height adjustment CHEVROLET CAMARO 1967 1.G Chassis Workshop Manual

CORVETTE BODY 1B-27

CUT OFF PAINTED

PORTION OF CARTRIDGE NOZZLE

ALONG EDGE-OF PAINT LINE

ADHESIVE CAULKING

MATERIAL

Fig.
60—Applying Caulking Material to Glass

GARNISH MOLDINGS PLUS HEADLINER-

19437 MODEL

Figure 64 illustrates installation details of garnish

moldings and headlining.

Headlining is not cemented in place.

Removal of dome lamp and garnish moldings is

necessary.
J-NUT

FILLER PANEL

BODY REAR

Fig.
61—Installing Rear Glass
Fig.
62—Gas Tank Door and Rear Trim Plate

SEATS

Removal

1.
Remove bolt retaining each forward support to floor.

2.
Fold seat back forward.

3.
Loosen two bolts retaining each seat hold-down

bracket.

4.
Move seat forward and out of brackets.

Adjustments

Height of seats is adjustable at both front and rear by

means of shims or washers.

Angle of seat backrest may be changed by adjusting

stops located on lower edge of seat back.

BODY MOUNTING

Figure 65 illustrates underbody attachment-to-frame

body mounting brackets. Shims which are shown on

rear crossmember are cemented in place.

The torque of all body mounting bolts should be checked

periodically as an aid to preventing annoying squeaks

and rattles. AH bolts shown in Figure 65 should be

torqued to 45 lbs. ft.

BODY REPAIRS

GENERAL INSTRUCTIONS

The following gives information necessary for repair

of collision damage and performance of general main-

tenance on both the 19437 and 19467 Corvette bodies.

Included here is information dealing with availability of

repair panels, general installation procedures for in-

staUing panels and repairing damage to the body.

Repair of fiber glass reinforced plastic bodies is a

relatively easy matter if a few simple precautions are

observed.

In cases where welding must be done on steel parts

which are stiU installed on body, do not allow flame or

direct welding heat to come into direct contact with

CHEVROLET CHASSIS SERVICE MANUAL

FRONT SUSPENSION 3-5

FRONT END ALIGNMENT

Front end alignment, that is alignment of the inter-

related steering components of the front suspension sys-

tem, must be correctly maintained to assure ease and

stability of steering and satisfactory tire life.

Alignment Preliminary Steps

Several different types of machines are available for

checking all the factors of front end alignment. The in-

structions furnished with each particular machine should

be followed. In all cases, however, checks should be

made with the vehicle level and at curb weight.

Since steering complaints are not always the result of

improper alignment a check should be made to see if any

of the following conditions exist. Any such conditions

should be corrected before proceeding further.

1.
Steering gear loose or improperly adjusted.

2.
Steering gear housing loose at frame.

3.
Excessive wear or play in spherical joints or steer-

ing shaft coupling.

4.
Tie rod or steering connections loose.

5.
Improper front spring heights.

6. Unbalanced or underinflated tires.

7.
Improperly adjusted wheel bearings.

8. Shock absorbers not operating properly.

Wheel alignment should always be made with the vehi-

cle rolled forward taking out any slack in the same man-

ner as when the vehicle is traveling forward.

Caster and Camber Adjustment

NOTE: Before adjusting caster and camber

angles, the front bumper should be raised and

quickly released to allow car to return to its

normal height.

Chevelle, Camaro and Corvette

Caster and camber adjustments are made by means of

shims inserted between the upper control arm inner sup-

port shaft and the support bracket attached to the frame

(fig. 6). Shims may be added, subtracted or transferred

to change the readings as follows:
Fig.
6 - Caster and Camber Adjustment - Chevelle

Typical of Corvette and Camaro

Caster - change shims at either the front or rear of

the shaft.

The addition of shims at the front bolt or removal

of shims at the rear bolt will decrease positive

caster. One shim (1/3 2") will change caster (ap-

prox.) 1/4°.

Camber - change shims at both the front and rear of

the shaft.

Adding an equal number of shims at both front and

rear of the support shaft will decrease positive cam-

ber. One shim (1/32") at each location will move

camber (approx.) 1/5° (Chevelle and Camaro); 1/6°

(Corvette).

TIGHTEN TO LOCK

ADJUSTMENT

Fig.
7 - Caster and Camber Adjustment Points - Chevrolet

CHEVROLET CHASSIS SERVICE MANUAL

FRONT SUSPENSION 3-6

Fig.
8 - Caster and Camber Adjustments - Chevy

To adjust for caster and camber, loosen the upper sup-

port shaft to crossmember nuts, add or subtract shims as

required and retighten nuts.

NOTE:
Caster and camber can be adjusted in

one operation.

Caster and camber specifications will be found in the

last section of this book.

Chevrolet and Chevy II

The caster angle is adjusted by turning the two niits at

the front of the lower control arm strut rod (figs. 7 and

8).
Shortening this rod will increase caster. Lengthen-

ing will decrease caster.

Camber angle is adjusted by loosening the lower con-

trol arm pivot bolt and rotating the cam located on this

pivot. This eccentric cam action will move lower control

arm in or out, thereby varying camber.

Steering Axis Inclination Adjustment

"Camber" is the outward tilt of the wheel and "steering

axis inclination" is the inward tilt of the knuckle. Cam-

ber cannot be changed without changing steering axis

inclination. Correct specifications willbe found at the

end of this section. If, with the camber correctly ad-

justed, the steering axis inclination does not fall within

the specified limits the knuckle is bent and should be

replaced.

If a new knuckle is installed, caster, camber and toe-in

must be readjusted.

Toe-In Adjustment

Toe-in, the inward pointing of both front wheels, is

checked with the wheels in the straight ahead position. It

is the difference of the distance measured between the

extreme front and the distance measured between the ex-

treme rear of both front wheels. Correct toe-in specifi-

cations will be found at the end of this section.
NOTE:
Toe-in must be adjusted after caster

and camber adjustment.

A. If the equipment being used measures the toe-in of

each wheel individually:

1.
Set the steering gear on the high point, mark 12

o'clock position on the steering shaft and position

the steering wheel for straight ahead driving.

2.
Loosen the clamp bolt at each end of each tie rod

and adjust to the total toe-in as given in the speci-

fications at the end of this book.

B.
If a tram gauge is being used, proceed as follows:

1.
Set the front wheels in the straight ahead position.

2.
Loosen the clamp bolts on one tie rod and adjust

for the proper toe-in as given in the specifications

at the end of this book.

3.
Loosen the clamp bolts on the other tie rod. Turn

both rods the same amount and in the same direc-

tion to place the steering gear on its high point and

position the steering wheel in its straight ahead

position.

C.
After the adjustment has been made:

1.
a. Chevrolet—Position inner tie rod clamp bosses

forward to 90° down to avoid stabilizer link bolt

interference.

b.
Chevelle—Position the tie rod clamp bosses

down to 45?° forward to avoid interference.

c. Chevy II--Position the outer tie rod clamp

bosses forward and not more than 45° up or

down from horizontal to avoid interference.

Inner clamps forward and vertical.

d. Corvette--Position inner tie rod clamps with

bolt horizontal and down. Position outer clamps

with bolt vertical and to the rear.

e. Camaro—Position inner tie rod clamps with

open end of clamp and slot in line. Position

relative to ground unimportant. Position outer

clamps with bolt top and 30° either side of ver-

tical. Position relative to slot unimportant.

RIDING HEIGHT AND COIL SPRING SAG

The following check will quickly determine whether or

CHEVROLET CHASSIS SERVICE MANUAL

FRONT SUSPENSION 3-9

Inspection

1.
Check bearings for cracked separators or worn or

pitted rollers and races.

2.
Check brake drum for
out-of-
round or scoring.

3.
Check fit of bearing outer cups in hub.

Repairs

Replacement of Bearing Cups

1.
Using steel bar stock, make press-out tools shown in

Figure 11.

2.
Insert removers through hub, indexing ends into slots

in hub shoulder behind bearing cup.

3.
Using a suitable extension pipe or rod, press bearing

cups from hub.

4.
Install new bearing cup in hub using Tool J-8849 on

the outer and Tool J-8850 on the inner cup (fig. 12).

Use Driver Handle J-8092 with the installers. Make

sure that the bearing cups are not cocked and are

fully seated against shoulder in hub.

Installation

1.
Pack both inner and. outer bearings using a high

melting point wheel bearing lubricant.

2.
Place inner bearing in hub, then install a new inner

bearing lip seal assembly. Seal flange should face

bearing cup.

3.
Carefully install wheel hub over steering spindle.

4.
Install outer bearing, pressing it firmly into the hub

by hand.

5.
Install spindle washer and adjusting nut. Draw up

tight and adjust wheel bearings as outlined under

"Front Wheel Bearing Adjustment".

STEERING KNUCKLE

Chevrolet, Chevelle, Camaro and Corvette—It is rec-
ommended that vehicle be raised and supported on a

twin-post hoist so that the front coil spring remains com-

pressed, yet the wheel and steering knuckle assembly re-

main accessible. If a frame hoist is used, support lower

control arm with an adjustable jackstand to safely retain

spring in its curb height position.

Chevy n— While vehicle weight is still on front wheels,

position support between upper control arm and frame

side rail (fig. 13), then raise vehicle and position adjust-

able jackstand under lower control arm.

Removal

1.
Raise vehicle and support lower control arm as noted

above.

2.
Remove hub cap, wheel hub dust cover, cotter pin,

adjusting nut and washer. Withdraw wheel and tire,

brake drum, (or, on Corvette--brake caliper and disc

and hub assembly, See Section 5) and wheel hub and

bearing assembly from steering knuckle spindle.

3.
Remove brake shoes from backing plate (except

Corvette, See Section 5) and clamp wheel cylinder.

CAUTION: Keep brake shoes clean and dry.

4.
Remove brake anchor pin and two bolts securing

brake backing plate and steering arm to steering

knuckle.

5.
Withdraw steering arm and brake backing plate from

steering knuckle. Wire backing plate to frame (fig.

13).
Do not disconnect brake line.

NOTE: Refer to Section 9 - Steering Linkage -

Tie Rod, for further steering arm service

operations.

6. Remove upper and lower ball stud cotter pins and re-

move ball stud nuts. Free steering knuckle from

ball studs by rapping steering knuckle bosses. With-

draw steering knuckle.

Installation

1.
Place steering knuckle in position and insert upper

and lower ball studs into knuckle bosses.

2.
Install ball stud nuts and tighten nut as shown in the

specifications at the end of this section.

Fig.
12 - Installing Front Hub Inner Bearing
Fig.
13 - Backing Plate Removed - Chevy II

CHEVROLET CHASSIS SERVICE MANUAL

SECTION
4

REAR SUSPENSION
AND
DRIVE LINE

CONTENTS
OF
THIS SECTION

Page

Rear Suspension
4-1

Drive Line.
. 4-26

Rear Axle ......
4-26
Propeller Shaft
and
Universal Joints

Special Tools
4-37

4-43

REAR SUSPENSION

INDEX

General Description
4-1

Chevrolet
4-1

Chevelle
4-1

Chevy
n and
Camaro
. . . . . 4-2

Corvette
. . . . . . 4-3

Maintenance
and
Adjustments ...............
4-4

Riding Height Check (Chevrolet, Camaro,

Chevelle
and
Chevy
II) 4-5

Wheel Alignment (Corvette)
4-5

Wheel Bearing Adjustment (Corvette)
4-6

Component Parts Replacement (Chevrolet, Camaro,

Chevelle
and
Chevy
JJ) 4-7

Coil Spring
4-7

Chevrolet
4-7

Removal
4-7

Installation
4-7

Chevelle
4-8

Removal
4-8

4-8

Installation
.

Leaf Spring, Spring Seat Pads, Spring
Eye

Bushings
4-9

Chevy
H 4-9

Removal
4-9

Installation
4-9

Camaro
4-10

Removal
4-10

Installation
4-11

Shock Absorber
4-11

Chevrolet
and
Chevelle
. 4-11

Removal
4-11

Installation
. . 4-12

Chevy
II 4-12

Removal
4-12

Installation
4-rl2

Camaro
4-12

Removal
. 4-12

Installation
4-12

Control
Arm . . 4-12

Chevrolet Upper
4-12

Removal
. 4-12
Page

Bushing Replacement
. 4-13

Installation
4-14

Chevrolet Lower
4-14

Removal
4-14

Bushing Replacement
4-14

Installation
. 4-15

Chevelle Upper
and
Lower.
. 4-15

Removal
4-15

Bushing Replacement
4-15

Installation
4-17

Rear Suspension
Tie Rod
(Chevrolet)
. . .
......
. . . 4-17

Removal
4-17

Bushing Replacement
4-17

Installation
4-17

Component Parts Replacement (Corvette)
. . 4-17

Wheel Spindle
and
Support
4-17

Removal
4-17

Repairs
', . 4-17

Installation
4-18

Differential Carrier Support Bracket Replacement.
. 4-20

Shock Absorber
4-20

Removal
4-20

Installation
* .... 4-20

Strut
Rod and
Bracket
4-20

Removal
4-20

Repairs
4-21

Installation
4-21

Spring
4-21

Removal
4-21

Repairs
4-22

Installation
4-22

Torque Control
Arm 4-23

Removal
4-23

Repairs
. 4-23

Installation
4-24

Suspension Crossmember
4-24

Removal
4-24

Repairs—Isolation Mount
4-25

Installation
4-25

Stabilizer Shaft Replacement
4-25

GENERAL DESCRIPTION

CHEVROLET

The link type rear suspension (fig. 1) has two lower

control arms which maintain proper axle to frame re-

lationship and also take the acceleration, drive and

braking forces. A single upper control arm on light-

duty models (or two upper control arms on heavy-duty

models and all station wagons) limits axle rotation when

drive, acceleration or braking forces are applied. Lateral

movement of the axle is restricted by the axle-to-frame

tie rod. Two full coil springs and two direct, double
acting shock absorbers are provided for additional ride

control.

CHEVELLE

The rear suspension (fig. 2) is of the four-link design

utilizing axle mounted, full coil springs and direct,

double-acting shock absorbers.

Two rubber-bushed lower control arms, stretching

slightly outboard from axle-mounted brackets to frame

side member mounted brackets, maintain fore and aft

CHEVROLET CHASSIS SERVICE MANUAL

REAR SUSPENSION AND DRIVE LINE 4-30

Fig.
76—Differential Gear Failure

Hypoid Gears

Hypoid gear tooth scoring (fig. 74) is caused generally

by improper break-in, incorrect lube, insufficient gear

backlash or improper 'ring/pinion gear alignment. The

scoring will progressively lead to complete erosion of

the gear tooth, or gear tooth pitting and eventual fracture

with possible attendant damage to bearings, if the initial
scoring condition is not diagnosed in time and corrected.

Hypoid gear scoring is easily recognized by its char-

acteristic loud whine in either drive, coast or under both

conditions. Another cause of hypoid tooth fracture (fig.

75) is extended overloading of the gear set which will

produce fatigue fracture, or shock loading which will

result in sudden failure.

Differential Gears

Common causes of differential gear failure are shock

loading, extended overloading leading to fatigue failure,

and overheating of gear thrust surfaces resulting from

excessive wheel spin and consequent lubrication break-

down. Overheating will lead to seizing of thrust surfaces

or tooth failure (fig. 76).

Bearings

• Failure of axle tapered roller bearings is due pri-

marily to excessive wear caused by long service or

foreign materials in the oil. The second most common

cause of bearing failure is too tight or too loose pre-

load adjustment leading to spalling and eventual failure.

This failure may also lead to hypoid gear scoring due to

the resultant misalignment of the hypoid gear set.

COMPONENT PARTS REPLACEMENT

(Chevrolet, Cheveile, Chevy II and Camaro)

AXLE ASSEMBLY

Removal

1.
Raise vehicle to a height that will permit axle as-

sembly to hang freely and position supports under

both frame side rails.

2.
Disconnect wheel cylinder inlet lines. Disconnect and

remove brake hose and brake line retaining bracket

by removing retaining bolt from carrier cover.

3.
Loosen parking brake equalizer adjusting nut and

disconnect both rear cables at frame bracket and at

control arms. See Section 5 for detail of parking

brake cable removal.

4.
Remove two trunnion bearing "U" bolts from the

rear yoke and separate rear universal joint. Wire

propeller shaft to frame side rail and tape trunnion

bearing cups.

5. Support arid secure axle assembly with an adjustable

lifting device. On Chevrolet and Cheveile models,

loosen upper and lower control arm attaching bolts

at axle housing. (On Chevrolet models, disconnect

tie rod at axle bracket.)

6. Disconnect shock absorbers at axle brackets. Refer

to Shock Absorber Removal procedures outlined in

this section.

7. On Chevrolet and Cheveile models, lower axle as-

sembly until suspension reaches end of travel, then

disconnect spring retainers and withdraw springs

from vehicle.

8. On Chevy II and Camaro models, remove four nuts

securing lower spring seat to axle housing, then

remove spring front eye bolts or spring attaching

bracket and swing spring to rear so that it does not

interfere with axle.

9. On Chevrolet and Cheveile models, disconnect upper

and lower control arm attaching bolts at axle housing*
10.
Lower axle assembly and remove from under vehicle.

Installation

1.
Place axle assembly under vehicle and raise into

position.

2.
On Chevrolet and Cheveile models, install, but do not

tighten, upper and lower control arm attaching bolts

at axle housing.

3.
On Chevrolet models, position coil springs in upper

seats so that end of spring is indexed in seat.

4.
On Chevrolet models, install lower end of spring on

axle bracket or control arm and secure by installing

retainer and bolt. Install lock washer and retainer

nut.

5. On Cheveile pry lower pigtail of spring over vertical

flange of the axle bracket spring seat.

6. On Chevy II and Camaro models, install spring seat

pads and swing springs up into spring seats on axle

housing, making sure upper seat pads are aligned in

axle housing bracket.

7. Install spring front eye bolt and tighten, then install

spring seat lower mounting bracket and retaining

nuts.

8. Raise axle assembly to allow shock absorber and tie

rod installation. Position shock absorber in axle

bracket. Torque nut as outlined in Shock Absorber

Installation procedures.

9. Install brake hose and brake line retaining bracket

to carrier and connect wheel cylinder inlet lines.

Connect parking brake cable to frame bracket and

at control arm. Adjust parking brake and bleed

brakes as outlined in Section 5.

10.
Reassemble rear universal joint to companion flange.

11.
Support vehicle at axle and remove supports from

beneath the frame side rails.

12.
Remove supports and lower vehicle to floor. Torque

all affected parts to specifications.

CHEVROLET CHASSIS SERVICE MANUAL

BRAKES 5-8

Fig.
17—-Checking Brake Shoe Lining Clearance

Using Tool J-21177

b.
Turn the tool to the opposite side and fit over

the brake shoes by turning the star wheel, until

the gauge just slides over the linings (fig. 17).

c. Rotate the gauge around the brake shoe lining

surface to assure prpper clearance.

Alternate

a. Using the brake drum as an adjustment fixture

turn the star wheel until the drum slides over

the brake shoes with a slight drag.

b.
Turn the star wheel 1-1/4 turns to retract the

shoes.
This will allow sufficient lining-to-drum

clearance so final adjustment may be made as

described in Step 4.

3.
Install the drum and wheel.

NOTE: 1: If lanced area in brake drum is

knocked out, be sure all metal has been re-

moved from brake compartment. Install new

hole cover in drum to prevent contamination

of the brakes.

NOTE: 2: Make certain when installing drums

that drums are installed in the same position

as when removed with the drum locating tang

in line with the locating hole in the wheel hub

(fig. 18).

4.
Make final adjustment by making numerous forward

and reverse stops, applying brakes with a firm

pedal effort until a satisfactory brake pedal height

results.

NOTE: Frequent usage of an automatic trans-

mission forward range to halt reverse vehic;..$

motion may prevent the automatic adjuster.:?

from functioning, thereby inducing low pedal

heights.
Fig.
.18—Aligning Drum Tang with Wheel Hub

Parking Broke

The rear brake assemblies serve a dual purpose in

that they are utilized both as a hydraulically operated

service brake and also as a mechanically operated

parking brake. In view of this dual purpose, the service

brake must be properly adjusted as a base for parking

brake adjustment; conversely the parking brake must

be properly adjusted for the service brake to function

as intended.

Adjustment

1.
Jack up both rear wheels.

2.
Apply parking brake, two notches from fully re-

leased position.

3.
Loosen the equalizer forward check nut, and tighten

or loosen the rear nut until a light to moderate drag

is felt when rear wheels are rotated.

4.
Tighten check nuts securely.

5.
Fully release parking brake and rotate rear wheels;

no drag should be present.

Inspection

If complete release of the parking brake is not ob-

tained, 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.

2.
Inspect brake assembly for straightness and align-

ment (replace if necessary).

3.
Clean and lubricate parking brake assembly.

4.
Check routing of cables for kinks or binding.

CHEVROLET CHASSIS SERVICE MANUAL

CLUTCH
AND
TRANSMISSIONS
7-20

COMPONENT PARTS REPLACEMENT

3.

4.

5.

6.
TRANSMISSION REPLACEMENT
(EXC.
CORVETTE)

Removal From Vehicle

1.
Remove shift lever trim plate and dust boot.

Remove shift lever assembly.

Raise vehicle
to
desired working height.

Disconnect
the
speedometer cable from speedometer

driven gear fitting.
.
~
. •

Remove propeller shaft, then support engine
at the

oil
pan
rail with
a
jack
or
other suitable support

capable
of
supporting
the
engine when transmission

is removed.

Disconnect shift lever bracket assembly from exten-

sion
and
remove
all 3
transmission shifter levers

from shifter shafts, (leave linkage connected
to

levers)
and
remove bracket assembly levers
and

linkage.

Remove extension mount7 to-crossmember attaching

bolts.

Loosen transmission crossmember
and
move rear-

ward
or
remove.

Remove
the
transmission-to-clutch housing retaining

bolts
and
install two guide pins, J-1126,
in
top holes.

Slide
the
transmission straight back until
the
input

shaft
is
free
of
splines
in the
clutch disc.

Slide
the
transmission rearward
to
allow sufficient

clearance
of
input shaft
and
clutch housing. Then tilt

input shaft
end of
transmission downward and with-
8.

9.

10.

11.
draw transmission from vehicle.

installation
to
Vehicle

1.
Raise transmission
and
rotate
as
necessary-to start

input shaft into clutch disc
and
slide transmission

forward until
it
bottoms against clutch housing.
Re-

move guide pins.

2.
Install
the
transmission-to-clutch housing retaining

bolts.
Torque
all
four retaining bolts
to 50 ft. lbs.

3.
Raise engine
and
position extension mount
to
cross-

member,
and
loosely install
the
retaining bolts.

Tighten crossmember
to
frame retaining bolts.

4.
Remove temporary support from engine, and torque

the extension mount retaining bolts.

5. Install propeller shaft.

6. Install control lever bracket assembly
to
transmis-

sion extension
and
connect shifter levers
to
shifter

shafts.

7. Fill transmission
to
level
of
filler plug hole with

correct lubricant specified
in
Section
0.

8. Lower vehicle and install shift lever assembly, check

shift pattern and adjust linkage
as
required.

9. Install trim plate and dust boot.

CORVETTE TRANSMISSION REPLACEMENT

Refer
to
similar procedure under 3-Speed Corvette

Transmission.

FOUR-SPEED (SAGINAW) TRANSMISSION

INDEX

Page

General Description
7-20

Maintenance
and
Adjustments
. . 7-21

Shift Linkage Adjustment.
. 7-21

Speedometer Driven Gear
and

Oil Seal ................
(See
Muncie 4-Speed)

Side Cover
7-22
Page

Removal
. . , 7-22

Disassembly
. . 7-22

Assembly
. . . 7-22

Installation
. 7-22

Extension
Oil
Seal
(See
Muncie 4-Speed)

Transmission Replacement (See Muncie 4-Speed)

GENERAL DESCRIPTION

The Saginaw four speed fully synchronized
(all
forward

gears) transmission incorporates helical drive gears

throughout.

The main drive gear
is
supported
by a
ball bearing
at

the front
end of the
transmission case and
is
piloted
at its

front
end in an oil
impregnated bushing mounted
in the

engine crankshaft.
The
front
end of the
mainshaft
is

piloted
in a row of
roller bearings
set
into
the
hollow
end

of
the
main drive gear
and the
rear end
is
carried
by a

ball bearing mounted
in the
front
of the
extension housing.

The countergear
is
carried
on a
single
row of
rollers

at both ends while thrust
is
taken on thrust washers
lo-

cated between
the
ends
of the
gear and
the
thrust bosses

in
the
case. Ah anti-rattle plate assembly
at the
front
of

the countergear provides
a
constant spring tension
be-

tween
the
counter
and
clutch gears
to
reduce torsional

vibrations.
The
sliding reverse idler gear
is
carried
on

a bushing finish bored
in
place.
It
rotates
on a
short

idler shaft retained by
a
woodruff
key.

The synchronizer assemblies consist
of a
clutch
hub,

clutch sleeve,
two
clutch
key
springs and three energizer

clutch keys
and are
retained
as an
assembly on
the
main

shaft
by a
snap ring.
A great deal
of
similarity
and
interchangeability
now

exists between
the new 3 and
4-speed Saginaw trans-

missions.

However,
the
synchronizer assembly
at the
front
of the

mainshaft
is
used
for the
third and fourth rather than
the

second
and
third shift.
The
synchronizer assembly
at

the rear
of the
mainshaft
is
used
for the
first and second

rather than
the
first
and
reverse shift. Gear teeth
cut

in
the
first and second synchronizer sleeve (reverse gear)

distinguish
it
from
the
third
and
fourth synchronizer

sleeve.

Starting from
the
front, gears
on the
mainshaft
are

third, second
and
first rather than second, first and
re-

verse.
A
fourth blocker ring
is
used between
the 1-2

synchronizer assembly
and
first gear
on the
four-speed

transmissions.

The cover
on the new
four-speed transmission
is lo-*

cated
on the
left-hand side
of the
case.
It is
similar
to

the three-speed cover with
the
addition
of a
reverse

shifter shaft assembly, detent ball
and
detent spring.

Disassembly
and
assembly procedures
are
covered
in

this section.

CHEVROLET CHASSIS SERVICE MANUAL

SECTION 11

CHASSIS SHEET METAL

CONTENTS OF THIS SECTION

Chevrolet and Chevelle 11-1

Chevy II . . 11.-11

Camaro 11-19

Corvette (See Section IB)

Special Tools 11-25

CHEVROLET AND CHEVELLE

INDEX

Page

General Description 11-1

Maintenance and Adjustments •. il-1

Hood Adjustment 11-1

Hinges 11-1

Bumpers 11-1

Catch Assembly and Lock 11-1

Fenders 11-4

Sheet Metal 11-4

Component Part Replacement 11-4

Battery Tray 11-4
Page

Radiator Support 11-4

Fender Assembly . . 11-4

Skirt 11-4

Trim 11-5

Hood Assembly 11-6

Lock and Catch 11-7

Trim and Insulation 11-7

Cowl Vent Grille 11-7

Rear Wheel Cover 11-7

Simulated Wood Grain Moulding . . . . 11-7

GENERAL DESCRIPTION

The new front end appearance of the 1967 Chevrolet

and Chevelle passenger cars affects the servicing and

replacement of the chassis sheet metal. Refer to Section

13 for Radiator and Grille service procedures, Section
14 for Bumpers, and Section 1A for Air Conditioning

components. Figures 1 and 2 illustrate the Chevrolet

and Chevelle sheet metal components.

MAINTENANCE AND ADJUSTMENTS

HOOD ADJUSTMENT

The alignment of the hood is controlled by the position

of the hood hinges and the height of the two bumpers lo-

cated one at each side of the radiator support. The ad-

justment at the hood lock must be made after the hinges

and bumpers are properly adjusted. To align the hood

and lock proceed as follows:

HOOD HINGE (Fig. 3)

NOTE:
The body mounted portion of the hood

hinges are slotted to provide up and down move-

ment. The hood mounted end is slotted to pro-

vide forward and rearward movement.

1.
Scribe a line around the entire hinge plate to be re-

positioned.
2.
Loosen the appropriate screws and shift the position

of the hood into correct alignment using the scribe

marks to check amount of movement. Check align-

ment by tightening screws and closing the hood.

HOOD BUMPERS

Adjust hood bumpers so that hood top surface is flush

with the fender and grille top surfaces. Refer to Fig-

ures 4 and 5 for correct sheet metal adjustment dimen-

sions.

HOOD CATCH AND LOCK

The hood catch assembly (fig. 6) mounting holes are

slotted to provide adjustment for the hood lock bolt. Ad-

just the hood lock bolt until hood engages securely when

closed and hood bumpers are slightly compressed.

CHEVROLET CHASSIS SERVICE MANUAL

CHASSIS SHEET METAL 11-13

HOOD ADJUSTMENT

The alignment of the hood in relation
to*
other sheet

metal parts is controlled by the position of the hood

hinges and the height of the two bumpers, located one at

each end of the radiator support. The adjustments at

the hood latch must be made after the hinges and bumpers

are positioned to yield the dimensions shown in Figure

17.
Latch adjustments are made so that effort required

to open and close the hood is reasonable, and hood align-

ment obtained by hinge and bumper adjustment is main-

tained when the hood is closed. Note that the hood latch

is not designed or intended to correct basic hood align-

ment faults.

To align the hood and lock, proceed as follows:

HOOD HINGE (Fig. 18)

1.
Note that the mounting holes in the body-mounted

end of the hinge are slotted to provide up and down

movement of the hood assembly while the hood

mounted end is slotted to provide fore and aft move-

ment.

2.
Scribe a mark around the entire hinge plate which

will be involved in the adjustment.

3.
Loosen the appropriate screws and shift the position

of the hood on the hinge plate the approximate amount

to correct misalignment, using the scribed marks to

check amount of movement. Check condition of ad-

justment by tightening cap screws and closing hood.

Fig.
18 - Hood Hinge - Chevy II
Fig.
19 - Hood Lock, Catch and Support - Chevy II

HOOD BUMPERS

Hood bumpers must be adjusted until hood and fender

line up as shown in Figure 17.

HOOD CATCH AND LOCK (Fig. 19)

Hood lock plate mounting holes are slotted to provide

fore and aft adjustment of the hood lock bolt. The hood

lock bolt itself is adjustable for up and down positioning

of the lock bolt head so that its proper engagement in the

latch assembly may be provided for. The distance that

the lock bolt protrudes out of the lock plate should be

adjusted so that the hood bumpers are slightly com-

pressed by the fully latched hood and so that the effort

required to release the hood catch is reasonable.

FENDER ADJUSTMENT (Figs. 17 and 20)

DO NOT CHANGE SKIRT ASSEMBLY-TO-DASH SHIM-

MING IN AN EFFORT TO ADJUST THE DOOR-TO-

FENDER GAP OR ANY OTHER SHEET METAL AP-

PEARANCE ITEM.

The front fenders are shimmed independently of the

skirt assemblies, unlike conventional- vehicles on which

almost the entire front end sheet metal assembly is

shimmed and adjusted as a unit.

Figure 20 shows the locations of front fender shims.

1.
The rocker panel extension location allows adjust-

ment to make fender outer surface flush with door

outer surface.

2.
The upper or plenum chamber location provides a

means of adjusting fender upper surface so that it

is flush with the upper surface of the cowl.

3.
The locations atop the skirt assembly are shimmed

to close the gap created between the fender mounting

flange and skirt assembly when the plenum chamber

CHEVROLET CHASSIS SWVICE MANUAL