1953 JEEP DJ spark plugs
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E
FUEL
SYSTEM
E-78. SERVICE DIHGNOSIS
Symptoms Probable Remedy
Excessive
Fuel
Consumption:
Tires
improperly inflated Inflate
Brakes
drag Adjust
Engine
operates too cold Check thermostat
Heat control valve inoperative Check thermostatic spring
Leak
in fuel line Check all connections
Carburetor
float level high. See
"Carburetor"
section
Accelerator pump not properly adjusted Adjust
Leaky
fuel pump diaphragm Replace
Loose
engine
mountings causing high carburetor fuel level Tighten Ignition timing slow or spark advance stuck See "Distributor" section
Low
compression. Check valve tappet clearance
Air
cleaner dirty
.
Remove and clean
Engine
Hesitates on Acceleration: Accelerator pump
does
not function perfectly.
...................
.Replace piston and rod or adjust
Carburetor
float level. ... .Adjust
Spark
plugs Replace or clean and adjust
Low
compression Check valves
Distributor
points—dirty or pitted Replace
Weak
condenser or coil Replace
Carburetor
jets restricted Remove and clean
Excessive
engine
heat See "Engine" section
Engine
Stalls—Won't Idle:
Improper
condition of carburetor See
"Carburetor"
section
Low
speed
jet restricted Remove and clean
Dirty
fuel sediment bowl screen Remove and clean
Air
cleaner dirty Remove and clean
Leaky
manifold or gasket Replace
Fuel
pump diaphragm porous. Replace
Loose carburetor. Tighten
flange
nuts
Water
in fuel
Drain
and clean system
Improper
ignition. .See "Distributor" section
Spark
plugs Clean and adjust
Valves
sticking.
Grind
valves 134
Page 171 of 376
'Jeep'
UNIVERSAL SERIES SERVICE
MANUAL
H
ELECTRICAL
SYSTEM
Contents
SUBJECT
PAR.
GENERAL
. -H-l Alternator Charging System H-6, 63 Battery. . . .H-2
Electrical
Instruments. H-l 11 Ignition System H-3
Lighting
System H-8, 125
Primary
Circuit.
.. H-4 Secondary
Circuit
H-5
SparkPlugs H-33
Starting System H-7, 88
DISTRIBUTOR
—
HURRICANE
F4
ENGINE
H-9
Coil
H-19 Condenser
.H-l
2
Disassembly.
.........................
.H-16
Distributor Cap H-10 Distributor
Points
H-13
Governor Mechanism H-l4
Inspection H-l
7
Installation and Timing H-18
Removal H-15
Rotor H-ll
DISTRIBUTOR
—
DAUNTLESS
V-6
ENGINE
H-20
Ballast
Resistor. H-32
Centrifugal
Advance H-25
Cleaning and Inspection H-28
Coil
H-31
Condenser H-23
Disassembly. H-27
Distributor Cap H-21 Distributor
Points
H-24
Installation and Timing. . .H-30
Reassembly. H-29
Removal H-2 6
Rotor H-2
2
GENERATOR CHARGING SYSTEM SERVICE
H-34 Generator Armature H-3
7
Generator Assembly. H-40
Generator
Brush
Holders H-39
Generator Disassembly H-36
Generator
Field
Coils.
H-38
Generator Maintenance H-35 Generator -
Current
-
Voltage
Regulator. . .H-41
Generator Regulator Quick Checks...... .H-48
Generator Regulator Test Procedure H-47
ALTERNATOR PRECAUTIONS.
H-64
ALTERNATOR CHARGING SYSTEM.
. .H-63 Alternator On-Vehicle Tests. .H-67
Alternator Output Test. .H-70 Isolation
Diode
Test H-69
Regulator Test .H-71 Removal and Installation of
Voltage
Regulator. H-72
SUBJECT
PAR.
Service
Diagnosis
H-66 Test Equipment H-68
Alternator
Field
Circuit
Test H-73
Brush
Insulation and Continuity Test H-75
Brush
Removal and Inspection H-74
Rotor In-Vehicle Tests H-76
ALTERNATOR BENCH TESTS.
.H-77
ALTERNATOR REMOVAL
H-78 Alternator Disassembly H-80 Alternator Installation. H-87
Assembling Alternator H-86
General
Inspection H-81
Diode
Test H-85
Out-Of-Circuit
Rotor Test. .H-82
Out-Of-Circuit
Stator Leakage Test.. . H-83 Rotor Tests H-79
Stator
Coil
Leakage and Continuity Test. .H-84
STARTING
MOTOR
—
PRESTOLITE.
. .H-92
Armature
.H-l
00 Bench Test H-l04
Bendix
Folo-Thru
Drive H-105
Brush
Holder Inspection. .H-102
Brushes H-98
Commutator H-95, 99
Disassembly H-9 7
Field
Coils H-101
Lubrication
of
Folo-Thru
Drive H-l06
Maintenance Procedure H-93
Overhaul
Procedure H-96
Reassembly of Starting Motor. .
H-l
03
Starter
Solenoid
Switch H-10 7 Starter Ignition Switch. .H-89
Wiring.
. . . H-94
STARTING
MOTOR
—DELCO
H-108
Armature
H-101
Brush
Holder Inspection H-l 15 Brushes
H:lll
Commutator H-112
Field
Coils........
H-114
Locked
Armature Test. . . H-l20
Solenoid
Coils H-l 16
Starting Motor Reassembly H-l 17
Starting Motor Cleaning and Inspection.
.H-l
10
Starting Motor Disassembly .H-109 Starting Motor No-Load Test H-119
Starting Motor Test — General H-l 18 Starter Switch —
Solenoid
Type. H-l21
Starter Ignition Switch. .H-89
ELECTRICAL
INSTRUMENTS
H-122 Testing Instrument Gauges H-l24
LIGHTING
SYSTEM
H-l25 Aiming Head Lamps H-132
Backup
Lamps H-135
(continued
on
next
page)
171
Page 173 of 376
'Jeep'
UNIVERSAL
SERIES
SERVICE
MANUAL
H
FIG.
H-l—ENGINE
GROUND
STRAP—F4
ENGINE
Fig.
H-l, is tight at both connections. If
these
connections are
loose
-
or
dirty,
hard
starting or
failure
to start may result.
H-3.
Ignition System
The
ignition system consists of the battery, ignition
switch,
ignition coil ballast resistor (V-6 engine
only),
ignition coil, ignition distributor,
spark
plugs,
and
the low and high tension wiring.
Electrical
energy is obtained from the battery while cranking
and
from the alternator after the engine is running.
These
supply circuits must be considered part of
the ignition system.
The
ignition system furnishes the
spark
-for the
spark
plugs. The
spark
must occur in each cylinder
at exactly the proper time. To accomplish this, the following units are required.
a.
The battery, supplying the electrical energy.
Note: 'Jeep* vehicles equipped with Dauntless
V-6
engines have a ballast resistor connected be tween the ignition switch and the positive (+)
terminal
of the coil. The ballast resistor limits to
a
safe maximum the
primary
current flow through
the coil and the distributor contact points.
b.
The ignition coil, transforming the battery low
tension current to high tension current that jumps
the
spark
plug gap in the cylinders under com
pression.
c.
The distributor, delivering the
spark
to the
proper
cylinders and incorporates the mechanical
breaker,
that
opens
and closes the
primary
circuit at the exact time.
d.
The
spark
plugs, providing the gap in the engine
cylinders.
e. The wiring, connecting the various ignition
units.
f. The ignition switch controling the battery
current
when it is desired to start or
stop
the engine.
g. The firing order for the
Hurricane
F4 engine is
1-3-4-2.
Cylinder
No. 1 is the cylinder closest to the
radiator.
h.
The firing order for the Dauntless V-6 engine
is
1-6-5-4-3-2.
Cylinders
1-3-5 are on the left bank
and
cylinders 2-4-6 are on the right bank. H-4.
PRIMARY
CIRCUIT
Before testing the
primary
circuit,
make certain
that the battery is satisfactory or install a fully
charged
battery for the
primary
circuit
tests. Also,
check
the starter motor for excessive voltage drop
and
check the starter motor itself for excessive
draw.
a.
Measure the voltage at the coil
primary
termi
nals
while cranking the engine with the starter
motor. If the voltage is less than 9 volts the trouble
will
be found in the
primary
circuit.
If there is no voltage at all, check for a break in the
primary
circuit,
possibly in the coil
primary
winding.
b.
To check the
primary
circuit,
turn
the ignition
on,
turn
the engine until the points are closed, and
then measure the voltage drop across each portion
of the circuit with a voltmeter.
Note: Most voltage drops
will
be found at the con
nections of wires to terminals as
dirt,
oxidation etc. can cause excessive resistance at
these
points.
Measure
voltage drops in wires to take this into
account.
c.
Connect the voltmeter from the battery cable
terminal
on the starter solenoid to the battery
terminal
of the coil
primary.
If the voltmeter reads more than 0.2 volt, perform the checks given in
steps, d, e, and f following.
d.
Connect the voltmeter from the solenoid termi
nal
to the battery terminal of the ignition switch.
If
the voltmeter reads more than .05 volt, check
and
clean the connections at solenoid, light switch,
and
ignition switch.
e. If the voltmeter reading in
step
d is less than .05 volt, connect the voltmeter from the battery
terminal
to the ignition terminal on the ignition
switch.
If the voltage drop is more than 0.1 volt,
repair
or replace the ignition switch.
f. If the voltage drop in
step
e is not more than 0.1 volt, connect the voltmeter from the ignition
terminal
of the ignition switch to the battery termi
nal
of the coil
primary.
If the voltmeter reads more
than
.05 volt, clean and tighten the connections
and
check again. If the voltmeter again reads more
than
.05 volt, replace the wire.
g. Connect the voltmeter from the distributor
primary
terminal on the coil to the coil terminal on
the distributor. Voltage drop should not exceed .05 volt.
Clean
and tighten connections if necessary.
h.
Connect the voltmeter from the coil terminal
on the distributor to a clean,
paint-
free spot on the
distributor
body. The reading should not exceed .05
volt. If more, it indicates excessive resistance
through the points or in the distributor internal connections.
Clean
and align the points and make
sure
the breaker arm connection to the
primary
terminal
as well as the stationary contact point mounting in the body is clean and tight.
i.
Open the points and check the voltmeter. It
should read close to peak voltage. Low voltage in dicates that a circuit through the distributor (a
short)
exists while the points are open.
j.
Disconnect the condenser lead and open the points. A jump to
full
voltage indicates a short in 173
Page 174 of 376
H
ELECTRICAL
SYSTEM
the condenser. Replace the condenser. If there is
no jump to full voltage, overhaul or replace the
distributor.
k.
With the points closed, connect the voltmeter
from
a clean, paint-free
post
on the distributor
body to the negative
post
of the battery. The volt
age drop should be practically zero, a hardly
readable deflection on the voltmeter. If the volt meter registers a
voltage
drop, perform the checks
in
steps
1
and m following.
I.
Check
for
voltage
drop in the battery ground
cable.
Clean
the battery
post,
cable terminals, and contact surface on the bellhousing, or on body if
a
noticeable deflection of the voltmeter occurs,
m.
Check
for any
voltage
drop
between
the dis
tributor
body and a clean, paint-free
spot
on the
cylinder
block. If there is any
voltage
drop, remove
the distributor and clean the mounting surfaces of
distributor
body and cylinder block.
H-5.
SECONDARY
CIRCUIT
If
satisfactory ignition is not obtainable with cor
rect
point gap and tension; satisfactory condenser;
sufficient primary voltage; and correctly cleaned, gapped, and installed spark plugs; the secondary
circiut
should be investigated.
a.
Test the coil.
Bring
the coil up to operating
temperature using the coil heat feature of a coil tester, if available. Refer to the coil tester manu
facturer's
instructions for specific hook-ups for
performing the checks given in
steps
b, c, and d following.
b. Connect the positive lead of the tester to the
battery terminal of the coil primary winding.
Con
nect the tester ground lead to the coil tower. Mea
sure
the resistance of the secondary winding. If the
resistance is more than
20,000
ohms, a fault in the
secondary winding is indicated.
c.
Check
for a grounded secondary by touching the tester ground lead to the coil cover. If resistance
is not over
100,000
ohms, the secondary is grounded
to the cover.
d.
If the secondary winding is satisfactory, mea
sure
the primary current draw in accordance with
the instructions of the
test
equipment manu
facturer.
e.
Check
the secondary circuit for leakage. With the coil primary in the circuit with the breaker unit of the tester, connect a long, high-tension
test
lead
to the coil tower.
Check
the secondary circuit for
leakage by performing the checks given in
steps
f. g, h, and i following.
Note:
In the following
tests,
a slight sparking and
meter deflection
will
usually be
seen
just as contact
is made.
This
is caused by capacitance and
does
not
indicate defective insulation.
f.
Check
distributor cap. Remove the coil lead from the cap and touch the
test
lead to the center contact
inside the cap. If the meter reading drops when the contact is touched or if sparking is seen, a leakage
path is present
between
the center contact and one
of the plug towers.
This
leakage path
will
be in the
form
of a
crack
or carbon track in the cap. Discon nect the spark plug wires from the cap one at a
time and
test
each plug contact with the high-
voltage
lead and with all other plug wires con
nected. Any sparking or meter drop indicates that
a
leakage path exists
between
that particular con
tact and an adjacent one. Testing the adjacent contacts
will
determine which pair is at fault,
g-
Check
distributor rotor. Touch the
test
lead to
the spring contact in the center of the distributor
rotor.
Any leakage in the rotor insulation
between
the contact and the shaft
will
cause a drop in the meter reading and usually sparking
will
be seen.
h.
Check
spark plug wires. Disconnect the spark
plug wires from the plugs and
test
the plug terminal of each. The meter reading should not drop below
the open secondary value (value before making contact). If it
does
or if a large spark occurs when
the
test
lead and the plug wire are separated, there
is a break in the insulation on that wire.
i.
Check
the coil tower insulation. Remove the
high-tension
test
lead from the coil tower and touch
the ground lead of the coil tester to several points
around
the base of the tower. Any sparking or deflection of the meter indicates a leakage path in
the tower insulation.
H-6.
Alternator Charging System
All
Jeep
Universal
Series vehicles have, as standard
equipment a 35-amp., 12-volt, negative ground
alternator and a transistorized
voltage
regulator.
For
repairing the alternator, many of its major components are furnished as complete assemblies
including:
complete brush assembly which requires no soldering or unsoldering of leads; two complete
rectifying
diode
assemblies which eliminate the need for removing and replacing individual diodes;
a
complete isolation
diode
assembly; and a rotor assembly complete with shaft,
pole
pieces, field coil,
and
slip rings.
The
transistorized
voltage
regulator is an electronic
switching device. It
senses
the
voltage
appearing at the auxiliary terminal of the alternator and
supplies the necessary field current for maintaining the system
voltage
at the output
terminal.
The out
put current is determined by the battery electrical
load;
such as headlights, heater, etc.
The
transistorized
voltage
regulator is a sealed unit,
has no adjustments, and must be replaced as a
complete unit.
H-7.
Starting System
The
operation of the starter motor is controlled by
the ignition switch. The starter is made up of a
frame,
field coil, armature, and brushes.
The
starter solenoid electrically
closes
the circuit
between
the battery and the starter motor. When the ignition key is turned to its extreme right, the
solenoid is energized and
closes
the battery-to- starter-motor circuit.
Note:
All Jeep Universal Series vehicles have the
starter
solenoid switch secured to the starter motor
assembly. The Hurricane F4 and Dauntless V-6
engine
Prestolite starter drive is of the inertia type
(rexr
continued on
page
176) 174
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 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 186 of 376
ELECTRICALJ
SYSTEM
d.
Inspect for
excessive
wear
between
centrifugal
weights
and advance cam and pivot pins.
Turn
weight
base plate in a clockwise direction until
weights
are fully extended. Release and allow
springs to return
weights
to
retard
position. Repeat several times. Springs should return
weights
to
stop
without sticking and there should be no
excessive
free
movement
in the
retard
position. Inspect
springs for distortion and fatigue.
e. Inspect cam
lobes
for scoring or
excessive
wear.
Check
weight
base plate for binding or
excessive
looseness
on distributor shaft.
f.
Check
breaker plate for
excessive
looseness
on
outside
diameter of upper distributor shaft bushing.
Check
breaker plate ground lead for poor
spot
we
Id
at plate end and for
loose
or frayed terminal con
nections.
g.
Check
for
excessive
wear
between
distributor
shaft and bushings in housing. Inspect shaft for distortion. Inspect gear for scoring of
teeth
or
excessive
wear.
h.
Inspect rod end of vacuum advance mechanism
for
excessive
wear. Push rod
into
unit as far as
possible, hold finger tightly over nipple, then re
lease
rod. After about 15 seconds, remove finger
from nipple, and
notice
if air is drawn
into
unit.
If
not, diaphragm is leaking and unit must be
replaced.
H-29.
Distributor Reassembly
Refer
to Fig. H-l5.
a.
Install
distributor
primary
lead and rubber grommet in distributor housing. Mount vacuum
advance unit on housing with two
slotted
attaching
screws; insert ground lead terminal of breaker plate under outer mounting screw.
b.
Install
felt
washer over upper shaft bushing of
distributor housing and apply a few drops of light
oil.
Secure breaker plate to upper bushing with re tainer. See Fig. H-17.
12767
FIG.
H-17—INSTALLING
BREAKER
PLATE
ON
DISTRIBUTOR
HOUSING
(DELCO)
1—
Breaker
Plate
2—
Retainer
3—
Retainer
Groove
4—
Lubricant
Reservoir c.
Install
distributor cam and
weight
base plate
on distributor shaft.
d.
Insert distributor shaft
into
distributor housing.
Install
centrifugal advance
weights
and springs on
cam
and
weight
base plate. e. Fasten driven gear to shaft with pin. Be care
ful
not to damage gear.
f.
Secure condenser and bracket to breaker plate
with
slotted
screw.
g.
Install
breaker point assembly over
boss
on
breaker
plate; secure with two
slotted
screws and
lock washers. Apply one drop of light oil to breaker
arm
pivot. Connect condenser and coil
primary
leads to breaker point assembly.
h.
Apply a small amount of high temperature cam
and
ball
bearing lubricant to a clean cloth; hold cloth against distributor cam while turning
distri
butor shaft.
Caution:
Do not apply
excessive
grease. Petro
leum jelly is not suitable as a distributor cam
lubri
cant.
i.
Make preliminary adjustment of breaker point
gap, as described in Par. C-10.
].
Secure rotor to centrifugal timing advance mech
anism with two screws, lock washers, and flat
washers.
Note:
The square and round
lugs
on the rotor must
be positioned in the corresponding
holes
in the
weight
base plate.
k. If a reliable distributor tester is available, check
the distributor to make certain that the centrifugal
and
vacuum advance mechanisms are operating
according to specifications.
Note:
Mount distributor in tester with all end play
of the distributor shaft in upward position; this
will
eliminate any possible drag
between
the centri fugal advance cam and
weight
base plate.
I.
Install
new
O-ring
seal on distributor housing.
H-30.
Distributor
Installation
and
Timing
a.
Insert distributor shaft
into
timing gear cover
of
engine
so that rotor is pointing to
mark
made on distributor base (Fig. H-14), with vacuum advance
unit pointing in exact, original direction (Fig.
H-18).
b.
Install
distributor clamp and
bolt
with lock
washer, leaving
bolt
just
loose
enough
to permit
movement
of the distributor with heavy hand
pressure.
C.
Connect
primary
wire to distributor side of coil.
Install
distributor cap on distributor housing. Press
screwdriver
into
upper
slotted
ends
of two cap
retainers.
Turn
retainers clockwise to secure cap to distributor.
d.
If
spark
cables were disconnected from
distri
butor cap, connect them. Wires must be pushed
all
the way down
into
the distributor cap terminals
and
onto
the
spark
plugs. Nipples must be pushed
firmly
over the terminals;
boots
must be pushed
firmly
over the
spark
plugs. 186
Page 187 of 376
'Jeep'
UNIVERSAL
SERIES SERVICE
MANUAL
H
12746
FIG.
H-l8—VACUUM
ADVANCE
MECHANISM
(DELCO)
A—Full
Advance
B—No
Advance
1—Vacuum
Pull
Rod
e.
To adjust breaker point cam dwell and set tim
ing of engine, refer to
Pars.
C-10 and
C-ll.
H-31. Coil
— V-6 Engine
The
sealed coil
does
not require any special service
other than keeping the terminals and wire connec
tions clean and tight.
The
positive (+) terminal of the coil is connected
to the ignition switch through the ballast resistor,
and
is also connected directly to the starter
sole
noid to by-pass the resistance during cranking of
engine.
The
negative (—) terminal is connected to the
distributor.
The secondary (high tension) terminal
is connected by a short cable to the center terminal
in
the distributor cap.
Always
make certain the coil wires are connected to the proper coil terminals to ensure correct
coil
polarity.
Note:
The ignition coil and ballast resistor must
be of the same manufacturer. Ballast resistors
and
ignition coils of one manufacturer are interchangeable with both units of the other. H-32.
Ballast
Resistor
•
V-6 Engine.
An
ignition ballast resistor is in series with the
primary
winding of the coil. The ballast resistor
helps regulate the flow of
primary
current through
out the speed range. At low
speeds
when the con
tacts remain closed longer, the ballast heats and
increases in resistance, thereby limiting the flow of
primary
current. At higher
speeds
when the con
tacts remain closed for shorter periods of time, the ballast
cools
and thereby decreases in resistance
to allow more
primary
current and reduce the
fall
off
in
available voltage.
During
starting, the resistor compensates for the lowered battery
voltage
re
sulting from the starter load and permits an in crease in
primary
current, resulting in a higher
secondary
voltage
for starting.
The
only
test
required of the ignition ballast re
sistor is a continuity check. Characteristics of the ballast produce wide variations in resistance with
changes in ballast temperature. Therefore, check ing
voltage
drop across the ballast would be mis
leading.
Caution:
Never make a connection that connects
the ballast across the battery as this
will
burn
the ballast resistor winding.
H-33.
Spark
Plugs
Clean
and gap
spark
plugs as described in
Par.
C-4.
Inspect them for excessive burning and erosion of
electrodes, blistering of porcelain at the firing tip,
black
deposits, or fouling. These conditions indicate
that the plugs have not been operating at the cor
rect
temperature.
Note:
Prolonged idling just before removing and
checking the plugs should be avoided as it may
produce false indications.
Spark
plug operating temperatures may have been
too hot, too cold, or normal as described.
a.
At too hot a temperature, the tip of the insulator
will
show
dark
spots
and blisters after fairly short service. As high-temperature operation is con
tinued, the whole insulator
nose
will
discolor, show
ing fused and blistered
deposits
near the electrode
as well as considerable erosion and burning of the
electrodes. After extreme service, the porcelain it self may be fused, cracked, and blistered at the tip.
The
electrodes
will
show extreme erosion and
burn
ing and possibly even surface cracking.
Note:
If such cracking appears on certain plugs
after fairly short service, it may be caused by water
leaks in the associated cylinders.
b. At too cold a temperature plug operation, in
the early
stages,
will
result in a
dull
black
sooting
of the plug.
This
condition frequently is found in new vehicles during the break-in period and is no
indication of trouble in this case. As the condition progresses, black
deposits
of oil and carbon build
up on the base of the shell and on the insulator
until,
in extreme cases, the space
between
insulator
and
shell may be almost completely filled. Excessive
electrode erosion
will
seldom be found in cases of cold plug operation. These indications can be pro
duced by the use of an excessively
rich
air-fuel mixture and the carburetor should be checked if
this condition is suspected. Fouling
will
also be
caused by leaking rings or intake valve
guides
that
permit excessive oil to reach the combustion
chambers.
The use of a hotter plug
will
help
burn
away
some
of this fouling but the mechanical con dition of the
engine
should be corrected.
c. In normal temperature operation the plug
will
accumulate grayish-tan to reddish-brown
deposits
with
fairly uniform discoloration of the insulator
nose
and slight, localized electrode erosion. If the
insulator shows any blotches, blisters,
irregular
dis
coloration, etc., look for hot-plug symptoms. Too
hot or too cold plug operation may be caused by
the use of plugs of other than the specified heat
rating
but if the plugs are as specified a hotter or 187