engine FORD MUSTANG 1969 Volume One Chassis

02-03-02
Specifications

02-03-02

BORE DIAMETERS-BRAKE DRUM, WHEEL CYLINDER AND MASTER

Models

Ford,

Mercury

and

Meteor

Mont ego

and

Fairlane

Falcon

Mustang

and Cougar

Thunderbird

Continental Mark
III

Lincoln Continental
Taxi and Station Wagon

Other

Pass, except Conv. 250, 302 CID Engines

Pass, and Conv. 351, 390, 428 CID Eng.

Convertible 250, 302 CID Engines

Station and Ranchero

9 Inch Brake
-
Passenger Car

10 Inch Brake
•
Station Wagon

10 Inch Brake
•
Passenger Car

200 CID Engine

351,
390, 428 CID Engine

250,
302, CID Engine
CYLINDER

Brake Drum

Inside

Diameter

11.030

11.030

10.000

10.000

10.000

10.000

9.000

10.000

10.000

9.000

10.000

10.000

11.030

11.030

11.090
Boring Umit

(Max.)
®

11.090

11.090

10.060

10.060

10.060

10.060

9.060

10.060

10.060

9.060

10.060

10.060

11.090

11.090

11.130
Wheel Cylinder Bore Dia.

Front
0

1.094

L_ U25

1.125

1.094

1.094

1.094

1.062
0

1.094

1.125

1.062
®

1.094

1.125

N/A

N/A

N/A
Rear
®

0.938

0.938

0.875

0.875

0.875

0.938

0.844®

0.938

0.875

0.844®

0.875

0.875

0.938

0.938

0.938
Master Cylinder Bore Dia.

With Power

Brake
®

1.000

1.000

0.9375

0.9375

0.9375

0.9375

0.9375

0.9375

0.9375

1.000

1.000

1.000

1.000

1.000

1.000
Less Power

Brake
®

1.000

1.000

1.000

1.000

1.000

1.000

1.000

1.000

1.000

1.000

1.000

1.000

N/A

N/A

N/A

©Max. Runout
0.007

(DMax. Allowable Hone
0.003

CD2.755 For
Ford,
Mercury, Meteor with Disc Brakes.

2.381 For Fairlane, Montego, Falcon, Mustang, Cougar with Disc Brakes.

SHOE AND LINING DIMENSIONS-

DISC BRAKES-INCHES
® Front Wheel Cylinder cannot be honed on Falcon or Mustang with
9
inch Brakes.

Lining Material

Lining Size

Lining Area
-
Square Inches

per Segment

Lining Thickness • Nominal

Lining Wear Limit (Front

Surface
of
Shoe)
•
Max.

Lining Taper -Max.

Lining to Rotor Clearance

(Brakes Released)
Ford,
Mercury, Meteor

Thunderbird, Continen-

tal Mark
III

Bonded

7.38x2.27
Outer

5.36x2.03
Inner

12.25 Outer

8.44 Inner

0.394

0.030

0.125

0.000-0.010
Fairlane, Montego

Falcon,
Mustang,

Cougar

Bonded

6.82 x 1.80 Outer

4.90x1.84 Inner

11.30 Outer

8.80 Inner

0.333
Outer

0.362
Inner

0.030

0.125

0.000
• 0.010
Lining Material

Lining Size

Lining Area

Shoe and Lining Thickness

Lining Thickness

Shoe and Lining Maximum

Wear Limit

Lining Maximum Wear Limit

(from front surface
of
shoe)

Lining to Rotor Clearance

(brakes released)
Lincoln Continental

Riveted Fomoco

5.36x1.90

10.03 Sq. In/segment

0.600
nominal

0.436
nominal

0.231

0.066

0.000-0.010

CALIPER CYLINDER BORE DIAMETER -INCHES

TORQUE LIMITS-HUB TO SPINDLE

Ford,
Mercury, Meteor, Thunderbird, Continental Mark

2.755

Mustang, Cougar, Falcon, Fairlane and Montego

2.381

Lincoln Continental

1.938

ROTOR DIMENSIONS

Car Line

Ford,
Mercury, Meteor

Thunderbird, Continental Mark
III

Fairlane, Falcon, Montego, Mustang

and Cougar

Lincoln Continental
Norn.

Thickness

1.180

1.180

0.935

1.240
Diameter

Outside

11.72

11.72

11.29

11.960
Inside

7.785

7.785

7.355

7.785
Description

Hub and Drum or Rotor Assembly to

Front Wheel Spindle
Ft-Lbs

Rotate
hub
while torquing

to 17-25 ft-lbs. Backoff

the adjusting nut 1/2 turn

and retighten to 10-15

inch pounds while rotat-

ing wheel Selectively
posi-

tion
nut
retainer
on ad-

justing nut
so
that a set

of slots are in line with

cotter pin hole. Adjusting

nut should not be rotated

in this operation. Lock
ad-

justing nut and nut retain-

er with cotter pin so that

the cotter
pin end
does

not interfere with seating

of wheel static collector

in spindle hole.procarmanuals.com

03-01-02
Suspension — Steering, Wheels And Tires — General Service

03-01-02

1 TESTING

POWER STEERING-

PRELIMINARY TESTS

The following preliminary checks

should always be made before per-

forming any operations.

AIR BLEEDING

Air in the power steering system

(shown by bubbles in the fluid) should

be bled. After making sure that the

reservoir is filled to specification (the

fluid must be at normal operating

temperature when the check is made),

turn the steering wheel through its full

travel three or four times. Do not hold

the wheels against their stops. Re-

check the fluid level.

CHECK FLUID LEVEL

Run the engine until the fluid is at

normal operating temperature. Then

turn the steering wheel all the way to

the left and right several times, and

shut off the engine.

Check the fluid level in the power

steering reservoir. The level must show

on the cross hatching between the bot-

tom of the dipstick and the full mark

(Fig. 1). If the level is low, add

enough automatic transmission fluid

C1AZ-19582-A to raise the level to

the F mark on the dipstick. Do not

overfill the reservoir.

CHECK PUMP BELT

If the pump belt is broken, glazed,

or worn, replace it with a new belt.

Use only the specified type of belt.

Refer to Part 3-13 for belt adjustment

procedure.

CHECK FOR FLUID

LEAKS

With the engine idling, turn the

steering wheel from stop to stop sever-

al times. Check all possible leakage

points. Tighten all loose fittings, and

replace any damaged lines or defective

seats.

CHECK TURNING EFFORT

With the front wheels properly al-

igned and tire pressures correct, check

the effort required to turn the steering

wheel.
G 1508- A

FIG.
1—Power
Steering Pump

Dipstick

1.
With the vehicle on dry concrete,

set the parking brakes.

2.
With the engine warmed up and

running at idle speed, turn the steering

wheel to the left and right several

times to warm the fluid.

3.
Attach a pull scale to the rim of

the steering wheel. Measure the pull

required to turn the wheel one com-

plete revolution in each direction. The

effort required to rotate the steering

wheel should not exceed specifications

given in Part 3-13.

POWER STEERING PUMP FLOW

AND PRESSURE TESTS—

EXCEPT LINCOLN CONTINENTAL

AND CONTINENTAL MARK III

The power steering flow and pres-

sure tests will show whether the pump,

steering gear or power assist control

RETURN LINE

POWER

STEERING PUMP

Sr
valve is causing the trouble. Steps out-

lined below should be followed to de-

termine the cause of the trouble.

PUMP FLOW TEST

1.
Depending on the equipment

present on the vehicle (air condition-

ing, power brakes, standard transmis-

sion),
one of the following options

may be used to connect the pump

pressure and return hoses to the test

tool (T56L-3361O-D and T68L-

33610-A):

a. Disconnect the pressure and re-

turn lines at the power steering pump

(Fig. 2). Obtain a power steering re-

turn hose from stock and connect the

end with the fitting to the output fit-

ting of the tool using the
5/8-18
SAE

female, 1/4 N.P. thread male fitting

provided. The end of the stock hose

(without the fitting) should be con-

nected to the return tube of the pump.

Connect the pressure hose from the

tool to the outlet fitting of the pump.

b.
Disconnect the pressure line at

the pump and connect the pressure

line from the test tool to the outlet fit-

ting of the pump. Disconnect the re-

turn line at the gear and connect it to

the output fitting of the tool, using the

5/8-18
SAE female, 1/4 N.P. thread

male fitting provided.

2.
After installing the lines by the

most advantageous method, proceed

as follows:

3.
Open the manual valves A and B

fully (Fig. 2).

CALIBRATED FLOW

DETERMINING ORIFICE

PRESSURE LINE

FIG. 2—Power Steering Pump Test Circuit Diagram
PRESSURE GAGE

G1611-Aprocarmanuals.com

03-01-03
Suspension — Steering, Wheels And Tires — General Service

03-01-03

4.
Connect a tachometer, start the

engine and operate it at idle speed

until the reservoir fluid temperature

reaches 165 to 175. This temperature

must be maintained throughout the

test. Valve B may be partially closed

to create a back pressure up to 350

psi to hasten the temperature rise. The

reservoir fluid must be at the proper

level.

5.
With the engine operating at rec-

ommended idle rpm and fluid temper-

ature noted in Step 4, close the manu-

al valve B. The minimum acceptable

pressure reading is 620 psi.

6. If the pressure gauge reading is

below the minimum specification, the

pump is at fault and should be re-

paired with necessary parts.

7.
If the reading is at or above the

minimum specification, the pump flow

is normal. Open manual valve B and

proceed to the Pump Fluid Pressure

Test.

PUMP FLUID

PRESSURE TEST

1.
Keep the lines and tools con-

nected as in the Pump Flow Test.

2.
With manual valves A and B

opened fully, operate the engine at

recommended idle speed (Fig. 2).

Close manual valve A, then manual

valve B. Do not keep both valves

closed for more than 5 seconds as this

would abnormally increase the fluid

temperature and cause undue pump

and/or gear wear.

3.
With the valves fully closed, the

pressure gauge should read 1000 psi

minimum for Ford, Mercury, Meteor

or Thunderbird and 750 psi minimum

for Cougar, Fairlane, Falcon, Monte-

go or Mustang.

4.
If the pressure gauge reading is

below the minimum specification, the

pump is at fault and should be re-

paired with necessary parts.

5.
If the pressure gauge reading is

at or above the minimum specifica-

tions,
the pump is normal and the

power steering gear or power assist

control valve is at fault.

FLUID PRESSURE TEST-

LINCOLN CONTINENTAL AND

CONTINENTAL MARK III

The pressure testing gauge set, tool

T56L-33610-D, requires modification

to make it adaptable for installation

in the power steering hydraulic sys-

tem. The parts required and the modi-

fication procedure are as follows:
OWER STEERING

PRESSURE LINE

INVERTED FLARE

CONNECTOR

%* TUBE x VA" PIPE

FLARED FEMALE COUPW

%' TUBE x VA" PIPE

G1544.A

FIG. 3—Modified Pressure Gauge

Assembly

a. Power Steering Pressure Line

(refer to the appropriate Parts Catal-

og).

b.
Inverted Flare Connector (3/8

inch OD Tube x 1/4 inch Pipe

Thread).

c. Inverted Flare Connector (5/16

inch OD Tube x 1/4 inch Pipe

Thread).

d. Flared Tube Female Coupling

(3/8 inch OD Tube x 1/4 inch Pipe

Thread).

The connectors and the coupling are

standard-type fittings and can be pur-

chased locally.

e. To modify tool T56L-33610-D,

remove the hose from the hand shut-

off valve block. Install the 3/8 inch x

1/4 inch inverted flare connector in

the valve block, and assemble the

pressure line to the connector (Fig. 3).

Assemble the 3/8 x 1/4 inch coupling

and the 5/16-inch connector to the

free end of the hose leading to the.

pressure gauge.

1.
To check the pump pressure, dis-

connect the front and rear sections of

the pressure line over the number 6

cylinder. Connect the modified pres-

sure-testing gauge assembly, tool

T56L-3361O-D, between the two sec-

tions.

2.
Make sure the hand-valve at the

gauge is fully opened. Start the engine

and cycle the steering gear from stop

to stop to warm up the fluid. Check

the fluid level in the reservoir and add

fluid, if necessary.

3.
Turn the steering wheel to the

full right and full left turn positions

and observe the gauge readings.

Hold the wheels in this position

only long enough to obtain an accu-

rate reading. Do not exceed 5 seconds.

The gauge should read between

1120 and 1250 psi. If the pressure is
less than 1120 psi, close the valve at

the gauge and note the pump pressure.

If it is low with the valve closed, it in-

dicates that the pump is not operating

properly. If the pressure goes up with

the valve closed, it indicates that the

low pressure in the system must be

due to internal leakage in the power

unit, providing all connections are

tight.

4.
Remove the pressure testing

gauge set, and connect the pressure

line at the steering gear. Fill and bleed

the system.

FRONT WHEEL ALIGNMENT

CHECKS

Do not attempt to check and adjust

front wheel alignment without first

making a preliminary inspection of

the front-end parts. Refer to Section

3.

Check all the factors of front wheel

alignment except the turning angle

before making any adjustments. The

turning angle should be checked only

after caster, camber, and toe-in have

been adjusted to specifications.

The front wheel alignment specifica-

tions given in Part 3-13, are correct

only when the vehicle is at curb load.

Before checking or adjusting the

alignment factors, the suspension

alignment spacers must be installed to

obtain the curb Height.

EQUIPMENT INSTALLATION

Equipment used for front wheel

alignment inspection must be accu-

rate.
Whenever possible, front wheel

alignment checks should be performed

on stationary wheel aligning equip-

Too/
- T65P3000-A or S

FIG. 4—Typical Front Alignment

Spacer Installation—Cougar,

Fairlane, Falcon,
Montego,
Mustangprocarmanuals.com

03-01-05
Suspension — Steering, Wheels And Tires — General Service

03-01-05

type of equipment is used, follow the

installation and inspection instructions

provided by the equipment manufactu-

rer.

CASTER

Check the caster angle at each front

wheel.

The caster is the forward or rear-

ward tilt of the top of the wheel

spindle (Fig. 12). If the spindle tilts to

the rear, caster is positive. If the

spindle tilts to the front, caster is neg-

ative. The correct caster angle, or tilt,

is specified in Part 3-13.

On Mustang, Cougar, Fairlane,

Falcon and Montego vehicles, the

maximum caster difference for check-

ing purposes must not exceed one de-

gree.
If setting is necessary, then the

maximum difference must not exceed

1/2 degree. On all other vehicles, the

maximum caster difference must never

exceed 1/2 degree.

CAMBER

Check the camber angle at each

front wheel.

Camber is the amount the front

wheels are tilted at the top (Fig. 12).

If a wheel tilts outward, camber is

positive. If a wheel tilts inward, cam-

ber is negative. The correct camber

angle, or outward (positive) tilt is

specified in Part 3-13.

On Mustang, Cougar, Fairlane,

Falcon and Montego vehicles, the

maximum camber difference for

checking purposes must not exceed

one degree. If setting is necessary,
then the maximum difference must

not exceed 1/2 degree. On all other

vehicles, the maximum camber differ-

ence must never exceed 1/2 degree.

TOE-IN

Alignment height spacers should not

be used to check and adjust toe-in.

Toe-in should only be checked and ad-

justed after the caster and camber

have been adjusted to specifications.

Check the toe-in with the front

wheels in the straight-ahead position.

Run the engine so that the power

steering control valve will be in the

center (neutral) position (if so

equipped). Measure the distance be-

tween the extreme front and also be-

tween the extreme rear of both front

wheels. The difference between these

two distances is the toe-in or toe-out.

Correct toe-in, or inward pointing

of both front wheels at the front is

specified in Part 3-13.

FRONT WHEEL

TURNING ANGLE

When the inside wheel is turned 20

degrees, the turning angle of the out-

side wheel should be as specified in

Part 3-13. The turning angle cannot

be adjusted directly, because it is a re-

sult of the combination of caster,

camber, and toe-in adjustments and

should, therefore, be measured only

after these adjustments have been

made. If the turning angle does not

measure to specifications, check the

spindle or other suspension parts for a

bent condition.
ALIGNMENT
MARKS

G-1496-A

FIG. I?—Straight Ahead Position

Marks—Typical

POSITIVE

CAMBER

• •
NEGATIVE-*!
| ^*—

CASTER

ICL
OF TIRE
POSITIVE

CASTER

5r\

CA&U

ANGlE
F1216-A

FIG. 72—Caster and Camber

Angles

COMMON ADJUSTMENTS AND REPAIRS

After front wheel alignment factors

have been checked, make the neces-

sary adjustments. Do not attempt to

adjust front wheel alignment by bend-

ing the suspension or steering parts.

CASTER AND CAMBER

ADJUSTMENTS

FORD, MERCURY, METEOR,

THUNDERBIRDAND

CONTINENTAL MARK III

Caster and camber is adjusted by

loosening the bolts that attach the

upper suspension arm inner shaft to

the frame side rail, and moving the

inner shaft in or out in the elongated

bolt holes with the tool shown in Fig.
13.
The tool should be installed with

the tool pins in the frame holes and

the hooks over the upper arm inner

shaft. Then, tighten the tool hook nuts

snug before loosening the upper arm

inner shaft attaching bolts.

Caster

To adjust the caster angle, tighten

the tool front hook nut or loosen the

rear hook nut (Fig. 14) as required to

increase caster to the desired angle.

To decrease caster, tighten the tool

rear hook nut or loosen the front

hook nut as required (Fig. 14). The

caster angle can be checked without

tightening the inner shaft attaching

bolts.
Check the camber adjustment to

be sure it did not change during the

caster adjustment and adjust if neces-
FIG. 73—Camber and Caster

Adjusting Toolprocarmanuals.com

03-01-09
Suspension — Steering, Wheels And Tires — General Service

03-01-09

the reading exceeds specifications

(Part 3-13), replace the upper ball

joint.

LOWER BALL JOINT

INSPECTION

Ford,
Mercury, Meteor,

Thunderbird, Lincoln Continental

and Continental Mark III

1.
Raise the vehicle and place

jacks under the lower arms as shown

in Fig. 12. This will unload the lower

ball joints.

2.
Adjust the wheel bearings as des-

cribed in Part 3-12.

3.
Attach a dial indicator to the

lower arm and position the indicator

so that the plunger rests against the

inner side of the wheel rim adjacent to

the lower ball joint.

4.
Grasp the tire at the top and

bottom and slowly move the tire in

and out (Fig. 19). Note the reading

(radial play) on the dial indicator. If

the reading exceeds specifications

(Part 3-13), replace the lower ball

joint.

Cougar, Fairlane, Falcon,

Montego, Mustang

1.
Raise the vehicle on a frame

contact hoist or by floor jacks placed

beneath the underbody until the wheel

falls to the full down position.

2.
Ask an assistant to grasp the

lower edge of the tire and move the

wheel in and out.

3.
As the wheel is being moved in

and out, observe the lower end of the

spindle and the lower arm.

4.
Any movement between the

lower end of the spindle and the lower

arm indicates ball joint wear and loss

of preload. If any such movement is

observed, replace the lower arm.

During the foregoing check, the

upper ball joint will be unloaded and

may move. Disregard all such move-

ment of the upper ball joint. Also, do

not mistake loose wheel bearings for a

worn ball joint.

POWER STEERING GEAR

CLEANING

Disassembly and assembly of the

steering gear and. the sub-assemblies

must be made on a clean workbench.

As in repairing any hydraulically op-

erated unit, cleanliness is of utmost
importance. The bench, tools, and

parts must be kept clean at all times.

Thoroughly clean the exterior of the

unit with a suitable solvent and, when

necessary drain as much of the hy-

draulic fluid as possible. Handle all

parts very carefully to avoid nicks,

burrs,
scratches and dirt, which could

make the parts unfit for use.

Do not clean, wash or soak seals in

cleaning solvent.

INSPECTION

1.
Check the sector shaft contact

surface in the cover for wear. If worn,

replace the cover.

2.
Inspect the input shaft bearing

for cracked races and the balls for

looseness, wear, pitting, end play or

other damage. Check the fit of the

bearing on the input shaft. Replace

the bearing, if required.

3.
Inspect the valve housing for

wear, scoring or burrs.

4.
Inspect the tube seats in the

pressure and return ports in the valve

body for nicks, etc. If necessary, re-

move and replace.

5.
Check the sector shaft contact

surface in the housing for wear. If

worn, replace the bushing or the hous-

ing.

6. Check all fluid passages for ob-

struction or leakage.

7.
Inspect the steering gear housing

for cracks, stripped threads, and mat-

ing surfaces for burrs. Inspect the pis-

ton bore of the housing for scoring or

wear. If necessary, replace the hous-

ing.

8. Check the input shaft bearing

after installation to be sure that it ro-

tates freely.

9. If the valve spool is not free in

the valve housing, check for burrs at

the outward edges of the working

lands in the housing and remove with

a hard stone. Check the valve spool

for burrs and if burrs are found, stone

the valve in a radial direction only.

Check for freedom of the valve again.

10.
Check the piston rack teeth and

sector shaft teeth for nicks and burrs.

FLUSHING THE POWER

STEERING SYSTEM—ALL EXCEPT

LINCOLN CONTINENTAL AND

CONTINENTAL MARK III

Should it be necessary to replace an

inoperative power steering pump, the

need for flushing the steering system

is required when installing the new

pump.
1.
Remove the power steering pump

and remove the pulley as outlined in

Part 3-10.

2.
Install the pulley on a new

pump. Install the pump and connect

only the pressure hose to the pump

(Part 3-10).

3.
Place the fluid return line in a

suitable container and plug the reser-

voir return pipe.

4.
Fill the reservoir with lubricant

(C1AZ-19582-A).

5.
Disconnect the coil wire to pre-

vent the engine from starting and raise

the front wheels off the ground.

6. While approximately two quarts

of steering gear fluid are being poured

into the reservoir, turn the engine over

using the ignition key, at the same

time cycle the steering wheel from

stop to stop.

7.
As soon as all of the lubricant

has been poured in, turn off the igni-

tion key, and attach the coil wire.

8. Remove the plug from the reser-

voir return pipe, and attach the return

hose to the reservoir.

9. Check the reservoir fluid level; if

low, add fluid to the proper level. Do

not overfill.

10.
Lower the vehicle.

11.
Start the engine and cycle the

steering from stop to stop to expel

any trapped air from the system.

POWER STEERING PUMP—ALL

EXCEPT LINCOLN

CONTINENTAL AND

CONTINENTAL MARK III

CLEANING

Wash all parts (except seals) in a

Naptha or Chlorinated-type solvent

and dry with compressed air.

Punch or Rod

RELIEF VALVE PLUNGER

G1607-A

FIG.
20—Cleaning Pump Relief Valveprocarmanuals.com

03-02-18
Suspension

03-02-18

5.
Remove the cotter pin from the

upper ball joint stud nut.

6. Loosen the upper ball joint stud

nut one or two turns. Do not remove

the nut from the stud at this time.

7.
Install tool T57P-3006-A be-

tween the upper and lower ball joint

studs with the adapter screw on top

(Fig. 13). The tool should be seated

firmly against the ends of both studs

and not against the nuts or lower stud

cotter pin.

8. With a wrench, turn the adapter

screw until the tool places the stua

under tension. Tap the spindle near

the upper stud with a hammer to loos-

en the stud in the spindle. Do not

loosen the stud from the spindle with

tool pressure only.

9. Remove the tool from between

the ball joint studs and place a floor

jack under the lower arm.

10.
Raise the floor jack to relieve

the pressure from the upper ball joint

stud nut and remove the nut.

11.
Remove the upper arm inner

shaft attaching bolts. Remove the

upper arm and inner shaft as an as-

sembly (Fig. 1).

12.
Remove the bumpei from the

upper arm.

Installation

1.
Position the bumper to the upper

arm and install the nut and washer.

Torque the nut to specifications.

2.
Position the upper arm inner

shaft to the frame side rail and install

the 2 attaching bolts and washers

snug.

3.
Connect the upper ball joint stud

to the spindle and install the attaching

nut. Torque the nut to specification

and continue to tighten the nut until

the cotter pin hole in the stud is in

line with the nut slots. Then, install

the cotter pin.

4.
If equipped with drum type bra-

kes—Adjust the brakes as outlined in

Part 2-2. Install the wheel, tire, and

drum to the spindle and adjust the

wheel bearings as outlined in Part

3-12.

5.
If equipped with disc brak-

es—Install the wheel and tire on the

hub and adjust the wheel bearings as

outlined in Part 3-12.

6. Install the hub cap or wheel

cover.

7.
Remove the safety stands and

lower the front of the vehicle.

8. Check caster, camber, and toe-in

and adjust as required (Section 2, Part

3-D.
COUGAR, FAIRLANE,

FALCON, MONTEGO,

MUSTANG

Removal

1.
Raise the front of the vehicle,

position safety stands under the

frame, and lower the vehicle slightly.

2.
Remove the wheel and tire.

3.
Remove the shock absorber

lower attaching nuts and washers.

4.
Remove the shock absorber

upper mounting bracket attaching

nuts,
and remove the shock absorber

and bracket as an assembly (Fig. 26).

On all 8-cylinder vehicles, remove

the air cleaner to obtain access for

tool installation.

5.
Install the spring compressor

tool and compress the spring (Figs.

19,
20 and 21).

6. Position a safety stand under the

lower arm.

7.
Remove the cotter pin from the

nut on the upper ball joint stud, and

loosen the nut one or two turns. Do

not remove the nut from the stud at

this time.

8. Position the ball joint remover

tool between the upper and lower ball

joint studs as shown in Fig. 10. The

tool should seat firmly against the

ends of both studs and not against the

stud nuts.

9. Turn the tool with a wrench until

the tool places the studs under consid-

erable tension; then, hit the spindle

smartly near the upper stud with a

hammer to break the stud loose in the

spindle. Do not loosen the stud in the

spindle with tool pressure only. If

both arms are being removed, loosen

the lower stud in the same manner as

the upper stud.

10.
Remove the nut from the upper

stud and lift the stud out of the

spindle.

11.
Remove the upper arm inner

shaft attaching nuts from the engine

compartment, and remove the upper

arm.

12.
Wipe off all loose dirt from the

upper arm parts. Do not wash the ball

joint with a solvent.

Installation

1.
Position the upper arm on the

underbody mounting bracket, and in-

stall the nuts and lock washers on the

two inner shaft attaching bolts. The

specified keystone-type lock washers

must be used. Torque the nuts to

soecification.
2.
Position the upper ball joint stud

in the top of the wheel spindle, and in-

stall the stud nut. Torque the nut to

specification, and continue to tighten

it until the cotter pin hole and slots

line up. Install a new cotter pin.

3.
Release the coil spring, remove

the tool, and install the front shock

absorber and the wheel and tire.

LINCOLN CONTINENTAL

Removal

1.
Place a jack under the outer end

of the suspension lower arm and raise

the arm. Refer to Fig. 22.

2.
Remove the wheel and tire.

3.
Remove the cotter pin from the

upper ball joint stud. Loosen the nut

one or two turns.

4.
Place a box wrench over the

lower end of the ball joint remover

tool, and position the tool as in Fig.

13.
The tool should seat firmly against

the ends of both studs, and not

against the upper stud nut.

5.
Turn the wrench until both studs

are under tension, and then, tap the

spindle with a hammer near the upper

stud to loosen it from the spindle. Do

not loosen the stud with tool pressure

alone. Remove the nut.

UPPER MOUNTING BRACKET

LOWER RETAINING BOLTS F 1490-A

FIG. 26—Removing or Installing

Front Shock Absorber—Typicalprocarmanuals.com

03-03-02

Automatic Air Leveling System

03-03-02

REMOVAL AND INSTALLATION

AIR COMPRESSOR

REMOVAL

1.
Slip the vacuum line off the in-

take fitting on the side of the com-

pressor (Fig. 2).

2.
Disconnect the output line from

the rear of compressor.

3.
Remove the three compressor at-

taching nuts from the bracket. Lift the

compressor from the mounting brack-

et.

INSTALLATION

1.
Place the star washer on each in-

sulator. Position the compressor on

the mounting bracket and install and

torque the three attaching nuts to

specifications.

2.
Connect the vacuum line to the

intake fitting at the side of the com-

pression.

3.
Start the engine and check the

compressor output.

4.
Connect the output line to the

nylon fitting at the rear of the com-

pressor (Fig. 2).

HEIGHT CONTROL VALVE

REMOVAL

1.
Raise the vehicle on a hoist. It
may be more convenient to support

the rear of the frame with two jack

stands and lower the, axle to provide

greater accessability to the valve.

2.
Disconnect the compressor line

from the intake port of the height

control valve (Fig. 3).

3.
Disconnect the air cylinder line

from the rear of the height control

valve.

4.
Disconnect the link from the

height control valve lever.

5.
Remove the two control valve-

to-mounting bracket attaching screws

and remove the valve.

INSTALLATION

1.
Position the height control valve

to the mounting bracket and install

the two attaching screws. Torque the

screws to specification.

2.
Connect the link to the height

control valve lever.

3.
Connect the compressor line to

the height control valve.

4.
Connect the air cylinder line to

the height control valve.

5.
Set the height control valve lever

as required to obtain the correct trim

height.

6. After obtaining the correct trim
height, check the operation of the air

leveling system.

AIR CYLINDER

REMOVAL

1.
Raise the vehicle on a hoist with

the hoist under the rear axle housing.

Place jack stands under the frame side

rails.

2.
Disconnect the air cylinder line

from the fitting on the lower end of

the cylinder (Fig. 4).

3.
Lower the hoist and axle housing

until the rear shock is fully extended.

4.
Squeeze all air from the bag and

install the valve cap.

5.
Remove the air cylinder from the

rear spring.

INSTALLATION

1.
Make sure all the air is out of

the bag and the valve cap is on.

2.
Position the air cylinder in the

spring with the inlet at the lower end.

3.
Remove the valve cap and con-

nect the air cylinder line to the cylin-

der.

4.
Remove the jack stands and

lower the vehicle.

VACUUM INTAKE LINE

INSULATORS

NYLON FITTING

MOUNTING BRACKET

FIG. 2—Compressor Installed
STAR WASHERS

COMPRESSOR
F 1364-Aprocarmanuals.com

03-04-03
Automatic Air Leveling System — Lincoln Continental

03-04-03

outlet lines to their respective parts.

3.
Adjust the trim height as de-

tailed in Section 4.

4.
Connect the link to the arm.

5.
Remove the jack stands and

lower the vehicle.

SUPER LIFT SHOCK ABSORBER

REMOVAL

1.
Raise the vehicle and place jack

stands under the axle to compress the

super lift.

2.
Loosen the air line or lines (right

super lift) slowly to release the air
from the system. Then, disconnect the

line or lines.

3.
Remove the three mounting plate

attaching screws from the upper end

of the super lift.

4.
Remove the attaching nut and

washer from the lower end of the

super lift and remove it from the vehi-

cle.

5.
Remove the nut, outer washer

and the insulator that attach the super

lift to the mounting plate. Remove the

plate, remaining insulator and washer.

INSTALLATION

1.
Position a washer, insulator,

mounting plate, insulator, washer and
nut on the stud at the upper end of

the super lift. Torque the nut to speci-

fication.

2.
Install the mounting plate, outer

insulator, washer and nut on the stud.

Torque the nut to specification.

3.
Attach the mounting plate and

shock absorber to the crossmember

with the attaching screws to specifica-

tions.

4.
Connect the lower end of the

super lift to the mounting stud with

the washers and attaching nut. Torque

the nut to specification.

5.
Connect the air line or lines

(right super lift) to the super lift.

6. Start the engine and check for

leaks.

3 IN-VEHICLE ADJUSTMENTS AND REPAIRS

REGULATOR ADJUSTMENT HEIGHT CONTROL VALVE

The regulator may be adjusted if

the regulator pressure is under 100 psi

with the reservoir pressure at a mini-

mum of 140 psi. If the regulated pres-

sure exceeds 130 psi, the regulator

must be replaced.

To adjust the regulator, remove the

boot and reposition the sleeve and re-

tainer deeper into the body of the re-

gulator, using a deep well socket (Fig.

4).
If the regulator pressure remains

under 100 psi, replace regulator.
SILICONE FLUID

REPLACEMENT

If the height control valve time

delay does not fall within specifica-

tion, the silicone fluid must be re-

placed. Then repeat the time delay

test. If delay is still not within specifi-

cations, replace the height control

valve.

1.
Remove control valve and clean
the exterior of the valve thoroughly.

2.
Position the valve with delay

plug on top. Remove delay plug and

drain silicone fluid from the chamber.

Remove the O-ring from the chamber

(Fig. 5), and discard the O-ring.

3.
Remove the cover plate retaining

ring, using snap ring pliers. Remove

the delay cover from the valve body.

Remove the O-ring from the chamber,

and discard the O-ring.

4.
Place a new O-ring over the

delay plug and install the plug. Tor-

que the plug to 20-30 in-lbs. .

5.
Pour silicone fluid into the delay

piston chamber until fluid level is 5/16

inch below the top edge of the body.

Add or remove fluid with an eye drop-

per until the proper fluid level is

reached.

6. Hold the control valve body in a

vise with the delay chamber elevated

slightly. Carefully operate the lever to

purge trapped air from the fluid.

7.
Place a new O-ring in the groove

around the delay piston bore. Install

5/16" TO

FLUID LEVEL

F 1405 A

FIG. 4—Adjusting Regulator
F1406 A

FIG. 5—Replacing Silicone Fluidprocarmanuals.com

03-05-14
Steering Columns And Linkage

03-05-14

8. Connect the turn signal and

emergency flasher switch wires at the

multiple connectors. Connect the wires

to the neutral start switch. Adjust-

ments for the neutral start switch are

detailed in Group 7 of this manual.

9. Connect the tilt-column control

cable to the release cable retainer and

vacuum motor (if so equipped). To re-

move cable slack, loosen the bracket

attaching screw and pull it slightly

toward the column, then tighten the

screw. If difficulty in adjusting this

control is experienced, the retainer

slot may be filed to gain additional

travel.

10.
Install the instrument panel

steering column plate and cover and

the instrument panel lower outer fin-

ish panel.

11.
Connect the negative cable to

the battery.

12.
Start the engine and check the

operation of the steering column and

switches.

LINCOLN CONTINENTAL

Removal

1.
Disconnect the battery.

2.
Disconnect the rod from the
lever at the lower end of the selector

tube.

Loosen the clamp bolt that locks

the flexible coupling to the steering

shaft.

3.
Working from the underside of

the steering wheel spoke, remove the

two screws that secure the crash pad.

Remove the pad. Do not use a ham-

mer or knock-off type wheel puller.

Striking the puller or shaft may cause

damage to the bearings and/or col-

lapsible column. Remove the steering

wheel as shown in Fig. 15.

4.
Remove the instrument panel

steering column finish plate.

5.
Remove the four screws that at-

tach the lower retainer to the dash

panel.

6. Disconnect the turn signal switch

and emergency flasher wires at the

connectors. Disconnect the wires from

the neutral start switch.

7.
While supporting the steering

column, remove the bolts that attach

the lower clamp to the upper bracket

(Fig. 15). Lift the column from the ve-

hicle.

Installation

1.
Position the column in the vehi-
cle,
making sure that the steering

shaft engages the flex coupling.

2.
Install the column retainer-

to-dash panel attaching screws, but do

not tighten them.

3.
Install the lower clamp and the

attaching nuts. Tighten the nuts fing-

ertight.

4.
Move the lower flange as re-

quired to center the steering shaft in

the tube. Aligning procedures are de-

tailed in Part 3-1. Tighten the lower

flange attaching nuts when the shaft is

centered.

5.
Connect the shift rod to the shift

lever at the lower end of the column.

6. Install and tighten the flex cou-

pling attaching bolt.

7.
Tighten the instrument panel-

to-clamp attaching nuts.

8. Connect the turn signal and

emergency flasher switch wirss at the

multiple connectors. Connect the wires

to the neutral start switch. Adjust-

ments for the neutral start switch are

detailed in Group 7 of this manual.

9. Install the instrument panel

steering column finish plate.

10.
Install the steering wheel and

crash pad.

MAJOR REPAIR OPERATIONS

STEERING COLUMN

SHIFT TUBE REPLACEMENT

STATIONARY COLUMN

WITH STANDARD

TRANSMISSION

Removal

1.
Working from the underside of

the steering wheel spoke, remove the

two screws that secure the crash pad.

Remove the pad. (On Continental

Mark III models, pry out the crash

pad insert and remove the two screws

that secure the crash pad. Remove the

crash pad. On models equipped with

steering wheel mounted speed con-

trols,
refer to Group 16 for removal

instructions).

2.
Remove the steering wheel from

the steering shaft with tool T67L-

3600-A (Fig. 1). Then, remove the

tool from the steering wheel. Do not

use a knock-off type steering Wheel

puller or strike the end of the steering

shaft with a hammer. Striking the

puller or shaft will damage the bear-
ing or the collapsible column.

3.
Remove the steering column

from the vehicle.

4.
Remove the selector lever from

the hub (Fig. 16).

5.
Remove the bearing upper snap

ring. It may be necessary to pull the

turn signal switch out to remove the

snap ring.

6. Remove the screws that attach

the shift tube bearing, shift arms, and

shift tube to the lower end of the

steering column.

7.
Slip the shift tube and steering

shaft from the lower end of the steer-

ing column tube. The upper bearing

has a slight press fit on the steering

shaft.

8. Remove the C-washer from the

upper end of the steering shaft, and

pull the shift tube from the steering

shaft.

9. Remove the shift tube bearing

from the lower end of the tube

Installation

1.
Position the shift tube bearing
(Fig. 16) on the tube and insert the

steering shaft in the shift tube.

2.
Install the C-washer on the

upper end of the steering shaft.

3.
Insert the shift tube and steering

shaft into the steerint column tube

and install the three attaching screws

at the lower end of the steering col-

umn tube.

4.
Position the bearing and insula-

tor on the shaft if it was disturbed

during removal. Work it down onto

the shaft as far as possible, then place

a piece of 3/4 ID x 2 1/8 inch pipe

over the end of shaft and install the

steering wheel attaching nut (Fig. 2).

5.
Tighten the nut until the bearing

is seated in the flange, then remove

the nut and pipe from the shaft.

6. Position the turn signal switch

on the flange and install the three at-

taching screws. Install the upper snap

ring.

7.
Install the selector lever and the

turn signal lever in the column.

8. Adjust and install the neutral

start switch as detailed in Group 7.

9. Install the steering column in the

vehicle.procarmanuals.com

03-06-02
Manual Steering

03-06-02

IN-VEHICLE ADJUSTMENTS AND REPAIRS

STEERING WORM AND

SECTOR

GEAR ADJUSTMENTS

The ball nut assembly and the sec-

tor gear must be adjusted properly to

maintain minimum steering shaft end

play (a factor of preload adjustment)

and minimum backlash between sector

gear and ball nut. There are only two

possible adjustments within the recir-

culating ball-type steering gear, and

these should be made in the following

order to avoid damage or gear failure.

1.
Disconnect the Pitman arm from

the steering Pitman-to-idler arm rod.

2.
Loosen the nut which locks the

sector adjusting screw (Fig. 3), and

turn the adjusting screw counterclock-

wise.
(On models equipped with the

Cobra Jet engine, it may be necessary

to use a suitable holding tool with an

extension and a long screwdriver to

make the gear adjustment).

3.
Measure the worm bearing pre-

load by attaching an in-lb torque

wrench to the steering wheel nut (Fig.

4).
With the steering wheel off center,

read the pull required to rotate the

input shaft approximately 1 1/2 turns

either side of center. If the torque or

preload is not within specification

(Part 3-1), adjust as explained in the

next step.
.•ADJUSTER
LOCK
NUT

SECTOR
SHAFT

ADJUSTING
SCREW
G
1627-A

FIG. 3—Steering Gear

Adjustments—Typical

4.
Loosen the steering shaft bearing

adjuster lock nut, and tighten or back

off the bearing adjuster (Fig. 1) to

bring the preload within the specified

limits.

5.
Tighten the steering shaft bear-

ing adjuster lock nut, and recheck the

preload.

6. Turn the steering wheel slowly to

either stop. Turn gently against the

stop to avoid possible damage to the

ball return guides. Then rotate the

wheel 2-3/4 turns to center the ball

nut.
7.
Turn the sector adjusting screw

clockwise until the specified torque

(Part 3-13) is necessary to rotate the

worm past its center (high spot) (Fig.

1).

8. While holding the sector adjust-

ing screw, tighten the sector adjusting

screw locknut to specification, and re-

check the backlash adjustment.

9. Connect the Pitman arm to the

steering arm-to-idler arm rod.

G-1495-A

FIG. 4—Checking Steering Gear

Preload—Typical

REMOVAL AND INSTALLATION

STEERING GEAR

REMOVAL

1.
Remove the bolt(s) that retains

the flex coupling to the steering shaft.

2.
Remove the nut and lock washer

that secures the Pitman arm to the

sector shaft using Tool T64P-3590-F

(Fig. 5).

3.
To obtain clearance on some

models equipped with standard trans-

mission, it may be necessary to dis-

connect the clutch linkage. On some

8-cylinder models, it may be necessary

to lower the exhaust system.

4.
Remove the steering gear-to-side

rail bolts and remove the gear.
Too /-MB
STEERING
GEAR
HOUSING

T64P-3590.F

(PITMAN
"APU'^M
-
.-. •
-"
•.:,.17''i.a—
r.iMI.
A

F'G.
5—Removing Pitman Arm
INSTALLATION

1.
Position the steering gear and

flex coupling in place; then, install

and torque the steering gear-to-side

rail bolts to specification (Part 3-13).

2.
If the clutch linkage has been

disconnected, reposition, install and

adjust it. If the exhaust system has

been lowered, reinstall it to its proper

position.

3.
Position the Pitman arm and the

sector shaft and install the attaching

nut and lock washer. Torque the nut

to specification.

4.
Install and connect the flex cou-

pling attaching nut(s) and torque it to

specification (Part 3-13).procarmanuals.com