reset FORD MUSTANG 1969 Volume One Chassis

02-02-18

Brake System

02-02-18

the brake hose connector
and
bracket

assembly.

3.
Remove
the two
bolts retaining

the brake hose bracket
and
caliper
as-

sembly
to the
spindle. Take care
to

avoid loosening
the
bridge bolts that

hold
the two
halves
of the
caliper
to-

gether.

4.
Lift
the
caliper assembly
off the

rotor
and
place
it on the
bench.

Installation

1.
If the
caliper assembly
is to be

replaced, transfer
the
steel tubing
and

the bleeder screw
to the new
caliper.

2.
Position
the
caliper assembly
on

the rotor,
and
mate
the
mounting bolt

holes
in the
caliper with those
in the

spindle.
It may be
necessary
to
push

the caliper pistons into
the
cylinder

bores
to
obtain clearance between
the

shoe
and
lining assembly
and the

rotor.
The
shoe
and
lining assemblies

should
be
seated properly
on the

bridges.

3.
Install
the
caliper
to
spindle
re-

taining bolts
and
torque them
to
spec-

ification. Check
to
insure that
the

rotor runs squarely
and
centrally
be-

tween
the two
halves
of the
caliper.

These should
be
approximately 0.090-

0.120 inch clearance between
the
cali-

per
and the
rotor outside diameter

(Fig.
6).

4.
Position
the
steel transfer tube

brake hose bracket
and
caliper assem-

bly
to the
spindle. Install
the
retaining

bolts then torque them
to
specifica-

tion.

5.
Connect
the
front wheel steel

transfer tube from
the
caliper
to the

front brake hose connector. Check
the

hose
for
proper installation
(Fig. 21).

6. Bleed
the
brake system
and cen-

tralize
the
differential valve
as out-

lined
in
Part
2-1.
Check
the
master

cylinder fluid level
and add the
speci-

fied fluid,
as
required. Pump
the

brake pedal several times
to
actuate

the piston seals
and to
position
the

shoe
and
lining assemblies.

7.
Install
the
wheel
and
tire assem-

bly
and the
wheel cover.

8. Road test
the
vehicle.

DISC BRAKE SHOE
AND

LINING

ALL MODELS EXCEPT

LINCOLN CONTINENTAL

Removal

1.
Remove
the
wheel
and
tire from
the
hub and
rotor assembly.

2.
Remove
the
caliper from
the ve-

hicle following
the
procedures outlined

under Disc Brake Caliper Assembly.

3.
To
facilitate removal
of the
cali-

per assemblies,
the
piston
may
have
to

be pushed into
its
bore. Apply
a

steady inward pressure against
the

inner shoe
and
lining assembly. Main-

tain
the
pressure
for at
least
a
minute.

4.
Slide
the two
outer shoe retain-

ing clips
off the
retaining pins
(Fig.

23).

5.
Remove
the two
retaining pins

from
the
outer shoe, then remove
the

shoe from
the
stationary caliper.

6. Slide
the
inner brake shoe
out-

ward until
it is
free
of the
hold-down

springs, then remove
the
brake shoe.

7.
Remove
the
caliper locating pins

and stabilizer attaching bolts, then
re-

move
and
discard
the
stabilizer
or sta-

bilizers.

8. Remove
the
locating
pin
insula-

tors from
the
anchor plate.

Installation

When installing
new
shoes
and lin-

ings
it
will
be
necessary
to
force
the

piston
to the
bottom
of its
bore.

Apply sufficient pressure
to
overcome

the grip
of the
piston seal
on the pis-

ton.

1.
Install
new
caliper locating
pin

insulators
in the
anchor plate.

2.
Position
the
caliper assembly
in

the anchor plate.

3.
Position
the new
stabilizer
or

stabilizers
and
install
the
caliper locat-

ing pins
to
engage approximately four

threads.

If
the
caliper locating pins
are
rust-

ed
or
corroded they should
be re-

placed.

Apply water
or
isopropyl alcohol
to

the caliper locating pins before instal-

lation.
Oil or
grease must
not be
used

on
the
locating pins.

4.
Position
the
outer brake shoe
on

the caliper
and
install
the two
retain-

ing pins
and
clips.

5.
Install
the
inner brake shoe
so

that
the
ears
of
shoe
are on top of the

anchor plate bosses
and
under
the

shoe hold-down springs.

6. Position
the
shoe
and
lining

assemblies
so
that
the
caliper assem-

bly
can be
placed over
the
rotor.
Ro-

tate
a
hammer handle between
the lin-

ings
to
reset
the
stabilizers.

7.
Install
the
caliper assembly over

the rotor
and on the
spindle. Install

the
two
caliper attaching bolts,
and

torque them
to
specifications.
The

upper bolt must
be
tightened first.
In-

stall
the
safety wire
and
twist
the
ends
at least five turns. Push
the
wire ends

against
the
spindle
to
avoid interfer-

ence with
the
brake hose
and the

steering stop.

8. With moderate pressure applied

to
the
brake pedal, torque
the
stabiliz-

er attaching screws
and
caliper locat-

ing pins
to
specification.

LINCOLN CONTINENTAL

Removal

1.
Remove
the
wheel
and
tire
as-

sembly from
the hub and
rotor assem-

bly.
Be
careful
to
avoid damage
or in-

terference with
the
caliper splash

shield, bleeder screw fitting
or
transfer

tube.

2.
Remove
the two
bolts that retain

the caliper splash shield,
and
remove

the shield
(Fig. 4).

3.
To
facilitate removal
and
instal-

lation
of the
shoe
and
lining assem-

blies,
the
pistons must
be
pushed into

their bores. Apply
a
steady inward

pressure against each shoe
and
lining

assembly toward
its
respective caliper

housing
on
each side
of the
rotor
(Fig.

6).
Maintain
the
pressure
for at
least

a minute.
If the
pistons will
not go ifi

easily, force them
in
with water pump

pliers.

4.
Grasp
the
metal flange
on the

outer
end of the
shoe with
two
pairs

of pliers
and
pull
the
shoe
out of the

caliper (Fig.
25).

Installation

1.
Position
a new
shoe
and
lining

assembly
on
each side
of the
rotor
so

that
the
lining faces
the
rotor.
Be
sure

AB

AB

USE SECOND

PAIR
OF

PLIERS HERE

H 1651
A

FIG. 25—Removing Disc Brake

Shoe
and
Lining Assembly—

Lincoln Continentalprocarmanuals.com

04-03-04
Rear Axles — Integral Carrier Type

04-03-04

1.
Remove the wheel cover, wheel

and tire from the brake drum.

2.
Remove the Tinnerman nuts that

secure the brake drum to the axle

housing flange, and then remove the

drum from the flange.

3.
Working through the hole pro-

vided in each axle shaft flange, re-

move the nuts that secure the wheel

bearing retainer plate. Then pull the

axle shaft assembly out of the axle

housing (Fig. 2). The brake backing

plate must, not be dislodged. Install

one nut to hold the plate in place after

the axle shaft is removed.

4.
If the rear wheel bearing is to be

replaced, loosen the inner retainer

ring by nicking it deeply with a cold

chisel in several places (Fig. 3). It will

then slide off easily.

5.
Remove the bearing from the

axle shaft with the tool shown in Fig.

4 or 5. If the push-puller operation

shown in Fig. 5 is used, be sure that

the puller arms contact the flat sur-

face of the axle shaft flange rather

than the bolt heads. Also with this

method, be careful not to damage or

burr the oil seal journal as the bearing

breaks loose.

6. Whenever a rear axle shaft is re-

placed the oil seal must be replaced.

Remove the seal with the tools shown

in Fig. 8. Soak new oil seals in SAE

10 oil for 1/2 hour before installing.

7.
Inspect the machined surfaces of

the axle shaft and the axle housing for

rough spots or other irregularities

which would affect the sealing action

of the oil seal. Check the axle shaft

splines for burrs, wear or damage.

Carefully remove any burrs or rough

spots.
Replace worn or damaged

parts.

8. Lightly coat wheel bearing bores

with axle lubricant.

9. Place the retainer plate on the

axle shaft, and press the new wheel

bearing on the shaft with the tool

shown in Fig. 4 or 5. The bearing

should seat firmly against the shaft

shoulder. Do not attempt to press on

both the bearing and the inner retain-

er ring at the same time.

10.
Using the bearing installation

tool, press the bearing inner retainer

ring on the shaft until the retainer

seats firmly against the bearing.

11.
Wipe all lubricant from the in-

side of the axle housing in the area of

the oil seal before installing the new

seal.

12.
Wipe a small amount of oil res-

istant sealer on the outer edge of the

seal before it is installed. Do not put

sealer on the sealing lip.

13.
Rear wheel oil seals with syn-
thetic sealing elements have been in-

corporated in production. However,

only leather seals will be used as re-

placements for the synthetic sealing

element seals. Install the new oil seal

with the tools shown in Fig. 8. Instal-

lation without use of the proper tool

will distort the seal and cause leakage.

Be sure the new seal has been soaked

in SAE 10 oil for 1/2 hour.

14.
Carefully slide the axle shaft

into the housing so that the rough

forging of the shaft will not damage

the oil seal. Start the axle splines into

the side gear, and push the shaft in

until the bearing bottoms in the housing.

15.
Install the bearing retainer plate

on the mounting bolts at the axle

housing, and install the attaching nuts.

Torque the nuts to specifications.

16.
Install the brake drum and the

drum retaining nuts.

17.
Install the wheel and tire on the

drum, and install the wheel cover.

REMOVAL AND REPLACEMENT

OF DRIVE PINION OIL SEAL

Synthetic seals must not be cleaned,

soaked or washed in cleaning solvent.

Replacement of the pinion oil seal

involves removal and installation of

only the pinion shaft nut and the uni-

versal joint flange. However, this op-

eration disturbs the pinion bearing
preload, and this preload must be

carefully reset when assembling.

1.
Raise the vehicle and install safe-

ty stands. Remove the rear wheels and

brake drums.

2.
Make scribe marks on the drive

shaft end yoke and the axle U-joint

flange to insure proper position of the

drive shaft at assembly (Fig. 14). Dis-

connect the drive shaft from the axle

U-joint flange. Be careful to avoid

dropping the loose universal joint

bearing cups. Hold the cups on the

spider with tape. Mark the cups so

that they will be in their original posi-

tion in relation to the flange when

they are assembled. Remove the drive

shaft from the transmission extension

housing. Install an oil seal replacer

tool in the transmission extension

housing to prevent transmission leak-

age.
Refer to the transmission group

for the appropriate tool.

3.
Install an in-lb torque wrench on

the pinion nut Fig. 6. Record the tor-

que required to maintain rotation of

the pinion shaft through several revo-

lutions. \

4.
While holding the flange with the

tool shown in Fig. 9, remove the inte-

gral pinion nut and washer.

5.
Clean the pinion bearing retainer

around the oil seal. Place a drain pan

under the seal, or raise the front of

the vehicle higher than the rear.

KJ
E
I582-A
Tool - 1175-AB

and T50T-100-A

^___ or
J
775-
AE

Torque Wrench

^ mm i e
icot
A

E 1681-A

FIG. 6—Checking Pinion FiG 7_Removing
pjnjon
Sea,

Bearing Preload

,Tool-T58L-101-A or U75-AE

Tool-T50T-100-A

REMOVAL
Tool-60K-1177-B

or 1177-BorC

INSTALLATION E1214-D

FIG. 8—Removing and Installing Axle Shaft Sealprocarmanuals.com

07-01-09

General Transmission Service

07-01-09

For example, on a C4 transmission,

if the pressure at 10 inches of vacuum

was 120 psi and the pressure at 1.0

inch of vacuum was 170 psi, and up-

shifts and downshifts were harsh, a di-

aphragm adjustment to reduce the di-

aphragm assembly spring force would

be required.

If the pressure readings are low, an

adjustment to increase diaphragm

spring force is required.

To increase control pressure, turn

the adjusting screw in clockwise to re-

duce control pressure, back the adjust-

ing screw out by turning it counte-

rclockwise. One complete turn of the

adjusting screw (360 degrees) will

change idle line control pressure ap-

proximately 2-3 psi. After the adjust-

ment is made, install the vacuum line

and make all the pressure checks as

outlined in the Specification Section.

The diaphragm should not be ad-

justed to provide pressure below the

ranges shown in the Specification Sec-

tion in order to change shift feel. To

do so could result in soft or slipping

shift points and damage to the trans-

mission.

ALTITUDE

COMPENSATING TYPE

The altitude—compensating di-

aphragm is provided with an adjust-

ment screw located in the vacuum

connecting tube (Fig. 15). The adjus-

table feature allows control and TV

pressures to be adjusted (within limits)

to correct soft or harsh shift feel.

Control and TV pressures are in-

creased or decreased by turning the

adjusting screw.

Before replacing or adjusting the di-

aphragm, it must first be determined

that the pressure or vacuum is actual-

ly out of specification and that the

cause of the problem is not due to

other items within the transmission or

vacuum connecting lines.

If the tests outlined in the Specifi-
cation Section have been performed

and pressures are within specification

but shift feel is unsatisfactory, or if

the pressure is too high or too low at

10 inches of vacuum, the vacuum di-

aphragm may be adjusted to improve

the shift feel.

If shifts are excessively harsh, the

diaphragm should be adjusted to re-

duce control pressure by backing off

the adjusting screw (counterclock-

wise).
If shift quality is extremely soft,

control pressure should be increased

by turning the adjusting screw inward

(clockwise).

To adjust the vacuum diaphragm to

compensate for harsh shift quality,

first check control pressure in D, 2

and 1 at 10 inches manifold vacuum

and note the pressure reading ob-

tained. Remove the T-fitting from the

vacuum hose and back off the adjust-

ing screw (counterclockwise) by one

full turn. Each full turn will reduce

control pressure by approximately 2

1/2 psi at 10 inches of vacuum. Test

the vehicle for shift feel. If shift quali-

ty is still harsh, a further adjustment

should be made to reduce control

pressure. However, control pressure

should not be reduced below the speci-

fication shown for 10 inches of vacu-

um. If control pressure has been re-

duced to the low limit and shift feel is

still excessively harsh, the clutches and

band should be checked for correct

operation.

To adjust the vacuum diaphragm to

compensate for extremely soft shifts,

record the control pressure reading at

10 inches of vacuum in D, 2 and 1,

then make an initial adjustment of

one full turn inward (clockwise). Test

the vehicle for shift feel and again ad-

just the diaphragm, if necessary. Con-

trol pressure at 10 inches of vacuum

must not exceed the high limit shown

in the Specification Section.

When the necessary adjustments

have been completed and shift feel is

satisfactory, repeat all the tests out-

ADJUSTING

SCREW

PRIMARY

THROTTLE VALVE
DIAPHRAGM

SPRING

D 1639-A

FIG. 15—Altitude Compensating Type Vacuum Diaphragm
lined in the Specification Section. All

tests must be within specifications.

The adjustable vacuum unit must not

be used to allow for adjusting control

or TV pressures that are out of speci-

fications. If these pressures are found

to be out of specifications the cause

must be determined and corrected bef-

ore making any adjustment.

NEUTRAL START SWITCH

ADJUSTMENT AND

REPLACEMENT—COLUMN SHIFT

There are two types of column-

mounted neutral start switches: A and

B.
Type A switch has a parking brake

brake-release vacuum valve. Type B

switches do not have a vacuum valve.

The switches differ in appearance but

not in operation. Both switches are

actuated by a removable steel lever,

which is installed in the shifter tube

within the steering column assembly.

The following procedures outline the

steps necessary to correctly adjust and

replace the neutral start switch.

SWITCH ADJUSTMENT

Neutral Position

1.
With the selector lever held light-

ly against the neutral stop, attempt to

start the engine. If the engine starts

while holding the lever but does not

start when the lever is released, the

shift linkage should be adjusted. If the

engine does not start in either condi-

tion, adjust the switch.

2.
To adjust the switch in neutral,

place the transmission selector lever

against the stop of the neutral detent

position.

3.
Loosen the two retaining screws

that locate the switch on the steering

column (Fig. 16).

4.
With the selector lever against

the neutral stop, rotate the switch

until a start in the neutral position is

obtained. Then, tighten the switch at-

taching screws to 20 in-lbs torque.

5.
With the switch properly adjust-

ed in neutral, place the selector lever

in the 1 position and push the park

reset button (Fig. 16) to the left

(counterclockwise) until it stops. The

park reset must be performed when-

ever the switch has been adjusted.

Park Position

1.
Place the selector lever in the

park position, release the lever and at-

tempt to start. If the engine does not

start, reset the park adjustment.procarmanuals.com

07-01-10
General Transmission Service

07-01-10

2.
To adjust the switch for the park

position, place the transmission selec-

tor lever in 1 and push the park reset

button (Fig. 16) to the left (counter-

clockwise) until it stops.

3.
Check the operation of the

switch in each selector lever position.

The starter should engage in only the

neutral and park positions. Be sure to

perform
the
park reset
if for any rea-

son
the
neutral switch
is
adjusted.

If,
after performing
the
switch
ad-

justments,
the
starter still will
not en-

gage
in the
neutral
or
park positions,

replace
the
switch. Never replace
the

neutral switch until
the
switch adjust-

ments have been made.

SWITCH REPLACEMENT

1.
Disconnect the neutral start

switch wires at the plug connector.

2.
Disconnect the vacuum hoses, if

so equipped.

3.
Remove the two screws securing

the neutral start switch to the steering

column and lift the switch from the

column.

Check the column to be sure the

metal switch actuator is secure to the

shift tube and that it is seated as far

forward against the shift tube bearing

as is possible. Also check for a broken

or damaged actuator. If it is broken

or damaged, replace it as shown in

Figure 17.

4.
Before installing a new switch to

the column, check to see that the red

neutral position gauge inserted in the

neutral pinning hole. If the pin is

missing, align the two holes at the

neutral pinning hole on top of the

switch and install a No. 43 drill or

0.092-0.093 inch gauge pin.

5.
While holding the selector lever

against the stop in the neutral detent
ACTUATOR LEVER INSTALLED

WHEN INSTALLING
THE
ACTUATOR

LEVER
BE
SURE THAT
IT
1$ SEATED

AS
FAR
FORWARD AGAINST
THE
SHIFT

TUBE BEARING
AS IS
POSSIBLE.
FORWARD

D2019-A

FIG. 17—Removing
or
Installing Neutral Start Switch Actuator Lever

position, place the switch on the col-

umn and install the two attaching

screws. Tighten the screws to 20 in-lbs

torque.

6. Remove the gauge pin (or No.

43 drill if used).

7.
Connect the switch wires to the

plug connector and check for a start

in the neutral position. The starter

should engage with the selector lever

against the neutral stop. If not, loosen

the attaching screws and move the

switch just enough to engage the start-

er. Tighten the screws to 20 in-lbs tor-

que.

8. With the switch properly adjust-
ed in neutral, push the park reset but-

ton (Fig. 16) to the left (counterclock-

wise) until it stops. The park reset

must be performed whenever the

switch has been adjusted or replaced.

9. To adjust the switch for the park

position, place the transmission selec-

tor lever in 1 and push the park reset

button (Fig. 16) to the left (counter-

clockwise) until it stops.

10.
Connect the vacuum hoses to

the switch, if so equipped.

11.
Check the operation of the

switch in each selector lever position.

The starter should engage in only the

neutral and park detent positions.

NEUTRAL SWITCH-TYPE
A

(USED
ON
VEHICLES WITH VACUUM

OPFRATED PARKING BRAKE)
NEUTRAL SWITCH-TYPIE
B

(USED
ON
VEHICLES WITHOUT VACUUM

OPERATED PARKING BRAKE)

ATTACHING

FIG.
16—Ad
justing Neutral Switch—Column Shift
D2018-Aprocarmanuals.com

07-05-03
Specifications

07-05-03

C6 TRANSMISSION (Continued)

Manifold Vacuum

17

16

15

14

13

12

11
Barometric Pressure at 29.5 Inches <2)

T.V.

11-14

15-18

20-22

23-26

28-31

32-35

36-40
Cont.

56-69

56-75

56-S4

56-92

56-98

56-105

56-111
Barometric Pressure at 24.5 Inches ®

T.V.

0-1

2-5

7-9

10-13

15-18

19-22

23-27
Cont.

49-56

49-56

49-61

56-67

56-75

56-84

56-92

© It may not be possible to obtain 18 inches of engine vacuum at idle. For idle vacuums of less than 18 inches the following table

provides idle speed pressure specifications in D range:

£> These specifications (with altitude compensating diaphragm) apply at observed barometric pressure of 29.5 inches (nominal sea level)

© Specifications for barometric pressures of less than 29.5 inches.

<S> At barometric pressures between 29.5 inches and 24.5 inches idle, pressures should fall between the values shown.

CHECK
SAND ADJUSTMENTS

FMX TRANSMISSION

Operation

Transmission End Play Check

Turbine and Stator End Play Check

Front Band Adjustment (Use 1/4 inch spacer

between adjustment screw and servo piston

stem)

Rear Band Adjustment, Model PHB-A.PHD

Rear Band Adjustment,

Model PHB-C, D, E, F, G, H

Primary Sun Gear Shaft Ring End Gap Check

Rear Clutch Selective Snap Ring Thicknesses
Specification

0.010-0.029 (Selective Thrust Washers Available)

PHB,
PHD-New or rebuilt 0.023 max., Used 0.030 max.®

Adjust screw to 10 in-lbs torque. Remove spacer, then tighten screw an additional 3/4 turn

and lock.

Adjust screw to 10 in-lbs torque. Remove spacer, then tighten screw an addition 3/4 turn

Adjusting Internally: Loosen internal locknut. Install spacer tool number T69P-7B193-A between

internal adjusting screw and servo piston, tighten internal adjusting screw to 24 in-lbs torque.

Back off 1 1/2 turns. Hold screw and tighten locknut. Remove spacer.

Adjusting Externally: Loosen internal locknut and reset internal adjusting screw to 0.27-0.28
inch.

Tighten internal locknut. Loosen external locknut and adjust external adjusting screw to 10 ft-lbs

torque. Back off 1 1/2 turns. Hold screw and tighten locknut.

0.002-0.009

0.060-0.064, 0.074-0.078, 0.080-0.092, 0.102-0.106

® To check end play, exert force on checking tool to compress turbine to cover thrust washer wear plate. Set indicator at zero.

C4 TRANSMISSION

Operation

Transmission End Play

Turbine and Stator End Play

Intermediate Band Adjustment

Low-Reverse Band Adjustment

Selective Snap Ring Thickness
Specification

0.008-0.042 inch (Selective Thrust Washers Available)

Model PEB -New or rebuilt 0.044 max., Used 0.060 max.

Model PEE, PEA New or rebuilt 0.023 max., Used 0.040 max.

Remove and discard lock nut. Adjust screw to 10 ft-lbs torque, then back off

1-3/4 turns. Install new lock nut and torque to specification.

Remove and discard lock nut. Adjust screw to 10 ft-lbs torque, then back off 3 turns.

Install new locknut and torque to specification.

0.102-0.106, 0.088-0.092, 0.074-0.078, 0.060-O.064procarmanuals.com