1969 FORD MUSTANG wheel bolts

02-02-38
Brake System

02-02-38

2.
Disconnect the actuator solenoid

and warning switch harness connectors

from the control module.

3.
Remove the two wiring harness

grommets from the dash panel and

push the wiring harness and connec-

tors through the openings in the dash

panel.

4.
Working in the engine compart-

ment loosen the hose clamp and re-

move the air hose from the air filter.

5.
Remove the engine air cleaner-

Loosen the hose clamp and remove

the vacuum hose from the vacuum

manifold fitting.

6. Raise the vehicle on a hoist.

7.
Disconnect the exhaust pipes

from the exhaust manifold and sup-

port with wire to provide access to the

actuator assembly.

8. Remove the bolt retaining the

actuator ground wire to the rear outer

corner of the engine right bank.

9. Loosen the tube nuts and discon-

nect the brake system hydraulic tubes

from the hydraulic valve housing.

10.
Remove the three nuts retaining

the actuator assembly to the actuator

support bracket.

11.
Remove the three bolts that re-

tain the actuator mounting bracket to

the side rail and remove the mounting

bracket.

12.
Remove the actuator assembly

from the vehicle and place it on a

bench.

13.
Remove the air and vacuum

hoses from the actuator.

INSTALLATION

1.
Install the air and vacuum hoses

on the new actuator.

2.
Place the actuator assembly into

position under the vehicle, routing the

air and vacuum hoses up between the

engine and fender apron and inserting

the solenoid leads through the holes in

the firewall.

3.
Position the ground wire to the

rear of the engine block and install re-

taining bolt.

4.
Position the actuator mounting

bracket to the frame side rail and in-

stall the three retaining bolts.

5.
Position the actuator assembly

to the mounting bracket and install

the three retaining nuts.

6. Connect the hydraulic tubes to

the hydraulic valve assembly and

tighten the tube nuts to specifications.

7.
Connect the exhaust pipes to the

exhaust manifolds.

8. Lower the vehicle.

9. Pull the actuator solenoid and

brake warning switch wiring harness
through the two holes in the dash

panel from inside the car. Seat the

wiring harness grommets in the dash

panel.

10.
Connect the actuator solenoid

and brake warning switch wiring har-

ness connectors to the control mo-

dules.
'

11.
Position the control module in

the bracket under the glove box and

install the retaining screw.

12.
In the engine compartment con-

nect the air hose to the air filter and

position the hose clamp.

13.
Connect the vacuum hose to the

engine vacuum manifold fitting. In-

stall the engine air cleaner.

14.
Bleed the rear brake system and

centralize the pressure differential

valve.

15.
Raise the rear wheels. Apply

the brakes with the rear wheels turn-

ing to verify proper operation of the

anti-skid control system.

ANTI-SKID CONTROL MODULE

REMOVAL

Refer to Fig. 39.

1.
Remove the retaining strap hold-

ing the harnesses.

2.
Remove the screw that attaches

the forward end of the control module

retainer to the support assembly.

3.
Lower the forward end of the

control module and retainer from the

support assembly; move the module

and retainer forward slightly until the

flange clears the slot in the support

assembly.

4.
Disconnect the five wiring har-

ness plugs from the control module.

5.
Remove the control module from

the vehicle.

INSTALLATION

1.
Connect the five wiring harness

plugs to the control module. Only one

arrangement is possible.

2.
Position the control module in

the retainer, orienting the module per

the markings on it, and insert the re-

tainer flange into the slot at the rear

of the support assembly.

3.
Pivot the retainer and control

module upward and align the screw

hole in the forward end of the retainer

with the hole in the support bracket

assembly. Install the retaining screw.

4.
Test the vehicle on the hoist to

verify correct operation of the skid

control system.
5.-
Secure the wiring to the module

support extension with the retaining

strap.

ANTI-SKID CONTROL SENSOR

REMOVAL

Refer to Fig. 39.

1.
Raise the vehicle on a hoist.

2.
Remove the rear wheel and tire

assembly.

3.
Remove the three Tinnerman

nuts (3) and remove the brake drum.

4.
Disconnect the sensor lead from

the rear wiring harness.

5.
Unseat the sensor lead grommet

pushing it to the inside of the brake

assembly.

6. Remove the four nuts that retain

the sensor to the backing plate and

pull the axle shaft, sensor assembly

and wheel bearing assembly from the

axle housing.

7.
Press the wheel bearing retainer

and wheel bearing off the axle shaft

(Refer to Part 4-2).

8. Remove the sensor assembly and

press the rotor off the shaft with tool

T69P-2B384-A Detail 2 and TOOL

1225-DA.

INSTALLATION

1.
Press a new rotor onto the axle

shaft. Install a new sensor assembly

on the shaft with tool T69P-

2B384-ADetail 1 and TOOL 1225-

DA, and press the bearing and bear-

ing retainer onto the shaft (Refer to

Part 4-2).

2.
Insert the axle shaft assembly in

the rear axle housing onto the four

backing plate retaining bolts, feeding

the sensor lead through the hole in the

backing plate.

3.
Seat the sensor lead grommet in

the backing plate.

4.
Install the four nuts on the re-

taining bolts and tighten to specifica-

tions.

5.
Connect the sensor lead to the

rear wiring harness and install two re-

taining straps.

6. Install the rear brake drum and

retain with the Tinnerrhan drum re-

taining nuts.

7.
Install the rear wheel and tire as-

sembly and tighten the wheel nuts to

specifications.

8. Test the vehicle on the hoist to

verify proper operation of the skid

control system.procarmanuals.com

02-03-03
Specifications

02-03-03

ROTOR REFINISH

The following requirements must be met when resurfacing disc

brake rotors:

Rotunda Disc Brake Attachment FRE-2249-2 is the only approv-

ed tool to be used to ref inish the disc brake rotors. The step-by-

step resurfacing procedure provided with the tool must be adhered

t0" The finished braking surfaces of the rotor must be flat and

parallel within 0.0007
inch;
lateral runout must not exceed 0.003

inch total indicator reading, and the surface finish of the braking

surfaces are to be 15-80 micro inches.
On all models except Lincoln Continental the limiting dimen-

sion from the inner bearing cup to the inner rotor face must be

measured with a ball and gage bar (Rotunda FRE-70160).

On Lincoln Continental models the limiting dimension from the

inboard bearing cup to the inboard rotor face of 0.755 inch
mini-

mum and from the inboard bearing cup to the outboard rotor face

of 0.395 inch minimum must be observed.

TORQUE LIMITS -GENERAL -FT-LBS.

Parking Brake Control Assembly

Mounting Nuts and Bolts

Master Cylinder to Dash Panel Screw

Master Cylinder to Booster

Booster to Dash Panel

Disc Brake Caliper to Spindle Bolts

Disc Brake Rotor Splash Shield

to Spindle

Brake Hose to Caliper Connection Bolt

Caliper Locating Pins

Caliper Stabilizer to Anchor Plate

Bolt

Caliper Brake Shoe Clips

Caliper Bleeder Screws

Wheel Cylinder to Backing Plate Screws

Wheel Cylinder & Backing Plate

Anchor Pin Nut

Rear Brake Backing Plate to Axle

Housing:
Removable Carrier

Integral Type

Front Brake Backing Plate to Spindle

Wheel Cylinder Bleeder Screw

Brake Hose Connection to Front

Wheel Cylinder

Brake Line Connection to Rear Axle

Housing:
Removable Carrier

Integral Type

Hydraulic Tube Connections ®

3/8 x 24

7/16 x 24

1/2 x 20

9/16 x 18

Wheel to Hub and Drum or Hub and

Rotor Nuts
Ford-Mercury

Meteor

Cap Screw

12-19

Nuts 7-11

13-20

13-?0

13-20

Upper ©

110-140

Lower

90-120

9-14

17-25

25-35

8-11

6-10

6-15

10-20

20-30

50-70

IPo

25-40

6-15

12-20

30-40

25-35

10-15

10-15

10-17

10-17

70-115
Fair
lane-

Montego

Falcon

12-25

13-20

13-20

13-20

Upper CD

100-140

Lower

55-75

9-14

17-25

25-35

8-11

6-10

6-15

10 in. Brake

10-20

9 in. Brake

5-7

50-70

20-40

28-35

32-65 ®

Inch-lb.

12-20

12-19

12-19

10-15

10-15

10-17

10-17

4 lug

55-85

5 lug

70-115
Mustang-

Cougar

12-25

13-20

13-20

13-20

Upper ©

100-140

Lower

55-75

9-14

17-25

25-35

8-11

6-10

6-15

10 in. Brake

10-20

9 in. Brake

5-7

50-70

20-40

28-35

32-65 ®

Inch-lb.

12-20

12-19

12-19

10-15

10-15

10-17

10-17

4 lug

55-85

5 lug

70-115
Thunderbird

Continental

Mark III

1218

13-20

13-20

Upper ©

110-140

Lower

90-120

9-14

17-25

25-35

8-11

6-10

6-15

10-20

50-70

6-15

30-40

10-15

10-15

10-17

10-17

70-115
Lincoln

Continental

Dash Panel

10-20

Inst. Panel

712

13-20

13-20

100-140

9-14

7-9

6-15

10-20

30-35

6-15

10-15

10-15

10-17

10-17

70-115

® The upper bolt must be tightened first.

® On front disc brake calipers 6-15 ft-lbs.

® All hydraulic lines must be tightened to the specified torque value and be free of fluid leakage.procarmanuals.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

03-01-06
Suspension — Steering, Wheels And Tires — General Service

03-01-06

SUSPENSION UPPER

ARM MOVEMENT

Front Bolt Outboard

Rear Bolt Outboard

Front Bolt Inboard

Rear Bolt Inboard
CASTER CHANGE

Tilt Backward

Increase Positive Caster

or

Decrease Negative Caster

Tilt Forward

Decrease Positive Caster

or

Increase Negative Caster

Tilt Forward

Decrease Positive Caster

or

Increase Negative Caster

Tilt Backward

Increase Positive Caster

or

Decrease Negative Caster
CAMBER CHANGE

Tilt Outward

Increase Positive Camber

or

Decrease Negative Camber

Tilt Inward

Decrease Positive Camber

or

Increase Negative Camber

FIG. 14—Caster and Camber Adjustments

sary. Then, tighten the upper arm

inner shaft attaching bolts to specifi-

cation. Remove the adjusting bar

(Tool T65P-3OOO-D) and the align-

ment spacers (Tool T65P-3O00-E or

F).

Camber

To adjust the camber angle, install

the tool as outlined above (Fig. 13).

Loosen both inner shaft attaching

bolts and tighten or loosen the hook

nuts to move the inner shaft inboard

or outboard as necessary with Tool

T65P-3OOO-D to increase or decrease

camber (Fig. 13). The camber angle

can be checked without tightening the

inner shaft attaching bolts.

COUGAR, FAIRLANE, FALCON,

MONTEGO, MUSTANG

Be sure all the equipment listed in

Equipment Installation is installed be-

fore adjusting the caster and camber.

Caster is controlled by the front

suspension strut (Fig. 15). To obtain

positive caster, loosen the strut rear

nut and tighten the strut front nut

against the bushing. To obtain nega-

tive caster, loosen the strut front nut

and tighten the strut rear nut against

the bushing.

Camber is controlled by the eccen-

tric cam located at the lower arm at-

tachment to the side rail (Fig. 13).

To adjust the camber, loosen the

camber adjustment bolt nut at the

rear of the body bracket. Spread the

body bracket at the camber adjust-
TER ADJUSTMENT NUTS

EAR INSULATOR

WASHER
FRONT ADJUSTMENT NUT

INNER SLEEVE

TURN NUTS

REARWARD

TO OBTAIN

POSITIVE

CASTER
OUTER SLEEVE

RONT INSULATOR

WASHER

CASTELLATED

NUT

TURN NUTS

FORWARD

TO OBTAIN

NEGATIVE

CASTER

NEGATIVE

CAMBER

SPREAD THIS MEMBER AT

LOWER ARM PIVOT

BUSHING

PRY AT THESE POINTS'

F1371-A

FIG. J5—Caster and Camber Adjustments

ment bolt area just enough to permit

lateral travel of the arm when the ad-

justment bolt is turned. Rotate the

bolt and eccentric clockwise from the

high position to increase camber or

counterclockwise to decrease camber.

After the caster and camber has

been adjusted to specification, torque

the lower arm eccentric bolt nut and

the strut front nut to specification.
LINCOLN CONTINENTAL

Preliminary Steps

1.
With the car properly positioned

and wheel alignment measuring equip-

ment properly installed, raise the hood

and scribe chalk marks around the

bolts and lock washers that secure theprocarmanuals.com

03-01-07
Suspension — Steering, Wheels And Tires — General Service

03-01-07

upper arm shaft to the frame member

(Fig. 3, Part 3-2).

2.
Loosen the arm shaft attaching

bolts,
raise the front end of the vehicle

and lower it again. This will break the

arm shaft loose from the frame mem-

ber.

3.
With a pry bar, move the arm

shaft back into alignment with the

chalk marks made in Step 1, and

tighten the shaft attaching bolts. The

bolts should be tightened just enough

to hold the shaft in position without

preventing its being moved with the

pry bar.

Caster

1.
With the aid of a pry bar, move

the shaft in or out, as required, to

meet specifications. A movement of

approximately 3 /32 inch at either the

front or rear bolt location will change

the caster 1/2 degree. Inboard move-

ment of the front bolt, or outboard

movement of the rear bolt, will change

caster in the negative direction. Out-

board movement of the front bolt, or

inboard movement of the rear bolt,

will change caster in the positive di-

rection.

2.
When the caster is correct, tor-

que the shaft attaching bolts to speci-

fication and recheck the caster and

camber to insure that the readings

have not changed.

Camber
TURN DOWNWARD TO

INCREASE ROD LENGTH

TURN UPWARD

TO DECREASE

ROD LENGTH
TURN

DOWNWARD

TO DECREASE

ROD LENGTH
TURN UPWARD TO

INCREASE ROD LENGTH

LEFT-HAND SLEEVE
RIGHT-HAND SLEEVE

FIG. 16—Spindle Connecting Rod Adjustment

WHEN TOE-IN IS CORRECT

TURN BOTH CONNECTING ROD

SLEEVES UPWARD TO ADJUST

SPOKE POSITION
F1433-A

i URN BOTH CONNECTING ROD

SLEEVES DOWNWARD TO

ADJUST SPOKE POSITION

WHEN TOE-IN IS

NOT CORRECT

LENGTHEN LEFT ROD TO

INCREASE TOE-IN

SHORTEN RIGHT ROD

TO DECREASE TOE-IN
SHORTEN LEFT ROD

TO DECREASE TOE-IN

LENGHTEN RIGHT ROD

TO INCREASE TOE-IN

ADJUST BOTH RODS EQUALLY TO MAINTAIN NORMAL SPOKE POSITION

1.
With the aid of a pry bar, move

the shaft in or out, as required, to

meet specifications. A movement of

approximately 3/64 inch of the entire

shaft will change the camber 1/4 de-

gree.
Inboard movement will change

the camber in the negative direction.

Outboard movement will change the

camber in the positive direction.

2.
When the camber is correct, tor-

que the shaft attaching bolts to speci-

fication and recheck the camber and

caster to insure that the readings have

not changed. Remove all alignment

equipment and alignment spacers and

install the right and left side rail

bumpers.

TOE-IN AND STEERING

WHEEL SPOKE

POSITION ADJUSTMENTS

Check the steering wheel spoke po-

sition when the front wheels are in the

straight-ahead position. If the spokes

are not in their normal position, they

can be properly adjusted while toe-in

is being adjusted.
F1434-
A

f/G.77—Toe-in and Steering Wheel Spoke Alignment Adjustment—Typical

1.
Loosen the two ciamp bolts or

each spindle connecting rod sleeve

(Fig. 16).

2.
Adjust toe-in. If the steering

wheel spokes are in their normal posi-

tion, lengthen or shorten both rods

equally to obtain correct toe-in (Fig.

16).
If the steering wheel spokes are

not in their normal position, make the

necessary rod adjustments to obtain

correct toe-in and steering wheel

spoke alignment (Fig. 17).

3.
Recheck toe-in and the steering

wheel spoke position. If toe-in is cor-

rect and the steering wheel spokes are

still not in their normal position, turn

both connecting rod sleeves upward or

downward same number of turns to

move the steering wheel spokes (Fig.

16).

4.
When toe-in and the steering

wheel spoke position are both correct,

torque the clamp bolts on both con-

necting rod sleeves to specification
(Part 3-13). Lubricate clamp, bolts

and nuts prior to torquing to specifi-

cation. The sleeve position should not

be changed when the clamp bolts are

tightened.

WHEEL BALANCING

See the instructions provided with

the Rotunda Wheel Balancer.

Make certain that the brakes are

not dragging before attempting to spin

the wheels. Push the brake shoes into

the caliper to free the rotor.

LUBRICANT CHECKING

PROCEDURE

MANUAL STEERING GEAR

1.
Center the steering wheel.

2.
Remove the steering gear hous-

ing filler plug.procarmanuals.com

03-01-08
Suspension
—
Steering,
Wheels
And
Tires
—
General Service

03-01-08

3.
Remove the lower (upper on

Mustang and Cougar) cover- to-

housing attaching bolt.

4.
With a clean punch or like in-

strument, clean out or push inward

the loose lubricant in the filler plug

hole and cover to housing attaching

bolt hole.
5.
Slowly turn the steering wheel to

the left stop, lubricant should rise

within the lower cover bolt hole; then

slowly turn the steering wheel to the

right stop, lubricant should rise within

the filler plug hole. If lubricant does

not rise in both the cover bolt hole
and the filler plug hole, add lubricant

until it comes out both holes during

this check.

6. Install the lower (upper on

Mustang and Cougar) cover- to-

housing attaching bolt and the filler

plug.

CLEANING
AND
INSPECTION

FRONT
END
GENERAL

INSPECTION

Do not check and adjust front

wheel alignment without first making

the following inspection for front-end

damage, or wear.

1.
Check for specified air pressures

in all four tires.

2.
Raise the front of the vehicle off

the floor. Shake each front wheel

grasping the upper and lower surfaces

of the tire. Check the front suspension

ball joints and mountings for loose-

ness,
wear, and damage. Check the

brake backing plate mountings. Tor-

que all loose nuts and bolts to specifi-

cation. Replace all worn parts as out-

lined in Part 3-2.

3.
Check the steering gear mount-

ings and all steering linkage connec-

tions for looseness. Torque all mount-

ings to specifications. If any of the

linkage is worn or bent, replace the

parts as outlined in Part 3-5.

4.
Check the front wheel bearings.

If any in-and-out free play is noticed,

adjust the bearings to specifications.

Replace worn or damaged bearings as

outlined in Part 3-12.

5.
Spin each front wheel with a

wheel spinner, and check and balance

each wheel as required.

6. Check the action of the shock

absorbers. If the shock absorbers are

not in good condition, the vehicle may

not settle in a normal, level position,

and front wheel alignment may be af-

fected.

WHEEL INSPECTION

Wheel hub nuts should be inspected

and tightened to specification at pre-

delivery. Loose wheel hub nuts may

cause shimmy and vibration. Elongat-

ed stud holes in the wheels may also

result from loose hub nuts.

Keep the wheels and hubs clean.

Stones wedged between the wheel and

drum and lumps of mud or grease can

unbalance a wheel and tire.
Check for damage that would affect

the runout of the wheels. Wobble or

shimmy caused by a damaged wheel

will eventually damage the wheel bear-

ings.
Inspect the wheel rims for dents

that could permit air to leak from the

tires.

UPPER BALL JOINT

INSPECTION

Ford,
Mercury,
Meteor,

Thunderbird,

Lincoln Continental
and

Continental Mark
III

1.
Raise the vehicle and place floor

jacks beneath the lower arms.

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 upper end of the

spindle and the upper arm.

4.
Any movement between the

upper end of the spindle and the upper

arm indicates ball joint wear and loss

of preload. If any such movement is

observed, replace the upper ball joint.

During
the
foregoing
check,
the

lower ball joint will
be
unloaded
and

may
move.
Disregard
all
such
move-

ment
of the
lower ball
joint.
Also,
do

not mistake loose wheel bearings
for a

worn ball
joint.

Cougar,
Fairlane,
Falcon,

Montego
and
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 as

shown in Fig. 18. This will unload the

upper ball joint.

2.
Adjust the wheel bearings as de-

scribed in Part 3-12.

3.
Attach a dial indicator to the

upper arm and position the indicator
so that the plunger rests against the

inner side of the wheel rim adjacent to

the upper arm ball joint.

4.
Grasp the tire at the top and

bottom, and slowly move the tire in

and out (Fig. 18). Note the reading

(radial play) on the dial indicator. If

MAXIMUM TOLERANCE

F
1500-A

FIG.
T8—Measuring Upper Ball

Joint Radial Play

MAXIMUM TOLERANCE

F14
35-A

FIG.
79—Measuring Lower Ball

Joint Radial Playprocarmanuals.com

03-01-10
Suspension — Steering, Wheels And Tires — General Service

03-01-10

The following procedure should be

followed when cleaning the relief valve

which is a part of the pump valve as-

sembly.

1.
Using a punch or rod of suitable

diameter, apply an even pressure in a

straight line to the tip of the relief

valve pin (Fig. 20). Depress the valve

two or three times to exhaust the oil

which is trapped in the assembly. Do

not hammer on the valve pin or hous-

ing.

2.
Submerge the assembly in a con-

tainer of clean solvent. Again applying

an even pressure to the tip of the relief

valve pin, (a sudden strong force could

push the pin through the relief valve

spool) move the valve in and out sev-

eral times, thereby thoroughly flushing

the assembly. Pressure created within

the valve bore when the valve is moved

inward should force the cleaning fluid

out through the sensing orifice. If this

does not occur, the sensing orifice

should be cleaned with a piece of wire.

The valve must move freely and even-

ly. If the pin is bent or damaged, or if

the valve binds, the pump valve must

be replaced.

INSPECTION

The following describes the compo-

nents of the power steering pump

which must be replaced regardless of

condition and how to determine when

other components should be replaced.

The outlet fitting hex nut may be

reused if the corners of the hex are

not rounded. The housing bolts may

be reused if the threads are not dam-

aged.

All gaskets and seals must be re-

placed with new components except

the rotor shaft seal which should be

reused unless it was leaking.

The reservoir assembly may be

reused if the reservoir seal and gasket

areas are not damaged (dents, scratch-

es,
etc.). The soldered joints of the re-

turn and fill tubes must not be loose

or bent. Be sure to check for a broken

baffle.

The housing or housing assembly

may be reused if there is no damage

(scratches, etc.) at reservoir gasket,

outlet fitting or cover seal areas.

If the outlet fitting is damaged, the

pump housing must be replaced. The

pressure plate springs may be reused

providing they are not bent, broken or

have not taken a set.

Do not reuse the retainer end plate

if it is burred or damaged. The upper

pressure plate may be reused if there

is no scoring on the wear surface. It is

acceptable to polish the phosphate

coating.
The rotor and cam assembly can be

reused if there is no wear other than

the removal of the phosphate coating

on the cam contour. Do not disas-

semble the rotor and cam assembly.

Push the rotor part way out the cam

insert taking care not to let the slip-

pers and springs fall out. Check the

cam ID for scoring and burning.

Check the rotor faces and OD for

scoring and chipping. Do not attempt

to repair or refinish the lower and

upper pressure plates, cam or rotor

assembly. When wear or burning is

encountered, replace, them with new

components.

Install a new rotor and cam assem-

bly if the slippers are worn. Replace

the springs if they are bent or broken.

Polishing the phosphate coating of the

slipper sealing surface is permissable.

The rotor shaft can be reused if the

front and rear thrust faces, the bush-

ing diameter and the shaft seal diame-

ter are not excessively worn or scored.

The housing plate and bushing as-

sembly may be reused if all of the

threaded holes are not damaged

beyond repair and the bushing diame-

ter is not scored or worn .0005 inch

over the maximum dimension of .6897

inch. Threaded holes can be repaired

by drilling out the damaged threads

and installing a helicoil insert. If the

bushing is scored or excessively worn,

a new plate and bushing assembly

must be installed.

With Tool T69P-3D608-A (using a

dial indicator) check the squareness of

the fixed dowel pin in the plate (Fig.

21).
The pin must be square with the

adjacent surface within .001 inch per

inch through a 180 degree arch.

A bent or broken dowel pin can be

replaced as follows:
1.
Hold the plate assembly in a

horizontal position and grip at least

an inch of the dowel pin in a vise. Tap

the plate with a plastic or a rubber

hammer to pull the pin from the

plate.

2.
Insert the support guide (Tool

T69P-3D608-B) over a dowel pin (Fig.

22) and press the pin into the plate to

a height of 1.68 inch (See Fig. 23).

The support guide tool will serve as a

stop guide. Be careful not to bend the

new dowel pin during installation.

3.
Again use Tool T69P-3D608-A

(with a dial indicaator) to check the

dowel pin squareness as outlined

above.

POWER STEERING PUMP

INSPECTION—LINCOLN

CONTINENTAL AND

CONTINENTAL MARK III

1.
Wash all parts in clean solvent

and dry them with clean cloths or

compressed air.

2.
Inspect the rotor shaft for wear,

scoring, nicks, or burrs. Replace the

shaft if it is damaged or if the inner

keyway is damaged.

Tool
T69P-3D608-B

G1609-A

FIG. 22—Dowel Pin Insertion

Tool
T69P-3D608-A

G1608-A

FIG. 21—Dowel Pin Squareness

Check
FIG. 23 — Replacing Dowel Pinprocarmanuals.com

03-02-04
Suspension

03-02-04

COUGAR, FAIRLANE,

FALCON, MONTEGO,

MUSTANG

LINCOLN CONTINENTAL

Each rear wheel, hub and brake

drum assembly is bolted to the rear

axle shaft flange. The wheel and axle

shaft assembly rotates in the rear axle

housing. Two spring pads, integral

with the axle housing, rest on two leaf

spring assemblies. The axle housing is

fastened to the center of the springs

by spring clips (U-bolts), retainers,

and nuts (Figs. 5 and 6). Each spring

assembly is suspended from the under-

body side rail by hanger and shackle

assemblies at the front and rear. The

integral mounting stud at the upper

end of each shock absorber is attached

to the crossmember by a mounting

plate. The lower end is mounted to a

stud which is integral with a bracket

welded to the axle housing.
SHOCK ABSORBER

UPPER MOUNTING

BRACKET

SPRING
SHOCK ABSORBER

UPPER ARM

FIG. 2—Front Suspension—Typical—Cougar, Fairlane, Falcon,

Montego, Mustang

F
1497.
A

3—Front Suspension—Lincoln Continentalprocarmanuals.com