instrument cluster JEEP CJ 1953 Service Manual
[x] Cancel search | Manufacturer: JEEP, Model Year: 1953, Model line: CJ, Model: JEEP CJ 1953Pages: 376, PDF Size: 19.96 MB
Page 166 of 376
G
COOLING SYSTEM and
the outlet
hose
is connected to the water pump
housing.
When
installing a new hose, clean the pipe connec
tions and apply a thin layer of nonhardening seal
ing compound. Hose clamps should be properly
located over the connections to provide secure fastening. The pressurized cooling system pressure
can
blow off improperly installed hoses.
G-8.
Cylinder
Block
Any
coolant leaks at the engine block water joints
are
aggravated by pump pressure in the water
jacket
and by pressure developed in the cooling system when the pressure cap is in place.
Small
leaks showing up only as moist
spots
often
cannot
be detected when the engine is hot except by the
appearance of rust, corrosion, and dye stains where
leakage evaporated. Also, expansion and contrac tion of the engine block resulting from extreme
temperature changes can aggravate leaks. For
these
reasons, when checking for coolant leaks inspect
the block when it is cold and while the engine is
running.
A
leaking
drain
cock or plug that cannot be stopped
leaking
by tightening should be replaced.
Leaking
core-hole expansion plugs should be replaced.
If
tightening gasketed joints
will
not correct leak
age, install new gaskets. Use a sealing compound
where recommended.
G-9.
Thermostat
a.
The cooling system of the engine is designed
to provide adequate cooling under most adverse conditions. However, it is necessary to employ
some
device to provide quick warming and to prevent
overcooling during normal operation. Automatic
control
of engine operating temperature is provided
by a water flow control thermostat installed in the
water
outlet of the
Hurricane
F4 engine. The ther
mostat is a heat-operated valve. It should always
be maintained in working order and the vehicle
should never be driven without one installed as there would then be no control of engine tempera
ture.
The temperature at which the thermostat
opens
is preset and cannot be altered.
b.
The thermostat on the
Hurricane
F4 engine is
located in a housing on the top front of the cylinder
head.
On the Dauntless V-6 engine it is located
in
the thermostat housing of the air intake manifold.
The
standard engine thermostat for the
Hurricane
F4
and Dauntless V-6 engine has a normal rating
of
190°F.
[87.8°C]
and should begin to open at
a
coolant temperature between
180°F.
[82°C]
to
192°F.
[89°C]
and be fully open at
202°F.
[94°C.].
See Fig. G-7 for method of testing.
When
the thermostat is not operating properly, the engine may
run
too hot or too cold. Overheating
may
damage the thermostat so that its valve
will
not function properly, and a cold engine
will
not achieve
full
efficiency.
Rust
can also interfere with
thermostat operation. To
test
the thermostat, place
it
in water heated approximately
25°F.
[17°C]
above the temperature stamped on the thermostat
valve.
Submerge the bellows completely and agitate
the water thoroughly. The valve should open fully.
Next, place the thermostat in water heated approxi-
FIG.
G-7—THERMOSTAT
TEST
mately 10°F.
[11°C]
below the temperature
stamped on the thermostat valve. Submerge the bellows completely and agitate the water thorough
ly.
The valve should close completely. If the ther
mostat fails either of
these
tests, it should be re placed with a new one of the same type and rating.
G-10. Temperature
Sending Unit
The
sending unit incorporates a temperature sens ing element that when it is surrounded by cold engine coolant, the unit provides the highest resist
ance in the temperature
gauge
indicator
circuit.
Resultant
low current flow in the circuit causes the
indicator
on the instrument panel to read at the low (C) end of the
gauge.
As engine coolant tem
perature
increases, the resistance of the unit is
decreased allowing an increased current flow in
the
circuit,
making the instrument panel
gauge
register in proportion to the temperature of the engine coolant.
To
test
the sending unit, first run the engine until
it
has had time enough to warm up.
If
no reading is indicated on the
gauge,
check the
sending unit to
gauge
wire by removing the wire
from
the sending unit and momentarily grounding
the wire. If the
gauge
now indicates, the sending
unit
is faulty. If the
gauge
still
does
not indicate, the wire is defective.
Repair
or replace the wire,
a.
Hurricane
F4 Engine.
The
thermo-couple coolant temperature sending
unit
is mounted in the right
rear
of the cylinder head (Fig. G-8) and is connected by a single wire
to the dash unit of the instrument cluster. 166
Page 167 of 376
'Jeep*
UNIVERSAL
SERIES
SERVICE
MANUAL
FIG.
G-8—TEMPERATURE SENDING UNIT- HURRICANE
F4
ENGINE
1—Temperature
Sending Unit
b.
Dauntless V-6 Engine.
The
thermo-couple coolant sending unit is mounted
in
the left
rear
area of the intake manifold and is
connected by a single wire to the dash unit of
the instrument cluster.
G-ll.
WATER PUMP
a.
Hurricane
F4 Engine.
The
water pump on the
Hurricane
F4
engine
is a
centrifugal
impeller type of large capacity to
cir
culate water in the entire cooling system. The double row
ball
bearing (Fig. G-9), is integral with
the shaft and is packed at assembly with a special
high melting point grease which
will
last the life of
the bearing. The bearing is sealed to retain the
lubricant
and prevent
dirt
and dust from entering.
The
bearing and shaft are retained in the water
pump body by the bearing retaining wire. The
water
seal bears against the ground seat on the
pump body and the inside of the impeller, maintain
ing a constant pressure against both and preventing
water
leakage. A
drain
hole
in the
bottom
of the
pump body precludes any water
seepage
past the
seal
from entering the bearing.
The
impeller and the pulley hub are pressed on
the shaft under high pressure,
b.
Dauntless V-6 Engine.
A
centrifugal-type water pump, shown in
Fig.
G-10,
circulates
coolant through the Dauntless V-6
engine
and
its cooling system.
This
pump is mounted on
the timing chain cover.
Similar
to the
engine
cooling
fan
mounted on its hub, the pump is driven through
a
V-belt from the crankshaft pulley.
Coolant
enters the water pump at its center.
Centri
fugal force then forces coolant radially outward, through vanes of the pump impeller, and backward
through two discharge passages in the timing chain cover. These passages conduct an equal amount of
coolant to each cylinder bank water jacket.
This
water
pump has a sealed double row
ball
bearing
and
a ceramic water seal, neither of which can be
serviced.
In
event
of bearing or water seal failure, the entire water pump assembly must be replaced.
G-l2.
Water
Pump Inspection
Check
the water pump for leaks, and excessive end play or
looseness
of the shaft in the pump. A
quick
way to check is to work the fan blades up
and
down by hand. If any play is noticed, this
indicates that the bearings are rough. Rough bearings should be checked to see if the water pump
should be replaced or rebuilt.
G-13.
Water Pump
Disassembly
—
Hurricane
F4
Engine
•
Refer to Fig. G-9.
a.
Remove the fan belt, fan blades, and fan pulley.
b.
Remove the
bolts
attaching the water pump
to the block. Remove the pump.
c.
Remove the bearing retainer spring.
d.
Remove the pump impeller and pulley with a suitable puller.
e.
Remove the pump seal, bearing and shaft, and
bearing
slinger.
G-l4.
Water Pump Reassembly
—
Hurricane
F4
Engine
•
Refer to Fig. G-9.
Before assembling the water pump, examine water
seal
seat in the pump body and should it be rough,
install
a new pump body.
To
reassemble the unit, insert the long end of the shaft into the pump body from the front end until
the outer end of the bearing is flush against the
FIG.
G-9—WATER
PUMP-
HURRICANE
F4
ENGINE
1—
Fan
and Pump Pulley
2—
Bearing
and Shaft
3—
Bearing
Retainer Spring
A—Pipe
Plug 5—
Pump
Body
6—
Seal
Washer 7—
Pump
Seal
8—
Impeller
9—
Gasket
167
Page 175 of 376
'Jeep'
UNIVERSAL
SERIES
SERVICE
MANUAL
H
11514
FIG.
H-2—WIRING
DIAGRAM—MODEL
CJ-3B
(Serial No.
35522
and
after)
1—
Left
Headlamp
2—
Left
Parking and Signal Lamp
3— Right Parking and Signal Lamp
4— Right Headlamp 5— Battery Ground Strap
6— Generator 7— Ignition
Coil
8— Junction Block
9—
Horn
10— Distributor
11— Battery
12—
Voltage
Regulator 13— Starting Motor
14—
Oil
Pressure Signal Switch 15— Temperature Sending Unit
16—
Solenoid
Switch 17— Foot Dimmer Switch
18—
Stop
Light Switch 19— Directional Signal Flasher
20— Fuse
21—
Light
Switch 22— Directional Signal Switch
23—
Horn
Button 24— Ignition and Starter Switch 25—Instrument Cluster
A—Upper Beam Indicator
B—Turn
Signal Indicator C—Instrument Lights
D—Oil
Pressure Indicator
E—Charging
Indicator F—Temperature Gauge
G—Fuel
Gauge
H—Instrument
Voltage
Regulator
25—Fuel Gauge Tank Unit
27—
Left
Tail
and
Stop
Lamp
28— Right
Tail
and
Stop
Lamp 175
Page 176 of 376
H
ELECTRICAL
SYSTEM
11474
FIG.
H-3—WIRING
DIAGRAM—MODELS
CJ-5, CJ-6, DJ-5 AND DJ-6—F4
ENGINE
(Model CJ-5 after Serial No.
49248,
Model CJ-6 after Serial No.
12577)
1—
Left
Headlamp
B—Turn
Signal Indicator 17—Directional Signal Switch
2—
Left
Parking and Directional Lamp C—Instrument Lights 18—Light Switch
3— Right Parking and Directional Lamp
D—Oil
Pressure Indicator
19—Stop
Light Switch
4— Right Headlamp E—Charging Indicator 20—Foot Dimmer Switch
5— Battery Ground Cable F—Temperature Gauge 21—Directional Signal Flasher
6— Generator
G—Fuel
Gauge 22—Fuse 7— Distributor H—Instrument Voltage Regulator
23—Solenoid
Switch
8— Ignition
Coil
12—Right
Tail
and
Stop
Lamp 24—Temperature Sending Unit
9— Starting Motor 13—Left
Tail
and
Stop
Lamp 25—Oil Pressure Signal Switch
10— Voltage Regulator 14—Fuel Gauge
Tank
Unit 26—Horn
11— Instrument Cluster 15—Ignition and Starter Switch 27—Junction Block
A—Upper
Beam Indicator 16—Horn Button
whereas the Dauntless V-6
engine
Delco starter
ignition
switch. If trouble
develops
in this switch, drive is of the clutch
type.
it must be replaced.
The
ignition
switch
serves
both
to
energize
the
The
starter circuit is
opened
when the
ignition
key
ignition
system
and
also
to
engage
the starter
sole-
is allowed to return to the "Ignition On"
position.
miod switch. With the key in the vertical
position,
No repairs or adjustments can be
made
to the the electrical
system
is off. This is the
only
position
176
Page 177 of 376
'Jeep*
UNIVERSAL
SERIES
SERVICE
MANUAL
H
12968
FIG.
H-4—WIRING
DIAGRAM—MODELS
CJ-5, CJ-6, DJ-5, DJ-6
LATE
F4
ENGINE
1—
Left
Headlamp
2—
Left
Parking and Signal Lamp
3— Right Parking and Signal Lamp 4— Right Headlamp
5— Generator
6— Ignition Distributor
7—
Oil
Pressure Sending Unit
8— Junction Block
9—
Horn
10— Foot Dimmer Switch 11—
Stop
Light Switch — Front
12— Temperature Sending Unit
13— Ignition
Coil
14— Starting Motor 15— Battery Ground Cable
16— Battery
17— Voltage Regulator 18—
Fuse
19— Instrument Cluster
A—Hi-Beam
Indicator
B—Auxiliary
C—Instrument
Lights
D—Oil
Pressure Indicator
E—Charging
Indicator
F—Temperature
Indicator
G—Fuel
Gauge
H—Instrument Voltage Regulator
20— Ignition and Starter Switch 21—
Flashei
(Directional Signal)
22—
Horn
Button 23— Directional Signal Switch
24— 4-Way Flasher Switch
25—
Flasher
(4-Way)
26—
Fuse
27—
Main
Light Switch 28—
Stop
Light Switch — Rear
29—
Fuel
Gauge
Tank
Unit
30—
Back-Up
Light Switch
31— Right
Tail
and
Stop
Lamp
32— Right Back-Up Lamp
33—
Left
Back-Up Lamp
34—
Left
Tail
and
Stop
Lamp
in
which the key can be removed. Turning the key
to the
left
energizes
auxiliary
equipment
such as
windshield wipers, radio, and heater. The turn
signal
lights
will
operate
with the
ignition
key in
either the
left
or right
position.
The
ignition
switch is held in
position
by a
tension
spring on the back
of the instrument panel and a
notched
bezel on
the front of the instrument panel.
H-8.
Lighting System
The
wiring for the lighting
system
is shown in the
wiring diagrams, Figs. H-2 thru H-7 of the manual,
which indicate the various units in relation to their
position
in the vehicle. The lighting circuit is pro
tected
by an overload circuit breaker
mounted
on the rear of the light switch.
The
main light switch controls the lighting
system
177
Page 178 of 376
H
ELECTRICAL
SYSTEM
14365
FIG.
H-5—WIRING
DIAGRAM—F4
ENGINE
CURRENT
MODEL
1—
Left
Headlamp
2—
Left
Parking and Signal Lamp
3—
Right
Parking and Signal Lamp
4—
Right
Headlamp
5—
Marker
Lamp
— Amber
6—
Generator
7—
Distributor
8—
Ignition
Coil
9— Starting Motor
10— Battery Ground Cable
11—
12
Volt
Battery
12—
Flasher
(Directional Signal)
13— Instrument Cluster
A—Hi-Beam
Indicator
B—Auxiliary
C—Instrument Lights
D—Oil
Pressure
Indicator
E—Charging Indicator
F—Temperature Indicator
G—Fuel
Gauge
Indicator
H—Instrument Voltage Regulator
14—
Ignition
and
Starter
Switch
15—
Horn
Button 16—
Directional
Signal Switch 17— 4-Way
Flasher
Switch
18—
Flasher
(4-Way)
19—
Windshield
Wiper Motor Switch
20—
Main
Light
Switch
21—
Fuel
Gauge
Tank
Unit
22—
Back-Up
Light
Switch
23—
Marker
Lamp — Red 24—
Right
Tail
and Stop Lamp
25—
Right
Back-Up Lamp
26—
Left
Back-Up Lamp
27—
Right
Tail
and Stop Lamp
28—
Marker
Lamp — Red 29— Stop
Light
Switch
30— Foot Dimmer Switch
31—
Windshield
Wiper Motor Assembly
32—
Voltage Regulator
33— Temperature Sending
Unit
34—
Oil
Pressure
Sending
Unit
35— Spark
Plugs
&
Cables
36—
Horn
37— Junction Block
38—
Marker
Lamp — Amber
through a
two-position
push-pull switch located on
the
left
side
of the control panel.
The
foot-operated
headlight dimmer switch is
mounted on the floorboard to the
left
of the steering
column.
H-9.
PRESTOLITE
DISTRIBUTOR
—
DAUNTLESS
V-6 and
HURRICANE
F4
ENGINE
The
Prestolite distributor on the F4
engine
is
mounted on the right
side
of the
engine
and is op
erated by a coupling on the oil pump shaft, see Fig.
D-l,
which is driven by a spiral gear on the cam
shaft. The spark advance is fully automatic, being controlled by built-in centrifugal
weights.
The Pres
tolite
distributor on the V-6
engine
(Fig. H-8) is mounted at the
left
front of the
engine
on the tim
ing chain cover. It is driven by a spiral gear on the
camshaft. The spark advance is fully automatic,
being controlled by built-in centrifugal
weights,
and by a vacuum advance system. While
some
parts of the distributor may be checked or replaced
with the unit mounted on the
engine,
it is
best
to periodically remove it for a thorough check. Infor mation covering the parts which can be serviced
without removal is
given
below.
The
Prestolite distributor installed on the V-6 en
gine
is similar in construction to the distributor in
stalled on the F4
engines
except
for the addition of
a
vacuum advance mechanism.
The
same checking procedures outlined in Par. C- 10a, are used for the Prestolite V-6 distributor with
exception
of specifications.
H-10. Distributor Cap
The
distributor cap should be inspected for cracks,
carbon runners and
evidence
of arcing. If any of
these
conditions
exists, the cap should be replaced.
Clean
any corroded high
tension
terminals.
H-11.
Rotor
Inspect the rotor for cracks or
evidence
of
excessive
burning at the end of the metal strip.
After a distributor rotor has had normal use the
end of the rotor will
become
burned. If burning is found on top of the rotor it indicates the rotor is
too short and
needs
replacing. Usually when this condition is found the distributor cap
segment
will 178
Page 179 of 376
'Jeep'
UNIVERSAL
SERIES
SERVICE
MANUAL
H
12967
FIG.
H-6—WIRING
DIAGRAM—LATE
V6
ENGINE
1—Left Headlamp
2—
Left
Parking and Signal Lamp
3—
Right
Parking and Signal Lamp
4—
Right
Headlamp
5— Voltage Regulator
6—
Alternator
7—
Oil
Pressure
Sender
8— Temperature
Sender
9—
Ignition
Distributor
10— Junction Block
11—
Horn
12—
Ignition
Coil
13— Starting Motor
14— Battery Ground Cable 15— Foot Dimmer Switch 21-
16— Stop
Light
Switch — Front 22-
17— Ballast 23-
18—
Flasher
(Directional Signal) 24-
19—
Fuse
25-
20— Instrument Cluster 26-
A—Hi-Beam
Indicator 27-
B—Auxiliary
28- C—Instrument Lights 29-
D—Oil
Pressure
Indicator 30-
E—Charging Indicator 31-F—Temperature Indicator 32-
G—Fuel
Gauge
33-
H—Instrument Voltage Regulator 34-
-Ignition
and
Starter
Switch
-Horn
Button
-Directional
Signal Switch
-4-Way
Flasher
Switch
-Flasher
(4-Way)
-Fuse
-Main
Light
Switch
-Stop
Light
Switch —
Rear
-Fuel
Gauge
Tank
Unit
-Back-Up
Light
Switch
-Right
Tail
and Stop Lamp
-Right
Back-Up Lamp
-Left
Back-Up Lamp
-Left
Tail
and Stop Lamp
be burned on the horizontal
face
and the cap will
also
need
replacing. H-12. Condenser
The
condenser
prolongs
the
life
of the distributor
points
by
preventing
arcing at the
contacts.
It
also
provides
a
hotter
spark by creating a reverse
surge
of current which rapidly breaks
down
the
magnetic
field of the coil by
demagnetizing
the core. Should
the
condenser
be leaky, a weak spark will result.
Check
the
condenser
lead for broken wires or
frayed insulation. Clean and
tighten
the
connec-
179
Page 180 of 376
H
ELECTRICAL
SYSTEM
ffKHs)
3—<§)
FIG.
H-7—WIRING
DIAGRAM—V6
ENGINE
CURRENT
MODEL
1—
Left
Headlamp
2—Left Parking and Signal Lamp
3— Right Parking and Signal Lamp
4—Right Headlamp 5—
Marker
Lamp — Amber
6— Alternator 7— Voltage Regulator
8— Starting Motor
9— Battery Ground Cable
10— 12 Volt Battery
11—
Flasher
(Directional Signal)
12— Instrument Cluster
A—Hi-Beam
Indicator
B—Auxiliary
C—Instrument
Lights
D—Oil
Pressure Indicator
E—Charging
Indicator
F—Temperature
Indicator
G—Fuel
Gauge Indicator
H—Instrument Voltage Regulator
13— Ignition and Starter Switch
14—
Horn
Button
15— Directional Signal Switch
16— 4-Way Flasher Switch 17—
Flasher
(4-Way)
18— Windshield Wiper Motor Switch
19—
Main
Light Switch
20—
Fuel
Gauge
Tank
Unit
21—
Back-Up
Light Switch
22—
Marker
Lamp — Red
23— Right
Tail
and
Stop
Light 24— Right Back-Up Lamp
25—
Left
Back-Up Lamp 26—
Left
Tail
and
Stop
Light
27—
Marker
Lamp — Red
28—
Stop
Light Switch
29— Foot Dimmer Switch
30— Windshield Wiper Motor Assembly
31—
Ballast
Resistor 32— Ignition
Coil
33—
Spark
Plugs and Cables 34— Temperature Sending Unit
35—
Oil
Pressure Sending Unit 36—
Horn
37— Junction Block
38—
Marker
Lamp — Amber
lions
on the terminal
posts.
Be sure
condenser
is
mounted
firmly on the distributor for a
good
ground
connection.
Should a
condenser
tester
be available the capacity for
both
F4 and Prestolite V6
condenser
should
check from .25 to .28 microfarads. In the
absence
of
tester,
check by substituting a new
condenser.
H-13. Distributor Points
a. Examine the distributor
points.
If
they
show
wear,
poor
mating, transferred metal, or pitting,
then
new
ones
should be installed. Clean the
points
with a suitable
solvent
and a stiff bristled brush.
b. Check the
alignment
of the
point
for a full,
square
contact.
If not correctly aligned, bend the
stationary
contact
bracket slightly to provide align
ment.
c. The
contact
gap should be set at .020"
[0,508
mm.],
on the F4 and .016"
[0,406
mm.] on the
Prestolite V6. Adjustment of the gap is accom plished by
loosening
the lock screw and turning adjusting eccentric screw until correct gap is
secured. Be sure that the fiber block on the breaker
arm
is resting on the
highest
point
on the cam while the adjustment is
being
made. Recheck the gap
after locking the adjustment.
d. Apply a thin film of cam lubricant to the cam to
lessen
fiber block wear.
e. Using Tool C-4094, check
point
contact
spring
pressure, which should be
between
17 and 20
ounces
[0,487
a
0,567
kg.] on the F4 and 17 to 22 oz.
[0,487
a
0,624
kg.] on the Prestolite V6.
Check
with a spring scale
hooked
on the breaker
arm
at the
contact
and pull at right
angle
to the
breaker arm. Make the reading just as the
points
separate. Adjust the
point
pressure by
loosening
the stud holding the end of the
contact
arm spring
and slide the end of the spring in or out as
neces
sary.
Retighten the stud and recheck the pressure. Too low a- pressure will
cause
engine
missing at
high
speeds.
Too high a pressure will
cause
rapid
wear of the cam, block, and
points.
180
Page 202 of 376
H
ELECTRICAL
SYSTEM
FIG.
H-38—WIRE
COLOR CODE
AND
LOCATIONS
FOR
ALTERNATOR HOOK-UP
1— Regulator (Auxiliary)
Terminal
(Cable —
Grey)
2— Output
Terminal:
(Red)
3—
Regulator
Terminal
(Cable —
Grey)
4—
Ground
Terminal
(Cable — Black-White
Tracer)
5—
Field
Terminal
(Cable — Green-White
Tracer)
6—
Ground
(Optional)
Terminal
(Cable — Black-White
Tracer)
REAR
VIEW
35
AMP.
ALTERNATOR
REAR
VIEW
40
& 55 AMP.
ALTERNATOR
given in Par. H-78, adjusting the fan belt to its
proper tension after the alternator is mounted, as described in Par. C-27. Wires should be connected
as shown in Fig. H-38.
When
the vehicle is equipped with a radio, a .55
mfd. capacitor is required on the alternator. Mount
the capacitor strap to a ground terminal and con
nect the lead to the output terminal.
H-88.
STARTING
SYSTEM
SERVICE
H-89.
Ignition
Switch
The
ignition switch serves both to energize the
ignition system and
engage
the starter switch.
The
ignition switch has four positions: (1) AC
CESSORY,
(2)
LOCK,
(3) ON, and (4)
START. The
key must be in the switch to turn it to any position other than
LOCK,
and the key can be
removed only in the
LOCK
position.
In "ACC",
a connection is made from the battery
terminal
to the accessory terminal of the switch to
allow accessories such as the radio, blower and/or
windshield wiper to be operated with the ignition, fuel
gauge
and indicator light circuits off.
In "LOCK",
no accessory supplied through the
ignition switch can be operated. Also, the ballast
resistor (V-6
engine
only) circuit to the ignition
coil
(IGN) is grounded.
In
"ON", a connection is made from the battery
terminal
to the accessory terminal so that all
ignition switch supplied accessories can be operated. Also the battery is connected to the ballast resistor
(V-6
engine
only) leading to the ignition coil
(IGN).
From
this same terminal, a lead
into
the
instrument cluster energizes the fuel
gauge
and
indicator lights.
In "START",
all ignition switch supplied acces
sories are temporarily disconnected. A connection is made to the starter solenoid lead. The charge
and
oil indicator lamps
will
light until the
engine
is started.
H-90.
Ignition
Switch
Removal
a.
Remove the bezel nut and pull back the main
switch body.
Lower
the switch
body
from under the instrument panel so that the wiring harness plug
can
be removed from the prong connection,
b. If the lock cylinder is to be removed, turn the
ignition key to the right and insert a short
piece
of wire or end of a paper clip
into
the lock release
hole
in the switch body. Pressing on the lock
cyl
inder retainer
will
allow the cylinder to be removed.
H-91.
Ignition
Switch
Installation
Before installing the lock cylinder
into
the main
switch body,
note
the position of the lock cylinder
retainer.
a.
Place the lock cylinder
into
the main switch
body
with the highest part of the lock cylinder
retainer in line with the lock release
hole
in the
main
switch body.
b. Compress the lock cylinder retainer so that the
lock cylinder can be installed all the way
into
the
main
switch
body
or until the retainer can be
seen
through the pin hole.
c.
Install
wiring harness plug
onto
switch
body
prong connection.
d.
Install
this main switch
body
into
the instru
ment panel opening from the
rear.
e. To make sure that the switch is in its correct position, install the ignition key in the off position.
Then
turn the switch
body
until the key is straight
up and down. Remove the key, install the bezel
nut and secure.
H-92.
PRESTOLITE
STARTING
MOTOR
DAUNTLESS
V-6 and
HURRICANE
F4
ENGINE
The
Prestolite starting motor on the V6
engine
is
similar
in construction (with exception of pinion housings) to the starting motor installed on F4
engines.
The
starter solenoid switch is bolted to the starter
frame.
The
starter is equipped with
sealed-type
absorbent
bronze bearings and no lubricant is required. Service procedures for the Prestolite starter are
given in
Pars.
H-93 to H-107. 202
Page 212 of 376
H
ELECTRICAL
SYSTEM
H-124. Testing Indicators and Gauges
Two
gauges
(fuel and temperature) and two in dicators (oil pressure and battery charge) that are
located in the instrument cluster are electrically operated.
The
fuel
gauge
is connected by a single wire to a
float-and-slide-rheostat sending unit in the fuel
tank.
The
temperature
gauge
is connected by a single
wire
to a resistance-type sending unit mounted on the engine.
The
battery charge indicator operates when there
is a difference in potential
between
the generator
and
the battery
.The
battery charge indicator lights
when the generator is not charging the battery. The
indicator
light
goes
out when the generator
begins
to charge the battery.
The
oil pressure indicator is connected by a single
wire
to a diaphragm switch located on the engine.
When
engine
oil pressure is low or zero and the
ignition switch is on, the oil pressure indicator
will
light. When
engine
speed is increased slightly above idle speed, raising the oil pressure to approximately 6 psi. [0,2 kg-cm2], the diaphragm switch
will
open the circuit and the indicator light
will
go out.
A
voltage
regulator maintains a constant
voltage
to the
gauges
in normal operation. On early vehicles,
this
voltage
regulator was mounted on the
rear
of
the instrument cluster. On current vehicles, the
voltage
regulator is integral with the fuel
gauge.
Should
trouble
develop
in the
gauges,
first check the regulator (fuel
gauge
on current production vehicle). If the
voltage
to the regulator is below 10 volts system low
gauge
readings
will
result.
Voltage in
excess
of 16 volts
will
not affect
gauge
readings but may result in premature wear of the
regulator contacts. If the
voltage
to the regulator is
within
the above limits, check the electrical con nections to the regulator (or fuel gauge), especially
the ground connection. If the readings of all the
gauges
is too high, or they all read too low, replace
the regulator (or fuel gauge).
If
the temperature
gauge
or heat indicator in the
instrument cluster have failed, the cause may
originate from the jumper bar shorting out against the instrument case.
Check
the jumper bar
between
the temperature
gauge
and heat indicator at the
rear
of the instrument case. On later production vehicles, the jumper bar is covered with an in
sulating
sleeve
to protect it from shorting out
against the instrument case. If the jumper bar
does
not have this
sleeve,
either install one or
wrap
the bar with plastic electrical tape to
half
an
inch [12,7 mm.] from each end. When installing the jumper bar, be sure the curved
segment
is
closest to the fuel
gauge.
Should
only one of the two
gauges
register incor
rectly,
check the lead wire from the
gauge
to the
sending unit for shorts or open connections. Next disconnect the
gauge
from the sending unit, and
connect the
gauge
to a new fuel tank sending unit
which
has been grounded to the vehicle.
If
the
gauge
registers incorrectly when operating the new unit,
replace the
gauge;
if correctly, replace the sending
unit.
Should
a new fuel tank unit not be available for testing, use a 12-volt
test
light in its place. When
the
gauge
is operating correctly, the pointer
will
move
approximately three-quarters across the
dial.
On
some
vehicles, the temperature
gauge
may
register on or
close
to the H (hot)
mark
when
coolant temperature is
190°F.
to
200°F.
[88°C.
a
93°C.].
In such cases, a 25-ohm,
1-watt
resistor
may be installed on the temperature
gauge
which
will
place the pointer just beyond the center
mark
at a coolant temperature of
190°F.
to
200°F.
Install
the resistor
between
the two terminals on the back
of the
gauge.
Insulate the
exposed
leads of the resistor with electrical tape.
If
the oil pressure indicator
does
not indicate cor
rectly,
first check the light bulb. Next check all
connections and lead wires. If, after all possible
defects
are corrected, the indicator light
does
not go on and off properly, then the diaphragm type
switch in the cylinder block should be replaced.
H-12S.
LIGHTING SYSTEM The
wiring of the lighting systems is shown in
the wiring diagrams, which indicate the various units in relation to their positions in the vehicle.
The
wires in the various circuits are of different
colors or are marked by tracers to aid when check
ing individual circuits.
The
lighting circuits of all models are protected by
an
overload circuit breaker mounted on the back of the main light switch and no replaceable fuse is
required.
The
upper and lower headlight beams are con
trolled by a
foot
switch located on the toe board
to the left of the clutch pedal.
H-126.
Main
Light
Switch
This
switch is a dual functioning unit having two
push-pull
positions and a rotary action. When
pulled out to the first position, the front parking
and
tail
lights are turned on. When pulled all the
way out to the second position, the headlights and
tail
lights are turned on. Rotating the switch to
the right dims the instrument cluster lighting.
The
switch may be removed from the instrument
panel by first loosening the set screw in the control
knob and removing the knob. The retaining nut may then be removed and the switch removed
through the
rear
of the instrument panel.
FIG.
H-51—MAIN
LIGHT
SWITCH
(EARLY)
1—
Battery
4—Parking Lights
2—
Rear
Lights 5—Auxiliary
3—
Head
Lights
212