1967 CHEVROLET CAMARO steering

FRONT SUSPENSION 3-21

Chevy II

Removal

1.
Support control arm on Tool J-7 574-4 and insert

Spacer J-9514 (fig. 34).

2,
Press bushing out with Tool J-9226 and Handle

J-7079-2 (fig. 34).

Installation

With Spacer J-9514 still in control arm, invert control

arm and press in new bushing with Tool, J-7474-2 and

Handle J-7079-2 until bushing is fully seated.

CAUTION: It should be noted that control arm

bushing diameters are unequal and bushing must

be pressed into position through larger diameter

only.

CROSS SHAFT AND/ON BUSHINGS

Corvette

Removal

1.
Remove bolt, lock washer and collar from each end

of cross shaft.

2.
Thread a 7/16 x 20 capscrew (furnished with Tool

J-5888) to the bottom of the threads in one end of the

cross shaft.

3.
Support control arm in an arbor press on Tool

J-5888-3,
as shown in Figure 35.

NOTE:
Be certain bushing flange does not

contact support.

4.
Press on cap screw until bushing is free of control

arm. Discard bushing.

5. Remove cap screw from cross shaft. Insert it in

other end of shaft. Invert control arm on support.

Again be certain bushing flange does not contact

support.

6. Press on cap screw until bushing is free of control

arm. Discard bushing.

Installation

1.
With cross shaft in control arm and Tool J-7052-1

in position, place control arm on Tool J-5888-3.

Hand start bushing into control arm and over end of

cross shaft.

NOTE:
The end of the shaft with the two bolt

holes should be toward front of control arm.

2.
Install Tool J-7052-5 over bushing. Be certain

three-piece spacer is not over-lapping bushing holes

in control arm.

3.
Press bushing into control arm until flange contacts

control arm (fig. 36).

4.
Invert arm in press and repeat the process on the

other bushing. After installation, cross shaft should

be free enough to be rotated by hand.

5. Install collar, lock washer and cap screw in each end

of cross shaft. Tighten to torque shown in Specifica-

tions after spring installation.
UPPER CONTROL ARM SPHERICAL JOINT

Chevrolet, Chevelle, Comoro and Corvette

Inspection

The upper spherical joint is checked for wear by

checking the torque required to rotate the ball stud in the

assembly. After performing the first four steps under

"Replacement" below, install a stud nut on the stud and

measure the torque required to turn the stud in the as-

sembly with a torque wrench. Specified torque for a new

joint is 9 lbs. ft. If torque readings are excessively

high or low, replace the ball joint. If excessive wear is

indicated in upper joint, both upper and lower joints

should be replaced.

NOTE:
This inspection does not necessitate

upper control arm removal.

Replacement

1.
Support the vehicle weight at the outer end of the

lower control arm.

2.
Remove the wheel and tire assembly.

3.
Remove cotter pin and nut from upper control arm

ball stud.

4.
Remove the stud from knuckle.

5. Cut off the ball joint rivets with a chisel.

6. Install new joint and retain in place with the special

nuts and bolts supplied.

7. Reassemble ball stud to the steering knuckle.

Chevy II

Inspection

The following on-the-vehicle check is to determine ball

joint wear.

NOTE:
The upper ball joint is a loose fit when

not connected to the steering knuckle. Wear may

be checked without disassembling the ball stud

by
using'
the following procedure:

1.
While vehicle weight is still on front wheels, insert

upper control arm support as shown in Figure 14.

2.
Raise vehicle and allow wheel and tire to hang free.

3.
Measure distance from tip of ball stud to top surface

of control arm.

4.
Place adjustable jackstand under tire and raise

slightly to take up ball joint looseness.

5. Repeat Step 3 and if the difference in measurements

exceeds 3/32", the joint is excessively worn and

should be replaced.

Replacement

1.
With vehicle weight still on front wheels, install

spacer between upper control arm and frame side

rail (fig. 15). Raise vehicle.

2.
Remove wheel and tire.

3.
Disconnect stabilizer link (if present) and strut rod

at lower control arm.

4.
Remove cotter pin and nut from upper ball joint stud.

5. Break ball stud loose. Drop lower control arm,

steering knuckle and brake assembly with an adjust-

able jackstand until upper control arm ball joint is

easily accessible.

6. Using a large chisel, cut off the three ball joint re-

taining plate rivet heads. It may be necessary to

drill out rivet heads before chiseling.

CHEVROLET CHASSIS SERVICE MANUAL

FRONT SUSPENSION
3-22

CHEVROLET

s-L 1 \
TYPICAL
OF

-^-x ^K CORVETTE, CHEVELLE AND CAMARO

CHEVY n

Rg.
37 - Upper Control Arm Attachment

NOTE:
Additional support to upper control

arm may be necessary while chiseling.

7. Clean ball joint seat in arm and inspect for cracking

or other evidence of fatigue. If cracks are present at

the rivet holes or ball joint opening, replace arm as

outlined later in this section.

8. Attach replacement ball joint assembly to the control

arm, using special bolts furnished with replacement

kit.

NOTE:
Use only special hardened bolts fur-

nished with this replacement kit. Do not attempt

to use other non-hardened bolts and do not at-

tempt to rivet replacement ball joint to arm.
9. Raise lower control arm and steering knuckle as-

sembly into position, insert upper ball stud into up-

per steering knuckle and install stud nut. Torque

nut as shown in the specifications and insert new

cotter pin. Install stabilizer and strut rod.

10.
Lubricate ball joint, install wheel and tire and re-

move adjustable jackstand.

11.
Lower vehicle and remove upper control arm spacer.

12.
Check and readjust caster and camber angles where

necessary.

LUBE FITTINGS

Special self threading type lube fittings are used in the

spherical joint assemblies. If it is necessary to replace

a fitting a standard threaded type may be used. However,

replacement spherical joint assemblies are supplied less

the lube fitting. Therefore it will be necessary to install

a self threading type fitting into the untapped hole pro-

vided when replacing the entire assembly.

UPPER CONTROL ARM

Chevrolet, Chevelle, Camaro and Corvette

(Fig.
37)

Removal

1.
Support vehicle weight at outer end of lower control

arm.

2.
Remove wheel and tire assembly.

3.
Remove cotter pin and nut from upper control arm

ball stud. ,

4.
REMOVE The stud from knuckle.

5. Remove two nuts retaining upper control arm shaft to

front crossmember. (Chevelle, Camaro and Cor-

vette—Note number of shims at each bolt.)

6. Remove the bolts attaching the control arm to the

frame to allow proper clearance for control arm

removal if necessary.

7. Remove upper control arm from vehicle.

Installation

1.
Install upper control arm in vehicle.

2.
Install nuts, bolts and lock washers retaining upper

control arm shaft to frame. (Chevelle, Camaro and

Corvette—Install same number of shims as removed

at each bolt.)

3.
Torque nuts as shown in the Specifications at the end

of this book.

4.
Install ball stud through knuckle, install nut, tighten

and install cotter pin.

5. Install wheel and tire assembly.

6. Lower vehicle to floor.

7. Bounce front end of vehicle to centralize bushings

and tighten bushing collar bolts as shown in the

Specifications.

Chevy II (Fig. 37)

Removal

1.
Remove spring and shock absorber as outlined above.

2.
Position adjustable jackstand under lower control

arm.

3.
Remove cotter pin and nut from upper ball joint stud

and strike steering knuckle boss to loosen stud.

4.
Drop lower control arm and steering knuckle

assembly.

CHEVROLET CHASSIS SERVICE MANUAL

FRONT SUSPENSION 3-23

CHEVROLET

J-7052-2

CAMARO
& CHEVELLE

J-21482
CHEVROLET

J-7052-2

CAMARO
& CHEVELLE

J-21482

Fig.
38 - Removal and Installation of Upper Control Arm Bushings - Chevrolet and Chevelle (Chevelle shown as typical)

5.
Remove upper control arm pivot shaft stud nuts from

fender skirt and remove upper control arm.

6. Inspect upper control arm for cracks or bending and

replace if necessary.

Installation

1.
Insert upper control arm pivot shaft studs into rein-

forced fender skirt openings, install lock washers

and nuts and torque as indicated in the specifications.

Raise lower control arm and steering knuckle as-

sembly into position, insert upper ball joint stud into

steering knuckle and install ball stud nut and insert

new cotter pin.

Install spring and shock absorber as outlined earlier

in this section.

Lubricate ball joint and lower vehicle. Check caster

and camber angles and adjust where necessary.

UPPER CONTROL ARM

CROSS SHAFT AND/OR BUSHINGS

Chevrolet, Chevelle and Camaro

Removal

1.
Remove cap screws, lock washers and collars from
2.

3.

4.
both ends of cross shaft.

2.
Install a 3/8-24 cap screw in one end of cross shaft,

3.
Support control arm in an arbor press on Tool

J-5888-3 as shown in Figure 38.

NOTE: Be certain flange of bushing does not

contact support.

4.
Press out bushing, invert control arm and repeat

process on other bushing. Discard bushings.

5.
Remove cap screw from cross shaft.

NOTE: If bushing rubber is deteriorated to the

extent that the bushing sleeve cannot be pushed

out, release the press, install J-9502-3 as shown

in Figure 38 and press out the sleeve.

Installation

1.
Install arm in arbor press with Tool J-7052-2

(Chevrolet) or J-21482 (Chevelle and Camaro) in

place and press in one bushing using J-7052-5 as

shown while supported on Tool j-5888-3 as shown in

Figure 38.

2.
Install cross shaft in arm, invert in press, and press

in second bushing as above.

3.
Cross shaft should be able to be turned by hand.

CHEVROLET CHASSIS SERVICE MANUAL

REAR SUSPENSION AND DRIVE LINE 4-29

REAR AXLE NOISE DIAGNOSIS

Mechanical failures of the rear axle are relatively

simple to locate and correct. Noise in a rear axle is a

little more difficult to diagnose and repair. One of the

most essential parts of rear axle service is proper

diagnosis.

Ail rear axles are noisy to a certain degree. The

action of transmitting the high engine torque through a

90° turn reducing propeller shaft speed produces noise

in rear axles. This point establishes the need for a line

between normal and abnormal or unacceptable axle

noises.

Slight axle noise heard only at a certain speed or under

remote conditions must be considered normal. Axle noise

tends to "peak" at varying speeds and the noise is in no

way indicative of trouble in the axle.

If noise is present in an objectionable form, loud or at

all speeds, an effort should be made to isolate the noise

as being in one particular unit of the vehicle. Axle noise

is often confused with other noises such as tire noise,

transmission noise, propeller shaft vibration and uni-

versal joint noise. Isolation of the noise as in any one

unit requires skill and experience. An attempt to elimini-

ate a slight noise may baffle even the best of diagnos-

ticians. Such practices as raising tire pressure to

eliminate tire noise, listening for the noise at varying

speeds and on drive, float and coast, and under proper

highway conditions, turning the steering wheel from left

to right to detect wheel bearing noise, will aid even the

beginner in detecting alleged axle noises. Axle noises

fall into two categories: gear noise and bearing noise.

GEAR NOISE

Abnormal gear noise can be recognized since it pro-

duces a cycling pitch and will be very pronounced in the

speed range at which it occurs, appearing under either

"drive," "float" or "coast" conditions. Gear noise

tends to peak in a narrow speed range or ranges, while

bearing noise will tend to remain constant in pitch. Ab-

normal gear noise is rare and usually originates from

the scoring of the ring gear and pinion teeth as a result

of insufficient or improper lubrication in new assemblies.

Side gears seldom give trouble as they are used only

when the rear wheels travel at different speeds.

BEARING NOISE

Defective bearings will always produce a whine that is

constant in pitch and varies with vehicle speed. This fact

will allow you to distinguish between bearing noise and

gear noise.

1.
Pinion bearing noise resulting from a bearing failure

can be identified by a constant rough sound. Pinion

bearings are rotating at a higher speed than differen-

tial side bearings or axle shaft bearings. This

particular noise can be picked up best by testing the

car on a smooth road (black top). However, care

should be taken not to confuse tire noise with bear-

ing or gear noise. If any doubt exists, tire treads

should be examined for irregularities that would

produce such noise.

2.
Wheel bearing noise may be confused with rear axle

noise. To differentiate between wheel bearings and

rear axle, drive the vehicle on a smooth road at

medium-low speed. With traffic permitting, turn
Fig.
74—Scored Hypoid Ring Gear

the vehicle sharply right and left. If noise is caused

by wheel bearings, it will increase in the turns be-

cause of the side loading. If noise cannot be isolated

to front or rear wheel bearings, inspection will be

necessary.

3.
Side bearings will produce a constant rough noise of

a slower nature than pinion bearings. Side bearing

noise will not fluctuate in the above wheel bearing

test.

Failure Analysis

The most common types of rear axle failures are

hypoid gear tooth scoring and fracture, differential gear

fracture. and/or differential bearing failure, and axle

shaft bearing failure.

Fig.
75-Cracked Hypoid Ring Gear

CHEVROLET CHASSIS SERVICE MANUAL

BRAKES

SECTION 5

CONTENTS OF THIS SECTION

Duo Servo Brakes

Disc Brakes
Page

5-1 Power Brakes

5-24 Special Tools
Page

5-31

5-32

DUO-SERVO BRAKES

INDEX

Page

General Description 5-1

Maintenance and Adjustments 5-3

Hydraulic Brake Fluid .. . 5-3

Bleeding Hydraulic System 5-3

Pressure Bleeding 5-3

Manual Bleeding 5_4

Push Rod to Main Cylinder Clearance 5-5

Hydraulic Brake Lines 5-5

Hydraulic Brake Hose 5-5

Hydraulic Brake Tubing 5-6

Brake Adjustment. .................... 5-7

Service Brake 5-7

Parking Brake 5-8

Component Replacement and Repairs 5-9

Parking Brake - Chevrolet, Chevelle and

Camaro 5^9

Pedal Assembly 5-9

Front Cable ,. . . 5-9

Center Cable 5-9

Rear Cables. . 5-9
Parking Brake - Chevy n 5-9

Lever Assembly 5-9

Idler Lever 5-11

Front Cable 5-11

Rear Cable . . ; 5-12

Parking Brake - Corvette 5-13

Lever Assembly . . . . 5-13

Front Cable 5-14

Rear Cable . . 5-14

Brake Pedal 5-15

Shoes and Linings 5-16

Organic 5-16

Metallic 5-17

Main Cylinder 5-18

Wheel Cylinders 5-21

Anchor Pin 5-22

Front Wheel 5-22

Rear Wheel 5-22

Brake Drums • 5-22

Brake Pipe Distribution and Switch Assembly . . . . . 5-23

Camaro Pressure Regulator Valve 5-23

GENERAL DESCRIPTION

All 1967 models are equipped with a new split brake

system as a safety feature. If a wheel cylinder or brake

line should fail at either the front end or rear end of

the vehicle, the operator can still bring the vehicle to

a controlled stop. The system is designed with separate

hydraulic systems for the front and rear brake using

a dual master cylinder (fig. 1). The design of the master

cylinder is similar to that used on the 1966 Corvette

in that it has two entirely separate reservoirs and outlets

in a common body casting. The front reservoir and outlet

is connected to the front wheel brakes, and the rear

reservoir and outlet is connected to the rear wheel

brakes. Two pistons within the master cylinder receive

mechanical pressure from the brake pedal push rod and

transmit it through the brake lines as hydraulic pressure

to the wheel cylinders. The filler cap is accessible from

inside the engine compartment.

A new brake pipe distribution and switch assembly

is mounted below the main cylinder. The front and rear

hydraulic brake lines are routed from the main cylinder,

through the brake pipe distribution and switch assembly,

to the front and rear brakes as shown in Figure 2. The

switch is wired electrically to the brake alarm indicator

light on the instrument panel. In the event of fluid loss

in either the front or rear brake system the indicator

on the instrument panel will illuminate red. (The indi-
cator will also' be illuminated when the parking brake is

applied.)

On Camaro models equipped with air conditioning, the

rear brake hydraulic line is routed through a pressure

regulator valve mounted on the left frame side rail

(fig. 3). The valve controls the hydraulic pressure to

the rear brakes resulting in the correct pressure balance

between the front and rear hydraulic systems.

The self-adjusting brakes (fig. 4), used on both front

and rear of all models, are the Duo-Servo single anchor

type which utilize the momentum of the vehicle to assist

in the brake application. The self-energizing or
self-

actuating force is applied to both brake shoes at each

wheel in both forward and reverse motion. The brake

shoe linings are bonded to the shoes.

Wheel cylinders are the double piston type permitting

even distribution of pressure to each brake shoe. To

keep out dust and moisture, both ejads of each wheel

cylinder are sealed with a rubber booC The wheel

cylinders have no adjustments.

The Chevrolet, Chevelle, and Camaro parking brakes

have a foot operated ratchet type pedal mounted to the

left of the steering column. A cable assembly connects

the pedal to an intermediate cable by means of an equal-

izer, where the adjustment for the parking brake is

incorporated. The intermediate cable attaches to the

CHEVROLET CHASSIS SERVICE MANUAL

BRAKES 5-2

DELCO MORAINE MAIN CYLINDER

BENDIX MAIN CYLINDER

Fig.
I—Main
Cylinder

two rear cables which operate the rear service brake.

The Chevy II has a single-stroke, ratchet-type parking

brake release lever, located to the right of the steering

column. The lever is connected to the rear wheel brake

assemblies through a two-piece cable and equalizer

assembly. A dash mounted idler lever multiplies force

applied at the parking brake lever and transmits it to

the equalizer by means of the front cable. The one-piece

rear cable passes through the equalizer and is connected
at each end to an actuating lever within the rear brake

assembly.

The Corvette is equipped with a ratchet-type parking

brake lever located behind the console. The parking

brake cable runs forward from the lever to a pulley

assembly mounted on a frame crossmember, then back

to an equalizer near the rear frame crossmember. A

single piece rear cable passes through the equalizer

and back to the rear service brakes.

— CHEVROLET
CAMARO

Fig.
2—Brake Pipe Distribution and Switch Assembly

CHEVROLET CHASSIS SERVICE MANUAL

BRAKES 5-5

LEVEL CYLINDER

TILTED CYLINDER

Fig.
8—Correct Main Cylinder Fluid Level

expelled brake fluid flows in a solid stream from the

bleeder hose and no bubbles are present, then close

bleeder valve tightly.

6. Remove brake bleeder wrench and bleeder hose from

wheel cylinder bleeder valve.

7. Repeat Steps 2 through 7 on the remaining wheel

cylinders in the correct bleeding sequence (fig. 5).

8. Fill the main cylinder to the levels shown in

Figure 8.

9. Install main cylinder diaphragm and cover.

PUSH ROD TO MAIN CYLINDER CLEARANCE

The brake pedal has a definite stop which is permanent

and not adjustable. This stop consists of a rubber

bumper at the release end of pedal travel. Before

adjusting push rod to main cylinder clearance, make

sure pedal returns to the fully released position freely

and that the pedal retracting spring has hot lost its

tension, then proceed as follows:

1.
Loosen check nut on push rod.

2.
Turn push rod as required to provide correct ad-

justment. Movement of pedal pad before push rod

contacts main cylinder pistons must be 1/16" to

1/4" (fig. 9).

3.
Tighten check nut against clevis, and recheck

movement.

HYDRAULIC BRAKE LINES

Hydraulic Brake Hose

The flexible hoses which carry the hydraulic pressure

from the steel lines to the wheel cylinders are carefully

designed and constructed to withstand all conditions of

stress and twist which they encounter during normal

vehicle usage.
The hoses require no service other than periodic

inspection for damage from road hazards or other like

sources. Should damage occur and replacement become

necessary, the following procedure is to be followed.

Removal

1.
Separate hose from steel line by turning double

flare connector out of hose fitting.

2.
Remove "U" shaped retainer from hose fitting and

withdraw hose from support bracket.

3.
Turn hose fitting out of wheel cylinder inlet.

Replacement

1.
Install new copper gasket on cylinder end of hose

(male end).

2.
Moisten threads with brake fluid and install hose in

wheel cylinder inlet.

3.
With weight of car on wheels and suspension in

normal position (front wheels straight ahead) pass

female end of hose through support bracket, allowing

hose to seek its own position. Insert hex of hose

fitting into the 12 point hole in support bracket

in position which induces least twist to hose (figk 10).

NOTE:
Do not twist hose unduly during ^

operation as its natural curvature is absolutely

necessary to maintain proper hose-tot

suspension clearance through full movement o£

the suspension and steering parts.

4.
Install "U" shaped retainer to secure hose in sup-

port bracket.

5. Inspect by removing weight completely from wheel,

turn wheels from lock to lock while observing hose

position. Be sure that hose does not tough other

parts at any time during suspension or wheel travel.

If contact does occur, remove hose retainer and

rotate the female hose end in the support bracket

CHEVROLET CHASSIS SERVICE MANUAL

BRAKES 5-15

Brake Shoes

Refer to parking brake shoe service procedures under

Disc Brakes in this section.

BRAKE PEDAL (Fig. 26)

Removal

NOTE: Refer to Section 1A for removal

air conditioning components if necessary.
of

1.

5.

b.

c.
Disconnect clutch pedal return spring (manual trans-

mission models only).

Disconnect clutch push rod at pedal.

Disconnect brake pedal return spring (Chevelle and

Camaro only).

Disconnect brake pedal from main cylinder push

rod by removing retainer and clevis pin.

Corvette only:

a. Remove steering column from vehicle as outlined

in Section 9.

Support main cylinder frdm inside engine com-

partment and remove four support brace nuts.

Remove four nuts and bolts securing support

plate to bracket and remove support plate.

d. Remove two screws securing bracket to under-

side of instrument panel and lower bracket and

pedals to floor.

Remove retainer from right side of pedal pivot

shaft.

7.
Slide clutch pedal assembly to the left and remove

from support brace.

8. Withdraw brake pedal and all nylon bushings.

Inspection

1.
Clean all metal parts with a good nontoxic cleaning

solvent.

2.
Wipe nylon bushings clean with a clean cloth.
6
CAUTION: Nylon bushings should not be treated

with cleaning agent of any nature.

3.
Inspect all nylon bushings for wear and damage.

4.
Inspect mating surface of bushings for wear and

damage—replace parts as required.

Installation

1.
Lubricate and install nylon bushings on pedal pivot

shaft, right side of support brace cutout, and through

both ends of brake pedal bore.

2.
Chevrolet, Chevy n, and Corvette: Position brake

pedal return spring on pedal arm and place pedal

assembly in support brace. Index return spring in

support brace cutout.

3.
Chevelle and Camaro: Place pedal assembly in

support brace.

4.
Slide pedal pivot shaft through support brace and

brake pedal bore.

5.
Install retainer to right side of pedal pivot shaft.

6. Corvette only:

a. Install bracket with pedal assemblies to underside

of instrument panel with two screws.

b.
Install support plate on bracket with four bolts

and nuts. • • ' •

c. Place main cylinder in position and install four

bracket and cylinder mounting bolts; secure en-

tire assembly with four nuts.

d. Install steering column in vehicle as outlined

in Section 9.

7.
Chevelle and Camaro: Install brake pedal return

spring.

8. On manual transmission models, connect clutch pedal

push rod to pedal bracket and install retainer. In-

stall clutch pedal return spring.

9. Adjust brake pedal free travel as outlined in this

section. Adjust stoplight switch as outlined in Section

CHEVROLET

CHEVELLE

Fig.
26—Brake Pedal Installation

CHEVROLET CHASSIS SERVICE MANUAL