ECO mode FORD MUSTANG 1969 Volume One Chassis

FOREWORD

The five volumes of
this
shop manual provide the Service Technician

with complete information for the proper servicing of all the 1969 line

of Ford Passenger Cars.

The information is grouped according to the type of work being per-

formed,
such as frequently performed adjustments and repairs, in-

vehicle adjustments, major repair, etc. Specifications, maintenance

information and recommended special tools are
included.

The descriptions and specifications in this manual were in effect at the

time this manual was approved for printing. Ford Motor Company

reserves the right to discontinue models at any time, or change specifi-

cations
or design, without notice and without incurring obligation.

SERVICE PUBLICATIONSprocarmanuals.com

01-01-02
Vehicle Identification
01-01-02

VEHICLE WARRANTY NUMBER

The vehicle warranty number is the first line of numbers and

letters appearing on the Warranty Plates (Fig. 1). The Warranty

Plate is riveted to the left front door lock face panel. The first

number indicates the model year. The letter following the model

year number indicates the manufacturing assembly plant. The next

two numbers designate the Body Serial Code followed by a letter

expressing the Engine Code. The group of six digits remaining on

the first line indicate the Consecutive Unit Number.

VEHICLE DATA

The vehicle data appears on the second or lower line on the

Warranty Plate. The first two numbers and a letter identify the

Body Style. A letter or a number appears next indicating the

Exterior Paint Color followed by a number-letter combination

designating the Interior Trim. To the right of this code appears the

Date Code indicating the date the car was manufactured. A two-

digit number next designates the district in which the car was

ordered and may appear in conjunction with a Domestic Special

Order or Foreign Special Order number when applicable. The final

two spaces indicate the Rear Axle Ratio (numbers for regular axles,

letters for locking-types) and the Transmission type (numbers for

manual,
letters for automatic).

OFFICIAL VEHICLE IDENTIFICATION NUMBER

The official Vehicle Identification Number (VIN) for title and

registration purposes is stamped on an aluminum tab that is riveted

to the instrument panel close to the windshield on the driver's side

of the car and is visible from outside (Fig. 2).

MODEL YEAR CODE

The number 9 designates 1969.

ASSEMBLY PLANT CODES
COUGAR

Code

Letter
Code

Letter

A

B

C

D

E

F

G

H

J

K
Atlanta
L

Oakville (Canada)
N

Ontario Truck
P

Dallas
R

.,
Mahwah
S

Dearborn
T

Chicago
U

Lorain
W

Los Angeles
X

Kansas City
Y

Z
Michigan Truck

Norfolk

Twin Cities

San Jose

.
(Pilot). ...Allen Park

Metuchen

Louisville

Wayne

St. Thomas

Wixom

St. Louis

BODY SERIAL AND STYLE CODES

The two-digit numeral which follows the assembly plant code

identifies the body series. This two-digit number is used in con-

junction with the Body Style Code, in the Vehicle Data, which

consists of a two-digit number with a letter suffix. The following

chart lists the Body Serial Codes, Body Style Codes and the model.

LINCOLN CONTINENTAL

Body Body

Serial Style

Code Code Body Type

82
53A
4-Door Sedan

80
65A
2-Door
Hardtop

CONTINENTAL MARK
III

Body Body

Serial Style

Code Code Body Type

89
65A
2-Door
Hardtop
Body

Serial

Code

91

92

93

94

91
Body

Style

Code

65A

76A

65B

76B

65C

® Bench Seat

MERCURY

Body

Serial

Code

44

46

48

45

40

41

42

54

56

58

63

66

68

65

63

66

68

60

61

72

72

74

74

76

76
Body

Style

Code

54A

65A

57A

76A

53M

65M

57M

54C

65B

57B

53F

65F

57 F

76F

53C

65C

57C

63G

63H

71B

71C

71F

71G

71E

71A

©Bench Seat
Body
Type

2-Door
Hardtop©

Convertible©

2-Door
Hardtop©

Convertible®

2-Door
Hardtop®
Model

Standard

XR-7 Luxury

Standard

©Split Bench ©Bucket Seats

Body Type

4-Door Sedan©

2-Door
Hardtop-Formal®

4-Door Hardtop®

Convertible®

CANADA ONLY

4-Door Hardtop Sedan®

2-Door
Hardtop-Formal®

4-Door Hardtop®

4-Door Sedan®

2-Door
Hardtop-Formal®

4-Door Hardtop®

4-Door Hardtop Sedan®©

2-Door
Hardtop-Formal®©

4-Door Hardtop®®

Convertible®®

4-Door Hardtop Sedan©

2-Door
Hardtop-Formal©

4-Door Hardtop©
Model

Monterey

Marquis

Monterey-Custom

Marquis

Brougham (Option)

2-Door
Hardtop (Tunnel Roof)®© Marauder

2-Door
Hardtop (Tunnel Roof)®®©

4-Door 2 Seat®

4-Door 3 Seat (Side Facing)®

4-Door
2
Seat®

4-Door 3 Seat (Side Facing)®

4-Door 2 Seat®©

4-Door 3 Seat (Side Facing)®©
Monterey Wagoi

Monterey-Custom Wagon

Marquis Colony Park

©Split Bench ©Bucket Seats

METEOR (CANADA)

Body

Serial

Code

20

21

23
Body

Style

Code

54A

54B

65B
Body Type

4-Door Sedan®

4-Door Sedan®

2-Door
Hardtop-Formal®
Model

Rideau

Rideau 500

30
54C
4-Door Sedan®

35
65C
2-Door
Hardtop-Formal®

35
65E
2-Door
Hardtop-Formal{5-33)®®

33
57C
4-Door Hardtop®

34
76C
Convertible®

34
76E
Convertible (S-33)®®
Montcalm

24
65F
2-Door
Hardtop-Formal®©

27
57F
4-Door Hardtop®®
LeMoyne

28
71B
Rideau 500-6 Passenger®

29
71C
Rideau 500-Dual Face Rear®

38
71E
Mo ntcalm-6 Passenger®

39
71A
Montcalm-Dual Face Rear®
Station Wagons.

©Bench Seat ©Splite Bench ©Bucket Seatsprocarmanuals.com

01-01-07
Vehicle Identification

01-01-07

DATE CODES

A number signifying the date precedes the month code letter. A

second-year code letter will be used if the model exceeds 12 months.

Month
Code

First Year
Code

Second Year

January

February

March

April

May

June

July

August

September

October

November

December
....A..

...B..

...C.

...D..

...E..

...
F..

...
G.

...H.

...J..

..
K.

. ...L.

...M.

DISTRICT CODES (DSO)

Units built on a Domestic Special Order, Foreign Special Order,

or other special orders will have the complete order number in

this space. Also to appear in this space is the two-digit code number

of the District which ordered the unit. If the unit is a regular

production unit, only the District code number will appear.

FORD

Code
District
Code

District

11...

13
...

15...

16...

17...

21...

22
...

24...

25...

28...

32....

33...

35...

37...

38....

41...

43...

44...

46....

47...
Boston

...New York

Newark

...Philadelphia

Washington

Atlanta

Charlotte

...Jacksonville

Richmond

. ...Louisville

. ...Cleveland

.... Detroit

Lansing

...Buffalo

... .Pittsburgh

Chicago

Milwaukee

Twin Cities

...Indianapolis

Cincinnati
51

53

54

55

56

61

62

63

64

65

71

72

73

74

75

83

84

85

89

90's
..
... Denver

.. .Kansas City

.. Omaha

...St. Louis

.. Davenport

.. Dallas

... Houston

.. Memphis

.. New Orleans

.. .Oklahoma City

... Los Angeles

...San Jose

...Salt Lake City

...Seattle

.. .Phoenix

.. Government

... Home Office Reserve

.. American Red Cross

...Transportation Services

...Export
LINCOLN-MERCURY

Code
District

Code
District

11

15

16

17

21

22

23

26

31

32

33
Boston

New York

Philadelphia

Washington

Altanta

Dallas

Jacksonville

Memphis

Buffalo

Cincinnati

Cleveland
34

41

42

46

51

52

53

54

84

90's...
... Detroit

.. Chicago

..
St.
Louis

... Twin Cities

Denver

Los Angeles

Oakland

Seattle

Home Office Reserve

Export

FORD
OF
CANADA

Code
District
Code
District

Bl

B2

B3

II thru
17..
Central

Eastern

Atlantic

Export
B4.

B6.

B7.
Midwestern

Western

. Pacific

Note:
Canadian Lincoln-Mercury units use prefix
"A" in
place of«"B".procarmanuals.com

02-01-01

02-01-01

GROUP

2

PART
2-1
PAGE

General Brake Service 02-01-01

PART
2-2

Brake System 02-02-01
PART
2-3

Specifications
PAGE

02-03-01

Part
2-1
General Brake Service

COMPONENT INDEX

ANTI SKID CONTROL SYSTEM

Tests

BRAKE BOOSTER

Adjustments

Cleaning
and
Inspection

Tests

BRAKE PEDAL

Free Height Test

Total Travel Test

DISC BRAKES

Cleaning
and
Inspection

Service Precautions

DRUM BRAKES

Cleaning
and
Inspection

HYDRAULIC SYSTEM BLEEDING

PARKING BRAKE CONTROL

Vacuum Release Test

PARKING BRAKE LINKAGE

Adjustment

PRESSURE DIFFERENTIAL VALVE

Adjustment (Centralize)
MODEL APPLICATION
All
Models

01-04

01-07

01-02

01-01

01-01

01-07

01-07

01-08

01-05

01-07
Ford
N/A

01-03

01-03
Mercury
N/A

01-03

01-03
Meteor
N/A

01-03

01-03
Cougar
N/A

N/A

01-03
Fairlane
N/A

N/A

01-03
F

alcon
N/A

N/A

01-03
Montego
N/A

N/A

01-03
Mustang
N/A

N/A

01-03
Lincoln-
Continental
N/A

01-03

01-04
Thunderbird
01-03

01-03

01-04
Continental-
Mark III
01-03

01-03

01-04

A page number indicates that the item
is for the
vehicle listed
at
the head
of the
column.

N/A indicates that the item
is not
applicable
to
the vehicle listed.

1 BRAKE SYSTEM TESTS

Always check
the
fluid level
in the

master cylinder before performing
the

test procedures.
If the
fluid level
is not

within
1/4
inch
of the top of the mas-

ter cylinder reservoirs,
add
Ford

Brake Fluid
—
Extra Heavy Duty —

Part Number C6AZ-19542-A
(ESA-

M6C25-A)
or
equivalent
for all
brake

applications.
The
extra heavy duty

brake fluid
is
colored blue
for
identifi-

cation purposes.
Do not mix low tem-

perature brake fluids with
the
speci-

fied brake fluid.

Should
one of the
wheel brakes
be

locked
and the
vehicle must
be
moved,

open
the
bleeder screw long enough
to

let
out a few
drops
of
brake fluid.

This bleeding operation will release

the brakes
but
will
not
correct
the

cause
of
trouble.
BRAKE PEDAL FREE

HEIGHT
AND
TRAVEL

MEASUREMENTS

With
the
engine running
for
full

power brake operation, measure
the

brake pedal free height,
and
check
the

brake pedal travel with
the use of the

Brake Pedal Pressure Gauge, Tool

WRE-5OO-5O
as
follows:

BRAKE PEDAL FREE HEIGHT

MEASUREMENT

1.
Insert
a
slender, sharp pointed

prod through
the
carpet
and
sound

deadener
to the
dash panel metal
and

measure
the
distance
to the
brake

pedal
(Fig. 1).

2.
If the
position
of the
pedal
is not

within specification, check
the
brake
pedal linkage
for
missing, worn,
or

damaged bushings,
or
loose attaching

bolts
and
replace them,
if
required.

3.
If the
pedal free height
is
still

out
of
specification, check
the
brake

pedal booster
or
master cylinder
to be

sure
the
correct parts
are
installed.

Replace
the
worn
or
damaged parts
as

necessary.

BRAKE PEDAL TRAVEL

MEASUREMENT

1.
Install
a
Brake Pedal Effort

Gauge
on the
brake pedal
pad
(Fig. 2).

2.
Hook
a
steel measuring tape
to

the brake pedal
as
shown
in Fig. 1.

Measure
and
record
the
distance from

the brake pedal free height position
to

the reference point, which
is at the six
procarmanuals.com

02-01-06

Brakes

02-01-06

side.
Refill the master cylinder reser-

voir after each wheel cylinder is bled

and install the master cylinder cover

and gasket. Be sure the diaphragm

type gasket is properly positioned in

the master cylinder cover. When the

bleeding operation is completed, the

fluid level should be filled to within

1/4 inch of the top of the reservoirs.

7. If the primary (front brake) sys-

tem is to be bled. Repeat steps 2

through 6 at the right front brake cal-

iper or cylinder and ending at the left

front brake caliper or cylinder.

8. On disc brake equipped models

be sure that the front brake pistons

are returned to their normal positions

and that the shoe and lining assem-

blies are properly seated by depressing

the brake pedal several times until

normal pedal travel is established.

9. Centralize the pressure differen-

tial valve. Refer to the Centralizing

the Pressure Differential Valve proce-

dures which follow.

PRESSURE BLEEDING

The Lincoln Continental hydraulic

brake system is to be bled only with

pressure bleeding equipment.

Bleed the longest lines first. The

bleeder tank should contain enough

new Ford Brake Fluid to complete the

bleeding operation. Use Ford Brake

Fluid — Extra Heavy Duty — Part

Number C6AZ-19542-A (ESA-

M6C25-A) or equivalent for all brake

applications. The brake fluid is col-

ored blue for identification purposes.

Do not mix low temperature brake

fluid with the specified brake fluid

during the bleeding operations. Never

re-use brake fluid that has been

drained from the hydraulic system.

The tank should be charged with ap-

proximately 10 to 30 pounds of air

pressure. Never exceed 50 pounds

pressure.

1.
Clean all dirt from the master

cylinder reservoir cover.

2.
Remove the master cylinder res-

ervoir cover and rubber gasket, and

fill the master cylinder reservoir with

the specified brake fluid. Install the

pressure bleeder adapter tool to the

master cylinder, and attach the bleed-

er tank hose to the fittng on the

adapter.

Master cylinder pressure bleeder

adapter tools can be obtained from

the various manufacturers of pressure

bleeding equipment. Follow the in-

structions of the manufacturer when

installing the adapter.

3.
If the master cylinder is

equipped with a bleed screw, loosen
the bleed screw and bleed the master

cylinder until the fluid is free of air

bubbles; then, tighten the bleed screw.

Do not use the secondary piston stop

screw, located on the bottom of the

master cylinder, to bleed the master

cylinder.

4.
If the rear wheel cylinders, the

secondary brake system, are to be

bled, position a 3/8 inch box wrench

(Fig. 9) on the bleeder fitting on the

right rear brake wheel cylinder. At-

tach a bleeder tube to the bleeder fit-

ting. The end of the tube should fit

snugly around the bleeder fitting.

5. Open the valve on the bleeder

tank to admit pressurized brake fluid

to the master cylinder reservoir.

6. Submerge the free end of the

tube in a container partially filled with

clean brake fluid, and loosen the

bleeder fitting.

7.
When air bubbles cease to ap-

pear in the fluid at the submerged end

of the bleeder tube, close the bleeder

fitting and remove the tube.

8. Repeat steps 3 through 7 at the

left rear wheel cylinder.

9. If the vehicle is equipped with

disc brakes, repeat steps 4 through 7,

starting at the right front disc caliper

and ending at the left front disc cali-

per.

On Lincoln Continental models the

front wheel and tire assemblies must
be removed to gain access to the

bleeder fittings on the calipers. Also

on Lincoln Continental models the

metering valve release rod must be

pulled outward and held a minimum

of 1/16 inch (Fig. 10) while bleeding

the primary brake system.

10.
If the vehicle contains drum-

type front brakes and the primary

(front) brake system is to be bled, re-

peat steps 4 through 7, starting at the

right front wheel cylinder ending at

the left front wheel cylinder.

11.
When the bleeding operation is

completed, close the bleeder tank

valve and remove the tank hose from

the adapter fitting.

12.
On disc brake equipped ve-

hicles,
be sure that the front brake

pistons are returned to their normal

positions and that the shoe and lining

assemblies are properly seated by dep-

ressing the brake pedal several times

until normal pedal travel is esta-

blished.

13.
Remove the Pressure Bleeder

Adapter Tool. Fill the master cylinder

reservoirs to within 1/4 inch of the

top.
Install the master cylinder cover

and gasket. Be sure the Diaphragm

type gasket is properly positioned in

the master cylinder cover.

14.
Centralize the pressure differen-

tial valve as follows.

METERING VALVE

BLEEDER RETAINER

SEE

VIEW A

RELEASE ROD

FIG. 10—Disc Brake Metering Valve—Lincoln Continental
HI 644-Aprocarmanuals.com

02-01-07
Brakes

02-01-07

CENTRALIZING THE

PRESSURE DIFFERENTIAL

VALVE

After a failure of the primary (front

brake) or secondary (rear brake) sys-

tem has been repaired and bled, the

dual-brake warning light will usually

continue to be illuminated due to the

pressure differential valve remaining in

the off-center position.

To centralize the pressure differen-

tial valve and turn off the warning
light after a repair operation, a pres-

sure differential or unbalance condi-

tion must be created in the opposite

brake system from the one that was

repaired or bled last.

1.
Turn the ignition switch to the

ACC or ON position. Loosen the dif-

ferential valve assembly brake tube

nut at the outlet port on the opposite

side of the brake system that was

wheel balanced, repaired and/or bled

last. Depress the brake pedal slowly to

build line pressure until the pressure
differential valve is moved to a cen-

tralized position and the brake warn-

ing light goes out; then, immediately

tighten the outlet port tube nut.

2.
Check the fluid level in the mas-

ter cylinder reservoirs and fill them to

within 1/4 inch of the top with the

specified brake fluid, if necessary.

3.
Turn the ignition switch to the

OFF position.

4.
Before driving the vehicle, check

the operation of the brakes and be

sure that a firm pedal is obtained.

CLEANING AND INSPECTION

DISC BRAKES

1.
Remove the wheel and tire and

the shoe and lining assemblies as out-

lined in Part 2-2, Section 2.

2.
On all models except Lincoln

Continental, make thickness measure-

ments with a micrometer across the

thinnest section of the shoe and lining.

If the assembly has worn to a thick-

ness of 0.230-inch (shoe and lining to-

gether) or 0.030-inch (lining material

only) at any one of three measuring

locations or if there is more than

0.125 taper from end to end or if lin-

ing shows evidence of brake fluid con-

tamination, replace all (4) shoe and

lining assemblies on both front wheels.

On Lincoln Continental brakes

make three thickness measurements

with a micrometer across the middle

section of the shoe and lining. Take

one reading at each side and one in

the center. If the assembly has worn

to a thickness of 0.231 inch (shoe and

lining together) or 0.066 inch (lining

material only) at any one of the three

measuring locations, replace all (4)

shoe and lining assemblies on both

front wheels.

3.
Check the caliper to spindle at-

taching bolts torque. Torque them to

specification, if required.

4.
To check rotor runout, first

eliminate the wheel bearing end play

by tightening the adjusting nut. After

tightening the nut, check to see that

the rotor can still be rotated.

5.
Clamp a dial indicator to the

caliper housing so that the stylus con-

tact the rotor at a point approximate-

ly 1 inch from the outer edge. Rotate

the rotor and take an indicator read-

ing. If the reading exceeds 0.003 inch

total lateral runout on the indicator,

replace or resurface the disc brake

rotor. The following requirement must

be met when resurfacing disc brake

rotors:
Rotunda Disc Brake Attachment

FRE-2249-2 is the only approved tool

to be used to refinish the disc brake

rotors.
The step-by-step resurfacing

procedure provided with the tool must

be adhered to.

The finished braking surface of the

rotor must be flat and parallel within

0.0007 inch; lateral runout must not

exceed 0.003 inch total indicator

reading, braking surface are to be 80/15

micro inches.

On all models except Lincoln Con-

tinental the minimum limiting dimen-

sion from the inboard bearing cup to

the inboard rotor face and the mini-

mum rotor thickness dimension, must

be observed when removing material

from the rotor braking surfaces. A

ball and gage bar (Rotunda Kit FRE

70160) is to be used when checking

minimum dimensions (Fig. 11).

FALCON-FAIRLANE

MUSTANG-COUGAR

MONTEGO

.046 MAX-**

.119
MAX.

FORD-MERCURY

METEOR - THUNDERBIRD
875
MIN

H1633-A

1.12
MIN.-^

??
— Disc Brake Rotor

Service Limits—All Models Except

Lincoln Continental

On Lincoln Continental models the

minimum limiting dimension (Fig. 12)

from the inboard bearing cup to the
inboard rotor face (dimension B)

and the outboard rotor surface and

the inboard bearing cup (dimension

A),
must be observed when remov-

ing material from the rotor braking

surfaces.

When the runout check is finished

be sure to adjust the bearings as out-

lined in Group 3, in order to prevent

bearing failure.

6. Check the rotor for scoring. Mi-

nor scores can be removed with a

fine emery cloth. If the rotor is ex-

cessively scored, refinish it as out-

lined in step 5 or replace the rotor,

if required.

7.
Visually check the caliper. If the

caliper housing is leaking it should be

replaced. If a seal is leaking the cali-

per must be disassembled and new

.seals installed. If a piston is seazed

in the bore a new caliper housing is

required.

On Lincoln Continental models the

two halves of the caliper assembly

should never be separated. Damage or

failure of one requires replacement of

both as a unit.

Check the brake hoses for signs of

cracking, leaks or abrasion. Replace

them if necessary.

DISC BRAKE SERVICE

PRECAUTIONS

1.
Grease or any other foreign ma-

terial must be kept off the caliper as-

sembly, surfaces of the rotor and ex-

ternal surfaces of the hub during serv-

ice operations. Handling of the rotor

and caliper assemblies should be done

in a way to avoid deformation of the

brake rotor and nicking or scratching

of brake linings.

2.
If a caliper piston is removed for

any reason, the piston seal must be re-

placed.

3.
During removal and installation

of a wheel assembly, exercise care not

to interfere with and damage the cali-procarmanuals.com

02-02-03
Brake System

02-02-03

DESCRIPTION

Disc brakes are available as option-

al equipment for the front wheels on

Ford, Mercury, Meteor, Fairlane,

Montego, Falcon, Mustang and Cou-

gar models and are standard on Thun-

derbird, Continental Mark III, and

Lincoln Continental models. The

dual-master cylinder equipped hydrau-

lic brake system employs single an-

chor, internal expanding and
self-

adjusting drum brake assemblies on

the rear wheels of vehicles with disc

brakes, and on the front and rear

wheels of all others.

A vacuum booster is used with the

power disc brake system.

DUAL MASTER CYLINDER

BRAKE SYSTEM

The dual-master cylinder brake sys-

tem has been incorporated in all mod-

els to provide increased safety. The

system consists of a dual-master cylin-

der (Fig. 1), pressure differential valve

assembly and a switch (Fig. 2). The

switch on the differential valve acti-

vates a dual-brake warning light, lo-

cated on the instrument panel.
DISC BRAKE

The disc brake consists of a venti-

lated rotor and caliper assembly. The

caliper used on all models except Lin-

coln Continental is a single piston

floating caliper (Fig. 3). The caliper

used on Lincoln Continental models is

a four piston fixed caliper (Fig. 4).

A proportioning valve in the rear

hydraulic circuit provides balanced

braking action between front and rear

brakes.

On all models except Lincoln a

pressure impulse valve located at the

primary inlet of the pressure differen-

tial valve prevents brake fluid surge

back to the master cylinder reservoir.

On Lincoln Continental models a

metering valve, in the hydraulic line

between the differential valve and the

front wheel disc brakes, prevents the

front brakes from applying until ap-

proximately 125 psi is obtained in the

system (Fig. 21). This delaying action

is required to prevent the front brakes

from performing all the braking ac-

tion on low speed stops and thereby

increasing the rate of lining wear.
FLOATING CALIPER—

ALL MODELS EXCEPT

LINCOLN CONTINENTAL

The caliper asseml.y is made up of

a floating caliper housing assembly

and an anchor plate. The anchor plate

is bolted to .the wheel spindle arm by

two bolts. The floating caliper is at-

tached to the anchor plate by steel

stabilizers on Ford, Mercury, Meteor,

Thunderbird and Continental Mark

III models and by one stabilizer on

Fairlane, Montego, Falcon, Mustang

and Cougar models. The floating cali-

per slides on two locating pins which

also attach to the stabilizers. The

floating caliper contains the single cyl-

inder and piston assembly. The cylin-

der bore contains a piston with a

molded rubber dust boot to seal the

cylinder bore from contamination

(Fig. 5). A square section rubber pis-

ton seal is positioned in a groove in

the cylinder bore and is used to pro-

vide sealing between the cylinder and

piston (Fig. 7).

The outer brake shoe and lining as-

sembly is longer than the inner assem-

bly, and the shoe and lining

DISC BRAKES

RETURN SPRING

(SECONDARY)

RETAINER

PRIMARY SYSTEM BRAKE

FLUID RESERVOIR

BOOT

PUSH ROD

TUBE SEAT |

(SECONDARY)

BRAKE OUTLET

PORT
RESIDUAL \ ^

CHECK \

VALVE \

SECONDARY PISTON

ASSEMBLY
(PRIMARY)

BRAKE OUTLET

PORT
PRIMARY PISTON

ASSEMBLY
H 1545-A

FIG.
I
—
Dual
Master Cylinder—Typicalprocarmanuals.com

BRAKE WARNING LAMP SWITCH

PISTON
BRAKE WARNING LAMP SWITCH

BRAKE WARNING LAMP SWITCH

PLUNGER IN THE ON POSITION

CONNECTOR
BRAKE WARNING LAMP SWITCH

PLUNGER IN OFF POSITION

VALVE PISTON HAS MOVED

TO LOW PRESSURE AREA.

WARNING LAMP SWITCH

PLUNGER IS DEPRESSED,

LIGHTING THE BRAKE

WARNING LAMP

LOW PRESSURE SIDE
U
VALVE PISTON IS

CENTRALIZED. PRIMARY

AND SECONDARY SYSTEM

PRESSURES ARE EQUALIZED

BRAKE WARNING LAMP

SWITCH PLUNGER IN

OFF POSITION
HIGH PRESSURE SIDE

DRUM BRAKES
TJ
CONNEiCTOR

BRAKE FLUID

BRAKE WARNING LAMP I

SWITCH PLUNGER IN

ON POSITION

REAR BRAKE INLET

CONNECTOR

FRONT BRAKE

INLET

FRONT BRAKE

OUTLET
VALVE PISTON IS CENTRALIZED.

PRIMARY AND SECONDARY SYSTEM

PRESSURES ARE EQUALIZED
OUTLET TO

PROPORTIONING VALVE

DISC BRAKES
\
REAR BRAKE

PROPORTIONING

VALVE IS BYPASSED

VALVE PISTON HAS MOVED TO LOW

PRESSURE AREA. WARNING LAMP SWITCH PLUNGER IS

DEPRESSED, LIGHTING THE BRAKE WARNING LAMP H1634-A

FIG. 2—Pressure Differential Valve and Brake Warning Light Switch

CALIPER ASSEMBLY

BLEEDER

SCREW
EXTERNAL

TRANSFERTU3E

H1567-B
HUB

AND

ROTOR

ASSEMBLY

H 1647-A

FIG. 3—Disc Brake Assembly-

Floating Caliper—All Models

Except Lincoln Continental
FIG. 4—Disc Brake Assembly—

Fixed Caliper—Lincoln

Continental
blies are not interchangable (Fig. 23).

The outboard shoe and lining is fixed

to the floating caliper and is retained

by two pins and spring clips. The shoe

and lining assembly consists of fric-

tion material bonded to a metal plate

called the shoe. It is replaced as a

unit.

FIXED CALIPER

LINCOLN CONTINENTAL

The caliper assembly is bolted di-

rectly to the wheel spindle arm by two

bolts.
The caliper assembly consists of

two caliper housings bolted together

with each half containing two cylinder

bores of 1.938 inch diameter. Each

cylinder bore contains a piston with

an attached molded rubber dust boot

to seal the cylinder bore from contam-

ination (Fig. 6). Square-section rubberprocarmanuals.com

02-02-06
Brake
System

02-02-06

SHOE GUIDE (ANCHOR
PIN)
PLATE

SHOE GUIDE (ANCHOR
PIN)
PLATE

WASHER
PRIMARY SHOE
-TC
-ANCHOR

SPRING

PARKING

BRAKE LEVER

RETAINING

CLIP

SECONDARY

SHOE

PRIMARY

SHOE

CABLE HOOK
PARKING

BRAKE CABLE

AND HOUSING
PIVOT

NUT
AUTOMATIC

ADJUSTER

SPRING

H
1649-
A

FIG. 8—Self-Adjusting Brake Assemblies—Typical

BRAKE BOOSTER SYSTEM

This diaphragm-type brake booster

is
a
self-contained vacuum-hydraulic

braking unit mounted
on the
engine

side
of the
dash panel.

The brake booster
is of the
vacuum

suspended-type which utilizes engine

intake manifold vacuum
and
atmos-

pheric pressure
for its
power.

Adjustment
of the
push
rod and re-

placement
of the
check valve
and

grommet
are the
only services permit-

ted
on the
brake booster.
The
booster

unit
is to be
exchanged when
it is in-

spected, checked
and
found
to be de-

fective.

PARKING BRAKE

An independent foot-operated park-

ing brake control actuates
the
rear

wheel brake shoes through
a
cable

linkage.
On all
models except Ford,

Mercury, Meteor, Thunderbird
and

Continental Mark
III, the
operating

cable
is
routed from
the
parking brake

control assembly
to the
equalizer.
On

Ford, Mercury, Meteor, Thunderbird,

and Continental Mark
III, the
operat-

ing cable
is
routed from
the
parking

brake control assembly
to the
actuator

assembly.
An
intermediate cable
con-
nects
the
actuator
to the
equalizer.

The rear brake cables connect
the

equalizer assembly
to the
parking

brake lever
at
each rear secondary

shoe
(Fig. 8).

Two types
of
brake pedal control

are used.
The
automatic (vacuum)
re-
lease type
(Fig. 9) is
used
on the Mer-

cury, Ford
LTD,
Meteor LeMoyne,

Thunderbird, Continental Mark
III

and Lincoln Continental models.
All

other models
use the
manual release-

type
(Fig. 10).

On
the
automatic-type,
the
vacuum

PISTON
ROD

VACUUM POWER UNIT

RELEASE LEVER

PEDAL

H 1635-A

FIG. 9—Parking Brake Control Assembly

With Automatic Release—Typicalprocarmanuals.com

02-02-09
Brake System

02-02-09

REMOVAL AND INSTALLATION

FRONT BRAKE DRUM

REMOVAL

1.
Raise the vehicle until the wheel

and tire clear the floor. Remove the

wheel cover or hub cap, and remove

the wheel and tire from the drum.

2.
Remove the grease cap from the

hub.
Remove the cotter pin, nut lock,

adjusting nut, and flat washer from

the spindle. Remove the outer bearing

cone and roller assembly.

3.
Pull the drum off the wheel

spindle.

4.
If the drum will not come off,

pry the rubber cover from the brake

backing plate. Insert a narrow screw-

driver through the slot and disengage

the adjusting lever from the adjusting

screw. While holding the adjusting

lever away from the screw, back off

the adjusting screw with the brake ad-

justing tool (Fig. 13). Be very careful

not to burr, chip, or damage the

notches in the adjusting screw; other-

wise the self-adjusting mechanism will

not function properly.

INSTALLATION

1.
If the drum is being replaced, re-

move the protective coating from the

new drum with carburetor degreaser.

Then, use sandpaper to insure that no

residue remains. Wipe the drum with

a cloth soaked with denatured alcohol.

Install new bearings and grease seal.

Pack the wheel bearings, install the

inner bearing cone and roller assembly

RUBBER PLUG

REMOVED

'MOVE HANDLE UPWARD

TO RETRACT BRAKE SHOES
in the inner cup, and install the new

grease seal see Part 3-5, Section 4.

If the original drum is being in-

stalled, make sure that the grease in

the hub is clean and adequate.

2.
Adjust the brakes and install the

drum assembly as outlined under

Brake Shoe Adjustments in this sec-

tion.

3.
Install the outer wheel bearing,

washer and adjusting nut.

4.
Adjust the wheel bearing as out-

lined in Part 3-7, Section 2, then in-

stall the grease cap. Install the wheel

and hub cap.

REAR BRAKE DRUM

REMOVAL

1.
Raise the vehicle so that the tire

is clear of the floor.

2.
Remove the hub cap and wheel.

Remove the three Tinnerman nuts and

remove the brake drum. If the drum

will not come off, pry the rubber

cover from the backing plate. Insert a

narrow screwdriver through the hole

in the backing plate, and disengage

the adjusting lever from the adjusting

screw. While holding the adjusting

lever away from the adjusting screw,

back off the adjusting screw with the

brake adjusting tool (Fig. 13). Be very

careful not to burr, chip, or damage

the notches in the adjusting screw;

otherwise, the self-adjusting mecha-

nism will not function properly.

INSTALLATION

1.
Remove the protective coating

from a new drum with carburetor de-

greaser; then sand lightly and wipe

with a cloth soaked with denatured al-

cohol.

HI 590-A
H1390-A

FIG. 73—Backing Off Brake

Adjustment
FIG. 14—Retracting Spring

Removal
2.
Adjust the brakes as outlined

under Brake Shoe Adjustments in this

section. Place the drum over the brake

assembly and into position.

3.
Install the three Tinnerman nuts

and tighten securely. Install the wheel

on the axle shaft flange studs against

the drum, and tighten the attaching

nuts to specifications.

BRAKE SHOES AND

ADJUSTING SCREW-

DRUM BRAKES

REMOVAL

1.
With the wheel and drum re-

moved install a clamp over the ends of

the brake cylinder as shown in Fig.

14.

2.
Remove the secondary shoe to

anchor spring with the tool shown in

Fig. 14. With the same tool remove

the primary shoe to anchor spring and

unhook the cable eye from the anchor

pin.

3.
On Ford, Mercury, Meteor,

Thunderbird, Continental Mark III

and Lincoln Continental models, re-

move the shoe guide (anchor pin)

plate (Fig. 8).

4.
Remove the shoe hold-down

springs, shoes, adjusting screw, pivot

nut, socket and automatic adjustment

parts.

5.
On rear brakes, remove the

parking brake link and spring. Dis-

connect the parking brake cable from

the parking brake lever.

*>.
After removing the rear brake

secondary shoe, disassemble the park-

ing brake lever from the shoe by re-

moving the retaining clip and spring

washer (Fig. 8).

INSTALLATION

1.
Before installing the rear brake

shoes,
assemble the parking brake

lever to the secondary shoe and secure

with the spring washer and retaining

clip.

2.
Apply a light coating of high-

temperature grease at the points

where the brake shoes contact the

backing plate.

3.
Position the brake shoes on the

backing plate and secure the assembly

with the hold down springs. On the

rear brake, install the parking brake

link and spring, back off the parkingprocarmanuals.com