
shorted insulator. Corona is a steady blue light appearing
around insulator, just above the shell crimp. It is the visible
evidence of high-tension field, and has no effect on ignition
performance. Usually it can be detected only in darkness.
This discharge may repel dust particles, leaving a clear ring
on the insulator just above the shell. This ring is sometimes
mistakenly regarded as evidence that combustion gases have
blown out between shell and insulator.
ENGINE ELECTRICAL
6D-35
IGNITION SWITCH
1
2
3
R T V
1
2
3
4
-
5 -
4
T
5
The m echanical switch is located in the steering
column on the right hand side just below the steering wheel.
The electrical switching portion of the assembly is separate
from the key and lock cylinder. However, both are synchro
nized and work in conjunction with each other through the
action of the actuator rod assembly.
S X~
R--INDICATES RESISTOR-TYPE PLUG.
"4 " INDICATES 14 mm THREADS.
HEAT RANGE
TS-TAPERED SEAT.
S -E X T E N D E D T IP
SPECIAL GAP
6221
Fig. 6D-20D--Spark Plug Coding
For a complete explanation of the key and lock
cylinder, and the actuator rod assembly, see S T E E R I N G ,
Section 3B. See Section 8 for the detailed explanation of the
electrical switching.
DIAGNOSIS
H.E.I. DISTRIBUTOR
Use Figure 6D-21D and 22D for H.E.I. Diagnosis.
SPARK PLUGS
Worn or dirty plugs may give satisfactory operation at
idling speed, but under operating conditions they frequently
fail. Faulty plugs are indicated in a number of ways: poor
fuel economy, power loss, loss of speed, hard starting and
general poor engine performance.
Spark plug failure, in addition to normal wear, may be
due to carbon fouled plugs, excessive gap or broken
insulator.
Fouled plugs may be indicated by checking for black
carbon deposits. The black deposits are usually the result of
slow-speed driving and short runs where sufficient engine
operating temperature is seldom reached. Worn pistons,
rings, faulty ignition, over-rich carburetion and spark plugs
which are too cold will also result in carbon deposits.
Excessive gap wear, on plugs of low mileage, usually
indicates the engine is operating at high speeds or loads that
are consistently greater than normal or that a plug which is
too hot is being used. In addition, electrode wear may be the
result of plug overheating, caused by combustion gases
leaking past the threads, due to insufficient torquing of the
spark plug. Excessively lean carburetion will also result in
excessive electrode wear.
Broken insulators are usually the result of improper
installation or carelessness when regapping the plug. Broken
upper insulators usually result from a poor fitting wrench or
an outside blow. The cracked insulator may not make itself
evident immediately, but will as soon as oil or moisture
penetrates the fracture. The fracture is usually just below
the crimped part of shell and may not be visible.
Broken lower insulators usually result from careless
ness when regapping and generally are visible. In fairly rare
instances, this type of break may result from the plug
operating too " h o t" , encountered in sustained periods of
high-speed operation or under extremely heavy loads. When
regapping a spark plug, to avoid lower insulator breakage,
always make the gap adjustment by bending the ground
(side) electrode. Spark plugs with broken insulators should
always be replaced.
LIGHT TRUCK SERVICE MANUAL
6D-36
ENGINE ELECTRICAL
ENGINE CRANKS, BUT WILL NOT START
NOTE: IF A TACHOMETER IS CONNECTED TO THE TACHOMETER TERM INAL, DISCONNECT IT BEFORE
PROCEEDING WITH THE TEST.
NOTE: VIEWS ARE IN PART 2.
Fig. 6D -21D --H EI Diagnosis
LIGHT TRUCK SERVICE MANUAL
6741
ENGINE ELECTRICAL
6D-37
IN T E R M IT T E N T OPERATION OR MISS
REM O VE GREEN
AN D W H ITE LEADS
FRO M M O DULE
C35
0
CUT A SPARK
PLUG BOOT
AS SHOWN
(TO BAT +)
TEST LIG H T
DISCARD
CONNECT V O LT M E T E R ,
"T A C H " T E R M IN A L
TO G RO UND
7 /1 6 " (11mm)
FROM TIP OF
SPARK PLUG
VIEW B
INSERT BOOT
OVER
PORCELAIN
END OF ST-125
6742
Fig. 6D -22D --H E I Diagnosis
LIGHT TRUCK SERVICE MANUAL
6D-38
ENGINE ELECTRICAL
DETACH
LEADS
FROM
MODULE
OHMMETER OHMMETER
Fig. 6D-24D--Checking Pickup Coil
Fig. 6D-23D~Checking Internal Coil
ON-VEHICLE SERVICE
H.E.I. DISTRIBUTOR
Service Precautions
1. W hen making compression checks, disconnect the
ignition switch feed wire at the distributor. W hen
disconnecting this connector do not use a screwdriver or
tool to release the locking tab as it may break.
2. No periodic lubrication is required. Engine oil lubri
cates the lower bushing and an oil-filled reservoir
provides lubrication for the upper bushing.
3. The tach om eter (T A C H ) term inal is next to the
ignition switch (BAT) connector on the distributor cap.
NOTICE: The tachometer terminal must N E V E R be
allowed to touch ground, as damage to the module and/
or ignition coil can result..
LIGHT TRUCK SERVICE MANUAL
Some service tachometers and electronic diagnostic
equipment currently in use may N O T be compatible
with the High Energy Ignition System. It is recom
mended that you consult your representative of such
equipment as to the necessary updating of your equip
ment for compatibility with the HEI System.
4. There is no dwell adjustment as this is controlled by the
module.
5. The centrifugal advance and vacuum advance are
similar to the conventional ignition.
6. The material used to construct the spark plug cables is
very pliable and soft. This cable will withstand more
heat and carry a higher voltage. Due to the more pliable
cable, scuffing and cutting become easier. It is therefore
extremely important that the spark plug cables be
routed correctly to prevent chaffing or cutting. See
ENGINE ELECTRICAL
6D-39
Fig. 6 D -25 D -D istrib utor Base and Components
Spark Plug Section of On-Vehicle Service. Also when
removing a spark plug wire from a spark plug, twist the
boot on the spark plug and pull on the boot to remove
the wire.
Remove and Replace
Fig. 6D-25D shows a new type connector for the
module and capacitor. There are no changes to either
diagnosis or circuitry.
Distributor
1. Disconnect ignition switch b attery feed wire and
tachometer lead (if equipped) from distributor cap.
Also release the coil connectors from the cap. (DO
N O T use a screwdriver or tool to release the locking
tabs.)
2. Remove distributor cap by turning four latches coun
terclockwise. Move cap out of the way.
If necessary to remove secondary wires from cap,
release wiring harness latches and remove wiring
harness retainer. The spark plug wire numbers are
indicated on the retainer.
3. Remove vacuum hose from vacuum advance unit.
4. Remove distributor clamp screw and hold-down clamp.
5. Note position of rotor, then pull distributor up until
rotor just stops turning counterclockwise and again
note position of rotor.
NOTICE: To insure correct timing of the distributor, the
distributor must be IN S T A L L E D with the rotor
correctly positioned as noted in Step 5.
If the engine was accidentally cranked after the
distributor was removed, the following procedure can be
used for installing:
a. Remove No. 1 spark plug.
b. Place finger over No. 1 spark plug hole and crank
engine slowly until compression is felt.
c. Align timing m ark on pulley to " O " on engine
timing indicator.
d .T u rn rotor to point between No. 1 and No. 8 spark
plug towers on distributor cap.
e. Install distributor and connect ignition feed wire.
f. Install distributor cap and spark plug wires.
g. Check engine timing (see Set Ignition Timing
below).
Vacuum Advance Unit (Refer to Fig. 6D-25D)
REMOVAL
1.
2.
3.
4.
Remove distributor cap and rotor.
Remove module.
Remove two vacuum advance attaching screws.
Turn the pick-up coil clockwise and push the rod end of
the vacuum advance down so that it will disengage and
clear the pick-up coil plate.
INSTALLATION
To install, reverse removal procedure.
LIGHT TRUCK SERVICE MANUAL
6D-40
ENGINE ELECTRICAL
UNIT REPAIR
DISTRIBUTOR DISASSEMBLY
TEST AND REASSEMBLY
(COIL IN CAP)
TESTING IGNITION COIL
"COIL IN C A P ” D ISTRI BUTOR
COIL AND CAP
TER MINA LS
B+
ASSEMBLY
OHMMETER
4 -TE RM IN AL
CONNECTOR
CONNECTOR
(DISCONNECTED
FROM CAP)
OHMMETER
4. Connect ohmmeter, Test 1.
5. Reading should be zero, or nearly zero. If not, replace
coil, Step 8.
6. Connect ohmmeter both ways, Test 2. Use high scale.
Replace coil only if both readings are infinite. Step 8.
7. If coil is good, go to Step 13.
IGNITION COIL ATTACHING SCREWS
COIL A T T A C H I N G ^ ^ ^ _ asBa^ ^
SCREW (4)
IG NITIO N
/
COIL
1. A 6-cyl. EST distributor with coil-in-cap is illustrated.
2. Detach wiring connector from cap, as shown.
3. Turn four latches and remove cap and coil assembly from
lower housing.
GROUND
LEAD
COIL
SECONDARY
C- GRD. B+
T ER MINA LS
8. Remove coil-cover attaching screws and lift off cover.
Fig. 6D-26D--Distributor Unit Repair
LIGHT TRUCK SERVICE MANUAL
ENGINE ELECTRICAL
IGNITION COIL REMOV ED FROM CAP
SEAL
GROUND
6D-41
D RI VI NG PIN FROM S HA F T
IG NITIO N
COIL
CONNECTOR
9.
Remove ignition coil attaching screws and lift coil with
leads from cap.
10. Remove ignition coil arc seal.
11. Clean with soft cloth and inspect cap for defects. Re
place, if needed.
12. Assemble new coil and cover to cap.
18. Mark distributor shaft and gear so they can be reassem
bled in same position.
TESTING PICKUP COIL
19. Drive out roll pin.
OHMMETER
OHMMETER
PICKUP COIL LEADS
DISCONNECTED
FROM MODULE
4-T E R M IN A L
CONNECTOR
S HA F T A S S E M B LY REMOV ED
THREE
ATTA CH IN G
SCREWS
M AGNETIC
IELD
MODULE
PICKUP COIL
ASSEMBLY
T E R M IN A L
13. On all distributors, remove rotor and pickup coil leads
from module.
14. Connect ohmmeter Test 1 and then Test 2.
15. If vacuum unit is used, connect vacuum source to vac
uum unit. Replace unit if inoperative. Observe ohmmeter
throughout vacuum range; flex leads by hand without vacuum
to check for intermittent opens.
16. Test 1 — should read infinite at all times.
Test 2 — should read steady at one value within 500-1500
ohm range.
NOTE: Ohmmeter may deflect if operating vacuum unit
causes teeth to align. This is not a defect.
17. If pickup coil is defective, go to Step 18. If okay, go to
Step 23.
PICKUP COIL
LEADS DIS
CONNECTED
FROM MODULE
20. Remove gear and pull shaft assembly from distributor.
Fig. 6D -27D ~D istributor Unit Repair
LIGHT TRUCK SERVICE MANUAL
6D-42
ENGINE ELECTRICAL
PICKUP COIL
PICKUP COIL
LEADS DIS
CONNECTED
MODULE
23. Remove two module attaching screws, and capacitor at
taching screw. Lift module, capacitor and harness assembly
from base.
24. Disconnect wiring harness from module.
21. Remove three attaching screws and remove magnetic
25. Check module with an approved module tester.
shield.
26. Install module, wiring harness, and capacitor assembly.
Use silicone lubricant on housing under module.
I NSTALL PICKUP COIL,
S H A F T A SS EM BLY A N D CAP
27. Install pickup coil assembly, shaft and gear.
28. Spin shaft and if used, operate the vacuum unit to insure
that teeth do not touch.
PICKUP COIL REMOV ED A N D DISASSEMBLED
To eliminate contact, loosen three pickup screws, then re*
tighten and check for contact.
29. Assemble rotor, cap assembly and attach wiring harness
to cap.
22.
Remove retaining ring and remove pickup coil, magnet
and pole piece.
Fig. 6D-28D--Distributor Unit Repair
LIGHT TRUCK SERVICE MANUAL
ENGINE ELECTRICAL
6D-43
SET IGNITION TIMING
1. Refer to the Vehicle Emissions Control Information
label located on the radiator support panel. Follow all
instructions on the label.
2. With ignition off, connect the pick-up lead of timing
light to the number one spark plug. Use a jumper lead
between the wire and plug or an inductive type pick-up.
DO N O T pierce the wire or attempt to insert a wire
between the boot and the wire. Connect the timing light
power leads according to m anufacturer’s instructions.
3. Start the engine, and aim the timing light at the timing
mark (see Fig. 6D-29D). The line on the balancer or
pulley will line up at the timing mark. If a change is
necessary, loosen the distributor hold-down clamp bolt
at the base of the distributor. While observing the mark
with the timing light, slightly rotate the distributor
until the line indicates the correct timing. Tighten the
hold-down bolt, and re-check the timing.
4. T urn off the engine and remove the timing light.
Reconnect the number one spark plug wire, if removed.
SPARK PLUG WIRES
Use care when removing spark plug wire boots from
spark plugs. Twist the boot 1/2 turn before removing, and
pull on the boot only to remove the wire.
It is extremely important when replacing plug wires to
route the wires correctly and through the proper retainers.
Failure to route the wires properly can lead to radio ignition
noise and crossfiring of the plugs, or shorting of the leads to
ground.
Refer to Figure 6D-30D for proper spark plug wire
routing.
LIGHT TRUCK SERVICE MANUAL
6 D -4 4
E N G IN E ELECTRICAL
C Y L #1
_^CYL #2
Sfer CYL #7
j P ' ^ ' C Y L #5
F I L T E R ASM
r~POWER U N IT
F I L T E R ASM
V IE W -A
POWER U N I T
CYL #1
CYL^#3
CYL #5
LEFT SIDE W ITH CRUISE CONT.
R IG H T SIDE
V IE W -A
V IE W
Fig. 6 D -30 D --S p ark Plug W ire Routing
LIGHT TRUCK SERVICE MANUAL
ENGINE ELECTRICAL
6D-45
IGNITION SWITCH
GENERAL DESCRIPTION
The electrical switching portion of the assembly is
separate from the key and lock cylinder. However, both are
synchronized and work in conjunction with each other
through the action of the actuator rod assembly. For a
complete explanation of the key and lock cylinder, and the
actuator rod assembly, refer to the Steering section of this
manual.
The ignition switch is key operated through the actua
tor rod assembly to close the ignition primary circuit and to
energize the starting motor solenoid for cranking. The
ignition switch used on all cars have five positions: OFF,
LOCK, A C C E S S O R Y , R U N and ST A R T . O F F is the
center position of the key-lock cylinder, and LOCK is the
next position to the left. A C C E S S O R Y is located one more
detent to the left of LOCK. Turning the key to the right of
the O F F position until spring pressure is felt will put the
ignition switch in the R U N position, and when turned fully
to the right against spring pressure, the switch will be in the
S T A R T position.
All ignition switches have five terminals which are
connected in different combinations for each of the three
operating positions. A brass plate, inside the switch, has
three contacts which connect these terminals. Figure 6D31D shows the positions of the contacts in all positions as
viewed from the key side of the switch. There is also a
ground pin in the switch which contacts the "ground"
terminal when the ignition switch is in the S T A R T position.
This pin contacts the IG N. terminal when in the O F F
position.
terminal is connected to the ACC. terminal. This permits
operation of accessories when the engine is not running.
When the ignition switch is turned to the S T A R T
position, the BAT. terminal is connected to the SOL. and
IGN. terminals. When the clutch or automatic transmission
neutral start switches are closed, current flows to the starter
solenoid. This energizes the solenoid windings. The solenoid
has two sets of windings: a "pull-in" winding and a "holdin" winding. Both windings are used to create the magnetic
field to actuate the the solenoid plunger and move the starter
pinion into engagement with the flywheel. As the solenoid
plunger reaches the end of its travel, it closes a switch which
connects battery voltage to the starter motor. With battery
voltage applied to both terminals of the "pull-in" windings,
the "pull-in" winding is no longer energized, so that only
the "hold-in" winding keeps the starter solenoid engaged.
The instrument panel warning lights are fed from the
ignition terminal of the ignition switch and have battery
voltage applied to them when the ignition switch is in the
S T A R T and R U N position. These circuits are explained in
the Chassis Electrical Section.
When the ignition switch is released from the S T A R T
to the RU N position, the IGN. terminal is still connected to
the BAT. terminal With the ignition switch in the RU N
position, the BAT. term inal is connected to the IG N .
terminal and the ACC. terminal. This permits operation of
all accessories and the ignition system.
Ignition S tart a n d Run Circuit
The ignition switch is fed from the battery to the BAT.
terminal of the switch. When the ignition switch is in the
O F F position, no current flows through the switch. When
the ignition switch is turned to the ACC. position, the BAT.
ENGINE WIRING HARNESSES
Engine Wiring Harnesses are shown in Figures 6D32D through 6D-37D.
LIGHT TRUCK SERVICE MANUAL
6D-46
ENGINE ELECTRICAL
12 R
12P P L / W
r\
I
SOL
1
5
L
BAT 2
1 BAT 1
C
2
»
I
12 ORN
■
IGN 1
---------
12 P
24 B R N / W
1
J
12 B R N
_GRD-1
20 D G
|0 » D -2 l.g ^ 3 |
IG N ITIO N
SWITCH
(VIEW FROM TERMINAL
POSITIONS—
SIDE OF SWITCH)
OFF
POSITION
ACC
IGN-3
IGN-3
□
BAT-3
so l
L
D
.
BAT-1 J
fORD-2\
LOCK
POSITION
ACC
IGN-3
SOL Q
BAT-2
UIGNU
RUN
POSITION
Fig. 6D-31 D--lgnition Switch Circuit
LIGHT TRUCK SERVICE MANUAL
I/P HARN
A .I.R . ELBOW
Fig. 6D -32D --Engine
Wiring
CK-LE9, LF3, LG9, LS9
H .E .I DISTRIBUTOR
Engine
GRD
ENGINE WIRE ASM TO
H .E .I.
ENGINE
DISTR WIRE ASM
E.S.C. CONNECTOR
ENGINE HARNESS
ELECTRICAL
6 D -4 7
6D-48
ENGINE ELECTRICAL
Fig. 6 D -3 3 D --E n g in e W irin g C K -2 0 , 3 0 - LE8
LIGHT TRUCK SERVICE MANUAL
CHEVROLET LIGHT TRUCK
Fig. 6D -34D --Engine
Wiring
C K -20, 30
- LT9, LF5
ENGINE
©
SO M E O C C ASIO N AL TRACE-TO-LIGHT DETO NATIO N IS AC C EPTAB LE.
6 D -4 9
TH IS DIAG NO SIS SHOULD BE INSERTED W ITH OR IM M E D IA TE LY AFTER ITEM a. (FAULTY IGNITION SYSTEM )
OF THE “ ENGINE DETO NATIO N” SECTION ON PAGE 6A-7 OF THE 1980 LIGHT D U TY T R U C K SERVICE MANUAL
ELECTRICAL
©
6D-50
ENGINE
CHEVROLET LIGHT TRUCK
ESC SYSTEM DIAGNOSIS
ELECTRICAL
Fig. 6D-35D --Engine
Wiring
G Series
LE3
© T H IS DIAG NO SIS SHO ULD BE INSERTED IM M EDIATELY AFTER ITEM b. (IGNITION TIM IN G ) OF THE “ ENGINE
HAS LO W PO W ER ” SECTION ON PAGE 6A-3 OF THE 1980 LIG HT DUTY TRUCK SERVICE M ANUAL.
CHEVROLET LIGHT TRUCK
ESC SYSTEM DIAGNOSIS
Fig. 6D-36D--Engine Wiring
CK Series - LE3, L25
ENGINE
ELECTRICAL
© T H IS DIAG NO SIS SHO ULD BE INSERTED WITH OR IM M E D IA TE LY AFTER ITEM g. (IGNITION P R O B LE M S ) OF
THE “ ENG INE FAILS TO START” SECTION ON PAGE 6A-2 OF THE 1980 LIG HT D U TY T R U C K SERVICE M ANU AL.
6D -51
6D-52
ENGINE ELECTRICAL
K
J
H
G
F
E
ESC
CO NTROLLER
D
C
B
- A
GRND
DELAY
LO
HI
BAT.
BROWN
BLACK
WHITE
GREEN
PINK/BLK
SENSOR
SHIELD
PINK
> C
> B
>
BROWN
>
BLACK
> A >
D >
GREEN
>
WHITE
BROWN
BLACK
WHITE
GREEN
Fig. 6D-37D--Engine W iring CK Series - LE9
LIGHT TRUCK SERVICE MANUAL
ENGINE ELECTRICAL
6D-53
CRANKING SYSTEM
General Description.............................................................6D-53
Cranking C i r c u i t...............................................................6D-53
Starter M o t o r ................................................................... .6D-53
Diagnosis............................................................................... .6D-56
On-Vehicle Service............................................................ .6D-60
Remove and Replace........................................................6D-60
S ta r te r ................................ .............................................. .6D-60
Solen oid............................................................................ 6D-60
O v e rh a u l............................................................................... 6D-61
Disassembly....................................................................... 6D-61
Component Inspection..................................................... 6D-62
Reassembly.......... ................................................... .......... 6D-64
Specifications....................................................................... 6D-67
GENERAL DESCRIPTION
CRANKING CIRCUIT
The cranking circuit consists of the battery, staring
motor, ignition switch, and related electrical wiring. These
components are connected electrically as shown in Figure
6D-1E. Only the starting motor will be covered in this
portion.
STARTING MOTOR
Two types of starter motors are used. The first, referred
to as the 10MT series, is shown in Fig. 6D-2E. The second
type, referred to as the 20MT series used on diesel equipped
engines, is shown in Fig. 6D-3E. The main difference is that
the 2 0 M T has a center bearing. Fig. 6D -4E shows an
exploded view of the 20M T series. Differences in service
procedures will be pointed out as they occur.
Enclosed shift lever cranking motors have the shift
lever mechanism and the solenoid plunger enclosed in the
drive housing protecting them from exposure to dirt, icing
conditions and splash.
In the basic circuit shown in Figure 6D-1E, the solenoid
windings are energized when the switch is closed. The
resulting plunger and shift lever movement causes the pinion
to engage the engine flywheel ring gear and the solenoid
main contacts to close, and cranking takes place. When the
engine starts, pinion overrun protects the arm ature from
excessive speed until the switch is opened, at which time the
return spring causes the pinion to disengage. To prevent
excessive overrun, the switch should be opened immediately
when the engine starts.
LIGHT TRUCK SERVICE MANUAL
6D-54
ENGINE ELECTRICAL
Fig. 6D-1 E--Cranking Circuit - A ll
SOLENOID
SWITCH
TERMINAL
PLUNGER
RETURN
SPRING
SHIFT
LEVER
BUSHING
PINION
STOP
INSULATED
BRUSH
HOLDER
BRUSH
RISER BARS
TO RISER BARS
TO ARMATURE
Fig. 6D-2E--Cross Section of 10M T Starting M o to r
LIGHT TRUCK SERVICE MANUAL
OVERRUNNING
CLUTCH
ENGINE ELECTRICAL
SOLENOID
SWITCH
TERMINAL
PLUNGER
6D-55
RETURN
SPRING
SHIFT
LEVER
BUSHING
PINION
STOP
INSULATED
BRUSH
HOLDER
BRUSH
RISER BARS
CONDUCTORS
TO RISER BARS
TO ARMATURE
OVERRUNNING
CLUTCH
Fig. 6D-3E~Cross Section of 20MT Starting M otor
LIGHT TRUCK SERVICE WANII4I
6D-56
ENGINE ELECTRICAL
PLUNGER
D R IV E GEAR
HOUSING
RETURN
SPRING
SO LENOID
COM M UTATO R
END FRAME
T U P I I QT
WASHER
RETA IN ER
SNAP
RING
FIBER
WASHER
F IE LD FRAME
WASHER
CLUTCH AND
D R IV E ASM.
CENTER
BEARING
AR M A TU R E
Fig. 6D-4E~Exploded View of 20MT Starting M otor
DIAGNOSIS
Before removing any unit in a cranking circuit for
repair, the following checks should be mad?:
Battery:
To determine the condition of the battery, follow the
testing procedure outlined in the Battery Section.
W iring:
Inspect the wiring for damage. Inspect all connections
to the cranking motor, solenoid, ignition switch, and battery,
including all ground connections. Clean and tighten all
connections as required.
Solenoid a n d Ignition Switch:
Inspect all switches to determine their condition.
Starter M otor Noise:
To correct starter motor noise during starting, use the
following procedure:
1. Refer to Fig. 6D-5E to determine the problem.
2. If the complaint is smiliar to problem categories 1 or 2
above, correction can be achieved by proper "shim
ming" as follows:
a. Remove lower flywheel housing cover and examine
for visual proelbmes - bent flywheel, unusual wear,
etc.
b. Start engine and carefully touch outside diameter of
rotating flywheel ring gear with chalk or crayon to
show high point of tooth runout after engine is turned
off. Turn engine off and rotate flywheel so that the
marked teeth are in the area of the starter pinion
gear.
c. Disconnect negative battery cable to prevent inad
vertent cranking of engine.
Insert screwdriver in small hole in bottom of starter
shown by arrow in Fig. 6D-6E and move starter
pinion and clutch assembly so that pinion teeth and
flywheel teeth are meshed. If necessary, rotate the
flywheel so that a pinion tooth is directly in the center
of two flywheel teeth and on the centerline of the two
gears, as shown in Fig. 6D-7E.
ENGINE ELECTRICAL
PROBLEM
6D-57
CAUSE
1.
HIGH PITCHED WHINE DURING CRANKING (BEFORE
ENGINE FIRES) BUT ENGINE CRANKS AND FIRES
OKAY.
DISTANCE TOO GREAT BETWEEN STARTER PINION AND
FLYWHEEL.
2.
HIGH PITCHED "W HINE" AFTER ENGINE FIRES, AS
KEY IS BEING RELEASED. ENGINE CRANKS AND
FIRES OKAY. THIS INTERMITTENT COMPLAINT IS
OFTEN DIAGNOSED AS "STARTER HANG-IN" OR
"SOLENOID WEAK."
DISTANCE TOO SMALL BETWEEN STARTER PINION AND
FLYWHEEL. FLYWHEEL RUNOUT CONTRIBUTES TO THE
INTERMITTENT NATURE.
3.
A LOUD "WHOOP" AFTER THE ENGINE FIRES BUT
WHILE THE STARTER IS STILL HELD ENGAGED.
SOUNDS LIKE A SIREN IF THE ENGINE IS REVVED
WHILE STARTER IS ENGAGED.
MOST PROBABLE CAUSE IS A DEFECTIVE CLUTCH. A NEW
CLUTCH WILL OFTEN CORRECT THIS PROBLEM.
4.
A "RUM BLE", "GROW L" OR (IN SEVERE CASES) A
"KNO C K" AS THE STARTER IS COASTING DOWN TO
A STOP AFTER STARTING THE ENGINE.
MOST PROBABLE CAUSE IS A BENT OR UNBALANCED
STARTER ARMATURE. A NEW ARMATURE WILL OFTEN
CORRECT THIS PROBLEM.
r/lon
5488
Fig. 6 D-5E--Starter M o to r Noise Diagnosis
Fig. 6D -6E -M eshin g Starter and Flywheel Teeth
d. Check pinion to flywheel clearance, as shown in Fig.
6D-50, by using a wire gage of .20" m inim um
thickness (or diameter). If the clearance is under this
minimum, shimm ing the sta rte r away from the
flywheel is required. Shim (P art # 9 7 8 5 6 0 8 or
equivalent, .015" thick), installed as shown in Fig.
6D-8E, will increase the clearance by approximately
.005 ". More than one shim may be required.
It is very important to center the pinion tooth
between the flywheel teeth and gage, as shown in Fig.
6D-50, and not in the corners, where a misleading
larger dimension may be observed.
NOTICE:
e. If the clearance is grossly over .020" (in the vacinity
of .060" or more), shimming the starter towards the
flywheel is required. (This is generally the problem
causing broken flywheel teeth or starter housings.)
Shimming the starter towards the flywheel can be
accomplished by shimming only the outboard starter
mounting pad. A shim of .015" thickness, P art
# 1 2 4 6 2 4 9 or equivalent, at this location will de
crease the clearance by approximately .010".
Substitu te shims can be improvised from plain
washers or other suitable material.
3. Problem categories 3 and 4 above may require starter
motor replacement or repair in some cases.
LIGHT TRUCK SERVICE MANUAL
6D-58
ENGINE ELECTRICAL
V8 ENGINE
SHIELD
BRACE
LF9 ENGINE
STARTER MOTOR
Fig. 6D-8E--Starter M o to r Mounting
LIGHT TRUCK SERVICE MANUAL
ENGINE ELECTRICAL
Motor:
If the battery, wiring and switches are in satisfactory
condition, and the engine is known to be functioning
properly, remove the motor and follow the test procedures
outlined below.
Regardless of the construction, never operate the
cranking motor more than 30 seconds at a time without
pausing to allow it to cool for at least two minutes.
Overheating, caused by excessive cranking, will seriously
damage the cranking motor.
A general diagnosis is covered in Figure 6D-2A and
6D-3A. Once a problem has been traced to the starter,
proceed to the test procedure below.
Test Procedure
With the cranking motor removed from the engine, the
pinion should be checked for freedom of operation by
turning it on the screw shaft. The arm ature should be
checked for freedom of rotation by prying the pinion with a
screwdriver. Tight bearings, a bent arm ature shaft, or a
loose pole shoe screw will cause the arm ature to not turn
freely. If the armature does not turn freely the motor should
be disassembled immediately. However, if the armature
does rotate freely, the motor should be given a no-load test
before disassembly.
No-Load Test (Fig. 6D-9E)
Connect a voltmeter from the motor terminal to the
motor frame, and use an R P M indicator to m easure
arm ature speed. Connect the motor and an ammeter in
series with a fully charged battery of the specified voltage,
and a switch in the open position from the solenoid battery
terminal to the solenoid switch terminal. Close the switch
and compare the RPM, current, and voltage readings with
the specifications at the end of this section. It is not
necessary to obtain the exact voltage specified in the figure,
as an accurate interpretation can be made by recognizing
th a t if the voltage is slightly higher the R P M will be
proportionately higher, with the current remaining essen
tially unchanged. However, if the exact voltage is desired, a
6D-59
carbon pile connected across the battery can be used to
reduce the voltage to the specified value. If the specified
current draw does not include the solenoid, deduct from the
ammeter reading the specified current draw of the solenoid
hold-in winding. Make disconnections only with the switch
open. Interpret the test results as follows:
1. Rated current draw and no-load speed indicates normal
condition of the cranking motor.
2. Low free speed and high current draw indicates:
a. Too much friction - tight, dirty, or worn bearings,
bent arm ature shaft or loose pole shoes allowing
arm ature to drag.
b. Shorted armature. This can be further checked on a
growler after disassembly.
c. Grounded arm ature or fields. Check further after
disassembly.
3. Failure to operate with high current draw indicates:
a. A direct ground in the terminal or fields.
b. "Frozen" bearings (this should have been deter
mined by turning the arm ature by hand).
4. Failure to operate with no current draw indicates.
a. Open field circuit. This can be checked after disas
sembly by inspecting internal connections and trac
ing circuit with a test lamp.
b. Open arm ature coils. Inspect the commutator for
badly burned bars after disassembly.
c. Broken brush springs, worn brushes, high isulation
between the commutator bars or other causes which
would prevent good contact between the brushes and
commutator.
5. Low no-load speed and low current draw indicates:
a. High internal resistance due to poor connections,
defective leads, dirty commutator and causes listed
under N um ber 4.
6. High free speed and high current draw usually indicate
shorted fields. If shorted fields are suspected, replace
the field coil assembly and check for improved perform
ance. In some instances, the arm ature could also be
shorted. Check on a growler.
LIGHT TRUCK SERVICE MANUAL
6D-60
ENGINE ELECTRICAL
S" TERMINAL
SOLENOID
GROUND
1 2-VOLT
BATTERY
Fig. 6D-9E--No Load Test Hook Up
ON-VEHICLE SERVICE
Starting motors do not require lubrication except
during overhaul.
W hen the motor is disassembled for any reason,
lubricate as follows:
1. The arm ature shaft and drive end and commutator end
bushings should be coated with no. 1960954 lubricant
or equivalent.
2. The roll type overrunning clutch requires no lubrica
tion. However, the drive assembly should be wiped
clean. Do not clean in any degreasing tank or with
grease dissolving solvents; this will dissolve the lubri
cant in the clutch mechanism. Use silicon grease
General Electric CG321, Dow Corning 33 Medium or
equivalent, on the shaft underneath the overrunning
clutch assembly.
REMOVE AND REPLACE
Starter (Fig. 6D-8E)
Use the following procedure to remove the starter:
LIGHT TRUCK SERVICE MANUAL
1. Disconnect negative battery lead at battery.
2. Raise vehicle.
3. Remove starter braces, shields, etc., that may be in the
way.
4. Remove two starter motor to engine bolts, and allow
starter to drop down.
5. Remove solenoid wires and battery cable and remove
starter.
6. To replace, reverse the above procedure. Insure that
any shims removed are replaced.
Solenoid
Use the following procedure to remove the solenoid
from the starter:
1. Disconnect field strap.
2. Remove solenoid to drive housing attaching screws,
motor terminal bolt, and remove solenoid by twisting.
3. Replace by reversing above procedures.
ENGINE ELECTRICAL
6D-61
UNIT REPAIR
5MT, 10MT, 25MT AND 27MT STARTER MOTORS
DISASSEMBLY, TEST AND REASSEMBLY
(STARTER REMOVED FROM ENGINE)
NO- LOA D TEST
With the starter motor removed from the engine, the pinion
should be checked for freedom of operation by turning it on the
screw shaft. The armature should be checked for freedom of
rotation by prying the pinion with a screwdriver. If the armature
does not turn freely, the motor should be disassembled im
mediately. However, if the armature does rotate freely, the
motor should be given a no-load test before disassembly.
Make connections as shown. Close the switch and compare
the RPM, current, and voltage readings with the specifications
. If the specified current draw does not include
the solenoid, deduct from the ammeter reading the specified
current draw of the solenoid hold-in winding. Make disconnec
tions only with the switch open. Use the test results as follows:
1. Rated current draw and no-load speed indicates normal
condition of the starter motor.
2. Low free speed and high current draw indicates:
• Too much friction — tight, dirty, or worn bearings, bent
armature shaft allowing armature to drag.
• Shorted armature. This can be further checked on a
growler after disassembly.
• Grounded armature or fields. Check further after disas
sembly.
3. Failure to operate with high current draw indicates:
• A direct ground in the terminal or fields.
• “ Frozen” bearings (this should have been determined by
turning the armature by hand).
4. Failure to operate with no current draw indicates:
• Open field circuit. This can be checked after disassembly
by inspecting internal connections and tracing circuit with a
test lamp.
• Open armature coils. Inspect the commutator for badly
burned bars after disassembly.
• Broken brush springs, worn brushes, high insulation be
tween the commutator bars or other causes which would pre
vent good contact between the brushes and commutator.
5. Low no-load speed and low current draw indicates:
• High internal resistance due to poor connections, defec
tive leads, dirty commutator and causes listed under Number
4.
6. High free speed and high current draw usually indicate
shorted fields. If shorted fields are suspected, replace the field
coil assembly. Also check for shorted arm ature, using a
growler.
Fig. 6D-9E--Starter Unit Repair 1 of 6
LIGHT TRUCK SERVICE MANUAL
6D-62
ENGINE ELECTRICAL
S TA R T E R DI SASSEMBLY
DRIVE GEAR
RETURN
PLUNGER
HOUSING
SOLENOID
SPRING
END FRAME
INSULATOR
COMMUTATOR
END FRAME
THRUST
WASHER
RETAINER
FIBER
WASHER
FIELD FRAME
SNAP RING
WASHER
CENTER
CLUTCH AND
D RIVE ASM.
ARMA TUR E
BEARING
7. Remove screw from field coil connector and solenoid
mounting screws. Rotate solenoid 90? and remove along with
plunger return spring. Solenoid may now be serviced without
further starter disassembly at this time.
8. Remove 2 through b o lt, then remove commutator end
frame (diesel only, remove insulator) and washer.
9. Remove field frame assembly from drive gear housing
(On diesel starter, armature remains in drive end frame.)
SHIFT LEVER A N D PLUNGER REMOVAL
REMOVE DR I VE A SSE MB LY FROM S H A F T
SHIFT LEVER
PIVOT BOLT
ROLL
PIN
PLUNGER
^ m hm ^
FIBER
^ A R MATURE
S H A FT
^W ASHER
^
THRUST
WASHER
RETAINER
RETURN
SPRING
r
SHIFT
CENTER/
BEARING
LEVER
D RIVE GEAR
HOUSING
Steps 10 and 11 are required only on diesel starters.
10. Remove shift lever pivot bolt.
11. Remove center bearing screws (25 MT only) and remove
drive gear housing from armature shaft. Shift lever and plunger
assembly will now fall away from starter clutch.
CLUTCH AND D R IV E
ASSEMBLY
snap
RING
12. If necessary to remove overrunning clutch from armature
shaft, proceed as follows:
a. Remove thrust washer or collar from armature shaft.
b. Slide a 5/8" deep socket or piece of pipe of suitable size
over shaft against retainer as a driving tool. Tap tool to move
retainer off snap ring.
c. Remove snap ring from groove in shaft. If snap ring is
distorted, it will be necessary to use a new one on reassem
bly.
d. Remove retainer, clutch assembly (also fiber washer
and center bearing on diesel) from armature shaft.
13. The shift lever and plunger may be disassembled at this
time by removing the roll pin.
Fig. 6D-1 O E-Starter Unit Repair 2 of 6
ENGINE ELECTRICAL
6D-63
REPLACE BR US H HOLDER
(SMALL 5MT S T A R TE R )
( S T A N D A R D S T AR TE R )
PIVOT P I N - ^ O
INTEGRAL
BRUSH
BRUSH HOLDER
FIELD FRAME
(INSULATED)
ASSEMBLY
BRUSH
SUPPORT
V
BRUSH H O L D E R V V
(G R O U N D E D )W
\
J BRUSH HOLDER
SPRING
14.
lows:
ROUTE WIRE
BRUSH HOLDER
AS SHOWN
SUPPORT
If necessary to replace brush holder parts, proceed as fol
a. Remove brush holder pivot pin which positions one
insulated and one grounded brush.
b. Remove brush spring.
c. Replace brushes as necessary.
a. Remove brush holder from brush support.
b. Remove screw from brush holder and separate brush
and holder.
c. Inspect brush holder for wear or damage.
d. Replace brushes and/or holders as necessary.
CLEANING INSPECTION
AND TESTS
TESTING S H U N T COIL FOR OPEN
TO TEST
LIG HT
GROUNDED
BRUSH
15. Clean all starting m otor p arts, but DO NOT USE
GREASE DISSOLVING SOLVENTS FOR CLEANING THE
OVERRUNNING CLUTCH, ARMATURE, AND FIELD
COILS, solvent would dissolve the grease packed in the clutch
and would damage armature and field coil insulation.
16. Inspect armature commutator, shaft and bushings, over
running clutch pinion, brushes and springs for discoloration,
damage or wear. Replace as required.
17. Check fit of armature shaft in bushing in drive housing.
Shaft should fit snugly in the bushing. If the bushing is worn, it
should be replaced.
18. Inspect armature commutator. If commutator is rough, it
should be turned down. Do not undercut or turn to less than
1.65(T O.D. Do not turn out-of-round commutators. Inspect the
points where the armature conductors join the commutator bars
to make sure they have a good connection. A burned com
mutator bar is usually evidence of a poor connection.
19. If test equipment is available:
a. Check the armature for short circuits by placing on
growler and holding hack saw blade over armature core
while armature is rotated. If saw blade vibrates, armature is
shorted. Recheck after cleaning between the commutator
bars. If saw blade still vibrates, replace the armature.
b. Using a test lamp, place one lead on the shunt coil ter
minal and connect the other lead to a ground brush. This test
should be made from both ground brushes to insure con
tinuity through both brushes and leads. If the lamp fails to
light, the field coil is open and will require replacement.
Fig. 6 D -1 1 E -S ta rte r Unit Repair 3 of 6
LIGHT TRUCK SERVICE MANUAL
6D-64
ENGINE ELECTRICAL
TESTING SE R I ES COIL FOR OPEN
TESTI NG S OL E N OI D WINDINGS
SERIES COIL
CONNECTION
IN SULATED
BRUSH
c.
Using a test lamp, place one lead on the series coil ter
minal and the other lead on the insulated brush. If the lamp
fails to light, the series coil is open and will require repair or
replacement. This test should be made from each insulated
brush to check brush and lead continuity.
TESTING SE RI ES COIL FOR G R O U N D
THESE TWO T ER M IN A L S
MUST BE SEPARATED
AND NOT TOUCHIN G A
GROUND D URIN G TEST
INSULATED
BRUSH
GROUNDED
BRUSH HOLDER
e.
Check the current draw of the solenoid winding as fol
lows:
If solenoid is not removed from starting motor, the connec
tor strap terminals must be removed from the terminal on the
solenoid before making these tests. Complete tests in a
minimum of time to prevent overheating of the solenoid.
To check hold-in winding, connect an ammeter in series
with 12-volt battery and the “ switch” terminal on the solenoid.
Connect a voltmeter to the “ switch” terminal and to ground.
Connect carbon pile across battery. Adjust the voltage to 10
volts and note the ammeter reading. It should be 14.5 to 16.5
amperes for all starting motors.
To check both windings, connect as for previous test
Ground the solenoid motor terminal. Adjust the voltage to 10
volts and note the ammeter reading. It should be 41 to 47 am
peres for all starting motors.
NOTE: Current will decrease as windings heat up.
Current draw readings that are over specifications indicate
shorted turns or a ground in the windings of the solenoid and the
solenoid should be replaced. Current draw readings that are
under specifications indicate excessive resistance. No reading
indicates an open circuit. Check connections then replace sole
noid if necessary.
d.
On starters with shunt coil, separtate series and shunt
coil strap terminals during this test. Do not let strap terminals
touch case or other ground. Using a test lamp place one lead
on the grounded brush holder and the other lead on either
insulated brush. If the lamp lights, a grounded series coil is
indicated and must be repaired or replaced.
Fig. 6D -12E --Starter Unit Repair 4 of 6
LIGHT TRUCK SERVICE MANUAL
E N G IN E ELECTRICAL
6 D -6 5
STARTER ASSEMBLY
I NSTALLING R E T A I N E R , WASHER A N D RING
20. Assemble the armature and clutch as follows:
a. Lubricate drive end of armature shaft with lubricant
1960954 or equivalent.
b. Install center bearing (diesel starters) with bearing to
ward the armature winding. Then install the fiber washer on
the armature shaft.
c. Slide clutch assembly onto armature shaft with pinion
away from armature.
d. Slide retainer onto shaft with cupped side facing the end
of shaft.
e. Install snap ring into groove on armature shaft.
f. Install thrust washer on shaft.
g. Position retainer and thrust washer with snap ring in be
tween. Using two pliers, grip retainer and thrust washer or
collar and squeeze until snap ring is forced into retainer and is
held securely in groove in armature shaft.
21. Lubricate drive gear housing bushing with lubricant
1960954 or equivalent.
22. Engage shift lever yoke with clutch and slide complete
assembly into drive gear housing.
On non-diesel starters the shift lever may be installed in
drive gear housing first.
23. Install the center bearing screws (25 MT diesel only) and
the shift lever pivot bolt. Tighten securely.
24. Install solenoid assembly.
25. Apply sealer, No. 1050026 or equivalent to solenoid
flange where field frame contacts it.
26. Position field frame against drive gear housing on align
ment pin using care to prevent damage to brushes.
27. Lubricate commutator end-frame bushing with lubricant
1960954 or equivalent.
28. Install washer on armature shaft and slide end frame onto
shaft, then install and tighten through-bolts. On diesel starter,
install insulator and then end frame onto shaft. Then install
through bolts, making sure they pass through bolt holes in in
sulator.
29. Connect the field coil connector to the solenoid terminal.
30. Check pinion clearance as outlined under PINION
CLEARANCE.
Fig. 6 D -1 3 E -S ta rte r Unit Repair 5 of 6
LIGHT TRUCK SERVICE MANUAL
6D-66
ENGINE ELECTRICAL
CHECKING PINION C LE A R AN CE
PRESS ON C L U T C H TO
R E M O V E S LA C K
\v
P IN IO N
,
R E T A IN E R
010
FEELER^
to .1 4 0 '
P IN IO N
CLEARAN CE
J
When the starter motor has been disassembled or the sole
noid has been replaced, it is necessary to check the pinion
clearance. Pinion clearance must be correct to prevent the but
tons on the shift lever yoke from rubbing on the clutch collar
during cranking.
31. Disconnect the motor field coil connector from the sole
noid motor terminal and insulate it carefully.
32. Connect one 12 volt battery lead to the solenoid switch
terminal and the other to the starter frame.
33. Flash a jumper lead momentarily from the solenoid motor
terminal to the starter frame. This will shift the pinion into
cranking position and it will remain so until the battery is dis
connected.
34. Push the pinion back as far as possible to take up any
movement, and check the clearance with a feeler gage. The
clearance should be .010" to .140".
Means for adjusting pinion clearance is not provided on the
starter motor. If the clearance does not fall within limits, check
for improper installation and replace all worn parts.
G AG E
Fig. 6d-14E--S tarter Unit Repair 6 of 6
LIGHT TRUCK SERVICE MANUAL
ENGINE ELECTRICAL
6D-67
SPECIFICATIONS
GENERATOR
MODEL N O .
APPLICATION
1102394
All 1-6 (Base)
1102491
(Except G -2 0 , 30 &
1102889
FIELD CURRENT
COLD OUTPUT*
AMPS 27°C (80°F)
AMPS @
@ 12 VOLTS
5000 RMP
4519
4 -4 .5
33
37
4521
4 -4 .5
38
42
4522
4 -4 .5
57
61
4525
4 -4 .5
76
80
DELCO REMY
SPEC. N O .
RATED HOT
O U T P U T ** AMPS
P-Truck)
All C-K -G Truck Base V-8
(Except K31303 &
G 30003)
1102485
292 L-6 (L25) (Base)
1102841
(G -20, 30 & P-Truck)
1102887
All P-Truck Base V-8
(Except P31832)
1102480
P31832 Truck (Base)
1102486
1102886
All L-6 or V -8 with RPO K76
1102888
454 V-8 (FL8) (Base)
K31303 & G 30003
Truck Base V-8
1101016
O ptio nal (COPO)
1101028
^G enerator tem perature approxim ately 27°C. (80°F.).
**A m b ien t tem perature 27°C. (80°F.).
Note: The only difference between generators within each group above is the position end fram e is rotated.
LIGHT TRUCK SERVICE MANUAL
6D-68
ENGINE ELECTRICAL
SPECIFICATIONS
DISTRIBUTOR & SPARK PLUGS
Distributor and spark plug specifications are shown in the Emission Control Chart in Section 6E Specifications.
BATTERY
MODEL N O .
85-4
85-5
COLD CRANK RATE
AMPS FOR
25 AMP. RESERVE
@ 0°F (-18°C)
LOAD TEST
CAPACITY (MINUTES)
250 L-6 (LD4)
275 Amps
130
60
292 L-6 (L25)
350 Amps
170
80
465 Amps
230
125
43 0 Amps
210
100
APPLICATION
305 V-8 (LG9)
350 V -8 (LS9)
400 V-8 (LF4)
89-5
454 V-8 (LF8)
RPO UA1
87-5
RPO TP2
STARTING MOTOR
MODEL N O .
1108778
APPLICATION
250 L-6 (LD4)
SPEC. N O .
FREE SPEED
VOLTS
AMPERES
RPM
3573
9
5 0 -8 0 *
5 5 00 -105 00
(C & K-10)
1108779
250 L-6 (LD4) (G -Van)
3573
9
5 0 -8 0 *
5 5 0 0 -105 00
1108780
292 L-6 (L25)
2438
9
5 0 -8 0 *
3 5 00 -600 0
1109056
305 V-8 (LG9) (C & K)
3573
9
5 0 -8 0 *
55 00 -105 00
1109798
305 V-8 (LG9) (G -Van)
3573
9
5 0 -8 0 *
5 5 0 0 -105 00
1109052
350 V-8 (LS9)
3563
9
6 5 -9 5 *
7500-10500
1108776
400 V -8 (LF4)
3563
9
6 5 -9 5 *
7500-10500
454 V -8 (LF8)
^Includes Solenoid
L ig h t TRUCK SERVICE MANUAL
Insert Chart 6D-S 2
ENGINE EMISSION CONTROLS
6E-1
SECTION 6E
ENGINE EMISSION CONTROLS
CONTENTS
General Description...........................................................
Positive Crankcase V entilation-(PC V ).......................
Exhaust Gas Recirculation-(EGR)..............................
Early Fuel Evaporation(EFE).......................................
Air Management S y s te m ...............................................
Thermostatic Air Cleaner-TA C ........................... ..........
Throttle Return C o n tro l-(T R C )..................................
Carburetor C alibration...................................................
Distributor Calibration...................................................
Catalytic C o n v e rte r .........................................................
Diagnosis...............................................................................
PCV Sy stem .......................................................................
EGR S y s te m ......................................................................
6E-1
6E-1
6E-1
6E-1
6E-2
6E-2
6E-3
6E-3
6E-4
6E-4
6E-4
6E-4
6E-5
GENERAL DESCRIPTION
POSITIVE CRANKCASE VENTILATION (PCV)
SYSTEM
All engines have closed Positive Crankcase Ventilation
System to provide more complete scavenging of crankcase
vapors (Fig. 6E-1).
Ventilation air is drawn from the dirty air side of the air
cleaner, through a hose, down into the crankcase, up
through the ventilator valve, through a hose and into the
intake manifold. Intake manifold vacuum draws any fumes
from the crankcase to be burned in the engine.
Diagnosis and service procedures for the PCV system
can be found in this section.
Belt Driver Air P u m p ...................................................... 6E-6
Emission F ailu re............................................................... 6E-8
Pulse Air Injection........................................................... 6E-9
On-Vehicle Service....;........................................................ 6E-9
Positive Crankcase Ventilation...................................... 6E-9
Exhaust Gas Recirculation............................................ 6E-9
Early Fuel Evapo ratio n................................................ 6E-13
Air Injection R eaction.................................................. 6E-15
Pulse Air Injection......................................................... 6E-20
Thermostatic Air C le a n e r ........................................... 6E-20
Throttle Return C o n tro l............................................... 6E-24
Detonation Sensor.......................................................... 6E-27
Vehicle Emission Control Information Label............ 6E-28
evaporation and more uniform fuel distribution to aid cold
driveability. It also reduces the length of time carburetor
choking is required making reductions in exhaust emission
levels possible.
EFE systems may use a valve which increases the
exhaust gas flow under the intake manifold during cold
engine operation. The valve is vacuum operated and is
controlled by a thermal vacuum switch (TVS) which applies
vacuum when the coolant temperature is below the calibra
tion value.
Diagnosis and service procedures of the EFE system
can be found in this section.
EXHAUST GAS RECIRCULATION (EGR) SYSTEM
The Exhaust Gas Recirculation (Fig. 6E-2) is used on
all engines except those equipped with H.D. Emissions. It
meters exhaust gas into induction system for recirculation
through the combustion cycle to reduce oxides of nitrogen
emissions.
The EGR valve remains closed during periods of engine
idle and deceleration to prevent rough idle from excessive
exhaust gas dilution in the: idle air/fuel mixtures. It also
remains closed at wide open throttle to prevent power loss.
Diagnosis and service procedures for the EGR system
can be found in this section.
EARLY FUEL EVAPORATION (EFE) SYSTEM
The EFE system is used to provide a source of rapid
heat to the engine induction system during cold driveway.
Rapid heating is desirable because it provides for quick fuel
Hinfr COMBUSTIBLE MIXTURE
Fig. 6E-1--PCV System-Typical
LIGHT TRUCK SERVICE MANUAL
6E-2
ENGINE EMISSION CONTROLS
Fig. 6E -2 --E G R System -Typical
AIR MANAGEMENT SYSTEM
Two different types of air management systems are
used on light duty trucks.
An air injection reactor (A IR ) (Fig. 6E-3) is used on
some engines to provide additional oxygen to continue the
combustion process after the exhaust gases leave the
combustion cham ber. A belt driven air pump provides
pressurized air which is injected into the exhaust port of the
cylinder head or exhaust pipe and then into the exhaust
system. The A IR system operates at all times and will
bypass air only for a short duration of time during decelera
tion and at high speeds. A diverter valve performs a bypass
function, and the check valve protects the air pump from
damage by preventing a back flow of exhaust gas.
Diagnosis and service procedures for air injection
reactor systems are is in this section.
The Pulse Air Injection Reactor System consists of four
pulse air check valves. The check valves are connected by
tubes to the exhaust ports. The firing of the engine creates a
pulsating flow of exhaust gases which are positive or
negative pressure. A negative pressure at the pulse air valves
results in the flow of fresh air into the exhaust system. If
pressure is positive the check valve is forced closed and no
exhaust gas will flow past the valve into the fresh air supply
line.
A deceleration valve is used on some L6 and California
V8 models to prevent backfiring in the exhaust system
during decleration. W hen deceleration causes a sudden
vacuum increase in the vacuum signal line, the pressure
differential on the diaphragm will overcome the closing
force of the spring, opening the valve and bleeding air into
the intake manifold.
Air trapped in the chamber above the vacuum dia
phragm will bleed at a calibrated rate through the delay
valve portion of the integral "Check and Delay Valve,
reducing the vacuum acting on the diaphragm. When the
vacuum load on the diaphragm and the spring load become
equal, the valve assembly will close, shutting off the air flow
into the intake manifold.
The check valve portion of the "Check and Delay
LIGHT TRUCK SERVICE MANUAL
Valve" provides quick balancing of chamber pressure when
a sudden decrease in vacuum is caused by accleration rather
than deceleration.
THERMOSTATIC AIR CLEANER (THERMAC)
The Thermostatic Air Cleaner (T H E R M A C ) is on all
engines. The TAC uses a damper door in the air cleaner
inlet, controlled by a vacuum diaphragm motor to mix pre
heated and non pre-heated air entering the air cleaner to
maintain a controlled air temperature into the carburetor.
The vacuum motor is modulated by a temperature sensor in
the air cleaner. The pre-heating of the air cleaner inlet air
allows leaner carburetor and choke calibrations resulting in
lower emission levels, while maintaining good driveability.
The pre-heated air is obtained by drawing inlet air through
stove attached to the exhaust manifold. Diagnostics and
service procedures for the thermostatic air cleaner can be
found in this section.
ENGINE EMISSION CONTROLS
6E-3
N O R M A L F LO W SHOW N B Y B L A C K A R R O W S :
BY-PASS C O N D IT IO N S SHOW N BY CROSS H A T C H E D A R R O W S
TUBE ASSEM BLY
HOSE
CHECK V A L V E
A IR IN
IN JE C T IO N
TUBE
H IG H SPEED
BY-PASS
A IR PUMP
E X H A U S T PO RT
D E C E L E R A T IO N
BY-PASS
D IV E R T E R
VALVE
M A N IF O L D V A C U U M
SO URCE
Fig. 6E-4--AIR System
THROTTLE RETURN CONTROL (TRC) SYSTEM
The T R C system used on heavy duty emission vehicles
consists of three major components:
1. Throttle Lever A ctuator - Mounted as part of the
carburetor assembly, this device opens the primary
throttle blades a preset amount in excess of curb idle
when engine vacuum is applied to it. This actuating
vacuum is controlled by a separate solenoid control
valve.
2. Solenoid Vacuum Control Valve - Mounted separately
from the carburetor, this off-on valve is held open above
a present nominal engine speed by a signal from an
electronic speed sensor. The valve when open allows a
vacuum signal to be applied to the throttle lever
a c tu a to r as long as the present engine speed is
exceeded.
3. Electronic Speed Sensor - Mounted separately from the
solenoid vacuum control valve, this switching device
monitors engine speed at the distributor and supplies a
continuous electrical signal to the solenoid vacuum
control valve as long as the preset engine speed is
exceeded.
CARBURETOR CALIBRATION
While the carburetor’s main function is to provide the
engine with a combustible air/fuel mixture, the carburetor
calibration is critical to maintaining proper emission levels.
The carburetor’s idle, off-idle, main metering, power
enrichment, and accelerating pump systems are calibrated
to provide the best possible combination of engine perform
ance, fuel economy and exhaust emission control. C a r
buretor adjustments and service must be performed using
the recommended procedures to insure engine exhaust
emission levels remain within offical limits.
See Section 6C, Engine Fuel, for carburetor adjust
ment specifications and recommended service procedures.
LIGHT TRUCK SERVICE MANUAL
6E-4
ENGINE EMISSION CONTROLS
DISTRIBUTOR CALIBRATION
CATALYTIC CONVERTER
The distributor is an integral part of the engine ignition
system and the distributor calibration is an important part
of exhaust emission control.
The distributor is calibrated to provide the best engine
performance and fuel economy at varying speeds and loads
while remaining within exhaust emission limits. Distributor
diagnostics and service procedures are in Section 6D,
Engine Electrical.
The catalytic converter is an emission control device
added to the exhaust system of light duty emission vehicles
to reduce hydrocarbon and carbon monoxide from the
exhaust gas stream.
Refer to Section 6F, Engine Exhaust System, for
catalytic converter service procedures and diagnostics.
DIAGNOSIS
PCV SYSTEM DIAGNOSIS
C O N D IT IO N
POSSIBLE CAUSE
CORRECTION
Slow, unstable idle,
frequent stalling.
Valve completely
plugged or stuck.
Replace valve.
Restricted filter
Replace filter, clean system.
PCV system plugged.
Replace valve.
Leak in closed ventilation
system.
Clean system as required.
Oil in a ir cleaner.
Inspect for leaks to atmosphere and
correct as necessary.
^
Fig. 6E-5--PCV System Diagnosis
LIGHT TRUCK SERVICE MANUAL
■'I >"■ i' .
. t **!1fli
*
.
■■J-Sx* * ’TO1*
ENGINE EMISSION CONTROLS
6E-5
EGR DIAGNOSIS
CONDITION
Engine idles abnormally rough
and/or stalls.
POSSIBLE CAUSE
EGR valve vacuum hoses
misrouted.
Check EGR valve vacuum hose
routing. Correct as required.
Leaking EGR valve.
EGR valve vacuum hose
misrouted.
Check EGR valve for correct
operation.
Check EGR attaching bolts for
tightness. Tighten as required.
If not loose, remove EGR valve
and inspect gasket. Replace as
required.
Perform EGR-TVS functional check.
Check vacuum from carburetor
EGR port with engine at stabilized
operating temperature and at
curb idle speed. (See checking EGR
valve.)
Check EGR valve vacuum hose
routing. Correct as required.
Check for loose valve.
Torque valve.
Failed EGR-TVS
(TVS open below 130°F.)
Same as listing in "Engine Idles
Abnormally Rough and/or
Stalls” condition.
Clean EGR passage deposits.
Perform EGR System check.
EGR valve gasket failed or loose
EGR attaching bolts.
EGR-TVS.
Improper vacuum to EGR valve
at idle.
Engine runs rough on light
throttle acceleration and has
poor part load performance.
Engine stalls on decelerations.
Sticky or binding EGR valve.
Wrong or no EGR gasket(s)
and/or Spacer.
Transducer control valve blocked
or air flow restricted.
Restriction in EGR vacuum line or
vacuum signal tube.
Part throttle engine detonation.
(NOTICE: Non-Functioning EGR
valve could contribute to part
throttle detonation. Detonation
can also be caused by several
other engine variables. Perform
ignition and carburetor related
diagnosis.)
Engine starts but immediately
stalls when cold.
(NOTICE: Stalls after start can
also be caused by carburetor
problems.)
CORRECTION
Sticking or binding EGR valve.
Transducer control valve blocked
or air flow restricted.
Insufficient exhaust gas
recirculation flow during part
throttle accelerations.
Control valve blocked or flow
restricted.
EGR valve hoses misrouted.
EGR-TVS system malfunctioning
when engine is cold.
Install new gasket(s), install spacer
(if used), torque attaching parts.
Check transducer control valve
operation (See Checking Back
Pressure EGR Valve).
Check EGR vacuum lines for kinks,
bends, etc. Remove or replace
hoses as required. (See Checking
EGR Valve).
Check EGR valve for excessive
deposits causing sticky or binding
operation.
Perform EGR System Check.
Check internal control valve
operation (See Checking EGR
Valve).
Check EGR valve hose routing.
Check EGR valve operation. Repair
or replace as required. Check EGRTVS as listed in "Engine Idles
Abnormally Rough and/or
Stalls" section. Replace valve as
required. Check EGR passages and
valve for excessive deposit.
Clean as required.
Check EGR per service procedure.
Check EGR valve hose routings.
Perform EGR-TVS functional check.
Fig. 6E-6--EGR Diagnosis
LIGHT TRUCK SERVICE MANUAL
6E-6
ENGINE EMISSION CONTROLS
A.I.R. Trouble Diagnosis
NOTE: The A.I.R. system is not completely noise
less. Under normal conditions, noise rises in
pitch as engine speed increases. To determine
if excessive noise is the fault of the air injection
CONDITION
Excessive belt noise.
system, disconnect the drive belt and operate
the engine. If noise does not exist, proceed
w ith diagnosis.
POSSIBLE CAUSE
CORRECTION
1. Loose belt.
1. Tighten to spec.
2. Seized pump.
2. Replace pump.
3. Excessively tight belt.
Excessive pum p noise.
Chirping.
Insufficient break-in.
Run vehicle 10-15 miles
(16-24 kilometers) at
turnpike speeds — recheck.
Excessive pum p noise,
chirping, rum bling,
or knocking.
1. Leak in hose.
1. Locate source of leak
using soap solution and
correct.
2. Loose hose.
2. Reassemble and replace
or tighten hose clamp.
3. Hose touching other
engine parts.
3. Adjust hose position.
4. Diverter valve inoperative.
4. Replace diverter valve.
5. Check valve inoperative.
5. Replace check valve.
6. Pump m ounting fasteners
loose.
6. Tighten m ounting screws
as specified.
7. Pump failure.
7. Replace pump.
Fig. 6E-7--A.I.R. Diagnosis
LIGHT TRUCK SERVICE MANUAL
ENGINE EMISSION CONTROLS
6E-7
A.I.R. Trouble Diagnosis (Cont'd.)
CONDITION
No air supply (accelerate
engine to 1500 rpm and
observe air flo w from
hoses. If the flo w
increases as the rpm 's
increase, the pum p is
fun ctio ning normally.)
If not, check possible
cause.
POSSIBLE CAUSE
CORRECTION
1. Loose drive belt.
1. Tighten to specs.
2. Leaks in supply hose.
2. Locate leak and repair
or replace as required.
3. Leak atfitting(s).
3. Tighten or replace
clamps.
4. If air is expelled
through diverter m uffler
w ith vehicle at idle,
replace diverter valve.
4. Diverter valve leaking.
5. Diverter valve inoperative.
(Usually accompanied by
backfire during deceleration.)
5. Replace diverter valve.
6. Check valve inoperative.
6. Blow air through hose
tow ard air manifold.
If air passes, function is
normal. If air can be sucked
from m anifold, replace
check valve.
7. Pump pressure relief
plug leaking or damaged.
7. Replace pressure
relief plug.
Centrifugal filte r fan
damaged or broken.
Mechanical damage.
Replace centrifugal
filte r fan.
Exhaust tube bent or
damaged.
Mechanical damage.
Replace exhaust tube.
Poor idle or driveability.
A defective A.I.R. pump
cannot cause poor
idle or driveability.
Do not replace
A.I.R. pump.
Fig. 6E-8--A .I.R . Diagnosis
LIGHT TRUCK SERVICE MANUAL
6E-8
ENGINE EMISSION CONTROLS
POSSIBLE CAUSES OF EMISSIONS TEST FAILURES
EXCESSIVE
EMISSIONS
POSSIBLE CAUSES
EXPLANATION
Hydrocarbons
(HC) *
Excessive hydrocarbons
are caused by an air
fuel m ixture that is
not burning completely.
• Engine not at normal operating temperature.
• Disconnected, obstructed, leaking, or misrouted vacuum hoses.
• Vacuum leaks.
• Maladjusted idle speed.
• Maladjusted idle m ixture - if plugs are
removed.
• Maladjusted initial spark tim ing.
• Spark plugs, wires or d istrib u to r cap.
• Improper operation of A l R or Pulsair
system.
• Lead contamination o f catalytic converter
(check fo r absence o f fille r neck
restrictor).
Carbon m onox
ide (CO) *
Excessive carbon m onox
ide emissions are due
to a m ixture that is
rich.
•
•
•
•
•
•
•
•
•
•
Oxides of
nitrogen
(NOx )
*
Excessive oxides o f
nitrogen are generally
due to high tempera
tures in the combustion
chamber.
Engine not at normal operating temperature.
Maladjusted idle m ixture if plugs are
removed.
Im properly adjusted/sticking choke.
Stuck PCV valve or obstructed PCV hose.
Lead contam ination o f catalytic converter
(check fo r absence o f fille r neck
restrictor).
Improper operation o f A l R or Pulsair
system.
Leaking carburetor fuel passages or
gaskets.
Carburetor flo a t level.
Stuck carburetor power piston.
Restricted air cleaner element.
• Obstructed/leaking/misrouted vacuum
lines.
• Faulty EGR temperature sensor controls.
• Improper operation o f the EGR system.
• Incorrect EGR valve fo r engine type.
• Plugged EGR passages.
• Inoperative Thermae.
• Maladjusted initial spark tim ing.
• Improper operation o f d istrib u to r centrifugal
or vacuum spark advance.
Excessive emissions o f both hydrocarbons and carbon monoxide are related to an extrem ely rich air/fuel
m ixture. A rich air/fuel m ixture increases CO emissions, but if the m ixture is too rich, it w ill not burn
completely. This unburned fuel contributes to high hydrocarbon emissions. Check fo r possible causes
as stated in the HC and CO section. Check co-related causes first.
LIGHT TRUCK SERVICE MANUAL
ENGINE EMISSION CONTROLS
P.A.I.R. FAILURE DIAGNOSIS
1. A hissing noise may indicate a defective pulse air valve
or improper torque at manifold. Inspect pulse air valve.
2. If one or more check valves have failed, exhaust gas will
enter the carburetor through the air cleaner and cause
poor driveability indicated by a surge or poor perform
ance. Check pulse air valves. Be sure pulse air pipe
extension tubes are installed in exhaust manifold.
a. If exhaust gases pass through the pulse air valve,
excessive heat is transmitted to the rocker cover
6E-9
plenum, indicated by burned off paint. Also, rubber
grommets and hose will deteriorate. Failure could
also be indicated by a hissing noise. Repair rocker
cover plenum seals and replace grommets and hose
as required.
b. If rubber hose to air cleaner deteriorates, particles
may enter carburetor causing poor driveability. It
will be necessary to clean carburetor, and remove
particles from pulse air plenums and connecting
pipe.
ON-VEHICLE SERVICE
POSITIVE CRANKCASE VENTILATION
An engine which is operated without any crankcase
ventilation can be dam ag ed seriously. Therefore, it is
important to replace the PCV valve at intervals shown in
Section OB.
If an engine is idling too slow or rough, this
may be caused by a clogged ventilator valve or plugged
hose; therefore, never adjust the carburetor idle with
out first checking the PCV valve and hose.
NOTICE:
With this system, any blow-by in excess of the system
capacity (from a badly-worn engine, sustained heavy load,
etc.) is exhausted into the air cleaner and is drawn into the
engine.
Proper operation of the PCV System is dependent upon
a sealed engine. If oil sludging or dilution is noted, and the
PCV System is functioning properly, check engine for
possible cause and correct to ensure th a t system will
function as intended.
Removal
1. Remove PCV valve from intake manifold or rocker arm
shaft cover.
2. Run the engine at idle.
3. Place your th u m b over end of valve to check for
vacuum. If there is no vacuum at valve, check for
plugged hoses or valve. Replace plugged and/or deteri
orated hoses.
4. Shut off the engine and remove PCV valve. Shake valve
and listen for the rattle of check needle inside the valve
(Fig. 6E-11). If valve does not rattle, replace valve
(Fig. 6E-10).
5. After installing a new PCV valve, readjust engine idle
if necessary.
EXHAUST GAS RECIRCULATION (EGR)
A backpressure EG R valve is used on Light Duty
Emission class engines. The valve opening is determined by
the amount of vacuum received from a ported source on the
carburetor and the amount of backpressure in the exhaust
system.
Two different types of backpressure EGR valves are
used. A positive tra nsdu c e r valve (Fig. 6E-12) and a
negative tran sdu ce r valve (Fig. 6E-13). The negative
transduced backpressure valve is used on engines with a
relatively low backpressure to provide the desired opening
point and flow rate.
The EGR system requires the use of unleaded fuel.
EGR Valve Identification
Refer to figures 6E-14 and 6E-15 for identification of
the different EG R valves.
LIGHT TRUCK SERVICE MANUAL
6E-10
ENGINE EMISSION CONTROLS
POSITIVE BACK PRESSURE EGR VALVE
CO N TR O L V A LVE
OPEN
ORIFICE O P E N IN G
.0 3 0
(SEE O P T IO N A L C O N S T R U C T IO N )
TRANSDUCER
V A C U U M S IG N A L
D IA P H R A G M
TUBE
PLATE
O P T IO N A L
C O N S T R U C T IO N
ORIFICE O P E N IN G
.020
EXHAUST
I
I EXHAUST GAS
G A S (IN )
Fig. 6E-12--Positive Backpressure EGR Valve
LIGHT TRUCK SERVICE MANUAL
ENGINE EMISSION CONTROLS
6E-11
POSITIVE BACK P R E SS U RE EGR V A L V E
NOTE:
ID E N T IF Y P O S IT IV E EGR V A L V E
B Y D IA P H R A G M P L A T E D ESIG N
D IA P H R A G M P L A T E A S S E M B L Y
Fig. 6E-14-Positive EGR Identification
N E G A TI V E BACK P R ES SU R E EGR V A L V E
NOTE:
ID E N T IF Y N E G A T IV E EGR V A L V E
B Y D IA P H R A G M P L A T E D E S IG N
D IA P H R A G M P L A T E A S S E M B L Y
Fig. 6 E -1 5 -N e g a tiv e EGR Identification
LIGHT TRUCK SERVICE MANUAL
6E-12
ENGINE EMISSION CONTROLS
Checking EGR System Operation
1. Place finger under E G R valve and push on diaphragm
plate. Diaphragm should move freely from open to
closed position. If it does not move freely replace valve.
C A U T IO N :lf va lve is hot it m a y be necessary to
w e a r gloves to avoid burning fingers.
2. Hook up vacuum gage between EG R signal tube and
vacuum hose.
3. W ith vehicle in " P a r k " or " N e u tr a l" and engine
running open throttle to obtain at least 5 " of vacuum at
EG R be careful not to overspeed engine neutral.
Engine m ust be at coolant operating te m pe ra tu re
(90°C (approx. 195°F).
4. Remove vacuum hose from EG R signal tube and check
for diaphragm plate to move downward (valve closed).
5. Replace vacuum hose and check for diaphragm plate
tomove upw ard (valve open). Engine speed should
decrease.
A vibration of the diaphragm plate may be noticed on
back pressure E G R valves. This does not indicate a bad
valve or require correction.
Diaphragm doesn't move:
1. Check engine vacuum, it should be at least 5" at EGR
valve with engine running and throttle open. If no
vacuum is present, find the cause (hose routing not
correct, plugged or leaking hose or carburetor port).
2. Make sure engine is at operating temperature.
3. On back pressure E G R valves, check tran sdu cer
control valve operation (See Checking N egative or
Positive E G R Valve).
Diaphragm moves with no change in engine speed:
Check EGR manifold passages for blockage (clean if
blocked).
If cause is not found, check EGR valve (See Checking
Negative or Positive EG R Valve).
Functional Checks
Checking N e g a tiv e Backpressure EGR V alv e
1. Check hose routing (Refer to Vehicle Engine Emission
Control Information Label).
2. Check EGR valve signal tube orifice for obstructions.
3. Hook up vacuum gage between EG R valve and car
buretor and check vacuum (engine must be at operat
ing temperature approx. 90°C (195°F). With engine
running at approximately 3000 RPM their should be at
least 17 kPa (5 ") of vacuum.
4. Check EG R-TV S for correct operation (see EGR-TVS
functional check).
5. Valve check: (valve can be left on or removed from
engine).
a. Depress the valve diaphragm.
b. With diaphragm still depressed hold a finger over
source tube and release diaphragm.
c. Check diaphragm and seat for movement. Valve is
good if it takes over 20 seconds for the diaphragm to
move to the seated position (valve closed).
d. Replace EG R valve if it takes less than 20 seconds to
move to the seated position.
LIGHT TRUCK SERVICE MANUAL
Checking Positive Backpressure EGR Valve
1. Check hose routing (Refer to Vehicle Emission Control
Information Label).
2. Check EG R valve signal tube orifice for obstructions.
3. Check EGR-TV S for correct operation. (See EGRTVS functional check).
4. Valve check.
a. Remove EG R valve from vehicle.
b. Apply a constant external vacuum 34 kPa (1 0 ") or
more supply to EGR vacuum signal tube.
c. Valve should not open. If it does transducer control
valve is stuck closed and E G R valve m ust be
replaced.
d. With the vacuum supply still applied, direct a stream
of air from a low pressure source (103 kPa 15 psi
maximum) into the valve exhaust gas intake.
e. Valve should open completely. If it does not open at
all transducer control valve is stuck open and EGR
valve must be replaced.
f. If E G R valve and transducer control valve are both
operating clean the EG R mounting surfaces and
install valve.
EGR Valve Replacement
1. Disconnect EG R valve vacuum hose at valve.
2. Remove bolts or nuts holding EG R valve on manifold
(Fig. 6E-15a).
3. Remove EGR valve from manifold.
4. Clean EG R mounting surfaces.
5. Reassemble replacement EG R valve on intake mani
fold using new gasket(s). Install spacer (if used).
Torque attachments to correct torque.
6. Connect vacuum hose to valve.
EGR Manifold Passage
If inspection of EGR passages in the inlet manifold
indicates excessive build-up of deposits, the passages should
be cleaned. Care should be taken to ensure that all loose
particles are completely removed to prevent ehm from
ENGINE EMISSION CONTROLS
clogging the EGR valve or from being ingested into the
engine.
EGR Thermal Vacuum Switch (EGR - TVS)
R eplacem ent
1. Drain engine coolant.
2. Disconnect vacuum lines from the thermal vacuum
switch.
3. Remove switch.
4. Apply an approved sealer to threaded portion of switch.
5. Install switch and torque to 20 N-m (15 lbs. ft.).
6. Rotate switch head as required to align for proper hose
routing.
7. Install vacuum hoses to switch.
8. Replace engine coolant and check level.
EGR-TVS Functional Check - Hot
The EG R Thermal Vacuum Delay Switch opens as
coolant temperature increases, permitting the ported vac
uum signal to reach the EG R valve. Check as follows:
1. Remove EGR valve vacuum hose at EGR valve and
connect hose to a vacuum gage.
2. S ta rt engine. W ith transmission seelector lever in
N e u tra l or Park open throttle partially. (Do not
overspeed engine.) as throttle is opened, the vacuum
gage should respond with an increase in vacuum
reading.
3. If operation is satisfactory, remove gage and reconnect
hose to EG R valve.
If gage does not respond to throttle opening, proceed to
Step 4.
4. Remove Carb-to-switch hose from switch and connect
hose to vacuum gage. Repeat Step 2.
5. If vacuum gage responds to throttle opening, then
switch is defective. Remove switch and replace with
new part.
If gage does not respond to throttle opening, then check
for plugged hose or defective carburetor.
EGR-TVS Functional Check - Cold
This check can be used to diagnosis a stall after cold
start or poor driveability immediately after cold start.
The EGR thermal vacuum delay switch should be
closed below a coolant temperature of 85°F (29°C) thereby
blocking the ported vacuum signal from reaching the EGR
valve below that temperature. Check as follows:
1. Drain coolant to below level of switch.
2. Disconnect vacuum lines and remove switch.
3. Inspect switch to make sure it is in good condition.
4. Connect a vacuum hose to lower nipple of switch,
marked " C " or " C A R B " . Connect a vacuum gage to
upper nipple, marked " E " or " E G R " .
5. Place switch in water at 75°F (24°C) and submerge
completely for 2 m inutes while agitating water
thoroughly.
6. Apply 12 in. hg. (-41 kPa) vacuum to hose on lower
nipple of switch. Under this condition, the switch
should be closed.
6E-13
Leakage of up to 2 in. hg. ( - 7 kPa) of vacuum
in 2 minutes is allowable and does not mean a defective
switch.
7 . If operation is satisfactory, reinstall switch. If switch is
defective, replace with a new part.
8. Replace coolant and check level.
NOTICE:
EARLY FUEL EVAPORATION (EFE)
Inspection (except 4.8L - 292 CID)
• Visually inspect exhaust heat valve for d am age or
binding linkage.
• Check that linkage is connected and vacuum hoses are
properly routed and connected.
• Move exhaust heat valve by hand. If binding or stuck,
free with manifold heat valve lubricant, G M Part No.
1050422 or equivalent. If valve cannot be freed, replace
valve.
Manifold Heat Valve Inspection (with 4.8L - 292
CID)
• Visually inspect manifold heat valve for damage or
binding.
• Move valve by hand. If binding or stuck, free with
manifold heat valve lubricant, G M Part No. 1050422
or equivalent. If valve cannot be freed, replace valve.
Checking EFE System
1. With engine cold, position transmission in neutral or
park and apply parking brake.
2. Start engine and observe movement of actuator rod and
exhaust heat valve. Valve should move to its closed
position.
3 . If valve does not close, disconnect hose at actuator and
check for vacuum.
• If there is vacuum, replace actuator.
• If there is no vacuum, disconnect hose at TVS-tovacuum source.
• If there is vacuum at hose, replace TVS.
• If there is no vacuum, check for deteriorated hose
and vacuum source to determine lack of vacuum.
4. W hen coolant reaches 180°F (82°C) (V8), or oil
reaches 150°F (66°C) (six cylinder), the exhaust heat
valve should move to its open position.
5. If valve does not move, disconnect hose at actuator and
check for vacuum.
• If there is vacuum, replace TVS.
• If there is no vacuum, replace actuator.
Coolant Temperature Thermal Vacuum Switch
(TVS) - V8
R eplacem ent
1. Drain coolant below level of engine coolant outlet
housing.
2. Disconnect hoses at TVS ports.
3 . Remove TVS.
4. Apply a soft setting sealant uniformly on replacement
TVS male threads. No sealant should be applied to
sensor end of TVS.
LIGHT TRUCK SERVICE MANUAL
6E-14
ENGINE EMISSION CONTROLS
Fig. 6 E -1 6 -E G R -T V S 4.1 L F e d eral
5. Install TVS, tighten to 120 pound inches (14N-m) and
then hand torque clockwise as required to align TVS to
accomodate hoses.
6. Connect hoses to TVS ports.
7. Add coolant as required.
Oil Temperature Thermal Vacuum Switch (TVS) L6
Replacem ent
1. Disconnect hoses at TVS ports.
2. Remove TVS switch.
3. Install TVS switch.
4. Connect hoses to TVS ports.
Actuator Assembly (Fig. 6E-18, 19, 20)
The actuator assembly is located on a bracket attached
to right exhaust manifold or mounted directly to the right or
left exhaust manifold. Actuators which are remotely located
on bracket are connected to the heat valve by a rod.
Fig. 6E-17--EGR-TVS 5.0L and 5.7L California
LIGHT TRUCK SERVICE MANUAL
ENGINE EMISSION CONTROLS
6E-15
Replacem ent
1. Disconnect vacuum hose from actuator.
2. Remove fasteners holding a c tu a to r to mainifold or
bracket.
3. If used, disconnect rod from actuator and remove.
4. Remove actuator.
5. Install actuator and rod (if used) reversing steps 1
through 4. Tighten nuts to 3 N-m (25 in. lbs.).
Exhaust Heat Valve - V8
R eplacem ent
1.
2.
3.
4.
5.
Remove crossover exhaust pipe.
Disconnect rod from valve.
Remove valve.
Install valve and connect rod.
Install crossover exhaust pipe.
Exhaust Heat Valve - 4.1L
R eplacem ent
1. Remove 2 nuts attaching actuator bracket-to-valve and
exhaust manifold.
2. Remove bracket and disconnect rod from valve.
3. Remove 2 additional nuts from valve and remove valve.
4. Install valve reversing Steps 1 through 3.
Manifold Heat Valve - 4.8 L
R eplacem ent
1. Remove exhaust pipe to manifold nuts and lower
exhaust pipe.
2. Remove heat valve and packings.
3. Reverse above steps to install.
AIR INJECTION REACTOR (AIR) SYSTEM
The Air Injection Reactor (A.I.R.) System consists of:
an air injection pump (with necessary brackets and drive
attachments), an air diverter valve, a check valve, an air
pipe assembly, and connection hoses.
Inspection
Accelerate engine to approximately 1500 R P M and
observe air flow from hose(s). If air flow increases as engine
is accelerated, pump is operating satisfactorily. If air flow
does not increase or is not present, proceed as follows:
1. Check for proper drive belt tension.
The A IR system is not completely noiseless. Under
normal conditions, noise rises in pitch as engine speed
increases. To determine if excessive noise is the fault of
the system, operate the engine with the pump drive belt
removed. If excessive noise does not exist with the belt
removed, proceed as follows:
2. Check for a seized Air Injection Pump Do not oil pump.
LIGHT TRUCK SERVICE MANUAL
6E-16
ENGINE EMISSION CONTROLS
3. Check hoses, pipes and all connections for leaks and
proper routing.
4. Check diverter valve attaching screws for tighteness.
5. Check injection pump for proper mounting and bolt
torque.
6. Repair irregularities in these components as necessary.
7. If no irregularities exist and the air injection pump
noise is still excessive, remove and replace pump.
Air Pump Drive Belt Adjustment and Replacement
1. Inspect drive belt for wear, cracks or deterioration.
2. Loosen generator adjustment bolt on V8 models or
pump bolt on L6 models.
3. Replace belt if required.
4. Move generator or pump until drive belt is at proper
tension as specificed in Section 6B, then retighten bolts.
5. Check belt tension using a belt tension gage.
Air Pump Pulley
Replacem ent
1. Hold pump pulley from turning by compressing drive
belt, then loosen pump pulley bolts (Fig. 6E-21 and
22 ).
2. Loosen pump through bolt and adjusting bolt.
3. Remove drive belt, pump pulley and pulley spacer.
4. Install pump, pulley and spacer with retaining bolts
hand tight.
5. Install drive belt and adjust to proper tension as
specified in Section 6B.
6. Hold pump pulley from turning by compressing drive
belt, then torque pump pulley bolts to 32 N-m (24 ft.
lbs.).
7. Recheck belt tension and adjust if required.
Air Pump Filter Fan
R eplacem ent
Before starting this operation note the following:
• Do not allow any fragments to enter the air pump
intake hole.
Air Injection Pump
Removal
1. Disconnect battery cable.
2. Mark front of pump pulley so it can be installed in the
same direction.
3. Remove air pump pulley as outlined under air pump
pulley replacement.
4. Disconnect hoses, vacuum and electrical connections
from diverter valve.
5. Remove air pump mounting bolts and remove pump
assembly.
6. If pump is being replaced, transfer diverter valve to
new pump.
Install
1. Install air pump assembly and tighten mounting bolts.
2. Reconnect hoses, vacuum and electrical connections to
diverter valve.
3. Install air pump pulley.
4. Install pump belt and adjust to correct tension.
5. Reconnect battery cable.
6. Check system for proper operation.
LIGHT TRUCK SERVICE MANUAL
• Do not remove filter fan by inserting a screwdriver
between pump and filter fan. Air damage to sealing lip
on pump will result.
• Do not remove motor drive hub from filter fan.
• It is seldom possible to remove the filter fan without
destroying it.
1. Remove drive belt, pulley and spacer.
2. Insert needle nose pliers and pull filter fan from hub
(Fig. 6E-23).
3. Position new filter fan on pump hub.
4. Position spacer and pump pulley against centrifugal
filter fan.
5. Install pump pulley bolts and tighten equally to 9 N-m
(30 in. lbs.). This will compress the centrifugal filter
fan onto the pump hub (Fig. 6E-24). Do not drive filter
fan on with a hammer.
A slight amount of interference with the housing bore is
normal. After a new filter fan has been installed, it may
squeal upon initial operation or until O.D. sealing lip
has worn in. This may require a short period of pump
operation at various engine speeds.
6. Install pump drive belt and adjust to specifications
shown in Section 6B.
ENGINE EMISSION CONTROLS
6E-17
Fig. 6E-22--Air Pump and Pulley-L6
Air Hoses and Injection Pipes
Inspection a n d R eplacem ent (Fig. 6E -25 an d 26)
1. I nspect all hoses for deterioration or holes.
2. Inspect all air injection pipes for cracks or holes.
3. Check all hose and pipe connections.
4. Check pipe and hose routing. Interference may cause
wear.
pressure side, the connection should be checked fo leaks
with a soapy water solution.
6. If hose a n d /o r pipe replacem ent is required, note
routing, then remove hose a nd/or those as required.
7. Install new hose and /o r pipe, routing them as when
removed. 8. Tighten hose and pipe connections. Use an anti-seize
compound on threads of the air pipe fitting when re
assembling.
5. If a leak is suspected on the pressure side of the system
or any pipe and/or hose has been disconnected on the
s i,
Fig. 6E-23— F ilte r Fan-Removal
.
Fig. 6E -2 4 --F ilte r F a n -lnstallatio n
LIGHT TRUCK SERVICE MANUAL
6E-18
ENGINE EMISSION CONTROLS
PIPE ASSY
CHECK VALV
EXTENSION
PIPE ASSY
EXTENSION
Fig. 6E-25--Air Injection Pipes-L-6
Check Valve
Air Diverter Valve
Inspection
Rem oval (Fig. 6E -27, 2 8 a n d 29 )
1. The check valve should be inspected whenever the hose
is disconnected from the check valve or whenever check
valve failure is suspected. (A pump that had become
inoperative and had shown indications of having
exhaust gases in the pump would indicate check valve
failure).
2. Blow through the check valve (toward the cylinder
head) then attem pt to suck back through check valve.
Flow should only be in one direction (toward the
exhaust manifold). Replace valve which does not
function this way.
R eplacem ent (Fig. 6E -25 a n d 26 )
1. Release clamp and disconnect air hoses from check
valve.
2. Unscrew check valve from air injection pipe.
3. Screw check valve onto air injection pipe.
4. Position air hose on check valve and secure with clamp
LIGHT TRUCK SERVICE MANUAL
1.
2.
3.
4.
Disconnect battery ground cable.
Disconnect vacuum hose at valve.
Disconnect air outlet hoses from valve.
Bend tab on locks and remove bolts holding elbow to
control valve.
5. Remove control valve and gasket from elbow.
Installation
1.
2.
3.
4.
Install control valve and gasket to elbow.
Install bolts and locks to elbow.
Tighten bolts to elbow and control valve.
Bend tab nearest to hex flat against the bolt and screw
heads.
5. Connect vacuum and air outlet hoses to valve.
6. Reconnect battery ground cable.
7. Check system operation.
ENGINE EMISSION CONTROLS
6E-19
Fig. 6E-26--Air Injection Pipes-V8
LIGHT TRUCK SERVICE MANUAL
6E-20
ENGINE EMISSION CONTROLS
Fig. 6E-29~Diverter Valve G Series-V8
PULSE AIR INJECTION REACTOR SYSTEM • PAIR
INSPECTION AND CHECKING PULSE AIR VALVE
Deceleration Valve 4.1L (LE-3)
Inspect pulse air valves, pipes, grommets and hose for
leaks and cracks and replace as required.
R eplacem ent
Check operation of pulse air valves by creating a
vacuum at grommet end of valve by adapting tool J-23738,
with a tight fitting length of 3 /4 " hose. With vacuum of 5
kPa (17" Hg.) there will be an allowable drop to 1.7 kPa
(6" Hg.) in 2 seconds. Replace valve and/or hose if vacuum
drops in less than two seconds.
Vacuum drop must be a result of a leaking
valve not a leaking hose or connection.
NOTICE:
Replacement of Pulse Air Valve (Fig. 6E-30)
1. Remove air cleaner and disconnect rubber hose from
plenum connecting pipe.
2. Disconnect four pipe check valve fittings at cylinder
head and remove check valve pipes from plenum
grommets.
3. Disconnect check valve from check valve pipe.
4. Bench assemble check valves to check valve pipe.
5. Install pipe check valve assemblies to cylinder head as
shown in fig. 6E-34 and finger tighten the fittings.
6. Using a 1 " open end wrench or similar tool as a lever,
align check valve on pipe " A " (fig. 6E-31) to the
plenum grommet. Then using palm of your left hand
install check valve into the grommet. Use rubber
lubricant on grommets to ease assembly.
7. Repeat procedure in step 6 on pipe "B " (fig. 6E-32)
but use your left hand on the tool for alignment of
check valve and install valve with the palm of your right
hand.
8. Tighten fittings to specified torque and reinstall air
cleaner and hose.
LIGHT TRUCK SERVICE MANUAL
1. Remove vacuum hoses from valve (Fig. 6E-33).
2. Remove two screws securing valve to engine bracket
and remove valve.
3. Install valve, tighten screws to engine bracket.
4. Install vacuum hoses.
THERMOSTATIC AIR CLEANER (THERMAC)
Checking Thermae Air Cleaner
1. Inspect system to be sure all hoses and charts are
connected (Fig. 6E-34 and 35). Check for kinked,
plugged or deteriorated hoses.
2. If engine is warm above 27°C (80°F), remove air
cleaner. Allow it to cool to room temperature, below
27°C (80°F). Placing a cool wet rag on the temperature
sensor will aid in cooling.
3. Install cooled air cleaner with cold air intake discon
nected from snorkel (if equipped).
4. Observe damper door before starting the engine. It
should be in the open snorkel position (hot air duct
covered).
5. S ta r t engine. W atch d am p e r door in air cleaner
snorkel. When engine is first started, damper door
should close. As air cleaner warms up, damper door
should open slowly.
6. If d am per door does not close when the engine is
started, remove air cleaner.
7. Apply at least 23 kPa (7 in. Hg.) of vacuum to the
vacuum diaphragm motor through hose disconnected
at the temperature sensor. Damper door should com
pletely block off snorkel passage when vacuum is
applied. If not check to see if linkage is hooked up
correctly.
ENGINE EMISSION CONTROLS
6E-21
PLENUM PIPE HOSE
A fR C LEAN ER
PLENUM PIP
GROMMETS
CHECK V A L V E ASM.
TORQUE TO 23 N-m (17 FT. LBS.)
PLENUM
'A ' PIPE ASM.
EXTENSIO N TUBES
'B ' PIPE ASM.
'A ' PIPE ASM.
TORQUE TO 38 N m (28 FT. LBS.)
PLENUM
CONNECTING
PIPE
Fig. 6E-30--PAIR System
Fig. 6E-31--PAIR (Pipe A)
LIGHT TRUCK SERVICE MANUAL
6E-22
ENGINE EMISSION CONTROLS
Fig. 6E-32--PAIR (Pipe B)
8. With vacuum still applied, trap vacuum in vacuum
diap hrag m motor by bending hose. D am per door
should remain closed; if not, replace vacuum dia
phragm motor assembly. (Failure of th vacuum dia
phragm motor assembly is more likely to be caused
from binding linkage or a corroded snorkel than from a
failed diaphragm. This should be checked first, before
replacing the diaphragm.)
9. Reinstall air cleaner. As the engine warms up, the
dam p er door should s ta rt to allow outside air and
heated air toenter the carburetor.
10. If the air cleaner fails to operate as described above or
if correct operation of the air cleaner is still in doubt,
perform thermometer check of sensor.
Thermometer Check of Sensor
1. S tart test with air cleaner temperature below 80°F
(27°C). If engine has been run recently, remove air
cleaner and place a cool wet rag on sensor. Remove air
cleaner cover and place T h e rm o m e te r as close as
possible to the sensor. Let air cleaner cool until
thermometer reads below 79°F (26°C) about 5 to 10
minutes. Reinstall air cleaner on engine and continue to
step 2 below.
2. S tart and idle engine. Damper door should move to
close the snorkel passage immediately if engine is cool
enough. When damper door starts to open the snorkel
passage (in a few minutes), remove air cleaner cover
and reaethermometer. It must read 100°F.-(-20oF. (38°C
7°C).
3. If the damper door does not start to open up the snorkel
passage at temperature indicated, tem perature sensor
if malfunctioning and must be replaced.
AIR CLEANER TVS
Remove
1.
2.
3.
4.
5.
Remove air cleaner cover and element.
Disconnect vacuum hoses.
Pry clip from TVS and remove.
Install new TVS and replace clip.
Reconnect vacuum hoses (refer to Vehicle Emission
Control Information Label).
6. Install air cleaner element and cover.
Air Cleaner Element Replacement
Paper Elem ent
1. Remove air cleaner cover.
LIGHT TRUCK SERVICE MANUAL
ENGINE EMISSION CONTROLS
6E-23
Fig. 6 E -3 4 --T h e rm a c A ir C le a n e r-T y p ic a l
2. Remove element.
Vacuum Diaphragm Motor
3. Install new element in air cleaner with either end up.
Rem oval (Fig. 6E -37)
4. Install air cleaner cover. Do not over tighten wing nut.
P o lyw rap Elem ent (P M odels)
1. Remove air cleaner cover.
2. Remove element.
3. Remove poly wrap band from paper element and dis
card element (Fig. 6E-36).
4. Clean bottom section of air cleaner and inspect cover
seal for tears or cracks. Replace seal if damaged.
5. Inspect band for tears and replace if damaged.
6.- If band is serviceable, wash in kerosene or mineral
spirits and squeeze out excess solvent.
NOTICE: Never use a hot degreaser or any solvent
containing acetone or similar solvent; also, never shake,
swing or wring the element to remove excess solvent as
this may tear the polyurethane m aterial. Instead,
"squeeze" the excess solvent from the element.
7. Dip band into light engine oil and squeeze out excess
oil.
8. Install band around outer surface of new paper
element.
9. Install element in bottom section of air cleaner with
either end up.
10. Install air cleaner cover. Do not over-torque wing
nut(s).
1. Remove air cleaner.
2. Disconnect vacuum hose from motor.
3. Drill out the two spot welds initially with a 1/16" hole,
then enlarge as required to remove the retaining strap.
Do not damage the snorkel tube.
4. Remove motor retaining strap.
5. Lift up motor, cocking it to one side to unhook the
motor linkage at the control damper assembly.
Installation
1. Drill a 7 /6 4 " hole in snorkel tube at center of vacuum
motor retaining strap.
2. Insert vacuum motor linkage into control dam p er
assembly.
3. Use the motor retaining strap and sheet metal screw
provided in the motor service package to secure the
retaining strap and motor to the snorkel tube.
4. M ake sure the screw does not interfere with the
operation of the damper assembly. Shorten screw if
required.
5. Connect vacuum hose to motor and install air cleaner.
Temperature Sensor
Removal
1. Remove air cleaner.
2. Detach hoses at sensor.
LIGHT TRUCK SERVICE MANUAL
6E-24
ENGINE EMISSION CONTROLS
TEMPERATURE SENSOR*
VACUUM DIAPHRAGM
MOTOR
AIR BLEED VALVE
CLOSED
DIAPHRAGM
SNORKEL
HOT AIR DELIVERY
MODE
VACUUM HOSES
INLET-
DIAPHRAGM
DAMPER DOOR
HOT AIR DUCT
HOT AIR
TEMPERATURE SENSOR
B
MOTOR
REGULATING MOD E
Fig. 6E-35--Preheated A ir System O peration
3. Pry up tabs on sensor retaining clip: remove clip and
sensor from air cleaner. Note position of sensor for
installation.
Installation
1. Install sensor and gasket assembly in original position.
2. Press retainer clip on hose connectors.
3. Connect vacuum hoses and install air cleaner on engine
THROTTLE RETURN CONTROL (TRC) SYSTEM
Checking And Adjusting TRC System
Check hoses for cracking, abrasion, or deterioration
and replace as necessary. Check for shorted or broken wires
and ensure that electrical connectors are fully engaged at
the distributor, speed switch and vacuum solenoid. Check
system function for proper operation and adjust as
necessary.
1. Connect precision tachometer (capable of resolving 10
R P M ) to the distributor " T A C H " terminal.
2. Start engine and advance throttle to indicated 1890
RPM . Throttle lever actuator should be extended at
this speed.
LIGHT TRUCK SERVICE MANUAL
3. Reduce throttle opening to indicated 1700 R P M .
T hrottle lever actuato r should be retracted at this
speed.
4. If the throttle lever actuator operates outside of the
1700 to 1890 RPM limits, the speed switch is out of
calibration and should be replaced.
5. If the actuator does not operate at any speed, proceed
with the following steps.
a. With a voltmeter, check for voltage at the vacuum
solenoid and speed switch. This is accomplished by
connecting the negative probe of the voltmeter to the
engine "ground" and inserting the positive probe in
the connector cavity of the voltage source wire.
A voltage of 12-14 volts should be measured at this
term inal on both the solenoid and speed switch.
When making this measurement, it is not necessary
to unplug the connector from its component. The
voltmeter probe can be inserted in the connector
body on the wire side of the connector to contact the
metal terminal.
b. If voltage is present at one device and not the other,
repair the engine wiring harness as required.
ENGINE EMISSION CONTROLS
6E-25
f. If the a c tu ato r extends in Step D, ground the
solenoid-to-switch wire terminal at the speed switch.
If it does not extend, repair the wire connecting the
speed switch and solenoid. If it does extend, check
the speed switch ground wire for " g ro u n d " - it
should read 0 volts when checked with a voltmeter
with the engine running; check the speed switch-todistributor wire for proper connection. W ith both the
ground and distributor wires properly connected and
if the actuator does not extend when operating above
1890 RPM , replace the speed switch.
6. If the actuator remains extended at all speeds, proceed
as with following steps.
a. Remove connector from vacuum solenoid.
b. If actuator remains extended, check the orifice in the
solenoid side port for plugging. If plugged, clear and
reconnect system and recheck. If the actuator again
remains extended, remove the solenoid connector. If
the actuator does not retract, replace the vacuum
solenoid.
c. If the actuator retracts with the solenoid connector
off, reconnect and then remove the speed switch
connector. If the actuator retracts, replace the speed
switch. If the actuator does not retract, the solenoidto-switch wire is shorted to ground in the wiring
harness. Repair as required.
c. If voltage is not present at either device, check the
engine harness connections at the distributor a nd/or
bulkhead connector. Repair as required.
d. If the proper voltage exists at each device, to check
for proper solenoid valve operation "ground" the
solenoid-to-switch connecting wire terminal at the
solenoid connector using a jum per wire. The throttle
lever actuator should extend (engine running).
e. If it does not extend, remove the hose from the
solenoid side port that connects to the actuator hose.
Visually check the orifice in this port for plugging.
Clear the orifice as required. If not plugged, replace
the solenoid.
DRILL 7 /6 4 " HOLE
IN CENTER POSITION
OF STRAP
SPOTWELDS
VACUUM
DIAPHRAGM
MOTOR
RETAINING
STRAP
INSTALL REPLACEMENT
SENSOR ASSM. IN SAME
POSITION AS ORIGINAL ASSMJ
Fig. 6E-37--Vacuum M o to r
Throttle Lever Actuator - Checking Procedure
1. Disconnect valve to actuator hose at valve and connect
to an external vacuum source equipped with a vacuum
gage.
2. Apply 20 in. Hg vacuum to the actuator and seal off the
vacuum source. If the vacuum gage reading drops, then
the actuator is leaking and must be replaced.
3. To check the actuator for proper operation:
a. Check the throttle lever, shaft, and linkage to be sure
that they operate freely without binding or sticking.
b. S tart engine and run until warmed up and idle is
stable. Note idle rpm.
c. Apply 20 in. Hg vacuum to the actuator. Manually
open the throttle slightly and allow to close against
the extended actuator plunger. Note the engine rpm.
d. Release and reapply 20 in. Hg vacuum to the
actuator and note the rpm to which the engine speed
increases (do not assist the actuator).
e. If the rpm obtained in step D is not within 150 rpm of
that obtained in step C, then the actuator plunger
may be binding due to dirt, corrosion, varnish, etc.,
or the actuator diaphragm may be too weak. If
binding is not indicated or cannot be corrected then
the actuator must be replaced.
f. Release the vacuum from the a c tu a to r and the
engine speed should return to within 50 rpm of the
idle speed noted in step 2. If it does not, the plunger
may be binding due to dirt, corrosion, varnish, etc. If
the problem cannot be corrected, the actuator must
be replaced.
g. If the engine rpm noted in step 3 is not within the
specified T R C speed range, the T R C actuator must
be adjusted. See Throttle Lever A ctuator Adjusting
Procedure in section 6C.
LIGHT TRUCK SERVICE MANUAL
6E-26
ENGINE EMISSION CONTROLS
THROTTLE RETURN CONTROL SYSTEM
C AR BU R E TO R
(T Y P IC A L )
EX TE N D E D POSITION
(WHEN V A C U U M IS AP PLIED )
P R IM A R Y T H R O T T L E
LEVER
T H R O T T L E LEVER
ACTUATOR
/
M A N IF O L D V A C U U M
(V A L V E OPEN O N L Y )
ELECTRONIC
SPEED SENSO
V E N T TO ATM OSPHERE
\
SO LE N O ID
VACUUM
C O N TR O L
VALVE
E N G INE SPEED—
S IG N A L FROM
D IS T R IB U T O R
Fig. 6E-39--Throttle Return Control System
VACUUM ADVANCE CONTROL
Trapped Vacuum Spark
Trapped vacuum spark is on all engines. A thermal
vacuum switch (T V S) is used to sense engine coolant
temperature. A check valve is between manifold vacuum,
distributor and thermal vacuum switch.
HOSE
T R C S O L E N O ID
CONTROL
V A L V E ASM.
When engine temperature is below specified value, the
manifold vacuum signal is routed through the check valve to
the distributor. Ports on TVS are blocked. The check valve
will keep the vacuum to the distributor at vacuum levels
higher than manifold depression during vehicle accelera
tion. A small sintered iron bleed orifice is provided in the
check valve to allow for a leak-down to enable restarts in
case of engine stalls.
T H R O T T L E LE V E R A C T U A T O R
TRC S O LE N O ID
CO NTRO L
V A L V E ASM.
THRO TTLE V A LV E
ACTUATOR
ENG INE STUD
A C C E LE R A T O R
SUPPORT
HOSE
Fig. 6E-40--Throttle Valve (L6)
VACUUM
F IT T IN G
Fig. 6E-41--Throttle Valve (V8)
LIGHT TRUCK SERVICE MANUAL
I
ENGINE EMISSION CONTROLS
When engine temperature is above specified value, the
ports on TVS will be open to allow manifold vacuum to the
distributor. The check valve in this mode of operation acts as
a connector.
SPARK VACUUM DELAY
6E-27
Electronic Spark Control system. It mounts on the right
hand side of engine in block drain hole.
Upon replacement, avoid the use of impact type tools
and excessive torque.
• Minimum torque 16.3 N-m (12.02 ft. lbs.)
• Maximum torque 21.7 N-m (16.01 ft. lbs.)
General Description
On heavy duty emission engines a check valve with an
internal beed is installed between the Trapped Vacuum
S park check valve and the distributor. W hen manifold
vacuum increases it opens the check valve which allows the
distributor vacuum to increase to the same level. Decreasing
manifold vacuum, as during vehicle acceleration; closes the
check valve and the distributor vacuum will decrease at a
rate controlled by the internal bleed.
DETONATION SENSOR
Replacement
The Detonation Sensor is an integral part of the
VEHICLE EMISSION CONTROL INFORMATION
LABEL
The Vehicle Emission Control Information Label (Fig.
6E-42) is located in the engine compartment (fan shroud,
radiator support, hood underside, etc.) of every vehicle
produced by General Motors Corporation. The label con
tains important emission specifications and setting proce
dures, as well as a vacuum hose schematic with emission
components identified.
When servicing the engine or emission systems, the
Vehicle Emission Control Inform ation Label should be
checked for up-to-date information.
LIGHT TRUCK SERVICE MANUAL
6E-28
AD JU STM EN T
PROCEDURE
S O I. H R
r 181 4 mAN A
1040 8
CATALYST
RMATION
0
G C N ER A l M O TO R S (O R P O P ,
E N G IN E A D J U S T M E N T
S P E C IF IC A T IO N S
TRANSMISSION
TIMING (“BTC (a> R P M I
M * * ( A l l ADJUSTMENTS WITH ENGINE AT NORMAL OPERATING TEMPERATURE
HSTALLED. AMO A M CONDITIONING OH . EXCEPT WHIRS NOTiD
CHOKE FULL OPEN. AM CLEANER
E M IS S IO N HO SC
R O U T IN S
r W HERE
1 EQUIPPE
AIK flPEGR/UC
IO W AlTITUOE ( ERIIFKATION
S IT P A R K IN G B K A K l A N D H O C K D K IV t W M fflS
AAR
?•
CONTROLS
Fig. 6E-42--Vehicle
VEHICLE EMISSION CONTROL
AAR
ENGINE EMISSION
LABEL CODE
E N G IN E S IZ E
E X H A U S T E M IS S IO N F A M IL Y
E V A P O R A T IV E E M IS S IO N F A M IL Y
A IR CLEANER
700 (N)
SPARK PlUG GAP (IN )
IDLE SPEED SCREW IR P M )
Emission Control Information
(SOLENOIO INACTIVE)
I
DISTRIBUTOR
DISC ON NIC T AND PlUG VACUUM HOSE AT DISTRIBUTOR
?
O i l SP IE D SCREW
SPECIFIED ENGINI SP IE D
SIT IGNITION TIM ING AT
IDLE SPEED SOLENOID (R PM )
UNPLUG ANO RICONNICT VACUUM HOSi TO DISTRIBUTOR
(SOLENOID ACTIVE)
DISCONNECT ELECTRICAL IEAD (ROM KHE SOLENOIO * EQUIPPED
CARBURETOR IDIE SPEED SCREW TO S P K I M D SPIED
3
IDtE SPEED SOEENOID II I EQUIPPEO)
RECONNICT IEAD TO SOEENOIO
OPEN THROTTLE MOMENTARILY TO ASSURE SOLENOID
ADJUST SOLENOIO TO SPECIfKO SPIED
FAST IDEE SPEED SCREW
FAST IDEE S P IE D SCREW (R P M i
DISCONNECT IIIC TR IC A i IE AD EROM AIR CONDITIONING
COM PRESSOR ANO TURN A/C SWITCH ON
IS FULLY EXTENDED
TURN A/C OIF
ADJUST
RECONNECT COMPRESSOR LEAD ANO
f N O T! ]
MXE MIXTURE SCRIW S A M PRESET ANO SEAL 10
AT FACTORY PROVISION FOR ADJUSTMENT DURING TUNC
UP IS NOT PROVIDED
WITH ENGINE O ff. PLACE THROTTLE ON HIGH STEP OE FAST IDEE C A M
DISCONNfCT ANO P lU G V AC U UM HOSE AT EGR VALVE
START ENGINE WITHOUT TOUCHING
THROTTLE ADJUST TO SPICIFIED SPEED OPEN THROTTLE TO RELEASE FAST IDEE C A M
UNPLUG ANO RECONNECT VACU UM HOSE TO EGR V A lV f
THIS V IH IC ll CONFORMS TO U S
STOP ENGINE.
SEE SERVICE M ANUAL. MAMTENANCE SCHEDULE I ANO
EM ISSIO N HOSE ROUTING DIAG RA M FOR ADDITIONAL
INFORMATION
EPA REGULATIONS APPLICABLE TO 1911 MODEL YEAR NEW LIGHT DUTY TRUCKS
P I NO 14076117
Label
LABEL
PART NUMBER
E M IS S IO N C O M P O N E N T
A N D V A C U U M H O S E S C H E M A T IC
ENGINE EXHAUST SYSTEM
6F-1
SECTION 6F
ENGINE E X H A U S T S Y S T E M
G E N E R A L D E SC R IP T IO N
The Exhaust System is suspended by hangers attached to
the frame members (Figs. 6F-3 & 6F-4).
Annoying rattles and noise vibrations in the Exhaust Sys
tem are usually caused by misalignment of parts. When align
ing the system, leave all bolts or nuts loose until all parts are
properly aligned, then tighten, working from front to rear.
When replacing a muffler, the tailpipe(s) should also be
replaced.
Sealer such as #1051249, or equivalent, should be used at
all clamped joint connections.
'ssntsjm oaskjafr • j
ju
CATALYTIC CONVERTER
The catalytic converter is an emission control device
added to the exhaust system to reduce hydrocarbon and car
bon monoxide pollutants from the exhaust gas stream (Figs.
6F-1 & 6F-2).
THE CATALYTIC CONVERTER REQUIRES THE USE
OF UNLEADED FUEL ONLY.
Periodic maintenance of the exhaust system is not re
quired; however, if the vehicle is raised for other service, it is
advisable to check the general condition of the catalytic con
verter, pipes and muffler(s).
The catalyst in monolith converters is not serviceable.
The catalyst in bead type converters can be replaced, on
vehicle, using tool # J-29132 or off vehicle by removing the
converter or the exhaust system.
m
CO NVERT ER SHELL
CONVERTER SHELL
MONOLITH
Fig. 6F-1 — M onolith Converter
Fig. 6F-2 — Underfloor Converter
LIGHT TR U C K SER V IC E M A N U A L
6F-2
ENGINE EXHAUST SYSTEM
CONDITION
Leaking E xh a u st Gases
POSSIBLE CAUSE
Leaks at pipe joints.
CORRECTION
Tighten U -b o lt nuts at
leaking joints to 30 lb. ft.
(40 N - m ) .
Dam aged or im properly
Replace seals or packing
installed seals or packing.
as necessary.
Loose exhaust pipe heat tube
Replace seals or p acking as
required. T ighten
stud nuts or bolts
to specifications.
extension connections.
Burned or rusted ou t exhaust
Replace heat tube extensions
pipe heat tube extensions.
as required.
Tighten c lam ps at leaking
E xh aust Noises
Leaks at m anifold
or pipe connections.
con ne ctions to specified
torque. R eplace gasket or
packing as required.
Burned or blow n out
m uffler.
Replace m uffler
assembly.
Burned or rusted out
exhaust pipe.
Replace exhaust pipe.
Exhaust pipe leaking
at m an ifold flange.
Tighten attaching
bolts nuts to 17 lb. ft.
(23 N -m )
E xh a u st m anifold
cracked or broken.
Replace m an ifold.
Leak between m anifold
and cylinder head.
Tighten m a n ifold to
cylinder head stud
nuts or bo lts to specifications.
Loss o f engine pow er and/or
Dislodge d turn in g tubes and or
internal rattles in m uffler.
baffles in m uffler.
Lo ss of engine power.
Im p lo d in g (inner wall collapse)
Replace m uffler.
Replace exhaust pipe.
of exhaust pipe (except" P "
T ru ck )
LIGHT T R U C K SE R V IC E M A N U A L
ENGINE EXHAUST SYSTEM
6F-3
ON-VEHICLE S E R V IC E
Fig. 6F-3 — Catalytic Converter - CK Series
CATALYST (Figs. 6F-3 & 6F-4)
Removal (Off Vehicle)
1. Raise vehicle.
2. Remove converter.
3. Remove converter pressed fill plug by driving a small
chisel between the converter shell and the fill plug (Fig. 6F-5).
Continue to deform fill plug until it can be removed with pliers
(Fig. 6F-6).
NOTICE: Do not pry fill plug from converter as damage
to fill plug sealing surface could result.
4.
Holding converter over a container, empty catalyst
from converter by shaking until all beads are removed.
Installation (Off Vehicle)
1. Raise front of converter to approximately 45° and fill
with approved new catalyst. Filling can be accomplished by
tapping on converter belt (Fig. 6F-7) with a hammer, 90° to the
converter, while pouring beads into the converter thru the fill
plug hole. Continue tapping and pouring until converter is full.
Not all beads will be able to be installed.
2. Install service fill plug (Fig. 6F-8) as follows: Install
the bolt into the bridge and put the bridge into the converter
opening. Move bolt back and forth to loosen catalyst beads
until bridge is positioned as shown in Fig. 6F-9.
3. Remove bolt from bridge then put the washer and fill
plug, dished side out, over the bolt.
4. While holding the fill plug and washer against the bolt
head (Fig. 6F-10), thread the bolt 4 or 5 turns into the bridge.
LIGHT TR U C K SE R V IC E M A N U A L
6F-4
ENGINE EXHAUST SYSTEM
BOTTOM COVER REPLACEMENT
Fig. 6F-5 — R em o vin g Pressed Plug
5.
(28 lb.
6.
7.
After the fill plug is seated, tighten the bolt to 38 N-m
ft.).
Install converter.
Start engine and check for leaks.
BOTTOM COVER
1. Remove bottom cover by cutting close to the bottom
outside edge, Fig. 6F-11. Do not remove the fill plug. The
depth of the cut must be very shallow to prevent damage to the
inner shell of the converter.
2. Remove insulation.
3. Inspect inner shell of the converter for damage. If
there is damage in the inner shell, the converter assembly
must be replaced.
4. Place new insulation in the replacement cover (Fig.
6F-12). Apply sealing compound, #8998245 or equivalent, all
around the cover after the insulation is in position. Apply
extra sealer at the front and rear opening for the pipes (Fig.
6F-13).
If, for any reason, the bottom cover of the converter is
torn or damaged, it can be replaced with a repair kit.
BRIDGE
Fig. 6F-8 — Service Fill Plug
LIGHT TR U C K SE R V IC E M A N U A L
ENGINE EXHAUST SYSTEM
6F-5
Fig. 6F-11 — R em o vin g Bottom Cover
Fig. 6F-9 — Positioning Fill Plug Bridge
5. Install replacement cover on converter (Fig. 6F-14).
6. Install cover retaining channels on both sides of the
converter (Fig. 6F-15).
7. Attach 2 clamps over retaining channels at each end of
the converter (Fig. 6F-16).
Fig. 6F-12 — Catalytic Converter Insulation
Fig. 6F-10 — Installing Fill Plug
Fig. 6F-13 — Catalytic Converter Inner Shell
LIGHT TR U C K SE R V IC E M A N U A L
6F-6
ENGINE EXHAUST SYSTEM
Fig. 6F-14 — Installing Bottom Cover Replacement
Fig. 6F-15 — Installing Bottom Cover Retaining Channels
LIGHT T R U C K SE R V IC E M A N U A L
ENGINE PERFORMANCE SPECIFICATIONS
6G-1
SECTION 6G
ENGINE PERFORMANCE SPECIFICATIONS
T H E F O L L O W IN G C H A R T R E P R E S E N T S T H E L A T E ST C E R
T IF IE D IN F O R M A T IO N A V A IL A B L E AT T IM E O F P R IN T IN G .
A L W A Y S R E F E R TO T H E V E H IC L E E M IS S IO N C O N T R O L IN
F O R M A T IO N
LABEL
FO R
THE
M O ST
U P -T O -D A T E
IN F O R M A T IO N .
LIGHT DUTY TRUCK ENGINE PERFORMANCE SPECIFICATION CHART
DISTRIBUTOR
ENGINE AND
E M IS S IO N FAMILY
EM ISSIO N
LABEL
CODE
IGNITION
T IM IN G
B.T.D.C.
DEGREES
SPARK
PLUG
TYPE
& GAP
10°
R45TS
(.035)
SOLENOID
SCREW
(RPM)
CURB
IDLE
(RPM)
FAST
IDLE
(RPM)
4501N)
750(N)
2000(N)
4.1 L (250 C.I.D.) LE3
FAMILY 18F2HANQR
MANUAL TRANS.
FEDERAL SALES
C-10
ACR
ACS
4.1 L (250 C.I.D.) LE3
FAMILY 18F2HANQR
MANUAL TRANS.
FEDERAL SALES
K-10
ACR
ACS
4.1L (250 C.I.D.) LE3
FAMILY 18F2HANQR
MANUAL TRANS.
FEDERAL SALES
G10.20
ACS
ADA
10°
R46TS
(.035)
450 (N)
4.1 L (250 C.I.D.) LE3
FAMILY 18F2HHNR
MANUAL TRANS
CALIF. SALES
C-10
ACW
AWA
ACK
AWB
10°
R46TS
(.035)
450 (N)
4.1L (250 C.I.D.) LE3
FAMILY 18F2HHNR
MANUAL TRANS.
CALIF. & FED. SALES
G-10, G20, G30
ACX
ADB
AFA
10°
R46TS
(035)
4.1 L (250 C.I.D.) LE3
FAMILY 18F2HANQR
AUTO TRANS.
FEDERAL SALES
C-10, 20 K-10
ACT
AUU
ACU
10°
4.1 L (250 C.I.D.) LE3
FAMILY 18F2HANQR
AUTO TRANS.
FEDERAL SALES
G-10, 20
ADC
AAC
DIST.
MODEL
VACUUM
MODEL
17081621
1110589
644
17081629
‘ ill 1388
691
CARBURETOR
PART NUM BER
VA CUUM & MEC H A N ICA L ADVANCE
MECH AN ICAL
VACUUM ADVANCE
ADVANCE (Crank
(In Crank Degrees
Degrees @
@ Inches
Engine RPM )
of Vacuum)
0° @3"
16° @ 6.5"
0“ @ 3"
20° @ 7.5"
0° @ 1100
14° @ 2300
24° @ 4100
17081625
1110590
665
17081633
1110753
626
2000 (N)
17081623
17081627
1110589
644
0° @ 3"
16° @ 6.5"
0°@ 1100
14° @ 2300
24° @ 4100
750 (N)
2000 (N)
17081721
1110749
626
0° @ 4"
10° @ 8"
0° @ 1100
7° @ 2300
16° @ 4200
450 (N|
750 (N)
2000 (N)
17081727 G10
17081725 G20, 30
1110749
626
0° @ 4"
10° @ 8"
0° @ 1100
7° @ 2300
16° @ 4200
R46TS
(.035)
450 (D)
650 (D)
2200
(P or N)
17081622
1110589
644
0° @ 3"
16° @ 6.5"
0° @ 1100
14° @ 2300
24° @ 4100
8°
R46TS
(.035)
450(D)
650 ID)
700 (D) AAC
2200
(P or N)
17081624
17081626
1110589
644
0° @ 3"
16° @ 6.5"
0° @ 1100
14° @ 2300
24° @ 4100
ACY
AWC
ACZ
AWD
10°
R46TS
(.035)
450 (D|
650 (D)
2200
(P or N)
17081720
1110749
626
0° @ 4"
10° @ 8"
0° @ 1100
7° @ 2300
16° @ 4200
4.1 L (250 C.I.D.) LE3
FAMILY 18F2HHNR
AUTO TRANS.
CALIF. & FED. SALES
G10, 20, 30
ACZ
ADD
AFB
10°
R46TS
(.035)
450 (D)
650 (0)
2200
IP or N)
17081726
1110749
626
0° @ 4"
10° @ 8"
0° @ 1100
7° @ 2300
16° @ 4200
4.8 L (292 C.I.D.) L25
FAMILY GM 112
MANUAL TRANS.
NATION WIDE
CK20, 30; P20, 30
ADF
ADM
ADH
8°
R44T
(.035)
4501N)
7001N)
2400(N)
17081309
17081680
1110753
626
0° @ 4"
10° @ 8"
0° @ 1100
14° @ 2300
24° @4100
4.1 L (250 C.I.D.) LE3
FAMILY 18F2HHNR
AUTO TRANS.
CALIF. SALES
C-10
‘ THROTTLE RETURN CONTROL SPEED 1500 RPM
10°
R46TS
(.035)
750 (N)
450 (N)
_•
Fig.
t r -
6
1
2000 (N)
750 (N)
LABEL 800 (N) ADA
n
•
n
r
-f
0° @ 4"
15° @ 10"
1
0° @ 1100
14° @ 2300
24° @ 4100
*•
G - 1 --Engine Perform ance Specifications
LIG H T T R U C K SERVICE M A N U A L
6G-2
ENGINE PERFORMANCE SPECIFICATIONS
LIGHT DUTY TRUCK ENGINE PERFORMANCE SPECIFICATION CHART
DISTRIBUTOR
ENGINE AND
EMISSION FAMILY
IGNITION
TIMING
B.T.D.C.
DEGREES
EMISSION
LABEL
CODE
SPARK
PLUG
TYPE
& GAP
SOLENOID
SCREW
(RPM)
CURB
IOLE
(RPM)
FAST
IDLE
(RPM)
CARBURETOR
PART NUMBER
DIST.
MODEL
VACUUM
MODEL
VACUUM & MECHANICAL ADVANCE
VACUUM ADVANCE
MECHANICAL
(In Crank Degrees
ADVANCE (Crank
@ Inches
Degrees @
of Vacuum)
Engine RPM)
8°
R44T
. (.035)
450 (N)
700 (N)
2400 (N)
17081309
17081680
1110753
626
0° @ 4"
10° @ 8"
0C @ 1100
14c @ 2300
24° @ 4100
8°
R45TS
(.045)
700 (N)
600 (N)
1300 (N)
17081143
17081145 w/AC
1103381
691
0° @ 3"
1 0 ° 7 .5 "
0° @ 1200
8° @ 2000
20° @ 4200
AAA
8C
R45TS
(.045)
700 (N)
600 (N)
1300 (N)
17081101
17081103 w/AC
1103369
644
0° @ 3*'
16° @ 6.5"
0° @ 1200
8° @ 2000
20° @ 4200
5.0L (305 C.I.D.) LG9
FAMILY 18Y2HAN
AUTO TRANS
FEDERAL SALES
CIO; G10, 20
AAB
8°
R45TS
(.045)
600 (D)
500 (D)
1600
(P or N)
17081142
17081144 w/AC
1103381
691
0° @ 3"
10° @ 7.5"
0° @ 1200
8° @ 2000
20° @ 4200
5.0L (305 C.I.D.) LE9
FAMILY 18Y4HAN
MANUAL TRANS
FEDERAL SALES
C-10
AAF
4°
R45TS
(0.45)
700 (N)
1300 INI
17081201
1103464
Elect
Spark
Control
5.0L (305 C.I.D.) LE9
FAMILY 18L4HANA
MANUAL TRANS.
FEDERAL SALES
CIO. 20; K10
AAM
AAR
4C
R45TS
(0.45)
700 (N)
1300 (N)
17081220
1103464
Elect
Spark
Control
5.0L (305 C.I.D.) LE9
FAMILY 18L4HANA
MANUAL TRANS.
FEDERAL SALES
C-10
AUS
4° .
R45TS
(.045)
600 (N)
1500 (N)
17081200
1103465
Elect
Spark
Control
5.0L (305 C.I.D.) LE9
FAMILY 18L4HANA
MANUAL TRANS.
FEDERAL SALES
G10, 20
AAJ
6C
R45TS
(.045)
700 (N)
1300 (N)
17081220
1103464
Elect
Spark
Control
5.0L (305 C.I.D.) LE9
FAMILY 18Y4HANA
AUTO TRANS.
FEDERAL SALES
C-10
AAH
4C
R45TS
(045)
500 (D)
1600
(PI or (N)
17081206 w/AC
17081205
1103464
Elect
Spark
Control
5.0L (3.05 C.I.D.) LE9
FAMILY 18Y4HANA
AUTO TRANS.
FEDERAL SALES
C-10. 20: K-10
AAN
6°
R45TS
(.045)
500 (D)
1600
(P) or
17081227
17081226 w/AC
1103464
Elect
Spark
Control
4.8L 1292 C I D.) L25
FAMILY GM112
AUTO TRANS
NATION WIDE SALES
CKP20, 30
ADF
ADM
ADH
5.0L (305 C I D.) LG9
FAMILY 18Y2HAN
MANUAL TRANS.
FEDERAL SALES
C-10
AAA
5 0L (305 C I D.) LG9
FAMILY 18Y2HAN
MANUAL TRANS
FEDERAL SALES
G10, 20
'r
026
,
'
,
AAS
2°
'THROTTLE RETURN CONTROL SPEED 1500 RPM
LIGHT DUTY TRUCK ENGINE PERFORM ANCE SPECIFICATION CHART
DISTRIBUTOR
SPARK
PLUG
TYPE
& GAP
5.0L (305 C.I.D.) LE9
FAMILY 18L4HANA
AUTO TRANS.
FEDERAL SALES
G10, 20
AAK
4°
R45TS
(.045)
5.0L (305 C.I.D.) LF3
FAMILY 18L4HHNA
AUTO TRANS.
CALIF. SALES
C-10
ACC
AWF
ACD
ACF
8°
R45TS
(.045)
5.7L (350 C.I.D.) LS9
FAMILY 18L4HANA
MANUAL TRANS.
FEDERAL SALES
C-10; K-10, 20
AAT
8°
5.7L (350 C.I.D.) LS9
FAMILY 18L4HANA
MANUAL TRANS.
FEDERAL SALES
G-10, 20
AAW
5.7L (350 C.I.D.) LS9
FAMILY 18L4HANA
AUTO TRANS.
FEDERAL SALES
C-10, K-10, 20
SOLENOID
SCREW
(RPM)
VACUUM & MECHANICAL ADVANCE
MECHANICAL
ADVANCE (Crank
Degrees @
Engine RPM)
FAST
IDLE
(RPM)
CARBURETOR
PART NUMBER
DIST.
MODEL
VACUUM
MODEL
500 (D)
1600
(P) or (N)
17081227
17081226 w/AC
1103464
Elect
Spark
Control
550(D)
1800
(P) or (N)
17081526 w/AC
17081524
1103432
620
0° @ 4"
15° @ 12"
0° @ 1000
10° @ 2000
14° @ 4000
R45TS
(.045)
700 (N)
1300(N)
17081291
1103353
624
0° @ 4"
20° @ 10
0° @
12° @
16° @
22° @
1100
1600
2400
4600
8°
R45TS
(.045)
700 (N)
1300(N)
17081291
1103353
624
0° @ 4"
20° @ 10
0° @
12° @
16° @
22° @
1100
1600
2400
4600
AAU
8°
R45TS
(.045)
600 (D)
500 (D)
1600'
(P) or (N)
17081290
17081292 w/AC
1103353
624
0° @ 4"
20° @ 10"
5.7L (350 C.I.D.) LS9
FAMILY 18L4HANA
AUTO TRANS.
FEDERAL SALES
G-10, 20
AAK
8°
R45TS
(.045)
600 (D)
500 (D)
1600
(P) or (N)
17081290
17081292 w/AC
1103353
624
0° @ 4"
20° @ 10"
0” @
12” @
16° @
22° @
1100
1600
2400
4600
5.7L (350 C.I.D.) LS9
FAMILY 18L4HHNA
AUTO TRANS.
CALIF. SALES
CK-10
AAZ
AAD
6°
R45TS
(.045)
650 (D)
550 (D)
1800
(P) or (N)
17081506
17081508 w/AC
1103433
620
0° @ 4"
15° @ 12"
0” @
12“ @
16° @
22” @
1100
1600
2400
4600
AAZ
6°
R45TS
(.045)
650 (D)
550 (D)
1600
(P or N)
17081506
17081508 w/AC
1103433
620
0° @ 4"
15° @ 12"
AAD
8°
1103339
626
0° @ 4"
10° @ 8"
0°@
12” @
16° @
22° @
1100
1600
2400
4600
1103433
620
0° @
12° @
16” @
22° @
1100
1600
2400
4600
ENGINE AND
EMISSION FAMILY
5.7L (350 C.I.D.) LS9
FAMILY 18L4HHNA
AUTO TRANS.
CALIF. SALES
CK-20
5.7L (350 C.I.D.) LS9
FAMILY 18L4HHNA
CALIF. SALES
G10, 20
ACA
ACB
8°
R45TS
(.045)
650 (D)
650 (D)
0
VACUUM ADVANCE
(In Crank Degrees
@ Inches
of Vacuum)
CURB
IDLE
(RPM)
I i i i
IGNITION
TIMING
B.T.D.C.
DEGREES
(© © © ©
EMISSION
LABEL
CODE
550 (D)
1800
(P or N)
17081506
17081508 w/AC
Fig. 6G -2--Engine Performance Specifications
LIG H T T R U C K SERVIC E M A N U A L
-
0° @ 4"
15° @ 12"
ENGINE PERFORMANCE SPECIFICATIONS
LIGHT DUTY TRUCK ENGINE PERFORMANCE SPECIFICATION CHART
VACUUM 8. MECHANICAL
ADVANCE
MECHANICAL
VACUUM
ADVANCE
ADVANCE
DISTRIBUTOR
EMISSION
LABEL
CODE
IGNITION
TIMING
B.T.D.C.
DEGREES
SPARK
PLUG
TYPE
& GAP
5.7L (350 C.I.D.) LT9
FAMILY GM113
MANUAL TRANS.
FEDERAL SALES
CK-20
ACJ
4°
5.7L (350 C.I.D.) LT9
FAMILY GM113
MANUAL TRANS.
FEDERAL SALES
G-30
ACJ
ACM
5.7L (350 C.I.D.) LT9
FAMILY GM113
MANUAL TRANS.
CALIF. SALES
CK-20, 30
SOLENOID
SCREW
(RPM)
CURB
IDLE
(RPM)
FAST
IDLE
(RPM)
CARBURETOR
PART NUMBER
R44T
(.045)
*1600
700 (N)
1900 (N)
17080213
1103375
620
0° @ 4"
10° @ 8"
0 ° @ 1150
17° @ 2900
22° @ 4200
4°
R44T
(.045)
*1600
700 (N)
1900 (N)
17080298
1103375
620
0° @ 4”
14° @ 8"
0°@ 3"
16° @ 6.5"
0 ° @ 1150
17° @ 2900
22° @ 4200
ACK
6°
R44T
(.045)
*1500
700 (N)
1900 (N)
17080507
1103420
681
0° @ 10
10° @ 13"
0° @ 1800
24° @ 4000
5.7L (350 C.I.D.) LT9
FAMILY GM113
MANUAL TRANS.
CALIF. SALES
G-30
ACK
6°
R44T
(.045)
*1500
700 (N)
1900 (N)
17080507
1103420
681
0° @ 10"
10° @ 13"
0° @ 1800
24° @ 4000
5.7L (350 C.I.D.) LT9
FAMILY GM113
MANUAL TRANS.
FEDERAL SALES
P-20, 30
ACJ
ACM
4°
R44T
(.045)
*1600
700 (N)
1900 (N)
17080213
1103375
626
0° @ 4"
10° @ 8"
0 ° @ 1150
17° @ 2900
22° @ 4200
5.7L (350 C.I.D.) LT9
FAMILY GM113
MANUAL TRANS.
CALIF. SALES
P-30
ACK
6°
R44T
(.045)
*1500
700 (N)
1900 (N)
17080513
1103420
681
0 ° @ 10"
10° @ 13"
0° @ 1800
24° @ 4000
5.7L (350 C.I.D.) LT9
FAMILY GM113
AUTO TRANS.
FEDERAL SALES
CK-20, 30
ACJ
4°
R44T
(.045)
*1600
700 (N)
1900 (N)
17080213
1103375
626
0° @ 4"
10° @ 8"
0 ° @ 1150
17° @ 2900
22° @ 4200
ACJ
ACM
4°
R44T
(.045)
*1600
700 (N)
1900 (N)
17080298
1103375
681
0° @ 4"
10° @ 8"
0° @ 1150
17° @ 2900
22° @ 4200
ACK
6°
R44T
(.045)
*1500
700 (N)
1900 (N)
17080513
1103420
681
0° @ 4"
15° @ 10"
0 ° @ 1000
17° @ 1600
22° @ 4200
ENGINE AND
EMISSION FAMILY
5.7L (350 C.I.D.) LT9
FAMILY GM113
AUTO TRANS.
FEDERAL SALES
G-30
5.7L (350 C.I.D.) LT9
FAMILY GM113
AUTO TRANS.
CALIF. SALES
CK-20, 30
DIST.
MODEL
VACUUM
MODEL
(Crank
Degrees @
Engine RPM)
(In Crank
Degrees @
Inches of
Vacuum)
•THROTTLE RETURN CONTROL SPEED
LIGHT DUTY TRUCK ENGINE PERFORMANCE SPECIFICATION CHART
DISTRIBUTOR
MECHANICAL
ADVANCE (Crank
Degrees @
Engine RPM)
681
0° @ 4 "
15° @ 10"
0° @ 1000
17° @ 1600
22° @ 4200
1103375
626
0° @ 4 "
14° @ 8
0° @ 1000
8° @ 1600
19° @ 3450
17080513
1103420
681
0° @ 4 "
15° @ 10"
0° @ 1000
17° @ 1600
22° @ 4200
1900 (N)
17080212
17080512
1103376
682
0° @ 8 "
10° @ 13
0° @ 1100
14° @ 2800
20° @ 4200
700 (N)
1900 (N)
17080212
17080512
1103376
682
0° @ 8 "
10° @ 13"
0° @ 1100
14° @ 2800
20° @ 4200
G LO W
PLUG
575 ID)
650 (D)
Mechanical
Fuel Injection
Injector
Pump
GLO W
PLUG
600 (D)
750 (D)
Mechanical
Fuel Injection
Injector
Pum p
EM ISSIO N
LABEL
CODE
SPARK
PLUG
TYPE
& GAP
5.7L (350 C.I.O.) LT9
FA M IL Y G M113
AU TO T R AN S.
CALIF. S A L E S
G-30
AC K
6°
5.7L (350 C.I.D.) LT9
F A M IL Y G M113
AU TO T R AN S.
FED ERAL S A L E S
P-30
AC J
ACM
5.7L (350 C.I.D.) LT9
F A M IL Y G M113
AU TO T R A N S
CA LIF S A L E S
P-30
SOLENOID
SCREW
(RPM)
CURB
IDLE
(RPM)
FAST
IDLE
(RPM)
CARBURETOR
PART NUMBER
DIST.
MODEL
VACUUM
MODEL
R44T
(.045)
*1500
700 (N)
1900 (N)
17080507
1103420
4°
R44T
(.045)
*1600
700 (N)
1900 (N)
17080213
17080215
AC K
6°
R44T
(.045)
*1500
700 (N)
1900 (N)
7.4L (454 C.I.D.) LE8
F A M IL Y G M115
M A N U A L T R AN S.
N A T IO N W ID E
C-20, 30; K-30
ADJ
AD K
4°
R44T
(.045)
*1500
700 (N)
7.4L (454 C.I.D.) LE8
F A M IL Y G M115
AUTO T R A N S.
N A T IO N W ID E
P-30
ADJ
AD K
4°
R44T
(.045)
*1500
5.7L (350 C.I.D.) LF9
FA M IL Y 19J9ZZ
AU TO T R AN S.
FED ER AL S A L E S
C-10
O JD
8°
5.7L (350 C.I.D.) LF9
FA M IL Y 19J9ZZP
AU TO T R AN S.
CALIF. S A L E S
C-10
HKD
OHD
5°
ENGINE AND
EMISSIO N FAMILY
VACUUM & MECHANICAL ADVANCE
VACUUM ADVANCE
(In Crank Degrees
@ Inches
of Vacuum)
IGNITION
TIMING
B.T.D.C.
DEGREES
♦THROTTLE RETURN CO N TR O L SPEE D
Fig. 6G-3~Engine Performance Specifications
6G -3
it
u. ,;>■
'■ ■ .• tv
■!
<
. f. •
A U T O M A T IC TRAN SM IS S IO N
7A-1
SECTION 7 A
AUTOMATIC TRANSMISSION
CONTENTS
T o rq u e C o n v e rter C lutch (T C C )...................................7A-1
350 A utom atic T ra n sm issio n .......................................... 7A-8
400 A utom atic T ra n s m is s io n ......................................... 7A-29
S p e c ific a tio n s.......................................................................7A-47
T O R Q U E CO N V ER T ER CLUTCH (TCC)
INDEX
G eneral D escription..........................................................
C onverter Clutch D iagnosis............................................
Com plaints and Possible C auses...............................
Converter Clutch Applied In All Ranges...............
Converter Clutch Applies E rratically ......................
Converter Clutch Applies At All T im e s................
Internal C ontrols C h eck ................................................
Internal H ydraulic/M echanical Controls Check...
7A-1
7A-4
7A-4
7A-4
7A-5
7A-5
7A-5
7A -5
External Controls C h e c k ...............................................
Vacuum Switch C heck.................................................
Low A nd High Vacuum Switch Check (Diesel)...
High Vacuum Switch A d ju stm en t...........................
Therm al Vacuum Valve C h e ck .................................
Brake Release Switch C h e ck ......................................
Solenoid Diode C h e c k .................................................
7A-6
7A-6
7A-6
7A-6
7A-7
7A-7
7A-7
G EN ER A L D E SC R IP T IO N
The torque converter clutch (as shown in Fig. 7A -la)
is an internal mechanism (with a friction material attached
to the front plate) splined to the turbine assembly, and when
operated applies against the converter cover. This provides
a mechanical direct drive coupling of the engine to the
planetary gears. By applying the converter clutch, slippage
is eliminated, resulting in improved fuel economy and
reduced fluid operating tem peratures.
The operation of the converter clutch is determined by
a series of controls, and by drive range selection (as shown
in Fig. 7A-2a and 2b). The converter clutch is applied in
direct drive and above a m inimum preset vehicle speed. At
wider throttle openings, where the 2-3 upshift occurs above
converter clutch apply, the apply o f the converter clutch will
occur immediately after the 2-3 shift. W hen vehicle speed
decreases or the transmission shifts out of direct drive, the
fluid pressure is released, the converter clutch is released,
and the converter operates in a conventional manner.
The apply or release of the converter clutch is
determ ined by the direction that converter feed oil is fed to
the converter. Converter feed oil from the pressure regulator
valve flows to the converter clutch apply valve. The position
of the converter clutch apply valve controls which direction
converter feed oil flows to the converter.
A spring loaded dam per assembly is splined to the
converter turbine assembly. The converter clutch pressure
plate is attached to the pivoting mechanism of the dam per
assembly. This pivoting action allows the pressure plate to
rotate independent of the dam per assembly, up to
approximately 45 degrees. The rate of independent rotation
is controlled by the pivoting mechanism acting on the
springs in the dam per assembly. The spring cushioning
effect of the dam per assembly aids in reducing converter
clutch apply "feel."
To further aid the apply and release of the converter
clutch during various driving situations, controls have been
incorporated in the electrical system. The converter clutch
is applied when all of the following conditions exist:
•
•
•
•
•
Transmission in 3rd gear
Vehicle exceeds 24 to 30 m ph (38 to 48 k m /h )
Engine coolant is above 130° F (54°C)
Engine vacuum is above 2.5 in. hg.(8 kPa)
B rake pedal is released
LIGHT T R U C K SE R V IC E M A N U A L
7A-2
A U TO M A TIC TRAN SM ISSIO N
TURBINE
THRUST
SPACER
C O N V E R T E R H O US IN G
COVER ASS EM B LY
PRESSURE
PLATE
ASSEMBLY
CONVERTER PUMP
ASSEMBLY
Fig. 7A-1 a--Torque Converter C lutch Exploded V ie w
LIGHT TR U C K SE R V IC E M A N U A L
A U T O M A T IC T R A N SM IS S IO N
7A-3
CRUISE CONT. HARN.
ENGINE
(OPENS IF COOLANT
TEMP. GREATER THAN 130°F)
VACUUM SWITCH
(CLOSES VAC. AT 7 IN. HG.
OPENS VAC. AT 2.5 IN. HG.)
PASSENGER
COMPARTMENT
ENGINE HARNESS
TRANSMISSION
GOVERNOR OIL
PRESSURE
SWITCH
(CLOSES WHEN
VEHICLE SPEED
EXCEEDS 24 TO 30 MPH)
CONVERTER CLUTCH
SOLENOID
(CLUTCH IS
ENGAGED IN
3RD GEAR AND
SOLENOID IS
ENERGIZED)
Fig. 7A -2a--C onverter Clutch Controls (Gas)
LIGHT T R U C K SE R V IC E M A N U A L
7A-4
A U TO M A TIC TRAN SM ISSIO N
Fig. 7A-2b~C onverter C lutch C ontrols (Diesel)
C O N V ER T ER CLUTCH D IA G N O S IS
If engine perform ance indicates an engine tune-up is
required, this should be performed, before road testing or
attem pting to diagnose the transmission. Poor engine
perform ance can result in rough shifting or other
malfunctions.
On 4 wheel drive vehicles equipped with a Torque
Converter C lutch (TCC). W hen the driver shifts from 2H
to 4L or 4H, the circuit to the TCC system is opened. A
light is provided on the instrum ent panel to indicate when
the vehicle is in 4 wheel drive. In this position (4L or 4H)
converter clutch will not apply. W hen the driver shifts back
to 2H, the TCC system should operate in a norm al manner.
IF the vehicle does not shift out of 4 wheel drive, the light
on the instrum ent panel (IP) will stay lit. The converter
clutch will not apply. Use the diagnosis listed below to
determ ine the problem.
3.
R oad test vehicle to verify com plaint at norm al
operating tem perature.
Converter Clutch Applied In All Ranges, Engine
Stalls When Transmission Is Put In Gear
1.
position.
Converter clutch valve is stuck in the A PPL Y
If Converter Clutch Does Not Apply, Applies
Erratically Or At Wrong Speed During Road
Test
COMPLAINTS AND POSSIBLE CAUSES
1.
Disconnect electrical connector at transm ission case
and test female connector for 12 volts using v olt/ohm meter
(2000 rpm in N eutral).
Before faulting any com ponent parts of the TCC
system first:
a. If 12 volts are present at connector, problem is
internal (Refer to Internal C ontrols Check).
1. Check transm ission oil level, correct as needed.
2. Check m anual
required.
linkage adjustm ent,
correct as
b. N o voltage or low voltage present at connector,
problem is external (Refer to External C ontrols Check).
LIGHT TR U C K SE R V IC E M A N U A L
A U T O M A T IC TRAN SM IS S IO N
7A-5
Converter Clutch Applies Erratically, A
Shudder, Jerking, Jumping, or Rocking
Sensation
1. Vacuum hose leak.
2. Vacuum switch malfunction.
3. Release oil exhaust orifice at pum p blocked or
restricted.
4. Turbine shaft "0 "-rin g damaged.
5. Converter m alfunction, clutch pressure plate
warped.
6. Solenoid bolts loose.
7. G overnor pressure switch malfunction.
Converter Clutch Applies At A Very Low Or
High 3rd Speed Gear
1.
2.
3.
4.
5.
6.
G overnor switch m alfunction or shorted to ground.
G overnor malfunction.
High line pressure.
Converter clutch valve sticking or binding.
Solenoid inoperative or shorted to case.
S o len o id screen plugged.
INTERNAL CONTROLS CHECK
1. Disconnect transm ission case connector.
2. Using a 12 volt test light, connect positive lead to
female connector and ground negative lead to male
transm ission connector.
3. Start engine and m aintain 2000 rpm in "P A R K (P )."
a. If test light comes "O N ," the governor switch or
internal wiring is shorted to ground.
1. Remove oil pan and gasket.
2. Check wiring a n d /o r replace governor switch.
b. If test light remains "O FF," raise the rear wheels
and run vehicle in drive range until 3rd gear upshift is
obtained, m aintain 2000 rpm.
1. If test light now comes "O N ," verify the operation
of the Internal H ydraulic/M echanical Controls are working
properly (Refer to Internal H ydraulic/M echanical Controls
Check).
2. If test light remains "O F F," there is a solenoid
electrical m alfunction or governor switch m alfunction.
• Remove oil pan and gasket.
• Using an external 12 volt source, connect positive
lead to case connector term inal. Remove lead wire from
governor pressure switch and connect it to the ground lead
of the external 12 volt source.
NOTICE: The diode in the solenoid will be damaged
if the wires are connected in reverse.
• If solenoid clicks, the solenoid is O K electrically,
replace governor pressure switch.
• If solenoid does not click, check wiring to solenoid,
replace solenoid and recheck.
INTERNAL HYDRAULIC/MECHANICAL
CONTROLS CHECK
Instructions to test governor for internal H yd rau lic/
M echanical Check.
1. O btain test a governor.
2. Cut two (2) pieces of 5/32 in. (4 mm) outside
diam eter vacuum hose into 3 /8 in. (9 mm) lengths.
3. Insert one (1) piece of hose under each weight of
governor (as shown in Fig. 7A-3a).
4. Remove engine vacuum switch electrical connector.
5. Using a jum per wire; connect both female term inals
of electrical connector together, (to check for proper
hookups, turn ignition switch to the "ON" position, raise
vehicle, and check for 12 volts at transmission case female
connector. If connections are correct you will have 12 volts
present.
6. Replace governor with test governor.
7. Lower vehicle leaving rear wheels several inches off
the ground.
8. Apply the parking brake (rear wheels m ust not be
able to turn).
9. Start engine in PA R K (P ) and run at idle.
10. Step on brake pedal (this will brake current flow to
transmission).
11. Put car in drive range, 3rd gear (transm ission will
autom atically shift into 3rd gear because the test governor
is causing high governor pressure).
12. Remove your foot from the brake pedal and the
engine should stall immediately.
a. If the engine stalls, the converter clutch internal
hydraulic and m echanical controls are working properly.
b. If the engine does not stall:
• Check for missing or damaged "0 "-rin g at end of
turbine shaft.
• C h eck solenoid for m issing plunger.
• Loose solenoid bolts.
• Defective solenoid ball seat or ball.
• Converter clutch apply valve sticking, binding, or
damaged.
LIGHT T R U C K SER V IC E M A N U A L
7A-6
A U T O M A T IC TRANSM ISSIO N
• D irect clutch oil passages in pum p blocked, restricted
2. A ttach one lead of a test light to either term inal of
or interconnected.
the vacuum switch (low or high).
3. G round the remaining terminal of the vacuum
• Converter M alfunction.
switch
(low or high).
13.
A fter test, remove test governor and replace with
4. A ttach the remaining lead of the test light to the hot
original governor. If the original governor was used for the
5. A ttach a hand vacuum pum p with a gage (J-23738
test, ensure that the weight springs are in the correct
or equivalent) to the vacuum port of the vacuum switch (low
position, before reinstalling in the vehicle.
or high).
EXTERNAL CONTROLS CHECK
6. T urn car ignition ON.
1. T urn car ignition "O N ".
7. If using a self-powered test light, connect one lead
2. Check vacuum switch connector for 12 volts and
of the test light to either term inal of the vacuum switch (low
check vacuum switch for proper operation. (Refer to
or high) and connect the rem aining lead of the test light to
Vacuum Switch Check).
the other term inal of the low or high vacuum switch. Car
a. If no voltage is present at switch:
ignition does not have to be turned O N when using this type
of test light.
1. Check fuse.
8. A ctuate hand vacuum pump.
2. Check brake switch (Refer to Brake Switch Check).
a. F or LOW vacuum test light should be O FF, and
3. Check wiring to vacuum switch.
remain
O FF, until vacuum gage reads approximately 5.5 in.
b. If 12 volts are present at switch, and switch check
(18 kPa) of vacuum.
OK, continue to Step 3.
b. F or H IG H vacuum test light should be ON, and
3. Reconnect electrical connector to vacuum switch
remain ON, until vacuum gage reads approximately 12.5 in.
and using a hand held vacuum pum p with a gage (J-23738
(41 kPa) of vacuum. Test light should be O F F with vacuum
or equivalent) apply 2.5 to 7 in. (18 to 23 kPa) of vacuum
above 12.5 in. (41 kPa).
to vacuum switch.
9. Decrease vacuum slowly.
4. W ith the ignition switch in the "O N " position,
a. F or LOW vacuum test, light should remain O N
check for 12 volts at female end of transm ission connector.
until vacuum drops to approxim ately 4 in. (13 kPa).
a. If "N O " or low voltage is present, check and repair
b. F or H IG H vacuum test, light should come back ON
the wire between vacuum switch and transmission.
at 12.5 in. (41 kPa) high vacuum.
b. if 12 volts are present at transm ission, check
10. If the LOW vacuum switch does not turn the test
Therm al Vacuum Valve for proper operation (Refer to
light "O N " at approxim ately 5.5 in. (18 kPa) of vacuum and
Therm al Vacuum Valve Check) if operation checks OK
"O FF" at approxim ately 4 in. (13 kPa) of vacuum, the low
return vehicle to owner.
vacuum switch is malfunctioning.
VACUUM SWITCH CHECK
11. If the H IG H vacuum does not turn O F F and O N
at approxim ately 12.5 in. (41 kPa) of vacuum, the high
1. D isconnect vacuum hose and electrical connector
vacuum switch is malfunctioning.
from vacuum switch.
2. A ttach one lead of a test light to either term inal of
the vacuum switch.
3. G round rem aining term inal of vacuum switch.
4. Apply 12 volts to rem aining test light lead.
5. A ttach a hand vacuum pum p with a gage (J-23738
or equivalent) to vacuum port of switch.
6. T urn ignition "O N ".
7. A ctuate hand vacuum pump. Test light should be
"O FF" and rem ain O F F until hand vacuum pum p gage
reads between 2.5 and 7 in. (8 to 23 kPa) of vacuum. Test
light should come "O N ".
8. Decrease vacuum slow ly-light should remain
"O N " until vacuum drops to between 1.5 and 2.5 in. (5 to
8 kPa) of vacuum.
9. If the vacuum switch does not turn the test light
"O N " and "O F F " between the values specified, the switch
is defective.
10.
The high vacuum limit, (the point at which the test
light goes "O U T ") and the low vacuum limit, (the point at
which the test light comes back "O N ") must have at least
4 in. (13 kPa) of vacuum difference.
HIGH VACUUM SWITCH ADJUSTMENT
(DIESEL)
The high vacuum switch m ust be adjusted anytime the
throttle rod, transmission vacuum valve and high idle speed
adjustm ents are changed.
1. Disconnect
high
vacuum
switch
electrical
connector.
2. Using self-powered test light, connect one lead to
either term inal of the high vacuum switch and connect the
probe of the test light to the other vacuum switch terminal.
3. Start engine and run at high idle speed. Energize fast
idle solenoid by disconnecting pink and green wire
connector from coolant switch located on the left rear of the
engine on the intake manifold.
4. Remove seal cap on back of high vacuum switch.
5. High vacuum switch contacts m ust be closed (test
light O N ) before m aking adjustm ent. If contacts are open
(test light O FF), turn switch adjustm ent screw clockwise
until contacts close (test light ON).
6. A djust vacuum switch by slowly turning the
adjustm ent screw counterclockwise until switch contacts
just open (test light O FF). T urn adjustm ent screw slowly
LOW AND HIGH VACUUM SWITCH CHECK
to prevent adjusting past this position.
(DIESEL)
7. Reinstall seal cap on back of switch, reconnect high
1.
Disconnect vacuum hose and electrical connector vacuum switch electrical connector, and reconnect coolant
switch connector.
from vacuum switch (low or high).
LIGHT TR U C K SE R V IC E M A N U A L
A U TO M A TIC TR A N SM IS S IO N
IF A IR CLEANER IS REM OVED WHEN M A K IN G SW IT C H ADJUSTM ENT. THE
EGR SO LENO ID PORT TO THE EGR VA LVE M UST BE PLUGGED TO PREVENT
A VA CU UM LEAK AT THE EGR SO LEN O ID .
7A-7
4. Connect one lead of the test light to the remaining
brake release switch terminal.
5. A ttach rem aining lead of test light to brake
connector wire. The test light should now be "O N ".
6. A pply brakes. Test light should now go "O U T". If
test light is "O F F" before applying brakes or "O N " during
brake apply, switch is malfunctioning, replace switch.
SOLENOID DIODE CHECK
Solenoids should not be bench tested by touching the
leads to an autom otive battery. The internal diode will be
destroyed by touching the negative term inal (BLA CK ,
m arked with -) to the positive battery term inal and the
positive term inal (R ED , +) to negative battery terminal.
Fig. 7A-4a— High Vacuum Switch Adjustment
THERM AL V A C U U M VALVE CHECK
1. D isconnect vacuum hose at vacuum switch.
2. A ttach vacuum gage to hose.
3. Start car and check vacuum in Park(P).
a. W ith engine cold, engine coolant tem perature below
130° F (54°C), vacuum at idle and at 2000 rpm should read
zero(O).
b. W ith engine warm (approxim ately five minutes
running time at fast idle), engine coolant tem perature above
130° F (54°C), vacuum at idle should be zero(O), while
vacuum at 2000 rpm should be 10 in. (33 kPa) minimum.
Diode used in solenoids may be checked using O N LY
a M E T E R R E A D IN G or SCA LE-TY PE ohm meter, set
on the X I SCALE. Electronic or digital-type meters,
C A N N O T be used because a false defective indication can
be obtained.
Proper procedure is as follows:
1. Set the SC A LE-TY PE or M E T E R -R E A D IN G
ohm m eter on the X I SCA LE and zero the needle.
2. A ttach the PO SITIV E SO LEN O ID LEA D (R ED ,
marked with +) to the POSITIVE METER LEAD and the
NEGATIVE SOLENOID LEAD (black, marked - ) to the
NEGATIVE METER LEAD.
a. A m eter reading of 20 to 40 ohms (depending on
solenoid tem perature), diode or coil is nor shorted.
BRAKE SW ITC H CHECK
b. A m eter reading of 0 ohms, diode or coil is shorted.
1. D isconnect electrical connector from rear of brake
switch. These are the cruise co ntrol/converter clutch release
terminals.
c. Open circuit reading, coil is open.
2. T urn ignition switch on the "O N " position.
3. Now ground one of the term inals of the brake
release switch.
3. Reverse the solenoid lead attachm ent.
a. Lower reading than in Step 2 (usually 2 to 15 ohms),
solenoid is OK.
b. Same reading as in Step 2, diode is open.
LIGHT TRU CK SE R V IC E M A N U A L
7A-8
A U TO M A TIC TRAN SM ISSIO N
350 A U T O M A T IC T R A N S M IS S IO N
INDEX
General D escription.......................................................... .7A-8
M aintenance and A d ju stm e n t.........................................7A-9
Transm ission F lu id ..........................................................7A-9
Checking Transm ission M o u n t................................... .7A -11
Shift C o n tro ls................................................................... .7A-11
D etent Downshift C able............................................... .7A-12
N eutral Start S w itch........................................................7A-12
D iagnosis...............................................................................7A -14
Diagnosis Sequence......................................................... .7A-14
Fluid Checking P ro ced u res.......................................... .7A-14
Fluid Leak D iagnosis.......................................................7A-14
Fluid Pressure C heck..................................................... .7A-15
Case Porosity R e p a ir..................................................... .7A-15
Vacuum M odulator D iag n o sis.................................... .7A -15
Clutch Plate D iagnosis........................................ ...........7A-16
Causes of Burned C lutch Plates.................................. .7A-16
G overnor Pressure C heck...............................................7A-17
M anual L in k ag e................................................................7A-17
Road T e st..........................................................................
Trouble D iagnosis...........................................................
Clutch Apply C h a rt........................................................
Diagnosis C h a r t...............................................................
H ydraulic C ircuit.............................................................
On Vehicle Service.............................................................
Transmission Replacement (Except K M odels)......
Transm ission Replacem ent (K M odels).....................
Extension Housing Oil Seal........ ..................................
Speedometer Driven G e a r.............................................
Speedometer Drive G e a r ...............................................
M anual Shaft, Range Selector Inner Lever and
Parking L inkage..........................................................
G o v e rn o r...........................................................................
Vacuum M odulator and M odulator V alve...............
Valve Body A ssem bly.....................................................
1-2 A c c u m u la to r............................................................
Oil C o oler P i p e s ............................................................
7A -17
7A -17
7A-21
7A-22
7A-23, 24
7 A -25
7A-25
7A-25
7A-26
7A-26
7A-26
7A-27
7A-27
7A-28
7A-28
7A-28
7A-29
G EN ER A L D E SC R IP T IO N
The 350 transmission is a fully autom atic unit
consisting prim arily of a 3-element hydraulic torque
converter and two planetary gear sets. Four multiple-disc
clutches, two roller clutches, and an interm ediate overrun
band provide the friction elements required to obtain the
desired function of the two planetary gear sets.
The 3-element torque converter consists of a pump,
turbine and a stator assembly, with the addition of a
converter clutch. The stator is m ounted on a one way roller
clutch which will allow the stator to turn clockwise, but not
counterclockwise.
References
to
clockwise
and
counterclockwise are determ ined by looking toward rear of
vehicle.
The torque converter is of welded construction and is
serviced as a complete assembly. The unit is filled with oil
and is attached to the engine crankshaft by a flywheel, thus
always rotates at engine speed. The converter pum p is an
integral part of the converter housing, therefore, the pump
blades, rotating at engine speed, set the oil within the
converter into m otion and direct it to the turbine, causing
the turbine to rotate.
As the oil passes throughout the turbine it is traveling
in such a direction th at if it were not redirected by the stator
it would hit the rear of the converter pum p blades and
impede its pumping action. So at low turbine speeds, oil is
redirected by the stator to the converter pum p in such a
m anner that it actually assists the converter pum p to deliver
power, or multiply engine torque.
As turbine speed increases, the direction of oil leaving
the turbine changes and flows against the rear side of the
stator vanes in a clockwise direction. Since the stator is now
impeding the sm ooth flow of oil, its roller clutch releases
and it revolves freely on its shaft. Once the stator becomes
inactive, there is no further m ultiplication of engine torque
within the converter.
A t this point, the converter is merely acting as a fluid
coupling as both the converter pum p and turbine are being
driven at approximately the same speed.
A hydraulic system pressurized by a gear type pum p
provides the working pressure required to operate the
friction elements and autom atic controls.
External control connections to the transmission are:
• M anual Linkage - To select the desired operating
range.
• Engine Vacuum - To operate the vacuum m odulator.
• Cable Control - To operate the detent valve.
A vacuum m odulator is used to autom atically sense
any change in the torque input to the transmission. The
vacuum m odulator transm its this signal to the pressure
regulator, which controls line pressure, so that all torque
requirements of the transm ission are met and sm ooth shifts
are obtained at all throttle openings.
The detent valve is activated by a cable that is
connected to the accelerator lever assembly. W hen the
throttle is half open, the valve is actuated causing throttle
downshift at speeds below 50 m ph, (80 km /h). W hen the
throttle is fully open the detent valve is actuated causing the
transm ission to downshift from 3-1 at speeds below 40 mph
(65 k m /h ) and 3-2 below 75 m ph (120 km /h).
LIGHT T R U C K SE R V IC E M A N U A L
AU TO M A TIC TRAN SM ISSIO N
CONVERTER
ASSEMBLY
INTERMEDIATE
CLUTCH
INTERMEDIATE
BAND
7A-9
FORWARD
CLUTCH
LOW AND
REVERSE
CLUTCH
SUN
GEAR
OUTPUT
SHAFT
REACTION
CARRIER
GOVERNOR
AND REVERSE
OVERRUN ROLLER
INPUT
SHAFT
PARKING
PAWL
OUTPUT
CARRIER
STATOR
SHAFT
INTERMEDIATE
OVERRUN
ROLLER CLUTCH
MANUAL
SHAFT
Fig. 7 A - 1 - 3 5 0 Autom atic Transm ission, Cross-Section V iew
M A IN T E N A N C E A N D A D J U S T M E N T S
TRANSMISSION FLUID
F luid Level an d C a p a c ity
The fluid level indicator is located in filler tube at right
rear of engine. To bring the fluid level from the "A D D "
mark to the "FU L L" mark requires one pint of fluid. Fluid
level should be checked at every engine oil change.
Fluid level should be to the FU LL m ark with the
transmission fluid at normal operating tem perature of 200°F
(93°C). W ith warm fluid at room tem perature of 70°F
(21°C), the level will be 1/4 in. (6 mm) below the A D D m ark
011 the dipstick. The normal operating tem perature is
obtained only after at least 15 miles (24 k m /h ) of highway
type driving or the equivalent of city driving.
LIGHT TRU C K SE R VIC E M A N U A L
7A-10
A U TO M A TIC TRANSM ISSION
NOTICE: DO NOT O V E R FIL L (or this may cause
damage to the transmission) as foaming and loss of
fluid through the vent pipe might occur as fluid heats
up.
If fluid is too low, especially when cold, complete loss
of drive may result, which can cause transmission failure.
D ra in in g an d R e fillin g T ra n s m is s io n O il P an
NOTE: DO NOT OVERFiLL. IT TAKES
ONLY ONE PINT TO RAISE
L E V E L FROM ADD TO FULL
WITH A HOT TRANSMISSION.
Fig. 7A -2 ~ D ip stick
Approxim ately 3 liters (6 pints) of fluid are required
to refill the transmission after the oil pan has been drained.
The fluid capacity of the 350 transmission and converter
assembly is approximately 10 liters (20 pints) but correct
level is determined by the mark on the dipstick
rather than by amount added. Use only D E X R O N ®
II autom atic transm ission fluid or its equivalent.
An early change to a darker color from the usual red
color a n d /o r a strong odor that is usually associated with
overheated transmission fluid is normal, and is not a positive
sign of required m aintenance or transmission failure.
C h e c k in g P ro c e d u re an d A d d in g Fluid
To determ ine proper fluid level at norm al operating
tem perature, proceed as follows:
1. Position vehicle on a level surface, place selector
lever in P A R K (P), apply parking brake and have engine
running at norm al idle.
2. Remove fluid level indicator, wipe it clean and
reinstall fully until cap seats.
3. Remove indicator and reading of fluid level should
be at full "F" mark.
4. If additional fluid is required, add D E X R O N ® II
autom atic transm ission fluid or its equivalent to "F" mark
on indicator.
If the vehicle cannot be driven sufficiently to bring the
transm ission to operating tem perature and it becomes
necessary to check the fluid level, the transmission may be
checked at room tem perature of 70°F (21°C) as follows:
1. Position selector lever in PA R K (P), apply parking
brake and start engine. DO N O T R A C E E N G IN E . Move
selector lever through each range.
2. Im m ediately check fluid level with selector lever in
Park, engine running and vehicle on LEVEL surface.
Fluid level on indicator should be 1/4 in. (6 mm) below
the "A D D " mark.
3. If additional fluid is required, add enough fluid to
bring level to 1/4 in. (6 mm) below the A D D m ark on the
dipstick. If transmission fluid level is correctly established
at 70°F, (21°C), it will appear at the FU LL m ark on the
dipstick when the transm ission reaches its norm al operating
tem perature of 200°F, (93°C).
The oil pan should be drained and the strainer cleaned
at the intervals detailed in Section O-B of this manual, and
fresh fluid added to obtain the proper level on indicator.
Section O-B also details intervals for vehicles subjected to
heavy city traffic during hot weather, or in commercial use,
or when the engine is regularly idled for prolonged periods
or when vehicle is used for towing.
D rain fluid immediately after operation before it has
had an opportunity to cool. Transm ission fluid tem perature
can exceed 350°F, (177°C).
1. Raise vehicle.
2. Support transmission with suitable jack at the
transmission.
3. W ith fluid receptacle placed under transmission oil
pan, remove oil pan attaching bolts from front and side of
pan.
4. Loosen rear pan attaching bolts approximately four
(4) turns.
5. Carefully pry transm ission oil pan loose with
screwdriver, allowing fluid to drain.
6 Remove remaining screws and remove oil pan and
gasket. Discard gasket.
7. D rain fluid from oil pan. Clean pan with solvent and
dry thoroughly with clean compressed air.
8. Remove two (2) strainer-to-valve body screws,
strainer and gasket. Discard gasket.
9. Thoroughly clean strainer assembly in solvent and
dry throughly with clean compressed air.
10. Install new strainer-to-valve body gasket, strainer
and two (2) screws.
11. Install new gasket on oil pan and install oil pan.
Tighten its 13 attaching bolt and washer assemblies to 12
ft. lb. (16 N -m ) torque.
12. Lower vehicle. A dd approxim ately 3 liters (6 pints)
of D E X R O N ® II autom atic transmission fluid or its
equivalent through filler tube.
13. W ith selector lever in P A R K (P) position, apply
hand brake, start engine and let idle (carburetor off fast idle
step). DO N O T RA CE E N G IN E .
14. Move selector lever through each range and, with
selector lever in PA R K (P) range, check the fluid level.
15. A dd additional fluid to bring level to 1/4 in. (6.35
mm) below the A D D m ark on the dipstick.
NOTICE:
Do not overfill. Foam ing can result if
overfilled.
A d d in g F luid to Fill D ry T ra n s m is s io n an d C o n v e rte r
A s s e m b ly
In cases of transmission overhaul, when a complete fill
of approximately 10 liters (20 pints) is required, proceed as
follows:
LIGHT TR U C K SE R V IC E M A N U A L
AU TO M A TIC TRANSM ISSIO N
1. Add a sufficient quantity of transmission fluid
through filler tube to raise the level to the lower portion of
the dipstick.
2. With manual control lever in PA R K (P) position,
start engine and place on cold idle cam. DO N O T RA C E
E N G IN E . Move manual control lever through each range.
3. Immediately check fluid level with selector lever in
PA R K (P), engine running and vehicle on LEVEL surface
and add additional fluid to bring level to 1/4 in. (6.35 mm)
below the "A D D " mark on the dipstick. Do not overfill.
CHECKING TRANSMISSION MOUNT
Raise vehicle on a hoist. Push up and pull down on
transmission tailshaft while observing transmission mount.
If rubber separates from metal plate of mount or if tailshaft
moves up but not down (m ount bottom ed out) replace
mount. If there is relative movement between a metal plate
of m ount and its attaching point, tighten screws or nuts
attaching mount to transmission or crossmember.
SHIFT CONTROLS
Column S h ift Linkage - CK and P Series
(Fig. 7A-3 and 4)
1. The shift tube and lever assembly must be free in
the mast jacket. See Section 3B for alignment of steering
column assembly if necessary.
2. To check for proper shift linkage adjustm ent, lift the
transmission selector lever towards the steering wheel.
Allow the selector lever to be positioned in D R IV E (D) by
the transm ission detent.
Do not use the indicator pointer as a reference to
position the selector lever. W hen performing linkage
adjustm ent, pointer is adjusted last.
7 A -1 1
3. Release the selector lever. The lever should be
inhibited from engaging low range unless the lever is lifted.
4. Lift the selector lever tow ards the steering wheel,
and allow the lever to be positioned in N E U T R A L (N) by
the transmission detent.
5. Release the selector lever. The lever should now be
inhibited from engaging reverse range unless the lever is
lifted.
6. A properly adjusted linkage will prevent the selector
lever from moving beyond both the neutral detent, and the
drive detent unless the lever is lifted to pass over the
mechanical stop in the steering column.
7. If adjustm ent is required, remove screw (A) and
spring washer from swivel (B).
8. Set transmission lever (C) in N eutral (N) position
by moving lever counterclockwise to LI detent and then
clockwise three (3) detent positions to N EU TR A L(N ).
9. Position
transmission
selector
lever
in
N E U T R A L (N ) position as determ ined by the mechanical
stop in steering column assembly.
Do not use the indicator pointer as a reference to
position the selector lever. W hen performing linkage
adjustm ent, pointer is adjusted last.
10. Assemble swivel, spring washer and screw to lever
assembly (D) and tighten screw to 20 ft. lb. (27 N*m)
11. Readjust indicator needle if necessary to agree with
the transmission detent positions. Refer to Section 9.
12. Readjust neutral start switch if necessary to provide
the correct relationship to the transmission detent positions.
Refer to Section 8.
13. Check operation (CK Series):
a. With key in "Run" position and transmission in
REV ERSE(R) be sure that key cannot be removed and that
steering wheel is not locked.
b. With key in "Lock" position and shift lever in
P A R K (P), be sure that key can be removed, that steering
wheel is locked, and that transmission remains in PA R K (P)
LIGHT TR U C K SE R V IC E M A N U A L
7A-12
A U T O M A T IC TRAN SM ISSIO N
P. WASHER
GROMMET,
COLUMN SHIFT LEVER
BUSHING
CLAMP E
L. WASHER
NUT F
COLUMN ASSEMBLY
SWIVEL D
ROD A
TRANS
LEVER C
3. Set the column shift lever in N E U T R A L (N)
position. This is obtained by rotating shift lever until it locks
into m echanical stop in the colum n assembly.
Do not use indicator pointer as a reference to position
the shift lever.
4. A ttach rod (A) to shaft assembly (B) as shown (Fig.
7A-5).
5. Slide swivel (D ) and clam p (E) onto rod (A) align
the colum n shift lever and loosely attach as shown.
6. H old colum n lever against "neutral" stop "park"
position side.
7. Tighten nut (F) to 18 ft. lb. (24 N*m)
TRANSMISSION (7)
j
GROMMET
SHAFT ASSEMBLY B
8. R eadjust indicator needle if necessary to agree with
the transm ission detent positions.
9. R eadjust neutral start switch if necessary to provide
the correct relationship to the transm ission detent positions.
Fig. 7A-5--Column Shift Linkage-G Series
when steering colum n is locked.
NOTICE: A ny inaccuracies in the above adjustm ents
m ay result in prem ature failure of the transm ission due
to operation w ithout controls in full detent. Such
operation results in reduced oil pressure and in turn
partial engagem ent of the affected clutches. Partial
engagement of the clutches with sufficient pressure to
cause apparent norm al operation of the vehicle will
result in failure of the clutches or other internal parts
after only a few miles of operation.
NOTICE: A ny inaccuracies in the above adjustm ents
may result in prem ature failure of the transm ission due
to operation w ithout controls in full detent. Such
operation results in reduced oil pressure and in turn
partial engagement of the affected clutches. Partial
engagement of the clutches w ith sufficient pressure to
cause apparent norm al operation of the vehicle will
result in failure of the clutches or other internal parts
after only a few miles of operation.
NEUTRAL START SWITCH
Column Shift Linkage - G Series (Fig. 7A-5)
The adjustm ent of the neutral start switch is described
in Section 8> Electrical.
1. The shift tube and lever assembly m ust be free in
the mast jacket.
2. Set transm ission lever (C) in "neutral" position by
one of the following optional methods.
Obtain
N E U T R A L (N )
position
by
moving
transmission lever (C) counter-clockwise to "L I" detent,
then clockwise three detent positions to "neutral" or obtain
"neutral" position by moving transm ission lever (C)
clockwise to the P A R K (P ) detent then counter-clockwise
two detents to N E U T R A L (N ).
LIGHT TR U C K SE R V IC E M A N U A L
A U T O M A T IC TRAN SM IS S IO N
7 A -1 3
DETENT CABLE ADJUSTMENT PROCEDURE
1. AFTER INSTALLATION INTO TRANSMISSION, IN
S TA L L C A BLE F I T T ING I N T O E N G I N E
B R A C K E T . IC A U TIO N l S L I D E R M U S T N O T
RATCHET THROUGH THE FITTING BEFORE OR
DURING ASSEMBLY INTO BRACKET. USE THE RE
ADJUSTMENT PROCEDURE TO CORRECT THIS
CONDITION.
2. INSTALL CABLE TER M IN A L TO CARBURETOR
LEVER.
3. OPEN CARBURETOR LEVER TO "FULL THROTTLE
STOP” POSITION TO AUTOMATICALLY ADJUST
SLIDER
ON
C A BLE
TO
CORRECT
SETTING. ICAUTIONl LOCK TAB MUST NOT BE
DEPRESSED DURING THIS OPERATION.
4. RELEASE CARBURETOR LEVER.
DETENT CABLE RE-ADJUSTMENT
PROCEDURE
IN CASE RE-ADJUSTMENT IS NECESSARY BECAUSE
OF INADVERTENT ADJUSTMENT BEFORE OR DUR
ING ASSEMBLY, OR FOR REPAIR, PERFORM THE
FOLLOWING:
1. DEPRESS AND HOLD METAL LOCK TAB.
2. MOVE SLIDER BACK THROUGH FITTING IN DIREC
TION AWAY FROM CARBURETOR LEVER UNTIL
SLIDER STOPS AGAINST FITTING.
TRANSMISSION
ASSEMBLY
3. RELEASE METAL LOCK TAB.
4. R E P E A T S T E P S 2, 3 & 4 OF A D J U S T M E N T
PROCEDURE.
LINK —
TRANSMISSION
I VIEW A
B RA CK ETENGINE
LEVER CARBURETOR
VIEW B
Fig. 7A-6— Detent Cable Adjustm ent - V-8
LIGHT TRU C K SE R V IC E M A N U A L
7A-14
AUTOMATIC TRANSMISSION
VIEW A
BOTH LOCKING LUGS MUST BE
EXPANDED AND LOCKED IN HOLE
SLIDER RE-ADJUST
DIRECTION
LOCK TAB
T.V./DETENT
CABLE
BRACKET
TERMINAL
VIEW B
LEVER ASSEMBLY
CABLE ADJUSTMENT PROCEDURE
1. Remove pump rod from lever assembly.
2. After installation to transmission, install cable fitting into
cable bracket.
CAUTION
Slider must not be ad
justed before or during assembly to bracket.
3. Install cable terminal to lever assembly.
4. Rotate the lever assembly to its full throttle stop position
to automatically adjust slider on cable to correct setting.
5. Release lever assembly & reconnect the pump rod to
lever assembly.
CABLE RE-ADJUSTMENT PROCEDURE
In case re-adjustment is necessary because of inadver
tent adjustment before or during assembly, perform the
following.
1. Remove pump rod from lever assembly, depress and
hold metal lock tab.
2. Move slider through fitting in direction away from lever
assembly until slider stops against fitting.
3. Release metal lock tab.
4. Repeat steps 4 & 5 of adjustment procedure.
Fig. 7A-6a— Detent Cable A djustm ent - Diesel
LIGHT T R U C K SE R V IC E M A N U A L
A U T O M A T IC TR A N SM IS S IO N
7 A -1 5
DETENT CABLE ADJUSTMENT PROCEDURE
1. A F T E R IN S T A L L A T IO N INTO T R A N S M IS S IO N , IN
S T A L L C A B L E FITTING INTO E N G IN E B R A C K ET .
CAUTION
S L ID E R
M U ST
NOT
RATCHET
T H R O U G H T H E FITTING B E F O R E O R D U R IN G
A S S E M B L Y INTO B R A C K E T . U S E T H E R E A D J U S T
M E N T P R O C E D U R E TO C O R R E C T T H IS C O N D I
TION.
2. IN S T A L L
LEVER.
CABLE
T E R M IN A L
TO
CARBURETOR
3. O P E N C A R B U R E T O R L E V E R T O “FU LL T H R O T T LE
S T O P ” P O S IT IO N TO A U T O M A T IC A L L Y A D JU S T
S L ID E R O N C A B L E TO C O R R E C T SET T IN G .
CAUTION
L O C K T A B M U S T NO T B E D E
P R E S S E D D U R IN G T H IS O P E R A T IO N .
4. R E L E A S E C A R B U R E T O R LE V E R .
DETENT CABLE RE-ADJUSTMENT
PROCEDURE
IN C A S E R E -A D J U S T M E N T IS N E C E S S A R Y B E C A U S E
OF
IN A D V E R T E N T
ADJU STM EN T
BEFORE
OR
D U R IN G A S S E M B L Y , O R F O R R E P A IR , P E R F O R M THE
F O L L O W IN G :
1. D E P R E S S A N D H O L D M E T A L L O C K TAB.
2. M O V E S L ID E R B A C K T H R O U G H FITTING IN
D IR E C T IO N A W A Y F R O M C A R B U R E T O R L E V E R
U N T IL S L ID E R S T O P S A G A IN S T FITTING.
3. R E L E A S E M E T A L L O C K TAB.
4. R E P E A T S T E P S 2, 3 & 4 O F A D J U S T M E N T P R O
CEDURE.
Fig. 7A-7— Detent Cable Adjustm ent - L-6
D IA G N O S IS
DIAG NO SIS SEQUENCE
FLUID CHECKING PROCEDURES
2. Check detent cable adjustm ent.
Refer to M aintenance and A djustm ent Section for fluid
checking procedures.
3. Check and correct vacuum line and fittings.
FLUID LEAK DIAG NO SIS
1. Check and correct fluid level.
4. Check and correct m anual linkage.
5. Road test vehicle.
a. Install oil pressure gage.
b. Road test using all selective ranges, noting when
discrepancies in operation or oil pressure occur.
c. A ttem pt to isolate the unit or circuit involved in the
malfunction.
d. If engine perform ances indicates an engine tune-up
is required, this should be performed before road testing is
completed or transmission correction attem pted. Poor
engine perform ance can result in rough shifting or other
malfunctions.
Determining Source of Leak
Before attem pting to correct an oil leak, the actual
source of the leak must be determ ined. In many cases, the
source of the leak can be deceiving due to "wind flow"
around the engine and transmission.
The suspected area should be wiped clean of all oil
before inspecting for the source of the leak.
The use of a "Black Light" to locate the point at which
the oil is leaking is helpful. Com paring the oil from the leak
to that on the engine or transmission dipstick, when viewed
by black light, will determ ine the source of the leak - engine
or transmission.
LIG HT T R U C K SE R V IC E M A N U A L
7A-16
A U T O M A T IC TRAN SM ISSIO N
Oil leaks around the engine and transm ission are
generally carried tow ard the rear of the vehicle by air
stream. F or example, a transm ission oil filler tube to case
leak will sometimes appear as a leak at the rear of the
transmission. In determ ining the source of a leak, proceed
as follows:
1. Degrease underside of transmission.
2. Road test to get unit at operating tem perature.
3. Inspect for leak with engine running.
4. W ith engine O F F, check for oil leaks due to the
raised oil level caused by drain back.
Possible Points of Oil Leak
1. Transmission Oil Pan Leak.
a. A ttaching bolts not correctly torqued.
b. Im properly installed or damaged pan gasket.
c. Oil pan gasket m ounting face not flat.
2. Extension Housing.
a. A ttaching bolts not correctly torqued.
b. R ear seal assembly damaged or im properly installed.
c. Square seal, extension to case, damaged or
improperly installed.
d. Porous casting. Refer to Subparagraph C.
3. Case Leak.
a. Filler pipe seal dam aged or missing; misposition of
filler pipe bracket to engine.
b. M odulator assembly "O" ring seal damaged or
im properly installed.
c. D etent cable connector seal dam aged or improperly
installed.
d. G overnor cover not tight.
e. Speedometer gear "O" ring damaged.
f. M anual shaft seal dam aged or im properly installed.
g. Line pressure tap plug loose.
h. Vent pipe (refer to item 5).
i. Porous casting. Refer to Subparagraph C.
4. Leak at F ro n t of Transmission.
a. F ront pum p seal leaks.
1. Seal lip cut. Check converter hub, etc.
2. Bushing moved and damaged, Oil return hole
plugged.
3. No oil return hole.
b. F ront pum p attaching bolts loose or bolt washer
type seals dam aged or missing.
c. F ront pum p housing "O" ring damaged or cut.
d. Converter leak in weld area.
e. Porous casting (pump).
5. Oil Comes O ut Vent Pipe.
a. Transm ission overfilled.
b. W ater in oil.
c. Foreign m aterial between pum p and case or between
pump cover and body.
d. Case - porous near converter bosses. F ront pum p
cover or housing oil channels shy or stock near breather.
See Subparagraph C.
e. Pum p to case gasket mispositioned.
FLUID PRESSURE CHECK
W hile vehicle is stationary (service brake ON), engine
speed set to 1200 rpm, transm ission oil pressure gage
attached as shown in Fig. 7A-10B, and vacuum m odulator
tube disconnected , the transm ission line pressure tap
should read 167 psi (1152 kPa) in Drive(D), 166 psi (1145
kPa) in LI or L2, and 254 psi (1752 kPa) in reverse.
While vehicle is stationary (service brake ON), engine
speed set to m aintain 12 in. hg. (39 kPa) absolute manifold
pressure, transm ission oil pressure gage attached, and
vacuum m odulator tube connected , the transmission line
pressure tap should read 85 psi (586 kPa) in D R IV E (D),
105 psi (724 kPa) in LI or L2, and 129 psi (890 kPa) in
reverse.
CASE POROSITY REPAIR
External oil leaks caused by case porosity can be
successfully repaired with the transm ission in the vehicle by
using the following recom m ended procedures:
1. Road test and bring the transm ission to operating
tem perature, approxim ately 180°F (82°C).
2. Raise vehicle on a hoist or jack stand, engine
running, and locate source of oil leak. Check for oil leaks
in Low(L), D rive(D ), and Reverse(R).
3. Shut engine off and thoroughly clean area to be
repaired with a suitable cleaning solvent and a brush and
air dry.
A clean, dry soldering acid brush can be used to clean
the area and also to apply the epoxy cement.
4. Using instructions of the m anufacturer, mix a
sufficient am ount of epoxy to m ake the repair. M ake certain
the area to be repaired is fully covered.
5. Allow cement to cure for 3 hours before starting
engine.
6. R oad test and check for leaks.
VACUUM MODULATOR DIAGNOSIS
A defective vacuum m odulator can cause one or more
of the following complaints.
1. H arsh upshifts and downshifts.
2. Delayed upshifts.
3. Soft upshifts and downshifts.
4. Slips in Low(L), D rive(D ) and Reverse(R).
5. Transmission overheating.
6. Engine burning transm ission oil.
If any one of the above com plaints are encountered, the
m odulator must be checked.
Vacuum Diaphragm Leak Check
Insert a pipe cleaner into the vacuum connector pipe
as far as possible and check for the presence of transmission
oil. If oil is found, replace the m odulator.
Gasoline or w ater vapor may settle in the vacuum side
of the m odulator. If this is found w ithout the presence of
oil, the m odulator is serviceable and should not be changed.
Atmospheric Leak Check
Apply a liberal coating of soap bubble solution to the
vacuum connector pipe seam, the crim ped upper to lower
housing seam (Fig. 7A-8). Using a short piece of rubber
tubing, apply air pressure to the vacuum pipe by blowing
into the tube and observe for leak bubbles. If bubbles appear,
replace the m odulator.
LIGHT T R U C K SE R V IC E M A N U A L
AU TO M A TIC TRAN SM ISSIO N
7A -17
Sleeve Alignment Check
Roll the main body of the m odulator on a flat surface
and observe the sleeve for concentricity to the cam. If the
sleeve is concentric and the plunger is free, the m odulator
is acceptable.
Once the m odulator assembly passes all of the above
tests, it is an acceptable part and may be reused.
TRANSMISSION CLUTCH PLATES DIAGNOSIS
1.
а.
surface
1.
2.
Fig. 7 A -8 ~ V a cu u m M o d u la to r A sse m b ly
NOTICE: D o not use any m ethod other than hum an
lung power for applying air pressure, as pressures over
6 psi (41 kPa) may dam age the m odulator.
Spring Tension Comparison Check
Using tool J-24466, as shown in Fig. 7A-9, compare
the load of a known good m odulator with the assembly in
question.
a. Install the m odulator th at is known to be acceptable
on either end of the tool.
b. Install the m odulator in question on the opposite end
of the tool.
c. H olding the m odulators in a horizontal position,
bring them together under pressure until either m odulator
sleeve ju st touches the tool. The indicator in the gage will
show white if the m odulator is acceptable. A nonconforming
m odulator will cause the indicator to shift, thus showing
blue. If white does not appear, the m odulator in question
should be replaced.
HOLD MODULATORS IN A HORIZONTAL POSITION, AS SH O W N ,
BRING THEM SLOWLY TOGETHER UNDER PRESSURE
Fig. 7A-9--Spring Tension C om parison
Lined Drive Plates.
Dry plates with compressed air and inspect the lined
for:
pitting and flaking
wear
3. glazing
4. cracking
5. charring
б. chips or metal particles imbedded in lining.
If a lined drive plate exhibits any of the above
conditions, replacement is required. Do not diagnose drive
plates by color.
2. Steel Driven Plates
Wipe plates dry and check for heat discoloration. If the
surface is sm ooth and an even color smear is indicated, the
plate should be reused. If severe heat spot discoloration or
surface scuffing is indicated, the plate must be replaced.
3. Clutch Release Springs
Evidence of extreme heat or burning in the area of the
clutch may have caused the springs to take a heat set and
would justify replacem ent of the springs.
CAUSES OF BURNED CLUTCH PLATES
1. FO R W A R D C LU TC H
a. Check ball in clutch housing damaged, stuck or
missing.
b. Clutch piston cracked, seals damaged or missing.
c. Low line pressure.
d. Pum p cover oil seal rings missing, broken or
undersize; ring groove oversize.
e. Case valve body face not flat or porosity between
channels.
2. IN T E R M E D IA T E CLU TC H
a. Interm ediate clutch piston seals damaged or
missing.
b. Low line pressure.
c. Case valve body face not flat or porosity between
channels.
3. D IR E C T CL U T C H
a. Restricted orifice in vacuum line to m odulator (poor
vacuum response).
b. Check ball in direct clutch piston damaged, stuck
or missing.
c. Defective m odulator bellows.
d. Clutch piston seals damaged or missing.
e. Case valve body face not flat or porosity between
channels.
f. Clutch installed backwards.
NOTICE: Burned clutch plates can be caused by
incorrect usage of clutch plates. Also, anti-freeze in
transmission fluid can cause severe damage, such as
LIGHT TR U C K SER V IC E M A N U A L
7A-18
A U TO M A TIC TRAN SM ISSIO N
Low L1 Range
Position the selector lever in LI range and accelerate
the vehicle from 0 mph (0 k m /h). No upshift should occur
in this range.
2ND Gear - Overrun Braking: (L2)
COOLER O il TO
RADIATOR
1-2 CLUTCH
(INTERMEDIATE)
PRESSURE TAP
Position the selector lever in D R IV E R A N G E , and
with the vehicle speed at approxim ately 35 m ph (56 k m /h ),
move the selector lever to L2 R A N G E. The transmission
should downshift to 2nd. An increase in engine R PM and
an engine braking effect should be noticed. Line pressure
should change from approxim ately 100 psi (690 kPa) to
approxim ately 125 psi (875 kPa) in 2nd.
COOLER OIL FROM
RADIATOR
DETENT CONTROL
VALVE WIRE HOLE
...... *
2-3 CLUTCH
(DIRECT) PRESSURE TAP
W
‘4 m
LINE PRESSURE TAP
Fig. 7 A -1 0 -P r e ss u r e T ap Lo cation s
large pieces of composition clutch plate m aterial
peeling off.
M ANUAL LINKAGE
M anual linkage adjustm ent and the associated neutral
safety switch are im portant from a safety standpoint. The
neutral safety switch should be adjusted so that the engine
will start in the Park (P) and N eutral (N ) positions only.
W ith the selector lever in the PA R K (P ) position, the
parking pawl should freely engage and prevent the vehicle
from rolling. The pointer on the indicator quadrant should
line up properly with the range indicators in all ranges.
ROAD TEST
Drive Range
Position selector lever in D R IV E (D) range and
accelerate the vehicle from 0 m ph (0 km /h ). A 1-2 and 2-3
shift should occur at all throttle openings. (The shift points
will vary with the throttle opening). As the vehicle decreases
in speed to 0 m ph (0 k m /h ), the 3-2 and 2-1 shifts should
occur.
Low L2 Range
Position the selector lever in L2 range and accelerate
the vehicle from 0 m ph (0 km /h ). A 1-2 shift should occur
at all throttle openings. (No. 2-3 shift can be obtained in this
range). The 1-2 shift point will vary with throttle opening.
As the vehicle decreases in speed to 0 m ph (0 k m /h), a 2-1
shift should occur.
The 1-2 shift in IN T E R M E D IA T E (D ) range is
somewhat firm er than in D R IV E R A N G E . This is normal.
1ST Gear - Overrun Braking: (L1)
Position the selector lever in L2 R A N G E at
approxim ately 30 to 50 M PH (48 to 80 k m /h), with throttle
closed, move the selector lever to L I. A 2-1 dow nshift
should occur in the speed range of approximately 45 to 30
m ph (70 to 48 km /h ), depending on axle ratio and valve
body calibration. The 2-1 downshift at closed throttle will
be accompanied by increased engine rpm and an engine
braking effect should be noticed. Line pressure should be
approxim ately 150 psi (1035 kPa). Stop vehicle.
Reverse Range: (R)
Position the selector lever in R EV ER SE(R ) Position
and check for reverse operation.
TROUBLE DIAGNOSIS, BY CONDITION
Refer to Fig. 7A-12, (Diagnosis Chart), to determ ine
a possible cause of a transm ission problem.
A dditional diagnosis of a malfunction is as follows:
No Drive in Drive (D) Range
(Install pressure gage)
• Low Oil Level - correct level and check for external
leaks or defective vacuum m odulator (leaking diaphragm
will evacuate oil from unit).
• M anual Linkage - m isadjusted, correct alignment to
m anual lever shift quadrant is essential.
• Low Oil Pressure - refer to LOW L IN E PRESSU RE.
• Forw ard Clutch:
a. Forw ard clutch does not apply - piston cracked;
seals missing or damaged; clutch plates burned (Refer to
B U R N E D C LU TC H PLATES).
b. Pum p feed circuit-to-forw ard clutch oil seal rings
missing or broken on pum p cover; leak in feed circuits;
pump-to-case gasket m ispositioned or damaged; clutch
drum ball check stuck or missing.
• Low and Reverse Roller Clutch Assembly - broken
spring, damaged cage or installed backwards.
LIGHT T R U C K SE R V IC E M A N U A L
A U TO M A TIC TRAN SM IS S IO N
H ig h
or Low
O il
Pressure
(Refer to O IL PR ESSU R E C H EC K S)
High Line Pressure
• Vacuum Leak:
a. Vacuum line disconnected.
b. Leak in line from engine to m oldulator.
c. Im proper engine vacuum.
d. Leak in vacuum -operated accessory (hoses, vacuum
advance, etc.).
• M oldulator:
a. Stuck m odulator valve.
b. W ater in m odulator.
c. Damaged, not operating properly.
• D etent System - detent valve or cable stuck in detent
position.
• Valve Body:
a. Pressure regulator a n d /o r boost valve stuck.
b. Boost valve sleeve broken or defective.
c. Incorrect pressure regulator valve spring.
d. 2-3 shift control valve and sleeve installed in pressure
regulator bore.
e. Pressure regulator exhaust hole not drilled or
blocked.
Low Line Pressure
• Low transmission oil level.
• Defective vacuum m oldulator assembly.
• Strainer Assembly:
a. Blocked or restricted.
b. G asket om itted or damaged.
• Oil Pum p:
a. G ear clearance, damaged, worn, gear installed
backwards:
b. Pum p-to-case gasket mispositioned.
c. Defective pum p body a n d /o r cover.
d. Bottom seal ring on pum p cover hub om itted or
damaged.
e. Prim ing valve in pum p om itted.
• Valve Body:
a. Pressure regulator or boost valve stuck.
b. Pressure regulator valve spring, too weak.
c. # 1 rubber ball omitted.
d. Loose valve body bolts.
e. Valve body spacer plate support omitted.
f. Reverse and m odulator booster valve stuck.
• Internal Circuit Leaks:
a. Forw ard clutch leak (pressure low in Drive range,
pressure norm al in N eutral (N ) and Reverse (R)).
1. Check pump oil seal rings.
2. Check forward clutch seals.
b. D irect clutch leak (pressure low in Reverse (R),
pressure norm al in other ranges).
1. Check direct clutch outer seal.
2. Check 1-2 accum ulator and 2-3 accum ulator pistons
and rings for damage or missing.
c. Interm ediate servo piston seal ring broken or
omitted.
• Case Assembly - check ball missing from cored
passage in case face.
7A-19
No Pressure
•
•
•
•
•
Flashing blocking suction cavity in case.
Prim ing valve in pum p omitted.
Front pum p drive gear lugs sheared off.
Vacuum m odulator valve omitted.
Pum p to case gasket incorrectly installed.
No Upshift
• G overnor valve stuck (chips).
• 1-2 shift control or shift valve stuck.
• Nylon gear of governor assembly m utilated or
broken.
• G overnor locating pin in case loose.
• 1-2 accum ulator piston ring omitted or broken.
• Incorrect interm ediate clutch pack.
• Interm ediate piston seals omitted or damaged.
• G overnor inner weights jammed.
Low Downshifts 3-2 and 2-1 (Full Detent)
•
•
•
•
•
•
•
Detent regulator valve stuck.
D etent regulator valve spring seat omitted.
Shift control or shift valves sticking.
D etent linkage not hooked up.
Incorrect vacuum setting.
Defective governor.
M odulator valve sticking.
High Downshifts 3-2 and 2-1 (Full Detent)
• D etent regulator valve sticking or stuck.
• Defective governor assembly.
• Shift control and shift valves sticking.
No Drive in Drive Range
• Forw ard clutch apply holes in pum p hub not drilled.
• Clutch apply hole in forward clutch drum not drilled.
• Lip seals of forward clutch piston om itted or
damaged.
• Steel relief ball in forward clutch drum om itted or
not sealing.
• Incorrect pressure plate (excessive clearance).
• Rear roller clutch slipping or installed backwards.
• D am aged shifter shaft (transmission not in drive
range).
• Input ring gear omitted.
• M anual valve incorrectly installed.
No Drive in Reverse (R) Range
•
•
•
•
•
•
Reverse clutch pack snap ring omitted.
D irect clutch apply holes in pum p hub not drilled.
Direct clutch apply oil seal rings om itted or broken.
Reverse apply holes in case not drilled or blocked.
Incorrect clutch pack.
M anual valve incorrectly installed.
Low Lube Pressures
• Bushings om itted in front of stator shaft I.D.
1-2 Shift - Full Throttle Only
• D etent Valve - sticking or linkage misadjusted.
• Vacuum Leak - vacuum line or fittings leaking.
LIGHT TRUCK SE R V IC E M A N U A L
7A-20
A U T O M A T IC TRAN SM IS S IO N
• Control Valve Assembly:
a. Valve body gaskets - leaking, dam aged or
incorrectly installed.
b. D etent valve train stuck.
c. 1-2 valve stuck closed (in downshifted position).
• Case Assembly - refer to case porosity repair.
First Speed Only - No 1-2 Shift
• Detent (downshift) cable - binding.
• G overnor Assembly:
a. G overnor valve sticking.
b. Driven gear loose, damaged or worn (check for pin
in case and length of pin showing; also, check output shaft
drive gear for nicks or rough finish if driven gear shows
damage).
• Control Valve Assembly:
a. Valve body gaskets - leaking, damaged or
incorrectly installed.
b. G overnor feed channels blocked.
c. 1-2 shift valve train stuck closed (in downshifted
position).
• Interm ediate Clutch:
a. Clutch piston seals - missing, improperly installed
or cut.
b. Interm ediate roller clutch - broken spring or
damaged cage.
• Case:
a. Porosity between channels.
b. G overnor feed channel blocked; governor bore
scored or worn, allowing cross pressure leak.
First and Second Speeds Only - No 2-3 Shift
• C ontrol Valve Assembly:
a. Valve body gaskets - leaking, damaged or
incorrectly installed.
b. 2-3 shift valve train stuck closed (in downshifted
position).
• D irect Clutch:
a. Pum p hub - direct clutch oil seal rings - broken or
missing.
b. Clutch piston seals - missing, im properly assembled
or cut.
c. Clutch plates burned (Refer to B U R N E D C L U TC H
PLATES).
No First Speed - Starts in Second Speed
(Locks up in LI Range)
Interm ediate Clutch:
1. Too m any plates in interm ediate clutch pack.
2. Incorrect interm ediate clutch piston.
Drive in Neutral
• M anual Linkage - misadjusted, (correct alignment in
m anual lever shift quadrant is essential).
• Internal Linkage - m anual valve disconnected or end
broken.
• Oil Pum p - line pressure leaking into forward clutch
apply passage.
• Forw ard Clutch - incorrect clutch plate usage or
burned clutches (Refer to B U R N E D ■ ! r CH PLATES).
N o M o tio n in R e v e r s e o r S lip s in R e v e r s e
(Install pressure gage)
• Low Oil Level - add oil.
• M anual Linkage - m isadjusted (correct alignment in
m anual lever shift quadrant is essential).
• Low Oil Pressure - Refer to LOW L IN E
PRESSU RE.
• Control Valve Assembly:
a. Valve body gaskets - leaking, damaged or
incorrectly installed.
b. 2-3 shift valve train stuck open (in upshifted
position).
• Interm ediate Servo - piston or pin stuck so
interm ediate overrun band is applied.
• Low and Reverse Clutch - piston outer seal damaged
or missing.
• D irect Clutch:
a. O uter seal damaged or missing.
b. C lutch plates burned (Refer to B U R N E D C LU TC H
PLATES).
• Forw ard Clutch - clutch does not release (will cause
D R IV E in N EU TR A L).
S lip s In All R a n g e s O r S lip s O n S t a r t
(Install pressure gage)
• Low Oil Level - add oil.
• Low Oil Pressure - Refer to LOW L IN E
PRESSURE.
• Forw ard clutch:
a. Clutch plates burned (Refer to B U R N E D
C LU TC H PLA TES).
b. Pum p cover oil seal rings broken or worn.
• Case - cross leaks or porosity.
S lip p in g
1-2
S h if t
(Install pressure gage)
• Low Oil Level - add oil.
• Low Oil Pressure - Refer to LOW L IN E
PRESSURE.
• 2-3 A ccum ulator - oil ring damaged or missing.
• 1-2 A ccum ulator - oil ring dam aged, missing or case
bore damaged.
• Pum p-to-Case G asket - m ispositioned or damaged.
• Interm ediate Clutch:
a. Piston seals damaged or missing.
b. Clutch plates burned (Refer to B U R N E D CLU TC H
PLATES).
• Case - porosity between channels.
S lip p in g
2-3
S h if t
(Install pressure gage)
• Low Oil Level - add oil.
• Low Oil Pressure - Refer to LOW L IN E
PRESSURE.
• D irect Clutch:
a. Piston seals leaks, dam aged or missing.
b. Clutch plates burned (Refer to B U R N E D C LU TC H
PLATES).
c. Inspect for proper num ber and type of clutch plates.
LIGHT T R U C K SE R V IC E M A N U A L
A U TO M A TIC TRAN SM IS S IO N
No Detent (Wide Open Throttle^
• Case - refer to case porosity repair.
Rough 1-2 Shift
Downshift
(Install pressure gage)
• High Oil
PRESSURE.
7A-21
Pressure - Refer to H IG H
L IN E
• 1-2 A ccum ulator:
a. Oil rings damaged.
b. Piston stuck.
c. Broken or missing spring.
d. Bore damaged.
• Interm ediate C lutch - check for burned and num ber
(type) of plates.
• Case:
a. Check for correct num ber and location of check
balls.
b. Porosity between channels.
Rough 2-3 Shift
(Install pressure gage)
• High Oil Pressure
PRESSU RE.
• 2-3 Accum ulator:
- Refer to
H IG H
L IN E
a. Oil ring damaged.
b. Piston stuck.
c. Broken or missing spring.
d. Piston bore damaged.
No Engine Braking in L2
(Install pressure gage)
• Low Oil Pressure - pressure regulator a n d /o r boost
valve stuck.
• Interm ediate Servo and 2-3 A ccum ulator:
a. Servo or accum ulator oil rings or bores leaking or
damaged.
b. Servo piston stuck or cocked.
• D etent cable or retainer not adjusted properly.
• D etent cable disconnected at transmission or throttle
linkage.
• Valve Body:
a. D etent valve sticks.
b. D etent regulator valve sticks.
c. Incorrect spacer plate or gasket.
High or Low Shift Points
(Install pressure gage)
• Oil Pressure:
a. Engine Vacuum - check at transmission end of
m odulator pipe.
b. Check vacuum line connections at engine and
transmission.
c. Vacuum m odulator assembly and valve and pressure
regulator valve train.
• Governor:
a. Valve sticking.
b. Feed holes restricted or leaking.
• D etent Valve and Linkage - stuck open (will cause
high shift points).
• Control Valve Assembly:
a. 1-2 shift valve train sticking.
b. 2-3 shift valve train sticking.
• Case - refer to case porosity repair.
Won't Hold in PARK(P)
• Interm ediate O verrun Band - interm ediate overrun
band broken or burned (look for cause), not engaged or
servo pin.
• M anual Linkage - misadjusted (correct alignment in
m anual lever shift quadrant is essential).
• Internal Linkage:
a. Inner lever and actuating rod assembly - defective
or improperly installed.
b. Parking pawl - broken or inoperative.
c. Parking lock bracket loose, burred or rough edges
or incorrectly installed.
d. Parking pawl disengaging spring missing, broken or
incorrectly hooked.
No Engine Braking in L1
Transmission Noisy
(Install pressure gage)
• Low Oil Pressure - pressure regulator a n d /o r boost
valves stuck.
• M anual Low Control Valve Assembly - stuck.
• Low and Reverse Clutch - piston inner seal damaged
or missing.
Before checking transm ission for noise, make certain
that the noise is not coming from the water pump,
alternator, power steering, etc. These components can be
isolated by removing the proper belt and running the engine
not more than two m inutes at one time.
No Part Throttle Downshift
(Install pressure gage)
• Oil Pressure - vacuum m odulator assembly,
m odulator valve or pressure regulator valve train (other
m alfunctions may also be noticed).
• D etent Valve and Linkage - sticks, disconnected or
broken.
• 2-3 shift valve - stuck.
P a rk , N e u tr a l a n d all D riv in g R a n g e s
• Pum p Cavitation:
a. Low oil level.
b. Plugged or restricted strainer.
c. Strainer-to-valve body gasket damaged.
d. Porosity in valve body intake area.
e. W ater in oil.
f. Porosity or voids at transmission case (pum p face)
intake port.
g. Pump-to-case gasket off location.
• Pum p Assembly:
LIGHT TR U C K SE R V IC E M A N U A L
7A-22
A U T O M A T IC TRAN SM ISSIO N
FORW ARD LOW/REV.
CLUTCH
CLUTCH
LO W A N D
ROLLER CLUTCH
INTERMEDIATE
CLUTCH
INTER. O VERRU N
ROLLER CLUTCH
INTERMEDIATE
BA ND
DIRECT
CLUTCH
NEUTRAL
OFF
In e ffe c tiv e
O FF
OFF
OFF
OFF
In e ffe c tiv e
DRIVE, First Gear
O FF
In e ffe c tiv e
O FF
O FF
ON
OFF
Locked
DRIVE, Second Gear
ON
Locked
OFF
OFF
ON
O FF
F r e e - W h e e lin g
DRIVE, Third Gear
ON
F r e e - W h e e lin g
OFF
ON
ON
OFF
F r e e - W h e e lin g
Li
OFF
In e ffe c tiv e
OFF
O FF
ON
ON
Locked
L2
ON
Locked
ON
O FF
ON
O FF
F r e e - W h e e lin g
REVERSE
OFF
In e ffe c tiv e
OFF
ON
OFF
ON
In e ffe c tiv e
Fig. 7A-1 1 -3 5 0 C lutch A p p ly C hart
a. G ears damaged.
b. Driving gear assembled backwards.
c. Crescent interference.
d. Oil seal rings dam aged or worn.
• Converter:
a. Loose flexplate-to-converter bolts.
b. Converter damage.
c. W ater in oil (causes whine).
F irs t, S ec o n d a n d /o r R e v e rs e G e a r
Planetary G ear Set:
1. G ears or thrust bearings damaged.
2. Input or output ring gear damaged.
D u rin g A c c e le ra tio n - A n y G e a r
• Transm ission or cooler lines grounded to underbody.
• M otor m ounts loose or broken.
S q u e a l a t L o w V e h ic le S p ee d
Speedometer driven gear
lubrication or replacement.
shaft
seal
-
requires
LIG HT T R U C K SE R V IC E M A N U A L
PROBLEM
CAR
R O A D TEST
LEGEND
X -P R O B LE M
* —@ " O "
AREA
VS
VACUUM
O -B A L L S / #2/3/4
CA US E
ONLY
ONLY
L-LO C K E D
S-STUCK
PO SS IB LE
CA US E
L O W O I L L E V E L / W A T E R IN O IL
VACUUM
LEAK
M O D ULA TO R & /O R VALVE
S T R A IN E R & /O R GASKET
G O V E R N O R - V A LV E /S C R E E N
V A L V E B O D Y -G A S K E T /PLAT E
PRES
R E G . & / O R BOOS T V A L V E
BALL
(# 1 ) SHY
1-2 S H I F T V A L V E
2 -3 S H I F T V A L V E
M A N U A L LOW C O N T 'L
VALVE
D E TE N T V A L V E & LIN K AG E
D E T E N T REG. V A L V E
2-3 A C C U M U L A T O R _________
PO RO SITY/CROSS LEAK
P U M P —G E A R S
P R I M I N G V A L V E SH Y
COOLER V A LVE LEAK
C L U T C H S E A L R IN G S
PO RO U S /C R O S S L E A K
G A S K E T SCREEN-PRESSURE
B A N D - I N T E R M . O.R.
C A S E -P O R O U S /X
LEAK
1 2 ACCUMULATOR
IN T E R M E D . SERVO
F O R W A R D C L U T C H ASS Y
D I R E C T C L U T C H ASS Y
I N T E R M E D . C L . A S S 'Y
L & R E V . C L . A S S 'Y
I N T . R O L L E R C L . ASS Y
L.
&
R. R O L L E R C L . AS S' Y
AUTOMATIC TRANSMISSION
M A N U A L V A L V E /L IN K A G E
PA RK P A W L /L IN K A G E
C O N V E R T E R A S S' Y
7A-23
G E A R SE T & B E A R I N G S
7A-24
AUTOMATIC TRANSMISSION
[COOLER IN;
[COOLER OUT;
COOLER
CONV APPLY!
INTERM EDIATE CLUTCH
ACCUMULATOR
LUBE
Fig. 7 A -13 -3 5 0
PUMP PRESSURE!
conv r e l:
MOD
CONV F D l
zn 23 c l :
REVZ
INTERM EDIATE SERVO
Hydraulic
PRESSURE REGULATOR
CONVERTER CLUTCH
VALVE
s u c t io n :
d r iv e
;
Circuit - TCC
DRIVE
GOVERNOR
Applied
SUMP
SWITCH ASM
PRESSURE
SCREEN
;MOD OR DET
M ANUAL VALVE
DRIVE
2 3 SHIFT VALVE
MAN LOW CONT:
DETENT PRESSURE REGULATOR
M ANUAL LOW CONTROL VA LV E
;g o v ;
MAN LOW CONT:
d r iv e
MODULATOR
1 2 SERVO:
;
A U T O M A T IC TRAN SM IS S IO N
7A-25
ON V EH IC LE S E R V IC E
TRANSMISSION REPLACEMENT
12. Remove transm ission to engine mounting bolts and
remove oil filler tube at transmission.
(All Except K Model)
If necessary, the catalytic converter may have to be
disconnected to provide adequate clearance for transmission
removal. This procedure will include removal of the
converter support bracket.
1. Before raising the vehicle, disconnect the negative
battery cable detent downshift cable at carburetor and
release the parking brake.
2. Raise vehicle on hoist.
3. Remove propeller shaft.
4. D isconnect speedometer cable, detent downshift
cable, m odulator vacuum line and oil cooler pipes at
transm ission.
5. Disconnect shift control linkage.
6. Support transm ission with suitable transmission
jack.
7. Disconnect rear m ount from frame crossmember.
8. Remove two bolts at each
crossmember. Remove crossmember.
end
of
frame
9. Remove converter under pan.
10. Remove converter-to-flexplate bolts, as shown in
Fig. 7A-14.
11. Lower transmission until jack is barely supporting
it.
13. Raise transmission to its norm al position, support
engine with jack and slide transmission rearw ard from
engine and lower it away from vehicle.
Use suitable converter holding tool when lowering
transm ission or keep rear of transmission lower than front
so as not to lose converter.
The installation of the transmission is the reverse of the
removal with the following added step. Before installing the
flexplate-to-converter bolts, make certain that the attaching
lugs on the converter are flush with the flex plate and the
converter rotates freely by hand in this position. Refer to
Fig. 7A-14 for instructions on attaching the converter-toflexplate. This will insure proper converter alignment.
After installation of transmission, lower vehicle and
remove vehicle from hoist. Check linkage for proper
adjustm ent.
Check transmission fluid level.
TRANSMISSION REPLACEMENT
(K
MODEL)
1. Disconnect battery cable.
2. Remove transm ission dipstick.
3. Disconnect detent downshift cable at carburetor.
4. Remove transfer case shift lever knob and boot.
5. Raise vehicle on hoist.
1.
M O V E C O N VER TER FO R W A R D TO C O N T A C T A T T A C H IN G SURFACE O N FLEXPLATE PRIOR TO T IG H T E N IN G BOLTS.
2.
A L IG N SLOT IN FLEXPLATE TH A T H A S A N ID E N T IF IC A T IO N HOLE N E A R IT, W IT H
A N A T T A C H M E N T HOLE IN C O N VE R TE R . INSTALL BOLT A N D N U T A N D T IG H T E N
TO SPECIFIED T O R Q U E . T IG H T E N ALL R E M A IN IN G BOLTS TO SP EC IFIED TO R Q U E
AS THEY ARE INSTALLED.
Fig. 7A-1 4~Typical T ransm ission M ounting, Net-Hole Design
LIG HT TRU CK SE R V IC E M A N U A L
7A-26
A U T O M A T IC TRAN SM IS S IO N
6. Remove flexplate cover.
7. Remove torque converter to flexplate attaching
bolts. Refer to Fig. 7A-14. Secure the converter.
8. D isconnect
transm ission
shift linkage and
speedometer cable.
9. Remove engine crossunder pipe to m anifold bolts.
10. Disconnect vacuum m odulator line, line to filler
tube clip and detent downshift cable to filler tube strap.
11. Disconnect detent downshift cable at the
transmission.
12. D isconnect transm ission oil cooler lines at the
transmission.
13. Remove transfer case adapter to crossm em ber bolts.
W hen
applicable,
disconnect
engine-to-transmission
support strut rod from transmission. Refer to Fig. 7A-22.
14. Raise engine as necessary.
15. Remove
crossm em ber
bolts
and
remove
crossmember.
16. Remove exhaust system hanger bolts.
17. D isconnect rear propeller shaft at transfer case.
18. D isconnect parking brake cable.
19. Disconnect exhaust system. (Tie aside.)
20. Disconnect front propeller shaft at front axle. (Tie
aside.)
21. Support transm ission and transfer case w ith jack
(use safety chains).
22. Remove transfer case to fram e bracket bolts.
23. Remove transm ission to engine bolts, remove
transm ission and transfer case.
24. D isconnect transfer case-to-transm ission strut rod.
Remove transfer case from transm ission (includes: new "O"
ring seal). Refer to Fig. 7A-15.
25. Move transm ission to bench fixture.
26. D rain transmission.
27. Remove torque converter.
28. Remove and discard front pum p seal.
Fig. 7A-1 6—In stallin g Oil Se a l into Extension H o u sin g
29.
install.
Refill transfer case. Reverse removal procedure to
E X T E N S IO N H O U S IN G O IL S E A L
Removal
1. Remove propeller shaft.
2. Pry out lip oil seal with screwdriver or small chisel.
Installation
1. Drive a new oil seal into place with Installer J21426, as shown in Fig. 7A-16.
2. Install propeller shaft and adjust fluid level.
S P E E D O M E T E R D R IV E N G E A R
Removal
1. D isconnect speedometer cable.
2. Remove retainer bolt, retainer, speedometer driven
gear and O-ring seal.
Installation
Installation of speedometer driven gear is the reverse
of REM O V A L. Install new O-ring seal (if required) and
adjust the fluid level.
S P E E D O M E T E R D R IV E G E A R
Removal
1. Raise vehicle and support transm ission with
suitable transm ission jack.
2. Remove propeller shaft.
3. D isconnect speedometer cable.
4. D isconnect transm ission rear m ount from frame
crossmember.
5. Remove two bolts at each end of frame cross
member and remove crossmember.
6. Remove extension housing.
7. Install Special Tools J-2 1427-01 and J-8105 on
output shaft and remove speedom eter drive gear. Remove
retaining clip.
LIGHT T R U C K SE R V IC E M A N U A L
A U T O M A T IC TRAN SM IS S IO N
7A-27
MANUAL SHAFT TO
CASE RETAINER
SCREWDRIVER
V
Fig. 7 A - 1 8 -G o v e rn o r Cover
Fig. 7 A -1 7 -R e m o v in g M a n u a l Shaft-to -C ase Retainer
Installation
In s ta lla tio n
1. Place speedometer drive gear retaining clip into hole
in output shaft.
2. Align slot in speedom eter drive gear with retaining
clip and install.
3. Install extension housing and tighten attaching bolts
to 25 ft. lb. (33 N -m )
4. Connect speedometer cable.
5. Install crossmem ber to frame and transmission.
6. Install propeller shaft.
7. Remove transmission jack and lower vehicle.
Installation of parking linkage, selector lever and
m anual shaft is the reverse of REM OVAL. Install new plug
(if required), new lip oil seal (if required) and new gaskets.
A djust the fluid level.
MANUAL SHAFT, RANGE SELECTOR INNER
LEVER AND PARKING LINKAGE ASSEMBLIES
Removal
1. Refering to draining procedures, drain transmission
fluid from oil pan.
2. A fter oil pan and strainer have been removed,
remove valve body assembly. D iscard gaskets.
3. Remove manual shaft-to-case retainer and unthread
jam nut holding range selector inner lever to m anual shaft.
Refer to Fig. 7A-17.
4. Remove jam nut and remove m anual shaft from
range selector inner lever and case.
Do not remove m anual shaft lip oil seal unless
replacem ent is required.
5. Remove parking pawl actuating rod and range
selector inner lever from case.
6. Remove bolts and parking lock bracket.
7. Remove parking pawl disengaging spring and, if
necessary to replace parking pawl or shaft, clean up bore
in case and remove parking pawl shaft retaining plug, park
pawl shaft and pawl.
Before installing the propeller shaft, liberally lubricate
splines of the transmission yoke with a Lithium soap base
lubricant. The lubricant should seep from the vent hole (rear
cap of yoke) when installing yoke on transmission output
shaft. It is essential that the vent hole is not obstructed.
GOVERNOR
Rem oval
1. Raise vehicle and disconnect speedometer cable at
transmission.
2. Remove governor cover, as shown in Fig. 7A-18.
NOTICE:
Be careful not to damage cover.
3. Remove governor. Inspect weights and valve for
freeness.
In s ta lla tio n
1. Install governor.
2. Apply anerobic sealant to cover, then install
governor cover using a brass drift around the outside flange
of the cover.
NOTICE:
Do not distort cover on installation.
3. Install a retainer wire.
NOTICE: Be sure to install a bail wire retainer, to
prevent loss of cover, which could result in damage to
the transmission.
LIG HT TRU CK SE R V IC E M A N U A L
7A-28
A U T O M A T IC TRAN SM IS S IO N
GOVERNOR
PRESSURE
SWITCH
n
SERVO
TORQUE
CONVERTER
*
O ” R IN G SEAL
SOLENOID
SWITCH
iX B
VA C U U M MODULATO R
£
J
A
AUXILIARY VALVE BODY
MAIN
VALVE
BODY
'ELECTRICAL
CONNECTOR
Fig. 7 A -1 9 ~ R e m o v in g V a cu u m M o d u la to r
Fig. 7A -2 0 ~ D e te n t S p r in g /V a lv e B o d y
4.
Connect speedom eter cable, lower vehicle and
check transm ission fluid level.
V A C U U M M O DULATO R AND M ODULATO R
VALVE ASSEM BLY
Removal
1. D isconnect vacuum hose from vacuum m odulator
stem and remove vacuum m odulator attaching screw and
retainer.
2. Remove m odulator assembly and its O-ring seal
from case. Refer to Fig. 7A-19.
3. Remove m odulator valve from case.
Installation
Installation of the m odulator and m odulator valve is
the reverse of REM O V A L. Install a new O-ring seal and
adjust the fluid level.
4. Remove tool and install oil pan bolts.
Installation
Installation of the valve body assembly is the reverse
of REM O V A L. Install new gaskets to strainer and oil pan
and adjust the fluid level.
1-2 A C C U M U L A T O R
Removal
1. Remove two transm ission oil pan bolts below the
1-2 accum ulator cover. Install J-23069 in place of bolts
removed.
2. Press in on cover and remove retaining ring.
3. Remove cover "O" ring seal, spring and
accum ulator, as shown in Fig. 7A-21.
1-2
VALVE BODY ASSEM BLY
Removal
1. Refering to draining procedures, drain transm ission
fluid from oil pan.
2. A fter oil pan and strainer, have been removed,
discard gaskets.
3. Remove detent spring and roller assembly from
valve body and remove valve body-to-case bolts. Refer to
Fig. 7A-20.
4. Remove valve body assembly while disconnecting
m anual control valve link from range selector inner lever
and removing detent control valve link from the detent
actuating lever.
5. Remove m anual valve and link assembly from valve
body assembly.
Fig. 7 A -2 1 -In te rm e d ia te Clutch A ccu m u la to r Com ponents
L IGHT T R U C K SE R V IC E M A N U A L
A U T O M A T IC TRAN SM IS S IO N
7A-29
2. Position spring, "O" ring seal and cover in place.
3. Press in on cover with J-23069 and install retaining
ring.
4. Remove tool and install oil pan bolts.
SUPPORT STRUT ROD
Replacement
The transm ission support strut rod attachm ent is
shown in Fig. 7A-22. Remove the two bolts when replacing
the strut rod. W hen removing the transmission, it is only
necessary to remove the bolt at the transmission end of the
strut rod.
OIL COOLER PIPES
If replacem ent of transm ission steel tubing cooler pipes
is required, use only double w rapped and brazed steel tubing
meeting G M specification 123M or its equivalent. U nder no
condition use copper or alum inum tubing to replace steel
tubing. Those m aterials do not have satisfactory fatique
durability to w ithstand norm al vehicle vibrations.
Fig. 7 A -2 2 ~ T ra n sm issio n S u p p o rt Strut Rod
In s ta ll
1. Install 1-2 accum ulator piston.
R otating piston slightly when installing will help to get
rings started in bore.
Steel tubing should be flared using the upset (double
lap) flare m ethod which is detailed in Section 5.
4 0 0 A U T O M A T IC T R A N S M IS S IO N
INDEX
G eneral D escription..........................................................
M aintenance and A d ju stm en t........................................
Checking Transmission M o u n t....................................
Transm ission F lu id .........................................................
Colum n Shift Linkage A dju stm en t.............................
D etent Switch A d justm ent............................................
N eutral Start Backup Lam p Switch A djustm ent....
Vacuum Regulator V alve.............................................
D iagnosis..............................................................................
Diagnosis Sequence.........................................................
Oil Checking P ro ced u re................................................
Oil Leak D iagnosis.........................................................
Oil Pressure C h e c k .........................................................
Case Porosity R e p a ir......................................................
Vacuum M odulator D iagnosis.....................................
M anual L inkage...............................................................
7A -29
7A -31
7A-31
7A-31
7A-32
7A-33
7A-33
7A-33
7A-34
7A -34
7A-34
7A-34
7A-34
7A-35
7A-35
7A -36
Trouble D iagnosis.............................................................7A-36
C lutch Apply C h a rt........................................................ .7A-41
H ydraulic C ircu it..............................................................7A-42
On Vehicle Service..............................................................7A-43
Transm ission R eplacem ent........................................... .7A-43
R ear S eal.............................................................................7A-44
G o v e rn o r.............................................................................7A-44
M odulator and M odulator V alve................................ .7A-44
Parking L inkage............................................................... .7A-44
C ontrol Valve B ody........................................................ .7A-45
Pressure Regulator V alve...............................................7A-45
Oil Cooler Pipes............................................................... .7A-46
O ther Service O perations.................................................7A-46
Specifications....................................................................... ..7A-47
Special T o o ls....................................................................... ..7A-48
G E N E R A L D E S C R IP T IO N
The 400 autom atic transm ission is a fully autom atic
unit consisting prim arily of a 3-element hydraulic torque
converter and a com pound planetary gear set. Three
m ultiple-disc clutches, one gear unit, one roller clutch, and
two bands provide the friction elements required to obtain
the desired function of the com pound planetary gear set.
The torque converter couples the engine to the
planetary gears through oil and provides hydraulic torque
m ultiplication when required. The com pound planetary
gear set produces three forward speeds and reverse.
The 3-element torque converter consists of a pum p or
driving member, a turbine or driven member, and a stator
assembly. The stator is m ounted on a one-way roller clutch
which will allow the stator to turn clockwise but not
counter-clockwise.
The torque converter housing is filled with oil and is
attached to the engine crankshaft by a flexplate and always
rotates at engine speed. The converter pum p is an integral
LIGHT T R U C K SE R V IC E M A N U A L
7A-30
A U T O M A T IC TRAN SM IS S IO N
Fig. 7 A -3 0 - 4 0 0 A utom atic T ra n sm issio n C ro ss-Se ctio n V ie w
part of the converter housing, therefore the pum p blades,
rotating at engine speed, set the oil within the converter into
motion and direct it to the turbine, causing the turbine to
rotate.
As the oil passes through the turbine it is traveling in
such a direction that if it were not redirected by the stator
it would hit the rear o f the converter pum p blades and
impede its pum ping action. So at low turbine speeds, the oil
is redirected by the stator to the converter pum p in such a
m anner th at it actually assists the converter pum p to deliver
power or m ultiply engine torque.
As turbine speed increases, the direction of the oil
leaving the turbine changes and flows against the rear side
of the stator vanes in a clockwise direction. Since the stator
is now impeding the sm ooth flow of oil, its roller clutch
releases and it revolves freely on its shaft. Once the stator
becomes inactive, there is no further m ultiplication of
engine torque w ithin the converter. A t this point, the
converter is merely acting as a fluid coupling as both the
converter pum p and turbine are being driven at
approxim ately the same speed or at one-to-one ratio.
A hydraulic system pressurized by a gear type pum p
provides the working pressure required to operate the
friction elements and autom atic controls.
External control connections to transm ission are:
M anual Linkage - To select the desired operating
range.
Engine Vacuum - To operate a vacuum m odulator unit.
12
solenoid.
Volt Electrical - To operate an electrical detent
A vacuum m odulator is used to automatically sense
any change in the torque input to the transmission. The
vacuum m odulator transm its this signal to the pressure
regulator for line pressure control, to the 1-2 accum ulator
valve, and to the shift valves so th at all torque requirem ents
of the transm ission are met and sm ooth shifts are obtained
at all throttle openings.
The detent solenoid is activated by an electric switch
on the carburetor. W hen the throttle is fully opened, the
switch on the carburetor is closed, activating the detent
solenoid and causing the transm ission to downshift for
passing speeds.
The selector quadrant has six selector positions: P, R,
N, D, L2, L I.
P. P A R K position positively locks the output shaft to
the transm ission case by means of a locking pawl to prevent
the vehicle from rolling in either direction (not on CL
model). The engine may be started in Park position.
R. REV ERSE enables the vehicle to be operated in a
reverse direction.
N. N eutral postion enables the engine to be started and
run w ithout driving the vehicle.
D. D R IV E Range is used for all norm al driving
conditions and maxim um economy. Drive Range has three
gear ratios, from the starting ratio to direct drive. Detent
downshifts are available by depressing the accelerator to the
floor.
LIGHT TR U C K SER VIC E M A N U A L
A U T O M A T IC T R A N SM IS S IO N
L2. L2 Range has the same starting ration as Drive
Range, but prevents the transm ission from shifting ration
when extra perform ance is desired. L2 Range can also be
used for engine braking. L2 Range can be selected at any
vehicle speed, and the transmission will shift to second gear
and remain in second until the vehicle speed or the throttle
are changed to obtain first gear operation in the same
m anner as in D Range.
7A-31
L I. L I Range can be selected at any vehicle speed, and
the transm ission will shift to second gear and rem ain in
second until vehicle is reduced to approxim ately 40 M PH
(60 km /h ), depending on axle ratio. L I Range position
prevents the transm ission from shifting out of first gear.
NOTICE: It is very im portant that any
com m unication concerning the transm ission always
contain
the
transm ission
code
and
vehicle
identification number.
M A IN T E N A N C E A N D A D J U S T M E N T S
CHECKING TRANSMISSION MOUNT
Raise the vehicle on a hoist. Push up and pull down
on the transm ission extension while observing the
transm ission m ount. If the rubber separates from the metal
plate o f the m ount or if the extension moves up but not down
(m ount bottom ed out), replace the m ount. If there is relative
m ovement between a m etal plate of the m ount and its
attaching point, tighten the screws or nuts attaching the
m ount to the transm ission or crossmember.
determined by m ark on the dipstick rather than
by amount added. Use only D E X R O N ® I I autom atic
transm ission fluid or its equivalent.
An early change to a darker color from the usual red
color a n d /o r a strong odor that is usually associated with
overheated transm ission fluid is norm al, and is not a positive
sign of required m aintenance or transm ission failure.
Checking Procedure and Adding Fluid
TRANSMISSION FLUID
To determ ine proper fluid level at norm al operating
tem perature of 180°F (82°C), proceed as follows:
Fluid Level and Capacity
1. Position vehicle on a level surface, place selector
lever in P A R K (P), apply parking brake and have engine
running at norm al idle.
The fluid level indicator is located in the filler tube at
the right rear of the engine. To bring the fluid level from
the A D D m ark to the F U L L m ark requires one pint of fluid.
Fluid level should be checked at every engine oil change.
Fluid level should be to the F U L L m ark with the
transm ission fluid at norm al operating tem perature of
180°F, (82°C). W ith warm fluid at room tem perature o f 70°F
(21°C), the level will be 3 /8 in. (9 m m ) below the A D D m ark
on the dipstick. The norm al operating tem perature is
obtained only after at least 15 miles o f highway type driving
or the equivalent of city driving.
A pproxim ately 9 pints (4 L) of fluid are required to
refill transmission after oil pan has been drained. The fluid
capacity of the 400 transm ission and converter assembly is
approxim ately 22 pints (10 L) but correct level is
COOL —
HOT
(65°-85° F.)
( 1 9 0 -2 0 0
(18°-29°C.)
F.)
(88°-93° C.)
I~H
1 PT
FULL
W ARM
NOTE: DO NOT OVERFILL. IT TAKES
ONLY ONE PINT TO RAISE
LEVEL FROM ADD TO FULL
WITH A HOT TRANSMISSION.
Fig. 7A-3 1~Dipstick M arkings
2. Remove fluid level indicator, wipe it clean and
reinstall fully until cap seats.
3. Remove indicator and reading of fluid level should
be at full "F" m ark.
4. If additional fluid is required, add D E X R O N ® II
autom atic transm ission fluid or its equivalent to "F" m ark
on indicator.
If the vehicle cannot be driven sufficiently to bring the
transm ission to operating tem perature and it becomes
necessary to check the fluid level, the transm ission may be
checked at room tem perature of 70°F (21°C) as follows:
1. Position selector lever in P A R K (P), apply parking
brake and start engine. D O N O T R A C E E N G IN E . Move
selector lever through each range.
2. Im m ediately check fluid level with selector lever in
Park, engine running and vehicle on LEV EL surface.
Fluid level on indicator should be 3 /8 in. (9 mm ) below
the "A D D " mark.
3. If additional fluid is required, add enough fluid to
bring level to 3 /8 in. (9 mm) below the A D D m ark on the
dipstick. If transm ission fluid level is correctly established
at 70°F (21°C), it will appear at the F U L L m ark on the
dipstick when the transm ission reaches its norm al operating
tem perature of 180°F (82°C).
NOTICE: D O N O T O V ER FILL , as foaming and loss
of fluid through the vent pipe m ight occur as fluid heats
up.
If fluid is too low, especially when cold, complete loss
of drive may result which can cause transm ission failure.
LIGHT TR U C K SE R V IC E M A N U A L
7A-32
A U T O M A T IC TRAN SM ISSIO N
Draining and Refilling Transmission Oil Pan
The oil pan should be drained and filter replaced and
fresh fluid added to obtain the proper level on indicator, at
the intervals detailed in section O-B of this m anual. For
vehicles subjected to heavy city traffic during hot weather,
or in commercial use, when the engine is regularly idled for
prolonged periods or when vehicle is used for towing, oil
pan should be drained and filter replaced m ore frequently.
Refer to Section O-B.
D rain fluid immediately after operation before it has
had an opportunity to cool.
CAUTION:
Transmission
fluid
temperature can exceed 350°F (177°C).
1. Raise vehicle and support transm ission with
suitable jack at transmission.
2. W ith fluid receptacle placed under transm ission oil
pan, remove oil pan attaching bolts from front and side of
pan.
3. Loosen rear pan attaching bolts approxim ately four
(4) turns.
4. Carefully pry transm ission oil pan loose with
screwdriver, allowing fluid to drain.
5. Remove rem aining screws and remove oil pan and
gasket. D iscard gasket.
6. D rain fluid from oil pan. Clean pan with solvent and
dry thoroughly w ith clean compressed air.
7. Remove oil filter retainer bolt, oil filter assembly,
O-ring seal from intake pipe and discard the filter and Oring seal.
8. Install new O-ring seal on intake pipe and install
new filter on pipe assembly.
9. W ith O-ring seal on intake pipe, install pipe and
filter assembly, attaching filter to the control valve assembly
with its retainer bolt, torquing to 10 ft. lb. (13 N*m).
10. Install new strainer-to-valve body gasket, strainer
and two (2) screws.
11. Install new gasket on oil pan and install oil pan.
Tighten its 13 attaching bolt and washer assemblies to 12
ft. lb. (16 N*m).
12. Lower vehicle add approxim ately 5 pints U.S.
measure (4 pints Im perial measure) of D E X R O N ® II
autom atic transm ission fluid or its equivalent through filler
tube.
13. W ith selector lever in P A R K (P) position, apply
hand brake, start engine and let idle (carburetor off fast idle
step). DO N O T R A C E E N G IN E .
14. Move selector lever through each range and, with
selector lever in P A R K (P) range, check the fluid level.
15. A dd additional fluid to bring level to 1/4 in. (6.35
mm) below the A D D m ark on the dipstick.
CAUTION: Do not overfill. Foaming can
result if overfilled.
Adding Fluid to Fill Dry Transmission and Converter
Assembly
In cases of transm ission overhaul, when a complete fill
is required, including converter (approxim ately 22 pints (10
L), proceed as follows:
1. A dd 9 pints (4 L) of transm ission fluid through filler
tube.
2. W ith m anual control lever in P A R K (P) position,
start engine and place on cold idle cam. DO N O T R A C E
E N G IN E . M ove m anual control lever through each range.
3. Im m ediately check fluid level with selector lever in
P A R K (P), engine running and vehicle on LEVEL surface
and add additional fluid to bring level to 3/8-in. (9 mm)
below the "A D D " m ark on the dipstick. D o not overfill.
SHIFT CONTROLS
Column Shift Linkage - CK and P Series
(Figs. 7A-32 and 7A-33)
1. The shift tube and lever assembly m ust be free in
the m ast jacket. See Section 3B for alignm ent of steering
colum n assembly if necessary.
2. To check for proper shift linkage adjustm ent, lift the
transm ission selector lever tow ards the steering wheel.
Allow the selector lever to be positioned in Drive (D) by
the transm ission detent.
D o not use indicator pointer as a reference to position
the selector lever. W hen perform ing linkage adjustm ent,
pointer is adjusted last.
3. Release the selector lever. The lever should be
inhibited from engaging low range unless the lever is lifted.
4. Lift the selector lever tow ards the steering wheel
and allow the lever to be positioned in N eutral (N ) by the
transm ission detent.
5. Release the selector lever. The lever should now be
inhibited from engaging reverse range unless the lever is
lifted.
6. A properly adjusted linkage will prevent the selector
from moving beyond both the neutral detent, and the drive
detent unless the lever is lifted to pass over the mechanical
stop in the steering column.
LIGHT TR U C K SE R V IC E M A N U A L
A U T O M A T IC TRAN SM IS S IO N
7A-33
PLUNGER
PLUNGER
TRANSMISSION
CONTROL
SWITCH
P30 ( 42 ) SERIES
PLUNGER
CK SERIES
P30
Fig. 7A-34--Detent D ow n sh ift Sw itch
7. If adjustm ent is required, remove screw (A) and
spring w asher from swivel (B).
8. Set transm ission lever (C) in N eutral position by
moving lever counter-clockwise to L I detent and then
clockwise three (3) detent positions to N eutral (N).
9. Position transm ission selector lever in N eutral
position as determined by the m echanical stop in steering
colum n assembly.
Do not use the indicator pointer as a reference to
position the selector lever. W hen perform ing linkage
adjustm ent, pointer is adjusted last.
10. Assemble swivel, spring washer and screw to lever
assembly (D ) and tighten screw to 20 ft. lb. (27 N*m).
11. Readjust indicator needle if necessary to agree with
the transm ission detent positions. Refer to Section 3B.
12. Readjust neutral start switch if necessary to provide
the correct relationship to the transm ission detent positions.
Refer to Section 8.
13. Check operation (C K Series):
DETENT DOWNSHIFT SWITCH
1. Install switch as shown in Fig. 7A-34.
2. A fter installing the switch, press the switch plunger
as far forward as possible. This presets the switch for
adjustm ent. The switch will then adjust itself w ith the first
wide open throttle application of the accelerator pedal.
NEUTRAL START BACKUP LAMP SWITCH
ADJUSTMENT
The neutral start backup lamp switch m ust be adjusted
so th at the car will start in the park or neutral position, but
will not start in the other positions. For replacem ent and
adjustm ent refer to Section 8 of this m anual.
VACUUM REGULATOR VALVE-ADJUSTMENT
W hen the 400 autom atic transmission is used w ith a
diesel engine, the vacuum source for operation of the
vacuum m odulator is through a vacuum regulator valve.
This valve is m ounted on the high pressure fuel pum p, and
should be adjusted as detailed in Section 6A6 of this manual.
a. W ith key in "R un" position and transmission in
"Reverse (R)" be sure that key cannot be removed and that
steering wheel is not locked.
b. W ith key in "Lock" position and shift lever in "Park
(P)", be sure th at key can be removed, th at steering wheel
is locked, and th at transm ission rem ains in "P ark (P)" when
steering colum n is locked.
NOTICE: Any inaccuracies in the above adjustm ents
may result in prem ature failure of the transm ission due
to operation without controls in full detent. Such
operation results in reduced oil pressure and in turn
partial engagement of the affected clutches. Partial
engagement of the clutches with sufficient pressure to
cause apparent norm al operation of the vehicle will
result in failure of the clutches or other internal parts
after only a few miles of operation.
LIGHT T R U C K SE R V IC E M A N U A L
7A-34
A U T O M A T IC TRAN SM ISSIO N
D IA G N O S IS
DIAGNOSIS SEQUENCE
Before attem pting to correct an oil leak, the actual
source of the leak m ust be determined. In m any cases, the
source of the leak can be deceiving due to "wind flow"
around the engine and transmission.
The suspected area should be wiped clean of all oil
before inspecting for the source of the leak. Red dye is used
in the transm ission oil at the assembly plant and will
indicate if the oil leak is from the transmission.
The use of a "Black Light" to locate the point at which
the oil is leaking is helpful. Com paring the oil from the leak
to that on the engine or transm ission dipstick, when viewed
by black light, will determ ine the source of the leak - engine
or transmission.
Oil leaks around the engine and transm ission are
generally carried tow ard the rear of the car by the air
stream. F or example, a transm ission oil fill pipe to case leak
will sometimes appear as a leak at the rear of the
transm ission. In determ ining the source of a leak, proceed
as follows:
1. Degrease underside of transmission.
2. R oad test to get unit at operating tem perature. (180
degrees F - 68 degrees C).
3. Inspect for leak w ith engine running.
4. W ith engine off, check for oil leaks due to the raised
oil level caused by drain back.
b. R ear seal assembly dam aged or im properly installed.
c. Extension to case, gasket damage or im properly
installed.
d. Porous casting. See paragraph C.
e. O utput shaft "O" ring damaged.
3. Case Leak
a. Filler pipe seal dam aged or missing; misposition of
filler pipe bracket to engine "loading" one side of seal.
b. M odulator assembly "O" ring seal dam aged or
im properly installed.
c. Electrical connector "O" ring seal dam aged or
im properly installed.
d. G overnor cover bolts not torqued, gasket damaged
or leak between case face and gasket.
e. Speedometer gear "O" ring damaged.
f. M anual shaft lip seal dam aged or improperly
installed.
g. Parking pawl shaft cup plug damaged, im properly
installed.
h. Line pressure band release tap plug loose.
i. Vent pipe (Refer to item 5).
j. Porous casting. See subparagraph C.
4. Leak at F ront of Transm ission
a. F ront pum p seal leaks.
1. Seal lip cut. Check converter hub for nicks, etc.
2. Bushing moved forward and damaged.
3. G arter spring missing from seal.
b. F ront pum p attaching bolts loose or bolt seals
damaged or missing.
c. F ront pum p housing "O" ring damaged or cut.
d. Converter leak in weld area.
e. Porous casting (pump).
5. Oil Comes O ut Vent Pipe
a. Transm ission over-filled.
b. W ater in oil.
c. Foreign m atter between pum p and case or between
pum p cover and body.
d. Case - porous, front pum p cover m ounting face shy
of stock near breather. Refer to subparagraph C.
e. Pum p to case gasket mispositioned.
f. Incorrect dipstick.
g. Cut "O" ring or grom m et on filter.
h. Pum p - shy of stock on m ounting faces, porous
casting, breather hole plugged in pum p cover.
Possible Points of Oil Leak
FLUID PRESSURE CHECK
1. Check and correct oil level.
2. Check detent switch.
3. Check and correct vacuum line and fittings.
4. Check and correct m anual linkage.
5. Install oil pressure gage.
6. R oad test car.
a. R oad test using all selective ranges, noting when
discrepancies in operation or oil pressure occur.
b. A ttem pt to isolate the unit or circuit involved in the
malfunction.
c. If engine perform ance indicates an engine tune up
is required, this should be perform ed before road testing is
completed or transm ission correction attem pted. Poor
engine perform ance can result in rough shifting or other
malfunctions.
FLUID CHECKING PROCEDURES
Refer to M aintenance and A djustm ent section for fluid
checking procedure.
FLUID LEAK DIAGNOSIS
Determining Source of Oil Leak
1.
a.
b.
c.
2.
a.
Transm ission Oil Pan Leak
A ttaching bolts not correctly torqued.
Im properly installed or dam aged pan gasket.
Oil pan gasket m ounting face not flat.
Case Extension
A ttaching bolts not correctly torqued.
Road or Normal Operating Conditions
W hile road testing with the transm ission oil pressure
gage attached and the vacuum m odulator tube connected
, the transm ission pressure should check approximately as
shown on Figure 7A-35.
LIGHT TR U C K SE R V IC E M A N U A L
A U T O M A T IC TRAN SM ISSIO N
M inim um
M axim um
145 psi
155 psi
M inim um
M axim um
L 2-2nd G e a r - S te a d y ro a d lo ad at a p p ro x im a te ly 25 m p h
G ear
S e le c to r L ever P o sitio n
7A-35
1st
2nd
3rd
D rive
( “ Z e ro ” th r o ttle to fu ll th r o t t l e ..................................
................
60
150
3rd
R everse
D rive R an g e, Z ero T h r o ttle a t 30 m p h ...............
R ev. (Z e ro to fu ll th r o ttle ........................................
...............
................
60
95
260
Fig. 7A -35--Fluid Pressure C h e c k - R oad or N orm al O p eratin g C o n d itio n s
Vehicle Stationary - Engine at 1 2 0 0 RPM
VACUUM MODULATOR DIAGNOSIS
W ith the transmission oil pressure gage attached and
the vacuum m odulator tube disconnected , the
transm ission pressures should check approxim ately as
shown in Fig. 7A-36.
A defective vacuum m odulator can be determ ined by
performing the following procedures.
Vehicle Stationary - Engine at 1 0 0 0 RPM
W ith the transm ission oil pressure gage attached and
the vacuum m odulator tube connected for norm al
m odulator operation, the transm ission pressure should
check approxim ately as shown in Fig. 7A-37.
Pressures are not significantly affected by altitude or
barom etric pressure when the vacuum m odulator tube is
connected.
Case Porosity Repair
External leaks caused by case porosity have
successfully been repaired with the transm ission in the
vehicle by using the following recom m ended procedures:
1. R oad test and bring the transm ission to operating
tem perature, approxim ately 180 degrees (82°C).
2. Raise vehicle on hoist or jack stand, engine running
and locate source of oil leak. Check for leak in all operating
positions. Use of a m irror is helpful in finding leaks.
3. Shut engine off and thoroughly clean area to be
repaired with a cleaning solvent and a brush air dry.
4. Using instructions of the m anufacturer, mix a
sufficient am ount of epoxy to m ake repair. Observe cautions
of m anufacturer in handling.
5. W hile the transm ission case is still H O T apply the
epoxy to the area to be repaired. A clean, dry soldering acid
brush can be used to clean the area and also to apply the
epoxy cement. M ake certain the area to be repaired is fully
covered.
6. Allow cement to cure for three hours before starting
engine.
7. Road test and check for leaks.
Vacuum Diaphragm Leak Check
Insert a pipe cleaner into the vacuum connector pipe
as far as possible and check for the presence of transmission
oil. If oil is found, replace the modulator.
Gasoline or w ater vapor may settle in the vacuum side
of the m odulator. If this is found without the presence of
oil, the m odulator should not be changed.
Atmospheric Leak Check
Apply a liberal coating of soap bubble solution to the
vacuum connector pipe seam, the crimped upper to lower
housing seam, and the threaded screw seal (Fig. 7A-38).
Using a short piece of rubber tubing apply air pressure to
the vacuum pipe by blowing into the tube and observe for
leak bubbles. If bubbles appear, replace the m odulator.
NOTICE: D o not use any method other than hum an
lung power for applying air pressure, as pressures over
6 psi (41 kPa) may dam age the m odulator.
Bellows Comparison Check
Using a com parison gage, as shown in Figure 7A-39,
com pare the load of a known good m odulator with the
assembly in question.
a. Install the m odulator that is kiow n to be acceptable
on either end of the gage (Fig. 7A-40).
b. Install the m odulator in question on the opposite end
of the gage. (Fig. 7A-41).
c. Holding the m odulators in a horizontal position,
bring them together under pressure until either m odulator
sleeve end just touches the line in the center of the gage (Fig.
7A-42). The gap between the opposite modulator sleeve end
and the gage line should then be 1/16 in. (1.5 mm) or less.
If the distance is greater than this amount, the m odulator
in question should be replaced.
Drive, N eutral,
Park
Li or L2
Reverse
Drive, N eutral, Park
LI or L2
Reverse
150
150
233
60
150
107
Fig. 7 A -3 6 ~ F lu id Pressure C h e c k - V eh icle Stationary,
V a cu u m T ub e D iscon n e cted
Fig. 7A-37--Fluid Pressure C h eck - V e iic le Stationary,
V a c u u m T ub e Connected
LIGHT T R U C K SE R V IC E M A N U A L
7A-36
A U TO M A TIC TRAN SM ISSIO N
COMPARISON
GAUGE
1 RYv
\
i
o r i
j -j
J
u
HOLD MODULATORS IN A HORIZONTAL POSITION,
AS SHOWN,
BRING THEM SLOWLY TOGETHER UNDER PRESSURE
Fig. 7 A -38--V acu u m M o d u la to r
Sleeve Alignment Check
Roll the m ain body of the m odulator on a flat surface
and observe the sleeve for concentricity to the can. If the
sleeve is concentric and the plunger is free, the m odulator
is acceptable.
Once the m odulator assembly passes all of the above
tests, it is an acceptable part and should be reused.
400 Trans. With Diesel Engine
If erratic or poor quality shifting occurs due to
incorrect vacuum supply to the m odulator, check the
vacuum regulator valve and the vacuum pum p as described
in Section 6A-6 of this m anual.
MANUAL LINKAGE
M anual linkage adjustm ent and the associated neutral
safety switch are im portant from a safety standpoint. The
neutral safety switch should be adjusted so th at the engine
will start in the Park (P) and N eutral (N) positions only.
W ith the selector lever in the P ark position, the parking
pawl should freely engage and prevent the vehicle from
rolling. The pointer on the indicator quadrant should line
up properly with the range indicators in all ranges.
Fig. 7 A -4 0 --H o ld in g M o d u la to rs in Horizontal Position
TROUBLE DIAGNOSIS, BY CONDITION
NOTICE: On vehicles with diesel engine, the vacuum
source for the vacuum m odulator is the Vacuum
R egulator Valve. W hen diagnosing shift com plaints on
these vehicles, it is im portant to assure that the vacuum
pum p is providing 22 in. (28 kPa) of vacuum to this
valve. Also check the throttle linkage adjustm ent as
outlined in Section 6A-3 of this manual.
No Drive in Drive Range
(Install pressure gage)
• Low oil level - check for external leaks or defective
vacuum m odulator (leaking diaphragm will evacuate oil
from unit).
• M anual linkage m aladjusted (correct alignment in
m anual lever shift quadrant is essential); m anual valve
disconnected from m anual lever pin.
• Low oil pressure - refer to LOW L IN E PRESSU RE
below.
MODULATOR IN
QUESTION
KNOWN GOOD
MODULATOR
MODULATOR BELLOWS BAD
Fig. 7A-39--Bellows Com parison Gage
Fig. 7A-4 1--M odulator B ellow s - Bad
LIGHT TR U C K SE R V IC E M A N U A L
A U T O M A T IC TR A N SM IS S IO N
7A-37
e. Pressure boost bushing broken or defective.
f. Pum p casting bad.
(OUTER GAUGE LINES)
MODULATOR BELLOWS GOOD
Fig. 7 A -4 2 ~ M o d u la to r B e llo w s (Good)
• F orw ard clutch:
a. C lutch does not apply - piston cracked; seals
missing, damaged; clutch plates burnt (Refer to B U R N E D
C L U T C H PLATES).
b. Pum p feed circuit-to-forw ard clutch oil seal rings
missing or broken on pum p cover; leak or restriction in feed
circuits; pump-to-case gasket mispositioned or damaged.
Clutch drum ball check stuck or missing.
• Roller Clutch - broken springs, dam aged cage or
installed backwards.
H ig h
or Low
O il
Pressure
(Refer to F L U ID PR E SSU R E CH EC K S)
High Line Pressure
• Vacuum Leak:
a. Vacuum line disconnected.
b. Leak on line from engine to m odulator.
c. Im proper engine vacuum .
d. Leak in vacuum -operated accessory (hoses, vacuum
advance, etc.).
• M odulator:
a. Stuck m odulator valve.
b. W ater in m odulator.
c. Damaged, not operating properly.
• D etent System:
a. D etent switch actuated (plunger stuck) or shorted.
b. D etent wiring shorted.
c. D etent solenoid stuck open.
d. D etent feed orifice in spacer plate blocked or
restricted.
e. D etent solenoid loose.
f. D etent valve bore plug damaged.
g. D etent regulator valve pin short.
• Oil Pump:
a. Pressure regulator a n d /o r boost valve stuck.
b. Incorrect pressure regulator valve spring.
c. Too many pressure regulator valve spacers.
d. Pressure boost valve installed backwards or
defective.
Low Line Pressure
• Low transm ission oil level.
• Defective vacuum m odulator assembly.
• Filter Assembly:
a. Blocked or restricted.
b. "O" Ring seal on intake pipe a n d /o r grom m et
om itted or damaged.
c. Split or leaking intake pipe.
d. W rong filter assembly.
• Oil Pump:
a. Pressure regulator a n d /o r boost valve stuck.
b. Pressure regulator valve spring too weak.
c. N ot enough spacers in pressure regulator.
d. G ear clearance, damaged, worn, drive gear installed
backwards.
e. Pum p-to-case gasket mispositioned.
f. Defective or m ism atched pum p body/pum p cover.
• Internal Circuit Leaks:
a. Forw ard clutch leak (pressure low in D rive range
pressure norm al in N eutral and Reverse).
1. Check pum p oil seal rings.
2. Check forw ard clutch seals.
b. D irect clutch leak (pressure low in Reverse,
pressure norm al in all other ranges).
1. Check center support oil seal rings.
2. Check direct clutch outer seal.
3. Check rear servo and front accum ulator pistons and
rings for damage or missing.
6. Case Assembly:
a. Porosity in intake bore area.
b. Check case for interm ediate clutch cup plug leak or
blown out.
c. LI-reverse check ball mispositioned or missing (this
will cause no reverse and no overrun braking in L I range).
1-2 Shift-Full Throttle Only
• D etent switch sticking or defective (may stick in cold
or wet weather). Can be detected by pulling connection at
transm ission and obtaining norm al upshifts.
• D etent solenoid:
a. Loose.
b. Gasket leaking.
c. Sticks open.
• C ontrol valve:
a. Valve body gaskets - leaking, damaged, incorrectly
installed.
b. D etent valve train stuck.
c. 3-2 valve stuck.
• Case - porosity.
First Speed Only, No 1-2 Shift
• Governor:
a. Valve sticking.
b. D riven gear loose, damaged or worn (check for pin
in case and length of pin showing); also check output shaft
drive gear for nicks or rough finish if driven gear shows
damage.
LIGHT T R U C K SER V IC E M A N U A L
7A-38
A U T O M A T IC TRAN SM ISSIO N
• C ontrol valve:
a. 1-2 shift valve train stuck closed.
b. G overnor feed channels blocked, leaking, pipes out
of position, governor screen plugged.
c. Valve body gaskets leaking, damaged, incorrectly
installed.
• Case:
a. Interm ediate clutch cup plug leaking or blown out.
b. Porosity between channels.
c. G overnor feed channel blocked; governor bore
scored or worn, allowing cross pressure leak.
• Interm ediate clutch:
a. Case center support - oil rings missing, broken,
defective; orifice plug missing.
b. C lutch piston seals missing, im properly assembled,
cut.
a. Servo piston seal ring dam aged or missing.
b. Short band apply pin (this may also cause no overrun
braking or slips in overrun braking - L I range). Refer to
IN ST A L L A T IO N O F R E A R SERVO ASSEM BLY for
pin selection procedure.
c. Defective rear servo piston or bore.
• Reverse or low band burnt, loose lining; apply pin
or anchor pins not engaged; band broken.
• D irect clutch:
a. O uter seal damaged or missing.
b. C lutch plates burnt (Refer to B U R N E D C LU TC H
PLATES).
• Forw ard clutch - clutch does not release (will also
cause D rive in N eutral).
• Center support - oil seal rings or grooves damaged
or worn.
First and Second Speeds Only, No 2-3 Shift
Slips in all Ranges, Slips on Start
• D etent solenoid - stuck open (detent shifts only - the
2-3 shift would occur at very high speeds, being interpreted
as no 2-3 shift).
• D etent switch.
• Control valve:
a. 2-3 valve train stuck.
b. Valve body gaskets leaking, damaged, incorrectly
installed.
• D irect clutch:
a. Center support oil rings missing, broken, defective.
b. C lutch piston seals missing, im properly assembled,
cut; piston ball check stuck or missing.
(Install pressure gage)
• Low fluid level.
• Oil pressure - Refer to LOW L IN E PRESSURE.
• Case - cross leaks, porosity.
• Forw ard and direct clutches slipping (if burnt, Refer
to B U R N E D C LU TC H PLA TE); oil seal rings on pum p
cover broken or worn.
Drive in Neutral
• M anual linkage m aladjusted.
• Internal Linkage:
a. M anual valve disconnected or end broken.
b. Inside detent lever pin broken.
• Pum p Assembly - transm ission lube pressure leaking
into forward clutch apply passage.
• Forw ard Clutch:
a. Burned plates - check cause.
b. C lutch doesn’t release - will also cause no drive in
Reverse.
No Drive in Reverse or Slips in Reverse
(Install pressure gage)
• Low fluid level.
• M anual linkage m aladjusted.
• Oil pressure - refer to LOW L IN E PR E SSU R E
above.
• Control valve:
a. Valve body gaskets leaking, damaged, incorrectly
installed (O ther m alfunctions may also be indicated).
b. Low reverse ball check missing from case (this will
also cause no overrun braking in L I Range).
c. 2-3 valve train stuck open (this will also cause 1-3
upshift in Drive range).
d. Reverse feed passage restricted; also check case
passages.
• R ear servo and accum ulator:
Slips 1-2 Shift
(Install pressure gage)
• Low fluid level.
• Oil pressure - Refer to LOW L IN E PRESSU RE.
• F ront accum ulator piston oil ring dam aged or
missing.
• C ontrol valve:
a. 1-2 accum ulator valve train sticking.
b. Porosity in valve body or case.
c. Valve body attaching bolts not properly torqued.
• R ear accum ulator oil ring missing or damaged; case
bore damaged.
• Pum p-to-case gasket mispositioned.
• Case:
a. Interm ediate clutch cup plug leaks excessively.
b. Porosity between channels.
c. Raised ridge around case center support bolt (does
not allow control valve assembly to seat properly).
• Interm ediate clutch:
a. Piston seals missing or damaged; clutch plates burnt
(Refer to B U R N E D C L U T C H PLATES).
b. Center support - leak in feed circuit (oil rings
damaged or grooves defective), excessive leak between tower
and bushing, orifice bleed plug hole (0.020 dia.) blocked,
center support bolt not seated properly in case.
Rough 1-2 Shift
(Install pressure gage)
• Oil pressure - Refer to H IG H L IN E PRESSURE.
• Control valve:
a. 1-2 accum ulator valve train.
b. Valve body-to-case bolts loose.
c. W rong gaskets or off location, damaged.
LIGHT T R U C K SE R V IC E M A N U A L
A U T O M A T IC TR A N SM IS S IO N
• Case:
a. Interm ediate clutch ball missing or not sealing.
b. Porosity between channels.
• R ear servo accum ulator:
a. Oil rings damaged.
b. Piston stuck.
c. Broken or missing spring.
d. Bore damaged.
• Interm ediate clutch - clutch plates burnt (Refer to
B U R N E D C LU TC H PLATES.
Slips 2-3 Shift
(Install pressure gage)
• Low fluid level.
• Oil pressure - Refer to LOW L IN E PRESSU RE.
• Control valve - accum ulator piston pin (leak at
swedge end).
• Case porosity.
• D irect clutch:
a. Piston seals leaking or ball check leaks.
b. C enter support oil seal rings damaged; excessive leak
between tower and bushing.
Rough 2-3 Shift
(Install pressure gage)
• Oil Pressure - Refer to H IG H L IN E PRESSU RE.
• F ro n t servo accum ulator:
a. F ro n t accum ulator spring missing, broken.
b. A ccum ulator piston stuck.
• D irect clutch - air check for leak to outer area of
clutch piston or center piston seal.
• D am aged center support.
No Engine Braking in L2 Range - 2nd Gear
• F ro n t servo accum ulator:
a. Servo or accum ulator oil rings or bores leaking.
b. Servo piston cocked or stuck.
• F ro n t band broken, burn t (check for cause), not
engaged on anchor pin a n d /o r servo pin.
No Engine Braking in L I Range - 1st Gear
• Case assembly - LI-reverse check ball mispositioned
or missing from case; case dam aged at LI-reverse check ball
area.
• R ear servo:
a. Oil seal ring, bore or piston damaged; leaking apply
pressure.
b. R ear band apply pin short, im properly assembled.
• R ear band broken, burn t (check for cause), not
engaged on anchor pins or servo pin. Item s above will also
cause slips in Reverse or no Reverse.
No Part Throttle Downshift
(Install pressure gage)
• Oil pressure - Refer to H IG H O R LOW O IL
PRESSU RE.
• Control valve - 3-2 valve stuck spring missing or
broken.
7A-39
No Detent Downshifts
• D etent switch adjustm ents, connection (switch
plunger activated approx. 7 /8 " at full throttle opening).
• Solenoid inoperative, connections.
• Control valve-detent valve train sticking.
Low or High Shift Points
(Install pressure gage)
• Oil Pressure - Refer to H IG H O R LOW O IL
PRESSURE.
• Governor:
a. Valve sticking.
b. Feed holes restricted or leaking; pipes dam aged or
mispositioned.
c. Feed line screen plugged.
• D etent switch.
• D etent solenoid stuck open, loose, etc. (will cause late
shifts).
• C ontrol valve:
a. D etent valve train.
b. 3-2 valve train (detent upshifts possible).
c. 1-2 shift valve train - 1-2 regulator valve stuck (this
would cause a constant 1-2 shift point, regardless of throttle
opening).
d. Spacer plate gaskets mispositioned; spacer plate
orifice holes missing or blocked.
• Case porosity; interm ediate clutch cup plug leaking,
missing.
Won't Hold in Park
• M anual linkage maladjusted.
• Internal linkage:
a. Parking brake lever and actuator defective (check
for cham fer on actuator rod sleeve).
b. Parking pawl broken.
c. Parking pawl bracket loose, burned, rough edges or
incorrectly installed.
d. Parking pawl return spring missing, broken or
incorrectly hooked.
Transmission Noisy
NOTICE: Before checking transm ission for w hat is
believed to be "transm ission noise", make sure th at the
noise is not from the water pump, alternator, power
steering, etc. These components can be isolated by
removing the proper belt and running the engine no
more than two m inutes at one time.
Park, Neutral and all Driving Ranges
• Pum p Cavitation:
a. Oil level low.
b. Plugged or restricted filter.
c. Intake pipe "O" ring damaged.
d. Intake pipe split, porosity in case intake pipe bore.
e. W ater in oil.
f. Porosity or voids at transmission case (pum p face)
intake port.
g. Pum p-to-case gasket off location.
• Pum p Assembly:
LIGHT T R U C K SE R V IC E M A N U A L
7A-40
A U T O M A T IC TRAN SM ISSIO N
a. G ears dam aged or defective; driving gear installed
backwards.
b. Crescent interference.
c. Oil seal rings dam aged or worn.
• Converter:
a. Loose flexplate-to-converter bolts.
b. Dam aged converter.
F irs t, S ec o n d a n d /o r R e v e rs e G e a rs
Planetary G ear Set:
a. G ears or th ru st bearings damaged.
b. F ront internal gear ring damaged.
D u rin g A c c e le ra tio n - A n y G e a r
• Transm ission or cooler lines grounded to underbody.
• M otor m ounts loose or broken.
S q u e a l a t L o w V e h ic le S p ee d
Speedometer driven gear
lubrication or replacement.
shaft
seal
-
requires
Burned Clutch Plates
• Forw ard clutch:
a. Check ball in clutch drum damaged, stuck or
missing.
b. C lutch piston cracked, seals dam aged or missing.
c. Low line pressure (Refer to LOW L IN E
PRESSU RE).
d. M anual valve mispositioned (may also cause front
band failure).
e. R estricted oil feed to forward clutch (clutch housing
to inner and outer areas not drilled, restricted, porosity in
pump, etc.).
f. Transm ission case valve body face not flat or porosity
between channels.
g. M anual valve bent and center land not ground
properly.
h. Pum p cover oil seal rings missing, broken or
undersize, ring groove oversize.
• Interm ediate Clutch:
a. C onstant bleed orifice in center support missing.
b. R ear accum ulator piston oil ring damaged or
missing.
c. 1-2 accum ulator valve stuck in control valve
assembly.
d. Interm ediate clutch piston seals damaged or missing.
e. Center support bolt loose.
f. Low line pressure (Refer to LOW L IN E
PRESSURE).
g. Interm ediate clutch cup plug in case missing.
h. Transm ission case valve body face not flat or
porosity between channels.
i. M anual valve bent and center land not ground
properly.
• D irect Clutch:
a. R estricted orifice in vacuum line to m odulator (poor
vacuum response).
b. Check ball in clutch piston damaged, stuck or
missing.
c. Defective m odulator bellows.
d. C enter support bolt loose (bolt may be tight in
support but not holding support tight to the case).
e. Center support oil rings or grooves damaged or
missing.
f. C lutch piston cracked, seals damaged or missing.
g. F ront and rear servo pistons a n d /o r seals damaged.
h. 3-2 valve, 3-2 valve spring or 3-2 spacer pin installed
in wrong location in 3-2 valve train bore.
i. M anual valve bent and center land not ground
properly.
j. Transm ission case valve body not flat or porosity
between channels.
k. Interm ediate roller clutch installed backwards.
• In addition, burned clutch plates can be caused by
incorrect usage of clutch plates. Also, anti-freeze in
transmission fluid can cause severe damaged, such as large
pieces of clutch plate material peeling off.
LIGHT T R U C K SE R V IC E M A N U A L
A U T O M A T IC TRAN SM IS S IO N
7A-41
FORWARD
CLUTCH
DIRECT
CLUTCH
FRONT
BAND
INTERMEDIATE
CLUTCH
INTERMEDIATE
ROLLER CLUTCH
LOW ROLLER
CLUTCH
REAR
BAND
NEUTRAL
O FF
O FF
OFF
O FF
In e ffe c tiv e
In e ffe c tiv e
O FF
D R IV E , First G e a r
ON
O FF
O FF
O FF
In e ffe c tiv e
E ffe ctive
O FF
D R IV E , S e cond G e a r
ON
O FF
OFF
ON
E ffe c tiv e
In e ffe c tiv e
O FF
D R IV E , T h ird G e a r
ON
ON
OFF
ON
In e ffe c tiv e
In e ffe c tiv e
O FF
Li
ON
O FF
O FF
O FF
In e ffe c tiv e
E ffe c tiv e
ON
L2
ON
O FF
ON
ON
E ffe c tiv e
In e ffe c tiv e
O FF
REVERSE
O FF
ON
O FF
O FF
In e ffe c tiv e
In e ffe c tiv e
ON
Fig. 7 A -4 3 --4 0 0 C lutch A p p ly C hart
LIGHT T R U C K SE R V IC E M A N U A L
7A-42
I
1
I
1
[Z ^ l
CZZI
1
1
Fig. 7A-44--400
AUTOMATIC TRANSMISSION
M A IN L IN E PRESSURE
INTAKE PRESSURE
CONVERTER PRESSURE
G O VE R N O R PRESSURE
M O D U LA TO R PRESSURE
DETENT PRESSURE
1 -2 A C C UM ULA TO R PRESSURE
Hydraulic
Circuit
A U T O M A T IC TR A N SM IS S IO N
7A-43
ON V EH IC LE S E R V IC E
TRANSMISSION REPLACEMENT
If necessary, the catalytic converter may have to be
disconnected to provide adequate clearance for transm ission
removal. This procedure will include removal of the
converter support bracket.
Removal
Before raising the truck, disconnect the battery and
release the parking brake.
1. Raise truck on hoist.
11. Remove transm ission to engine m ounting bolts and
remove oil filler tube at transmission.
12. Raise transm ission to its norm al position, support
engine with jack and slide transmission rearw ard from
engine and lower it away from vehicle.
13. Use converter holding Tool J-5384 when lowering
transmission or keep rear of transm ission lower than front
so as not to lose converter.
Installation
2. Remove propeller shaft.
3. D isconnect speedom eter cable, electrical lead to
case connector, vacuum line at m odulator, and oil cooler
pipes.
4. Disconnect shift control linkage.
5. Support transm ission with suitable transm ission
jack.
6. Disconnect rear m ount from fram e crossmember.
7. Remove two bolts at each end of the frame
crossm em ber and remove crossmember.
8. Remove converter under pan.
The installation of the transm ission is the reverse of the
removal with the following additional steps.
1. Before installing the flexplate to converter bolts,
m ake certain that the weld nuts on the converter are flush
with the flexplate and the converter rotates freely by hand
in this position. Refer to Fig. 7A-45 for instructions on
attaching the converter to-flexplate. This will insure proper
converter alignment.
2. Install transm ission support crossm em ber to
transm ission and frame with taper on support sloping
tow ard rear.
9. Remove converter-to-flexplate bolts. Refer to Fig.
3. A fter installation of transmission, check linkage for
7A-45.
proper adjustm ent.
10.
Loosen
exhaust
pipe
to
m anifold
bolts
4. Remove truck from hoist.
approxim ately 1/4 in. (6.35 m m), and lower transm ission
until jack is barely supporting it.
1.
M O V E C O N VER TER F O R W A R D T O C O N T A C T A T T A C H IN G SURFACE O N FLEX
PLATE PRIOR TO T IG H T E N IN G BOLTS.
2.
A L IG N SLOT IN FLEXPLATE TH A T H A S A N ID E N T IF IC A T IO N HO LE N E A R IT, W IT H
A N A T T A C H M E N T HOLE IN C O N V E R T E R . INSTALL BOLT A N D N U T A N D T IG H T E N
TO SPEC IFIED T O R Q U E . T IG H T E N ALL R E M A IN IN G BOLTS TO SP EC IFIE D T O R Q U E
AS TH EY ARE INSTALLED.
Fig. 7A-45--Typical Transm ission M ounting, Net-Hole Design
LIGHT T R U C K SER V IC E M A N U A L
7A-44
A U T O M A T IC TRAN SM ISSIO N
Fig. 7 A -46 --R e m ovin g G overnor A ttac h in g S c re w s
REAR EXTENSION OIL SEAL
Removal
1. Remove propeller shaft.
2. Pry seal out with screw driver.
Installation
Fig. 7 A -4 7 -R e m o v in g V a cu u m M o d u la to r and Valve
3. Remove m anual shaft retaining pin from case.
1. F or all models except CL, use Tool J-21359 to drive
seal in place. F o r CL models, use J-24057.
2. Reinstall propeller shaft.
4. Remove m anual shaft and jam nut from case, as
shown in Fig. 7A-48.
GOVERNOR
Do not remove m anual shaft seal unless replacement
is required.
Removal
1. Remove governor cover attaching screws, cover,
and gasket, as shown in Fig. 7A-46.
2. D iscard gasket.
3. W ithdraw governor assembly from case.
In s ta lla tio n
5. Remove parking actuator rod and detent lever
assembly.
6. Remove parking pawl bracket attaching screws and
bracket.
7. Remove parking pawl return spring.
Installation of the governor assembly is the reverse of
the removal. Use a new gasket under the governor cover.
Adjust fluid level.
MODULATOR AND MODULATOR VALVE
Removal
1. Remove m odulator assembly attaching screw and
retainer.
2. Remove m odulator assembly from case. D iscard
"O" ring seal.
3. Remove m odulator valve from case. Refer to Fig.
7A-47.
Installation
Installation of the m odulator assembly and m odulator
valve is the reverse of the removal. Use a new "O" ring seal
on the m odulator assembly.
Adjust fluid level.
PARKING LINKAGE-10, 20 SERIES
Removal
1. Remove bottom pan and oil filter.
2. U nthread jam nut holding detent lever to m anual
shaft.
Fig. 7A -48-R em oving Jam Nut from M anual Shaft
A U T O M A T IC TRAN SM IS S IO N
7A-45
C O N T R O L VALVE
A SS Y .
GOVERNOR
PIPES
G O V E R N O R SCREEN
A SSY.
G O V E R N O R FEED
PIPE H O L E
Fig. 7 A -5 0 ~ G o v e rn o r Screen Position
Fig. 7 A -4 9 ~ R e m o v in g Control V alve and G overnor Pipes
The following steps should be com pleted unless part
replacem ent is required.
8. Remove parking pawl shaft retainer.
9. Remove parking pawl shaft, cup plug parking pawl
shaft, and parking pawl.
In s ta lla tio n
Installation of the parking linkage is the reverse of the
removal. Use new seal and cup plug, if removed, and new
bottom pan gasket.
CONTROL VALVE BODY
PRESSURE REGULATOR VALVE
Rem oval
1. Remove bottom pan and filter.
2. Compress regulator boost valve bushing against
pressure regulator spring and remove snap ring, using J5403 pliers.
3. Remove regulator boost valve bushing and valve.
4. Remove pressure regulator spring.
5. Remove spring retainer, washer spacer(s) if present,
and regulator valve.
In s ta lla tio n
Rem oval
1. Remove bottom pan and filter.
2. Disconnect lead wire from pressure switch
assembly.
3. Remove control valve body attaching screws and
detent roller spring assembly.
Do not remove solenoid attaching screws.
A solid type pressure regulator valve m ust only be used
in a pum p cover with a squared-off pressure regulator boss
(Refer to Figure 7A-51). A pressure regulator valve with oil
holes and orifice cup plug may be used to service either type
pump.
Installation of the pressure regulator valve is the
reverse of the removal. Install new gasket on oil pan and
adjust fluid level.
NOTICE: If the transm ission is in the vehicle, the front
servo parts may drop out as the control valve assembly
is removed.
4. Remove control valve body assembly and governor
pipes. If care is taken in removing control valve body the
six (6) check balls will stay in place above the spacer plate.
Refer to Fig. 7A-49.
5. Remove the governor screen assembly from end of
governor feed pipe or from the governor feed pipe hole in
the case (Fig. 7A-50). Clean governor screen in clean solvent
and air dry.
NOTICE:
PUMP COVER
Do not drop m anual valve.
6. Remove the governor pipes and m anual valve from
control valve body.
In s ta lla tio n
Installation of control valve body is in reverse of
removal. See Overhaul M anual. A djust fluid level.
FOR ID E N T IF IC A TIO N SQUARED OFF PRESSURE
REG. BOSS.
Fig. 7A-5 1--Pressure Regulator Valve
LIGHT T R U C K SER VIC E M A N U A L
7A-46
A U T O M A T IC TRAN SM IS S IO N
meeting G M specification 123M or its equivalent. U nder no
condition use copper or alum inum tubing to replace steel
tubing. Those m aterials do not have satisfactory fatique
durability to w ithstand norm al vehicle vibrations.
Steel tubing should be flared using the upset (double
lap) flare m ethod which is detailed in Section 5.
OTHER SERVICE OPERATIONS
The following operations when done as single
operations and not as part of a general overhaul should, as
a practical m atter, be perform ed with the transmission in
the vehicle. Refer to the "Transm ission Disassembly and
Reassembly" section of the O verhaul M anual for service
procedures.
1. Oil filler pipe.
2. Oil pan and gasket.
Fig. 7 A -5 2 ~ T ra n sm issio n Su p p o rt Strut Rod
SUPPORT STRUT ROD
Replacement
The transm ission strut rod attachm ent is shown in Fig.
7A-52. Remove the two bolts when replacing the strut rod.
W hen removing the transm ission, it is only necessary to
remove the bolt at the transm ission end o f the strut rod.
3. Down shift solenoid or connector.
4. Valve body spacer plate, gasket and check balls.
5. F ront accum ulator piston.
6. R ear servo and rear accum ulator assembly.
7. R ear band apply checking with Tool J-21370.
8. Front servo assembly.
9. Speedo driven gear.
OIL COOLER PIPES
10. Case extension or gasket.
If replacem ent of transm ission steel tubing cooler pipes
is required, use only double w rapped and brazed steel tubing
11. Filter and "O" ring.
12. Pressure switch assembly.
LIGHT TR U C K SE R V IC E M A N U A L
A U T O M A T IC TR A N SM IS S IO N
7A-47
SPECIFICATIONS
350 C (MV4)
P u m p C o v e r to P u m p B o d y ..............................................
P u m p A sse m b ly to C a s e ..................................................
V alv e Body and A u x ilia ry V alve Body
P a rk in g L o c k B r a c k e t „. ..................................................
____23
. . . . 24
. . . . 14
____39
..........4
. . . . 14
. . . . 33
. . . . 14
....3 3
..........6
. . . . 47
___ 12
....4 7
O il P a n to C a s e .....................................................................
E x te n sio n to C a s e ............ .................................................
M o d u la to r R e ta in e r to C a s e ...........................................
In n e r S e le c to r L e v e r to S h a ft............ ............................
D e te n t V alv e A ctu atin g B r a c k e t ....................................
C o n v e r te r to F ly w h e e l B o lts .........................................
U n d er P a n to T r a n s m is s io n C a s e ...............................
T r a n s m i s s i o n C a s e to E n g in e .........................................
O il C o o le r P ip e C o n n e c to rs to T r a n s m is s io n
C a s e o r R a d i a t o r ............................................................ ____14
O il C o o le r P ip e to C o n n e c to r s ...................................... ..........13
D e te n t C ab le to T r a n s m i s s i o n ................... .................. ..........8
D e te n t C a b le to C a r b ......................................................... . . . . 12
S o len o id A s s e m b l y .............................................................. ..........4
G o v e rn o r P r e s s u r e S w itc h .............................................. . . . . 10
N- m .
N- m .
N- m .
N- m .
N- m .
N- m .
N- m .
N* m .
N- m .
N- m .
N- m .
N- m .
N- m .
. . .1 7
.1 8 .5
..1 3 0
. . .2 9
...4 0
..1 3 0
...2 5
...3 0
...2 5
...5 2
...3 5
. .1 1 0
...3 5
f t.
f t.
in .
f t.
in .
in .
ft.
in .
ft.
in .
f t.
in .
ft.
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
N- m .
N- m .
N* m .
N- m .
N*
N-
..1 2 5
...1 0
...7 5
..1 1 2
____3
___ 8
in .
f t.
in .
in .
f t.
ft.
lb .
lb .
lb .
lb .
lb .
lb .
400 (AMO)
........ 24 N- m . . . . 1 8 f t. lb .
..........24 N- m . . . .1 8 ft. lb .
____29
P u m p to C a s e A tta c h in g B o l t s ...................................... ..........24
E x te n s io n H o u sin g to C a s e A ttac h in g B o lts ............
..........24
............ 9
C o n tro l V a lv e Body B o l t s ................................................ ..........10
B o tto m P a n A tta c h in g S c r e w s ....................................... ..........14
..........24
..........24
M an u al L e v e r to M an u al S haft N u t ............................. ..........10
M an u al S h aft to In s id e D e te n t L e v e r ........................... ..........24
L in k a g e S w iv el C la m p N u t .............................................. ..........57
C o n v e r te r D u s t S h ield S c r e w s ...................................... ___ 124
T r a n s m i s s i o n to E n g in e M ounting B o l t s ................. ..........47
C o n v e r te r to F ly w h e e l B o l t s ......................................... ..........47
R e a r M ount to T r a n s m i s s io n B o l t s ............................. ..........54
R e a r M ount to C r o s s m e m b e r B o lt . ........................... ..........54
C r o s s m e m b e r M o u n tin g B o l t s ....................................... ..........32
O il C o o le r L i n e ..................................................................... ..........13
L in e P r e s s u r e T a k e -O ff P l u g ....................................... ..........17
S t r a i n e r R e ta in e r B o l t ..................................................... ..........13
O il C o o le r P ip e C o n n e c to rs to T r a n s m is s io n
C a s e o r R a d ia to r .............................................................. .......... 14
O il C o o le r P ip e to C o n n e c to r ......................................... .......... 1
D o w n sh ift S w itch to B r a c k e t........................................... ............ 2
N- m . . . . 2 3
N* m . . . .1 8
. . .23
N- m . . . . 1 8
____7
N.
____8
NN- m . . . . 1 2
N* m . . . . 1 8
N- m . . . . 1 8
8
NN- m . . . . 1 8
N- m . . . .4 3
N* m . . . . 9 3
N- m . . . . 3 5
N* m . . . .3 5
N- m . . . . 4 0
N- m . . . . 4 0
N- m . . . . 2 5
N* m . . . . 1 0
N* m . . . . 1 3
N- m . . . . 1 0
f t.
f t.
f t.
f t.
ft.
f t.
f t.
f t.
ft.
ft.
ft.
ft.
ft.
ft.
ft.
ft.
ft.
ft.
ft.
ft.
ft.
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
N* m . ..1 2 5 in. lb .
N* m . . . . 1 0 in . lb .
N- m . . . . 2 2 in . lb .
LIGHT TR U C K SE R V IC E M A N U A L
7A-48
A U T O M A T IC TRAN SM IS S IO N
S P E C IA L T O O LS
1.
J-8763-02
2.
J-3289-20
3.
4.
5.
J-8092
J-21465-13
J-23062-3
6.
7.
J-23062-7
J-21465-15
8.
9.
10.
11.
J-23329
J-9534-01
J-23327
J-23062-2
12.
13.
J-23062-1
J-21424-9
Transmission Holding Fixture
(Used with J-3289-20 Base)
Transmission Holding Fixture
Base
Driver Handle (Threaded type)
Driver Handle Extension (Used with J-8092)
Sun Gear and Reaction Carrier
Bushing
Output Shaft Bushing Installer
Stator Shaft Front Bushing
Remover (Used with J-8092)
Direct Clutch Bushing Installer
Output Shaft Bushing Remover
Clutch Spring Compressor
Stator Shaft Rear Bushing
Installer (Both Rear)
Case Bushing Remover and Installer
Extension Housing Bushing Remover and
Installer (Used with J-8092)
14.
J-21424-7
15.
J-23062-5
16.
17.
18.
J-5154 or
J-21426
J-21359
J-7004
19.
J-21885
20.
J-23069
*
21.
J-2619-01
Stator Shaft Front Bushing
Installer (Used with J-8092)
Input Ring Gear Bushing
Remover and Installer
Extension Housing Oil Seal
Installer
Pump Oil Seal Installer
Slide Hammers (Pair) (Ear
Pump Body removal) (3 /8 " x 16 tread)
2-3 Accum ulator Piston
Compressor
Intermediate Accum ulator Cover
Remover and Installer
Slide Hammer (5 /8 " x 18
with 1/2" x 13 Adapter)
Not Illustrated
J-21369
J-8001
Converter Pressure Check
Fixture
Dial Indicator Set
(.001" Increments, .001" Travel)
Fig. 7A-1 S T -3 5 0 Special Tools
LIGHT T R U C K SE R V IC E M A N U A L
A U T O M A T IC TRAN SM IS S IO N
1 . J-61 16-01
2 . J -8 0 9 2
3.
4.
J -2 1 3 5 9
J -2 1 3 6 4
5.
J -2 6 1 9
6.
7.
8.
J -5 1 5 4
J -6 5 8 5
J -9 5 3 9
9. J -5 5 9 0
10. J -2 1 8 6 7
11. J - 2 1370-6
12. J - 2 1370-5
13. J - 2 1795-1
Rear Unit H o ld in g Fixture
Driver H an dle
Pum p Oil S e a l Installer
H o ld in g Fixture A dapter (U sed
with J-61 16-01 Fixture)
S lid e H am m er (U sed with
2 6 1 9 -4 A d a p ter
and R em over T o o ls J - 2 1 465-01)
Extension Oil S e a l Installer
S lid e H am m er W e ig h ts
S lid e H am m er B o lts ( 3 / 8 " - 16
T hreads)
S p e e d o G ear Installer
Pressure G a u g e and H ose
Rear B a n d A p p ly Fixture
Rear B a n d A p p ly Pin
G ear Unit A sse m b ly H o ld in g
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
27.
28.
29.
J - 2 1 7 95-2
J -5 3 8 4
J - 2 1465-01
J - 2 1465-5
J - 2 1465-3
J -2 1 4 6 5 -2
J - 2 1465-1
J -2 1 4 6 5 -1 7
J - 2 1465-8
J -2 1 4 6 5 -1 3
J - 2 146 5 -6
J -2 1 4 6 5 -1 5
J - 2 1 4 6 5 -1 6
J - 2 1465-9
J -2 1 4 6 5 -1 0
J -2 2 1 8 2
7A-49
Part of A b o v e H o ld in g Tool
Converter H o ld in g Strap
B u sh in g Tool Set
Part.of B u sh in g Tool Set
Part of B u sh in g Tool Set
Part of B u sh in g Tool Set
Part of B u sh in g Tool Set
Part of B u sh in g Tool Set
Part of B u sh in g Tool Set
Part of B u sh in g Tool Set
Part of B u sh in g Tool Set
Part of B u sh in g Tool Set
Part of B u sh in g Tool Set
Part of B u sh in g Tool Set
Part of B u sh in g Tool Set
Ext. B u sh in g Rem. and Inst.
(Not Illustrated)
Fig. 7 A -2 S T -4 0 0 Special Tools
LIGHT T R U C K SE R VIC E M A N U A L
7A-50
A U T O M A T IC TRAN SM ISSIO N
1. J-8763
2 . J-3289-14
3.
4.
J-21427-1
J-9539
5.
J-8105
6 . J-22269-01
7.
J-21369
8 . J-21362
9.
J-21363
10.
J-21409
Transm ission H old in g Fixture
H o ld in g Fixture Base
Speedo Gear Rem over
Sid e H am m er B o lts (3 /8 " - 16
Threads)
Speedo Gear Rem over Puller
A cc u m u la to r Piston Rem over and Installer
Converter Pressure Check Fixture
Seal Protector - Forw ard and
Direct Clu tch - Inner
Seal Protector - Interm ediate
C lu tch - Inner
Seal Protector - Forw ard Clu tch - Outer
11.
J-21664
12.
13.
14.
15.
16.
Not
J-4670
J-8059
J-5586
J-5403
J 1313
Illustrated
J-24684
J-24675
C lu tch S p rin g C om pressor
A dapter R in g
C lu tch S p rin g C om pressor
Sn a p R in g Pliers
S n a p R in g Pliers
Sn a p R in g Pliers
T orqu e W rench 0-140 Ft. Lbs.
Pressure Regulator
Valve C om pressor
A c c u m u la to r Piston A dapter
(Used w ith J-22269-01)
Fig. 7A-3ST--400 Special Tools
LIGHT T R U C K SE R V IC E M A N U A L
MANUAL TRANSMISSIONS
7B-1
SECTION 7B
MANUAL TRANSMISSION
CONTENTS
G eneral D escription............................................................ 7B-1
76mm (3 S p e e d )............................................................. 7B-1
77mm (3 S p e e d )............................................................. 7B-1
89mm (4 S p e e d ).............................................................7B-1
117mm (4 S p e e d )........................................................... 7B-2
M aintenance and A d ju stm e n ts....................................... 7B-9
D iagnosis............................................................................... 7B-11
Free Pedal T ra v e l...........................................................7B-11
Spin Down T im e .............................................................7B-11
Shift L in k ag e.................................................................. 7B -11
Shift E ffort....................................................................... ..7B-12
On Vehicle Service
R ep lacem en t......................................................................7B-15
A lig n m e n t.......................................................................... 7B-17
Oil S e a l........................................................ .................... ..7B-18
Speedo G e a r.......................................................................7B-18
Side C over........................................................................ ..7B-19
Shift Control Lever........................................................ ..7B-19
S pecifications....................................................................... ..7B-20
Special T ools........................................................................ ..7B-21
GENERAL DESCRIPTION
THREE-SPEED TRANSMISSIONS
3-Speed 76mm
3-Speed 77mm
M anual transmissions are designated according to: (A)
the num ber of forward gears, and (B) the m easured distance
between centerlines of the m ainshaft and the countergear.
The three speed synchrom esh transm issions (Figs. 7B-1
through 7B-3) are representative of a constant-m esh tran s
mission design. Fundam ental components of these units are
the case, which houses the gears and shaft; the shift control
mechanism and the various shafts and gears. The input
shaft has an integral main drive gear and rotates with the
clutch driven plate; th at is, the shaft rotates all the tim e the
clutch is engaged and the engine is running. The input shaft
is supported in the case by a ball bearing and at the front end
by an oil im pregnated bushing m ounted in the engine
crankshaft. The drive gear is in constant mesh with the
countershaft drive gear. Since all gears in the countershaft
cluster are integral to the shaft, they also rotate at the time
the clutch is engaged. The countergear is carried on roller
bearings at both ends and thrust is absorbed by thrust
washers located between the countergear and thrust bosses
in the case. The transm ission m ainshaft is held in line with
the input shaft by a pilot bearing at its front end, which
allows it to rotate or come to rest independently of the input
shaft. In the 76mm unit, the m ainshaft is carried at the rear
by a ball bearing m ounted in the front face of the extension
housing. In the 77mm unit, the m ainshaft is carried at the
rear by a ball bearing m ounted in the rear face of the case.
Helical gears are incorporated throughout, except for
reverse gear in the 77 mm transm ission. The m ainshaft
gears are free to rotate independently on the m ainshaft and
are in co n stan t mesh w ith the c o u n te rsh a ft gears. The
reverse idler gear is carried on a bushing, finish bored in
place, and thrust is taken on the thru st bosses of the case.
The transm issions are fully synchronized in all forward
speeds; how ever, reverse gear is not. T he synchronizer
assemblies consist of a hub, sleeve, two key springs and three
synchronizer keys. The synchronizer hubs are splined to the
m ainshaft and retained by snap rings. These assemblies
perm it gears to be selected w ithout clashing,by synchroniz
ing the speeds of m ating parts before they engage.
In the 76mm unit, the driven gear, second speed gear,
first speed gear and reverse gear are rigidly connected to the
countergear. In the 77mm transm ission, only the driven
gear, second speed gear and first speed gear are rigidly
connected to the countergear. The engine driven clutch gear
drives the countergear through a constant mesh counter
shaft driven gear. The countergear rotates in a direction
opposite, or counter, to the rotation of the clutch gear.
Forward speed gears on the countergear rem ain in constant
mesh with two nonsliding m ainshaft gears giving first and
second speed. T hird speed is a direct drive with the clutch
gear engaged directly to the m ainshaft. Forward gears are
engaged through two sliding synchronizer sleeves m ounted
on the m ainshaft. E ngagem ent of the co n stant mesh
m ainshaft gears to the m ainshaft is accomplished through
blocker ring-type synchronizers.
FOUR-SPEED TRANSMISSION
4-Speed 89mm
The four speed transm ission with overdrive has an
89mm center distance and is designed to combine normal
perform ance in the city with improved fuel economy on the
highway. G ear ratios are: first 3.09 to 1; second 1.67 to 1;
third 1.00 to 1; fourth (overdrive) 0.73 to 1. All forward
gears are fully synchronized. The synchronizer assemblies
consist of a hub, sleeve, two key springs and three synchro
nizer keys. T he synchronizer hubs are splined to the
m ainshaft and retained by snap rings. These assemblies
perm it gears to be selected w ithout clashing, by synchroniz
ing the speeds of m ating parts before they engage.
The drive pinion (input shaft) is supported by a ball
bearing in the transm ission case and an oil im pregnated
bushing pressed in the end of the crankshaft.
The m ainshaft front end is supported by roller bearings
in the end of the main drive pinion and a ball bearing in the
front of the extension housing. T he o u tput end of the
LIGHT T R U C K SE R V IC E M A N U A L
7B-2
MANUAL TRANSMISSIONS
m ainshaft is splined to the sliding universal joint yoke,
which is supported by a bushing in the extension housing.
The countershaft gear is supported by a double row of
needle type roller bearings at each end and the thrust is
taken on thrust washers between the ends of the gear and the
transmission case. The alignm ent of the needle type roller
bearings within the gear is m aintained by a tubular spacer in
the center and four thrust washers (one being used between
the rows of roller bearings and one at each end). The
countershaft is not a press fit in the case bores, but has .005
inch diam eter clearance. An expansion plug is pressed into a
counter bore at the front of the case to prevent oil leakage
around the countershaft.
The reverse idler gear is supported on a bronze bushing,
pressed into the gear. A m agnetic disc is attached to bottom,
near rear of case under countershaft gear. This m agnet
collects and prevents circulation of chips in transm ission oil.
4-Speed 117mm
The 117mm, Model C H 465 truck transm ission (Fig.
7B-4 and 7B-5) uses a constant mesh first gear th at engages
LIGHT T R U C K S E R V IC E M A N U A L
with the second speed synchronizer sleeve. Second, third and
fourth gears are synchronized. The clutch gear is supported
by a heavy duty ball bearing. T he forward end of the
m ainshaft is supported by a loose collar-type bearing inside
the clutch gear, while the rear is carried on a ball bearing in
the case. End play is taken up by the rear flange retaining
nut. The countergear is supported at the rear by a single row
ball bearing which takes the thrust load, and by a roller
bearing at the front. Incorporated in the cover is a ball pin
type interlock which prevents sim ultaneous engagem ent of
two gears. As one rod is moved, it pushes a ball out that
engages the other two rods to prevent their movement.
G earshift levers on m anual transm issions are located
either on the steering column or on the floorboard. R egard
less of location, the lever perform s two operations: It selects
the gear assembly to be moved, and moves it either forward
or backw ard into the desired gear position. The transmission
action is the same w hether a floor-type shift lever or a
steering column shift lever is used. W hen the shift lever is
moved, the m ovem ent is carried by linkage to the
transmission.
MANUAL TRANSMISSIONS
1
2
30
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
3
31
4
5
32
Clutch Gear
Bearing Retainer
Pilot Bearings
Case
3rd Speed Blocker Ring
2-3 Synch. Snap Ring
2-3 Synch. Hub
2nd Speed Blocker Ring
2nd Speed Gear
1st Speed Gear
1st Speed Blocker Ring
1st Speed Synch. Hub
1st Speed Synch. Snap Ring
Reverse Gear
6
7
33
8
34
9
35
10
36
11
12 13
37
38
14
39
15
16
17
18
19
20
7B-3
21
40
15. Reverse Gear Thrust and Spring Washers
16. Snap R ing— Bearing to Mainshaft
17. Extension
18. Vent
19. Speedometer Drive Gear and Clip
20. Mainshaft
21. Rear Oil Seal
22. Retainer Oil Seal
23. Snap R in g— Bearing to Gear
24. Clutch Gear Bearing
25. Snap R ing— Bearing to Case
26. Thrust Washer— Front
27. Thrust Washer— Rear
28.
29.
30.
31.
32.
33.
34.
35.
36.
37.
38.
39.
40.
Snap R in g— Bearing to Extension
Rear Bearing
Countegear Roller Bearings
Anti-Lash Plate Assembly
Magnet
2-3 Synch. Sleeve
Countergear
Counter Shaft
Reverse Idler Shaft
1st Speed Synch. Sleeve
" E ” Ring
Reverse Idler Gear
W oodruff Key
Fig. 7B-1--3-Speed 76m m , Cross-Section
LIGH T T R U C K SE R V IC E M A N U A L
7B-4
MANUAL TRANSMISSIONS
Thrust W asher - Front
Bearing W asher
Needle Bearings
Countergear
Needle Bearings
Bearing W ahser
Thrust W asher - Rear
Counter Shaft
W o o d ru ff Key
Bearing Retainer
Gasket
Oil Seal
Snap Ring - Bearing
to Case
14. Snap Ring - Bearing
to Gear
15. Drive Gear Bearing
16 Case
17. Drive Gear
18 Pilot Bearings
1.
2
3.
4.
5.
6
7
8
9
10
11.
12.
13
19.
3rd Speed Blocker
Ring
20 "E " Ring
21. Reverse Idler Gear
22
Reverse Idler Shaft
23. W oodruff Key
24. Snap Ring - Hub to
Shaft
2-3 Synchronizer
25
Sleeve
26 Synchronizer Key
Spring
27. 2-3 Synchronizer Hub
Assembly
2nd Speed Blocker
28
Ring
29
2nd Speed Gear
30. Mainshaft
31. 1st Speed Gear
1st Speed Blocker
32
Ring
33.
34.
35
36
37.
38
39
40.
41.
42.
43
44.
45.
46.
1-2 Synchronizer Hub
Assembly
1-2 Synchronizer
Sleeve
Snap Ring - Hub to
Shaft
Reverse Gear
Thrust Washer
Spring Washer
Rear Bearing
Snap Ring - Bearing
to Shaft
Speedometer Drive
Gear
Retaining Clip
Gasket
Snap Ring - Rear
Bearing to Extension
Extension
Oil Seal
Fig. 7B-2~3-Speed 76m m , Exploded View
LIGHT T R U C K S E R V IC E M A N U A L
47.
48.
49
Gasket
2-3 S hift Fork
1st and Reverse Shift
Fork
50. 2-3 S hifter Shaft
Assembly
51
1st and Reverse
Shifter Shaft
Assembly
52 ” 0 " Ring Seal
53 "E " Ring
54
Spring
2nd and 3rd Detent
55
Cam
56
1st and Reverse
Detent Cam
57. Side Cover
58 TCS Switch and
Gasket
59
Lip Seal
MANUAL TRANSMISSIONS
1.
2.
3.
4.
MAINSHAFT ROLLER BEARINGS
2ND & 3RD SYNCHRONIZER RETAINING RING
SYNCHRONIZER BLOCKER RINGS
2ND & 3RD SYNCHRONIZER SPRING
35.
36.
37.
38.
7B-5
EXTENSION HOUSING TO CASE GASKET
SPEEDOMETER DRIVER GEAR RETAINING CLIP
TRANSMISSION REAR BEARING LOCK RING
MAINSHAFT BEARING ASSEMBLY
5.
2 N D & 3 R D S Y N C H R O N IZ E R S L E E V E
3 9 . S P E E D O M E T E R D R IV E G E A R
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
27.
28.
29.
30.
31.
32.
33.
34.
2ND & 3RD SYNCHRONIZER KEYS
2ND & 3RD SYNCHRONIZER HUB
SECOND SPEED GEAR
1ST SPEED GEAR RETAINING RING
1ST SPEED GEAR TABBED WASHER
1ST SPEED GEAR
REVERSE SYNCHRONIZER SPRING
1ST 8c REVERSE SYNCHRONIZER SLEEVE 8t GEAR
REVERSE SYNCHRONIZER KEYS
1ST & REVERSE SYNCHRONIZER HUB
1ST 8i REVERSE SYNCHRONIZER RETAINING RING
REAR BEARING RETAINING RING
TRANSMISSION MAINSHAFT
REVERSE-SYNCHRONIZER ASSEMBLY
ACCESS COVER BOLTS
ACCESS COVER
ACCESS COVER GASKET
BEARING RETAINER - TO CASE BOLTS
BEARING RETAINER - CLUTCH GEAR
GASKET - CLUTCH GEAR BEARING RETAINER
SEAL ASSEMBLY - CLUTCH GEAR BEARING RETAINER
CLUTCH GEAR BEARING RETAINING RING
CLUTCH GEAR BEARING LOCK RING
CLUTCH GEAR BEARING ASSEMBLY
CLUTCH GEAR
EXPANSION PLUG
FILLER PLUG
TRANSMISSION CASE MAGNET
CASE
40.
41.
42.
43.
44.
45.
46.
47.
48.
49.
50.
51.
52.
53.
54.
55.
56.
57.
58.
59.
60.
61.
62.
63.
64.
65.
66.
67.
EXTENSION TO CASE WASHER
EXTENSION TO CASE BOLT
TRANSMISSION EXTENSION VENTILATOR ASSEMBLY
EXTENSION HOUSING ASSEMBLY
EXTENSION HOUSING BUSHING
EXTENSION HOUSING OIL SEAL ASSEMBLY
COUNTERGEAR THRUST WASHER
COUNTERGEAR SPACER
COUNTERGEAR ROLLER BEARINGS
COUNTERGEAR SHAFT
COUNTERGEAR SPRING PIN
COUNTERGEAR
2ND 8> 3RD SHIFTER FORK
SHIFT FORK LOCKING SCREW
1ST 8. 2ND SHIFTER INTERLOCK SPRING
SHIFTER INTERLOCK PIN
1ST 8t REVERSE SHIFT RAIL
1ST 8. REVERSE SHIFT FORK
2ND 8i 3RD SHIFTER INTERLOCK SPRING
2ND 8t 3RD SHIFT RAIL
REVERSE IDLER GEAR THRUST WASHER
REVERSE IDLER GEAR SHAFT
SPRING PIN IDLER GEAR SHAFT
REVERSE IDLER GEAR BUSHING
REVERSE IDLER GEAR
REVERSE IDLER GEAR ASSEMBLY
SEAL TRANSMISSION SHIFTER
TRANSMISSION SHIFTER SHAFT & LEVER ASSEMBLY
Fig. 7B-3--3-Speed 77m m , Exploded View
LIG H T T R U C K S E R V IC E M ANU AL
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
1 1.
D riv e G e a r B earin g Retainer
Seal
S n ap Ring
D riv e G e a r B earing
D riv e G e a r
Stop Ring
3 rd & O / D Speed Clutch Assy
Stop Ring
O v e rd riv e G e a r
Second G e a r
Stop Ring
12.
13.
14.
15.
16.
17.
1 8.
1 9.
20.
21.
22.
1st & 2n d S peed Clutch Assy
Stop Ring
First G e a r
R ear M a in B earin g
Extension Housing
V e n t Plug
M a in s h a ft
R e tain e r C lip
S p e e d o m e te r G e a r
R ear O il Seal
Reverse Id le r G e a r
23 .
24.
25.
26.
27.
28.
29.
30.
31.
32.
33.
34 .
Reverse Id le r G e a r Bushing
Reverse Id le r S h a ft
S n ap Ring
W o o d ru ff Key
Thrust W a s h e r
C o u n te rs h a ft Roller B earings
C o u n te rs h a ft
C o u n te rs h a ft G e a r
C o u n te rs h a ft S leeve
Expansion Plug
S n ap Ring
D riv e G e a r Roller B earings
MANUAL TRANSMISSIONS
34
1.
Main Drive Gear
Drive Gear Bearing
Retainer
3 Snap Ring-Outer
4. 3rd and 4th
Synchronizer Ring
5. 3rd and 4th
Synchronizer Collar
6. 3rd and 4th S hift
Fork
7. 3rd and 4th Speed
S ynchronizer Ring
8. 3rd Speed Gear
9, 2nd Speed Gear
10. 1st and 2nd
Synchronizer
Assem bly
2
1 1.
12.
13.
14
15.
16.
17.
18.
19.
20.
21.
22.
23.
33 32
Reverse Driven Gear
Poppet Spring
Poppet Ball
S h ift Rail
1st and 2nd S hift
Fork
1st Speed Gear
T hrust W asher
Bearing Snap Ring
Speedom eter Drive
Gear
O utput Yoke
Flange Nut
Rear Bearing
Retainer Oil Seal
Rear Bearing
Retainer
31
24
25
26.
27.
28.
29.
30.
31.
32,
33
34.
35.
36.
7B-7
30
M ainsh a ft Rear
Bearing
Rear Bearing Snap
Ring
Snap Ring
C ountershaft
C ountershaft Rear
Bearing
Bearing Snap Ring
Reverse Idler Gear
Reverse id le r Shaft
Case M agnet
Spacer
C ountergear
T hrust W asher
Snap Ring
37.
Front C ountershaft
Bearing
38, C ountergear Front
Cover
Pilot Bearing Rollers
39
40. Clutch Gear Oil
Slinger
41. Snap Ring
42. 3rd Speed Gear
Bushing
43. T hrust W asher
44. 2nd Speed Gear
Bushing
45. 1st Speed Gear
Bushing
Fig. 7B-5--4-Speed, 117m m , Cross-Section
LIG H T T R U C K S E R V IC E M AN U AL
7B-8
1
MANUAL TRANSMISSIONS
Fig. 7B-6--4-Speed
117mm, Exploded
View
1.
2.
3.
4.
Drive Gear Bearing
Retainer
Retainer Gasket
Lip Seal
Snap Ring
5.
6.
Drive Gear Bearing
7.
Drive Gear and Pilot
O il SI in ger
Bearings
8.
9.
10.
11.
12.
Power Take-O ff Cover
Gasket
Power Take-O ff Cover
Retaining Screws
1st-2nd Speed
Blocker Rmg
Synchronizer Spring
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
1st-2nd Speed
Synchronizer Hub
Synchronizer Keys
Synchronizer Spring
Reverse Driven Gear
1st Gear Bushing
1st Gear
Thrust Washer
Rear Main Bearing
Bearing Snap Ring
Speedometer Gear
26.
27.
28.
29.
30.
34
Rear Mainshaft Lock
35.
31.
32,
33.
25.
2nd Speed Bushing
(On Shaft)
Mainshaft
37.
38.
39.
40.
41.
42.
43.
44.
Hub
N ut
24.
2nd Speed Gear
3rd Gear Bushing
Thrust Washer
3rd Speed Gear
3rd Speed Blocker
Ring
Synchronizer Spring
Synchronizer Keys
3rd-4th Synchronizer
36.
Synchronizer Spring
3rd-4th Speed
Blocker Ring
3rd-4th Speed
Synchronizer Sleeve
45.
46.
47.
Snap Ring
Snap Ring
Thrust Washer
Clutch Countergear
Spacer
3rd Speed
Countergear
Countergear Shaft
Countergear Rear
Bearing
Snap Ring
Bearing Outer Snap
Ring
Rear Retainer Gasket
48.
49.
50.
51.
52.
53.
54.
55.
56.
57.
58.
59.
Rear Retainer
Retainer Bolts
Retainer Lip Seal
Reverse Idler Shaft
Drain Plug
Reverse Idler Gear
Case
Fill Plug
Countergear Front
Bearing
Gasket
Front Cover
Cover Screws
MANUAL TRANSMISSIONS
7B-9
MAINTENANCE AND ADJUSTMENTS
TRANSMISSION LINKAGE ADJUSTMENT
3-Speed Column Shift
(Fig. 7B-6, 7, and 8)
In cases where gearshift linkage has been disconnected
or removed, proper adjustm ent sequence is im portant.
1. S et both shifter levers in n eu tral position. Install
control rods to both second and third shifter lever and
first and reverse shifter lever.
2. Align both shifter tube levers on mast jacket in the
neutral position. Install gauge (3/16 to 7/32 in.) in
holes of levers so th a t gearshift control lever is in
neutral position.
3. Connect control rods to tube levers making sure clamps
are properly adjusted so th a t tube levers and transm is
sion shifter levers rem ain in their neutral positions
while tightening.
4. Remove gauge and move selector lever through all
positions to check adjustm ent and insure over-travel in
all positions.
If m ast jacket lower dash clam p has been disturbed at
its m ounting on dash, its ad ju stm en t to the steering
m ainshaft should be checked as outlined in Section 3B of
this m anual.
Fig. 7B-7--G-Truck Column Shift Linkage
LIGH T T R U C K S E R V IC E M AN U AL
7B-10
S H IF T
LEVER
ROD
J
H
RELA Y LEVER
K
F
COLUM N CONTROL
LEVER
R E T A IN E R
ROD
A
G
G A G E P IN
Fig. 7B-8--C
S H IF T L E V E R
H
ROD
F
TRANS LEVER
and
BO LT
K-Truck
S W IV E L
B
C
D
Column
Shift Linkage
TRANSMISSION CONTROL LINKAGE ADJUSTMENT
Set Levers (A ) and (B ) in " R E V E R S E " p o sitio n a n d tu rn ign itio n sw itch to " L O C K " p o sitio n .
NOTE
O b ta in
R E V E R S E " p o sitio n by m o vin g T ra n s Lever (B ) c lo c k w ise to fo rw a rd detent.
2.
A tta c h R o d (G ) to S h ift Lever (J) w ith retainer. See V ie w A . S lid e sw ivel (D ) o n to R o d (G ).
into Lever (B ) and lo ose ly asse m bly w ith b o lt (C ) a n d w asher at th is tim e.
3.
R e m o ve c o lu m n " L A S H " by rotatin g Lever (J) in a d o w n w a r d d ire c tio n and c o m p le te a tta c h m e n t o f R o d (G ) to
Lever (B ) by tig h te n in g B o lt (C) u sin g re c o m m e n d e d torque.
4.
T u rn ign itio n key to " U N L O C K " p o sitio n an d p o sitio n Levers (A ), (B ) an d (E ) in " N E U T R A L " .
NOTE O b ta in
" N E U T R A L " p o sitio n by m o vin g Levers (B ) and (E ) c lo c k w ise to fo rw a rd detent then c o u n te r-c lo ck w ise o n e detent.
5.
A lig n gage holes in Levers (H), (J) an d (K ) and insert G a ge Pin (L ).
6.
R ep eat steps 2 & 3 fo r R o d (F) & Levers (E ) & (H ).
7.
R e m o v e Gage Pin (L).
NOTE W ith sh ift lever in " R E V E R S E " the ign itio n key m u st m ove freely to " L O C K " p o sitio n .
to o b ta in ig n itio n " L O C K " p o sitio n in " N E U T R A L " or a n y gear o th e r tha n " R E V E R S E " .
Insert Sw iv e l (D )
It m u st n ot be p ossib le
MANUAL TRANSMISSIONS
S H IF T L E V E R
MANUAL TRANSMISSIONS
7 B -1 1
Fig. 7B-9--P-Truck Colum n Shift Linkage
DIAGNOSIS
Preliminary Inspection
Before attempting to repair the clutch, transmission or
related linkages for any reason other than an obvious
failure, the problem and probable cause should be identified.
A large percentage of clutch and m anual transmission
problems are manifested by shifting difficulties such as high
shift effort, gear clash and grinding or transmission blockout. When any of these problems occur a careful analysis of
these difficulties should be accomplished, and the following
checks and adjustments performed in the presented se
quence before removing the clutch or transmission for
repairs.
CLUTCH ADJUSTMENT
Clutch Free Pedal Travel
1. The clutch free pedal travel adjustment should be made
as outlined in Section 7C.
2. Check clutch linkage for lost motion caused by loose or
worn swivels, deflection of mounting brackets or
damaged cordon shaft.
Clutch Spin Down Time
1. Run the engine at a normal idle with transmission in
neutral and clutch engaged.
2. Disengage the clutch, wait nine seconds and shift the
transmission to reverse. No grinding noise should be
heard. A grinding noise indicates incorrect clutch
adjustment, lost motion clutch misalignment, or inter
nal problems such as failed dampers, facings, cushion
springs, diaphragm spring fingers, pressure plate drive
straps, etc.
SHIFT LINKAGE ADJUSTMENT
Steering Column Shift Control
1. Remove the shift control rods from the column levers.
2. Check shift effort at the shift control lever knob. (Effort
should not exceed 2 lb. with transmission linkage
removed.)
3. If binding is felt, refer to the adjustment procedure for
the steering column lower bearing in Section 3B.
4. Lubricate all rod and swivel connections and recheck
shift effort after installation.
5. If shift linkage is free from binding, the column levers
should be checked for end play. A .005" feeler gauge
should fit between the levers and control lever.
6. Connect control rods and check steering column control
levers for alignment. In neutral, the column control
LIG H T T R U C K S E R V IC E M AN U AL
7B-12
MANUAL TRANSMISSIONS
S H IFT T O R Q U E
3 -S P D —
In ch -P oun ds
76m m
50
Fig. 7 B -10—Shift Torque C hart
1. Hard Shifting - The effort to shift is excessive, but the
gears engage. The lever moves with excessive effort
throughout the entire travel range. If the static shift
effort is high, (clutch depressed, engine not running)
the synchronizer sleeve and hubs should be checked for
a tight fit. With the three synchronizer keys removed,
the sleeve should be loose on the hub. If the hub and
sleeve are not a loose fit, replace the synchronizer
assembly.
lever tangs should line up with the slot in the main
control lever.
Floor Shift Control
All swivels, rods and mountings should be checked for
lost motion and repaired or replaced as necessary. Transmis
sion control levers should be checked for wear and repaired
or replaced as necessary.
TRANSMISSION SHIFT EFFORT
Transmission Shift Effort Checking Procedures
1. Remove the shift rods at the transmission and align the
sleeve, blocker ring and gear by shifting into the
offending gear and then back into neutral.
2. Check the torque required to shift into gear with an
inch pound torque wrench on the shift lever attaching
bolt. If more than the specified torque (Fig. 7B-10) is
required, the transmission shift lever should be checked
for rust or dirt binding the lever.
3. Clean levers, lubricate and recheck the torque value.
NOTICE: If at this point in the procedure, it is found
that high shift effort or blockout still exists, an anti
c h a tte r lubricant (positraction additive) should be
used. The lubricant is available in plastic bottle and can
be squirted into the transmission through the filler plug.
Transmission Internal Problems Related to Shift
Effort
When the above procedures have been checked and the
problem still exists, the transmission will have to be removed
and disassembled for further diagnosis. There are three
basic types of transmission internal problems reflected by
shifting effort.
2. Blockout - The lever moves freely until the synchro
nizer is engaged. Synchronization should be heard to
take place, but the gear will not engage. When it does
engage, a double bump is generally felt in the lever. The
synchronized blocker ring can be damaged by excessive
force on gear cones that are finished improperly. The
blocker ring material may stick to the synchronizer
gear cone causing it to be a yellowish brass color, in
streaks, which results in hard shifts when present. The
gear cone should be a bright silver color. Polish the gear
cone with 400 grit paper to a bright silver when this
condition is present. The blocker rings should be
replaced if the thread is damaged or worn.
3. Clash - Gear clash is a sound which sometimes occurs
when the sleeve and gear chamfers contact each other
in the unsynchronized state. T he characteristics of
clash are a grating or loud buzzing sound from the
transmission. The shift lever load will be lower, but a
vibration should be felt. The noise (clash) can be for a
short instant or long enough to keep the gear from
being engaged. This condition should not be confused
with hard shifting or reported as such. Hard shifting
and clash are directly opposite conditions. When the
clash is slight, the load will build up on the shift lever
and then fall off rapidly followed by the grating sound.
If the transmission has been clashing, the sleeve ends
should be examined for chipping and burrs. If the sleeves are
damaged, the synchronizer assemblies and blocker rings
should be replaced. Synchronizer sleeve ends should have an
angular surface. The surfaces should be even from side to
side and the radii indicated should be very small. Any
chipping will require synchronizer replacement.
Check the synchronizer load. W hen the keys are
installed, the spring ends on one side of the hub should be
hooked in one key and the spring on the opposite side of the
synchronizer should not be hooked on the same key. A
definite load should be felt when the sleeve is moved on the
hubs with the keys and springs in proper position.
LIGHT T R U C K SER V IC E M A N U A L
MANUAL TRANSMISSIONS
7B-13
SHIFTING D IFFIC U LTY DIAGNOSIS
CONDITION
High Shift Effort-Column Shift
(Effort exceeds 2 ft. lbs. at
lever knob with transmission
linkage disconnected.)
CORRECTION
PROBABLE CAUSE
Binding of column levers
Adjust column mechanism per Section 3B
Steering of the Chassis Service Manual
Clean and lubricate all rod and swivel
connections.
Lever end play exceeds .005 in.
Adjust levers
Misalignment of column control levers.
Adjust levers
Gear Clash and binding
Improper linkage Adjustment
Adjust Shift linkage
Lost motion
Loose or worn swivels and grommets.
Deflection of Mounting Brackets.
Loose shift levers.
Damaged Cordon Shaft
Replace defective parts
Fig. 7 B -1 1--Shifting Difficulty D iagn osis Chart
LIGH T T R U C K S E R V IC E M A N U A L
7B-14
MANUAL TRANSMISSIONS
MANUAL TRANSMISSION DIAGNOSIS
CONDITION
Slips out of High Gear
PROBABLE CAUSE
CORRECTION
a. Transmission loose on clutch housing
b. Shift rods interfere with engine
mounts or clutch throw-out lever
c. Shift linkage does not work freely;
binds
d. Damaged mainshaft pilot bearing
e. Main drive gear retainer broken or
loose
f. Dirt between transmission case and
and clutch housing
g. Misalignment of transmission
a. Tighten mounting bolts
b. Replace or bend levers and rods to
eliminate interference
c. Adjust and free up shift linkage
h. Stiff shift lever seal
i. Pilot bearing loose in crankshaft
j. Worn or improperly adjusted linkage
Noisy in All Gears
a. Insufficient lubricant
b. Worn countergear bearings
c. Worn or damaged main drive gear and
countergear
d. Damaged main drive gear or main
shaft bearings
e. Worn or damaged countergear anti
lash plate
d. Replace pilot bearing
e. Tighten or replace main drive gear
f. Clean mating surfaces
g. Refer to TRANSMISSION
ALIGNMENT
h. Replace seal
i. See Section 6 for brg. fits
j. Adjust or replace linkage as required
a. Fill to correct level
b. Replace countergear bearings and shaft
c. Replace worn or damaged gears
d. Replace damaged bearings or main
drive gear
e. Replace countergear
Noisy in High Gear
a. Damaged main drive gear bearing
b. Damaged mainshaft bearing
c. Damaged high speed gear synchronizer
a. Replace damaged bearing
b. Replace damaged bearing
c. Replace synchronizer
Noisy in Neutral with Engine
Running
a. Damaged main drive gear bearing
b. Damaged or loose mainshaft pilot
bearing
c. Worn or damaged countergear anti
lash plate
d. Worn countergear bearings
a. Replace damaged bearing
b. Replace pilot bearings. See Section 6
for bearing fits
c. Replace countergear
Noisy in all Reduction Gears
a. Insufficient lubricant
b. Worn or damaged main drive gear or
countergear
a. Fill to correct level
b. Replace faulty or damaged gears
Noisy in Second Only
a. Damaged or worn second-speed
constant mesh gears
b. Worn or damaged countergear rear
bearings
c. Damaged or worn second-speed
synchronizer
a. Replace damaged gears
Noisy in Third Only (Four
Speed)
a. Damaged or worn third-speed constant
mesh gears
b. Worn or damaged countergear bearings
d. Replace countergear bearings and shaft
b. Replace countergear bearings and shaft
c. Replace synchronizer
a. Replace damaged gears
b. Replace damaged countergear bearings
and shaft
Fig. 7 B -1 2 -M a n u a l Transmission D iagn osis C hart A
LIGH T T R U C K SER V IC E M AN U AL
MANUAL TRANSMISSIONS
7B-15
MANUAL TRANSMISSION DIAGNOSIS (CONT'D.)
PROBABLE CAUSE
CORRECTION
a. Worn or damaged reverse idler gear or
idler bushing
b. Worn or damaged reverse gear on
mainshaft
c. Damaged or worn reverse countergear
d. Damaged Shift mechanism
a. Replace reverse idler gear assembly
CONDITION
Noisy in Reverse Only
b. Replace reverse gear
c. Replace countergear assembly
d. Inspect linkage and adjust or replace
damaged parts
Excessive Backlash in all
Reduction Gears
a. Worn countergear bearings
b. Excessive end play in countergear
a. Replace bearings
b. Replace countergear thrust washers
Main Drive Gear Bearing
Retainer Burned or Scored
by Input Shaft
a. Loose or damaged mainshaft pilot
bearing
b. Misalignment of transmission
a. Replace b taring. See Section 6 for
bearing fit
b. Align transmission
Leaks Lubricant
a. Excessive amount of lubricant in
transmission
b. Loose o r 1 broken main drive gear
bearing retainer
c. Main drive gear bearing retainer gasket
damaged
d. Side cover loose or gasket damaged
e. Rear bearing retainer oil seal leaks
f. Countershaft loose in case
g. Shift lever seals leak
a. Drain to correct level
b.
Tighten or replace retainer
c. Replace gasket
Tighten cover or replace gasket
e. Replace seal
f. Replace case
g. Replace seal
d.
Fig. 7 B -1 3 --M an u al Transmission D iagnosis C hart B
COMPONENT REPLACEMENT
TRANSMISSION REPLACEMENT
3-Speed and 4-Speed Transmission Removal
(Except K Series)
1. Raise vehicle on suitable hoist and drain lubricant from
transm ission.
2. Disconnect speedom eter cable.
3. Remove shift controls from transm ission.
Fig. 7B-14--Typicai Transmission Mounting
On vehicle equipped with 4-Speed ( 1 17mm) transm is
sion, remove the gearshift lever using Tool J-8109 as
shown in Fig. 7B-15. Press down firmly and rotate tool
counterclockwise to release gearshift lever.
Place clean lint-free cloth or other suitable covering
over opening on transm ission to prevent entry of dirt of
foreign m aterial.
4. Disconnect parking brake lever and controls (when
used) and back up lam p switch wire.
Fig. 7B -15-R em oving G earshift Lever
LIGH T T R U C K SE R V IC E M ANU AL
7B-16
MANUAL TRANSMISSIONS
5. Disconnect propeller shaft from transmission as de
scribed in Section 4A.
6. Position a suitable dolly or jack under the vehicle and
adjust to carry the weight of the transmission.
7. Visually inspect to determine if other equipment, lines
or brackets must be removed to permit removal of the
transmission. Remove crossmember.
NOTICE: Be sure to support the clutch release bearing
and support assembly during removal of the transmis
sion main drive gear from the flywheel housing. This
will prevent the release bearing from falling out of the
flywheel housing when the transmission is removed.
8. Remove transm ission-to-clutch housing mounting
bolts.
C A U T IO N rW h en rem oving the transmission, do
not a llo w th e w e ig h t of th e transmission to hang
on the clutch disc hub, as th e disc m a y become
distorted, seriously affecting clutch o peration.
9. Move the transmission assembly straight away from
the engine, using care to keep the transmission main
drive gear shaft in alignment with the clutch disc hub.
Refer to Fig. 7B-14.
10. When the transmission is free from the engine, lower
the transmission and move from under the vehicle.
11. If desired, a careful check of clutch components should
be made after the transmission has been removed. If
the clutch requires repair, refer to Section 7C before
transmission is reinstalled in the vehicle.
3-Speed and 4-Speed Transmission Installation
(Except K Series)
1. Apply a light coating of high temperature grease to the
main drive gear bearing retainer and splined portion of
transmission main drive gear shaft to assure free
movement of clutch and transmission components
during assembly.
2.
3.
4.
5.
6.
7.
NOTICE: Do not apply an excessive amount of grease in
the above areas, as under normal operation this grease
could be thrown onto clutch facings resulting in clutch
problems.
Shift the transmission into high gear. Mount transmis
sion on dolly or jack and move into position under the
vehicle.
Avoid springing the clutch when the transmission is
being installed to the engine. Do not force the transmis
sion into the clutch disc hub. Do not let the transmis
sion hang unsupported in the splined portion of the
clutch disc.
Align the transmission main drive gear shaft with the
clutch disc hub by rotating the transmission companion
flange or output yoke. Move the transmission forward,
guiding the main drive gear shaft into the clutch disc
splines.
Install transmission-to-clutch housing mounting bolts
and washers. Tighten bolts to specifications.
Install crossmember.
Connect propeller shaft to transmission as described in
Section 4A. Remove transmission jack.
Connect parking brake lever and control (if used).
Adjust brakes as outlined in Section 5.
LIGHT T R U C K SER V IC E M A N U A L
8. R econnect speedom eter cable to a d a p te r at
transmission.
9. Reinstall shift controls on transmission.
On vehicles equipped with a 3-speed transmission and 4
speed 89mm reconnect shift levers to transmission side
cover. On vehicles equipped with a 4-Speed, 117mm
transm ission, install gearshift lever using Tool J-8109
as shown in Fig. 7B-15. Press down firmly and rotate
clockwise to install gearshift lever. Install transmission
floor pan cover and floor mat.
10. If other equipm ent (exhaust pipe, support brackets,
etc.) was removed, reinstall these parts.
11. Refill transm ission with lu b ric an t recom m ended in
Section 0-B of this m anual.
12. If necessary, ad just clutch or transm ission control
linkage to achieve proper transm ission operation.
3-Speed Transmission - "K" Series
Removal and Installation
1. Raise vehicle on hoist.
2. Drain transfer case and transm ission. Disconnect the
speedom eter cable from speedom eter driven gear
fitting.
3. Disconnect propeller shaft front U-joint yoke a t case,
and tie up out of way.
4. Remove bolt holding the shift lever control assembly to
the adapter assembly. Remove shift lever rod from
transfer case shift rail connector link. Push assembly to
one side and tie up out of way.
5. Remove the bolts attaching the strut to the right-hand
side of the transfer case and also to the engine rear face.
Remove the strut.
6. Support transfer case in a suitable cradle. Remove bolts
attaching transfer case to adapter, and remove the
transfer case.
7. Disconnect shift control rods from the shifter levers at
the transmission.
8. Support rear portion of engine. Remove two (2)
adapter m ount bolts.
9. Remove the 2 top transm ission to clutch housing cap
screws and insert 2 transm ission guide pins, Tool
J -l 126 in these holes.
10. Remove the 2 lower transm ission-to-clutch housing cap
screws.
11. Slide the transmission and adapter assembly straight
back on guide pins until the clutch gear is free of splines
in the clutch disc.
The use of the 2 guide pins during this operation will
support the transmission and prevent dam age to the
clutch disc through springing.
12. Remove the transm ission and adapter as an assembly
from under the body.
13. Remove adapter from transm ission.
14. To install, reverse removal procedure.
4-Speed Transmission Removal
K Series
1. Remove attaching screws from transfer case shift lever
boot retainer and remove retainer.
MANUAL TRANSMISSIONS
2. Remove attaching screws from transm ission shift lever
boot retainer. Slide boot and retainer up lever and
remove transm ission shift lever using Tool J-8109 as
shown in Fig. 7B-15.
3. Remove floor m at or carpeting from com partm ent.
4. If necessary, remove center floor outlet from heater
distributor duct. If equipped with a center console,
remove console before proceeding to next step.
5. Remove transmission floor cover attaching screws and
cover. R otate cover approxim ately 90° to clear transfer
case shift lever while lifting cover from vehicle.
6. Disconnect shift lever rod assembly from transfer case
shift rail connecting link.
7. Remove shift lever attaching bolt and shift lever control
from adapter.
8. Raise and support vehicle on hoist. Support engine with
suitable floor stand. Drain transfer case and transm is
sion assemblies.
9. Disconnect speedom eter cable from transfer case.
10. Disconnect prop shaft at rear of transfer case and tie up
away from work area.
11. Disconnect front prop shaft from transfer case and tie
up away from work area.
12. Open lock tabs and remove transm ission m ount-tofram e crossmem ber bolts.
13. Support transm ission and transfer case assembly with
suitable floor stand.
14. Remove fram e to crossm em ber bolts and remove
crossm em ber from vehicle. R o tate crossm em ber to
clear fram e rails.
15. On V-8 engine models, remove exhaust crossover pipe.
16. Remove transm ission to clutch housing attaching bolts.
Remove upper bolts first and install transm ission guide
pins J -l 126. Use of the guide pins will prevent dam age
to the clutch assembly.
17. Slide transm ission rearw ard until m ain drive gear
clears the clutch assembly and lower assembly from
vehicle.
4-Speed Transmission Installation
K Series
1. Position transm ission, with transfer case attached, to
the clutch housing. Install bolts attaching transmission
to clutch housing.
2. On V-8 models, install exhaust crossover pipe.
3. Position fram e crossm em ber and install retaining bolts.
Install bolts retaining adapter assem bly to crossm em
ber and transfer case to fram e rail bracket. Torque all
bolts to specification.
4. Torque front and rear transfer case yoke lock nuts to
specifications.
5. Install front and rear propshafts to transfer case output
yokes.
6. Connect the speedom eter cable.
7. Fill transmission and transfer case to proper level with
lubricant specified in Section OB.
8. Install transfer case shift lever assem bly and attaching
bolt. C onnect shift lever rod to shift rail connector link.
9. Install transm ission floor cover and attaching bolts.
7B-17
10. Install heater distributor duct center outlet.
On models with center console, install console and
retaining bolts.
11. Install floor mat, transfer case shift lever retainer and
attaching screws.
12. Install transmission shift lever, boot and retainer.
TRANSMISSION ALIGNMENT
In some instances where excessive gear whine or high
gear hop out, particularly at 50 mph (80 km/h) and up, are
encountered, and after all other probable causes have been
checked, an alignment check of the transmission and clutch
housing may be helpful.
A special tool, on which a dial indicator is mounted, is
necessary to check the transmission case rear bore align
ment. This tool may be made from a new or good used clutch
gear which has a good bearing surface on the crankshaft
pilot end and at the front main bearing location.
The splines on the clutch gear shaft and the teeth on the
clutch gear should be ground off so the shaft may be rotated
in a clutch disc hub without interference when assembled in
the car. Weld a piece of 1/4 in. (6.3m m) rod in the
mainshaft pilot bore long enough to extend out the case rear
bore. Assemble a good bearing on the clutch gear shaft and
secure it with the clutch gear bearing snap ring. Attach a
suitable dial indicator to the rod.
1. Remove the transmission from the vehicle and com
pletely disassemble, except for the reverse idler gear.
In any case where the clutch gear pilot or pilot bearing
is excessively loose or worn, the pilot bearing should be
replaced before checking the transmission case rear
bore alignment by the dial indicator method.
2. Carefully install the special tool with the dial indicator
in the transmission case with the face of the indicator to
the rear of the case and with the tracing finger
contacting the I.D. of the case rear bore. Secure in
place with a clutch gear bearing retainer.
3. Assemble the transmission case to the clutch housing
and tighten the four transm ission mounting bolts
securely.
Be sure to clean off any paint or other foreign material
on the mating faces of the clutch housing and transmis
sion as any foreign material on these faces will change
alignment; also, check carefully for dings or burrs on
these m ating surfaces and remove carefully as
necessary.
4. Dial indicate the transmission case rear bore and
record the indicator readings in the 12, 3, 6 and 9
o'clock positions.
It is best to start the reading at the 3, 6, 9 or 12 o’clock
position closest to the point where the indicator plunger
reaches its m axim um outward travel. Set the dial
indicator at " 0 " at this location and then record the 3,
6, 9 and 12 o’clock readings in rotation.
5. Install temporary slotted shims between the transmis
sion case and the clutch housing in the quantities and at
the bolt locations as necessary to bring misalignment at
the transmission case rear bore to a miximum of 0.005
in. indicator reading in either the vertical or horizontal
direction.
LIGH T T R U C K SE R V IC E M ANU AL
7B -18
MANUAL TRANSMISSIONS
E X A M PL E: If the maximum indicator reading is at
the 12 o’clock position, put shims on the two bottom
bolts.
6. After the position and quanity of shims has been
determined and recorded the transmission case may be
removed.
NOTICE: The clutch housing should then be stamped,
showing the position where shims are to be installed
and the thickness of shims at each location.
7. Inspect the external clutching teeth of the clutch gear
and second speed gear. Inspect the second and third
speed clutch internal clutching teeth. If the teeth are
worn or tapered, even slightly, the gears should be
replaced. Reassemble the transmission.
8. Install the transmission assembly to the clutch housing,
using the correct num ber of shims at the proper
locations as previously determined. Shims are available
by unit part number with each unit consisting of the
following shims:
4 - .0 0 2 " shims Identification-two corners cut off.
2--.005" shims Identification-one corner cut off.
1- .0 1 0 " shims Identification-all corners square.
These special shims have a tab on one end for ease of
installation. Do not slot the shims for the permanent
installation.
REAR OIL SEAL REPLACEMENT
1. Drain lubricant from transmission.
2. Disconnect propeller shaft from transmission as de
scribed in Section 4A.
3. On 3-speed transmissions and 4-speed 89mm, perform
the following replacement procedures:
a. Remove slip joint yoke from rear of transmission
mainshaft.
b. Pry seal out of extension housing or remove oil seal
using oil seal remover (J-5859) and slide hammer (J2619) as shown in Fig. 7B-16.
c. Coat outer diameter of new oil seal with sealing
cement. Install new oil seal using extension housing
oil seal installer (J-5154).
d. Install slip joint yoke on rear of transmission
mainshaft.
4. On 4-speed (117 m m ) transmissions, perform the
following:
a. Remove parking brake from rear of transmission as
described in Section 5, if so equipped.
b. Disconnect speedometer cable and remove speedom
eter driven gear from m ainshaft rear bearing
retainer.
c. Using flange or yoke holding tool, remove the output
yoke or companion flange nut. Pull output yoke or
companion flange nut off the mainshaft.
d. Support transmission while removing mounting bolts
and bearing retainer. Remove mainshaft rear bear
ing retainer and gasket. Discard gasket.
e. Remove oil seal from rear bearing cap. Discard oil
seal.
f. Coat outer diameter of new oil seal with sealing
cement. Install oil seal in rear bearing cup using a
suitable installer. Drive seal flush with outside of rear
bearing cap, being careful not to damage seal. Use
Installer J-22834 with A d a p te r J-22834-1 as re
quired, as shown in Fig. 7B-16.
g. Clean all gasket surfaces, then install the rear
bearing cap with a new gasket on the transmission.
Tighten cap screws firmly.
h. Install output yoke or companion flange on main
shaft. Using a flange or yoke holding tool install
retaining nut. Torque the retaining nut to
specification.
i. Install speedometer driven gear, then connect speed
ometer cable.
5. Reconnect propeller shaft to transmission as described
in Section 4A.
6. Refill transmission with lubricant recom mended in
Section 0B.
*
SPEEDOMETER DRIVEN GEAR REPLACEMENT
1. Disconnect speedometer cable, then remove lock plate
to housing bolt and lock washer and remove lock plate.
Insert screw driver in lock plate slot in fitting and pry
fitting, gear and shaft from housing. Pry " O " ring from
groove in fitting.
2. Install new " O " ring in groove in fitting, coat " O " ring
and driven gear shaft with transmission lubricant and
insert shaft.
3. Hold the assembly so slot in fitting is toward lock plate
boss on housing and install in housing. Push fitting into
J-22834-2
J-22834-1
NOTE PARKING
BRAKE M O U N T IN G
FLANGE
J- 22834-2
ONLY
Fig. 7B-17--Replacing Rear Bearing Retainer Oil Seal
LIGHT T R U C K S E R V IC E M ANU AL
MANUAL TRANSMISSIONS
DETENT C A M
DETENT SP R IN G
CAM
2 -3 SHIFT
FORK
1ST & REV.
SHIFTER SHAFT
SHIFT FORK
2 -3 SHIFTER SHAFT
DETENT C A M
RETAINER R IN G
Fig. 7 B - 1 8--Transmission Sid e Cover Assem bly
housing until lock plate can be inserted in groove and
attached to housing.
TRANSMISSION SIDE COVER
Replacement/Repair (Fig. 7B-17)
1. Disconnect control rods from levers and back-up lamp
wiring.
2. Shift transmission into neutral detent positions before
removing cover. Remove cover assembly from trans
mission case carefully and allow oil to drain.
3. Remove the outer shifter levers.
4. Remove both shift forks from shifter shaft assemblies.
Remove both shifter shaft assemblies from cover. Seals
around shifter shaft may now be pried out if replace
ment is required because of damage.
7B-19
5. Remove detent cam spring and pivot retainer " C " ring.
Remove both detent cams.
6. With detent spring tang projecting up over the 2nd and
3rd shifter shaft cover opening, install the first and
reverse detent cam onto the detent cam pivot pin. With
the detent spring tang projecting up over the first and
reverse shifter shaft cover hole install the 2nd and 3rd
detent cam.
7. Install detent cam retaining " C " ring to pivot shaft,
and hook spring into detent cam notches.
8. Install both shifter shaft assemblies in cover being
careful not to damage seals. Install both shift forks to
shifter shaft assemblies, lifting up on detent cam to
allow forks to fully seat into position.
9. Install outer shifter levers, flat washers, lock washers
and bolts.
10. Shift shifter levers into neutral detent (center) position
and slide cover into place making sure the shift forks
are aligned with their respective m ainshaft clutch
sliding sleeves.
11. Install cover a tta c hing bolts and tighten evenly to
specified torque, then connect wiring.
12. Remove filler plug and add lubricant specified in
Section OB to level of filler plug hole.
TRANSMISSION FLOOR SHIFT CONTROL LEVER
REPLACEMENT (4 SPEED) 1 17mm
1. On K-Series models, remove transfer case shift lever
boot retainer atta c h in g screws and retainer from
compartment floor.
2. Remove floor covering from vehicle.
3. Remove transmission shift lever boot retainer attaching
screws.
4. Slide boot and retainer up on shift lever and remove the
transmission shift lever using Tool J-8109 as shown in
Fig. 7B-14.
5. To install, reverse removal procedure Steps 1-4.
L IG H T T R U C K S E R V IC E M AN U AL
7B-20
MANUAL TRANSMISSIONS
SPECIFICATIONS
THREE-SPEED 76mm
C lu tc h G e a r R e ta in e r to C a s e B o lts ...................................... 20
S id e C o v e r to C a s e B o l t s ............................................................ 20
E x te n s io n to C a s e B o l t s .............................................................. 61
S hift L e v e r to S h ifte r Shaft B o l t s ........................................... 32
L u b r ic a tio n F i l l e r P l u g .............................................................. 17
T r a n s m is s io n C a s e to C lu tch H o u sin g B o l t s ................. 101
C r o s s m e m b e r to F r a m e N u t s .................................................. 32
C r o s s m e m b e r to M ount B o l t s ...................................................54
2 -3 C r o s s O v e r Sh aft B r a c k e t R e ta in in g N u t ................... 24
1 -R e v . S w ivel A ttach in g B o l t .................................................. 27
M ount to T r a n s m is s io n B o l t .....................................................68
N- m . . . . 15
N- m . . . . 15
N« m . . . . 4 5
N- m . . . . 25
N - m . . . . 13
N»m....75
N* m . . . . 25
N * m . . . .4 0
N* m . . . . 18
N» m . . . . 2 0
N - m . . . . 50
ft.
f t.
ft.
ft.
ft.
ft.
f t.
ft.
ft.
ft.
ft.
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb.
N* m . . . . 35
N *m . . . . 3 0
N* m . . . . 45
N* m . . . . 25
N • m . . . . 15
N- m . . . . 75
N - m . . . .25
N* m . . . . 4 0
N- m . . . . 18
N- m . . . . 20
N* m . . . . 50
ft.
ft.
ft.
ft.
ft.
ft.
ft.
ft.
ft.
ft.
ft.
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb .
lb.
C lu tc h G e a r B e a rin g R e ta in e r to C a s e B o lts ................. .32 N* m . . . . 2 5 ft.
C o v e r to C a se B o l t s .......................................................................27 N- m . . . . 20 ft.
E xtension and Retainer to Case B o lts-(U p p e r ) ................27 N* m . . . . 20 ft.
- ( L o w e r ) .................40 N* m . . . . 30 f t.
L u b r ic a tio n F i l l e r P lu g ................................................................40 N * m . . . .3 0 ft.
S hift L e v e r to S h ifte r S h aft N u t ...............................................27 N* m . . . . 20 f t.
M o u n t- T o - T r a n s m is s io n B o lts ................................................ .45 N * m . . . . 3 2 f t .
lb .
lb .
THREE-SPEED 77mm
C lu tc h G e a r R e ta in e r to C a s e B o l t s .......................................47
T op C o v e r to C a s e B o l t s .............................................................. 40
E x te n s io n to C a s e B o l t s .................................................................61
S h ift L e v e r to S h ifte r Sh aft B o lts ..............................................32
L u b r ic a tio n F i l l e r P lu g . . . . . . ...................................................20
T r a n s m i s s i o n C a s e to C lu tc h H o u sin g B o l t s ................... 101
C r o s s m e m b e r to F r a m e N u ts ..................................................... 32
C r o s s m e m b e r to M ount B o l ts ..................................................... 54
2 -3 C r o s s O v e r Sh aft B r a c k e t R e ta in in g N u t......................24
1 -R e v . S w ivel A ttach in g B o l t ..................................................... 27
M ount to T r a n s m i s s i o n B o l t ....................................................... 68
FOUR-SPEED CH465 117mm
LIGHT T R U C K S E R V IC E M ANU AL
lb.
lb .
lb .
lb .
lb.
MANUAL TRANSMISSIONS
7B-21
SPECIAL TOOLS
1.
J-1126
Tr a n s m i s s i o n G u i d e Pins
6.
J-2228
R ea r B ear in g Press Plates
2.
J-8059
R e t a in e r S n a p R in g Pliers
7.
J-5590
C lu t c h G e a r B ea rin g Ins ta ll er
3.
J-22246
C o u n t e r g e a r L o a d in g T o o l
8.
J-9772
C l u t c h G e a r B ea rin g Ins ta ll er
4.
J-5778
E x t e n s i o n B ush in g R e m o v e r an d Inst all er
9.
J-23096
C l u t c h G e a r R e t a i n e r Seal Insta ller
5.
J-5154
E x t e n s i o n Seal In st a ll er
Fig. 7B-1ST--3-Speed Special Tools
LIG H T T R U C K S E R V IC E M AN U AL
7B-22
MANUAL TRANSMISSIONS
14-16
7.
1.
2.
J - 2 142 4 -9
J-8059
P L A T E S A N D PRESS P L A T E
J-358-1
J- 5778
J- 2228
REAR B E A R IN G
9.
J-933
M A IN D R I V E GEAR W R E N C H
10 .
J -1126
TR A N S M IS S IO N
G U I D E PINS
11.
J- 5590
CLUTCH GEAR
B E A R IN G
IN STA LL ER
12 .
J-9772
CLUTCH GEAR B E A R IN G
IN S TA LL E R
IN S TA LL E R
13.
J -2 3 0 9 6
CLUTCH GEAR
14.
J -2 1 4 2 6
REAR E X T E N S IO N SEAL IN S TA LL E R
15.
J- 575 2
16.
J-23596
T R A N S M IS S IO N H O L D IN G F IX T U R E
REAR E X T E N S IO N B US H IN G IN S T A L L E R
COUNTER
GEAR
LO AD IN G TO OLS
E X T E N S IO N BUSHING
REMOVER AND
5.
J-51 54
E X TE N S IO N SEAL IN S TA LL E R
6.
J - 5 8 14-01
S P E E D O M E TE R D R IV E GEAR
A N D A D A P T E R J- 5814 -15
REMOVER
Fig. 7B-2ST-4 Speed (89m m) Special Tools
LIGHT T R U C K S E R V IC E M ANU AL
HOLDER
8.
R E T A I N E R S N A P R IN G P L I E R S
3c. J - 29 7 9 3
4.
S P E E D O M E T E R D R I V E G E A R PRESS
H A N D L E J-8092
3a. J -2 2 2 4 6
3b. J-22379
J -145 3-01
R E A R B U S H IN G R E M O V E R W I T H
PRES S P L A T E S
R E T A IN E R
SEAL IN S TA LL E R
MANUAL TRANSMISSIONS
7B-23
3
1.
J--1126
T r a n s m i s s i o n G u i d e Pins
2.
J-8059
R e t a i n e r S n a p R in g Pliers
3.
4.
J-22246
J-5778
5.
J-5154
E x t e n s i o n Seal In st a ll er
6.
7.
J-2228
J-5590
R ea r B e a r in g Press Plates
C l u t c h G e a r B ear in g In st a ll er
C o u n t e r g e a r L o a d in g T o o l
8.
J-9772
C l u t c h G e a r B ear ing Ins ta ll er
E x t e n s i o n Bu s hi n g R e m o v e r an d In st a ll er
9.
J-23096
C l u t c h G e a r R e t a i n e r Seal Ins ta ll er
Fig. 7B-3ST--4-Speed ( 1 17mm) Special Tools
L IG H T T R U C K S E R V IC E M AN U AL
: .ic.
.riv:V
n'ikft?;! .
j rr
flv
; ckk-:>
?!ooT'
Z^-Cpi.
i5
-i.bn-. -Avor:
^ fT) .br-jq6-£~T:2C-S^ .pH
CLUTCH
7C-1
S E C T IO N 7 C
CLUTCH
INDEX
G eneral D escription..........................................................
Clutch System s...............................................................
D iaphragm T y p e ................................................... .
Coil Spring T y p e.......................................................
C lutch C ontrols..............................................................
M aintenance and A djustm ents.......................................
In sp ectio n .......................................................... .............
Free Pedal A djustm ent................................................
D iagnosis..............................................................................
7C-1
7C-1
7C-1
7C-2
7C-3
7C-8
7C-8
7C-8
7C-10
Component Parts R eplacem ent..................................... ..7C-11
Prelim inary Inspection................................................. ..7C-11
Clutch Disc and Pressure P la te ..................................7 0 1 1
D iaphragm T y p e .........................................................7C-11
Coil Spring T y p e .........................................................7C-12
P e d a l................................................................................. ..7C-12
C ross-S haft........................................................................7C-14
Special T o o ls....................................................................... ..7C-14
G E N ER A L D E SC R IP T IO N
CLUTCH S Y S TE M S
DIAPHRAGM SPRING CLUTCH
Principal Components
The principal parts of a diaphragm -type clutch system
are: the driving members, attached to the engine and turning
with it; the driven members attached to the transmission
and turning with it; the operating members which include
the spring or springs and the linkage required to apply and
release the pressure which holds the driving and driven
members in contact with each other. Figure 7C-1 shows a
clutch cutaway so operating members can be seen.
Driving Members
The driving members of a clutch usually consist of two
iron plates or flat surfaces m achined to a sm ooth finish. Iron
is desirable because it contains enough graphite to provide
some lubrication when the driving m em ber is slipping
during engagement. One of these surfaces is usually the rear
face of the engine flywheel, and the other is a com paratively
heavy flat ring with one side m achined. This part is known
as the pressure plate. It is fitted into a steel cover, which
also contains some of the operating members, and is bolted
to the flywheel.
Driven Members
The driven m em ber is the clutch disc with a splined
hub which is free to slide lengthwise along the splines of the
clutch shaft, but which drives the shaft through these same
splines. Grooves on both sides of the clutch disc lining
prevent sticking of the plate to the flywheel and pressure
plate. Suitable frictional facings are attached to each side
of the clutch disc by means of brass rivets. These facings
must be heat resistant since friction produces heat. The most
commonly used factings are made of cotton and asbestos
fibers woven or molded together and im pregnated with resin
or similar binding agents. Very often, copper wires are
woven, or pressed into material to give it additional
strength.
In order to make clutch engagement as sm ooth as
possible and eliminate chatter, the steel segments attached
to the splined hub are slightly waved, which causes the
contact pressure on the facings to rise gradually as the
waved springs flatten out.
The clutch disc is provided with a flexible center to
absorb the torsional vibration of the crankshaft which
would be transm itted to the power train unless it were
eliminated. The flexible center takes the form of steel
compression springs placed between the hub and the steel
plate. The springs perm it the disc to rotate slightly with
relation to its hub until the springs are compressed and
relative motion stops. Then the disc can rotate slightly
backward as the springs decompress. This slight backw ard
and forw ard rotation perm itted by the springs allows the
clutch shaft to rotate at a m ore uniform rate than the
crankshaft, thereby elim inating some of the torsional
vibration from the crankshaft and preventing the vibration
from being carried back through the transmission.
Operating Members
The driving and driven members are held in contact
by spring pressure. This pressure may be exerted by a onepiece conical or diaphragm spring. In the diaphragm design
clutch, the clutch release bearing moves forward against the
spring fingers forcing the diaphragm spring to pivot around
the pivot ring, dishing the fingers tow ard the flywheel. The
outer circumference of the spring now lifts the pressure plate
away from the driven disc, through a series of retracting
springs placed around the outer circumference of the
pressure plate.
The clutch release bearing is a ball-thrust bearing
contained in the clutch housing, m ounted on a sleeve
LIGHT TRU C K SE R V IC E M A N U A L
7C-2
CLUTCH
D R IV E N PLATE A S S Y .
PRESSURE PLATE
A N D COVER ASSY.
C LUTCH H O U S IN G
COVER
C L U T C H RELEASE B E A R IN G
C LU TC H FORK
C LUTCH H O U S IN G
C LU TC H FO RK
JALL S TU D
Fig. 7C -1~C lu tch Syste m C o m p o n e n ts
attached to the front of the transmission case. The release
bearing is moved by the clutch fork to contact the release
levers and move the pressure plate to the rear, thus
separating the clutch driving members from the driven
member when the clutch pedal is depressed by the driver.
A return spring preloads clutch linkage, removing looseness
due to wear, keeping the bearing clear of the spring fingers.
The clutch free pedal travel, therefore, will increase with
linkage wear and decrease with driven disc wear. The free
travel felt at the clutchpedal is release bearing lash.
Clutch Spring Operation
In diaphragm spring type clutches, a diaphragm spring
is used instead of coil springs. It is a conical piece of spring
steel punched to give it greater flexibility. The diaphragm
is positioned between the cover and the pressure plate so
that the diaphragm spring is nearly flat when the clutch is
in the engaged position. The action of this type of spring
is similar to that of the bottom of an ordinary oil can. The
pressure of the outer rim of the spring on the pressure plate
decreases as the flat position is passed. The outer rim of the
diaphragm is secured to the pressure plate and is pivoted
on rings approxim ately 1 inch in from the outer edge so that
the application of the pressure at the inner section will cause
the outer rim to move away from the flywheel and draw the
pressure plate away from the clutch disc, releasing or
disengaging the clutch. W hen the pressure is released from
the inner section, the oil-can action of the diaphragm causes
the inner section to move out, and the movement of the
outer rim forces the pressure plate against the clutch disc,
LIGHT TRUCK SER V IC E M A N U A L
thus engaging the clutch.
COIL SPRING CLUTCH
The coil spring single plate clutch (Fig. 7C-4) is a dry
disc type and no adjustm ent for wear is provided in the
clutch itself. An individual adjustm ent is provided for
locating each lever in m anufacturing but the adjusting nut
is locked in place and should never be disturbed, unless the
clutch assembly is dism antled for replacement of parts.
W hen the clutch pedal is depressed the release bearing
is moved tow ard the flywheel and contacts the inner ends
of the release levers, (item 1 in Fig. 7C-5). Each release lever
is pivoted on a floating pin which rem ains stationary in the
lever and rolls across a short flat portion of the enlarged hole
in the eyebolt (item 2). The outer end of each release lever
engages the pressure plate lug by means of a strut (3), which
provides knife-edge contact between the outer end of the
lever and the lug. The outer ends of the eyebolts extend
through holes in the stam ped cover (4), and are fitted with
adjusting nuts (5) to correctly position the levers.
W hen the clutch system is fully engaged, the clutch
disc is firmly clamped between the flywheel and the pressure
plate by the pressure of the springs. W hen the driver
disengages the clutch by depressing the pedal, the release
fork is moved on its pivot, and the pressure is applied to the
release bearing. The rotating race of the release bearing
presses against the clutch release levers and moves them on
their pivot pins. The outer ends of the release levers, being
fastened to the cover, move the pressure plate to the rear,
compressing the clutch springs and allowing driving
members to rotate independently of the driven member. The
CLUTCH
1. Flywheel
2. Dowel-hole
3. Pilot Bushing
4. Driven Disc
5. Pressure Plate
6. Diaphragm Spring
7C-3
7. Clutch Release Bearing 9. Fork
8. Throwout Bearing
10. Retracting Spring
Fi g. 7 C - 2 - - C r o s s - S e c t i o n V i e w o f D i a p h r a g m - T y p e
release fork moves only on its pivot, which contacts the
clutch fork ball stud. All parts of the clutch system, except
the clutch release bearing and collar, rotate with the
flywheel when the clutch is engaged.
W hen the clutch is disengaged, the release bearing
rotates with the flywheel, but the driven plate and the clutch
shaft rotate as dictated by the transm ission gear range and
vehicle speed.
CLUTCH CONTROLS
The clutch operating controls for C-K trucks (Fig. 7C6) are a mechanical type consisting of a pendant type pedal,
return spring, pedal push rod, cross-shaft, fork push rod,
routed vertically, inside the cab, from the pedal lever down
through two boots on the toe pan, to the cross-shaft lever.
W hen the clutch pedal is depressed, the pedal push rod
moves rotating the cross-shaft, pushing the fork push rod
rearward, and pivoting the clutch fork to move the release
bearing against the clutch release fingers and releasing the
clutch.
The clutch operating controls for "G " and "P" models
are a mechanical type similar to the C-K models. On "G "
models (Fig. 7C-7) a pedal pull rod is routed vertically from
the clutch pedal lever down through the toe-panel to the
cross shaft. W hen the pedal is depressed, the pedal pull rod
moves, rotating the cross shaft, pushing the clutch fork rod
rearw ard and pivoting the clutch fork. This action moves
the release bearing against the clutch release fingers,
releasing the clutch.
Fig. 7C-3--Clutch Disc
"P" model controls (Fig. 7C-8) have an upper pull rod
connected from the clutch pedal shaft to a bell crank and
a lower pulll rod from the bell crank to the cross shaft.
W hen the pedal is depressed, the pull rods are moved
rotating the cross shaft and pushing the clutch fork
rearward, thus subsequently activating the clutch release
mechanism.
LIGHT TRUCK SE R V IC E M AN U AL
7C-4
CLUTCH
1. Release Lever
2. E ye bo lt
3. Strut
4. C o ve r
5. A d j u s t i n g N u t
Fig. 7 C -5 ~ R e le ase Lever, C oil S p rin g Type
Fi g. 7 C - 4 ~ C r o s s - S e c t i o n V i e w o f C o il S p r i n g T y p e
U G H T TRU C K SE R V IC E M AN U AL
CLUTCH
7C-5
Fig. 7C-6--C-K Clutch Controls
LIGHT TRUCK SE R V IC E M A N U A L
7C-6
CLUTCH
Fig. 7C -7~G -Truck Clutch Controls
LIGHT TR U C K SE R V IC E M A N U A L
CLUTCH
7C-7
Fig. 7C-8~P-Truck Clutch Controls
LIGHT TRUCK SE R V IC E M A N U A L
7C-8
CLUTCH
M A IN T E N A N C E A N D A D J U S T M E N T S
CLUTCH LINKAGE INSPECTION
P-30 Models W /J 7 6 (Fig. 7C-10)
There are several things which affect good clutch
operations. Therefore, it is necessary, before performing any
major clutch operations, to make prelim inary inspections to
determ ine w hether trouble is actually in the clutch.
Check the clutch linkage to be sure the clutch releases
fully as follows:
1. W ith engine running, hold the clutch pedal
approxim ately 1/2" from floor m at and move shift lever
between first and reverse several times. If this can be done
smoothly, the clutch is fully releasing. If shift is not smooth,
clutch is not fully releasing and adjustm ent is necessary.
2. Check clutch pedal bushings for sticking or excessive
wear.
3. Check fork for proper installation on ball stud. Lack
of lubrication on fork can cause fork to be pulled off the ball.
4. Check for bent, cracked or damaged cross shaft
levers or support bracket.
5. Loose or dam aged engine m ounts may allow the
engine to shift its position causing a bind on clutch linkage
at the cross shaft. Check to be sure there is some clearance
between cross shaft, both m ount brackets, and ball studs.
6. Check clutch release bearing end clearance between
spring fingers and front bearing retainer on the
transmission. If no clearance exists, fork may be improperly
installed on ball stud or clutch disc may be worn out.
1. Disconnect clutch fork return spring.
2. Loosen nut "G " at swivel.
3. Move the clutch fork rod against fork to eliminate
all clearance between release bearing and clutch fingers.
4. R otate shaft lever until clutch pedal contacts the
bum per m ounted on the brake pedal bracket.
5. R otate the fork rod until a clearance of
approxim ately 1/4" to 5/16" (.29) is obtained between the
shoulder on the fork rod and the adjustm ent nut.
6. Tighten nut "G " against swivel and install clutch
return spring.
7. Check free pedal clearance at pedal. Pedal clearance
should be 1 3/8" to 1 5 /8 ". Readjust as required.
CLUTCH FREE PEDAL TRAVEL ADJUSTMENT
Only one adjustm ent is necessary to com pensate for all
norm al clutch wear. The clutch pedal should have free
travel (m easured at clutch pedal pad) before the release
bearing engages the clutch diaphragm spring or levers. Lash
is required to prevent clutch slippage which would occur
if the bearing was held against the fingers or to prevent the
bearing from running continually. A clutch that has been
slipping prior to free play adjustm ent may still slip right
after the new adjustm ent due to previous heat damage.
C, K and P Models (Except P30 W /J 76)
1. Disconnect return spring at clutch fork.
2. R otate clutch lever and shaft assembly until clutch
pedal is firmly against rubber bum per on brake pedal
bracket.
3. Push outer end of clutch fork rearw ard until release
bearing lightly contacts pressure plate fingers or levers.
4. Loosen lock nut and adjust rod length so that swivel
slips freely into gauge hole. Increase pushrod length until
all lash is removed from system.
5. Remove swivel from gauge hole and insert into lower
hole on lever. Install two washers and cotter pin. Tighten
lock nut being careful not to change rod length.
6. Reinstall return spring and check pedal free travel.
Pedal travel should be 1 3/8" to 1 5/8" on "C-K " models
and 1 1/4" to 1 1/2" on "P" models.
LIGHT T R U C K SE R V IC E M A N U A L
G-Models (Fig. 7C-11)
1. Disconnect clutch fork return spring at fork.
2. Loosen nut "A" and back off from swivel
approxim ately 1/2 inch.
3. Hold clutch fork push rod against fork to move
release bearing against clutch fingers (push rod will slide
through swivel at cross-shaft).
4. A djust nut "B" to obtain approximately 1/4"
clearance between nut "B" and swivel.
5. Release push rod, connect return spring and tighten
nut "A" to lock swivel against nut "B".
6. Check free pedal clearance at pedal (1 1/4" to 1 1/2"
is proper clearance). Readjust if necessary.
CLUTCH
7C-9
CROSS SHAFT LEVER
PI 0-30 (EXC. MOTOR HOME)
Fi g. 7 C - 1 0 - - P - T r u c k F r e e P e d a l T r a v e l
INSUFFICIENT CLUTCH RELEASE
W here complaints of first or reverse gear clash due to
insufficient clutch release are encountered, the following
may be helpful. Cut off the existing clutch pedal stop
bum per to a height of 3 /8 ". Since shortening the bum per
increases the lash and not the usable stroke, the lash must
Fi g. 7 C - 1 1 - - G - T r u c k F r e e P e d a l T r a v e l
be reduced to specifications in order to gain the additional
stroke benefit.
LIGHT TRU C K SER V IC E M A N U A L
7C-10
CLUTCH
D IA G N O S IS
PROBABLE CAUSE
CONDITION
Fails to Release (Pedal pressed
to floor-shift lever does not
move freely in and out of
reverse gear
a.
b.
c.
d.
e.
f.
Improper linkage Adjustment
Improper pedal travel
Loose linkage
Faulty pilot bearing
Faulty driven disc
Fork off ball stud
g. Clutch disc hub binding on clutch
gear spline
h. Clutch disc warped or bent
CORRECTION
a.
b.
c.
d.
e.
f.
Adjust Linkage
Trim bumper stop and adjust linkage
Replace as necessary
Replace bearing
Replace disc
Install properly and* lubricate fingers
at release bearing with wheel bearing
grease.
g. Repair or replace clutch gear and/or
disc.
h. Replace disc (run-out should not
exceed .020").
*Very lightly lubricate fingers
Slipping
a. Improper Adjustment (no lash)
b. Oil Soaked driven disc
c. Worn facing or facing torn from disc.
d. Warped pressure plate or flywheel
e. Weak diaphragm spring
f. Driven plate not seated in
g. Driven plate overheated
Grabbing (Chattering)
Rattling-Transmission Click
Release Bearing Noise with
Clutch Fully Engaged
Noisy
a. Oil on facing. Burned or glazed
facings.
b. Worn splines on clutch gear.
c. Loose engine mountings.
d. Warped pressure plate or flywheel.
e. Burned or smeared resin on flywheel
or pressure plate.
a. Weak retracting springs.
b . Clutch fork loose on ball stud or in bear
ing groove.
c. Oil in driven plate damper.
d. Driven plate damper spring failure.
Replace transmission clutch gear.
Tighten or replace mountings.
Replace pressure plate or flywheel.
Sand off if superficial, replace burned
or heat checked parts.
a. Replace pressure plate.
b. Check ball stud and retaining.
c. Replace driven disc.
d. Replace driven disc.
a. Worn release bearing.
b. Fork off ball stud (heavy clicking).
a. Replace bearing.
b. Install properly and lubricate fork
fingers at bearing.
c. See Section 6 for bearing fits.
Bearing loose
in crankshaft.
a. Bind in linkage or release bearing.
a. Bind in linkage.
b. Driven plate worn.
Fig. 7C-1 2--Clutch Diagnosis Chart
LIGHT TRU C K SE R V IC E M A N U A L
b.
c.
d.
e.
a. Adjust linkage.
b. Clean, relubricate, check for burrs,
nicks,etc.
c. Replace fork.
b. Springs weak in pressure plate.
c. Springs being over traveled.
Hard Pedal Effort
a. Install new disc and correct leak.
a. Improper adjustment. No Lash.
b. Release bearing binding on trans
mission bearing retainer.
c. Insufficient tension between clutch
fork spring and ball stud.
d. Fork improperly installed.
e. Weak linkage return spring.
c. Pilot
Pedal Stays on Floor When
Disengaged
a. Adjust linkage to spec.
b. Install new disc and correct leak at its
source
c. Replace disc
d. Replace pressure plate or flywheel
e. Replace pressure plate (Be sure lash is
checked before replacing plate.)
f. Make 30 to 40 normal starts
CAUTION: Do Not Overheat
g. Allow to cool —check lash
d. Install properly.
e. Replace spring.
a. Lubricate and free up linkage and
release bearing.
b. Replace pressure plate.
c. Adjust linkage to get proper lash, be
sure proper pedal stop (bumper) is
installed.
a. Lubricate and free up linkage.
b. Replace driven plate.
CLUTCH
7 C -1 1
CO M PONENT PARTS REPLACEM ENT
PRELIMINARY INSPECTION
There are m any things which affect good clutch
operation. Therefore, it is necessary, before performing any
major clutch operations, to m ake a prelim inary inspection
to determ ine w hether or not the trouble is actually in the
clutch.
1. Check the clutch pedal and m ake sure that the pedal
has proper free travel, as described in "M aintenance and
A djustm ents".
2. Check the clutch pedal bushing for wear and for
sticking on the shaft or loose mountings.
3. Lubricate the pedal linkage.
4. Tighten all front and rear engine m ounting bolts.
CLUTCH DISC AND PRESSURE PLATE
(DIAPHRAGM TYPE)
Removal from Vehicle
1. Remove transmission as outlined in Section 7B.
2. Disconnect clutch fork push rod and pull back
spring.
3. Remove clutch and flywheel housing.
4. Remove clutch fork by pressing it away from its ball
m ounting with a screwdriver, until the fork snaps loose from
the ball or remove ball stud from rear of clutch housing.
Remove release bearing from clutch fork.
NOTICE: The retainer may be removed from the fork
by prying out with a small screwdriver.
4. Install clutch disc, pressure plate and cover assembly
and support them with Tool J-5824 or a used clutch drive
gear.
5. T urn clutch assembly until "X" mark or painted
white letter on clutch cover flange lines up with "X" mark
on flywheel.
6. Install attaching bolts and tighten each one a turn
at a time to prevent distorting the cover as the spring
pressure is taken up.
7. Remove clutch pilot tool.
8. Pack clutch fork ball seat with a small am ount of
high melting point grease. On "P" models with J76, install
a new retainer in the groove of the clutch fork if the old
retainer is worn or damaged.
NOTICE: Install retainer with high side up, away from
bottom of the ball socket and with open end of retainer
on the horizontal.
CAUTION: Be careful not to use too much
lubricant. Excessive lubricant may get on
clutch fingers and cause slippage.
9. Replace clutch fork ball if removed from the clutch
housing and snap clutch fork onto the ball.
10. Pack lubricant in the recess on the inside of the
release bearing collar and coat the clutch fork groove with
5. Install Tool J-5824 or a used clutch drive gear to
support the clutch assembly during removal.
NOTICE: Before removing clutch from flywheel,
m ark the flywheel, clutch cover and one pressure plate
lug, so that these parts may be assembled in their same
relative positions, as they were balanced as an
assembly.
6. Loosen the clutch attaching bolts one turn at a time
to prevent distortion of clutch cover until diaphragm spring
is released.
7. Remove clutch pilot tool and remove clutch
assembly from vehicle.
NOTICE: The flywheel should be inspected for cracks,
heat checking, flatness and other defects.
Installation to Vehicle
1. Install the pressure plate in the cover assembly lining
up the notch m ark on pressure plate with notch m ark on
flange of cover.
2. Install pressure plate retracting springs, lockwashers
and drive strap to pressure plate bolts. Tighten to 11 ft. lbs.
torque. The clutch is now ready to be installed.
3. H and crank the engine until "X" m ark on flywheel
is at the bottom.
L IG HT TR U C K SER V IC E M A N U A L
7C-12
CLUTCH
a small am ount of graphite grease, as shown in Figure 7C13.
11. Install release bearing assembly to the clutch fork.
Install clutch and flywheel housing to engine.
12. Assemble transm ission as outlined in Section 7B.
13. Align push rod to clutch fork and attach return
spring to clutch fork.
14. Adjust clutch linkage as described in "M aintenance
and A djustm ents."
CLUTCH DISC AND PRESSURE PLATE
(COIL SPRING TYPE)
Removal From Vehicle
1. Remove transm ission as outlined in Section 7B.
2. Disconnect clutch fork push rod and pull back
spring.
3. Remove clutch and flywheel housing.
4. Remove clutch fork by pressing it away from its ball
mounting with a screwdriver, until the fork snaps loose from
the ball or remove ball stud from rear of clutch housing.
Remove release bearing from clutch fork.
NOTICE: The retainer may be removed from the fork
by prying out with a small screwdriver.
5. Install Tool J-5824 or a used clutch drive gear to
support the clutch assembly during removal.
NOTICE:
Before removing clutch from flywheel,
m ark the flywheel, clutch cover and one pressure plate
lug, so that these parts may be assembled in their same
relative positions, as they were balanced as an
assembly.
6. Loosen the holding screws a turn or two at a time
to avoid bending rim of cover. It is advantageous to place
wood or metal spacers (approxim ately 3/8 thick) between
the clutch levers and the cover to hold the levers down as
the holding screws are removed or when clutch is removed
from engine. W hen removing driven plate be sure to m ark
flywheel side.
7. Remove clutch pilot tool and remove clutch
assembly from vehicle.
NOTICE:
Inspect flywheel for heat defects, cracks,
flatness, or other defects.
Installation To Vehicle
1. Assemble driven plate and clutch cover assembly to
flywheel in accordance with marking on driven plate for
flywheel side. Use Tool J-5824 or a dum m y shaft to support
assembly.
2. Line up the clutch assembly with "X" m ark or
painted white letter with "X" m ark on flywheel, before
tightening cover holding screws.
3. Tighten holding screws, a turn at a time, before
removing dum m y shaft.
4. Remove clutch pilot tool.
5. Pack clutch fork ball seat with a small am ount of
high melting point grease and install a new retainer in the
groove of the clutch fork if the old retainer is worn or
damaged.
L IG HT TRU C K SE R V IC E M A N U A L
NOTICE: Install retainer with high side up, away from
bottom of the ball socket and with open end of retainer
on the horizontal.
CAUTION: Be careful not to use too much
lubricant. Excessive lubricant may get on
clutch fingers and cause slippage.
6. Replace clutch fork ball if removed from the clutch
housing and snap clutch fork onto the ball.
7. Pack lubricant in the recess on the insde of the
release bearing collar and coat the clutch fork groove with
a small am ount of graphite grease, as shown in Figure 7C13.
8. Install release bearing assembly to the clutch fork.
Install clutch and flywheel housing to engine.
9. Assemble transmission as outlined in Section 7B.
10. Align push rod to clutch fork and attach return
spring to clutch fork.
11. A djust clutch linkage as described in "M aintenance
and A djustm ents."
CLUTCH PEDAL ARM, PUSH ROD OR
BUSHING REPLACEMENT (Fig. 7C-14)
C-K Models
Removal
1. Disconnect battery negative ground cable at the
battery terminal.
2. D isconnect clutch push rod at the cross shaft under
the vehicle.
3. Remove steering colum n covers. Remove screws
retaining push rod boots to bulkhead.
4. Remove air conditioning duct from lower left side
of instrum ent cluster is so equipped. (Refer to Section 1A).
CAUTION: Maintain pressure on lower
arm. When lower attaching bolt is
removed upper section will snap upward.
5. Disconnect clutch neutral start switch from pedal
arm.
6. Remove bolts attaching lower section of clutch pedal
arm to the upper arm.
7. Remove lower arm and push rod from vehicle.
8. Remove pedal return spring.
9. Remove pedal pivot shaft retaining nut and pivot
shaft. Insert a dum m y shaft or rod through the support to
hold the brake pedal com ponents in place.
10. Remove the clutch pedal assembly from the support
assembly.
11. Remove pedal bushings and spacer from pedal arm.
Check pedal bum per for wear and replace as required.
Installation
1. Install new bushings and spacer in pedal arm.
Com ponents should be lubricated prior to assembly.
2. Position clutch pedal upper arm in support bracket
and install pivot bolt through support and pedal arms.
NOTICE: Bolt must be installed in direction shown in
CLUTCH
7C-13
Figure 7C-14 in order to clear return spring.
3. Install pivot bolt retaining nut and torque to
specifications.
4. Install pull back spring to support and pedal arm.
NOTICE: If previously removed connect pedal push
rod to clutch pedal arm.
5. Position lower pedal arm to upper arm and install
upper attaching bolt. Push down on pedal and install lower
bolt. Torque to specifications.
6. Install clutch neutral start switch.
7. Install air conditioning duct.
8. Install steering column covers. Install screws
retaining push rod boots to bulk head.
9. Check operation of clutch assembly and adjust
clutch as required.
G and P Models (Fig. 7C-14)
Removal
1. Apply parking brake firmly. Disconnect neutral start
switch from pedal arm.
2. Remove bolt at clutch pedal push rod lever, then
remove lever from pedal shaft.
3. Hold pedal pad with one hand and slide clutch pedal
and shaft assembly outboard enough to clear pedal stop.
Insert a dum m y shaft or rod through support and brake
pedal assembly to hold com ponents in place while removing
clutch pedal shaft. Allow return spring (or center spring)
to pull pedal up high enough to unhook spring from pedal
arm.
4. Remove pedal and shaft assembly from support
bracket.
Inspection
1. Check clutch pedal bushings for excessive wear and
replace as necessary.
2. Check clutch pedal shaft for wear and alignment.
Straighten or replace as necessary.
Installation
NOTICE: Use new shaft bushing if needed. Lubricate
with petrolatum .
1. Slide one pedal shaft bushing over shaft, install shaft
in support enough to still clear pedal bum per stop, hook
pedal return (or overcenter) spring to pedal, then rotate
pedal forward of bum per stop; slide shaft into position in
support and release pedal against bum per stop.
2. Install clutch pedal shaft bushing over pedal shaft
end and into place in sleeve.
3. Assemble pedal push rod lever over pedal shaft and
install bolts, washers, and nut.
4. Connect neutral start switch to pedal arm.
5. A djust clutch pedal free travel as needed.
Fig. 7 C -1 4 -C lu tc h Pedal M ou nting Attachm ent
LIG HT TRUCK SE R V IC E M A N U A L
7C-14
CLUTCH
CLUTCH CROSS-SHAFT REPLACEMENT
u „
J ^
^
,
bail stud. On G models, remove rrome bracket retaining
bolts, then remove shaft from engine ball stud.
(Figs. 7 C -6 , 7 C -7 , 7 C -8 )
1. Disconnect clutch fork return spring at fork.
2. Disconnect pedal push rod at cross-shaft lever and
allow clutch fork push rod to hang free from lower lever.
4. Remove clutch fork push rod from cross-shaft lever.
3. On C-K models, remove ball stud retaining nut, at
frame end and slide shaft tow ard engine. Then lift crossshaft up to clear bracket and remove shaft from the engine
5. Reverse removal procedure to install.
S P E C IA L T O O LS
1.J-6456-01 Height Gauge
2. J 1048 Gauge Plate
3. J-1522 Pilot Bearing Driver
4. J-23720 Clutch Pilot Tool
5. J-1448 Pilot Bearing Puller
Fi g. 7 C - S T ~ C l u t c h S p e c i a l T o o l s
LIG HT TR U C K SE R V IC E M A N U A L
TRANSFER CASE
7E-1
SECTION 7E
TRANSFER CASE
CONTENTS
Model 208 T ransfer Case (10 and 20 S e rie s)..........................................
Model 205 T ransfer Case (30 S eries)........................................................
Specifications....................................................................................................
Special T ools.....................................................................................................
7E-1
7E-9
7E-15
7E-16
MODEL 208 TRANSFER CASE
(10 AND 2 0 SERIES-ALUMINUM CASE)
INDEX
G eneral D escription........................................................................................ .7E-1
D iagnosis.............................................................................................................7E-4
M aintenance and A d ju stm en ts.....................................................................7E-4
On Vehicle S e rv ic e ......................................................................................... .7E-8
T ransfer Case R em oval............................................................................ .7E-8
T ransfer Case Installation........................................................................ ..7E-8
GENERAL DESCRIPTION
MODEL 208,PART TIME (ALUMINUM CASE)
The Model 208 transfer case (as shown in Fig. 7E-1) is
an alum inum case, chain drive, four position unit providing
four-wheel drive high and low ranges, a two-wheel high
range, and a neutral position. The model 208 is a part-tim e
four-wheel drive unit. Torque input in four-wheel high and
low ranges is undifferentiated. The range positions on the
Model 208 are selected by a floor m ounted gearshift lever.
Models equipped with the 208 transfer case are also
with au to m atic locking front drive hubs as stan d a rd
equipm ent.
The Model 208 case is a two-piece alum inum case
containing front and rear output shafts, two drive sprockets,
a shift m echanism and a planetary gear assembly. The drive
sprockets are con- nected and operated by the drive chain.
The planetary assembly which consists of a four pinion
carrier and an annulus gear provide the four-wheel drive low
range when engaged. Reduction ratio is 2.61:1 in this range.
LIGH T T R U C K S E R V IC E M ANU AL
7E-2
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
27.
28.
29.
30.
31.
32.
TRANSFER CASE
INPUT GEAR THRUST WASHER
INPUT GEAR THRUST BEARING
INPUT GEAR
MAINSHAFT PILOT BEARING
PLANETARY ASSEMBLY
PLANETARY THRUST WASHER
ANNULUS GEAR
ANNULUS GEAR THRUST WASHER
NEEDLE BEARING SPACERS
MAINSHAFT NEEDLE BEARINGS (120)
NEEDLE BEARING SPACER
SPACER WASHER
OIL PUMP GEAR
SPEEDOMETER GEAR
DRIVE SPROCKET SNAP RING
DRIVE SPROCKET
BLOCKER RING
SYNCHRONIZER SLEEVE
SYNCHRONIZER SPRING
SYNCHRONIZER KEY
SYNCHRONIZER HUB
SYNCHRONIZER HUB SNAP RING
MAINSHAFT
MAINSHAFT THRUST BEARING
INTERNAL GEAR SNAP RING
MODE FORK
BUSHING(SHIFT ROD
SPRING
SPRING RETAINER
RANGE FORK PADS
RANGE FORK
RANGE SECTOR
33.
34.
35.
36.
37.
38.
39.
40.
41.
42.
43.
44.
45.
46.
47.
48.
49.
50.
51.
52.
53.
54.
55.
56.
MODE FORK BRACKET
REAR CASE
SEAL
PUMP HOUSING
REAR RETAINER
BEARING SNAP RING
REAR OUTPUT BEARING
VENT TUBE
REAR SEAL
DRAIN AND FILL PLUGS
FRONT OUTPUT SHAFT REAR
BEARING
FRONT OUTPUT SHAFT REAR THRUST
BEARING RACE (THICK)
CASE MAGNET
FRONT OUTPUT SHAFT REAR THRUST
BEARING
FRONT OUTPUT SHAFT REAR THRUST
BEARING RACE (THIN)
DRIVEN SPROCKET RETAINING RING
DRIVE CHAIN
DRIVEN SPROCKET
FRONT OUTPUT SHAFT
FRONT OUTPUT SHAFT FRONT
THRUST BEARING RACE (THIN)
FRONT OUTPUT SHAFT FRONT
THRUST BEARING RACE (THICK)
FRONT OUTPUT SHAFT FRONT
BEARING
FRONT OUTPUT SHAFT FRONT
THRUST BEARING
OPERATING LEVER
Fig. 7E-1 M o d el 2 0 8 Transfer Case
LIGH T T S U C K s e r v i c e m a n u a l
57. WASHER AND LOCKNUT
58. RANGE SECTOR SHAFT SEAL
RETAINER
59. RANGE SECTOR SHAFT SEAL
60. DETENT BALL, SPRING AND
RETAINER BOLT
61. FRONT SEAL
62. FRONT YOKE
63. YOKE SEAL WASHER
64. YOKE NUT
65. INPUT GEAR OIL SEAL
66. INPUT GEAR FRONT BEARING
67. FRONT CASE
68. LOCK MODE INDICATOR SWITCH
AND WASHER
69. INPUT GEAR REAR BEARING
70. LOCKPLATE
71. SHIFTER FORK SHAFT
72. LOCKPLATE BOLTS
73. CASE ALIGNMENT DOWELS
TRANSFER CASE
7E-3
Shift Pattern
REAR
YOKE
A floor m ounted shift lever is used to select the various
operating ranges on the 208 model. The shift lever is located
on the floorpan transm ission tunnel adjacent to the tran s
mission gearshift lever. Furtherm ore, the transfer case shift
pattern is not in a straight line for 208 models, the range
positions are shown in Fig. 7E-2.
IDENTIFICATION
TAG
DRAIN
FILL
PLUG
Four-Wheel Drive Indicator Lamp
An indicator lamp is mounted in the instrum ent panel
to alert the driver whenever the vehicle is being operated in
four-wheel range. The lamp is controlled by an indicator
switch in the transfer case (Fig. 7E-3). The switch is a ball
and plunger unit that is activated by the transfer case range
sector when four-wheel range is selected.
Identification
An identification tag is attached to the rear half of the
transfer case (Fig. 7E-3). This tag provides the transfer case
model num ber, low range reduction ratio, and assembly
num ber. The inform ation on this tag is necessary for
servicing inform ation. If the tag is removed or becomes
dislodged during service operations, it should be reattached
using an adhesive sealant such as Loctite 312, or equivalent.
INDICATOR
SWITCH
Fig. 7E-3 M o d e l 208 Indicator Switch, Identification
Tag, an d Drain an d Fill Plug Location
and adjustm ents section for lubricant change procedures
and fill level.
Power Flow
Lubrication
The M odel 208 tran sfer case lu b rican t should be
changed at the intervals specified in the M aintenance
Schedule. W hen adding lubricant to or refilling the transfer
case after service, use Dexron® II. Refer to the m aintenance
In all drive range positions input torque is transm itted
to the transfer case gear train through the transfer case
input gear.
In 2H range, torque flows from the input gear to the
planetary assembly and annulus gear which rotate as a unit.
Torque is transferred to the m ainshaft through the plane
tary carrier which is splined to the m ainshaft. Torque flow
continues through the m ainshaft and rear yoke which is
splined to the m ainshaft, and finally to the rear propeller
shaft and axle. In 2H range, the sliding clutch rem ains in a
neutral position and does not lock the drive sprocket to the
m ainshaft. As a result, torque is not transferred to the
driven sprocket.
In 4H range, input torque from the input gear is
transm itted through the planetary and annulus gear and
through the m ainshaft in exactly the same fashion as in 2H
range. However, in 4H position, the sliding clutch is shifted
forward and into engagem ent with the m ainshaft clutch
gear. This locks the drive sprocket to the m ainshaft through
the sliding clutch. Torque is now transm itted through the
drive sprocket to the driven sprocket by the connecting
drived chain. Since the front output shaft is splined to the
driven sprocket, torque now flows through the front output
shaft to the front propeller shaft and axle resulting in high
range four-wheel drive.
In 4L range, the path of torque through the transfer
case is exactly the same as in 4H range but with one major
LIGH T T R U C K SER V IC E M ANU AL
7E-4
TRANSFER CASE
difference. In 4L range, the annulus gear is shifted forward
and into engagem ent with the lock plate. Since the lock
plate is fixed in the case, the annulus gear is held stationary
and does not rotate. This causes the planetary pinions to
rotate about the annulus gear internal teeth producing a
gear reduction ratio of 2.61:1.
SERVICE DIAGNOSIS
GENERAL
Before attem pting to repair a suspected transfer case
m alfunction, check all o th er driveline com ponents. The
actual cause of a problem may be related to such items as
the front hubs, axles, propeller shafts, wheels and tires,
transm ission, or clutch instead. If all other driveline
components are in good condition and operating properly,
refer to the Service Diagnosis C h art for further inform ation.
MAINTENANCE AND ADJUSTMENTS
CASE-OIL CHANGE
1.
2.
3.
4.
5.
6.
Raise vehicle.
Position drain pan under transfer case.
Remove drain and fill plugs and drain lubricant.
Install drain plug. Tighten plug to 18 ft. lb.(24 N-m).
Remove drain pan.
Fill tra n sfe r case to edge of fill plug opening with
Dexron® II.
7. Install fill plug. Tighten plug to 18 ft. lb. (24 N-m).
8. Lower vehicle.
LIGH T T R U C K S E R V IC E M AN U AL
LINKAGE ADJUSTMENT AND INSPECTION
T he control linkages and a ttach m en ts for the 208
transfer case are shown in Fig. 7E-4 and 7E-5.
Periodically inspect the linkage system for freedom of
operation, proper engagem ent, loose attaching bolts, foreign
m aterial, etc. A djust, clean and tighten as necessary.
TRANSFER CASE
7E-5
Fig. 7E-4 Transfer Case Linkage Skid Plates and Strut Rods
LIGH T T R U C K S E R V IC E M AN U AL
7E-6
TRANSFER CASE
WITH AUTOMATIC TRANSMISSION
WITH MANUAL TRANSMISSION
Fig. 7E-5 Transfer Case Attachments
LIGH T T R U C K S E R V IC E M ANU AL
TRANSFER CASE
7E-7
Service Diagnosis
Condition
.awn* u# vo *
Possible Cause
T R A N S FE R CASE
(1) Vehicle speed to o great to perm it
shifting.
D IFF IC U L T TO SH IFT
.
O R WILL NOT SH IFT
cniilj Off) t?flfegri
INTO D ESIRED
RANGE
bnjd n ft! 10 usihob ?
icy, (2) If vehicle was o perated for extended
period in 4H m ode on dry paved
^ i^ J n p jrfg iT
surface, driveline to rq u e load may
cause difficult shifting.
>
roforisi'i '4'i.a'jg novi 1*11.**•ft)0 h 0 1 r:’i;K
(3) T ransfer case external shift linkage
na:,- 1 * ;1 V, pj feJiBila iai[: qO’iC
binding.
, i ,'i/fs uz
" 4j i grti^ij as A? / -u.
- m r i c / . " . ;T i t t/m -"i grtr, - i
(4) Insufficient or incorrect lubricant.
isb n u iTTO* 1 br ^j/ l7oqc5c-a*:vcni.v.>i
(5) Internal com ponents binding,
w orn, or damaged.
•> i)f
>l*nivU;i no a$i& ishnuii o. Ju’}j
(1) Insufficient or incorrect lubricant.
T R A N SFE R CASE
NOISY IN ALL DRIVE
MODES
NOISY I N - O R JUMPS
OUT O F FOUR WHEEL
D RIV E LOW RANGE
LUBRICANT LEAKING
FROM OUTPUT SHAFT
SEALS OR FROM
VENT
ABNORMAL TIR E
WEAR
Correction
(1) S top vehicle and shift into desired
range. Or reduce speed to 2-3 m ph
(3-4 k m /h) before attem p tin g to
shift.
(2) Stop vehicle, shift transm ission to
n eutral, shift transfer case to 2H
m ode and o p erate vehicle in 2H on
dry paved surfaces.
(3) L ubricate or repair or replace link
age, or tighten loose com ponents as
necessary.
(4) Drain and refill to edge of fill hole
w ith DEXRON®-II only.
(5) Disassemble un it and replace w orn or
dam aged com ponents as necessary.
(1) D rain and refill to edge of fill hole
w ith DEXRON®-II only. Check
for leaks and repair if necessary.
N ote: If u n it is still noisy after drain
and refill, disassem bly and inspection
m ay be required to locate source of
noise.
(1) T ransfer case n o t com pletely
engaged in 4L position.
(1) S top vehicle, shift.transfer case in
N eutral, th en shift back into 4L
position.
(2) S hift linkage loose or binding.
(2) T ighten, lubricate, or repair linkage
as necessary.
(3) Range fork cracked, inserts w orn,
or fork is binding on shift rail.
(3) D isassemble u n it and repair as
necessary.
(4) A nnulus gear or lockplate w orn or
damaged.
(4) Disassemble u n it and repair as
necessary.
(1) Transfer case overfilled.
(1) Drain to correct level.
(2) V ent closed or restricted.
(2) Clear or replace vent if necessary.
(3) O u tp u t shaft seals dam aged or
installed incorrectly.
(3) Replace seals. Be sure seal lip faces
interior o f case when installed. Also
be sure yoke seal surfaces are n o t
scored or nicked. Rem ove scores,
nicks w ith fine sandpaper or replace
yoke(s) if necessary.
(1) E xtended o peration on dry hard
surface (paved) roads in 4H range.
(1) O perate in 2H on hard surface
(paved) roads.
-Fig. 7E-6-Service Diagnosis Chart
LIGHT T R U C K S E R V IC E M A N U A L
7E-8
TRANSFER CASE
ON VEHICLE SERVICE
2. Shift transfer case to 4H position if not done previously.
TRANSFER CASE REMOVAL
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
Place transfer case in 4H.
Raise vehicle.
D rain lubricant from transfer case.
Remove cotter pin from shift lever swivel.
M ark transfer case front and rear output shaft yokes
and propeller shafts for assembly alignm ent reference.
D isconnect speedom eter cable and indicator sw itch
wires.
Disconnect front propeller shaft at transfer case yoke.
D isconnect p arking brak e cable guide from pivot
located on right fram e rail, if necessary.
Remove engine stru t rod from transfer case on auto
m atic transm ission models.
Place support under transfer case and remove transfer
case-to-transm ission adapter bolts.
Move transfer case assembly rearw ard until free of
transm ission output shaft and remove assembly.
Remove all gasket m aterial from rear of transmission
adapter housing.
TRANSFER CASE INSTALLATION
1. Install tran sm issio n -to -tran sfer
transm ission.
LIGH T T R U C K SE R V IC E M A N U A L
case
gasket
on
3. R otate transfer case output shaft (by turning yoke)
until transm ission output shaft gear engages transfer
case input shaft. Move transfer case forward until case
seats against transmission. Be sure the transfer case is
flush against the transm ission. Severe dam age to the
tran sfer case will result if the atta ch in g bolts are
tightened while the transfer case is cocked or in a bind.
4. Install transfer case attaching bolts. Tighten bolts to 30
ft.lb. (41 N-m).
5. Connect speedometer driven gear to transfer case.
6. Connect front and rear propeller shafts to transfer case.
Be sure to align shafts-to-yokes using reference m arks
m ade duri ng rem oval. T ighten shaft-to-yoke clam p
strap nuts to 15 ft.lb. (20 N-m ).
7. Remove support stand from under transfer case.
8. Connect parking brake cable if disconnected.
9. A ttach cotter pin to shift lever swivel.
10. Connect engine strut to transfer case on autom atic
models.
®
11. Fill transfer case with Dexron II.
12. Lower vehicle.
TRANSFER CASE
7E-9
MODEL 205 TRANSFER CASE (30 SERIES)
CONTENTS
G eneral D escription........................................................................................
M aintenance and A d ju stm e n ts....................................................................
D iagnosis............................................................................................................
On Vehicle S e rv ic e ........................................ ..................... ...........................
T ransfer C ase...............................................................................................
Skid P la te ......................................................................................................
S tru t R o d ......................................................................................................
A dapter A ssem blies....................................................................................
7E-9
7E-11
7E-11
7E-12
7E-12
7E-12
7 E -12
7E-12
GENERAL DESCRIPTION
MODEL 205 TRANSFER CASE (30 SERIES)
A transfer case mounts behind the transmission and
allows drive torque to be transm itted in a proportional split
to both the front axle and the rear axle, resulting in fourwheel drive. The shift control lever for the transfer case is
floor-mounted in the passenger com partm ent. Depending on
the type of transfer case and the shift lever position, various
com binations of rear wheel drive, four wheel drive, high
traction (gear reduction) or direct drive may be selected.
The model 205 transfer case shown in Fig. 7E-7 is a
two-speed unit which can be used for either two-wheel or
four-wheel drive. Direct drive (1:1 ratio) is available in two
modes, 2H for two-wheel drive, or 4H for four-wheel drive.
G ear reduction (1.96:1 ratio) is used in the 4L position. This
unit uses constant mesh helical gears to connect the input
shaft, idler gear and two output gears, thus allowing gear
selection to m atch driving conditions. The front input shaft
gear (Item # 2 7 ) is in constant mesh with the idler gear
( # 4 4 ) and, through the idler gear, with the front output
gears ( # 5 9 and # 6 7 ) and the rear output gear ( # 1 7 ) .
S liding clutches ( # 2 6 , # 6 4 ) allow for selective gear
engagem ent resulting in High or Lo range, and two-wheel or
four-wheel drive. Ball bearings support the input shaft, rear
output shaft and front output shaft. Tapered roller bearings
are used on the idler shaft. W hen driving in a four-wheel
mode (4L or 4H ) the hubs on the front wheels must be
turned to the "L ocked" position.
LIG H T T R U C K S E R V IC E M ANU AL
7E-10
TRANSFER CASE
1.
Rear O u tp u t S h a ft L o c k n u t
26
S lid in g C lu tch
49
Cover Gasket
2
W asher
27
In p u t S h a ft
3
4
Yoke
B e a r i n g R e t a i n e r a n d Se a l
28
29
Fro n t O u tp u t S h a ft L o c k n u t
W asher
A ss e m b ly
5
S n a p R in g
30
31
T ra n s fe r Case
P o p p e t P lu g , S p r i n g a n d Ba ll
P T 0 G a ske t and C over
50
5 1
52
6
7
B e a rin g
S p e e d o m e te r Gear
9
Gasket
10
11
12
13
14
15
In p u t S h a ft B e a rin g and Snap
R ing
O
R ea r C o v e r
53
54
Yoke
55
56
57
Gasket
S n a p R in g
B e a rin g R etain e r and Seat
32
S n a p R in g a n d R u b b e r
R ing
S h i f t L in k C le v i s Pm
58
Thrust W a sh e r
H ou sin g
33
34
Gasket
35
R a n g e S h i f t Rail
S h i f t Rail C o n n e c t o r L in k
59
60
Front W h e e l H ig h G ear
F ro n t O u tp u t S h a ft
B earing
36
F r o n t W h e e l D r iv e S h i f t Rail
61
S n a p R in g
37
I n t e r l o c k Pins
62
N ee d le B e a rin g s
Spacer
T hrust W a sh er
38
N eedle B e a rin g
39
Rear Id ler L ock N ut
W asher
63
T h r u s t W a s h e r L o c k Pin
64
S lid in g C lu tc h G ear
16
T h r u s t W a s h e r (Ta n ge d )
S h ift Fork
Low S peed Gear
S h i f t Rail S e a ls
Idler S h a ft B e a rin g
65
17
40
4 1
66
Roll Pm
18
N eedle B e a rin g s
42
Bearing Cup
67
Front O u tp u t L ow Gear
19
Spacer
43
44
S h im s
Idler Gear
68
20
69
T h r u s t W a s h e r L o c k Pin
T hrust W a sh er
Front B earing
2 1
N ee d le B e a rin g s
Tanged W asher
45
Bearing Cup
70
S n a p R in g
22
Rear O u tp u t S h a ft
46
Spacer
71
Rear C o v e r G a s k e t
23
24
N ee d le B e arings
47
Idler S h a ft B earing
72
Re a r C o v e r a n d B e a r i n g
W a s h e r and R etainer
48
Idler S haft
25
S h i f t F o rk
Fig. 7E-7--M odel 2 0 5 Transfer Case, Exploded View
LIGHT T R U C K SE R V IC E M ANU AL
TRANSFER CASE
7E -11
MAINTENANCE AND ADJUSTMENTS
LUBRICATION INFORMATION
R efer to Section OB of this m anual for detailed
inform ation on recom m ended intervals and types of
lubricant.
LINKAGE ADJUSTMENT AND INSPECTION
The control linkage for the transfer part-tim e case is
shown in Fig. 7E-8. Periodically inspect the linkage system
for freedom of operation, proper engagem ent, loose a ttac h
ing bolts foreign m aterial, etc. A djust, clean and tighten as
necessary.
DIAGNOSIS
COMPLAINT
Excessive
Noise
POSSIBLE CAUSES
1.
2.
3.
4.
5.
6.
Shifter Lever
Difficult to Move
Shifter Lever
Disengages
from Position
1.
2.
1.
2.
3.
4.
Lubricant
Leaking
1.
2.
3.
4.
Lubricant level-low
Worn or damaged bearings
Worn or damaged chain
Misalignment of drive shafts or universal joints
Yoke bolts loose
Loose adapter bolts
Dirt/contamination on linkage
Binding inside transfer case
Linkage misadjusted/loose
Gears worn or damaged
Shift rod bent
Missing detent ball or spring
Excessive lubricant in case
Leaking seals or gaskets
Loose bolts
Scored yoke in seal contact area
REMEDIES
1.
2.
3.
4.
5.
6.
1.
2.
1.
2.
3.
4.
1.
2.
3.
4.
Fill as required
Replace
Replace
Align
Torque to specs.
Torque to specs.
Clean and lubricate
Repair as required
Readjust/tighten
Replace
Replace
Replace
Adjust level
Replace
Tighten
Refinish or replace
Fig. 7E-9--Transfer Case Diagnosis
LIGHT T R U C K SE R V IC E M A N U A L
7E-12
TRANSFER CASE
ON VEHICLE SERVICE
TRANSFER CASE REPLACEMENT
Removal (Fig. 7E-10)
1. Raise and support vehicle on hoist. Drain transfer case.
2. Disconnect speedom eter cable.
3. Rem ove skid p late and crossm em ber supports as
necessary.
4. Disconnect rear prop shaft from transfer case and tie
up away from work area.
5. Disconnect front prop shaft from transfer case and tie
up shaft away from work area.
6. Disconnect shift lever rod from shift rail link.
7. S upport tra n sfe r case and rem ove bolts attach in g
transfer case to transm ission adapter.
8. Move transfer case to rear until input shaft clears
adapter and lower assembly from vehicle.
Installation
1. Support transfer case in suitable stand and position
case to transm ission adapter. Install bolts attaching
case to adapter and torque to 45 ft. lb. (61 N-m).
2. Remove stand.
LIGHT T R U C K SE R V IC E M ANU AL
3. Install connecting rod to shift rail link or connect shift
levers to transfer case, as applicable.
4. Connect front prop shaft to transfer case front output
flange or yoke.
5. Connect rear prop shaft to transfer case rear output
yoke.
6. Install crossm em ber support and skid plate, if removed.
7. Connect speedometer cable.
8. Fill transfer case to proper level with lubricant specified
in Section 0-B.
9. Lower and remove vehicle from hoist.
Check and tighten all bolts to specified torques.
Before connecting prop shafts to companion flanges, be
sure locknuts are torqued to specifications.
SKID PLATE, STRUT ROD
ADAPTER ASSEMBLIES
A ttachm ent of the above items is shown in Fig. 7E-10,
11 and 12. R efer to these figures when rem oving or
replacing these components.
TRANSFER CASE
7E-13
Fig. 7E-10--Transfer Case Attachment-Typical
LIGH T T R U C K SE R V IC E M AN U AL
7E-14
TRANSFER CASE
A U T O M A T IC
Fig. 7E-12--Strut R ods
Fig. 7 E -1 1 -S k id Plates
Fig. 7 E -13--A d ap ter Assembles
LIGH T T R U C K S E R V IC E M AN U AL
TRANSFER CASE
7E-15
SPECIFICATIONS
N*m
MODEL 205
—
N«m
MODEL 208
26-40
26-40
120-150
120-140
14-20
14-20
2.2-3.2
2.2-3.2
—
—
27-34
122-176
BOLT, ADAPTER-TO-TRANSMISSION
26-40
26-40
BOLT, ADAPTER-TO-TRANSFER CASE
26-40
26-40
FILLER PLUG
40-48
40-54
BOLTS P.T.O. COVER
20-24
—
NUT, SKID PLATE-TO-CROSSMEMBER
55-70
55-70
40-54
40-54
150-200
150-200
NUT, SHIFT LEVER-TO-SHIFTER ASSEMBLY
NUT, KNOB ASSEMBLY-TO-SHIFT LEVER
BOLT, SHIFTER ASSEMBLY-TO-TRANSFER CASE
NUT, SHIFT ARMS-TO-CASE
SCREW, SHIFT LEVER BOOT RETAINER
BOLT, DETENT RETAINER
SWITCH, INDICATOR
19-27
BOLT, SUPPORT STRUT ROD
— TRANSMISSION END
— TRANSFER CASE END
205 (PART TIME)
208 (PART TIME)
ALL K30 SERIES
ALL K10-20 SERIES
1.00 TO 1
1.96 TO 1
2.61 TO 1
LEVER POSITIONS
4-LO (ALL WHEEL UNDERDRIVE)
N (NEUTRAL)
2-HI (REAR WHEEL DRIVE)
4-HI (ALL WHEEL DIRECT DRIVE)
4-LO (ALL WHEEL UNDERDRIVE)
N (NEUTRAL)
2-HI (REAR WHEEL DRIVE)
4-HI (ALL WHEEL DIRECT DRIVE)
LEVER LOCATION
REAR OF TRANS. SHIFT LEVER
REAR OF TRANS. SHIFT LEVER
MODEL NO.
AVAILABILITY
RATIOS: HI RANGE
LO RANGE
POWER TAKE-OFF DATA:
OPENING AND LOCATION
SAE 6-BOLT; LEFT SIDE
LUBRICANTS:
OIL CAPACITY
5.2 PINTS*
8 PINTS*
TYPE, GRADE
SEE OWNER’S MANUAL
SEE OWNER’S MANUAL
*TO BE FILLED WITHIN ONE INCH OF FILL PLUG.
LIGHT T R U C K SER V IC E M A N U A L
208--Special Tools
SPECIAL TOOLS
Fig. 7E-ST1
1.
2.
3.
4.
5.
6.
7.
J-29162 J 29170 J-29163 J-29169 J 29168 J-29174 J-29167 —
Rear Retainer OIL Seal Installer
Input Gear Bearing Remover
Ft. Output Shaft Rear Bearing Installer
Input Gear Bearing Installer
Ft. Output Shaft Ft. Bearing Remover
Mainshaft Bearing Installer
Ft. Output Shaft Ft. Bearing Installer
TRANSFER CASE
7E-17
n
10
1.
2.
3.
4.
5.
6.
J —23432 —1
J-23432
J-8092
J-23429
J —22836
J —21359
Snap Ring Picks
Snap Ring Pliers
Han dl e
In te r m e d ia te Sh aft Remover and In s ta lle r
Front O u t p u t Shaft Bearing Ret ainer Seal I n s ta l le r
Rear O u t p u t Sha ft Be aring Ret aine r Seal In s ta l le r
7.
J -23 4 3 1
9.
J —713 7
J -9276-2
J —22875
10 .
Rear O u t p u t
Remover and
A d a p t e r Seal
In te r m e d ia te
Rear O u t p u t
Shaft Housing Bearing
In s ta l le r
I n s ta l le r
G e a r Bearing C up In s ta l le r
Shaft Rear Bearing I n s ta i le r
1. J-22836 - Front Output Shaft Bearing Retainer Seal
Installer
J-22388 — Rear Output Shaft Seal Installer
J-21359 - Input gear Bearing Retainer Seal Installer
J-24745 —Cluster Gear Loading Tool
J-8614-1 —Companion Flange Remover
2.
3.
4.
5.
Fig. 7E-ST2--205 Special Tools
LIG H T T R U C K SE R V IC E M AN U AL
ELECTRICAL - BODY AND CHASSIS
8A-1
SECTION 8A
ELECTRICAL - BODY AND CHASSIS
LIG H TIN G SYSTEM
CONTENTS
Lighting S y s te m ........................................... ......................
G eneral D escription................................... ...................
D iagnosis.............................................................................
O n-Vehicle Service.................................... ......................
M ain ten an ce ......................................... ......................
H eadlam p A d ju stm en t.............................................
Sealed Beam U n it................................. ......................
Parking Lamp B ulb.....................................................
Parking Lamp H ousing ....................... ......................
8A-1
8A -1
8A-2
8A-9
8A-9
8A-11
8A-11
8A-11
8A-11
Front Side M a rk e r................................................. ....
Rear Side M a rk e r .................................................. ....
Tail, Stop and Backup L a m p s............................ ....
D irectional Signal L a m p s .................................... ....
Clearance, License Plate and Ident Lam ps..........
Light S w itc h .................................................................
H eadlam p Beam Selector S w itch ...........................
Stoplam p S w itc h .........................................................
Specifications.................................................................. ....
8A-12
8A-12
8A-16
8A-16
8A-16
8A-16
8A-17
8A-17
8A-21
LIG H TIN G SYSTEM
GENERAL DESCRIPTION
The lighting system includes the main light switch; stop
light, dim m er and backing lam p switches; head and parking
lamps; stop, tail, side m arker, clearance and identification
lam ps; in strum ent illum ination, d irectional signal and
indicator lamps and the necessary wiring to complete the
various circuits.
A bulkhead fuse panel (fig. 8A-1) provides convenient
power taps and fuse clips for the appropriate circuits. The
engine wiring harness and forward lam p harness connectors
are bolted to the fuse panel.
All wiring systems not protected by a fuse or circuit
breaker incorporate a fusible link which provides increased
overload protection. T he sta rtin g m otor circu it is the
exception.
Composite wiring diagram s are available in Section
8C. The standardized color code is common to all wiring
harnesses. The wire covering color designates a particular
circuit usage. W ire size designations are m etric, conversions
to AW G sizes are provided.
LIGHT T R U C K SER V IC E M A N U A L
8A-2
ELECTRICAL - BODY AND CHASSIS
Q]
0
0
0
0
0
□
□
0
0
□
□
0
0
0
0
0
□
C U IT BREAKER
-CHOKE
-HEATER OR AIR CONO
-AUX HEATER OR AIR CONO
-RADIO
PTACLE 4C69
•STOP, HAZARD LAMPS
PTACLE-POWER ACCESSORY
-WINDSHIELD WIPER
PTACLE IAU3/A33
-HORN. DOME LAMP
PTACLE &T63/UF2/U35
-TAIL, CTSr LAMP
PTACLE-IT63
-INSTRUMENT PANEL LAMPS
i -TORN, BACK UP LAMPS
PTACLE 4K30/LF 9/NL2/HX1/M38/M40/U16
PTACI.f
(TJ
CIRCUIT B R E A K E R
[_Aj FUSE-WINDSHIELD W IP E R
| b ] RECEPTACLE-IGN ACC-RADIO & AUX BAT.
j C~j FUSE-STOP & TRAF H A ZA R D LPS
[d ] P O W E R ACCESSORY
[jfj R E C E PT A C L E- PO W ER D OOR LOCK>
|_Fj FUSE-INST PA N EL LAM PS
[g ] RECEPTACLE-DIR SIG LP F LA SH ER
|H| FUSE-HEATER & A./C
IT]
REC EPTACLE- BAT, L TR , RDO CAP AC.
CLOCK, H /L WARNING
[ k]
RECEPTACLE-PNL LPS, RAD DIAL,
TRANS IND LP & TILT WHEEL.
[Y]
FUSE-HORN D M
1~M|
FUSE-DIR SIG & BACK-UP LAM PS
m
RECEPTACLE-IGN-AUTO TRANS.
CRUISE C O N T R O L , PU LSE W IPER ,
TRANS IND LP
[p ]
FUSE-GAUGES
IqJ
FUSE-TAIL LAM PS
[R~|
R EC EPTACLE- TRAFFIC H A ZA R D F LA SH E R
[sl
"
REC EPTACLE- IGN /AC C REA R AIR C ON D
AUX H E A T E R
j_Tj
FUSE-AUX H E A T E R & A C
[u ’| FUSE-RADIO
Fig. 8A-1--Fuse Panel
LIGHT T R U C K SER V IC E M A N U A L
ELECTRICAL - BODY AND CHASSIS
8A-3
D IA G N O S IS
HEADLAMP DIAGNOSIS
Condition
One headlamp inoperative
or intermittent
Possible Cause
1. Loose connection
2. Defective Sealed Beam
One or more headlights
are dim.
1. Open ground connection
at headlight
2. Black ground wire
mislocated in headlight
connector (type 2
sealed beam)
Correction
1. Secure connections to sealed
beam including ground.
(Black Wire)
2. Replace sealed beam
1. Repair black wire connection
between sealed beam and body
ground.
2. Relocate black wire in connector
One or more headlights
short life
1. Voltage regulator
misadjusted
1. Readjust regulator to
specifications.
All headlights inoperative
or intermittent
1. Loose connection
1. Check and secure connections
at dim m er switch and light
switch.
2. Defective dimmer
switch
2. Check voltage at dimmer switch
with test lamp. If test lamp
bulb lights only at light blue
wire terminal, replace dimmer
switch.
3. Open wiring - light
switch to dimmer
switch
3. Check light blue wire with test
lamp. If bulb lights at light
switch light blue wire terminal
but not at dimmer switch, repair
open wire.
4. Check red wire terminal at light
switch with test lamp. If lamp
does not light, repair open red
wire circuit to battery, (possible
open fusible link)
4. Open wiring - light switch
to battery
5. Shorted ground circuit
5. If, after a few minutes operation,
headlights flicker “O N ” and
“O F F ” and or a thumping noise
can be heard from the light
switch (circuit breaker opening
and closing), repair short to
ground in circuit between
light switch and headlights. After
repairing short, check for
headlight flickering after one
minute operation. If flickering
occurs, the circuit breaker has
been damaged and light switch
must be replaced.
6. Defective light switch
6. Check red and white wire
terminals at light switch with
test lamp. If bulb lights at read
wire terminal but not at light
blue terminal, replace light
switch.
LIGH T T R U C K SER V IC E M A N U A L
8A-4
ELECTRICAL - BODY AND CHASSIS
Upper or lower beam
will not light or
interm ittent
1. Open connection or
defective dimmer switch
1. C heck dim m er switch terminals
w ith test lamp. If bulb lights
at light blue or tan wire term inals,
repair open wiring between dim m er
sw itch and headlights. If bulb
w ill not light at one o f these
term inals, replace dim m er switch.
2. Short circuit to ground
2. F ollow diagnosis above (A ll
headlights inoperative or
interm ittent)
SIDE MARKER LAMP DIAGNOSIS
Condition
One lamp inoperative
Front or rear lam ps
inoperative
A ll lam ps inoperative
LIGHT T R U C K S E R V IC E M A N U A L
Possible Cause
Correction
1. Turn signal bulb burnt
out (Front lamp)
1. Sw itch turn signals on. If signal
bulb does not light, replace bulb.
(Bulb filam ent provides ground
path for marker lam p bulb
through the light blue or dark
b lu e/w h ite strip wires).
2. Side marker bulb
burnt out
2. R eplace bulb.
3. L oose connection or
open in wiring
3. U sifig test lam p, check brown
wire term inal at bulb socket.
If test lam p lights, repair open
ground circuit. If lamp
does not light, repair open
brown wire circuit.
1. L oose connection or
open ground connection
1. If associated tail or park lamps
do not operate, secure all
connectors in brow n wire
circuit. If park and turn
lam ps operate, repair open
ground connections.
2. M ultiple bulbs burnt
out
2. R eplace burnt out bulbs.
1. Blow n fuse
1. If park and tail lam ps do not
operate, replace blow n fuse.
If new fuse blow s, check for short
to ground betw een fuse panel
and lamps.
2. L oose connection
2. Secure connector to light sw itch.
3. O pen in wiring
3. Check tail light fuse with
test lam p. If test lam p lights,
repair open w iring between fuse
and light sw itch. I f not, repair
open wiring betw een fuse and
battery. (P ossible open fusible
link).
ELECTRICAL - BODY AND CHASSIS
4. D efective light sw itch
I
-1 0*1 U *,
lb
.? ’
3 ••?-; 1 U *1
8A-5
4. C h ec k light sw itc h w ith te s t
lam p . I f te s t lam p lights a t
te rm in a l N o. 5 b u t n o t a t
te rm in a l N o. 4 , rep lace
light sw itch .
TAIL, PARK AND LICENSE LAMP DIAGNOSIS
Condition
O n e side in o p erativ e
B o th sides in o p erativ e
Possible Cause
Correction
1. B ulb b u rn t o ut
1. R ep la ce bulb
2. O pen g ro u n d con n ectio n
a t b u lb socket o r
g ro u n d w ire term in al
2. J u m p e r b ulb base socket
c o n n e c tio n to g ro u n d . If
la m p lights, rep a ir open
g ro u n d circu it.
1. T ail lam p fuse
blow n
1. R ep lace fuse. I f new fuse
blow s, re p a ir sh o rt to
g ro u n d in b ro w n w ire circuit
betw een fuse panel th ro u g h
lig h t sw itch to lam ps.
2. L oose co n n ectio n
2. S ecure c o n n e c to r at light
sw itch.
3. O p en w iring
3. U sing test light, check circ u it
on b o th sides o f fuse. I f lam p
does n o t light on e ith e r side,
re p a ir o pen c irc u it betw een
fuse panel and b attery ,
(possible open fusible link).
I f test lam p lights at light
sw itch b ro w n w ire term in al,
re p a ir o pen w iring betw een
lig h t sw itch an d lam ps.
4. M u ltip le bulb
b u rn o u t
4. I f test la m p lights at lam p
so ck et b ro w n w ire term in al,
rep lace bulbs.
5. D efective light sw itch
If te s t lam p lig h ts a t light sw itc h
te rm in a l N o. 4 (B ro w n /w h ite
w ire ) b u t n o t a t te rm in a l N o. 5
(B ro w n w ire), rep lac e d efectiv e
light sw itc h .
LIGH T T R U C K SE R V IC E M A N U A L
8A-6
ELECTRICAL - BODY AND CHASSIS
TURN SIGNAL AND HAZARD W ARNING LAMP
Condition
T u r n signals inoperative
one side
T u r n signals inoperative
Possible Cause
Correction
1. Bulb(s) b u rn t out
(F la sh e r canno t be
he a rd )
1. T u r n h a z a rd w a rn in g system on.
I f one o r m o re b ulbs are
inoperative replace necessary
bulbs.
2. O p en wiring or
gro u n d c o n n e c tio r
2. T u r n H a z a rd w a r n in g sy ste m on.
If o n e o r m o re b u lb s are
in o p era tiv e , use te st la m p and
check circu it at la m p so c k e t. If
test lam p lights, r e p a ir o p e n
g ro u n d c o n n e c tio n . I f n o t,
re p a ir o p e n w iring b e tw e e n
bu lb s o c k e t a n d t u r n signal
switch.
3. Im p r o p e r bulb or
defective turn signal
switch.
3. T u r n h a z a rd w a rn in g system on.
I f all front a n d rea r lamps
operate, check for im p ro per
bulb (1034 instead o f 1157).
I f bulbs are O K , replace defective
tu r n signal switch.
4. Short to ground.
(F la sh e r can be heard,
no bulbs operate)
4. L ocate an d rep air short to
g ro u n d by disconnecting
front a n d rear circuits
separately.
1. Blown tu rn signal
fuse
1. T u r n h a z a rd w a rn in g system
on. If all lam ps operate, replace
blow n fuse. If new fuse blows,
repair sh ort to g ro u n d between
fuse an d lamps.
2. Defective flasher
(L o c a te d behind
in stru m e n t panel near
steering colum n)
2. I f tu rn signal fuse is O K and
h a z a rd w a rn in g system will
operate lam ps, replace defective
tu r n signal flasher.
3. Loose connection
3. Secure steering co lu m n connector.
I f necessary, check p urple wire
term inals in c o n n e c to r with
test lamp. If test la m p lights only
on one side o f c on necto r, clean o r
tighten c o n n e c to r contacts.
LIGHT TRUCK SERVICE MANUAL
ELECTRICAL - BODY AND CHASSIS
H azard warning lamps
inoperative
1. Blown stop-hazard
fuse
1. Switch turn signals on. If lamps
operate, replace stop-hazard
fuse if blown. If new fuse blows,
repair short to ground. (Could be
in stop light circuit).
2. Defective hazard
warning flasher. (Located
on fuse panel).
2. If stop-hazard fuse is OK,
switch turn signals on. If
lamps operate, replace
defective hazard flasher.
3. Open in wiring or
defective turn signal
switch.
3. Using test lamp, check brown
wire in turn signal steering
colum n connector. If lamp
does not light on either side of
connector, repair open circuit
between flasher and connector.
If lamp lights only on feed side
o f connector, clean connector
contacts. If lamp lights on both
sides of connector, replace
defective turn signal switch
assembly.
8A-7
BACK-UP LAMP
Condition
One lamp inoperative or
intermittent
Both lamps inoperative
or intermittent.
Possible Cause
Correction
1. Loose or burnt out
bulb
1. Secure or replace bulb.
2. Loose connection
2. Tighten connectors.
3. Open ground
connections
3. Repair bulb ground circuit.
1. N eutral start switch
misadjusted (Open when
shift lever is in reverse
position)
1. Readjust neutral start switch.
2. Loose connection or
open circuit
2. Secure all connectors. If O K ,
check continuity of circuit from
fuse to lamps with test lamp. If
lamp does not light on either side
of fuse, correct open circuit from
battery to fuse.
3. Blown fuse
3. Replace fuse. If new fuse blows,
repair short to ground in circuit
from fuse through neutral start
switch to back-up lamps.
Defective neutral
start switch
5. Defective ignition
switch
4. W ith ignition on, check switch
terminals in back-up position with
test lamp. If lamp lights at pink
wire terminal but not at light
green wire terminal, replace
neutral start switch.
5. If test lamp lights at ignition
switch battery terminal but not
at outpu t terminal, replace
ignition switch.
LIGHT TRUCK SERVICE MANUAL
8A-8
ELECTRICAL - BODY AND CHASSIS
L a m p will n o t t u r n off
1. N e u tra l sta rt switch
m isadjusted (closed
w hen shift lever is not
in reverse position)
1 R e a d ju s t n e u tra l sta rt sw itch
STOP LIGHTS
Condition
Possible Cause
Correction
O ne bulb inoperative
1. Bulb b u rn t out.
1. R eplace bulb.
O n e side inoperative
1. Loose connection,
open wiring or defective
bulbs
1. T u r n o n d ir e c tio n a l signal. If
lam p d oes n o t o p e r a t e , check
bulbs. If b u lb s are O K , secure all
c o n n e c tio n s . I f la m p still d o e s
n o t o p e r a te , use test la m p an d
ch eck fo r o p e n wiring.
2. Defective directional
signal switch or
cancelling cam
2. I f lam p will o p e ra te by tu rn in g
directional signal on, the switch
is not c e n te rin g properly d u rin g
cancelling operatio n. Replace
defective cancelling cam or
directional signal switch.
1. S to p -h az a rd fuse
blown
1. R eplace fuse. I f new fuse blows,
rep air sh ort to g ro u n d in circuit
betw een fuse a n d lamps.
2. S to p -sw itc h m isa d ju sted
o r defectiv e
2. W ith b ra k e p e d a l d e p re sse d , ch e c k
w h ite wire te r m in a l in steering
c o lu m n c o n n e c t o r w ith test
lam p. If la m p d o e s n o t light,
ch eck s to p sw itc h fo r p ro p e r
a d ju s tm e n t . I f a d j u s t m e n t is
O K , replace s to p sw itch.
1. Stop switch
m isadjusted or defective.
1. R ead ju st switch. I f switch
still m alfun ctio ns, replace.
All inoperative
Will not tu r n off
LIGHT TRUCK SERVICE MANUAL
ELECTRICAL - BODY AND CHASSIS
8A-9
ON-VEHICLE SERVICE
Maintenance of the lighting units and wiring system
consists of an occasional check to see that all wiring
connections are tight and clean, that the lighting units are
securely mounted to provide good ground and that the
headlamps are properly adjusted. Loose or corroded connec
tions may cause a discharged battery, difficult starting, dim
lights, and possible damage to the generator. Wire harnesses
must be replaced if insulation becomes burned, cracked, or
deteriorated. Whenever it is necessary to splice a wire or
repair one that is broken, always use solder to bond the
splice. Always use rosin flux solder on electrical connections.
Use insulating tape to cover all splices or bare wires.
When replacing wires, it is important that the correct
size be used. Never replace a wire with one of a smaller size.
Fusible links in the wiring are four gage sizes smaller than
the cable it is designed to protect. The links are marked on
the insulation with wire gage size because of the heavy
insulation which makes the link appear a heavier gage than
it actually is.
Each harness and wire must be held securely in place
by clips or other holding devices to prevent chafing or
wearing away the insulation due to vibration.
By referring to the wiring diagram manual, circuits
may be tested for continuous circuit or shorts with a
conventional test lamp or low reading voltmeter. These
wiring diagrams use metric wire size designations, a chart
showing metric to A W G size conversions is provided in the
manual.
The headlam ps must be checked for proper aim
whenever a sealed beam unit is replaced and after repairs of
the front end sheet metal assembly.
Regardless of the method used for checking headlamp
aim, the truck must be at normal weight, that is with gas, oil,
water and spare tire. Tires must be inflated to specified
pressures.
Some states have special requirements for headlamp
aiming adjustment and these requirements must be known
and followed.
Horizontal and vertical aiming of each sealed beam is
proveded by two adjusting screws visible through the bezel
which move the mounting ring against the tension of the coil
spring (fig. 8A-2).
There is no adjustment for focus since the sealed beam
unit is set for focus during manufacturing assembly.
HEADLAMP ADJUSTMENT (Fig. 8A-2)
The headlam ps must be properly aimed to obtain
m axim um road illumination. W hen using mechanical
headlamp aimers, follow manufacturers instructions.
Fig. 8A-2--Headlamp Adjustments (Typical)
LIGHT TRUCK SERVICE MANUAL
8 A -10
ELECTRICAL - BODY AND CHASSIS
RADIATOR
FRO NT FEN D ER
VIEW A
RADIATOR
SUPPO R T
RADIATOR GRILLE
LOWER PANEL
Fig. 8A-3--Front Lighting (C-K Models)
LIGHT TRUCK SERVICE MANUAL
FORW ARD
LAMP
ELECTRICAL - BODY AND CHASSIS
8 A -1 1
FRONT LAMP
HARNESS ASSEMBLY
FRONT
MARKER
LAMP
VIEW A
E94 O R Z80
Fig. 8A-4--Front Lighting (G Models)
SEALED BEAM UNIT
Replacement (Figs. 8A-3 and 8A-4)
1. Remove bezel retaining screws and bezel.
2. Remove retaining ring.
Do not disturb adjusting screw setting.
3. Disconnect wiring harness connector located at rear of
unit in engine compartment and remove sealed beam
unit.
4. A ttach wiring harness connector to unit.
5. Position new sealed beam unit in mounting ring and
install retaining ring.
The number molded into lens face must be at top.
6. Install retaining ring then check operation of unit and
install bezel.
PARKING LAMP BULB
Replacement (Figs. 8A-3 and 8A-4)
1. Remove lens retaining screws and remove lens from the
housing.
2. Replace bulb and check lamp operation.
3. Install lens and retaining screws.
LIGHT TRUCK SERVICE MANUAL
8A -12
ELECTRICAL - BODY AND CHASSIS
PARKING LAMP HOUSING
Left Side
C-K Models
Replacement (Fig. 8A-3)
1. Remove parking lamp lens screws and remove the lens.
2. Remove lamp housing retaining screws and pull hous
ing forward.
3. Disconnect parking lamp wiring harness from housing
by rotating bulb socket counterclockwise.
4. Connect wiring harness to new housing by inserting
bulb socket into housing and rotating clockwise.
5. Install bulb if removed during disassembly. Install lens
and retaining screws.
G Models
Replacement (Fig. 8A-4)
Right Side
1.
2.
3.
4.
5.
6.
Remove both headlamp bezels.
Remove both parking lamp lens.
Remove grille.
Remove battery and battery box.
Disconnect wiring harness at connector.
Remove housing stud nuts and remove housing with
pigtail.
7. To install, reverse removal steps.
LICENSE LAMP ,
WIRE ASSEMBLY
1. Remove two screws and parking lamp lens.
2. Disconnect wiring harness at connector.
3. Remove housing stud nuts and remove housing with
pigtail.
4. To install, reverse removal steps.
FRONT SIDE MARKER LAMP BULB AND/OR
HOUSING
All Models
Replacement
For housing replacement follow procedure for the right
side bulb replacement below.
1. Left Side - Raise hood.
Right Side - Remove lamp assembly retaining screws
and pull outward on assembly.
2. Twist wiring harness socket 90° counterclockwise and
remove harness and bulb from housing.
3. Replace bulb and check lamp operation.
4. Insert bulb into housing, press in on harness socket and
twist 90° clockwise. Check th a t socket is securely
attached.
5. Left Side - Lower hood.
Right Side - Install housing in opening and install
retaining screws.
LICENSE
LAMP
ASSEMBLY
DARK GREEN
BROW N
MARKER LAMP
LIGHT GRFEN
LIGHT GREEN
BROW N
LICENSE '
I
LAMP WIRE jfc
ASSEMBLY
&
BROW N
( L H SIDE O NLY)
Fig. 8A-5--Rear Lighting (G Models)
LIGHT TRUCK SERVICE MANUAL
FUEL TA NK
METER ASSEMBLY
RIGHT SIDE
ELECTRICAL - BODY AND CHASSIS
8 A -13
Fig. 8A-6--Rear Lighting (C-K Models Except with E56 or E62)
LIGHT TRUCK SERVICE MANUAL
8 A -14
ELECTRICAL - BODY AND CHASSIS
LICENSE PLATE
LAMP WIRE —
VIE W 1
FRONT MARKER
LAMP HARNESS
CENTER MARKER
\ X LA M P S WIRE
| v ie w ]
FRONT WIRE
ASSEMBLY
TAIL & STOP ~
LAMP ASSEMBLY
SIDE MARKER
LAMP \
REAR LICENSE ^
LAMP ASSEMBLY
■TAIL & STOP
LAMP HARNESS
SIDE MARKER
LAMP
C209 (03) WITH OPTION E56
C310 (03) WITH OPTION E56
Fig. 8A-7--Rear Lighting (C-K Platform and Stake Rack Models)
C 3 0 ( 0 3 ) W IT H O P T IO N E56
CK 1 0 - 2 0 A N D C 3 0 9 ( 0 3 ) W IT H O P T IO N E62
Fig. 8AA-8A--Rear Lighting (C30 03 Models with E56 and C-K Models with E62)
LIGHT TRUCK SERVICE MANUAL
ELECTRICAL - BODY AND CHASSIS
8 A -15
C 3 0 9 W ITH O P T IO N E63
MARKER LAMP ( CREAM)
TAIL C O M B IN ATIO N LAMP ( GRAY)
0 3 -6 3 M O D ELS W ITH O P T IO N E63
BACK UP LAMP (WHITE)
TAIL C O M BIN ATIO N
LAMP (GRAY)
MARKER LAMP
(CREAM)
[ ^ 0
TYPICAL
BACK UP LAMP - ''I j £
(WHITE)
V !
^
0 6 -1 4 M O D ELS
0 3 -6 3 BASE M O DELS
Fig. 8A-9--Rear Lighting CK 03 and 43 Models exc E62 or E6E
LIGHT TRUCK SERVICE MANUAL
8 A -16
ELECTRICAL - BODY AND CHASSIS
REAR SIDE MARKER LAMP BULB
DIRECTIONAL SIGNAL LAMPS
AND/OR HOUSING
Directional signal lamps are an integral part of parking
and tail lamp assemblies. Refer to the applicable lamp or
bulb replacement procedures covered previously.
C-K 03 models with E62 and G Models
Replacement
Same as Right Front Side Marker Lamp Bulb and/or
Housing Replacement - All Vehicles. Bulb on G Models
without interior trim may be removed from inside the
vehicle.
C-K 16, 03 and 63 with E63, and 06 Models
CLEARANCE, LICENSE PLATE AND
IDENTIFICATION LAMPS
Refer to Figures 8 A - 10 and 8 A - 11 for clearance,
license plate and identification lamp installations.
LIGHT SWITCH
Replacement
1. Remove lens to housing four screws.
2. Replace bulb and check operation.
3. Position lens and install four attaching screws.
Platform and Stake Rack Models (E56)
Exploded view of the different rear lighting arrange
ments are shown in Figures 8A-7 and 8A-8. The bulbs may
be replaced by removing the lamp lens attaching screws and
lamp lens. The lamp housings may be replaced by removing
housing attaching nuts or screws, or by removing nuts and
bolts from bracket.
TAIL, STOP AND BACKUP LAMP BULBS
Replacement
1. Remove lens to housing attaching screws.
2. Replace bulb and check operation.
3. Position lens and install attaching screws.
TAIL, STOP AND BACKUP LAMP HOUSING
C-K 16, 03 and 63 w /E 63 and 06 Models
All G Models
Replacement
1.
2.
3.
4.
Remove lens to housing attaching screws.
Remove bulbs from sockets.
Remove housing attaching screws (nuts on G Models).
Rotate wiring harness sockets counterclockwise and
remove housing.
5. To install, reverse Steps 1-4 above.
LIGHT TRUCK SERVICE MANUAL
C-K Series (Fig. 8A-12)
Replacement
^OST'vO HTIW
.
|
1. Disconnect battery ground cable.
2. Reaching up behind instrument cluster, depress shaft
retaining button and remove switch knob and rod.
3. Remove instrument cluster bezel screws on left end.
Pull out on bezel and hold switch nut with a wrench.
4. Disconnect multiple wiring connectors at switch
terminals.
5. Remove switch by rotating while holding switch nut.
6. To install; reverse Steps 1-5 above.
V-:-’
i
G Series (Fig. 8A -12)
Replacement
1. Disconnect battery ground cable.
2. Reaching up behind instrument panel, depress shaft
retaining button and remove switch knob-shaft.
3. From front of instrument panel remove switch retain
ing nut.
4. Push switch from panel opening and remove multiple
electrical connector at switch terminals.
5. To install, reverse Steps 1-4, making sure grounding
ring is installed on switch.
ELECTRICAL - BODY AND CHASSIS
8A -17
Fig. 8A-12—Light and Headlamp Beam Selector Switches
HEADLAMP BEAM SELECTOR SWITCH
STOPLAMP SWITCH
Replacement
See Section 5 (Brakes) of this manual for adjustment
and replacement procedures.
1. Fold back upper left corner of the floor mat and remove
two screws retaining switch to the floor pan.
2. Disconnect wiring connector from switch terminals.
3. Connect wiring to replacem ent switch and check
operation.
4. Position switch to floor pan and install retaining screws.
5. Replace floor mat.
LIGHT TRUCK SERVICE MANUAL
8 A -18
ELECTRICAL - BODY AND CHASSIS
PARKING BRAKE
BRACKET
FRONT MARKER
LAMP
FRO NT LAMP
4 $*
BRAKE DIST.
& SW. ASSEMBLY
HORN A SSEM BLY
ENGINE HARNESS
HORN
ASSEMBLY
NUT
BATTERY
GROUND
PARKING
BRAKE
CABLE
VIEW C
VIEW B
PARKING
BRAKE
NUT
VIEW D
Fig. 8A-13--G Series Forward Lamp W iring
FUSE PANEL
REINFORCEMENT
GROUND
WIRE
GROUND WIRE
SIDE MARKER
LAMP
PARKING LAMP
BRACKET
DIST & SWITCH
.RADIATOR GRILLE
PANEL
FRAME
(2B)
Fig. 8A-14--CK Series Forward Lamp Wiring
LIGHT TRUCK SERVICE MANUAL
ELECTRICAL - BODY AND CHASSIS
8 A -19
VIEW B
VIEW A
CR O SSM EM BER
2-9.00
Fig. 8A-15--CK Series Rear Lamp Wiring
LIGHT TRUCK SERVICE MANUAL
8A -20
ELECTRICAL - BODY AND CHASSIS
LIGHT TRUCK SERVICE MANUAL
ELECTRICAL - BODY AND CHASSIS
8 A -2 1
S P E C IF IC A T IO N S
LAMP BULB DATA
C-K-P TRUCK
USED IN
Q UANTITY
Dome Lamps:
Cab
U tility & Suburban
Oil Pressure indicator lamp1
Generator indicator lamp1
Instrument cluster lamps2
Headlamp beam indicator
lamp
Lamp assembly - tail &
stop lamp
License Lamp4
Directional signal
(front park lamps)6
Head Lamps
Temperature indicator lamp
Directional signal indicator
lamp
Clearance and marker lamps
Roof marker lamps5
Brake warning indicator
Transmission control (auto)
Backing lamp (exc.
motor home)
Backing lamp (motor home)
Heater or A/C
Corner marker lamps
(platform)
Cargo lamp (C-K cab)
Radio dial lamp - AM
- AM/FM
Courtesy lamp
Windshield wiper switch
Clock
Rear identification7
Underhood lamp
Seat belt warning
Cargo/dome lamp
Four wheel drive indicator
Choke heater Ind
LAMP BULB DATA
G TRUCK
TRADE # POWER
1
1
1
1
5
1004
211-2
168
168
168
1
168
3 CP
2
1
1157
67
3-32 CP
4 CP
2
2
1
1157
6014
168
3-32 CP
50-60 W
3 CP
2
4
5
1
1
168
168
194
168
1445
3 CP
3 CP
2 CP
3 CP
0.7 CP
2
2
1
1156
1295
161
32 CP
50 CP
1 CP
7
1
1
1
1
1
1
10
1
1
2
1
1
67
1142
1816
216
1003
161
168
1895
93
168
211-2
161
168
4 CP
21 CP
3 CP
1 CP
15 CP
1 CP
3 CP
2 CP
15 CP
3 CP
12 CP
1 CP
3 CP
15
12
3
3
3
CP
CP
CP
CP
CP
USED IN
Dome lamps
Oil pressure indicator lamp
Generator indicator lamp
Instrument cluster lamps11
Headlamp beam indicator
lamp
Park, directional signal
lamps
Tail, stop lamps
License lamp
Head lamps12
Temperature indicator lamp
Directional signal indicator
lamp
Marker lamps
Brake warning indicator lamp
Back-up lamp
Radio dial lamp
Heater or A/C control
Transmission control w /tilt
wheel
W/S wiper switch lamp
Transmission control
Choke heater ind
Seat belt warning
Instrument cluster lamps9
Instrument cluster lamps10
9
10
11
12
QUANTITY TRADE# POWER
2
1
1
1
211-2
161
194
161
1
161
1 CP
2
2
1
2
1
1157
1157
67
6014
194
3-32 CP
3-32 CP
4 CP
50-60 W
2 CP
2
4
1
2
1
1
194
168
194
1156
1893
194
2 CP
3 CP
2 CP
32 CP
2 CP
2 CP
1
1
1
1445
161
73
1893
194
194
168
0.7 CP
1 CP
.3 CP
2 CP
2 CP
2 CP
3 CP
1
1
5
1
12 CP
1 CP
2 CP
1 CP
'G ' model w/o gauges; 1 lamp with gauges
'G' model w/o gauges; 3 lamps with gauges
*G' model with gauges only
Double filament sealed beam 60W high beam, 50W low beam.
1 On CA, KA 10-35 instrument clusters only.
2 3 lamps used on instrument cluster on P models or C-K w/o
gauges.
3 Double filament sealed beam 60W high beam, 50W low beam.
4 2 lamps used with step bumper and P models.
5 4 required on P models.
6 1157 NA, 2.2-24 CP on C-K models.
7 Wideside Pickup.
8 P' truck only.
LIGHT TRUCK SERVICE MANUAL
■J'
■:-r
..IT!a •'’ '' 'r
■ r ':
:
ELECTRICAL AND W IRING
8B-1
SECTION 8B
ELECTRICAL AND WIRING
CONTENTS
Radio R e c e iv e r................................................................
Speakers............................................................................
Circuit Protection.............................................................
General Description.......................................................
Circuit B reak er.............................................................
F u s e .................................................................................
Fusible L in k ..................................................................
8B-1
8B-3
8B-4
8B-4
8B-4
8B-5
8B-5
Diagnosis.......................................................................... 8B-5
On-Vehicle Serv ice........................................................ 8B-6
Headlamp Warning Buzzer........................................... 8B-6
Seat Belt Warning S y s te m ............................................ 8B-6
Anti-Theft Alarm S ystem .............................................. 8B-8
Specifications.....................................................................8B-12
RADIO RECEIVER
3. AM Radio -Remove the radio support bracket stud nut
and lockwasher.
REMOVAL AND INSTALLATION
A M /F M Radio -Remove radio support bracket to
instrument panel screws.
C-K Series
Replacement (Fig. 8B-1)
1. Disconnect battery ground cable.
2. Pull off radio control knobs and remove knob bezels.
Remove nuts and washers from control shafts using a
deep well socket.
4. Lift up on the rear edge of radio. Then push radio
forward until control shafts clear instrument panel.
Lower control far enough to disconnect electrical
harness.
5. Disconnect power feed, speaker and antenna lead wires
and remove radio.
Fig. 8B-1--Radio Receiver (C-K Series)
LIGHT TRUCK SERVICE MANUAL
8B-2
ELECTRICAL AND WIRING
6. To install, reverse Steps 1-5 above.
Replacement (All Models)
AM Radio
G Models
1. Slide radio dial lens upward, approximately 1/8 inch.
Replacement (Fig. 8B-2)
2. Tip bottom edge of lens outward (toward technician)
and remove lens.
1 Disconnect battery ground cable.
3. Pull out bulb section and remove bulb.
2. Remove engine cover.
3. Remove air cleaner cover and element.
4. Remove radio control knobs and retaining nuts.
5. Remove rear mounting bracket.
6. Push radio forward in vehicle and then lower assembly
and disconnect electrical harnesses and antenna lead.
7. Remove radio receiver from vehicle.
8. To install, reverse Steps 1-7 above.
9. Check operation.
CAUTION:Always attach speaker wiring harness
before applying power to the radio to prevent
receiver damage.
RADIO DIAL BULB
4. Install new bulb into socket and then reinstall bulb
section.
5. Reinstall dial lens.
AM-FM And Stero Radio
1. Slide radio dial lens upward approximately 1/8 inch.
2. Tip bottom edge of lens outward (toward technician)
and remove lens.
3. Remove rear dial plate screw. Place dial pointer at 16
and remove plate.
4. Remove bulb.
5. To install, reverse steps 1-4 above.
Tape Player Radio
AM and A M /F M radio dial bulbs can be replaced with
the radio in the truck. Tape player radios must be removed
from the vehicle for dial bulb replacement.
It is not recommended that CB Radio dial bulb be
replaced except by a qualified radio repair service.
1. Remove radio from vehicle.
2. Remove radio top cover.
3. Remove bulb.
4. To install, reverse steps 1-3 above.
Fig. 8B-2--Radio Receiver lnstallation--G Models
LIGHT TRUCK SERVICE MANUAL
ELECTRICAL AND W IRING
8B-3
3. Remove instrument cluster.
4. Remove speaker attaching screws, disconnect wiring
harness and remove speaker.
5. To install, reverse Steps 1-4 above.
6. Check operation.
C Models—Right Side
AM /FM
Fig. 8 B -3 --R a d io Front S p e a k e r (C -K Series)
1. Disconnect battery ground cable.
2. Remove engine cover.
3. Remove steering column brace bolts.
4. Remove radio support bracket bolt and instrument
panel upper and lower attaching screws.
5. Pull instrument panel assembly rearward to gain access
to speaker.
6. Remove speaker attaching screws, disconnect speaker
wiring harness and remove speaker.
7. To install, reverse Steps 1-6 above.
8. Check operation.
REAR SPEAKER
FRONT SPEAKER
C-K Series
C-K Models
Replacement (Fig. 8B-5)
Replacement (Fig. 8B-3)
1.
2.
3.
4.
5.
Disconnect battery ground cable.
Remove instrument cluster bezel upper four screws.
Remove instrument panel pad screws and remove pad.
Remove speaker to dash panel screws.
Lift up on speaker, disconnect speaker wiring harness
and then remove speaker.
6. To install, reverse Steps 1-5 above.
1. Remove four screws securing speaker grille to trim
panel and remove grille.
2. Disconnect electrical connector from speaker.
3. Remove two screws securing speaker to trim panel and
remove speaker. On 109 and 209 (06) models, there is a
gasket between speaker and trim panel.
4. Install replacement speaker in reverse order of removal.
G Models
G Models
Replacement (Figs. 8B-6 and 8B-7)
Replacement (Fig. 8B-4)
G Models—Left Side
1. Disconnect battery ground cable.
2. R em o ve instrum en t panel b ezel.
1. Remove the four most forward lower screws securing
right rear trim panel. Pull trim panel outward slightly
for access to speaker.
2. Disconnect electrical connector from speaker.
3. Remove four nuts securing speaker to grille studs and
remove speaker.
4. Install replacement speaker in reverse order of removal.
CK 1 0 5 (0 0 ) & Z 8 4
.0 9 + 2 0 9 (0 6 )
Fig. 8B-4--Speaker lnstallation--G Series
Fig. 8B-5--Rear Speaker (C-K Models)
LIGHT TRUCK SERVICE MANUAL
8B-4
ELECTRICAL AND W IRING
REINFORCEMENT
SPEAKER
SPEAKER
GRILLE
[v ie w [ a 1
SPEAKER
Fig. 8B -7 --R e a r S p e a k e r (G (0 6 ) Truck)
Fig. 8 B -6 --R e a r S p e a k e r (G (0 5 ) Truck)
CIRCUIT PROTECTION
GENERAL DESCRIPTION
All electrical circuits are protected against excessive
loads which might occur due to shorts or overloads in the
wiring system. Such protection is provided by either a
circuit breaker, fuse or fusible link. Each of these protective
devices are explained below.
LIGHT TRUCK SERVICE MANUAL
CIRCUIT BREAKER (Fiq 8B-8)
.
.
A circuit breaker is a protective device designed to open
circu^ when a current load is in excess of rated breaker
capacity. If there is a short or other type of overload
condition in the circuit, the excess current willl open the
circuit breaker and cause it to cycle if it automatically
resets, thus, indicating there is something wrong in the
ELECTRICAL AND WIRING
BREAKER
8B-5
TO JUNCTION
BLOCK
CON NEC TOR C O V E R IN G
FU SIBLE LIN K BEFORE SHORT C IR C U IT
CUT WIRE HERE
FU SIB LE L IN K AFTER SHORT C IR C U IT
Fig. 8B-9-Fusible Link
Fig. 8B-8--Fuse and Circuit Breaker
system. The circuit breaker will continue to cycle until the
trouble is found and corrected. Excessive cycling of the
breaker will eventually damage the breaker contacts to the
point that replacement of the breaker is necessary.
2. A 16 gage red fusible link is located at junction block to
protect all unfused wiring of 12 gage or larger. The link
is molded into the bulkhead connector.
3. The generator warning light and field circuitry (16
gage wire) is protected by a fusible link (20 gage red
wire) used in the " battery feed to voltage regulator # 3
term in al". The link is installed as a molded splice in the
circuit at the junction block. Service by splicing in a
new 20 gage wire.
DIAGNOSIS
FUSE (Fig. 8B-8)
A common method of protection is to use a fuse in the
circuit. Whenever there is an excessive current through the
circuit, the fusible element will melt and open the circuit.
The disadvantage of using a fuse instead of a circuit breaker
is the fuse in a one-time protection and replacement is
required.
FUSIBLE LINK (FIG. 8B-9)
In addition to circuit breakers and fuses, the wiring
harness incorporates fusible links to protect the wiring.
Links are used rather than a fuse in wiring circuits that are
not normally fused, such as the ignition circuit. Fusible links
are color coded red in the charging and load circuits to
match color coding of the circuit they protect. Each link is
four gage sizes smaller than the cable it is designed to
protect and are marked on the insulation with wire gage size
because the heavy insulation makes the link appear a
heavier gage than it actually is.
Engine com partm ent wiring harnesses incorporate
several fusible links. The same size wire with special
hypalon insulation must be used when replacing a fusible
link.
The links are:
1. A molded splice at the starter solenoid " B a t" terminal,
14 gage red wire. Servicing requires splicing in a new
link.
Failures in a circuit are usually caused by short or open
circuits. Open circuits are usually caused by breaks in the
wiring, faulty connections or mechanical failure in a
component such as a switch or curcuit breaker. Short
circuits are usually caused by wires from different compo
nents of the circuit contacting one anothe or by a wire or
component grounding to the metal of the body due to a
screw driven through the wires, insulation cut through by a
sharp metal edge, etc.
The following information may aid in locating and
correcting a failure in the body wiring electrical system.
1. If a major portion of the electrical circuit becomes
inoperative simultaneously, the failure may be due to
im proper connections between the front and rear
harness, or between the front harness and the chassis
wiring connector on top of fuse block.
2. If only one of the circuits is inoperative, the failure is
due to and open circuit or short in the affected circuit.
Short circuits usually result in blown fuses or in the
case of power equipment circuits, in the circuit breaker
opening the circuit. If the fuse is not blown and the
circuit affected is a lamp circuit, check the bulb before
proceeding with any checking procedures.
3. The dome lamp and courtesy lamp circuits are designed
so that the switches are in the "ground" side of the
circuit. If a condition is encountered where the lamps
remain "on" even though the jam b or courtesy lamp
switches are not actuated, the failure is probably due to
defective switches, or to the wire leading to the switches
being grounded to the metal body.
LIGHT TRIJCK SERVICE MANUAL
8B-6
ELECTRICAL AND WIRING
ON-VEHICLE SERVICE
HEADLAMPS WARNING BUZZER
Fusible Link R eplacem ent (Fig. 8B -10)
R eplacem ent (Fig. 8 B -1 1)
A new fusible link can be installed, after the short
circuit is located and repaired, as follows:
1. Disconnect battery ground cable.
2. Disconnect fusible link from junction block or starter
solenoid.
3. C ut harness directly behind connector to remove
damaged fusible link (fig. 8B-9).
4. Strip harness wire approximately 1/2".
5. Position clip around new fusible link and harness wire,
crimp so that all wires are securely fastened.
6. Solder connection using rosin core solder. Use sufficient
heat to obtain a good solder joint.
7. Tape all exposed wires with plastic electrical tape to
prevent corrosion and shorting.
8. Connect fusible link to junction block or starter
solenoid.
9. Connect battery ground cable.
CONNECTOR
F U SIB LE LIN K
THOROUGHLY TAPE ALL
EXP O SED W IR E S
CONNECTOR C R IM P E D
AND SOLDERED
Fig. 8B-10--Fusible Link Replacement
Fig. 8B-1 T-Healdamp Warning Buzzer
LIGHT TRUCK SERVICE MANUAL
1. Disconnect electrical connector from LPS (Lam ps)
socket of fuse panel.
2. Disconnect electrical connector from IGN (Ignition)
socket of fuse panel.
3. Disconnect electrical connector to instrument panel
harness.
4. Remove strap securing buzzer to instrum ent panel
harness.
5. Install replacement headlamp warning buzzer in re
verse wequence of removal.
SEAT BELT WARNING SYSTEM
All C-K type light duty trucks have a non-sequential
timer controlled seat belt warning system. This system has
an instrument panel warning light that will illuminate every
time the ignition switch is turned on, whether or not the
driver’s seat belt is buckled, but will automatically go off
after 4-8 seconds. The buzzer is also controlled by the 4-8
second timer, but will operate only if the driver has not
buckled-up prior to turning on the ignition. If no attem pt is
made to buckle-up after turning on the ignition, the buzzer
will also shut-off automatically after 4-8 seconds.
A trouble shooting diagnostic chart and wiring sche
matic are shown in Figures 8B-12 and 8B-13.
SEAT BELT REMINDER LIGHT/BUZZER DIAGNOSIS
Fig. 8B-12--Seat Belt Reminder System
Diagnosis
ELECTRICAL AND
WIRING
8B-7
8B-8
ELECTRICAL AND WIRING
Fig. 8B-13--Seat Belt Reminder System Schematic
ANTI-THEFT ALARM SYSTEM - G SERIES
COMPONENTS AND LOCATIONS
Protective switches are located at each of the forward
doors, at the side door lock pillar, at the right hand rear door
hinge pillar, and at the hood. The anti-theft relays and
flasher are located underneath the instrument panel at the
left side of the vehicle near the parking brake mechanism.
The anti-theft warning horn is mounted to the fender
inner support just forward of the battery tray at the right
side of the vehicle. The fender mounted arming switch is
protected by an anti-tamper switch which will sound the
alarm if an attem pt is made to forcibly remove the lock or
cylinder. See Figures 8B-15 thru 8B-18.
OPERATION (SEE FIGURE 8B-14)
With the system (key) switch in the off position and all
protective switches open no ground path exists for the coil of
Relay A, or Relay B.
When the driver leaves the vehicle, closes the doors
(opening the protective switches) and turns the arming
switch clockwise to a closed position, the system is then
armed. The closing of any of the protective switches will
then complete a path to ground for the Relay coil A. The
plus terminal of this coil is hot ( 12V) at all times.
LIGHT TRUCK SERVICE MANUAL
Thus energized, the relay coil closes the relay contacts,
providing a path to ground for Relay B (plus terminal of coil
is hot (12V) at all times).
At the same instant the closed contacts of Relay A
provide a ground path through the key switch to terminal 3
of Relay A.
Terminal ( # 3) was initially grounded by the closing of
a protective switch; however, if the door were closed, the
alarm would stop. To ensure th at the alarm continues to
sound, a holding action is provided by the Diode, D l. As
long as this path to ground is unbroken, the relay remains
energized. Closing the door will not break this path to
ground as illustrated in the diagram. As terminal 3 of Relay
B is grounded, the relay pulls in closing the contacts and
completing the flasher/horn circuit to + 1 2 volts. The
flasher then opens and closes pulsating the anti-theft horn,
which process continues until the alarm is disarmed with the
key switch, or the battery is exhausted.
The wiring diagram Figure 8B-14 shows another
switch at terminal 3 of Relay B. This is the anti-tamper
switch, which closes if an attem pt is made to remove or force
the lock, regardless of whether the alarm has been set or not.
When the switch closes, a ground path is provided for
terminal # 3 of Relay B and the alarm sounds. The other
protective switches, the key switch, and Relay A not
ELECTRICAL AND W IRING
involved in this actuation of the alarm, and the key switch
will not stop the alarm. To stop the alarm, the plunger of the
anti-tamper switch must be depressed, or power removed
from the system (Relay B disconnected).
8B-9
Component attachm ent and locations are illustrated in
Figures 8B-15 thru 8B-18.
LIGHT TRUCK SERVICE MANUAL
8B -10
ELECTRICAL AND W IRING
LIGHT TRUCK SERVICE MANUAL
ELECTRICAL AND W IRING
8B-11
LIGHT TRUCK SERVICE MANUAL
8B-12
ELECTRICAL AND WIRING
SPECIFICATIONS
FUSES — CIRCUIT BREAKERS
The wiring circuits are protected from short circuits by a combi
nation of fuses, circuit breakers, and fusible thermal links in the
wiring itself. This g reatly reduces the hazard of electrically
caused fires in the vehicles.
Idle Stop Solenoid, Cruise C o n tro lt,
Directional Signal Lamp, Time Delay
Relay, Emission Control Solenoid,
Transmission Downshift ( M 4 0 ) ...........................
The headlam p circuits are protected by a circuit breaker in the
light switch. An electrical overload on the breaker will cause
the lamps to go on and off, or in some cases to remain off.
In-line fuses are located in the au xilia ry heater circuits (C-K-P
models) and underhood lamp, front and rear A/C circuits (C-K
models)
10 Amp
tW h e n incorporated by body builder
In addition to a fuse, the windshield w iper motor is also pro
tected by a circuit breaker. If the motor overheats, due to
overloading caused by heavy snow, etc., the wipers will remain
stopped until the motor cools.
Fuses located in the Junction Block beneath the dash on the
drivers side are:
Do not use fuses of higher amperage than those recommended above
The following wiring harnesses are protected by a "fusible link" which is a
special wire incorporated in the circuit headlamp hi-beam indicator, horn, air
conditioning high blower, ignition circuits (C-K-P models) starter solenoid
(pull-in and hold) circuit(C-K models). Should an electrical overload occur, this
wire will fail and prevent damage to the major harness.
G TRUCK
C-K TRUCK
Heater, Front A/C, G enerator W arning
Lam p ...........................................................................
Idle Stop Solenoid, Aux. Battery, Radio,
Time D elay Relay, Emission Control Solenoid,
Transmission Downshift ( M 4 0 ) ..........................
Cigarette Lighter, Clock, Dome Lamp,
Cargo L a m p ............................................................
Fuel G au g e , Brake W arning Lamp,
Temperature W arning Lamp, O il
Pressure W arn ing Lamp ....................................
Courtesy Lamp, Roof M arker Lamp,
License Plate Lamp, Parking Lamp,
Side M arker Lamp, Tail Lamp,
Clearance Lamp ..................................................
Directional Signal Indicator Lamp, Stop Lamp,
Traffic H a z a r d .......................................................
Instrument Cluster Lamp, H eater Dial Lamp,
Radio Dial Lamp, Cruise Control Lamp,
W indshield W ip e r Switch L a m p ......................
W indshield W ip e r /W a s h e r ....................................
Cruise Control, Rear W indow Aux., Fuel Tank,
Tachometer, Back-up Lamp, Directional
Signal Indicator Lamp, Directional
Signal Lamp, H ead lam p Buzzer ........................
20 Amp
15 Amp
20 Amp
4 Amp
20 Amp
15 Amp
4 Amp
25 Amp
H eater, A / C .................................................................
Idle Stop Solenoid, Cruise Control,
Directional Signal Lamp, Directional
Signal Indicator Lamp, Transmission
Downshift ( M - 4 0 ) ...................................................
C igarette Lighter, Dome Lamp, Spot Lamp . . .
Fuel G au ge, Brake W arning Lamp,
Temperature W arning Lamp, G enerator
W arning Lamp, O il Pressure W arning Lamp
Stop Lamp, Traffic H a z a r d ....................................
A uxiliary Battery, Backing Lamp, Radio
Dial Lamp, Radio ................................................
Instrument Cluster Lamp, H eater Dial Lamp,
Transmission Control Lamp with Tilt W h e el,
Cruise Control Lamp, W /S W ip e r
Switch Lamp, H ead lam p B u z z e r......................
License Lamp, Parking Lamp, Sid e
M arker Lamp, Tail L a m p ....................................
W indshield W i p e r .....................................................
25 Amp
10 Amp
15 Amp
3 Amp
15 Amp
15 Amp
3 Amp
15 Amp
25 Amp
An in-line fuse is located in the Ammeter and the auxiliary
heater circuits.
Do not use fuses of higher amperage rating than those recommended above
15 Amp
The following wiring harnesses are protected by a "fusible link" which is a
special wire incorporated in the circuit, ignition, horn and headlamp hi-beam
indicator circuits, air conditioning high blower. Should an electrical overload
occur, this wire will fail and prevent damage to the major harness.
P TRUCK
H e a te rt, A ir C o n d it io n in g t..................................
Instrument Cluster Lamp, W indshield
W ip er Switch L a m p ..............................................
Directional Signal Indicator Lamp, Stop Lamp,
Traffic H a z a r d .......................................................
Fuel G au g e , Brake W arn ing L a m p ...................
License Plate Lamp, Parking Lamp,
Side M arker Lamp, Tail Lamp,
C learance Lamp, Identification L a m p ..........
W indshield W a s h e r /W ip e r ....................................
C ig arette Lighter!, C lo ckt, Courtesyt,
Dome Lampt ..........................................................
A uxiliary Batteryf, Back-up Lamp,
R a d i o ........................................................................
LIGHT TRUCK SERVICE MANUAL
25 Amp
CIRCUIT BREAKERS
3 Amp
15 Amp
3 Amp
15 Amp
25 Amp
15 Amp
15 Amp
DEVICE OR
CIRCUIT
PROTECTED
MODELS
AMPERES
LOCATION
C-K-P-G
15
Light
switch
T ailg ate window
motor
C-K
30
Dash
(forward side)
Rear A/C
(C69 overhead)
G
35
Dash
(forward side)
H eadlam p and
.parking lamp
circuit
INSTRUMENT PANEL AND GAGES
8C-1
SECTION 8C
INSTRUMENT PANEL AND GAGES
CONTENTS
Instrument Panel and G ages...........................................
General Description.........................................................
Diagnosis............................................................................
On-Vehicle Service..........................................................
Component Part Replacem ent...................................
N eutral Start Sw itch..................................................
Backing Lamp S w itc h ................................................
Windshield W iper/W iper/W asher S w itc h ...........
Ignition S w itc h ............................................................
Instrument C lu s te r......................................................
Indicator and Illuminating Bulbs.............................
Laminated (Printed) C irc u it....................................
S p ee d o m e te r.................................................................
Speedometer Cable C o re ...........................................
Fuel G a u g e ...................................................................
Temperature G a u g e ....................................................
Temperature Sending U n i t ......................................
Oil Pressure G auge......................................................
Oil Pressure Sending U n i t ........................................
V oltm eter......................................................................
Directional Signal S w itc h .........................................
Instrument Panel Wiring Harnesses..............................
8C-1
8C-1
8C-2
8C-7
8C-7
8C-7
8C-7
8C-7
8C-7
8C-10
8C-10
8C-11
8C-11
8C-11
8C-11
8C-11
8C-12
8C-12
8C-15
8C-15
8C-I5
8C-15
Windshield Wiper and W asher (C-K and G Models)
General Description.........................................................
Electrical Circuits..........................................................
Diagnosis.............................................................................
Wiper - On V ehicle.......................................................
Wiper - Off Vehicle.......................................................
On Vehicle Service..........................................................
Component Part Replacem ent...................................
Wiper M o to r.................................................................
Unit R epair........................................................................
W iper/W asher Disassembly........................................
Motor Disassembly........................................................
Motor A ssem bly............................................................
Wiper A d ju s tm e n ts .......................................................
Washer P u m p .................................................................
Windshield Wiper and Washer (P M odels)................
General Description.........................................................
Diagnosis............................................................................
Wiper - On Vehicle.......................................................
Unit Repair.......................... .............................................
Wiper M o to r...................................................................
Windshield W a s h e r.......................................................
Wiring D i a g r a m s .............................................................
.8C-18
8C-18
8C-18
8C-21
8C-21
8C-21
8C-32
8C-32
8C-32
8C-32
8C-32
8C-32
8C-32
8C-33
8C-33
8C-38
8C-38
8C-40
8C-40
8C-45
8C-45
8C-46
8C-56
GENERAL DESCRIPTION
All instruments and gages are installed in the instru
ment cluster. Instruments and gages can be serviced in the
vehicle (C-K Series); however, the entire cluster must be
removed from the vehicle for servicing of the instruments
and gages (G Series). Illuminating and indicator lamps may
be replaced without removing the cluster from the vehicle.
Bulbs are installed in plastic holders which lock into the
cluster housing.
Regular maintenance is not required on the instrument
cluster or its components other than maintaining clean, tight
electrical connections, replacing defective parts and keeping
the speedometer cable properly lubricated.
8C-2
INSTRUMENT PANEL AND GAGES
D IA G N O S IS
OIL PRESSURE INDICATOR
Condition
L ight not lit, ignition
on and engine not running.
Possible Cause
Correction
1. Bulb bu rn e d out.
1. R ep lace bulb.
2. O pen in light circuit.
2. Locate a n d co rre c t open.
3. D efective oil pressure
3. R ep lace oil p re ssu re switch.
switch.
L ight on, engine ru n n in g
above idle speed.
1. G r o u n d e d wiring between
light an d switch.
1. L o cate a n d re p a ir ground.
2. D efective oil pressure
2. R e p la ce oil p re ssu re switch.
switch.
3. Low oil pressure.
3. L o c a te cause o f low oil pressure
a n d correct.
COOLANT TEMPERATURE INDICATOR
Condition
“ H O T ” indicator;
light not lit w hen
c ra n k in g engine.
Possible Cause
Correction
1. Bulb b u rn e d out.
1. R e p la c e bulb.
2. O pen in light circuit.
2. L o cate a n d c o rre c t open.
3. D efective ignition
3. R e p la c e ignition switch.
switch.
L ight on, engine
running.
U ;HT TRUCK $
awi
Check the following:
1) Pawl spring properly
connected.
2) Cam-follower not
binding.
STEP 5
Moves back
and forth
Leave wiper running
and Go To STEP 5
Connect 12(+) volts to one of washer pump terminals (6 or 7) and ground the other for
approx. 2 seconds. Observe it relay armature is pulled toward the relay coil; armature
leg drops down on gear ramp and ratchet pawl starts rotating ratchet gear.
Refer to view in STEP 4.
Operates OK
Go To STEP 6
Relay armature operates
correctly but ratchet gear
doesn’t rotate.
Check ratchet gear teeth
and/or ratchet gear dog
spring engages gear teeth.
Refer to above Illustration.
Armature Leg doesn’t
clear rim on ratchet gear.
Drops back in slot area
on edge of rim.
Check the following:
a) Relay coil-sw. assy, correctly
assembled to washer frame
b) Burr on end of armature leg.
File off as required.
c) Loose coil on pole piece.
STEP 6
Replace valve assembly and
recheck pump. If washer
pump still fails to pump
solution, replace piston and
housing assembly.
LIGHT TRUCK SERVICE MANUAL
Replace piston and
housing assembly,
INSTRUMENT PANEL AND GAGES
8C-29
PROCEDURE 10 (Washer Pumps Continuously)
Have wiper running and disconnect wiring from washer pump terminals 6 and 7.
Observe if pump completes wash cycle and stops pumping.
Pump keeps
running
Pump stops
Check for grounded wire
between pump terminal
and dash switch or
a defective dash sw.
Go To STEP 2
Disconnect wiring from wiper unit; remove washer pump cover and re-connect
w iring to wiper-washer. Turn on wiper and check the follow ing items.__________
a)
b)
c)
d)
Ratchet gear dog spring engaging ratchet gear teeth.
Weak spring tooth on ratchet gear.
Ratchet gear tooth damaged
Cam-follower damaged.
Replace item(s) as required.
LIGHT TRUCK SERVICE MANUAL
8C-30
INSTRUMENT PANEL AND GAGES
DELAY WIPER SYSTEM OPERATION AND DIAGNOSIS
Light duty trucks use a separate control assembly to
operate the windshield wipers over a variable delay of 1 to
20 seconds. The control assembly plugs into the selector
switch at two different connectors. One of these connectors
has a piggy-back connector that connects to the regular
wiper harness. There is also a lead from the control that
plugs into the accessory cavity of the fuse panel. Moving the
control knob of the selector switch to the extreme left
position and holding it there, will result in a M IST mode.
The mist mode feature provides momentary low speed wiper
operation as long as the control knob is held in position. This
position is spring loaded and will only remain activated as
long as the knob is held in position. Upon releasing the
control knob, it will automatically return to O F F position.
By positioning the control knob in the first detent right of
OFF, the selector switch is in the D E LA Y mode. Rotation
of the control knob while in the delay mode regulates the
delay period between the time it takes the wiper to make one
sweep and momentarily stop.
Shifting the control knob right to next detent -position
will put the wipers in a LOW speed wiper mode. By moving
the control again to the right (right most detent) will
activate the H IG H speed wiper mode.
Depressing the control knob, in any mode, will result in
washer fluid being squirted on the windshield.
Depressing the control knob on light duty trucks for one
or two seconds will send a measured amount of fluid onto the
windshield and then the washer will shut off. If the wiper
control knob is any position other than H IG H , the wipers
LIGHT TRUCK SERVICE MANUAL
will continue to operate at low speed until they are manually
turned OFF.
In the H IG H mode, depressing the knob results in
washer fluid being dispensed with the wipers operating at
the high speed mode.
Selector Switch Checking Procedure
If the wiper washer selector switch is suspected of being
faulty, it can be checked with an ohmeter as indicated in
C hart 8-16. Before performing any continuity check discon
nect both harness connectors from switch to controller.
N ext, place selector switch in mode desired and
perform a continuity check between the individual leads as
indicated in the chart. If there is a meter reading at each
check but no indication of shorts, the switch can be assumed
to be good.
INSTRUMENT PANEL AND GAGES
8C-31
-------
HG' W‘.
531 riJ 'J.'tXty:.
>b fOJC- ri ' 'v.j"
"•(•'jd i.. 7 K i n '3 ’V.;jq
W IP E R S DO NOT DELAY
icifeni 6
•
!J- / . I T 1 0 TO M l
CHECK W IPER OPERATIONS
B n tiV iU
o nwtt>
i *’I
M
l v :--v hr xJ*':
iO fl j!c:
W IP ER S DO
NOT OPERATE
N ORM ALLY
ru inun
j i r m i s . tri
, *j*?.sq
iw<: j r i ! oi •:* rim
j&i,] y j
lliiM umuo fe’fix (u?!>b .j', '
REFER TO
W IND SHIELD
W IPER DIAGNOSIS
H Dum ? w
D ETERM IN E
CONTROLLER IS
P R O P ER LY CONNECTED
*
)p iTfki 8) -in '■
CONTROLLER CONNECTED
^ I -3 8 S jSjSIi GJ T .b
__________________________
gnniv/ toyartjpaLCI
FUNCTIONS
RELAY
PR O PER LY
CHECK W IPER
SW ITCH
(SEE PRO CEDU RE)
K! m A:r
SWITCH OK
W IPER OPERATE
N O R M A LLY
REPAIR DAM AGED
OR DISCONNECTED
H AR N ESS
TEST RELAY
(SEE PRO CEDU RE)
15v'j ' " j Q ’ |»fn Tod'.’K''
RELAY DOES
NOT FUNCTION
.n?
h . ,T >•'* ’>
:GfT '
• •j
•c v ia ;.!
REPLACE
CONTROLLER
REPLACE
RELAY
=L
SW ITCH
DEFECTIVE
S Y S T E M IS
R ESTO RED
REPLACE
SWITCH
" ..... 1 "
S YST EM
RESTORED
SY S T E M IS
RESTORED
r~
SYST EM
RESTORED
z
Dark Blue
If the w iper/w asher selecto r sw itch is su sp ected o f being
faulty, it can be ch eck ed with an ohm meter as indicated in
table below . Before perform ing any continuity ch eck on
selector sw itch , d iscon n ect both harness con n ectors from
sw itch to controller. N e x t, place selecto r sw itch in m ode
desired and perform a continuity ch eck betw een the indi
vidual leads as indicated in table b elow , Figure 15. If there is
a meter reading at each ch eck but no indication o f shorts,
sw itch can be assum ed to be good.
.■
i if- *J*
control)
-J
in on
—
o
press
s=
o
(Oft Mode
Mist
Selector Switch Checking Procedure
W ash
Control
bh-i
(Rotate
;q#jo-,brf*
Delay
: t'.; /joa i
:>u:
Delay
uq bns
full clock w ise)
01 O'
X
Light Blue
X
Green
X
X
Black
X
X
Black Wht Str
X
X
X
X
X
X
X
X
X
X
X
X
X
X
Orange
X
White
X
X
off odi riguoidt
.Hjfunfi'M- ■■ •
:B /Gig 3fii oi )» rt..
LIGHT TRUCK SERVICE MANUAL
8C-32
INSTRUMENT PANEL AND GAGES
ON-VEHICLE SERVICE
WIPER MOTOR
C-K Models
Replacement (Fig. 8C-17)
1. Make sure wiper motor is in Park position.
2. Open hood and disconnect ground cable from battery.
3. Disconnect electrical harness at wiper motor and hoses
at washer pump.
4. Reach down through access hole in plenum and loosen
wiper drive rod attaching screws. Remove drive rod
from wiper motor crank arm.
5. Remove wiper motor to dash panel attaching screws
and remove the motor assembly.
6. To install, reverse Steps 1-5 above.
Lubricate wiper motor crank arm pivot prior to
reinstallation.
Replacement (Fig. 8C-18)
5.
6.
7.
8.
9.
NOTICE: Install wiper in the PARK position. Lube
wiper motor crank arm pivot prior to installation.
UNIT REPAIR
WIPER MOTOR
Repairs to the motor/gear box section of the wiper are
limited to the switch, armature, and cap and brush holder
assy., plus the external parts such as the crank arm, spacer/
seal (plastic) and output shaft seal.
PARK SWITCH
This is part of the washer pump relay coil assembly.
Refer to figui e 8 C -19.
Removal
G Series
1.
2.
3.
4.
10. Remove three screws securing wiper motor to cowl and
lift wiper motor out from under dash for further
disassembly on bench.
11. To install, reverse Steps 1-10 above.
Make sure wiper motor is in Park position.
Open hood and disconnect battery ground cable.
Remove wiper arms from wiper transmission linkage.
Remove remaining screws securing cowl panel cover
and lift off.
Loosen nuts holding transmission linkage to wiper
motor crank arm and lift linkage off arm.
Disconnect power feed to wiper motor at multiple
connector.
Remove left dash defroster outlet from flex hose and
push hose aside for access to wiper motor screws.
Remove one screw securing left hand heater duct to
engine cover shroud and slip heater duct down and out.
Protect carpet, then remove windshield washer hoses
from washer pump.
1. Disconnect wiring from wiper assembly and remove
washer pump cover.
2. Remove pawl spring.
3. Push in retainer tab to release relay coil-park switch
assembly from washer frame.
4. To re-assemble, reverse steps 1 thru 3 and check wiper
operation, figure 8C-19.
ARMATURE ASSEMBLY END CAP-BRUSH HOLDER
ASSEMBLY
Replacement
1. Bend retainer tabs as required to provide clearance for
removing end cap assembly. Figure 8C-20.
2. To assist in pushing the end of the motor housing,
rotate crank arm clock-wise (looking at crankarm).
3. Pull end cap assembly off the arm ature shaft and pull
arm ature out of wiper housing.
Replace
Fig. 8C-17--Wiper M otor (C-K Series)
LIGHT TRUCK SERVICE MANUAL
1. Release brush spring tension figure 8C-21 and slide
brushes back in their respective brush holders.
2. Assemble a r m a tu re in end cap assembly and re
position brush spring legs behind their respective tabs,
figure 8C-22.
3. To maintain the end cap in its assembled position on
arm ature shaft during re-assembly of arm ature in the
wiper housing proceed as follows: Using small wire
such as tag wire, tie arm ature to end cap assembly as
shown in figure 8C-23.
4. Guide a rm a tu re worm shaft through the housing
bearing.
The strong magnetic field will pull arm ature toward
one of the magnets. It will be necessary to overcome the
magnetic force to start shaft into the bearing.
5. Guide terminal housing of end cap into the slot area of
the wiper housing.
INSTRUMENT PANEL AND GAGES
8C-33
Fig. 8C -1 8--W ip er M o t o r ( G Series)
6. Remove wire used to attach arm ature to end cap. This
should be done before end cap enters the housing.
7. After wire is removed, rotate crank arm slightly to
permit armature worm shaft to engage gear teeth. The
end cap assembly can then be pushed into the housing
until it bottoms against the end of the housing.
8. Bend the 4 tabs as required to secure the end cap in
position figure 8-11.
9. Check wiper operation.
CRANK ARM, SPACER, SEAL Refer to Figure SC24
Replacement
1. Remove crank arm retaining nut, crank arm, shaft seal
and spacer in the order indicated.
When re-assembling the shaft seal, be sure flat side is
toward crank arm.
2. When re-assembling the crank arm, be sure wiper
motor is in park (refer to figure 8C-25), and assemble
crank arm on shaft in position shown in Figure 8C-25.
WASHER PUMP
Relay Coil
This is part of park switch assembly. Refer to "P ark
switch" for disassembly-assembly procedure.
Ratchet Paw l
Refer to Figure 8C-26.
1. Disconnect pawl spring.
2. Rem ove"e" type retainer ring and slip pawl off of
shaft.
Dog Spring: Refer to Figure 8C-26
1. Remove screw th a t atta c h e s dog spring to washer
frame.
Ratchet Gear: Refer to Figure 8C-26
1. Remove dog spring and ratchet pawl.
2. Move leg of retainer spring out of shaft groove and slide
ratchet gear off shaft. Be careful not to lose retainer
spring.
3. To re-assemble gear, reverse steps 1 and 2 but read
note.
In order to push gear on shaft until it bottoms, move
ratchet pawl shaft in a direction away from the gear.
LIGHT TRUCK SERVICE MANUAL
8C-34
INSTRUMENT PANEL AND GAGES
C O N N E C T IO N S TO O P E R A T E W IP E R S IN D E P E N D E N T L Y OF V E H IC L E
W I R I N G A N D D A S H S W ITC H.
NO LOAD CURRENT DRAW @ 12V
Lo Speed — 2.5 Amps Max
HI Speed — 5.0 Amps Max
Crank Arm Rotation — CCW
(Looking at Arm)
LO SPEED
12V(
PARK
Fig. 8C -19--Checking M o t o r Op eration
This will allow gear collar to slide past the tab on the
piston actuator plate. (Refer to Figure 8 C -12).
3. Remove valve assembly as required.
4. To re-assemble, reverse steps 1 thru 3.
Piston and Housing Assy:
Refer to Figure 8C-27.
1. Remove ratchet pawl, dog spring and ratchet gear.
2. Pull piston housing away from frame until the mount
ing grooves clear the frame. During this step the piston
spring is being compressed.
LIGHT TRUCK SERVICE MANUAL
Valve Assembly: Refer to Figure 8C-26.
1. Remove the four (4) attaching screws and remove valve
assembly and gasket ring.
2. During re-assembly, be sure seal is properly installed in
piston housing and valve assembly grooves.
INSTRUMENT PANEL AND GAGES
8C-35
B E SU RE BRUSH L E A D S
ARE ROUTED CO RR EC T LY
A N D A R E N O T T O U C H IN G
E A C H OTHER
B R U S H S P R IN G L E G
IN C O R R E C T P O S IT IO N
F O R R E - A S S E M B L Y IN
M O T O R (3 S P R IN G S )
S P E E D BRUSH
LEA D ROUTED
CO RRECTLY
NOTE: B E SU R E LO W ER
B R U S H S P R IN G L E G S A R E
IN B R U S H H O L D E R S L O T S
Fig. 8C -20--Relay Coil Assembly
B R U S H S P R IN G IN R E L G A S E D
P O S IT IO N (3 S P R IN G S )
Fig. 8C-22--Brush S p r in g -B r u sh Spring-Released
Position
R O T A T E BRUSH
SP R IN G IN D IR E C T IO N
B R U S H S P R IN G LEG
OF AR R O W TO RE
RELEASED FROM RE
P O SITIO N IT B E H IN D
R E T A IN E R NOTCH
T A IN E R NOTCH
R E T A IN E R
NOTCH
Fig. 8C-21--Releasing Brush Spring Tension
Fig. 8C-23--End C ap Assembly
LIGHT TRUCK SERVICE MANUAL
8C-36
INSTRUMENT PANEL AND GAGES
— NUT
” TRUCK CRAN K ARM
P A R K P O S IT IO N
CRANK ARM
SHAFT SEA L
(RUBBER)
SP A CER
(PLASTIC)
ARMATURE
END PLAY
ADJUSTING
SCREW
“A X ” - I D E N T I F IC A T IO N C O D E
“G ” V A N C R A N K A R M
P A R K P O S I T IO N
A Y - ID E N T IF IC A T IO N
CODE
Fig. 8C -24--C ra n k A rm Sp a ce r Seal
Fig. 8C-2 5--C ra nk A rm Park Position
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C-37
P A W L S P R IN G
“E ” R E T A IN E R
R IN G
L E G O F R E T A IN E R
IN R A T C H E T G E A R
SH AFT GROOVE
D O G S P R IN G
RATCHET G EA R
Fig. 8C-26 --W ash er Pump Assembly
LIGHT TRUCK SERVICE MANUAL
8C-38
INSTRUMENT PANEL AND GAGES
M O U N T IN G G R O O V E
(Both Sides)
Fig. 8 C -2 7 ~ W a s h e r Pump Exp loded View
WINDSHIELD WIPER AND WASHER
P MODELS
GENERAL DESCRIPTION
The system consists of a compound wound rectangular
shaped motor attached to a gear box containing a parking
switch in addition to the gear train. The gear train consists
of a motor a rm a tu r e helical gearshaft which drives an
intermediate gear and pinion assembly. The pinion gear of
the intermediate gear and pinion drives an output gear and
shaft assembly.
Turning the wiper switch to the LO speed position
completes the circuits from the wiper terminals 1 and 3 to
ground. C u rre n t then flows from the battery via wiper
terminal No. 2 through the series field and divides; (1) part
passes through the arm ature to ground via wiper terminal
No. 1 to the wiper switch and (2) the second part passes
through the shunt field to ground through wiper terminal
No. 3 to the wiper switch (fig. 8C-28).
LIGHT TRUCK SERVICE MANUAL
NOTICE: The wiper switch must be securely grounded
to body metal.
Moving the wiper switch to the HI speed position opens
the shunt field circuit to ground at the switch. However, the
shunt field is connected to a 20 ohm resistor which is
connected across wiper terminals 1 and 3. The shunt field
current then flows via terminal No. 3 through the resistor to
terminal No. 1 to the switch, to ground (fig. 8C-29).
The parking circuit covers th a t portion of wiper
operation when the wiper switch is turned "off" and the
wiper blades have not reached the park position.
When the wiper blades are not in the normal park
position, the parking switch contacts are still closed. The
INSTRUMENT PANEL AND GAGES
8C-39
PER GEAR
TRAIN
DA S H
WIPER
TERMINAL
S WI TC H
BOARD
PARK
I
S WI TC H
TOTX
GRAY
ig n it io n
SHUNT F - NAT. W I R E
/
S WI TC H
Fig. 8 C -2 8 --L O Spe ed Circuit
wiper will continue to operate until the wiper output gear is
turned to a position where its cam opens the park switch.
Referring to Figure 8C-30, it can be seen that the wiper
motor circuits are completed to ground through the parking
switch.
I■
1Jji 51"*j.i
switch to ground. The series field and arm ature circuit is
also completed from terminal No. 1 through the parking
switch to ground.
The shunt field is connected direct to ground, by
passing the resistor. This results in LO speed operation
during the parking operation.
The wiper motor must be securely grounded to body
metal.
The shunt field circuit is completed from terminal No.
3 via the switch to terminal No. 1 through the parking
W hen the o utput gear cam opens the park switch
contacts, the wiper is OFF.
LIGHT TRUCK SERVICE MANUAL
8C-40
INSTRUMENT PANEL AND GAGES
PARK
SWITCH
SERIES F*
DASH
SWITCH
OFF-LO-Hl
SHUNT F - NATURAL WIRE
Fig. 8C-29--HI Sp e e d Circuit
Fig. 8 C - 3 0 - P A R K IN G C ircuit
DIAGNOSIS
WIPER - ON VEHICLE
1. Inspect for the following items:
a. Wiring harness is securely connected to wiper and
switch.
b. Wiper motor is securely grounded to body.
c. Wiper switch is securely mounted and grounded.
d. Check fuse.
2. If items in Step 1 check out, try operating wiper in both
" L O " and " H I " speeds, then turn wiper off (blades
should return to park position). If wiper fails to operate
correctly, proceed to Step 3.
3. Disconnect wiring harness from wiper and try operat
ing wiper as shown in Figure 8C -3 1.
LIGHT TRUCK SERVICE MANUAL
a. If wiper operates correctly independently of switch
and vehicle wiring, refer to the D IA G N O S I S
C H A R T - W IP E R O N V E H IC L E .
b. If wiper still fails to operate correctly in Step 3,
disconnect wiper linkage from motor crankarm and
try operating wiper again. If wiper opeates correctly
independently of linkage, check linkage for cause of
wiper malfunction.
c. If wiper fails to operate correctly independently of
linkage, remove wiper motor from vehicle and refer
to D IA G N O IS C H A R T -W IP E R O F F V E H IC L E .
INSTRUMENT PANEL AND GAGES
fiC-41
DIAGNOSIS - WIPER ON VEHICLE
NOTE: Ignition switch m u st be "on" for all electrical tests.
C O N D IT IO N
A PPA R E N T CAUSE
C O R R E C T IO N
A. Blown fuse
A. L o c ate s h o rt circuit
a n d repair. R ep lace fuse.
B. O pen circuit in feed wire
(No. 2 term in al on wiper
m o to r)
B. L o ca te b ro k e n wire and
re p a ir
:
I
C. Loose m o u n tin g of wiper
switch
C. T ig h te n sw itch mountirig
D. Defective w iper switch
D. R e p la c e sw itch
E. O pen circuit in wire to
wiper switch (No. 1 term inal
on wiper m o to r)
E. L o c a te b ro k e n wire
a n d rep air
A. G r o u n d e d W ire (No. 1
term inal on w iper m o to r) to
w iper switch
A. L o c a te sh o rt circuit a n d
rep air
A. Defective w iper switch
A. R e p la c e w iper switch
B. G r o u n d e d wire (No. 3
term inal on wiper m o to r) to
wiper switch
B. L o ca te a n d repair short
circuit
A. Defective w iper switch
A. R e p la c e w iper switch
B. O pen circuit in wire (No. 3
term inal on wiper m o to r) to
w iper switch
B. L o c a te a n d repair broken
wire
3. W iper has "H i" speed only
A. O p en circuit in wire (N o. 3
te rm in a l on wiper m o to r) to
w iper switch
A. L o c ate b ro ken wire
a n d rep air
4. W ip e r has "L o" speed only
A. G r o u n d e d wire (N o. 3
term inal on wiper m o to r) to
w iper switch
A. L ocate short circuit and
rep air
B. Defective wiper switch
B. R e p la c e wiper switch
A. Loose wiper g ro u n d strap
connectio n
A. T ig h te n strap
co n n e c tio n
1. W ip er Inoperative or
in te rm itte n t
2. W ip e r will not shu t off:
A. W iper has both "L o" and
"H i" speeds
B. W ip e r has "L o" speed only
C. W ip er has "H i" speed only
5. Blades do not r e tu rn to
full p a rk position
j
I
t
>
LIGHT TRUCK SERVICE MANUAL
8C-42
INSTRUMENT PANEL AND GAGES
DIAGNOSIS - WIPER OFF VEHICLE
C O N D IT IO N
1. Wiper In o p e ra tiv e or
In te rm itte n t
A PP A R E N T CAUSE
C O R R E C T IO N
A. B ro ken or d a m a g e d gear
train (only if inoperative)
A. R ep lace gears as required
B. P o o r solder c on nection s at
te rm in al b oard
B. R e so ld e r w ires at term inals
C. Loose splice jo in ts at b ru sh
plate
C. R e c r im p o r solder splice
joints
D. Brushes binding in b ru sh
ho ld e r
D. C lean h o ld e r o r replace
bru sh , sprin g o r b ru sh
plate assembly.
E. O p e n circuit in a r m a tu r e
E. R eplace a r m a t u r e
A. Defective p a rk switch
A. R ep la c e te rm in a l board
assembly
B. G r o u n d e d red lead wire
B. R e p a ir sh o rt circuit in
red wire
A. G ro u n d e d sh u n t field coil
A. R ep la c e f ra m e and field
assem bly
B. G r o u n d e d black wire
B. R e p a ir sh o rt circuit in
black wire
A. O p en circuit in sh u n t field
coil
A. R e pla c e fra m e a n d field
assem bly
B. O p en circuit in black wire
B. R e p a ir b ro k e n wire or p oo r
solder c o n n e c tio n
3. W ip e r sh u ts off - but
not in p a rk position
A. P a r k switch defective or
c o n ta c ts dirty
A. R ep lace te rm in a l bo ard
assem bly o r clean con ta c ts
4. "H i" speed too fast
A. R esisto r defective
A. R e p la c e te rm in a l board
assem bly
2. W iper will n ot shut-off:
A. W iper has n o rm a l "H i"
an d "Lo" speed
B. W ip e r has " L o " speed only
C. W ip e r has " H i" speed only
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C-43
LO SPEED - AS SHOWN
HI SPEED - DISCONNECT JUMPER WIRE FROM
TERMINAL NO. 3.
OFF - LEAVE JUMPER CONNECTED TO NOS. 1 & 3 BUT
DISCONNECT IT FROM GRD. STRAP. WIPER SHOULD
STOP WITH GEAR SHAFT FLATS AS SHOWN.
WIPER
GROUND STRAP
Fig. 8C-31--Jumper W ir e Connections
Fig. 8C -3 3-Testing Field Coils
TEST LIGHT PROBES FOR
GROUND CHECK. IF LAMP
LIGHTS, ARMATURE IS
CHECK FOR
POOR WELD
JOINTS
TEST LIGHT PROBES,
BAR TO BAR CHECK
FOR OPENS - LAMP
SHOULD LIGHT BETWEEN
ADJACENT BARS
Fig. 8C-32--Checking Armature
LIGHT TRUCK SERVICE MANUAL
8C-44
INSTRUMENT PANEL AND GAGES
DIAGNOSIS - WASHER SYSTEM
C O N D IT IO N
A PPA R E N T CAUSE
C O R R E C T IO N
1. W a sh e rs inoperative
A. In a d e q u a te q u a n tity of
w a sh er solution
A. A d d w a s h e r solution
B. H oses d am a g e d o r loose
B. C u t s h o rt le n g th off
end o f hose to insure
air tight co n n e c tio n
o r replace hose
C. Plugged screen at end
o f j a r cover hose
C. C lean screen
D. Loose electrical
con nection to w asher
p u m p or wiper switch
D. C h e c k electrical
c o n n e c tio n s a n d
re p a ir if necessary
E. O pen circuit in feed
wire to ratchet relay
coil
E. L o c a te op en circu it
a n d re p a ir
F. W ip e r switch defective
F. R e p la c e w ip e r sw itch
G . R a tc h e t relay coil
defective
G . R ep lace r a tc h e t relay
H. W a sh e r nozzles plugged
H . C lean w a s h e r nozzles
I. R a tc h e t wheel too th
missing
I. R e p la c e r a tc h e t wheel
J. R a tc h e t pawl spring
missing
J. R e p la c e r a tc h e t paw l
spring
K. D efective p u m p valve
assembly
K. R e p la c e p u m p valve
assem bly
A. G r o u n d e d wire from
ra tc h e t relay to switch
A. L o c a te g ro u n d e d wire
a n d re p a ir
B. W ip e r switch defective
B. R e p la c e w ip er sw itch
C. R a tc h e t wheel tooth
missing
C. R e p la c e ra tc h e t wheel
D. R a tc h e t wheel dog
b roken o r not c on ta c tin g
ratchet wheel teeth
D. R e p la c e o f re p a ir
ra tc h e t wheel do g
E. L oc k -o u t tan g b ro k e n o r
bent on piston a ctu a tin g
plate
E. R ep lac e p iston
a c tu a tin g p late
2. W a sh e r p u m p s co ntin ously
w hen wipers are o p e ra tin g
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C-45
ON-VEHICLE SERVICE
WIPER MOTOR
Wiper motor replacement procedures are not included
here since installation is performed by the individual body
manufacturers; however, disassembly of the unit will be
covered.
UNIT REPAIR
5. Drill out gear box cover retaining rivets, remove cover
from gear train.
Screws, nuts and lockwashers for reassembling cover to
wiper are contained in the service repair package.
6. Remove output gear and shaft assembly, then slide
intermediate gear and pinion assembly off shaft.
7. If necessary, remove terminal board and park switch
assembly as follows:
a. Unsolder motor leads from terminals. Code motor
leads.
b. Drill out rivets securing terminal board and park
switch ground strap to mounting plate. Screws, nuts
and washers for attaching a replacement terminal
board park switch assembly are included with the
replacement assembly.
WIPER MOTOR
Disassembly (Fig. 8C-34)
Gear Box
1. Remove the two washer pump mounting screws and lift
pump off washer.
2. Remove washer pump drive cam as required (figs. SC33 and 8C-34). The cam is pressed on the shaft but can
be wedged off by using two screwdrivers between cam
and plate.
3. Clamp crank arm in a vise and remove crank arm
retaining nut.
NOTICE: Failure to clamp crank arm may result in
stripping of wiper gears.
4. Remove crank arm, seal cap, retaining ring, and endplay washers.
Seal cap should be cleaned and repacked with a
waterproof grease before reassembly.
Motor
1. Follow Steps 1 through 7b under gear box disassembly.
2. Remove motor through bolts, tap motor frame lightly,
and remove motor from mounting plate.
REMOVE BRUSH SPRING FROM SLOT
A N D PLACE IT IN GROOVE
AS SH O W N
1.
2.
Nut
Crank Arm
7.
3.
4.
Seal Cap
Retaining Cap
8.
5.
Washer
6.
G e a r Box Cover
O u tp u t Gear and
11.
Brush Plate Assembly and
15.
Armature
M ounting Brackets
16.
Thrust Plug
Brushes
W ave Washers
17. Frame and Field
W ave Washer
12.
13.
18.
End Plate
G e a r Box Housing
14.
Flat Washers
19.
Tie Bolts (Two Required)
Shaft Assembly
9.
10.
Interm ediate G ear
Fig. 8C-34--Wiper M otor and G ear Box Assembly
LIGHT TRUCK SERVICE MANUAL
8C-46
INSTRUMENT PANEL AND GAGES
3. Remove brush spring tension (fig. 8C-34), slide a rm a
ture and end plate from motor frame. Pull end plate
from armature.
Thrust plug located between arm ature shaft and end
plate.
2. Place wiper in park position and install crank arm on
output shaft, rotate crank so alignment marks line up
with those on cover (fig. 8C-36).
3. Replace retaining nut, place crank arm in vise, tighten
retaining nut.
4. Remove end play adjusting washers from armature,
noting arrangement for proper reinstallation.
WINDSHIELD WASHER
Inspection
Check and inspect all parts for wear; replace as
necessary. All parts can be replaced individually except
motor frame and field, which is serviced as an assembly.
Service kits also provide screws, nuts and washers to replace
gear cover and terminal board rivets.
Assembly
Refer to Figure 8C-34 for exploded view of motor and
gear train.
The positive displacement washer pump used on the
two-speed non-depressed park wipers (fig. 8C-37) use a
pump mechanism consisting of a piston, piston spring and
valve arrangement driven by a (4) lobe cam, and follower
assembly (fig. 8C-39). The cam is attached to one shaft of
------G E A R C A S E G R O O V E S
—
CRANK
ARM
GROOVES
Motor
Reassem ble motor using reverse of disassembly
procedure.
A rm ature end play is controlled by end play washers.
See Figure 8C-35 for proper assembly of end play washers.
Lubricate arm ature shaft bushings with light machine oil.
Gear Box
1. Assemble gear box using reverse of disassembly
procedure.
Lubricate gear teeth with Delco Cam and Ball Bearing
lubricant (or equivalent). Be sure cover is properly
located over dowel pins and be sure to reinstall ground
strap.
Fig. 8C -36 --W ip er M o t o r C ra n k A rm in Park Position
PUMP M OUNTING SCREWS
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C-47
SO L EN O ID COIL
VALVE
ASSEM BLY
\
_ \
SO LEN OID
PLUNGER
RATCHET
PAWL
SPRIN G
C A M FOLLOW ER
UPPER PIN
4 LOBE C A M
(PRESS FIT
O N SHAFT)
"E” R IN G
CAM
FOLLOW ER
RATCHET
PAWL
Fig. 8C -4 0 --W ash er Pump Mech anism
terminal with no tang (fig. 8C-37). Incorrect installa
tion of connector will result in direct ground and
destroy wiper motor fuse.
Fig. 8 C -3 8 ~ W a s h e r Pump Drive C a m
the wiper motor output gear (fig. 8-49). Programming is
accomplished electrically and mechanically by a relay
assembly and ratchet wheel arrangement.
Replacement
1. Disconnect battery ground cable.
2. Remove two pump mounting bolts.
3. Remove washer pump assembly.
4 .sTo install reverse Steps 1-3 above. Install washer
m ultiplug harness connector with b attery lead on
)isassembly-Assembly (Figures 8C-40 thru 8C-43)
1. Remove washer pump cover by squeezing.
2. Solenoid assembly - ratchet dog.
a. Remove ratchet dog retaining screw. Hold spring
loaded solenoid plunger in position and carefully lift
solenoid assembly and ratchet dog off frame of
pump.
b. Separate ratchet dog from solenoid mounting plate
as required.
3. Ratchet pawl.
a - Disconnect ratchet pawl spring.
RATCHET D O G
R ETAINING
SCREW
SOLENO ID
ASSEMBLY
RATCHET
PAWL
SPRING
VA LVE ASSEMBLY
M O U N T IN G SCREW
FRAME
ft
\
RATCHET
PAW L
RATCHET
G R O O V ES
BOTH SIDES
Fig. 8C-39--Washer Pump Drive Cam and Actuator
WHEEL
J.
Fig. 8C-41--Washer Pump-Exploded View
LIGHT TRUCK SERVICE MANUAL
8C-48
INSTRUMENT PANEL AND GAGES
b. Remove ratchet pawl retaining ring and slide ratchet
pawl off cam follow ;r shaft.
4. Ratchet wheel.
a. Follow Step
disassembly.
1 under solenoid
- ratchet dog
b. Move ratchet wheel spring out of shaft groove and
slide ratchet wheel off its shaft.
5. Pump and actuator plate assembly.
a. Remove solenoid assembly - ratchet pawl and ratchet
wheel as outlined in their respective procedures.
b. To seperate pump and pump actuator plate from
frame, pull pump housing in direction of the arrow
until grooves in housing clear the frame. Then
remove actuator plate from ratchet wheel and cam
follower shafts.
6. Valve assembly.
Fig. 8C-42--Releasing Pump From Lockout Position
a. Remove four screws that attach the valve assembly
to pump housing.
During assembly, be sure gasket between housing and
valve plate is properly positioned in housing and valve
plate grooves. Also be sure triple " O " ring is properly
installed between valve body and pipe assembly.
WIRING DIAGRAMS
Body and Chassis Wiring Diagrams and circuit identi
fication charts are shown on the pages which follow.
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C-49
FROM
WASHER
JAR
N U K E STROKE
INTAKE
VA L V E
CLO SED
EXHAUST STR O K E
Fig. 8C-43--Cross Section of Windshield W a s h e r Pump Valve
W IRE S IZ E C O N V E R S IO N T A B L E
M E T R IC S IZ E
(mm)2
.22
.5
.8
1
2
3
5
8
13
19
32
AWG S IZ E
24
20
18
16
14
12
10
8
6
4
2
LIGHT TRUCK SERVICE MANUAL
8C-50
INSTRUMENT PANEL AND GAGES
E L E C T R IC A L C IR C U IT ID E N T IF IC A T IO N
Circuit
Circuit
Number
C o lo r
C ir cu it N a m e
2
Red
Feed, Batt ery - U n fu se d
3
Pink
Feed, Ign. Sw. " O n & C r a n k "
Con trolled, U nfu sed
4
Brown
Feed, Ign. Sw. " A c c s y & O n "
Circuit
C ircuit
Number
C o lo r
C ir cu it N a m e
39
Pin k - B la c k
Feed, Ign. S w . " O n and C r a n k "
40
Orange
Feed, Battery - Fused
41
Br o w n -W h ite
Feed, Ign. Sw. " A c c s y and
42
Yellow
Feed, A / C A u t o Rela y C o n t r o ll e d
C o n tr o lle d - Fused
Controll ed, Unfu se d
O n " C o n tr o ll e d - Fused
5
Y e l lo w
Neutral Safety Start Sw. or
Start Relay Feed
43
Yellow
R a d i o Feed
6
Purple
Starter S o le n o i d Feed
44
D a r k Green
I.P. and Lights Feed (U sually
7
Y ellow
Prim ary Ign ition Resistance
45
B lack
M a rke r and Clearance L a m p s
46
D a r k Blue
Rear Seat S pe ak er Feed F r o m
47
D a r k Blue
A u x il i a r y C ir c u it (Trailer)
48
Gray
Tail Lp. - H e a d la m p Sw. " O n " -
By-Pass
8
Gray
In str u m ent and Panel Lights
(Fused No. 44 Cir.)
9
Brown
L ight S w . to Fuse)
(Trailers)
Tail, License, Park and Side
M a r k e r L a m p Feed
10
Y ellow
D i m m e r Sw. Feed
11
Light Green
H e a d la m p Feed, H i-B e am
12
Tan
H e a d la m p Feed, L o -B e a m
13
Purple
F r o n t Parking L a m p s
14
Light Blue
L.H. Indicato r and Front
S in gle R a d i o or R ig h t Stereo
or Dir. S ig na l and S t o p H e a d la m p Sw. " O f f " Rear L.H.
49
D a r k Blue
or Dir. S ig na l and S t o p -
Directional La m p s
15
D a r k Blue
R.H . Indicato r and F ront
16
Purple
Direction al Signal Sw., Feed
17
White
Direction al Sig nal Sw., Feed
H e a d la m p Sw. " O f f " Rear R.H .
50
Brown
Feed, Ign. Sw. " O n " C o n tr o lle d -
51
Yellow
Blo w e r Resistor Feed - L o w
52
Orange
Feed, B l o w S w . " H i " or
Direction al La m p s
F r o m Flasher
Fused
Selector Sw. " M a x C o l d "
F r o m S t o p Sw.
18
Y e l lo w
S t o p and Directional L a m p
C o n tr o lle d
53
L ight Green
Valve Release S o le n o i d to
54
D a r k Green
C o n tr o l to Shie ld
or Direction al L a m p
O n l y - Rear L.H.
19
20
D a r k Green
Tail Lp. - H e a d la m p Sw. " O n " -
C o n tr o l B o x
S t o p and Directional L a m p or
55
Orange
K i c k D o w n S o le n o i d Feed
Directional L a m p O n l y -
56
Tan
A m p li f i e r to Tra n sdu c er
Rear R.H .
57
Orange
L.H. C o r n e r in g L a m p Feed
Black
D a r k Green
R.H . C o r n e r in g L a m p Feed
C o m p r e s s o r Feed
Lig h t Blue
S t o p L a m p (O nly)
21
Pink
S p o t Light
58
59
22
White
Direct G r o u n d - Trailer
60
Or a n g e -B la c k
Feed, Battery, C ir c u it Breaker
24
Light Green
B a c k U p L a m p Feed
25
Brown
Feed, V o lta g e R egula to r
61
Y e l lo w
G r o u n d , Resistive, A u t o A / C
26
D a r k Blue
Field Cir cu it (F ) (G e n /R eg.)
62
Light Green
G r o u n d , Resistive, A u t o A / C
27
Brown
T ra f f ic Hazard Sw., Feed F r o m
63
Tan
Feed, B lo w e r Sw. " M e d i u m 1 "
64
Brown
B lo w e r Sw. Feed F r o m A / C
65
Purple
Blo w e r M o t o r Feed
66
L ight Green
Feed, A / C S ele ctor Sw. C o n tr o lle d
67
L ight Blue
Feed, A / C F reon Press, C u t - O u t
68
Y e l lo w - B la c k
G r o u n d , Resistive, L o w C o o la n t
69
Gray
G r o u n d L o w C o o la n t M o d u l e
70
Pin k
Feed, R e la y C on trolled , Ign.
Protected
C on trolled
Hazard Flasher
28
B lac k
G r o u n d , H o r n Sw. C o n troll ed
29
D a r k Green
H o r n Feed
30
Pi nk
Fuel G a u g e to T a n k Unit
31
T an
Oil Pressure, Engine
32
Y e l lo w
M a p L igh t Feed
33
T an -W h ite
W a r n in g L igh t - Brake
34
Purple
F o g or Drive L a m p
35
D a rk Green
G r o u n d , Eng. C o o la n t Temp.
Sw. or E C M C o n troll ed (H ot)
36
Light Green
L ight Green
D a rk Blue
LIGHT TRUCK SERVICE MANUAL
C o n tr o lle d
Sele ctor Sw.
(C o m p . Ct.)
Sw. C o n t r o ll e d
Probe C o n tr o lle d
G r o u n d , Eng. Metal T em p.
Sw. C o n tr o lle d (H ot)
38
Feed B a c k Pot C o n tr o lle d
G r o u n d , Eng. Tem p . Sw.
C o n tr o lle d (Cold)
37
A m b . S e n so r C o n tr o lle d
Flasher Fused Feed
C o n tr o lle d
Sw. C o n tr o ll e d
INSTRUMENT PANEL AND GAGES
8C -S1
E L E C T R IC A L C IR C U IT ID E N T IF IC A T IO N (Cont'd)
C ir cu it
Cir cu it
C o lo r
Number
- '
B la c k
71
C ir c u it N a m e
G r o u n d , A / C Selector Sw. " D e f "
Circuit
C ir cu it
Number
C o lo r
131
B la c k -P in k
G en e ra to r (A lt ern ator) Ext.
132
W hite
G r o u n d , Fuel E c o n o m y Sw.
133
Y ellow
G r o u n d , Fuel E c o n o m y Sw.
135
D a r k Green
Resist. 1 O h m / F o o t
C o n tr o lle d
72
L ight Blue
Feed, Blo w e r Sw. " M e d i u m 2 "
73
Purple-White
Feed, B lo w e r Sw. " M e d i u m 3 "
74
L ight Green
Feed to T h ro tt le S w it c h
75
D a r k Blue
Feed, Ign. Sw. " O n and C r a n k "
Con troll ed, A m b e r Telltale
C o n tr o lle d
Con troll ed, Grn. Telltale
C o n tr o lle d
W hite
G r o u n d , Resistive, Tem p . G a uge
139
P in k - B la c k
Feed, Ign. Sw. " O n and C r a n k "
S e n so r C o n tr o lle d
C o n tr o lle d - Fused
Feed, Ign. Sw. C o n tr o lle d
C ir cu it N a m e
76
P in k
78
L ight Blue
Electric C h o k e Feed
80
L ight Green
G r o u n d K e y W ar n in g Buzzer
140
Orange
Feed, Batt ery - Fused
81
Nat. White
Electric R e m o t e Mirror, R ig h t
141
B r o w n -W h ite
Feed, Ign. Sw., " A c c s y and O n "
82
L ig h t Blue
Electric R e m o t e Mirror , Left
83
D a r k Green
Feed, Cruise E ngage Sw.
142
B lac k
R r C o m p a r t m e n t Lid L o c k
84
D a r k Blue
Feed, Cruise E ngage Sw.
143
P in k
Feed R a d i o Sw. " O n " C o n tr o lle d
" E n g a g e " C o n tr o lle d
144
Y ellow
Feed to Pw r A n t Sw.
85
W hite
G r o u n d , Cruise In dicator
145
D a r k Green
Feed, Pw r A n t Up, R ela y C o n
146
D a r k Green
G r o u n d , T r u n k Release Tell-Tale
C o n tr o lle d - Fused
C o n tr o lle d
Release
" R e t a r d " C o n tr o lle d
trolled
R e gu la to r C o n tr o lle d
86
Brown
Feed, Cruise Brake Release Sw.
150
B lac k
G r o u n d C ir c u it - Direct
88
Y e l lo w
Electric R e m o t e Mirror, U p
151
B lac k
G r o u n d C ir c u it - Direct
89
L ight Green
Electric R e m o t e Mirror, D o w n
152
B lac k
G r o u n d C ir c u it - Direct
90
Pink
Feed, C u t o u t Sw. Controll ed,
153
B lack
G r o u n d C ir c u it - Direct
154
B lac k
G r o u n d C ir c u it - Direct
155
B lack
G r o u n d C ir c u it - Direct
156
W hite
G r o u n d C ir c u it - Sw. C o n tr o lle d
C o n tr o lle d
Cir. Brkr. Protected
Gray
W in dsh ie ld W ip er - L o w
92
Purple
W in d s h ie ld W ip er - Hi
93
W hite
W in d s h ie ld W ip er M o t o r Feed
B o d y Interior L a m p s - such
94
95
Pin k
D a r k Green
W in dsh ie ld W as her Sw. to Washer
G r o u n d , Pulse W ip er Sw.
as D o m e , Courtesy, M a p ,
91
C o n tr o lle d
96
Brown
W arning, etc.
157
Gray
Feed, Pulse W ip e r R heosta t Sw.
B o d y Interior L a m p s - such as
C o n tr o lle d
Black-W hite
W in d s h ie ld W asher L o w Fluid
101
D a r k Blue
R esistor O u t p u t to Blo w e r R ela y
102
W hite
S L A lte r n a to r - Regu la to r
99
G r o u n d C ir c u it - Sw. C o n tr o lle d D o m e , Cou rtesy, M a p, W ar n in g
etc.
158
B lac k -O ra ng e G r o u n d C ir c u it - Sw. C o n tr o ll e d B o d y Interior L a m p s - such as
Sen sin g Cir cu it
D o m e , Cou rtesy, M a p, W ar n in g
105
B lack
A m m e t e r - G enerato r
106
Gray
A m m e t e r - Batt ery
159
T an
107
D a rk Blue
Over Spe ed W a r n in g Light
160
W hite
Po wer A n t e n n a D o w n
111
Black
G r o u n d , A n t i - S k i L o w A ir Sw.
161
B lac k
Pow er A n t e n n a U p
162
Gray
Pow er T o p - U p
112
D a r k Green
Telltale T em p era tu re G a u g e (H o t )
163
Purple
Pow er T o p - D o w n
115
L ig h t Blue
Spe ak er Return, R T rr Stereo
164
D a r k Blue
W i n d o w C o n tr o l L F U p
116
Y ellow
S peaker Return, L F rr Stereo
165
Brown
W i n d o w C on trol L F D o w n
117
D a r k Green
S peaker Return, R T Frt. Stereo
166
D a r k Blue-
118
Gray
S peaker Return, L F Frt. Stereo
119
W hite
Gen e ra to r (A lt ernator) to
120
Purple
Electric Fuel P u m p Feed
121
White
125
126
130
C o n tr o lle d
etc.
G r o u n d , K e y W a rn ing Buzzer
W hite
W in d o w Control R F Up
Tan
W i n d o w C o n tr o l R F D o w n
168
D a r k Green
W i n d o w C on trol L R U p
169
Purple
W i n d o w C o n tr o l L R D o w n
T a c h o m e te r to C oil
170
L ight Green
W i n d o w C o n tr o l R R U p
Y ellow
D o o r J a m b S w it c h
171
Purple-White
W i n d o w C o n tr o l R R D o w n
Blac k
Seat B a c k L o c k Feed
172
Light Green
V e n t C o n tr o l L F Close
Br ow n -W h ite
G enerato r (A lt ern ator) Ext.
173
Y ellow
V e n t C o n tr o l L F O p e n
Resist. 2 O h m s / F o o t
174
D a r k Green
V e n t C o n tr o l R F C lo se
R egu la to r
167
LIGHT TRUCK SERVICE MANUAL
8C-52
INSTRUMENT PANEL AND GAGES
E L E C T R IC A L C IR C U IT ID E N T IF IC A T IO N (Cont'd)
Circuit
Circuit
Number
C o lo r
Circuit N a m e
Circuit
C ir cu it
Number
C o lo r
C ir c u it N a m e
175
Purple
V e n t C o n tr o l R F Open
213
D a r k Blue
176
D a rk Green
Po wer Seat Fore
214
Gray
R H Seat Sen so r
177
Y e l lo w
Po wer Seat A f t or Recline
21 5
T a n -B la c k
L H Sw.
178
D a r k Green
Po wer Seat - 6 -W ay Fore and
216
179
Tan
Po wer Seat - 6-W a y S o le n o id Rear - U p and D o w n
180
Light Green
D a r k BlueWhite
A ft
Center B u c k le Sw. (Feed)
217
G ray -W hite
R H Sw.
218
D a rk Green
Inte rlock R e la y - G r o u n d
219
L ight Green-
Starter In te rloc k C on troll ed
22 0
Y e l lo w
Starter In te rloc k B u z and Lp
221
Brown
Passenger Initiator Feed,
22 2
D a r k Blue
Passenger In itiator Return, L o w
223
Ligh t Blue
Sen sor Detector Hi Return, L o w
224
Light Green
S enso r D etec tor L o Feed, L o
225
D a r k Green
W a rn ing L a m p G r o u n d I R
W a rn ing L a m p Sen sor
Po w er Seat - 6 -W a y S o le n o id F ront - U p and D o w n
Center Seat S en sor
(Pro vided b y Electronics)
181
L igh t Blue
Power - S o le n o id - Fore and A f t
182
Yellow
Po w er Seat - 6 -W ay - A f t and
183
L ight Blue
Tailgate or Center Partition
184
T an-W hite
Tailgate or Center Partition
185
Tan
V e n t C o n tr o l L R Op en
186
Gray
V e n t C o n tr o l L R Close
187
D a r k Blue
V e n t C o n tr o l R R O p en
188
Ligh t Blue
V e n t C on trol R R Close
189
D a r k Green
Po wer Seat - 4 -W a y - Fore and
226
Orange
190
Y e l lo w
Po wer Seat - 4 -W a y - A f t and U p
227
T an
R ecorder to S enso r Pow e r Feed
191
L ight Green
Po wer Seat - 4 -W a y S o le n o id -
228
Y e l lo w
W a r n in g L a m p Feed
229
Pink
Sen sor Detector Hi Feed, L o
192
Purple
D efogger - Hi or Singl e Speed
193
Purple-White
D efogger - L o w Speed - 0.38
230
Pink
R ecorder Po w er Feed
231
Orange
Driver Initiator Feed, I R
194
B lack
Electric D o o r L o c k - U n lo c k
232
White
Driver Initiator Return, I R
195
Ligh t Blue
Electric D o o r L o c k - L o c k
233
D a r k Green
Hi Level A c t u a t i o n Passenger
198
Ligh t Green
Bl ack
G r o u n d , Resistive, A / C In-Car
234
Yellow
I R Feed, Ign. Sw. Con trolled,
199
Brown
Rear Seat Speaker - Feed f r o m
235
Y e l lo w
S en sor D etec tor Hi Feed - Hi
200
Light Green
F r o n t Spe ak er - Feed F r o m R a d i o
236
Gray
S en sor D etec tor Hi R etu rn - Hi
201
T an
F r o n t S peaker - Feed f r o m R a d i o -
23 7
Y ellow
Feed, Belt W arn T im e r C o n
202
Bl ack
G r o u n d , C o m p r e ss o r over Heat
238
B lack
Seat Belt W arn S y s t e m - B u z z e r
203
Ligh t Blue
Rear A / C Potentiomet er Feed
23 9
P in k - B la c k
Feed, Ign. Sw. " O n & C r a n k "
24 0
Orange
Feed, Battery - Fused
241
Purple
S en sor Detector L o Feed, Hi
24 2
T an
Feed, T h ro tt le C o n tr o l S p a r k
24 3
Black-W hite
Feed, Dr ive Sele ctor Sw. C o n
244
Purple
Feed, L T F / D S o le n o i d R ela y
245
D a r k Blue
Feed, R T F / D S o le n o i d R ela y
246
D a r k Green
Feed, A D L L o c k R e la y C oil
247
Brown
Feed, to A / C S h u t - O f f R e la y
B lack
Down
Feed
W in d o w Up
L o w Level, I R
W in d o w Dow n
Down
U p and D o w n
O h m s per f o o t
Level, I R
Level, IR
Feed, L o w Level, IR
Level I R
(Inactive)
S enso r C on troll ed
U n fu se d
R a d i o Left Stereo
Level IR
Sin gle or R ig h t Stereo
Level I R
Left Stereo
trolled ( T i m e d 3 9 Ct.)
Sw. C o n troll ed
204
D a rk Blue
T herm a l Lim iter Feed
205
W h it e-Bla c k
Seat Belt Seat Sen sor t o Belt
206
D a r k Blue
Neutral S ta rt Sw. to Buzzer
R etr acto r (Grd)
and L a m p
207
Y e l lo w
208
Gray
Sw. C o n tr o lle d G r o u n d ( T C S )
209
Purple
Park Bra ke W a r n i n g L a m p
210
W hite
Power Seat - 6 -W a y - Fore and
Down - " a " Body
D a r k Blue
Y ello w B lac k Stripe
LIGHT TRUCK SERVICE MANUAL
C o n tr o lle d - Fused
Level, I R
Va lv e C o n tr o lle d
trolled
C o n tr o lle d
Po w er Seat - 6-W a y - A f t and
Up - " A " Body
212
G r o u n d to Belt A s s y Sw.
Seat Sen sor to Neutral Sta rt
Sw. ( L a m p and Buzzer G rd)
211
Starter Feed
L H Seat S enso r
C o n tr o lle d
INSTRUMENT PANEL AND GAGES
8C-53
E L E C T R IC A L C IR C U IT ID E N T IF IC A T IO N (Cont'd)
C ircuit
Circuit
Number
C o lo r
24 8
D a r k Blue
C ir cu it N a m e
Feed, to A / C C o m p r e ss o r Harn
Circuit
Circuit
Number
C o lo r
283
L ight Blue
Po wer Seat, Rear V e r t D o w n -
284
Light Green
Po wer Seat, A f t M o t o r
Motor
R e la y C o n tr o lle d
249
D a r k Green
Feed, F r o m A / C Harn
250
Brown
Feed, Ign. Sw. on Con trolled,
F used
251
Ora ng e
Passenger Initiator f e e d
252
Y e l lo w
G r o u n d , A D L M o d u l e U n lo c k
253
D a rk B r o w n
Ground, A D L M o dule Lock
254
Ligh t Green
G r o u n d , A D L L T U n l o c k Rela y
285
T an
Pow er Seat, Fore M o t o r
286
D a r k Green
Po wer Seat, F r o n t V e r t U p -
287
D a r k Blue
Po wer Seat, F r o n t V ert D o w n -
288
Y e l lo w - B la c k Po wer Seat, Rear V e r t U p Rela y
Motor
O u t p u t C o n tr o lle d
O u t p u t C o n tr o lle d
M otor
28 9
Ligh t BlueB lack
Coil
255
Y ellow
G r o u n d , A D L R T U n l o c k Rela y
256
D a rk Blue
G r o u n d , M o d u l e Controll ed,
257
Brown
G r o u n d , A / C Press, Sw. C o n
258
W hite
Passenger Initiator R etu rn Hi
259
Purple
I R C r a n k Sta rt Sig nal -
260
B lack
T h e ft Deterrent - H o o d Sw.
261
Y ellow
T heft Deterrent - A la r m A r m
T heft Deterrent - K e y - D o o r
L ight GreenB lac k
Po wer Seat, A f t R ela y
291
D a r k Blue
G r o u n d , Heated Gla ss Timer,
292
Ligh t Blue
Feed, Heate d Gla ss Timer,
293
Pu rple-White
Feed, Heated G la ss T im e r
294
T an
D o o r L o c k M o t o r - U n lo c k
295
Gray
D o o r Lo ck M o to r - Lock
296
Brown
Pow er Seat, Fore Relay
297
Gray
Pow er Seat, F r o n t Vert U p R ela y
298
Purple
Pow er Seat, F r o n t Vert D o w n
300
O rang e
Feed, Ign. Sw., " O n " C o n tr o lle d -
31 8
Y e l lo w - B la c k
R e la y A ctiva te d Left Directional
L a m p O u t In dicator
O n - O f f Sw. C on trolled
O n - O f f Sw. C on trolled
trolled
C o n tr o lle d
Level, I R
26 2
L ig h t Green
R ela y
U n l o c k and A l a r m Disa rm
263
L ight Blue
T heft Deterrent - A la r m
264
D a r k Green
T h e ft Deterrent - A r m Indication
265
Black-W hite
T h e ft Deterrent - A la r m O u t p u t
266
Pink
T h e f t Deterrent - A la r m A r m
Abort
267
D a rk Green
Pw r Seat - Fore and U p Recliner
268
Y e l lo w
Pw r Seat - A f t and D o w n
269
L ight Green
Pw r Seat - Sol U p and D o w n
270
B l a c k -Y e l lo w
Feed, A m p li f i e r to Poten tio m eter
271
Purple
272
L ight Green
U n fu se d
Stripe
31 9
D a rk GreenWhite
Feed, Ign. Sw. O n and C ra n k
340
Orang e
Feed, Batt ery - Fused
35 0
Pink-White
Feed, Ign. Sw. " O n " C o n tr o lle d -
G r o u n d , Poten tio m eter C o n tr o lle d
351
D a rk Blue
Feed, Inverter to Op era L a m p
Feed, Pot en iom e te r Rh eostat
352
White
Pink
O p era L a m p to Inverter R etu rn
370
383
L ight Blue
C on ve rt C lu tc h Release Sw. to Va c.
38 4
L ight Green
Va c. Sw. to T ra n sm iss io n Sw. Sol
C o n tr o lle d
274
D a r k Green-
C o n tr o ll e d Fused
Feed, H d l p Sw . to A m p li fie r,
Fused
H d lp Sw. C o n tr o lle d
275
W hite
Feed, H d lp Sw. to A m p li fi e r
38 5
Purple
Hi V a c Sw. to T ra n sm iss io n Sw. Sol
L ight Green
Feed, N e u t S a f Sta rt Sw.
39 0
T an
Feed to Side M a rke r and License
39 4
L ight Green
G r o u n d , L T F / D R e m o te H an dle
276
L ight Green
Reel. Mtr. Feed, Po w er St. Fwd.
277
Light Blue
Reel. Mtr. Feed, Pow er St.
Recliner
27 8
W hite
A m p li f i e r to Phot oc ell
27 9
B lack
H e a d la m p Sw. to Photocell
28 0
Pink
Feed, P.M. M o t o r U p C yc le
( D e c k Lid Pull D o w n )
White
Y e l lo w
Lam p - Export Only
B lack
Po wer Seat, Rear V ert U p -
S w . C o n tr o lle d
395
L ight Blue
G r o u n d , R T F / D R e m o te H andle
402
L ight Green
Feed, Ele ctro nic Cruise C o n tr o l
403
D a rk Blue
Feed, E le ctronic Cruise S h u t - O f f
404
L ight Green
E S T P i c k u p Coil to H E I M o du le,
Sw. C o n tr o lle d
V a lv e
G r o u n d , R e la y C oil D o w n C y c le
( D e c k Lid Pull D o w n )
28 2
Feed, A v I
Sw.
" P a r k " C o n tr o lle d
281
Lamp
P in k - B la c k
Recliner
Orang e
Lamp
R ela y A ctiva te d R ig h t D irectional
33 9
Recliner
273
Pow er Seat, Rear V e r t D o w n
R ela y
290
Coil
Fused 6 Cir.
C ir cu it N a m e
Valv e
Hig h
Motor
LIGHT TRUCK SERVICE MANUAL
8C-54
INSTRUMENT PANEL AND GAGES
E LE C T R IC A L C IR C U IT ID E N T IF IC A T IO N (Cont'd)
Circuit
Circuit
Number
C o lo r
405
White
Circuit N a m e
E S T P ic k u p Coil to H E I M o dule ,
Circuit
Circuit
Number
C o lo r
465
W hite-Green
E S C M o d u le to H E I M o dule ,
Signal Lead
407
Bl ack
E m e r ge n cy Signal Lead, E C M to
408
T an -W hite
E C M to E S C By p ass
H E I M o d u le
Feed, Electric Fuel
White
Low
406
Da rk Green-
C ir c u it N a m e
46 6
Gray
I M C to T r i p C om p u ter, R P M Data
46 7
Ligh t Blue
L o w Sid e o f Injector "
a
" IM C
b
" IM C
C o n tr o lle d
468
L ight Green
L o w Sid e o f Injector "
C o n tr o lle d
410
Yellow
E C M to C o o la n t T e m p S enso r
469
B lack-O range M a p Return, L o w Level G r o u n d
411
Light Blue
E C M to Fuel Me te ring Sol
470
B lack
C o o la n t T e m p and M a n if o l d
412
Purple
O 2 Sen sor Sig
413
Tan
O 2 Sen sor L o w
471
P in k - B la c k
Ba ro Reference Voltage, 5 V
T e m p Return, L o w Level G r d
414
Pink
O 2 Sen sor Heater High
472
T an
M a n if o l d A i r T e m p S ig
415
Ligh t Green
E C M to E n r ic h m e n t Sw.
473
B l a c k -L ig h t
Baro Return, L o w Level G r o u n d
416
Gray
E C M 5 V Reference V o lta ge
417
D a rk Blue
E C M to Thro ttle Position Se nso r
Blue
474
Gray
T hro tt le Posit ion Sensor
E xcit ation , 5 V
Signal
Brown
E C M to A d a p tiv e Sw.
475
Pink-White
M a p Reference Voltage, 5 V
419
Brow n -W h ite
E C M to C h e c k E n g Lp
476
Blac k -P in k
T hro tt le P osit ion Senso r
420
Purple
E C M to Break Sw.
421
D a rk Blue-
E C M to C o ld Start Program
477
Brown
M P G R e q ue st Signal
478
Purple
Fuel E c o n o m y Indicato r (Grn),
479
L ight Green-
Fuel E c o n o m y In dicator (A m b er),
480
O rang e
Feed, I M C Batt ery Controll ed,
481
Red
Feed, for Injector " a " Fused
418
White
M o d ifie r
422
T an-W hite
E C M to T C C S o le n o id
42 3
White
E S T Signal
42 4
T a n -B la c k
E S T By p ass
42 5
Light Blue
E C M to I S C - M o t o r E x te n d
42 6
D a r k Blue
E C M to I S C - M o t o r Retract
42 7
Pink
E C M to I S C -Sw .
Return, L o w Level G rd
I M C C o n tr o lle d
B lac k
I M C C o n tr o ll e d
Fused
482
W hite
Feed, for Injector "
Yellow
E C M to Canister Purge
483
Green
E S C Reference Pulse High
429
Blac k -Pin k
E C M to A ir C o n tr o l S o le n o id
484
W hite
E S C Reference Pulse L o w
43 0
Purple-White
E C M Ref Pulse High
485
B lack
E S C Signal
E S C D ist rib u t o r G r d
42 8
431
D a rk Green-
L ight GreenBlack
b
" Fused
486
Brown
8 V R ef V o lta ge
49 6
D a r k Blue
E S C D e n o t a t i o n Sensor Input
E C M to M a p S ig
500
501
Black-W hite
Purple
M o d u le - P T C , G r o u n d Plane
Sensor, S e c o n d a r y P T C
Sensor, P r im a ry P T C
432
D a r k BlueGray
43 3
G r a y - B la c k
E C M to Baro S ig
502
Gray
43 4
O r a n g e -B la ck
E C M to Neutral Park S w
503
Orange
43 6
Brown
E C M to A i r S w itch S o le n o id
504
G l o w Plug, Feed or S enso r
Br o w n -W h ite Feed, V o lta g e R e gu la to r C on trol
43 7
Brown
E C M to Ve hicle Speed Sensor
438
Red-White
E C M to H ig h G ear S w itch
50 5
Y e l lo w
439
P in k - B la c k
Feed Ign. Sw. " O n & C r a n k "
(D i o d e Isolated)
Feed, G l o w Plu g R ela y
50 6
Light Blue
Return, G l o w Plug R e la y
C o n tr o lle d - Fused
507
D a r k Blue
W ait L a m p
508
Y e l lo w
S w it c h e d G r d for "W ater-in-
50 9
T a n k " In dica to r
O r a ng e-B la ck G l o w Plug, Feed or Sense,
610
Tan
Pow er Seat - 6 -W a y - Fore and
Light Blue
Po w er Seat - 6 -W a y - A f t and Up,
440
Orange
Feed, Ba ttery - Fused
450
Black-W hite
C L C C E C M Power G rd
451
W h it e-Bla c k
D ia g n o s tic Enable
45 2
B lack
L o w Level G r o u n d
45 3
B la c k -R e d
E S T R ef Pulse L o w
Passenger Sid e
D o w n R e la y to M o t o r
45 4
Bl ack-W hite
Critical G r o u n d Circuit
460
Black -Ora nge
Feed, Ba ttery Cir cu it Breaker
611
461
Orang e
Protected
I M C to E C C , Serial Data for M P G or
618
46 2
Pin k -B la c k
G r o u n d , I M C , Set T i m i n g
666
R e la y to M o t o r
Y e l lo w -B la c k Feed, Lt Sid e Trailer and Direction
Green-White Feed, R t Sid e Trailer and Direction
D a r k Blue
W d o C o n t r o l R f U p - Passenger Sw.
463
Black-O range
I M C to T rip C o m p u t e r Signal, Fuel
667
Brown
W d o C o n tr o l R f D o w n - Passenger Sw,
F l o w Da ta (Injector on T im e)
66 8
D a r k Blue
W d o C o n t r o l Lr U p - Lr Sw.
Di agnostics
464
T a n -B la c k
LIGHT TRUCK SERVICE MANUAL
M P G Reset Signal
619
INSTRUMENT PANEL AND GAGES
8C-55
E L E C T R IC A L C IR C U IT ID E N T IF IC A T IO N (Cont'd)
C ir cu it
Cir cu it
Number
C ir c u it N a m e
C o lo r
669
Brown
W d o C o n tr o l Lr D o w n - Lr Sw.
670
D a r k Blue
W d o C o n tr o l R R U p - R R Sw.
671
Brown
W d o C o n tr o l R R D o w n - R R Sw.
756
D a r k Green-
Feed, V a c S o l C o n tr o lle d (F or
W hite
Circuit
Circuit
Number
C o lo r
815
B lack
Trigger O u t p u t Controll ed,
Fused
817
T an
Accelerator E n r ic h m e n t In pu t #1
81 8
Ligh t Green
A cc elera tor E n r ic h m e n t Sw.
819
Black-W hite
Clo ss ed T h ro tt le Sw.
C on troll ed, Fusible L i n k
820
Orang e
W id e O p e n T h ro ttle S w itch
Protected
821
D a r k Green
G r o u n d , E F I M o d u le C o o la n t
Ele ctro nic Distrib utor)
801
80 4
Purple
Feed, E F I , Ign. Sw. " C r a n k "
S u p p l y V o lta ge
Fusible L i n k Protected
80 7
Purple
Feed, E F I Batt ery Con troll ed, Fused
80 8
D a r k Blue
Feed, E F I M o d u le Fast Idle Valv e
O u t p u t and 3 C ir c u it C o n
T e m p . Sen sor O u t p u t C o n
trolled
822
D a r k Blue
G r o u n d Resistive, C o o la n t
82 3
Gray
G r o u n d , E F I M o d u l e A ir T em p .
82 4
O range
G r o u n d , Resistive A i r Temp.
827
D a rk Green
Feed, E F I M o d u l e Elec Fuel
T em p . Sen so r C o n troll ed
trolled - Fused
810
Tan
Feed, D istrib u to r Electronics
811
White
Feed, E F I M o d u l e G r o u p T w o
S en so r O u t p u t C o n troll ed
C o n tr o lle d
S en so r C o n tr o lle d
Injector O u t p u t C o n troll ed
Fusible L i n k Protected
P u m p O u t p u t C on trolled -
Feed, E F I M o d u l e G r o u p On e
Fused
Injector O u t p u t C on trolled
Fusib le L i n k Protected
813
W hite
828
Gray
Feed, E F I , Ign. Sw. " O n &
831
Brown
Feed, E F I M o d u l e E G R
C r a n k " C o n tr o lle d Fused
Feed, E F I D ist rib u t o r Trigger
and 8 1 5 C ir c u it C ontr oll ed,
S o le n o i d O u t p u t Con troll ed,
Fused
814
Y ellow
A cc elera tor E n r ic h m e n t In p u t # 2
Pink
Feed, E F I Batt ery Controll ed,
Pink
Feed, E F I M o d u l e D istrib utor
816
Brown
812
C ir cu it N a m e
Fused
Feed, E F I D ist rib u t o r Trigger
and 8 1 5 C ir c u it C ontr oll ed,
Fused
THE CIRCUITS LISTED BELOW HAVE REVISED COLORS:
CIRCUIT
ORIGINAL COLOR
REVISED COLOR
422
TAN-WHITE
TAN-BLACK
432
DARK BLUE
-GRAY
LIGHT GREEN
438
RED-WHITE
DARK GREEN-WHITE
508
YELLOW
YELLOW-BLACK
LIGHT TRUCK SERVICE MANUAL
8C-56
INSTRUMENT PANEL AND GAGES
Fig. 8C-44--CK Series W iring 1 of 31
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
------
8C-57
--------
I DK GRN - 29A
-------------- 8 BRN 9A---------------5 DK BUU I5A
---------- I LT GRN-I1A-----------------5 LT BLU-I4A------------
Fig. 8C-45--CK Series W iring 2 of 31
LIGHT TRUCK SERVICE MANUAL
8C-58
INSTRUMENT PANEL AND GAGES
Fig. 8C-46--CK Series W iring 3 of 31
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C-59
pimk-3CkH x O
-
Fig. 8C-47--CK Series W iring 4 of 31
LIGHT TRUCK SERVICE MANUAL
8C-60
INSTRUMENT PANEL AND GAGES
8 YE L-237-----SEAT BELT B2R-237
SDK BLU- 15B----- BULK HD CONN-15
5 LT BLU -14B---- BULK HD CONN-14
6 BLK-T50G----- SPLICE 150
5 PNK/BLK-39G - - - SPLICE 39
5 TAN-31 — -BULK HD CONN-31
0 PNK/BLK-39E- — SPLICE 39
BLK- 150H----- SPLICE 150
5 PNK-30B-------------------------------------- 5 PNK-30A----- BULK HD CONN-30
5 TAN/WHT -33A-----BULK HD CONN-33
5 TAN/WHT-33C — PARK BK WARN SW
.5 PNK/BLK-39F----- SPLICE 39
-----------------------.8 DK BLU-931 — BULK HD CONN-931
GUAGE. CLUSTER
WITH IACHOMFTER
2965164
- .8 B L K -1 5 0 ----- "
- . 8 WHT-12KHDT)-
Tr—.5
ACHORN-140— O
g|
A B q CLOCK
___ _
I
2 9 65961-^
r .8 PNK/BLK-139—
^
----------------------------------------j— .5 BLK-150 —- 1
-5 TAN WHT-33B
- 5 DK GRN - 35A
LT G RN-24 —
- g DK BLU-75
- 8 P N K -94-----------.8 BLK-150E---------.8 PPL-9 2 ------------ 8 GRY-91-------------.8 BLK/LT BLU-97-.8 LT GRN-2 4 -------
Fig. 8C-48--CK Series W iring 5 of 31
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C-61
-2984369 TERM
Fig. 8C-49--CK Series W iring 6 of 31
LIGHT TRUCK SERVICE MANUAL
8C-62
INSTRUMENT PANEL AND GAGES
Fig. 8C-50--CK Series W iring 7 of 31
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C-63
628 8585
-8
-8
BR N -9
LT GRN-24
- 6 DK GRN-19
- 6 YEL-18
BULKHEAD CONN
B/U LP
y -0 9 1 7 2 3 4
TAIL STOP 4. DIR LAMP
CAB.CREW-CAB CHASSIS
Fig. 8 C -5 T -C K Series W iring 8 of 31
LIGHT TRUCK SERVICE MANUAL
8C-64
INSTRUMENT PANEL AND GAGES
-£
SPLICE 150
BLK-I50DSHEET METAL GRO
6294015 SOCKET-
BRN -96
TAIL STOP DIR
SIDE M K R t
tytl LAMP
-8 BLK-I50C
BRN- A —
9
SPLCE 9-
-.8 YEL-18 -.8 8LK-I50A
-.8 LT G RN -24
-.8 BLK-I50B 8 9 1 1 0 2 7 SOCKET-
/''BLU OR A
- J PPL OR V LT GRN
r - 2977720
SPLICE-19-i
-SPLICE-9
FRAME
GRD
- 8 DK GRN-l9iA->
- 8 BRN-9A
"8 YEL-18
r -.8 PNK-30(HDT)
EXT WIRE
WHEN USED
\
-.8 BRN-9C---- ( x )
( l }-|
.8 BU
L
S )
-SPLICED
LIC LAMP
FUEL METER
TANK UNIT
------------------------- £ q ) 6C^6PM <-30(H XUa a n » n ----------- A —
M U in
8911027 SOCKET
- 8 B L K - I5 0 B - 8 LT GRN- 24
TAIL STOP DIR
S ID E MKR&
LAMP
— .8 BLK-I50A
*-^8
t8 YEL-18
YEL-8 BRN-9A -
SPLICE 9-
— :8 B L K -I5 0C
8 B R N -9 B —
6294015 SOCKET
JL
SPLICE 150-
.8 BLK-I50D
SHEET METAL GRD
SUBURBAN
Fig. 8C-52--CK Series W iring 9 of 31
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
R EF BODY H AR N ESSRPO M V4
LT G R N 3 8 4 B —
-1
top89l7583
m<
00
Z2
cc
o cr
o
00
rO rO
RPO
CE N G IN E )
M V4
TRA N SM ISSIO N
Fig. 8C-53--CK Series W iring 10 of 31
RPO MV4 TRANSM ISSION
FOR RPO N A 5 /L G 9 /L S9
8C-65
8C -66
INSTRUMENT PANEL AND GAGES
j—
8900444
2989557 GROMMET
06 ONLY
CHANNEL-A FOR 06 S 16
RIGHT RR SPKR
8900444-
CHANNEL-B
FOR 03
RIGHT RR SPKR
1 2 0 0 4 5 4 5 —7
.8DK B L U - 4 6 ---------- 1/
;8 L T B L L H '
'
8 Y E L - 1 16
8 B R IM -1 9 9
s;
-.8TAN-2 01
.8 GRA-118 — rTO
.80KGRN-I 17-HT
-8L.T GRN-200— /
12004544
e
-1 2 0 0 4 5 4 5
-.8 DK BLU -4 6 J
- 8 L T BLU -115-
M
F (jr
-.8YEL-43- ___
-.8BLK-I50 —
-.8GRA-8------------
8900444-
-.8 BRN-199 —
.8 YE L-H 6 ■
CHANNEL-A
FOR 03
LEFT RR SPKR
')
U80
R E A R SPEAKER
LEFT SIDE (16)
---.5 YEL-43-H43lKh
U --fi
B L K -1 5 0 - J V
12004543 -----4
- B G R A H ie - .8 T A N -201F R O N T SP K R .
("r a d i o e q u i p m e n t RPO.
U 63-U693U80
Fig. 8C-54--CK Series W iring 11 of 31
i IP 'jrr , S F R W .S MANUAL
INSTRUMENT PANEL AND GAGES
8C-67
Fig. 8C-55--CK Series W iring 12 of 31
LIGHT TRUCK SERVICE MANUAL
8C-68
INSTRUMENT PANEL AND GAGES
MARKER LAMP-FRONT LEFT
Fig. 8C-56--CK Series W iring 13 of 31
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C-69
-.8 Y E L - 5 0 8 ( H W ) - . 8 P N K - 3 0 IH W )
FUEL TANKS RPO NL2
WITH RPO LF9
8917102
(ATTACHES TO FUSE BLOC
---------- .8 PNK/BLK-39C
INST CLUSTER CONN-237----------- .8 Y E L -2 3 7 -------------------(SEAT BELT WARNING LAMP)
®
SPLICE 150---------------— • ---------------- .8
(GROUNO;
B L K -I5 0 J --------
EXTENDED
--------- ----------□
RETRACTED
E 5 8 ] ------------- .8 BL K -2 3 8------X ' V _ 29 8 4 I6 3
SEAT BELT
RETRACTOR SW
6294051
E X IS T IN G IN ST R U M E N T
PANEL W IRIN G H A RNESS
.8 GRA - 8.8 O R N - 4 0
SEAT BELT AND LIGHT
MINDER AURAL WARNING
MODULE
NOTE:
BASE SEAT BELT WARNING BUZZER
AND TIMER IS NOT INSTALLED.
12004962
-120 0 4 6 9 0
FUSE BLOCK
HEADLAMPWARNING BUZZER
RPO T 63
Fig. 8C-57--CK Series W iring 14 of 31
LIGHT TRUCK SERVICE MANUAL
8C-70
INSTRUMENT PANEL AND GAGES
S ID E M A R K E R L A M P
R E A R -S T O P &
.D IR E C T IO A L L A M P
BACK U P LA M P
BACK U P LAM P
R E A R -ST O P &
D IR E C T IO A L L A M P
S ID E M A R K E R L A M P
----------- BCSTER
T AIL,ST O P, + D IR SIG N A L L IG H T S
8900444
i DK B L U -4 6 ^ "
i L T B L U -1 1 5 % .
-.8
-.8
-B
-.8
LT B L U - II5 D K B L U -4 6 T A N -2 0 1 G R A - I 18
-------- .8 G R A - 8
7J
1
K
J
H
D
p
CENTER
SPEAKER
R IG H T
T A N -2 0 1 A :0 G R A -I I 8 A -
I°H
jC! •cr'
----
- S T A N -201 A - . 8 G R A -I I 8 A -
;cJ. If-J
I
s ji'" !
M
------------. 8 Y E L - 4 3 -----------.8 B L K - 1 5 0 -
P
y
M d
CB
Fig. 8C-58--CK Series W iring 15 of 31
LIGHT TRUCK SERVICE MANUAL
REAR SPK R .
R P O U .8 0
12004545
- . 8 T A N - 2 0 IB
J
L
- . 8 G R A -I I S B
K H
£
11 5
-------- .8 Y E L - 4 3 - H T
-------- -.8 B L K -1 5 0
\ R A D IO W IT H
12004543 - ^ 8 0 R E A R S P K R .
irzf
I
46
R A D I O E Q U IP M E N T
RPO U P 5 - U 8 0
INSTRUMENT PANEL AND GAGES
8C-71
Fig. 8C-59--CK Series W iring 16 of 31
LIGHT TRUCK SERVICE MANUAL
8C-72
INSTRUMENT PANEL AND GAGES
LEFT FRONT DOOR
LOCK MOTOR
Fig. 8C-60--CK Series W iring 17 of 31
I IGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C-73
Fig. 8C-61--CK Series Wiring 18 of 31
LIGHT TRUCK SERVICE MANUAL
8C-74
INSTRUMENT PANEL AND GAGES
BLOWER MOTOR
(REAR)
AIR CONDITIONING
RPO C-69
EVAPORATOR
PRESSURE
CONTROL SW
I■
»■
Li
T U
NOTE:
* I. USE WITH
12010191
RETAINER
FUSED FEED
FROM IGN 3
__«
--T V
SELECTOR SWITCH
AIR CONDITIONING
R P 0 C -6 0
Fig. 8C-62--CK Series W iring 19 of 31
LIGHT TRUCK SERVICE MANUAL
IN S T R U M E N T P A N EL A N D G A G E S
8 C -7 5
Fig. 8C-63--CK Series W iring 20 of 31
LIGHT TRUCK SERVICE MANUAL
8C-76
INSTRUMENT PANEL AND GAGES
Fig. 8C-64--CK Series Wiring 21 of 31
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C-77
J U N C T IO N B L O C K
C A M P E R E Q U IP M E N T
R P O -U Y I
Fig. 8C-65--CK Series W iring 22 of 31
LIGHT TRUCK SERVICE MANUAL
8C-78
INSTRUMENT PANEL AND GAGES
Fig. 8C-66--CK Series W iring 23 of 31
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
& B/U L A M P
8C-79
& B/U L A M P
FLEETStDE PICKUP
RPO. E63
TAIL & STOP & DIR SIG-SI MKR
i. B/U LAMP
TAIL & STOP 4 DIR SIG-SI MKR
& B/U LAMP
STEPSIDE
PICKUP
RPO E62
Fig. 8C-67--CK Series W iring 24 of 31
LIGHT TRUCK SERVICE MANUAL
8C-80
INSTRUMENT PANEL AND GAGES
---------------- . 8 P N K - 9 4 ------ ' I
---------------- -.8 B L K - 1 5 0 -------1
---------------- -.8 P P L - 9 2 ------------ J I
-------------8 G R A - 9 1 — --------------- J I .
---------------- -.8 B L K / L T B L U - 9 7 ------1 |
---------------- . 5 G R A - 8 ---------------- -------- 1
IN S T P N L W R G
HARN
PULSE WIPER SYSTEM
R.P.O. CD4
H E A V Y D U T Y T R A IL E R
R P O UY7
Fig. 8C-68--CK Series W iring 25 of 31
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
R X . DOOR
LOCK SW
L.H. D O O R
LH
DOOR
8C-81
LOCK
PM
MOTOR
FU SE
-
p e rm an e n t
m agnet
PO W ER DOOR L O C K S
12 D O O R ) R .P Q A U 3
BLOCK
6394742
r— 2 B L K - I5 0 A ■O
166Q
FU U T
r
*-----1—1b=i 1 R|,’h'
/
H
WINDOW
R H
SWITCH
a y
i
BU S BAR G RD
L H WINDOW
SWITCH
2 B L K - I5 0 B
MTR
BKT G RD
g )—
—
M T R BKT G R D
2 B L K -1 5 0
L—
2 D K B L U / W H T -1 6 6 2 T A N - 167 —
3 P N K -7 0 -
2 B L K -1 5 0 — ®
3 PNK-70 — — ------2 T W -I6 7 A
------------
2 D K B L U / W H T - I6 6 A -
L-2 TANH67B(HDT|
L - 2 D K BLU W H T-66B-
(HDT)
AUTO BESET
8917486
FUSE
BLOCK
L H MOTOR
M
W E P W IN D O W
(■/ ^O O R
R.P.O. A 3
Fig. 8C-69--CK Series W iring 26 of 31
LIGHT TRUCK SERVICE MANUAL
8C-82
INSTRUMENT PANEL AND GAGES
LOCK
1
9
LH DOOR
I LOCK SW
M
--- £^*“12004155
I2
R H
LH
c"CUT*» — ^
W IN D O W M O T O R
W IN D O W M O T O R
POWER WINDOW & LOCKS
RPO A3I & AU3 (2 DOOR)
Fig. 8C-70--CK Series W iring 27 of 31
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C-83
RT SIDE M ARKER
6294015 SOC
.5 DK 8 L U -I5 B
.5 BRN-9F ----.8 B L K -I5 IB ---- w ---- .8 B L K - I5 IA --------j
0
RT HAND HIGH & LOW BEAM
<6
SHEET METAL
TAL X
GROUND
FRAME GROUND J -
.8 B LK-I5IC I LT G R N -IIG
.8 TAN-I2C —
.8 DK BLU H 5C .8 B R N -9 G -----.8 B L K - I5 IF -
.8 B L K - I5 IE -
7
I LT G R N -IIF -
12004267
RT HAND HIGH BEAM
TO RT HAND HORN
i
(J
C\J
i
12004267
p
CO
UJ
CTI
a
CD
00
TO LT HAND HORN
LT HAND HIGH BEAM
.8 B L K -I5 0 A —
.8 B LK-I50C I LT GRN-I IB
.8 L T B L U -I4 C
.8 B R N - 9 C ---.8 B L K -I5 0 E
.8 B L K -I5 0 B I LT G R N -1 1C
1 I DK G R N -2 9 A
•5DK B L U -I5 A .5 LT B L U - I4 A —
I LT G R N - I I A -
j-.8 PNK-94---------
oJ-,8 W H T -9 3 -----------
-.8WHT-39A
-.8 PPL-92 -
W - .8 P P L - 9 2 -------------
-3PNK-3A
H --.8G RA-9I— r----■8917544
i W iPER MOTOR 1
I 0RN-240A
I 0RN-240B
-I DKGRN-29— .5 BLK-28-
•3 BRNMB
2984164
HORN R ELAY
3 BRN-4A■3RED-2A-----,5 TAM/WHT-33A
.5 B R N -2 5 -----.5
2
-2
-2
-1
-.5
-.5
-3
2973407
OK GRN-35ALT 6LU-72 —
ORN-52-----YEL 51-----0RN-I40---DKBLU-I5B
TAN-3 1----RED-2F-----
BACK UP 9W
M AN U AL
TRANS
.5 BLK-28---.5 LT BLUH4A-5LT BLU-I4B
-5DK BLU-I5A -.5DKBLU I5B.8BRN-27----.8 PPL-16----.8YEL-I8----.8 DKGRN-19.8 WHT-17-----
8911921
NEUT START i
BACK UP SW
AU T O -TR AN S
1200414 7- *
— .8 OK BLU
— .8 BRN---- . 8 PPL —
— .8 Y E L ---— .8 DK GRN
— .8 WHT----12004148
& GRA-8 -------
.8 PPL-16--------.8 ORN - I40A---.8 WHT-93-----.8 PNK/6LK-39F
- 3 BRN-4A-;---- y
rOfNj
CLUTCH START SW
|M^0 K IO C D N SW
------------ 3 PPL* 6 ------------------8PNK/BLK-I39
.22 BRfVWHT-130-
-3 BRN-4 B -----.8 0RN/WHT-24I
;8BRrVWHT-24l
— 3 RED-2E1— i — 3RED-2A -------3RED-2B—
'j
/
^ - N O T E : w ir e 130
IS A K> OHM
RESISTANCE
WIRE
FUSE BLOCK
■--120)0082
-Z> PNK/BLK-39C-TO SPLICE 39
-.8 PNK/BLK-09--'.8 ORN-4 0 ------
— 3 P N K -3 A -
------ 3PNK-3B/— 3RED-2C-
12004868REf GAUGE
CIRCUIT
-12004890
:5 TAN -31-------.5 DK GRN-35A r5 BRN-25-------.8 FNK/BLK -39F
-1 DKGRN-44;8PPL-I6-----
-12010327
lBULK'HD.CONN.1
------ -.5 TAN/WHT-33A
p.5 DK BLU-15 A---------- 1 LT GRWIA---------- .5 LT BLU-(4 A ---I-------.8 TAN-12---------1 LTGRN;8TAN —
-1 DKGRN-29
-.5 LT GRN-II B
2,1,164
IdlMMERSWl
-£ BRN-9A —
Fig. 8C-78--G Series W iring 4 of 20
LIGHT TRUCK SERVICE MANUAL
.8 DK BLU-38—*
-3 R E D -2 B ---------.8 YEL-18 ---------1 0RN-240B-----.8 DK GRN-19-----.8 LT GRN-24-----.8 DK BUJ-75 -----.8 BLK/LT BLU-97
-.8 PN K-94 --------.8 P P L -9 2 ----.8 GRA-91 --------.5 LT GRN-IIB--.8 BRN-9A — ------ I YEL-10---------.8 ORN- 4 0 --------
INSTRUMENT PANEL AND GAGES
- £ TAN/W HT-3JC-
-dT '
8 C -9 1
2904SM TERM-7
NOTE: THE WIRE ASSEMBLY WITH C H J WIRES 156A.I56B « 156C
-----1— IS NOT USED WHEN THE POWER WINOOW OR POWER DOOR
LOCK,OR COMBINED POWER WINOOW » DOOR LOCK HARNESS
IS USED AS THEY ARE PART OF THESE HARNESSES
REF RPO AU3-A3I COMBINED
,—
3 WHT*-L
.8 B L K /W H T - 9 IA - J
8917544
- .5 DK BLU-9 4
.5 BIK-I50
-------.5 LT BLU-92
-.5 BLK/WHT- 91
-.5 BLK/LTBLU-9/
-.5 GRA-8
/
8917540'— '
WIPER MOTOR
T
PULSE WIPER/WASHER
CONTROL
PULSE WIPER
CONTROL MODULE
MOM
REF l/P B+ACC FUSED-------- .8 WHT-93J
GROUND--------------- .8 BLKH50C—t
HARNESS IP S DIM CKT--------.5 GRA-8E
L j3 PNK— -
= ;^ L
PK
Lz z r T i i i
-------------J | I
| 1--------- .8 BLK/LT BLU-------- -1 I
L------------ .5 G RA-8B---------------- 1
PULSE WIPER SYSTEM
R.P0.-CD4
8 BLK-I50(HW>
89 0 5426
3BRIVW HT-50
3 WHT-952A
890 5 4 2 6
2 LT BLU-72
2 rEL-51
2984092
2989576 GROMMET
BUS BAR GRD
AUXILIARY HEATER
EQUIPTMENT RRO.C-36
Fig. 8C-85--G Series Wiring 11 of 20
LIGHT TRUCK SERVICE MANUAL
8C-98
INSTRUMENT PANEL AND GAGES
Fig. 8C-86--G Series Wiring 12 of 20
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C-99
KEY
SWITCH
ASM
Fig. 8C-87--G Series Wiring 13 of 20
LIGHT TRUCK SERVICE MANUAL
8C -100
INSTRUMENT PANEL AND GAGES
LEFT FRJ SPK R
CHANNEL-A
Fig. 8C-88--G Series Wiring 14 of 20
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C -101
•1 PINK-76B — —
-2 P N K - 7 6 --------------■ I T A N - 167 ------------' 1 DK BLU/W HT-166
---- 2 B L K - 1 5 0 --------------
167176
k
isjj-
-1 TAN* 167-------------1 DK BLU/WHT-166-2 BLK- 150-------------
166
1252240 CIRCUIT BKR
30 AMP AUTO RESET
2 - PLACES
A *
\
,
/-I20 0 40 29
r
12004267
“1 fa5! fs
X2o
CIRCUIT
"—0+\
—
T~°
'
u
BAT
CIRCUIT
i ^ 12 0 0 4 8 8 9
- .
' S■ b
LEFT
INDOW
i___ u
BUS BAR
GROUND
LH WINDOW SW
FUSE BLOCK
12004155
UP
£
DN-LOCK
LH DOOR LOCK SW
-.8 BLK/WHT -194 - 2 0 R N /B L K -6 0 -.8 LT BLU-195 —
- 8905205
SPLICE-6 0
194
60
195
194
60
-2 0RN/BLK-60B
2 0RN/BLK-60C
194
60
195
667
1 *uro«»tT
T "1
0J
\2s
194 8 BLK/WHT-194 6 0 3-2 0 R N /B L K -6 0 195 - . 8 LT BLU-195
RH WINDOW
MOTOR
UP-U
:h
POS, 2NEG=UP
RH DOOR LOCK SW
pfyj
LH WINDOW
MOTOR
___ _
, | COCUIT •*«
_ T M L c D-I »UTO KCSET
CIRCUIT BKR
AUTORESET
POS. 2NEG- UNLOCK P M
-1 GRA-295 C •
POS,. 2NEG-UNLOCK PM
-1 TAN-294C-
RH DOOR
LOCK MOTOR
- 8 BLK WHT-194 A-
LH DOOR
LOCK MOTOR
— 1 T A N -2 9 4 ------
-r6 LT BLU-195A
DOOR LOCK RELAY
-2977373
I G R A-295-
-1 TAN 294E -------------E S I
-1 GRA 295E -- ------- (295
BODY HARNESS
DOME LP WIRE
CONTACT SW
NOTE:
PM = PERMANENT MAGNET
-.8 W HT-156BINSTRUMENT PANEL
HARNESS
DOME LP SW WIRE
RT DOOR
JAMB SW
POWER WINDOWS R.RO. A31 9
POWER DOOR LOCKS R.R0.AU3
Fig. 8C-89--G Series Wiring 15 of 20
LIGHT TRUCK SERVICE MANUAL
8C -102
INSTRUMENT PANEL AND GAGES
CONTROL
/—120
r
MODIFIER CONTROL
COLD START MODIFIER
RPO B5H
L.H. STEPWELL LAMP
R.H. STEPWELL LAMP
2973324 TERM
BODY HARN
FOREWARD
BODY~_I~_7
W R G _______,
HARN---------- / I
AUX LIGHTING R.RO. TR9
STEPWELL & READING LAMP
Fig. 8C-90--G Series Wiring 16 of 20
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8 C -103
8905206
■-19
w9; TO
i 5 5 L !e
-01^ 116 - . 8
C H AN NE L-B
(" I E )
— DK BLU -'R EA R
LT BLU —(Rt AR
BRN------- (RFAh
— >PL--------(RFAR
h - 8 DK BLU-46
.8 LT BLU-115
.8DKGRN-I17ggg y —£LT GRN200
B R N -199
YEL-H6
FEEDi
RE TURN)
FEED!
RETURN!
-SPLICE TO BODY
BUILDER WIRING
CUTAWAY
L
V AN
G 300(03) (32)
FOR 03 4 32
RIGHT FRT SPKR.
:8 DK BLU-4
n 8 L T BLU-II
120045457
.8 DK BLU-46——
.8 LT BLUH I5~ p _L
— .8 YEL-II6—MJ<
— .8 BRN-199— .8TAN-20T
— .8GRA-118—r .
.8 DK GRN-117—1
3 LT GRN-200-----.8 GRA-8
RIGHT RR.SPKR.
M.
- .8 YEL-43
-.8 BLK-150
12004543
RADIO RCVR.
I lispl— '.a BLK-150-
\7 3l
<8"4|'
{6___5|
—12004267
BUS BAR GROUND
LEFT FRT SPKR.
8905220#
- . 8 DK BLU-46
r .8 L T BLU-115
.8 BRN-199
- . 8 YEL-II6
LEFT RR. SPKR.
T
* 8 9 117 7 3 ^
^—8911772
RADIO EQUIPMENT R.PO.
UM 2-U58-U N3
Fig. 8C-91--G Series Wiring 17 of 20
LIGHT TRUCK SERVICE MANUAL
8C -104
INSTRUMENT PANEL AND GAGES
REF
BODY
WIRING .
HARNESS RIGHT
SIDE
5 BRN-9-------------
r e f r ig h t
.5 DK GRN-19-----
REAR LAMP
WIRE ASM
5 LT GRN-24------
TO
TRAILER
REF
BODY
WIRING
HARNESS
LEFT SIDE
BR N-9C-----
-.5 BR N -9A ------
Y EL-18-------
8 YEL-I8A------
-.5 DK G R N -I9-
LT GRN-24-
------ .8 LT GRN-24-------^
•5 LT GRN-24-
REF
REAR
LAMP
WIRE
ASM
BRN-9--------
[LIGHT DUTY TRAILER WIRINfc
RPO U89
REF RIGHT
REAR LAMP
WIRE ASM
BATTERY
CIRCUIT
REF
BODY
WRG
HARNESS
LEFT SIDE
.8 BRN-9C —
'3-
.8 YEL-18 —
LT GRN-24C—
298467$—'
.8 Y E L -I8 A -
WF—
.8 LT GRN-24
.8 BRN-9 —
Fig. 8C-92--G Series Wiring 18 of 20
LIGHT TRUCK SERVICE MANUAL
-5
BRN-9A----------
oi gi —.5 DK GRN-19
5
LT GRN-24------- J
2984378
REF LEFT
REAR LAMP
WIRE ASM
______
HEAVY DUTY TRAILER WIRING
RPO U Y 7
INSTRUMENT PANEL AND GAGES
8C-105
Fig. 8C-93--G Series Wiring 19 of 20
LIGHT TRUCK SERVICE MANUAL
8C-106
INSTRUMENT PANEL AND GAGES
Fig. 8C-94--G Series Wiring 20 of 20
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8 C -107
PROVISIONS FOR
SIDE MARKER LP
DASH
HIGH - LOW
BEAM
Fig. 8C-95--P Series Wiring 1 of 9
LIGHT TRUCK SERVICE MANUAL
8C-108
INSTRUMENT PANEL AND GAGES
Fig. 8C-96--P Series Wiring 2 of 9
' IGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8 C -109
PROVISIONS FOR
SIDE MARKER LP
6294125 SOCKET
WIRE SIZE CONVERSION TABLE
METRIC SIZE
m rr\2
AWG SIZE
.22
.5
.8
1
2
3
5
8
13
19
32
40
24
20
18
16
14
12
10
8
6
4
2
1
-S
8BLK-151-
☆
BRN - 9 G ---------TO SHEET METAL
PROVISIONS FOR
BACK UP LP
PROVISIONS FOR
TAIL-STOP&DIR LP
trim
03 CD
0 BRN-9E(HOT)
c
D
SPLICE
9
PROVISIONS FOR
LIC PLT LP
TWO PLACES
10RN-240B------- §5 PROVISIONS FOR
, 8W HT. 1 5 6 ^
,
DOME LAMP
2965901
.8 BRN-9C (HOT)
(K
SPLICE 9
111
OQtpCD
PROVISIONS FOR
TAIL-STOP 8 DIR LP
-.8 BRN-9B(HDTI-.8 BRN-9AIHDT) .6 LT GRN-2481HDTI
LTGRN-24AIH0T)
jW —.6 DKGRN-191HDT)
PROVISIONS FOR
BACK UP LP
-.8 Y E L-18(HOT) ----.8BRN-9K
6294125 SOCKET
SBLK-150-
TO SHEET METAL
-2
-2
-2
-2
PROVISIONS FOR
SIDE MARKER LP
BR N -9 —
YEL-18 —
DK GRN-19 LT GRN-24
Fig. 8C-97--P Series Wiring 3 of 9
LIGHT TRUCK SERVICE MANUAL
8 C -1 10
INSTRUMENT PANEL AND GAGES
FRAME GRD
(S>-50GRD STRAP
FPAME GRD
V W ’'
neut
\-Z '/
START
NEUT START
C BACK UP SW
START
OfF-LOCK
Fig. 8C-98--P Series Wiring 4 of 9
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C-111
/
/F R O N T \
VOF DASH/
N
OTE
rHE GROUND LEADS PROVIDED IN Al I
ELECTRICAL WIRING MUST BE
TERMINATED IN A MANNER TO
INSURE A COMPLETE UNIFORM A.
ONTINUOUSVEHICIE ELECTRICA1
GROUND CIRCUIT.
START
O FF-LO CK
Fig. 8C-99--P Series Wiring 5 of 9
LIGHT TRUCK SERVICE MANUAL
8 C -112
INSTRUMENT PANEL AND GAGES
SIDE MARKER LAMP
RPO E32 AND E33 ONLY
RPO B3M
BATTERY
fu sib le lin k -
13RED-2B(GPT)--------------------------------------RPO B3K
TEMP
SENDER
YS
2962965
SEE
NOTE 1
— 2 BRN-9(GPT) —
•2YEL-18(GPT) —
----- 2 DK GRN-I9(GPT) 2LT GRN-24CGPT) -
HIGH - LOW
BEAM
SIDE MARKER LAMP
RPO E32 AND E33
ONLY
Fig. 8C-100--P Series Wiring 6 of 9
JGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8 C -1 13
8905381 SOCKET
U W S WIPER
u
MOTOR
.0 GRA-91-----
917319 I W/S WIPER
WASHER SW
M40 KICKDOWN SW
2973407-
-2984164
HORN
RELAY
STOP LPSW
\
2984235
8911781
G RO MM ET
0911781 G R O M M E T
12010094
"T2004962
FUSE BLOCK
■3 RED-2C 5PLICE-4-
.8 DK BLU- 3 8 J L.8 DK BLU-75
.8 P N K /B L K -1 3 9 -------— ------------
SPLICE 3 - ^
-.5 DKBLU-15A
1 BRN-9A —
1 LT GRN - 24
8900855
DIMMER
SW
100 AMP
JUNCTION BLOCK
Fig. 8C-101--P Series Wiring 7 of 9
LIGHT TRUCK SERVICE MANUAL
8 C -1 14
INSTRUMENT PANEL AND GAGES
PROVISIONS FOR
DOME LAMP
NOTE I
WIRES 9 ,1 8 ,1 9 +2 4 IN TAIL LT
EXTENTION ARE
FOR P 1 0 0 .
-2BRN -9(t3PT)-------2Y EL-I8(G P T)------ -
-2DKGRN-*9(GPT)-2 LT GRN-24(GPT)-
Fig. 8C-102--P Series Wiring 8 of 9
LIGHT TRUCK SERVICE MANUAL
INSTRUMENT PANEL AND GAGES
8C -1 15
SIDE MARKER LAMP
RPO E32 AND
E33 ONLY
B/U LAMP
RPO E32
AND E33 ONLY
^rSPLICE-9
2977107
>-.8 BRN -9C(HD T)— 0 ~ )
.8 BRN-9B(G PT)- p i o (t :' =:^
- . 8 P N K -3 0 (H X L )—
(EjOQ
B R N -9A (H D T)B R N -9A (G P T)-P 100
-.8 BRN- 9 B (H D T).8 B R N -9 K (G P T )-P 1 0 0
8 LT G RN-24B(HD T)—1
1.8 LT GRN - 24B(GPT )-P)OOj
:8 LT GRN-24A(HOT)
8 LT GRN-24A
GLOW
PLUG
GENTEBM1
TIMING
LATCHING
AND LEVEL
DETECTION
CIRCUITS
DRIVE
HI
-12010719
DIESEL ENGINE
GLOW PLUGS
CONTROL MODULE
12004267-
tp tp
LAMP
CHECK
RELAY
rh
-12004105 CONN ASM
SPLICE-150
TEST CONN
H 2 0 I0 9 9 7 (ORANGE)
12004826.
ASM
■12010649
.6 LT G RN-384—
C-TRUCK
■t STOP LP
CONTACTS
8 PNK/BLK-39B
BRAKE SWITCH
12004215
*
SOCKET
NOTE- 3
i8 PNK/&LK-39C
.8 LT BLU/BLK-383
8905581
SOCKET
TO LAMP CHECK
RELAY
GLOW PLUGS
'12004185 CONN ASM
D
Q
4 WD IN LT
SWITCH
INST LPS
5 AMP
12010808-
g X )4 8 2 6 -
K-TRUCK
® NOT USED
TO MOOULE
.8 LT BLU - 5 0 6 —
.8 B R N -2 5 ---------
^260488Sn^=':
FUSE BLOCK
.8 G R Y -5 02 -------.8 BLK/WHT-5 0 0
.8 Y E L /B L K -5 0 5 -
-12010649
TO BRAKE
SWITCH
TO WATER
IN FUEL LAMP
.8 Y E L -5 0 B A -----------
12010973-
12004215 SOCKET
.8 LT B LU /BLK-383A
.6 PNK/BLK- 39E-----.8 LT B LU /BLK-363B.8 P N K /B L K -39 F ------.8 W H T -1 5 6 A --------------
4 W DRIVE
IND LIGHT
120*0015
4WD RELAY
.8 W H T -I5 6 B -----------I 0 R N -5 0 3 A
8905381
SOCKET
WATER
IN «
FUEL
■NORMAL
.8 YEL- 506 (HW)
.8 PNK-30(HW) -
4 WD SHIFT
LEVER LIGHT
" -----9905426
8 BLK-I50A
.0 BLK-I50BHW)FRAME GROUND
PRODUCTION
TANK SENOER
Fig. 8C-104--CK Truck Wiring
LIGHT TRUCK SERVICE MANUAL
TO
GLOW
PLUGS
LAMP
DIESEL ENGINE
(RPO LF9) FOR RPO
INSTRUMENT PANEL AND GAGES
8 C -117
Fig. 8C-105--CK Truck Wiring
LIGHT TRUCK SERVICE MANUAL
.
■■Aj '
ACCESSORIES
9-1
SECTION 9
ACCESSORIES
CONTENTS
Cruise Master.......................................................................................................9-1
General Description................................................................................ .........9-1
Diagnosis.............................................................................................................9-4
On-Vehicle Service................................................... ...................................... .9-8
Specifications......................................................................................................9-8
R a d io ................................................. .................................................................. .9-8
General Description........................................................................................ .9-8
Diagnosis................................... ........................................... ............................ .9-9
On-Vehicle Service.......................................................................................... .9-21
CRUISE MASTER
GENERAL DESCRIPTION
The Cruise Master is a speed control system which
employs engine manifold vacuum to control the throttle
power unit. The power unit moves the throttle, when speed
adjustment is necessary, by receiving a varying amount of
controlled vacuum from the transducer. The speedometer
cable (from the transmission) drives the transducer, and a
cable (from the transducer) drives the instrument panel
speedometer. The engagement of the transducer unit is
controlled by an engagement switch located at the end of the
turn signal or multi-function lever. Two brake release
switches are provided: an electric switch disengages the
transducer and a vacuum valve decreases the vacuum in the
power unit to quickly return the throttle to idle position.
The purpose of the Cruise Master system is to allow the
driver to maintain a constant highway speed without the
necessity of continually applying foot pressure to the
accelerator pedal. Speed changes are easily made and
override features allow the vehicle to be stopped, slowed or
accelerated as described below.
SWITCH FUNCTIONS
The switch functions of the cruise control lever (Fig.
9-1C) are as follows:
ON - The cruise switch must be in the ON position and
the vehicle speed above 30 mph (50 km/h) before the system
can be engaged.
SET-COAST - This is a dual function switch that
operates in the following manner.
• SET - Depress the "SET" button completely when
vehicle reaches desired speed, and release the button
slowly to engage system. Use of the brakes will
disengage the system but pre-set speed will be retained
in memory.
• COAST - Cruise speed may be reduced by depressing
"COAST" button until desired speed is reached, then
releasing slowly to re-engage. Higher speeds are set by
accelerating vehicle to desired speed and depressing
"SET-COAST" button.
RESUM E - Slide cruise switch to "RESUME" and
release, vehicle will accelerate to previously set cruise speed.
It is advisable not to use "RESUME" in city traffic or in
suitations where the previously set speed is faster than the
immediate traffic flow. Do not use "RESUME" or cruise
control features on slippery conditions.
D ISEN G A G EM EN T - The system is disengaged by
applying the brakes. Under normal operation, it is not
necessary to use the "OFF" position. Sliding the cruise
switch to "OFF" or turning off the ignition will erase the
memory and disengage the system. System can be momen
tarily disengaged by holding in the "SET-COAST" button.
DRIVER OPERATION
Engaging the Cruise System
Fig. 9-lC -R esum e Cruise Control Lever
The driver accelerates to the desired cruise speed above
30 mph (50 km/h) and moves the "on/off" resume slider to
the "on" position located on directional signal handle. The
operator then fully depresses and slowly releases the cruise
"set coast" button. A speed switch built into the transducer
assembly prevents engaging the system below approx
imately 30 mph (50 km/h). The cruise system takes over
LIGHT TRUCK SERVICE MANUAL
9-2
ACCESSORIES
■'PPER FLEX SHAFT
CONNECTION TO SPEEDOMETER
■PORT "C"
ENGAGE
HOLD
PORT "B"
.RESUME VALVE PORT
TO MANIFOLD VACUUM
P O R T"A '
RESUMESOLENOID
RESUME'
CONNECTOR
Fig. 9-2C--Resume Cruise Control Transducer
speed control, and within engine limitation, maintains this
speed regardless of changes in terrain.
Disengaging the Cruise System
Disengagement occurs when the brake pedal is de
pressed. This maintains previous set speed in the systems
memory. Disengagement can also be accomplished by
moving the " o f f " - " o n " - " r e s u m e " slider to the "off"
position. This slider should be left in the "off" position when
system usage is not intended. This removes any previous set
speed from the memory.
Resume Re-engagement of the Cruise System
To re-engage the system after disengagement with the
brake pedal, move the " o ff " - " o n " -" re s u m e " slider to the
Resume position. The vehicle will return to that cruise speed
existing at the time the brake pedal was depressed.
Re-engagement at New Set Speed
The system may also be reset to any speed desired
above 30 mph (50 k m /h) by depressing the Set-Coast button
all the way down and then releasing it slowly.
To Cruise at a Higher Speed
Depress the accelerator pedal to reach the new desired
speed. Then depress and release the cruise control Set-Coast
button. The system re-engages at the higher speed when the
button is released.
To Cruise at a Lower Speed
Disengage the system by depressing the Set-Coast
button fully and holding it there until the vehicle has
decelerated to the new desired speed; then release the button
LIGHT TRUCK SERVICE MANUAL
slowly. The system re-engages at the lower speed when the
button is slowly released.
Lower speed can also be obtained by depressing the
brake pedal which disengages the system. When the vehicle
has slowed down to the desired lower speed, it may be re
engaged by depressing the Set-Coast button and releasing it
slowly.
Cruise Master Components
The cruise control switch is used to control the cruise
system in the set, coast, or resume and off modes of
operation.
The Transducer (Fig.. 9-2C and 9-3C) is mounted in
the speedometer cable line. It is a combination speed sensing
device and control unit. When engaged, it senses vehicle
speed and positions the servo unit to maintain the selected
speed. It also incorporates internal design features which
perform the "resum e" function in conjunction with the
external resume vacuum control valve.
• T H E SE R V O Unit is bracket mounted to the engine. It
opens or closes the throttle as dictated by the
Transducer.
• The Cruise Brake Release Switch, which is mounted on
the brake pedal bracket, disengages the system electri
cally when the brake pedal is depressed.
• The Cruise Brake Release Valve, which is mounted on
the brake pedal bracket, disengages the system pneu
matically when the brake pedal is depressed.
• The Cable and Casing Assemblies drive the transducer
and speedometer.
ACCESSORIES
9-3
M ou n tin g
LIGHT TRUCK SERVICE MANUAL
9-4
ACCESSORIES
DIAGNOSIS
ELECTRICAL SYSTEM TROUBLESHOOTING
1. Check fuse and connector.
2. Check brake electric switch as follows:
a. Unplug connector at switch.
b. Connect ohmmeter across cruise master contacts on
brake switch. The ohm m eter must indicate no
continuity when the pedal is depressed and continu
ity when pedal is released. The cruise release brake
switch (electric) is adjusted as is the standard stop
light brake switch.
c. Replace brake electric switch if needed.
Electrical Test
Refer to wiring diagram in Figure 9-5C to perform any
electrical test.
Engagement Switch Test
Refer to Figures 9-6C and 9-7C to perform engage
ment switch test.
LIGHT TRUCK SERVICE MANUAL
Resume Cruise Control Quick Checks
Refer to Figure 9-7C for cruise control quick checks.
Servo and Vacuum System Test
To determine the condition of the Servo diaphragm,
remove hose from the Power Unit and apply 15 inches of
vacuum to the tube opening and hold in for one minute. The
vacuum shall not leak down more than 5 inches of vacuum in
one minute. If leakage is detected, replace the Power Unit.
The cruise release brake valve (vacuum), resume valve
and connecting hoses can be checked by applying 15" of
vacuum to each component, then sealing them off. The
vacuum leakage from 15" Hg should not excess 5 inches, in
a one second interval.
The cruise vacuum switch can be tested in the same
manner. Leakage from 15" Hg should not exceed one inch
in one minute.
Harness Test
1. Disconnect engage switch wire harness connector from
the main harness connector (red, brown/white, and
white wires).
ACCESSORIES
PUSH BUTTC
SLIDER OPERATION
SLIDER
IN "ON"
POSITION
PUSH
BUTTON
IN REST
SLIDER
IN "ON"
POSITION
PUSH
BUTTON
IN REST
POSITION
~HOLD
l
ENGAGE
i
i
l
p o s it io n !
m iK iuttoh ~ |
1
tH O LD
9-5
OPERATION
r-HOLD-
1r
ENGAGE
|
m o ti
|
HOLD
I— B+------!3
BRN
1} y2
BLKBLU
HOLD
SLIDER IN
"OFF"
SLIDER IN
j SMUTTLI
"ON" POSITION
PUSH
---PUSHIUTTMI |
BUTTON
IN "COAST"
Z HOLD
POSITION
B+ —
(DEPRESSING
MOTION)
ENGAGE
r~
SHUTTLE
U r u
PUSH BUTTON i n I
tuTTI>11
REST POSITION
t HOLD
-B+-
v v
HOLD-----— ENGAGE
I SHUTTLE
SLIDER IN
"ON" POSITION
----^ PUSHHITTOW I
PUSH
BUTTON
t
C lO L D
IN "COAST"
l B + ----------POSITION
MIL
HOLD
ENGAGE
SLIDER IN
"RESUME"
POSITION
PUSH BUTTON IN
REST POSITION
v
-H O L D ENGAGE
(FULLY DEPRESSED)r
SLIDER IN
"ON" POSITION [s jilli1
PUSH BUTTON I—P IN "ENGAGE"-*H pmhmttw
POSITION
I
HOLD
(RELEASING
Lb +
MOTION)
--------- SHOE!
T hold
B+
-H O L D —
ENGAGE
Fig. 9-5C--Cruise Control Switch O p eration
S W ITC H FU N C TIO N TABLE
S w itch C ondition
T«t
Order
xx Slider
|x Term inal Connections
362
1 &3
2& 1
Function
End Button
O ff
Released
O ff
0
0
R «um «
Released
Resume
C
C
C
Cruise
Released
On
C
0
0
1
C o ilt
H alf
Depressed
On
0
0
0
2
Coast
Fully
Depressed
On
0
0
C
3
Set
Releasing
On
c
C
c
O = Open
0
C = Continuity
x These test are continuity tests b etw een the term inals show n in figures of
resum s cruise control lever and lever electrical operation,
xx The slider m ust have a detent in the "o n " and " o ff" positions and must
return to the "o n " detent w hen released from the resum e position.
Fig. 9-6C--Cruise Control Switch Function Table
LIGHT TRUCK SERVICE MANUAL
9 -6
ACCESSORIES
RESUM E CRUISE CO NTROL Q U IC K CHECKS
VEHICLE SURGES
VEHICLE C RUISES OVER SET SPEED
PERFO RM G ENERAL P R E L IM IN A R Y D IA G N O S T IC SYSTEM
CHECK
CHECK FOR BENT SPEEDO CABLE T IP
CHECK FOR TO O LONG SPEEDO CABLE A S S EM B LY
CHECK FOR BENT. K IN K E D . OR M IS R O U T E D CABLE
& C A S IN G A S S EM B LY
CHECK FOR B IN D IN G THROTTLE LINKAGE OR CRUISE
CO NTR O L BEAD C H A IN OR B O W DEN CABLE.
CHECK VEHICLE FOR CORRECT T R A N S D U C E R P /N
OK
•
•
•
PERFORM G ENERAL P R E L IM IN A R Y D IA G N O S T IC
SYSTEM CHECK
IF OK, A D J U S T ORIFICE TUBE IN W A R D 1 /4 OF
A T U R N A T A T IM E .
RECHECK A T 55 M P H .
NOTE: 1 /4 OF A T U R N EQUALS A P P R O X IM A T E L Y
1 MPH.
NO T OK
REPLACE
TRANSDUCER
REPLACE W IT H PROPER
P /N T R A N S D U C E R
RO A D TEST
EXCESSIVE SPEED D O W N H IL L
•
•
•
•
•
PERFO RM G ENERAL P R E L IM IN A R Y D IA G N O S T IC SYSTEM
CHECK
CHECK FOR PLUGGED T R A N S D U C E R FILTER
CHECK FOR W EAK THRO TTLE RETURN SP R IN G
CHECK FOR B IN D IN G THRO TTLE LIN KAG E OR
CR UISE C O N TRO L BEAD C H A IN ON B O W DEN CABLE
REPAIR A S R EQ U IR E D A N D R O AD TEST
VEHICLE CRUISES UNDER SET SPEED
•
•
•
•
•
PERFO RM GENERAL P R E L IM IN A R Y D IA G N O S T IC
SY STEM CHECK
CHECK FOR V A C U U M LEAKS A T ALL HO SES, POWER
U N IT , BRAKE RELEASE VALVE
CHECK FOR TOO M U C H PLAY IN TH R O TTLE LINKAGE
OR CRUISE CO NTRO L BEAD C H A IN OR BO W DEN
CABLE
IF OK A D J U S T ORIFICE TUBE O U T W A R D 1 /4 OF A
T U R N A T A T IM E
RECHECK A T 55 M P H
NOTE: 1 /4 OF A T U R N EQ UALS A P P R O X IM A T E L Y
1 M PH.
GENERAL P R E L IM IN A R Y D IA G N O S T IC SY STEM CHECK
1. CHECK SERVO CABLE OR ROD A D J U S T M E N T FOR M IN IM U M SLACK.
2. CHECK V A C U U M HOSES FOR CRA C K S. K IN K S , S H A R P BENDS, OR M IS S IN G HOSES.
3. CHECK SPEEDO M ETER A N D D R IVE CABLES R O U TIN G FOR K IN K S OR S H A R P BEN DS A N D LOOSE
C O N N E C TIO N .
4. CHECK A D J U S T M E N T OF V A C U U M VA LVE A N D ELECTRICAL S W IT C H VA LVE A N D ELECTRICAL
SW IT C H A T BRAKE RELEASE S W IT C H A N D C O N N E C TIO N S.
5. CHECK ENGAGE LEVER FOR ELECTRICAL C O N N E C TIO N S A N D S M O O T H CO NTRO L F U N C TIO N .
6. CHECK FOR D A M A G E D SY S TE M C O M P O N E N T S .
7. CHECK FOR W O R K IN G SPEEDO M ETER .
Fig. 9-7C--Resume Cruise Control Quick Checks
LIGHT TRUCK SERVICE MANUAL
ACCESSORIES
9-7
CRUISE CONTROL D IA G N O S IS
(ALL SERIES)
PRFI I M IN A R Y
CHECKS
1. Check S e r v o C h a in o r rod adjustm ent. M u s t have m in im u m slack.
5. C he ck adjustm ent of brake release sw itch and v a c u u m release
valve.
2. Check v a cu u m hoses. M u s t be in good co n d itio n - no re stric tio n s
6. C h e ck engagem ent sw itch operation.
o r leaks.
7. If steps 1 t h ro u g h 6 do not solve the problem, c o n tin u e with
3. C heck d rive cable ro u tin gs. No k in k s o r s h a r p bends.
4. C heck throttle linkage o r cable fo r binding._____________________
diag n osis.
C R U IS E C O NTRO L
IN O P E R A T IV E
J-----1.
Check gages fuse.
If blown
2.
If fu se and p r e lim in a r y ch e ck s ok. t u r n ig n itio n to r u n position
check w ir in g fo r s h o rt circu it.
and c r u is e con trol sw itch on.
3. D isc o n n e c t 2 w ire c o n n e cto r at tra n sd u c e r.
4. C onne ct 12 volt test ligh t to g ro u n d and to engage w ire in
connector. P u s h e ngagem ent button in part way.
5. Repeat test on hold w ire in connector.
TEST LIG H T OFF AT
TEST L IG H T ON
T EST L IG H T OFF AT
ONE W IR E O NLY
AT BOTH W IR E S
BOTH W IR E S
(M A Y BE D I M ON
HOLD W IR E )
\
Test engagem ent switch.
C h e ck for poor g ro u n d
C h e ck fo r open c ir c u it in
(See test procedure)
at tra n sd u c e r.
b rn w ire from engagem ent
If ok.
C heck for open c irc u it
remove tra n sd u c e r
sw itch c o n n e cto r to brake
in w ire if test light
fo r repair.
switch.
C h e ck brake sw itch (sh o u ld
did not lig h t
R epair o r replace part
have voltage on both te rm in a ls
that ch eck s bad.
w hen ig n itio n key is in r u n
,
ENGAGED
SV / °
4
SOLENOID
V ALVE
^
i
MB
■■4 - J k
SERVO
po sition and on/off sw itch on).
/
W*
^
a
C h e ck for open in w ire
p lu g -in .
TRANSDUCER
If ok. ch e ck engagem ent
°^°
TO BRAKE
•*RELEASE
VALVE
from brake release switch
to on/off sw itch to fu se panel
ENGINE
y VACUUM
SOURCE
RESUME
SOLENOID
sVALVE
v
NOT
ENGAGED
WITH SET
SPEED IN
MEMORY
ENGINE
VACUUM
jv S'"*'
SOURCE
sw itch operation and replace if
nece ssary.
RESUME
SOLENOID
VALVE
TO BRAKE
RELEASE
VALVE
ENGAGEMENT
SWITCH
E N G A G E M E N T S W IT C H T E S T P R O C E D U R E
USE AS S E L F POW ERED T EST LIGH T. LIG H T
W ILL BE ON FOR EA CH T EST IF SW ITCH IS
GOOD. CO N N ECTO R TER M IN A LS AND COLOR
1 - BROWN, 2 - BLUE, 3 - B LACK.
T E R M IN A L S
SW IT C H P O S IT IO N S
ENGAGE
BUTTON
R ESU M E
SW IT C H
1 to 2
1 to 3
Released
on
closed
open
open
Fully
Depressed
on
open
open
closed
Partially
Released
on
closed
closed
closed
Released
resume
closed
closed
closed
Released
off
open
open
open
2 to 3
REFER TO S E C T IO N 8 FOR W IR I N G FOR A L L S E R IE S
Fig. 9-8C~Resume Cruise Control Diagnosis Chart
LIGHT TRUCK SERVICE MANUAL
9-8
ACCESSORIES
2. Connect ohm m eter between point C (brow n/w hite
stripe wire in main wire harness) and ground. Make
sure the Transducer is well grounded to the chassis.
The ohmmeter should read between 42 and 49 ohms. If
a resistance either above or below the value indicated is
shown, then disconnect the connector from the T rans
ducer and measure the resistance of the brown/white
stripe wire from point C to D. It should measure 40
ohms ± 2 ohms.
3. If a resistance either above or below the value indicated
is shown, the main wiring harness should be replaced.
NOTICE: When disconnecting or reconnecting the main
wiring harness connector from the Transducer, care
should be exercised so as not to damage the blade
connectors or the wiring harness. The disconnect may
be facilitated by prying carefully on the plastic connec
tor with a small screwdriver.
4. Measuring the solenoid coil circuit resistance between
point E (Hold Terminal) and ground, the ideal resist
ance should be between 5 and 6 ohms. A reading of less
than 4 ohms indicates shorting in the coil circuit. A
reading of more than 7 ohms indicates excessive
resistance in the coil circuit. Either extremity indicates
replacement of the Transducer assembly. The main
harness wiring from point F to G (white wire) should
also be checked for continuity.
ON CAR SERVICE
Power Unit Bead Chain Adjustment
1. With air conditioning off, adjust engine curb hot idle
speed, with the idle stop solenoid disconnected (if
equipped), to 500 rpm, then shut off engine.
2. Check bead chain slack by unsnapping swivel from ball
stud and holding chain taut at ball stud; center of swivel
should extend 1/8 inch beyond center of ball stud.
3. Adjust bead chain slack if necessary, by removing the
retainer from the swivel and chain assembly. Place
chain into swivel cavities which permits chain to have
slight slack. Place retainer over swivel and chain
assembly.
Brake Release Switch and Valve Adjustment
With brake pedal fully depressed, push switch and
valve forward until they stop against bracket or arm, pull
pedal rearward with 15-20 lbs. force to properly adjust
switch and valve.
Cruise Speed Adjustment
If the car cruises at a speed above or below the
engagement speed, this error can be corrected with a simple
adjustment of the orifice tube in the transducer.
1. To check cruise speed error, engage Cruise Control at
exactly 50 mph.
2. If care cruise below engagement speed, screw orifice
tube outward.
3. If car cruises above engagement speed, screw orifice
tube inward. Each 1/4 turn of the orifice tube will
change cruise speed approximately one mph. Snug-up
lock nut after each adjustment before testing.
Removal of Cruise Control Actuating Engagement
Switch
1. Place shift lever in low and remove horn actuator and
steering wheel.
2. Remove cover plate (three screws).
3. Remove turn signal lever and conduit from wire
assembly.
4. Attach fine pliable wire through hole in connector.
Tape end of wire and connector.
5. Pull switch and wire assembly through column.
(Threading pliable wire).
6. Attach and tape wire to new connector.
7. Pull cofmector and wire through column.
8. Replace conduit on wire assembly.
9. Install turn signal lever screw.
10. Install cover plate.
11. Install steering wheel and horn actuator.
TRANSDUCER
Replacement
1. Disconnect battery ground cable.
2. Disconnect speedometer cables at transducer.
3. Disconnect vacuum and wiring harness at transducer
body.
4. Remove transd ucer to bracket screws and remove
transducer.
5. To install, reverse Steps 1-4 above.
RADIO
GENERAL DESCRIPTION
Six types of radios are available: A M Pushbutton, A M /
Stereo 8-Track Tape, A M /F M , A M /F M Stereo, A M /F M
Stereo/Stereo tape, and A M /F M Stereo Cassette Tape.
The left knob operates the on-off switch and volumne
control, the left ring operates the tone control. The right
hand knob controls manual tuning. All A M /F M radios have
five push buttons (10 station selections) five on A M and five
on FM.
LIGHT TRUCK SERVICE MANUAL
On models equipped with auxiliary speakers, a variable
control located behind the manual tuning knob adjusts the
volume of the front and rear speakers. Turn the control
clockwise to increase rear speaker volume and decrease
front speaker volume. Turn the control counterclockwise
and the rear speaker volume decreases and the front speaker
volume increases. Both speakers are controlled toegether by
the volume control knob.
ACCESSORIES
9-9
On models equipped with stereo radios, this control
varies front and rear speaker volume to obtain the desired
balance for stereo separation.
DIAGNOSIS
Diagnosis of radio portion of c a s s e tte - A M /F M is
shown on the diagnosis charts. For cassette diagnosis, refer
to Fig. 9-1R. If unit must be removed, it must be repaired by
an authorized service station. See Section 8 for removal
procedures and connections for speaker and power wiring.
In diagnosing radio/tape problems the main point to
remember is that you now have both a radio and a tape
player to diagnose as part of the stereo system. By inserting
test tape, J-22683-01, you can quickly determine whether
the tape speed is proper. Since only the pre-amps and audio
are common to both radio and tape, by listening for
distortion with the tape playing and comparing it to the
radio signal, you can further isolate the problem to either
radio or tape; See the Diagnosis Chart.
EIGHT-TRACK STEREO TAPE DIAGNOSIS
STATIC AND NOISE DIAGNOSIS
The tape player trouble diagnosis guide is intended as
an aid in locating minor faults which can be corrected
without a specialized knowledge of electronics and without
special test equipment. If the suggestions given here do not
effect a correction, further testing should be done only be a
trained radio technician having proper test equipment. It
should first be determined if the owner’s tape and not the
player is at fault. Substituting a known good tape cartridge
for the owner’s is a simple check.
Refer to figure 9-3R for radio static suppression on the
vehicle. Ground strap connections must be clean and tight,
spark plug cables must be T V R S type and in good condition
and resistance type spark plugs used. Extra electrical
equipment added to the car could cause static if not properly
grounded or wiring was improperly routed. Radio and
antenna lead-in grounding must be clean and tight. An
improperly trimmed antenna adjusting screw could result in
poor sensitivity and static/noise on AM stations only.
W eak FM station reception will be affected by near-by
buildings, car speed, direction and windshield wiper opera
tion. These "flutter," "swish" and "fading" conditions are
characteristics of weak FM signals.
CASSETTE TAPE PLAYER DIAGNOSIS
Because tape player service problems are generally
corrected by a radio repair shop, there is a tendency for
many technicians to remove a set when a problem is
reported. Removal of the tape player can frequently be
avoided if the diagnosis chart is used to eliminate problems
which can be easily fixed or which are not caused by a faulty
player.
CASSETTE TAPE PLAYER D IA G N O SIS
TAPE ONLY
TAPE W EAK
TAPE DEAD
IN S P E C T & CLEAN
C H E C K P L A Y E R FOR
O B S T R U C T IO N B E H IN D
C A P S T A N AND H E A D ’
TRY A KNOW N GOOD
DOOR
TAPE C A R T R ID G E
I________
NO O B S T R U C T IO N
O B S T R U C T IO N
TR Y A KNOW N
REMOVE
GOOD TAPE
O B S T R U C T IO N
C A R T R ID G E
r
DEAD
NOT OK
OK
R EM OVE R A D IO
A D V IS E C U ST O M E R
FOR R E P A IR
TAPE IS W ORN OR
♦
DEFECTIVE
W ORKS
REMOVE R A D IO U N IT
A D V IS E C U S T O M E R
FOR R E P A IR
TAPE IS W O RN OR
DEFECTIVE
Fig. 9-1 R--Cassette Tape Player Diagnosis
LIGHT TRUCK SERVICE MANUAL
9-10
ACCESSORIES
DIAGNOSIS AM/FM-CB RADIO COMBINATION
PROBLEM
CHECK
ACTION
No AM, FM or CB sound
No CB channel display.
Check Fuse
Remove radio for repair.
No AM, FM or CB sound
Channel display OK
Mode Switch
Squelch control
Remove radio for repair
No AM,or FM sound;
CB sound OK
Mode switch
Squelch
Remove radio for repair
No CB sound and no channel
display; AM/FM sound OK
Mode switch
R em ove radio for repair
No CB sound, channel display
OK; AM/FM OK.
Mode switch
Squelch
Replace antenna
Remove radio for repair
Irregular channel stepping &
unit not coordinated with display
Cable connections
Remove radio for repair
Display segments missing or
segment contrast not uniform
Mode switch
Remove radio for repair
Channel display won’t change
Selector switch
Remove radio for repair
Channel display indicates only “0 ”
Power connector
Remove radio for repair
Fig. 9 - 2 R - A M / F M - C B R adio D iagnosis
POPPING NOISE DIAGNOSIS
Operating switches such as turn signal, pushing in
cigarette lighter, operating stop lights, etc., may cause a
popping noise on distant A M (weak) signals. Adjusting the
antenna trimmer, if it is out of adjustment, will minimize
the noise.
TESTING WINDSHIELD ANTENNA (Fig. 9-4R)
All C-K model trucks with factory installed radios are
equipped with windshield antennas. To positively identify
antenna failure and eliminate the possibility of unnecessary
windshield replacem ent, Windshield A ntenna Tester
J-23520 should be used to determine continuity of the thin
antenna wire.
W hen antenna failure is suspected, the following
checks should be made before replacing the windshield.
1. Check Tester J-23520 for operation on any vehicle
radio antenna that is operating normally to test for a
weak or dead battery.
2. Check all antenna connectings to insure that antenna is
electrically coupled to the radio.
3. Turn ignition switch to accessory position, turn radio
"O N ", select A M band if receiver is A M /F M and tune
radio to an off station position.
4. Hold tester to antenna beginning at the upper corner of
antenna:
NOTICE: The plastic shield must be on tester at all
times to avoid scratching windshield.
LIGHT TRUCK SERVICE MANUAL
a. If a shrill sound is emitted through the speaker when
both a ntenna wires are tested, a ntenna is
operational.
If no sound is emitted through one or both antenna
wires, move tester along the wire toward center of
windshield and down toward radio.
If a shrill sound is picked up, find exact location
where the noise begins, this is the area of the defect.
Replace windshield.
If no noise is heard over entire length of antenna,
unplug antenna lead at radio and touch tester to
antenna socket in radio.
If radio now makes a shrill sound, check connectors
and antenna lead for possible defect before replacing
windshield.
f. If no noise is emitted, radio, speaker, or fuse is
defective.
Make sure that antenna tester is turned off after
completing antenna test.
ACCESSORIES
9-11
BRAIDED
GROUND
BLOWER MOTOR
CAPACITOR
AM/FM
FUSE PANEL
[v i e w
HOOD GROUND
CAPACITOR
BODY
BRAIDED
GROUND
FRAME
Fig. 9-3R--Radio Static Sup pre ssion -T ypical
Fig. 9-4R--Testing Windshield Antenna (Typical)
LIGHT TRUCK SERVICE MANUAL
9-12
ACCESSORIES
RADIO NOISE DIAG NO SIS
IMPROPERLY OPERATING IGNITION SYSTEM (HEI)
CHECK FOR BROKEN CONTACT BUTTON ON
ROTOR.
f......
■
CHECK FOR WORN CONTACT SPRING ON ROTOR
OR SPRING BINDING IN HOLDER.
....................................
fT—
REPLACE. |
....... ..................
CHECK FOR POOR INDEXING OF ROTOR SPRING.
— ...............................
| CORRECT OR REPLACE
F —------------------
CHECK FOR BAD DISTRIBUTOR CAP (CARBON
ERODED)._______________________________________
f REPLACE.
= 3 -----| REPLACE.
CHECK THAT CARBON CYLINDER IN
DISTRIBUTOR CAP ---IS MOVING
FREELY.
_
REPLACE
CHECK FOR GREASE ON ROTOR.
CORRECT.
CHECK FOR LOOSE GROUND SCREW ON
IGNITION MODULE.
CLEAN.
CHECK FOR LOOSE GROUND SCREW ON
DISTRIBUTOR CONDENSER.
TIGHTEN.
--------------------------------- 1
'
1
TIGHTEN.
Fig. 9-5R--Radio Diagnosis, Chart A
LIGHT TRUCK SERVICE MANUAL
WIRES. \
ACCESSORIES
9-13
RADIO NOISE — BLOWER MOTOR
Fig. 9-6R--Radio Diagnosis, Chart B
LIGHT TRUCK SERVICE MANUAL
9-14
ACCESSORIES
DEAD RADIO — AM RADIO
Fig. 9-7R--Radio Diagnosis, Chart C
LIGHT TRUCK SERVICE MANUAL
ACCESSORIES
9-15
DEAD RADIO — AM/FM RADIO
AM ONLY DEAD
AM AND FM DEAD
FM ONLY DEAD
REMOVE RADIO FOR
EXCHANGE OR REPAIR.
CHECK THAT ANTENNA
IS PLUGGED INTO
RADIO. MAKE SURE
PLUG ISN ’T COCKED.
CHECK FUSE.
FUSE OK
FUSE BLOWN
BAD CONNECTION
GOOD CONNECTION
UNPLUG RADIO POWER
LEAD. REPLACE FUSE.
CHECK AT THE RADIO
FOR FAULTY POWER
CONNECTION OR
SPEAKER
CONNECTIONS.
CHECK ANTENNA AND
LEAD-IN WITH
SUBSTITUTE ANTENNA.
TRIM. (SEE P R O C E D U R E )
REPAIR
CONNECTION.
RADIO W O RKS
STILL NO RECEPTION
REPLACE
MALFUNCTIONING
ANTENNA OR LEAD-IN.
RE-TRIM .
REMOVE RADIO.
FUSE D O E SN ’T BLOW
FUSE BLOW S AGAIN
CHECK ALL
ACCESSORIES ON FUSE
FOR PROBLEM. (SEE
SERVICE MANUAL/TEST
DRIVE IF NECESSARY.)
CO RRECT PROBLEM.
PLUG RADIO POWER
LEAD BACK IN.
FAULTY
CONNECTION
REPAIR CONNECTION.
SUBSTITUTE SPEAKER.
(USE FADER IF SO
EQUIPPED.)
NO RECEPTION
REMOVE RADIO.
RADIO W ORKS
RADIO W O RKS
STOP.
FUSE BLOWS
REMOVE RADIO.
REPLACE
M ALFUNCTIONING
SPEAKER/W IRING
ASSEMBLY.
Fig. 9-8R--Radio Diagnosis, Chart D
LIGHT TRUCK SERVICE MANUAL
9-16
ACCESSORIES
DEAD RADIO — AM/FM STEREO
C H E C K IF A L L S P E A K E R S A R E D E A D
( U S E F A D E R T O C H E C K .)
NO
YES
S U B S T IT U T E B A D S P E A K E R ( S ) .
SU BST IT U T E S P E A K E R W O RKS,
BUT D EA D SP O T ON FADER*
FM O N LY D EAD
A M A N D FM D E A D
|A M O N L Y D E A D
SU BST IT U T E S P E A K E R
D O E S NOT W O R K
R E M O V E R A D IO
R E M O V E R A D IO .
R E P L A C E M A L F U N C T IO N IN G
S P E A K E R / W IR IN G A S S E M B L Y
A N D R E M O V E R A D IO .
*FADER D EA D SPOT:
A S FADER IS ROTATED, A
P O SIT IO N IS FO UND AT
WHICH O N E O R TWO S P E A K E R S
S U D D E N L Y GO DEAD.
S U B ST IT U T E S P E A K E R W O R K S
A N D NO D E A D SP O T ON FA D ER*
R E P L A C E M A L F U N C T IO N IN G
S P E A K E R / W IR IN G A S S E M B L Y .
CHECK FU SE]
FUSE OK
C H E C K T H A T A N T E N N A IS
P L U G G E D IN T O R A D IO . M A K E
S U R E P L U G I S N ’T C O C K E D
FU SE BLOW N
C H E C K A T T H E R A D IO F O R
F A U L T Y P O W E R C O N N E C T IO N
O R S P E A K E R C O N N E C T IO N S .
U N P L U G R A D IO P O W E R L E A D ,
R E P L A C E F U SE.
B A D C O N N E C T IO N
GO O D C O N N E C T IO N
R E P A IR
C O N N E C T IO N
C H E C K A N T E N N A A N D L E A D IN
W IT H S U B S T IT U T E A N T E N N A .
T R IM ( S E E P R O C E D U R E )
S T IL L NO R E C E P T IO N
R E M O V E R A D IO l
FU SE B L O W S A G A IN
R A D IO W O R K S
R E P L A C E M A L F U N C T IO N IN G
A N T E N N A O R L E A D IN.
FU SE D O E S N ’T BLO W
C H E C K A L L A C C E S S O R IE S O N
F U S E F O R P R O B L E M (S E E
S E R V I C E M A N U A L / T E S T D R IV E IF
NECESSARY)
r
P L U G R A D IO
PO W ER LEAD
B A C K IN.
CORRECT PROBLEM
FAULTY
C O N N E C T IO N
R A D IO W O R K S
I
R E P A IR C O N N E C T IO N
S U B S T IT U T E S P E A K E R ( U S E
F A D E R IF S O E Q U IP P E D . )
NO R E C E P T IO N
REM O VE
R A D IO
R A D IO W O R K S
R E P L A C E M A L F U N C T IO N IN G
S P E A K E R / W IR IN G A S S E M B L Y .
Fig. 9-9R--Radio Diagnosis, Chart E
LIGHT TRUCK SERVICE MANUAL
1S T O P |
E
FU SE B L O W S
R E M O V E R A D IO " !
SLIMLINE POWER ANTENNA DIAGNOSIS
A N T E N N A W IL L N O T
A N T E N N A W IL L NO T
L O W ER
T R A V E L TO F U L L U P O R DO W N
(M O T O R D O E S N O T R U N )
P O S I T I O N S O R D O E S N 'T M O V E
C H EC K FUSE
C IG - C L K - D M
(M O T O R R U N S )
(BE S U R E M A S T I S C L E A N )
__________I_________
\
FU SE BLOW N
FU SE OK
P u ll up o n top s e c tio n
of m a s t
I
I
If se c t io n m oves
fre e ly, p la stic d riv e cable
is b roke n.
Fig. 9-1 OR—Slimline
P ro b e o r a n g e w ir e t e rm in a l
D is c o n n e c t c o n n e c t o r w ith
at a n t e n n a re la y w ith 12V.
o r a n g e w ir e at relay.
test l i g h t
ne w f u s e a n d re ch e c k.
r
In s t a ll
“1
FUSE O K
FU SE BLOW N
BROKEN
NOT B R O K E N
D R IV E C A B L E
L IG H T O N
N O L IG H T
t
1
R e p a ir s h o r t in
o r a n g e w ire .
D is c o n n e c t o t h e r
co n n e cto r. C o n n e ct
o r n w ire c o n n e c t o r,
Power Antenna
R em ove m ast a n d
Replace m ast a nd
U se a 12 v o lt test
Locate a n d re p a ir
s u p p o r t tube. C h e c k
su p p o rt tube.
lig h t a n d probe
ope n c i r c u i t in
m ast s e c t io n s fo r
w h ite w ire at a n t e n n a
o r a n g e w ire fro m
f re e m o v e m e n t
re la y c o n n e c to r.
re la y to f u s e panel.
re c h e c k f u se .
FU SE BLO W N
Diagnosis, Chart F
L IG H T OFF
L IG H T ON
R eplace relay.
B IN D IN G
FREE
FUSE OK
C h e c k a n d r e p a ir w h ite
w ir e to a n te n n a .
R eplace
f o r b ro k e n hook.
OK
If
replace ge a r
a sse m b ly .
C h e c k w h ite w ire
fro m re lay to a n t e n n a
R elay
C h e c k d riv e cable
If O K
r e p a ir a n t e n n a m otor
i
Free up s e c tio n s
f o r open c ir c u it.
o r replace m ast
pro be dk. g r e e n w ire.
If O K
ANTENNA R E LA Y
a n d su p p o rt tube.
a n d spool a sse m b ly.
L IG H T ON
C h e c k dk. g r e e n w ire
g r o u n d w ir e (black) a n d
re la y to c o n n e c t o r a nd
g r o u n d scre w .
c o n n e c t o r to a n t e n n a
replace relay.
If OK.
fo r loose c o n n e c t io n o r
open c ir c u it.
A C C E S S O R IE S
C h e c k re la y c o n n e c t io n s ;
NO L IG H T
If O K re p a ir
9 -1 7
m otor asse m b ly.
9-18
SLIMLINE POWER ANTENNA DIAGNOSIS (CONT’D)
ACCESSORIES
A N T tN N A W IL L NOT GO U P
IG N IT IO N A N D R A D IO
S W IT C H E S ON
(M O T O R D O E S NO T RUN)
C h e c k F u se s
(Radio a nd C ig - C lk - D m )
Fig. 9-11R—Slimline
----------}
F U S E S BLOW N
FU SES OK
I
T u r n ig n itio n off.
C L K -C IG
R A D IO
FU SE
F U SE
Power Antenna
D isc o n n e c t 3 w ire
Remove c o n n e cto r w ith
co n n e cto r w ith pin k
LIG H T ON
w ire at a n te n n a relay.
In st a ll new fu se
Locate and re p air open
c ir c u it in o ra n g e w ire
listen fo r relay click.
from fu se panel to relay.
Diagnosis, Chart G
FU SE OK
F U SE B L O W S
(R E L A Y E N E R G IZ E D )
B LO W S
f
Locate and repair sh o rt
co n n e cto r w ith w hite
c ir c u it in orange w ire
w ire and in sta ll co n n e cto r
from fu se panel to
con nector.
C h e ck f o r :
C h e ck yellow w ire from
Replace
fu se panel to radio and
a n te n n a
pin k w ire from radio
relay.
Probe Dk. Green w ire
in relay con nector.
to relay c o n n e cto r for
sh o rt c ir c u iL
relay. Recheck fuse.
NO C L IC K
C L IC K S
FUSE
FU SE O K
I
radio sw itch e s and
T u rn o n ig n itio n and
ff
w ith o ra n ge w ire at a n te n n a
L IG H T OFF
♦
In st a ll new radio fuse.
and recheck.
D isc o n n e c t 3 w ire
jjeii
w ire at the relay connector.
ora n g e w ire fro m a n te n n a
relay.
Use a 12 volt test light
and probe the o ra n g e
1.
Open relay gro u n d .
2.
Open pin k w ire from radio.
3.
Bad radio switch. C heck
with test light at pin k wire
term inal.
If OK
If OK
replace
relay.
rem ove radio fo r repair.
kL0P6 U iu3e M1L6 i
L IG H T ON
L IG H T OFF
\
Probe gra y w ire in
F U SE BLOW N
Replace
sam e connector.
F U SE OK
relay.
t
Replace
C h e ck g ra y and dk. green
relay.
w ire s from relay to an te n n a
LIG H T OFF
L IG H T ON
motor co n n e cto r and to the
I
a n te n n a assem bly for sh o rt
C h e c k co n n e cto r te rm in a ls
C h e ck for open in w ire s or co n n e ctio n s:
c irc u il
for good contact to relay.
gray to a n te n n a motor and dk. g r n from
a n te n n a motor to relay. If O K remove
If O K remove an te n n a
motor fo r repair.
OK. replace relay.
\
If
a n te n n a motor for repair.
ACCESSORIES
9-19
POWER A N T E N N A
General D escription and O peration
T he po w e r a n te n n a a u to m a tic a lly raises the a n te n n a
mast to its full h eight w he n ev e r the radio and ignition are
t u rn e d o n . T he a n te n n a r e tra cts into the fender w h e n e ither
the ignition or radio is tu rn e d o ff.
T he p o w e r a n te n n a drive unit is h o u se d in a 2 piece
plastic housing a tta c h e d to th e mast a nd tu b e a ssem bly. A
p e r m a n e n t m agnet m o t o r w ith w o r m drive m oves the
a n te n n a m ast up and d o w n w ith a plastic cable a tta c h e d to
the to p m ast section. No clutch is used in this u n it. U pper
a nd lower travel limits are c o n tr o lle d b y sw itches o p e n e d b y
a r m a tu r e shaft th rust as the m ast reaches the end o f its
travel. A circuit bre ake r is used to p r o t e c t th e m o t o r
a r m a tu re from over heating .
T w o ty p e s o f p o w e r a n t e n n a s are used d e p e n d in g on the
t y p e o f radio used in the car:
1) AM -FM T yp e
2) AM-FM-CB (T ri-B a n d) T y pe
T he AM-FM a n te n n a e x te n d s to a m a x i m u m height o f
7 9 4 m m (31 1 / 4 ” ). T h e AM-FM-CB (T ri-B and) a n te n n a
e x te n d s to a height o f 9 1 4 m m ( 3 6 ” ). T h e tri-band a n te n n a
has a load coil m o u n te d o n th e c en ter mast section to tu n e it
to th e CB radio b a n d and a stub a n te n n a lead tape d to the
su p p o rt t u b e . The stub m a tc h e s the a n te n n a to the FM b a n d
a nd should no t be rem oved e x c e p t for re p la c e m e n t.
On Car Service
T h ere is no on car service o f th e AM-FM a n te n n a o t h e r
t h an cleaning o f th e m ast sections. O n the T ri-B and a n te n n a
the load coil and tip are servicable in th e event o f da m a ge o r
loss. T he load coil h a s an a d ju s ta b le b a n d t o set SWR
( S ta n d in g Wave R a ti o ) for CB o p e r a t io n . T h e SWR is preset
o n c o m p le te a n te n n a assemblies b u t re p la c e m e n t load coils
m ust be ch ec k ed a n d /o r a d ju s te d using available SWR m ete rs .
Checking SWR
o e r v
nr 'ore b*.or:> boori
N O T IC E : S W R
ch ec k in g
procedures
require
t r a n s m itte r o p e r a t io n a nd FCC regu lations governing
CB ra dio o p e r a t io n a p p ly . T he follow ing o p t io n s are
available.
• Have SWR test p e rfo r m e d b y a tec h n ic ia n w h o has a
CB license.
• Acquire a dealership CB radio o p e r a t o r ’s license
w h ic h allows tec h n ician s to use license d u r in g
business h o u rs .
• Ask o w n e r or an o p e r a t o r possessing a p e r m a n e n t CB
R a d io license to p r o p e rl y o p e ra te t r a n s m itte r du ring
the test.
A d j u s t m e n t s or repairs re fe rre d to in the p r o c e d u re th a t
f ollo w s are limited to th e a n te n n a itself or the a n te n n a
lead in an d c o n n e c ti o n s .
MOTOR AND GEAR
HOUSING CO VER
CLIPS
SWITCH AND H ARN ESS
ASSEM BLY
C IR C U IT
B R EA K ER
LIM IT
SW ITCHES
BRUSHES
G EA R AND SPOOL
A SSEM BLY
BEAR IN G
TH R U ST
BLO CKS
F IE L D M AGNET
ASSEM BLY
MAST AND /
TUBE ASSEM BLY
MOTOR AND GEAR
HOUSING
ARM ATURE
ASSEM BLY
CABLE
STUB LEA D
CONNECTION
DRAIN TUBE
Fig. 9-12R--Slimline Power Antenna Diagnosis, Chart H
LIGHT TRUCK SERVICE MANUAL
9-20
ACCESSORIES
SWR (S T A N D IN G W A V E R A T IO ) C H E C K
1. With Ignition and Radio off install an SWR meter as shown
following meter manufacturers instructions.
NO TICE: Operation of transmitter requires FC C CB Operators
License.
When making this check, car should be at least 20 feet away from any
building, hood closed and no one should be standing close to the
antenna.
2. Turn on Ignition and Radio,
3. Check Antenna height - Must be fully extended.
914 mm (36”) from fender to tip
286 mm (11-1 /A") top of load coil to tip.
4
After adjustment is complete apply a small amount of thread
cement to adjusting band.
LEAD IN CABLE
FROM A N TE N N A
LE A D IN CA BLE
TO AM-FM RAD IO
SWR M ETER
RF JUMPER CA B LE
CB
R AD IO
IN -LIN E
S P LITTE R BOX
T R A N SM ITT ER SO CK ET
'\t A»l11,11" " I
/
/
S
L O A D C O IL A D J U S T M E N T
S T U R N O N L Y 1 /8 th T U R N A T A T IM E
SWR
/
CH A N N EL 40
H IGH ER
PO SSIBLE SWR R E A D IN G S
MOVE B A N D — ^
1.
Initial readings taken on Channel 1, 20, 40
a.
SWR of 2:1 or lower on Channel 20 and
nearly equal on Channels 1 and 40 is
considered good. No adjustment required.
b.
SWR higher than 2 1 on Channel 20.
Adjustment required.
c.
Unequal SWR on Channels 1 and 40 (one
channel in red) indicates adjustment
required
L 40
f
CLOCKW ISE*
MOVES BAND DOWN
CO U N TER C LO C K W ISE'
M OVES BAND UP
'R O TA TIO N LO OKING DOWN
A N Y R E A D IN G IN T H E R E D B A N D (A B O V E 3:1 SW R) C H E C K F O R :
— Antenna mounting screws tight making a good ground connection — Lead in cable connections
between antenna mounting surface and car sheet metal.
to
radio, splitter and antenna are tight,
L e a d in c a b le s n o t p in c h e d a n d c u t t i n g t h e i n s u la t i o n .
Fig. 9-13R—Slimline SW R Check
LIGHT TRUCK SERVICE MANUAL
ACCESSORIES
9-21
ON VEHICLE SERVICE
MAINTENANCE AND
ADJUSTMENTS
TAPE PLAYER MAINTENANCE
The only required m aintenance on tape players is
periodic cleaning of the tape player head and capstan. This
service should be performed every 100 hours of operation.
Since you can reach them through the tape door, you can
leave the tape player in the truck.
To clean the head and capstan, use a cotton swab
dipped in ordinary rubbing alcohol. Wipe the head and
capstan as shown in Figure 9-15R .
No lubricants should be used since they will cause the
player to operate improperly, especially at extreme
temperatures.
Do not bring any magnetized tools near the tape head.
If the head becomes magnetized, every cartridge played in
the player will be degraded.
To operate the tape player, completely insert a car
tridge into the unit. This turns the tape player on, autom ati
cally removes power from the radio, and switches the
speakers from the radio to the tape player. This feature
prevents accidental damage to the radio should the owner
attempt to operate it while the tape player is in use.
After the tape player is in operation, the front panel
controls of the player are then adjusted for the most pleasant
stereo listening.
The tape player is equipped with a cartridge locking
arm to hold the cartridge in a rigid position against the
capstan drive for minimum wow and flutter. As the car
tridge is withdrawn from the player, the on/off switch at the
other side of the cartridge is not completely disengaged
when the cartridge lock arm reaches a detent point on the
cartridge. Always withdraw the cartridge just beyond the
detent point for normal operation from the radio.
Tape cartridges should be handled carefully and should
be kept clean and out of direct sunlight. A cartridge should
not be left inserted fully in the player. This may cause
permanent damage to the cartridge.
ANTENNA TRIMMER ADJUSTMENT-ALL RADIOS
(Fig. 9-16R)
The antenna trimmer adjustment must be made any
time the radio is removed and installed, a new windshield or
lead-in is installed or if weak, AM reception is noted. (Fig.
9-6R).
COMPONENT PART
REPLACEMENT
RADIO OR RADIO TAPE REMOVAL
(Refer to Section 8).
RADIO DIAL LAMP REMOVAL
(Refer to Section 8).
RADIO SPEAKER REMOVAL
(Refer to Section 8).
ANTENNA
C-K Models
1.
T U R N R A D IO O N A N D TU N E R A D IO FOR
W EAK S T A T IO N A T OR N E AR 1400 KC.
2.
RE M O V E R IG H T H A N D KNOBS.
3.
T U R N V O L U M E UP.
4.
C A R E F U L L Y T U R N A N T E N N A T R IM M IN G
SCREW
BACK
AND
FORTH
U N T IL
M A X IM U M V O L U M E IS O B T A IN E D . SET
T R IM M E R A T PEAK V O L U M E .
N O TE: O N CARS W IT H POWER A N T E N N A ,
T R IM W IT H MAST F U L L Y E X T E N D E D
9 -1 6 R -T rim m in g R a d io
Fig. 9-15R-Cleaning Tape Player Head
LIGHT TRUCK SERVICE MANUAL
9-22
ACCESSORIES
Antenna Replacement
Refer to Section 2 of this manual "Windshield Re
placement" procedure.
Cable Replacement (Fig. 9 -1 7R)
1.
2.
3.
4.
Disconnect battery ground cable.
Unsnap antenna cable from windshield.
Remove bracket to dash panel screws.
Disconnect cable at rear of radio receiver and remove
cable assembly.
G Models
Antenna Replacement (Fig. 9 -1 8R)
1. Unscrew mast nut. Prevent the cable assembly from
turning by using two separate wrenches. Remove rod
and mast assembly.
2. To install, insert rod and mast assembly into cable
assembly and tighten mast nut. Prevent cable assembly
from turning by using a second wrench.
Cable Assembly Replacement (Fig. 9 -1 8R)
1. Disconnect battery ground cable.
2. Remove antenna assembly as described above.
3. Remove cable body nut and then remove seal, bezel,
gasket and ring ground.
4. Perform Steps 2-8 of "R ad io Receiver Rem oval".
Refer to Section 8.
5. Disconnect cable at rear of receiver.
6. Insert new cable through the dash panel (from the
forward side).
7. Reverse Steps 1-5 above to complete installation.
Be sure cable grommet is properly positioned in dash
panel.
POWER ANTENNA
DESCRIPTION A N D OPERATION
The power an ten na used on " G " models operates
automatically whenever the radio is turned on. The drive
gear unit on the automatic system consists of a drive gear
and pulley assembly and a spool for storing the excess nylon
Fig. 9-19 R--G M o d e l Power Antenna
drive cable when the mast is in the retracted position, plus
two limit switches and a gear operated cam system to
actuate the switches. The limit switches are used to open the
motor circuits when the mast reaches the full up or down
positions.
When the motor circuit is completed by the radio or
ignition switch, the motor drives the gear and pulley to
extend the drive cable and antenna.
The gear is coupled to
limiting clutch that permits
the mast reaches the limit of
retracts into the fender or
intermediate position.
the drive pulley by a torque
continued gear rotation when
travel. The antenna mast fully
extends 3 1 - 1 / 4 " and has no
POWER ANTENNA - G MODELS
Replacement (Fig. 9-19R and 9-20R)
1. Lower antenna by turning off radio or ignition.
2. Disconnect battery ground cable.
3. Remove coolant recovery bottle.
Fig. 9 -2 0 R -G M odel Power Antenna W iring
LIGHT TRUCK SERVICE MANUAL
ACCESSORIES
9 -23
PO W ER
ANTENNA
RELAY
"
Fig. 9 -21 R--G M o d e l Pow er Antenna Relay
4. Remove motor lower bracket retaining nut and upper
bracket screws.
5. Disconnect electrical leads and remove antenna and
motor assembly.
6. To install, reverse steps 1-5 above.
POWER ANTENNA RELAY
The power antenna relay is bracket mounted to the
parking brake assembly as illustrated in figure 9*21 R.
LIGHT TRUCK SERVICE MANUAL
9-24
ACCESSORIES
POWER ANTENNA DISASSEMBLY-SLIMLINE
NOTICE: W i t h the e x c e p t io n of load co il on the tr i- b an d
ant e nn a , all service o pe r a ti o n s requ ir e ope ni ng the m o t o r and
gear hou sing. A l l disassembly w i l l re quire a b o l t and clip
package.
1. REMOVE A N D IN STA LL MOTOR AND
GEAR HOUSING COVER.
R EM O V A L
INSTALL
1. Remove parts shown.
2. Seperate housing and cover as shown.
1. Re m o v e loose or excess sealer and reassemble using 3 bo lt s
and n u ts , f r o m service package and the 5 clips.
2. A p p l y R T V sealer a r o u n d s u pp o rt t u b e a nd along seam o n t o p
half of hou sing.
EY ELETS
MOTOR AN D GEAR
H O U S IN G CO VER
R o ll L ip o f Eye let
up or Dr ill Ou t to
Rem o ve Eye let.
MOTOR AN D GEAR
H O U S IN G
SC RE W D R I V E R
NOTCHES
MAST A N D TUBE
ASSEMBLY
CLIPS
2. REM OVE A N D IN STA LL MAST A N D
TUBE ASSEMBLY.
REMOVAL
IN S TA LL
1. Reassemble as shown with mast extended to reduce length of
cable.
2. Run motor to lower mast into support tube. Reseal housing and
support tube.
1. Remove parts as shown
MOTOR AN D GEAR
H O U S IN G C OVER
GREEN
CONNECT B A TT E R Y LEADS
CABLE HOOK
TO RAISE
MOTOR AN D GEAR
H O U S IN G
Disengage cable from gear by rotating cable90
Fig. 9-22R--Slimline Disassembly I
LIGHT TRUCK SERVICE MANUAL
TO LOWER
ACCESSORIES
9-25
3. REMOVE AND INSTALL SWITCH AND
HARNESS ASSEMBLY.
REMOVAL
INSTALL
1. R em o v e parts as sh ow n .
1. Pos ition s w it ch .
2. Re m o ve excess sealer w he r e w ir e goes th r o u g h housing.
2. Reseal area w he r e wir es come o u t o f housing. Reseal housing.
S W IT C H A N D H A R N E S S
ASSEMBLY
be tw e e n th r u s t b lo c ks
4. REMOVE AND IN STA LL A R M A TU R E
A N D M AG NET ASSEMBLY.
IN S TA LL
REMOVAL
1. R em o v e parts as sh ow n .
2. Cle a n ou t o ld grease.
1.
L u b ri c a te w o r m and gear w i t h l i t h i u m soap grease such as Sun
Prestige # 2 o r equ iv a le n t.
Oil
2. A p p l y d r o p o f light o il t o bearings.
3. Reassemble and seal housing.
Fig. 9-23R~Slimline Disassembly II
LIGHT TRUCK SERVICE MANUAL
9-26 ACCESSORIES
REMOVE AND INSTALL GEAR
ASSEMBLY.
REMOVAL
IN STA LL
1. Disassemble as shown.
2. Clean out old lubricant.
1 . Apply lubricant to worm and gear.
2. Reassemble and seal housing.
SWITCH A N D HARNESS
MOTOR A N D GEAR
H OUSING C OVER
/
MAST AND
TUBE ASSEMBLY
GEAR A N D SPOOL
ASSEMBLY
MOTOR AN D GEAR
H OUSING
CABLE
1
X
CABLE HOOK
6.
REMOVE AND INSTALL CB LOAD COIL AND/OR TIP.
REMOVAL
IMSTALL
1. Disconnect Net). Battery Cable.
1
2. Turn on ignition and radio then connect
battery long enough to raise antenna
about half way.
2. Adiust S.W.R. (See SWR adjustment
procedure)
Reassemble as shown using thread
cement to lock in place.
3. Remove parts as shown using padded pliers.
TIP
LOAD COIL
(USED ON AM FM CB
TR I BAND A N T E N N A O N LY )
\
Fig. 9-24R--Slimline Disassembly III
LIGHT TRUCK SERVICE MANUAL
METRIC AND FASTENER INFORMATION
SECTION 10
METRIC & FASTENER
INFORMATION
USE OF METRIC AND CUSTOMARY NUTS, BOLTS AND SCREWS
Some of the 1981 model cars present special service requirements to the technician due to the use of both
metric and customary (inch) type nuts, bolts and screws on the same car. Many are metric and some are
very close in dimension to customary nuts, bolts and screws in the inch system. Mismatched or incorrect
nuts, bolts and screws can result in damage, malfunction or possible personal injury. Nuts, bolts and screws
removed from the car should be saved for re-use whenever possible. If they are not re-usable, care should be
taken to select a replacement that matches the original.
( /X;i
General Motors Engineering Standards have adopted a portion of the standard metric fastener sizes defined
by SI (Systeme International). This was done to reduce the number of sizes used and yet retain the best
strength characteristics in each thread size. For example, the customary 1/4-20 and 1/4-28 screws are
replaced by the metric M6.3 x 1 screw which has nearly the same diameter and 25.4 threads per inch. The
thread pitch is in between the customary coarse and fine thread pitches.
Metric and customary thread notation differ slightly. The difference is illustrated below.
CUSTOMARY
METRIC
1/4
M6.3
Thread Major
Thread Major
Diameter
Diameter
in Inches
in Millimeters
20
1
Number of
Distance
Threads
Between Threads
per Inch
in Millimeters
Care should be taken when servicing the car to guard against cross threading or improper retention due to
interchanged metric and inch nuts and bolts.
When obtaining metric or customary nuts, bolts, and screws locally for servicing the car, care must be
exercised in selecting parts that are equivalent to the original parts in dimensions, strength, and pitch of
threads.
10-1
10-2
METRIC AND FASTENER INFO RM A TIO N
REUSE OF P R E V A IL IN G T O R Q U E N U T(S) A N D BOLT(S)
P R E V A IL IN G TO R Q U E N U TS A R E TH O SE N U TS W HICH
IN C O R P O R A T E A S Y S TE M TO D E V E L O P AN IN T E R F E R E N C E
B ETW EEN N U T A N D B O L T T H R E A D S IN T E R F E R E N C E IS MOST
CO M M O N LY A C H IE V E D BY D IS T O R T IN G TOP O F A L L -M E T A L
N U T, B U T A L S O M AY BE A C H IE V E D BY D IS T O R T IN G A T
M ID D L E OF H E X F L A T , B Y N Y LO N P A TCH ON T H R E A D S , BY
N Y LO N W A SH ER IN S E R T A T TOP OF N U T A N D B Y N Y LO N
IN S E R T T H R O U G H NU T.
P R E V A IL IN G T O R Q U E B O LT S A R E T H O S E B O LT S W H ICH
IN C O R P O R A T E A S Y S T E M TO D E V E L O P AN IN T E R F E R E N C E
B ETW EEN B O L T A N D N U T OR T A P P E D H O LE T H R E A D S .
IN T E R F E R E N C E IS A C H IE V E D BY D IS T O R T IN G SOME OF T H E
T H R E A D S (S E V E R A L M ETH O D S E X IS T ), BY A P P L Y IN G A
N Y LO N PA T C H OR S T R IP OR BY A D H E S IV E C O A T IN G ON
TH READ S.
PRE VAILING TORQUE NUTS
PRE VAIL ING TOR QU E BOLTS
(I ° I )
TOP LO CK M AN Y
TYPES
I®
CEN TER
LO CK
D R Y A D H E S IV E C O A T IN G
GSD
N Y LO N
IN S E R T
O U T OF R O U N D T H R E A D A R E A
NYLON
P A TCH
Q
N Y LO N
W ASH ER
IN S E R T
N Y LO N S T R IP OR P A TCH
T H R E A D P R O F IL E D E F O R M E D
R E C O M M E N D A T I O N S FOR REUSE
A.
C LEAN . UNRUSTED
FOLLO WS :
1.
2.
3.
4
5.
B
P R E V A ILIN G
TORQUI
BOLTS
AND
N IT S
MAY
Bl
R EU SE D
AS
C L E A N D IR T A N D O T H l R FO R E I G N M A T E R I A L OL E NI T A N D BOLT
INSPECT B O L T A N D N I T TO ASSURE T i l l Rl A R L NO ( RAC KS. E L O N G A T I O N OR
O T H E R SIGNS Of ABUSE OR O V E R T I G H T E N I N G . L IG H T L V L U B R I C A T E T H R E A D S . ( I F
A N Y D O U B T . RE PL A CE WI TH NEW P R E V A I L I N G TO RQ UE F A S T E N E R OF E Q U A L OR
G R E A T E R S T R E N G T H .)
ASSEMBLE PARTS A N D S T A R T B O L T OR N UT .
OBSERVE T H A T BEFORE F A S T E N E R SEATS. IT DE VE L OP S P R E V A I L I N G TO RQ UE PER
C H A R T Bl LOW ( IF A N Y D O U B T . I N S T A L L NEW P R E V A I L I N G T O R Q U I FA S T E N E R OF
E Q U A L OR G R E A T E R S T R E N G T H ) .
T I G H T E N TO TO RQ UE SPE C IF IE D IN S E R V K I M A N U A L .
BO LTS A N D N I T S WHIC H ARE RU ST Y OR D A M A G E D SHOl L I ) BE R E P L A C E D W IT H NEW
PARTS OF E Q U A L OR G R I A T E R ST R l N G TH .
METRI r
NUT S A N D
A L L M E T A L BOLTS
s izes
6 & 6.3
8
10
i:
14
16
20
0.4
0.8
14
2.2
3.0
4.2
7.0
4.0
7.0
12
18
25
35
57
0.4
0.6
12
1.6
2.4
3.4
5.6
5.0
10
14
20
28
46
N Mil
In I bs.
N • in
A D H E S I V E OR N Y L O N
C O A T E D BOLTS
In. I hs.
4.0
INCH SIZES
NUTS A N D
A L L M E T A I BOLTS
N • in
In. Lbs.
N •m
A D H E S I V E OR N Y L O N
C O A T E D BOLTS
In. Lbs.
.375
.437
.500
.562
.625
.750
0.6 .
1.4
1.8
2.4
3.2
4.2
6.2
4.0
5.0
12
15
20
27
35
51
0.4
0.6
1.0
1.4
1.8
2.6
3.4
5.2
4.0
5.0
9.0
12
15
11
28
43
.250
.312
0.4
METRIC AND FASTENER INFO RM A TIO N
10-3
METRIC BOLT AND NUT IDENTIFICATION
Common metric fastener strength property classes are 9.8 and 10.9 with the class identification
embossed on the head of each bolt. Customary (inch) strength classes range from grade 2 to 8 with
line identification embossed on each bolt head. Markings correspond to two lines less than the
actual grade (i.e. grade 7 bolt will exhibit 5 embossed lines on the bolt head). Some metric nuts will
be marked with single digit strength identification numbers on the nut face. The following figure
illustrates the different strength markings.
GRADE 2
(GM 2 0 0 -M)
GRADE 5
(GM 280-M )
GRADE 7
(GM 290-M )
GRADE 8
(GM 300-M )
C u sto m a ry (inch) bolts - Id e n tific a tio n m arks co rre sp o n d to bo lt
strength - In cre asin g num bers represent increasing strength.
M e tric B o lts - Id e n tific a tio n class n u m be rs c o rre sp o n d to bo lt
strength - In cre asin g num be rs represent increasing strength.
MANUFACTURERS
ID E N T IF IC A T IO N
NUT STRENGTH
ID E N T IF IC A T IO N
PO SID RIV
SCREW HEAD
ID E N T IF IC A T IO N MARKS (4)
10-4
SI METRIC-CUSTOMARY CONVERSION TABLE
Multiply
millimeters (mm)
meters (m)
meters
kilometers (km)
25.4
0.304 8
0.914 4
1.609
AREA
millimeters2 (mm2)
centimeters2 (cm2)
meters2 (m2)
meters
645.2
6.45
0.092 9
0.836 1
Inch2
Foot2
Yard2
16 387.
16.387
0.016
0.946
3.785
0.764
Quart
Gallon
Yard
meter/sec2 (m/s2)
meter/sec2
TORQUE
0 112 98
1.355 8
Pound-inch
Pound-foot
newton-meters (N*m)
newton-meters
POWER
0.746
Horsepower
kilowatts (kW)
PRESSURE OR STRESS
mm/
cm
liters (1)
liters
liters
meters3 (m3)
4
4
4
6
MASS
Inches of mercury
Pounds/sq. in.
3.377
6.895
kilopascals (kPa)
kilopa seals
ENERGY OR WORK
BTU
Foot-pound
Kilowatt-hour
kilograms (kg)
kilograms (kg)
tonne (t)
0.453 6
907.18
0.907
Pound
Ton
Ton
0.304 8
0.025 4
Foot/sec2
Inch/sec2
VOLUME
Inch*
to get equivalent
number of:
by
ACCELERATION
LENGTH
Inch
Foot
Yard
Mile
METRIC AND FASTENER INFORMATION
to get equivalent
number o f:
by
Multiply
1 055.
1.355 8
3 600 000
or 3 .6x10*
joules (J)
joules
joules (J = one W’s)
LIGHT
Foot candle
10.764
lumens/meter2 (lm/m2)
FORCE
FUEL PERFORMANCE
9.807
0.278 0
4.448
Kilogram
Ounce
Pound
newtons (N)
newtons
newtons
Miles/gal
Gal/mile
(°F-32) v 1.8
°F
-40
0
-40
20
1 i i i i i
1
i
i
°C
32
1 40
t
0
degree Celsius (C)
20
120
i
40
37
Miles/hour
r 609 3
kilometers/hr. (km/h)
°F
98.6
80
1 1 ..i..i i l l
kilometers/liter (km /1)
liters/kilometer (1/km)
VELOCITY
TEMPERATURE
Degree Fahrenheit
0.425 1
2.352 7
.
i
212
200 ,
160
;
i t
i i i i i i i il
1
i t
60
80
100
°c
I
METRIC AND FASTENER INFO RM A TIO N
10-5
DECIMAL AND METRIC EQUIVALENTS
Fractions
1/64
1/32
3/64
1/16
5/64
3/32
7/64
1/8
9/64
5/32
11/64
3/16
13/64
7/32
15/64
1/4
17/64
9/32
19/64
5/16
21/64
11/32
23/64
3/8
25/64
13/32
27/64
7/16
29/64
15/32
31/64
1/2
___ .
.
.
.
.
.
.
.
.
.
___ .
___ .
___ .
.
___ .
___ .
___ .
------- .
.
___ .
___ .
___ .
___ .
.
.
___ .
___ .
.
___ .
___ .
___ .
___
Decimal
In.
.015625 . . .
.03125 . . .
.046875 . . .
.0625 . . . .
.078125 . . .
.09375 . . .
.109375 . . .
.125 .........
.140625 . . .
.15625 . . .
.171875 . . .
.1875
.203125 . . .
.21875 . . .
.234375 . . .
.250 .........
.265625 . . .
.28125 . . .
.296875 . . .
.3125 ___
.328125 . . .
.34375 . . .
.359375 . . .
.375 .........
.390625 . . .
.40625 . . .
.421875 . . .
.4375 . . . .
.453125 . . . .
.46875 . . .
.484375 . . .
.500 ......... .
Metric
MM.
.39688
.79375
1.19062
1.58750
1.98437
2.38125
2.77812
3.1750
3.57187
3.96875
4.36562
4.76250
5.15937
5.55625
5.95312
6.35000
6.74687
7.14375
7.54062
7.93750
8.33437
8.73125
9.12812
9.52500
9.92187
10.31875
10.71562
11.11250
41.50937
11.90625
12.30312
12.70000
Fractions
33/64
17/32
35/64
9/16
37/64
19/32
39/64
5/8
41/64
21/32
43/64
11/16
45/64
23/32
47/64
3/4
49/64
25/32
51/64
13/16
53/64
27/32
55/64
7/8
57/64
29/32
59/64
15/16
61/64
31/32
63/64
1
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
Decimal
In.
.515625 . .
.53125 . . .
.546875 . .
.5625 . . .
.578125 . .
.59375 . . .
.609375 . .
.625 . . . .
.640625 . .
.65625 . . .
.671875 . .
.6875 . . .
.703125 . .
.71875 . . .
.734375 . .
.750 ___
.765625 . .
.78125 . . .
.796875 . .
.8125 . . .
.828125 . .
.84375 . . .
.859375 . .
.875 . . . .
.890625 . .
.90625 . . .
.921875 . .
.9375 . . .
.953125 . .
.96875 . . .
.984375 . .
1.00 .........
Metric
MM.
13.09687
13.49375
13.89062
14.28750
14.68437
15.08125
15.47812
15.87500
16.27187
16.66875
17.06562
17.46250
17.85937
18.25625
18.65312
19.05000
19.44687
19.84375
20.24062
20.63750
21.03437
21.43125
21.82812
22.22500
22.62187
23.01875
23.41562
23.81250
24.20937
24.60625
25.00312
25.40000