engine JEEP CJ 1953 Service Manual

H

ELECTRICAL
SYSTEM
FIG.
H-9—DISTRIBUTOR ASSEMBLY- HURRICANE F4 ENGINE 1—
Cap
6—Advance Plate
Lock
Screw
2—
Rotor
7—Oiler and
Felt
Wick

3—
Primary
Wire
8—Drive Shaft
4—
Breaker
Plate 9—Drive Shaft
Collar
and
Thrust
Washer 5—
Governor
Weights
attaching screws; remove vacuum advance unit
from housing.
e. Remove the two clamp
hinge
to breaker plate
screws; remove breaker plate from housing.
f. Remove the shaft assembly. To do this, file off
the upset end of the pin which is placed through
the collar and shaft at the lower end of the housing

and
drive out the pin with a suitable punch. Re­
move
the collar and washer.
Pull
the shaft from
the housing.
g. Should it be necessary to remove the cam as­
sembly, first remove the
felt
wick from the upper
end. Use
long-nose
pliers to compress and remove the spring locking clip located at the
bottom
of the

drilled
center opening of the cam. Remove the cam.

H-17.
Distributor Inspection

If
the shaft and bearings are worn sufficiently
to allow .005" or more
looseness
of the shaft,
they
must be replaced. Before installing new bearings,
soak them in medium grade
engine
oil and allow
them to
drain.
Wipe all oil from the upper part of
the housing.

Important:
After new bearing installation,
drill
a

y%"
[3,2 mm.] lubrication
hole
through the upper bearing
before
installing the drive shaft. Refer
to Fig. H-8 item 16.

At
assembly, apply a film of grease to the upper
drive
shaft washer and put a small amount of
grease in the bearing bore just
above
the bearings.

Lubricate
the governor mechanism sparingly with
medium grade
engine
oil in the oiler mounted on
the side of the housing and 5 drops on the
left

located in the center opening of the cam directly

below
the rotor. Place a very light smear of grease
on the cam and 1 drop of oil on the breaker arm pivot.
Before installing the distributor, check the friction

spring
mounted on the lower end of the drive shaft

and
replace it if worn or damaged. Inspect rod end of vacuum advance mechanism
for
excessive
wear. Push rod
into
unit as far as
possible, hold finger tightly over nipple, then release 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-18.
Installation and Ignition
Timing

If
the
engine
crankshaft has
been
rotated, with the
distributor off, it
will
be necessary to place No. 1
piston in firing position to correctly install the distributor. Refer to
Pars.
C-10 and
C-ll. Oil
the distributor housing where it bears in the

cylinder
block and install the distributor on the
cylinder
block. Mount the rotor on distributor shaft

and
turn
the shaft until the rotor
points
towards No. 1
spark
terminal tower position (when cap is installed) with the contact
points
just breaking. Move the rotor back and forth slightly until the

driving
lug on the end of the shaft enters the
slot

cut in the oil pump gear and slide the distributor
assembly down
into
place. Rotate the distributor
body
until the contact
points
are just breaking.
Install
the hold down screw.

H-19.
Ignition
Coil
— F4 Engine

The
sealed coil
does
not require any special service
other than keeping the terminals and wire con­ nection clean and tight.

The
positive (+) terminal of the coil is connected
to the ignition switch and is also connected directly
to the starter solenoid 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.

Note:
Always make certain the coil wires are con­
nected to the proper coil terminals to ensure cor­
rect coil polarity.

H-20. DELCO DISTRIBUTOR
—
DAUNTLESS
V-6
ENGINE
The
distributor (Fig. H-10) is mounted at the
left

front of the
engine
on the timing chain cover. It
is driven by a
spiral
gear on the camshaft. The

spark
advance is fully automatic, being controlled 182

'Jeep*
UNIVERSAL
SERIES SERVICE
MANUAL

H
|
13399

FIG.
H-10—DELCO
DISTRIBUTOR—
DAUNTLESS
V-6
ENGINE

1—
Rotor
8—Vacuum
Unit

2—
Window
9—Breaker Cam
3—
All
Weather Cap
10—Drive
Gear

4—
Cap
Latch
11—Primary Lead 5—
Rotor
Mounting
Screw 12—Contact Set
6—
Lock
Washer 13—Condenser

7—
Advance
Mechanism
by
built-in
centrifugal weights, and by a vacuum

advance
system. Contact point opening is adjusted
through
a window in the distributor cap
while
the engine is
idling.
Some
parts
of the distributor may be checked or replaced
with
the distributor mount­
ed on the engine, but it is
best
to remove it periodi­
cally
for a thorough check. Information on
parts

which
can be serviced without removal is given
below.

Note:
Prestolite and Delco distributors are inter­

changeable
on V-6 engine equipped vehicles.

H-21.
Distributor Cap
The distributor cap should be inspected for cracks,
carbon runners and evidence of arcing. If any of

these
conditions exist, the cap should be replaced. Clean any corroded high tension terminals.

H-22.
Rotor
Inspect the rotor for cracks or evidence of
exces­

sive 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

be burned on the horizontal face and the cap
will

also
need
replacing.
H-23.
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
ccnaenser
be leaky a weak spark
will
result. Check the
condenser
lead for broken wires or

frayed
insulation.
Clean and tighten the connections
on
the terminal
posts.
Be
sure
the
condenser
is mounted
firmly
on the distributor for a good ground
connection.

Should
a
condenser
tester
be available the capacity
should check
from
.18 to .23 microfarads. In the

absence
of a
tester
check by substituting new con­
denser.

H-24. Distributor Points

a-
Examine distributor points. Using
Tool
C-4094, check point contact spring
pressure,
should be 19 to 23 oz. [0,538 a 0,652 kg.]. Install new points

if
they are
worn,
pitted,
mate
poorly, or show
signs

of
metal transfer. Should premature
ignition
point

failure
occur
because
of dust entering the
distri­

butor cap and causing
excessive
wear to the
ignition

point
fiber block, perform the
following
correc­
tions after installing new distributor points.
FIG. H-l
1—SEALING
DISTRIBUTOR
CAP

1—Caulking
Compound
183

H

ELECTRICAL
SYSTEM

14237

FIG.
H-l2—DRILLING DISTRIBUTOR
CAP 1—%'
Vent
Hole
Location
Seal
the distributor cap access window and the

area
beneath the distributor cap with caulking
compound as shown in
Fig. H-ll.
At approximately
180°
from the distributor cap access window,
drill
a
[2,38 mm.] vent
hole
[31,75
mm.]
from the
bottom
of the distributor cap as shown

in
Fig. H-l2. b. To adjust breaker point cam dwell, refer to

Par.
C-10.

H-25.
Centrifugal Advance

Refer
to Fig. H-13.
Inspect for
excessive
wear
between
centrifugal

weights
and advance cam, or pivot pins.
Turn

weight
base plate in a clockwise direction until

weights
are fully extended, then release and allow springs to return to retard position. Repeat several times. Springs should return
weights
to
stop
with­out sticking and there should be no
excess
free

movement
in the retard position.

H-26.
Distributor Removal

a.
Disconnect the distributor primary wire from
coil
and disconnect
hose
from vacuum advance
mechanism of distributor. Insert a screwdriver in upper
slotted
end of two distributor cap retainers.

Press
downward, and turn 90
degrees
counterclock­
wise to release. Remove cap from distributor hous­ ing.
b. Make an index
mark
on distributor housing

(Fig.
H-14) in line with center of rotor. Carefully

note
the direction the vacuum unit
points
in
rela­

tion to
engine
so that the distributor can be in­
stalled in the same position after it is serviced.

Caution:
If
engine
is turned over while distributor is removed,
complete
ignition timing procedure
must be followed upon distributor installation.
c. Remove attaching cap screw and distributor
clamp from timing chain cover.
Lift
distributor up­

ward
and remove it from timing chain cover.

H-27.
Distributor Disassembly (Delco)

Refer
to Fig. H-l5.

a.
Remove rotor, breaker point assembly, and capacitor from distributor.
FIG.
H-13—CENTRIFUGAL ADVANCE
MECHANISM (DELCO)
A—No
Advance
1—
Advance
Weights

2—
Advance
Cam
B—Full
Advance

3—Full
Advance
FIG.
H-14—DELCO DISTRIBUTOR

ROTOR
POSITION
1
—Rotor
Tip
Lined
Up
With
Notch

184

'Jeep*
UNIVERSAL
SERIES SERVICE
MANUAL

H
FIG.
H-l 5 -DELCO
DISTRIBUTOR—
DAUNTLESS V-6 ENGINE

1—
Cap Assembly
2— Rotor
3— Governor Weight
4— Rotor
Mounting
Screw 5—
Lock
Washer
6—
Weight
Spring (Governor) 7— Shaft
8— Cam Assembly
9—
Gear
Pin
10—
Drive
Gear

11—
Spacer
Washer
12—
Housing

13—
Vacuum
Control
14—
Lock
Washer

15—
Control
Mounting
Screw
16—
Primary
Lead
17— Lead Gromet
18— Washer

19—
Breaker
Plate

20—
Condenser

21—
Retaining
Spring
22—
Ground
Lead
23—
Condenser
Clsmp
24— Contact Set
25— Clamp Screw

26—
Lock
Washer
27— Contact Screw

28—
Insulator 29—
Spring
Clip

30—
Screw 13400

b.
Remove and discard
O-ring
seal from distributor
housing.
c. Remove two attaching screws; remove vacuum
advance from housing.

d.
Drive pin from driven gear and shaft, using a
y%"
[3,2 mm.] straight punch. See Fig. H-l6.

Caution:
Be careful not to bend distributor shaft
or damage gear when driving pin out.

e.
Remove gear and thrust washer from shaft; pull the shaft, breaker cam, and centrifugal advance
mechanism from the housing.
f. Remove two springs and centrifugal advance
weights
from the integral
weight
base plate and

breaker
cam. Remove plate from end of shaft.
g. Remove retainer breaker plate, and
felt
washer from upper bushing.

Note:
Lubricant
reservoir contains sufficient
lubri­

cant for the life of the distributor. Do not
move
plastic reservoir cover from housing. Do not de-
grease bore of housing.
h. Remove distributor primary lead and grommet
from housing.

Caution:
Do not attempt to replace the shaft
bushings in the housing; the housing and bushings

are
serviced only as an assembly.
FIG.
H-l6—DISTRIBUTOR GEAR AND
SHAFT PIN REMOVAL (DELCO) 1— H' Punch

2—Spring
Pin
H-28.
Distributor Parts
Cleaning
and

Inspection

a.
Wash the distributor housing, shaft, gear, break­

er
plate, and
weight
base and cam in suitable clean­ ing solvent. Hold housing in horizontal position to
avoid
getting
cleaning solvent
into
the lubricant
reservoir.
Dry parts thoroughly.

b.
Wipe distributor cap with a clean cloth. Inspect
it for chips,
cracks,
and carbonized paths which
would allow
high-voltage
leakage. Such
defects
re­
quire
replacement of cap.
Clean
loose
corrosion
from surfaces of terminal
segments
inside the cap. Do not use emery cloth or sandpaper. If
segments

are
deeply
grooved, the cap should be replaced.

Pull
cables from terminal
sockets
and inspect
sockets
for corrosion.
Clean
sockets, using a stiff

wire
brush to
loosen
corrosion.

c.
Inspect rotor for wear and damage. If rotor is
cracked,
spring contact is badly worn, or rotor tip is badly burned, rotor must be replaced. 185

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

'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

H

ELECTRICAL
SYSTEM
colder plug may be desirable. However, under- or
over-heating is usually caused by factors other than the type of
spark
plugs and the cause should be determined before changing plugs. The design of the
engine
calls for plugs equivalent to Champion

J-8
for F4
engines
and
A.C.
44S or
UJ12Y
Champ­

ion for the V6 engines, (as installed in production)
though any factor that consistently affects
engine
operating temperature may cause this requirement
to change. Overheating may be caused by in­ sufficient tightening of the plug in the head, which interferes with the flow of heat away from the firing

tip.
If this is the case, the plug gasket
will
show very
little flattening. Over-tightening, in
turn,
will
pro­ duce too easy a heat flow path and result in cold
plug operation.
This
will
be evident by excessive
flattening
and
deformation of the gasket.
Prevailing
temperatures, condition of the cooling system, and

air-fuel
mixture can affect the
engine
operating temperature and should be taken into consideration.
H-34.
GENERATOR
— F4
ENGINE

The
generator is an air-cooled, two-brush unit

which
cannot be adjusted to increase or decrease output. For replacement,
voltage
regulator and generator must be matched for
voltage
and capa­

city,
polarity, and common source of manufacture.
Otherwise,
either a
loss
of ampere capacity or a

burned
out generator
will
result. Generators for

these
vehicles are 12-volt. Par. H-l explains the 12-volt system. Refer to the specifications at the
end of this section for information on correct generator rating for a specific model series.
The
circuit
breaker,
voltage
regulator, and current-

limiting
regulator are built into one combination

unit.
Because the regulator and battery are part
of the generator
circuit,
the output of the generator
depends upon the
state
of charge and temperature
of the battery.
With
a discharged battery, the
output
will
be high, decreasing proportionally as the battery
becomes
charged. For service informa­
tion covering current regulator see Par. H-41.

H-36.
Generator
Maintenance

A
periodic inspection should be made of the charg­
ing
circuit,
Fig. H-l9. The interval
between
these
checks
will
vary
depending upon type of service.
Dust,
dirt
and high speed operation are factors 10541

FIG.
H-19—CHARGING
CIRCUIT

1—
Battery
4-—Starter Switch

2—
Voltage
Regulator 5-—Charge Indicator

3—
Generator
which
contribute to increased wear of bearings

and
brushes.

Under
normal conditions a check should be made
each 6000 miles
[9.600
km.].

A
visual inspection should be made of all wiring,
to be sure there are no broken or damaged wires.

Check
all connections to be sure they are tight and

clean.

Should
the commutator be rough or worn the
armature
should be removed and the commutator

turned
and undercut. See Par. H-37.
The
brushes should slide freely in their holders.

Should
they be oil soaked or if they are worn to

less
than one-half their original length they should
be replaced. When new brushes are installed they should be sanded to provide
full
contact with the
commutator. Generators should not be checked for
output until the brushes are seated.

Brush
spring tension is important. High tension causes
rapid
brush and commutator wear while
low tension causes arcing and reduced output.
Test
the tension with a spring scale.
Check
the
specifications section at end of this section for

correct
spring tension for generator in question.
H-36.
Generator Disassembly
•
Refer to Fig. H-20:
Before beginning disassembly of the generator to

correct
electrical system malfunctions proceed with
inspection and
test
procedures as detailed in Par.

H-46
thru
H-62. If it is definitely determined that trouble exists within the generator, which ne­cessitates dismantling, proceed as follows. Remove the two frame screws in the commutator
end plate and remove the end plate assembly. Next
pull
the armature and drive head complete

from
the generator housing. Remove the generator pulley from the armature by removing the nut

and
washer. Do not
lose
the Woodruff key when
the pulley is removed. After this, remove the drive
end head assembly which includes the oil seal and
bearing.
To remove the bearing, remove the three
screws and lockwashers in the grease retainer and remove the retainer and felt washer, after which,
remove the bearing, oil guard and felt washer.
H-37.
Armature

If
the commutator is rough or worn,
turn
it down

in
a lathe. After turning, the mica insulation be­ tween the
segments
should be undercut to a depth of 34* [0,8 mm.].
To
test
the armature for a ground, connect one

prod
of a
test
lamp to the core or shaft (not on

bearing
surface) and touch each commutator
seg­
ment with the other prod. If the lamp lights, the

armature
segment
is grounded and the armature must be replaced.

To
test
for short in armature coils, a growler,

Fig.
H-21, is necessary. Place the armature on the growler and lay a thin steel strip on the armature

core.
The armature is then rotated slowly by hand

and
if a coil is shorted, the steel strip
will
vibrate.

Should
a coil be shorted the armature must be
replaced.

If
precision
test
equipment is available, the cus­

tomary
accurate
tests
can be made in accordance 188

H

ELECTRICAL
SYSTEM

FIG.
H-21—GROWLER
end so it rests on the pulley with the commutator
end up.

While
holding brushes clear of commutator with
the thumbs, place generator housing and field coils assembly in position, turning front end

bracket
so the dowel pin in housing enters
hole
in
end head. Place commutator end plate on shaft

and
install long frame screws.

When
reinstalling the generator on the engine, the

bracket
bolt torque wrench reading is 25 to 35 lb-ft. [3,4 a 4,8 kg-m.].

H-41.
CURRENT-VOLTAGE REGULATORS •
F4 Engine

H-42.
Description and
Operation
For
replacement,
voltage
regulator and generator must be matched for
voltage
and capacity, polarity,

and
common source of manufacture. Otherwise,
either a
loss
of ampere capacity or a burned out generator
will
result.

These
regulators are used with shunt-type gen­

erators
and have three units each with a separate function to perform. These units are the circuit

breaker
unit, the
voltage
regulator unit, and the

current
limiting regulator unit.

H-43.
Circuit
Breaker

It
consists of
an
electromagnet and a set of contacts.

The
contacts are mounted with one on a stationary

bracket,
and the other on a movable armature

which
is controlled by the electromagnet. The movable contact is mounted on a spring arm so that as the contacts open and
close
a slight wiping
action is produced.

The
electromagnet of the circuit breaker has two
windings, one, the shunt coil which is connected across the generator output like a voltmeter and
the other a series coil connected in series with the
generator output like an ammeter.These two coils

are
wound in the same direction so that when the
generator is charging the battery, the magnetism
of the series coil increases the total magnetism.

When
the battery discharges back through the generator, the magnetism of the series coil is re­ versed and the magnetism of the two coils is
opposed.
This
results in a decreased
pull
on the

armature
and spring action
opens
the contacts.
10240

FIG.
H-22—PRESTOLITE VOLTAGE REGULATOR
1—
"ARM"
Terminal

2—
"FLD"
Terminal

3— "BAT"
Terminal
The
sequence of operation of the circuit breaker is
as follows:

When
the generator is not running, the contacts
are
open. When the generator is started, the
voltage
builds up at the armature terminal and in the shunt

coil
and as
soon
as it reaches the value for which
the circuit breaker is calibrated, there is sufficient magnetism created by the shunt coil to
pull
down
the armature, closing the contacts which auto­
matically
connects the generator to the battery.

With
the contacts thus closed the current in the
series coil is flowing from the generator to the battery or in the same direction as the current in
the shunt coil, so that the
pull
on the armature is

increased
by the magnetism of the series coil.

When
the
engine
is stopped and the generator
loses

speed, the
voltage
falls, and as
soon
as the gener­
ator
voltage
drops below the battery terminal vol­
tage,
the current flows from the battery to the generator, reversing the direction of current in the
series coil so that the magnetism created by the series coil
opposes
and reduces the magnetism of
the shunt
coil.
This
reduces the
pull
on the
armature

to a point where spring action
opens
the contacts.

H-44.
Voltage
Regulator

The
function of the
voltage
regulator is to hold
the generated
voltage
at a predetermined value as 190

'Jeep*
UNIVERSAL SERIES SERVICE
MANUAL

H
long as the circuit values allow the voltage to build
up to the operating voltage.
The
electromagnet of the voltage regulator unit has

a
winding of many turns of fine wire and is con­
nected across the charging circuit so that the sys­ tem voltage controls the amount of magnetism.
The
contacts of the voltage regulator unit are con­
nected in the generator field circuit so that the field

circuit
is completed through the contacts when they

are
closed and through a resistor when the contacts
are
opened.

When
the voltage rises to a predetermined value
there is sufficient magnetism created by the regu­

lator
winding to
pull
the
armature
down.
This
opens

the contacts and inserts resistance in the field
cir­

cuit
of the generator thus reducing the
field
current.
The
generated voltage immediately drops, which
reduces the
pull
on the
armature
to the point where
the spring closes the contacts. The output again

rises
and the cycle is repeated.

These
cycles occur at high enough frequencies to
hold the generated voltage at a constant value and

will
continue as long as the voltage of the circuit
is high enough to keep the voltage regulator unit

in
operation.
With
the addition of a current load great enough to lower the battery voltage below
the operating voltage of the unit, the contacts
will

remain
closed and the generator
will
maintain a
charging
rate as limited by its speed or the current

limiting
regulator.

Due
to the
effect
of heat on the operating
charac­

teristics of regulator windings it is necessary to
compensate for the changes in coil resistance when
the regulator is operating under varying tempera­

ture
conditions.
This
is accomplished through the
use of a nickel iron magnetic by-pass on the volt­
age regulator unit.
This
shunt by-passes
some
of
the magnetic flux when the unit is cold and allows most of the flux to act on the armature when the

unit
is hot.
Thus
when the coil is hot and not as
efficient, the magnetic shunt reduces the amount of flux needed to vibrate the armature.

The
compensation is usually more than enough to

offset
the changes in regulator coil resistance due
to heat. The excess compensation allows the regu­

lator
to operate at higher voltage under cold
operating conditions than under hot conditions.
This
is necessary as it requires a higher voltage to charge a battery with its internal resistance in­

creased
by low temperatures.

H-45.
Current-Limiting
Regulator

The
function of the current-limiting regulator is to limit the output of the generator to its maxi­

mum
safe output.

The
electromagnet of the current regulator unit
consists of
a
winding of heavy
wire
that is connected
in
series with the generator output. When the gen­

erator
output reaches a predetermined value, the
current
in the winding produces enough magnetism
to overcome the spring tension and
pull
the
arma­
ture
down.
This
opens
the contacts and inserts re­
sistance in the field circuit of the generator.
With
the field current reduced by the resistance, the
generator output falls and there is no longer enough
magnetism to hold the contacts open. As soon as
the spring closes the contacts, the output rises and the cycle is repeated. These cycles occur at high
enough frequencies to limit the output to a mini­
mum
fluctuation.

H-46.
Preliminary Inspection

a.
Wiring—Check
the wiring to see that it is prop­
erly
connected to the generator.

b.
Generator
Performance—Make
sure the genera­
tor operates correctly without the regulator in the
circuit.
Remove the armature and battery leads

from
the regulator and connect an ammeter be­
tween them. Remove the field lead from the regu­

lator
and while operating at idle speed touch the
field
lead
to the regulator base. Increase the speed slowly noting the charging rate.

CAUTION:
Do not increase the output above
the rated output of the generator.

If
the generator output
will
not build up inspect
the wiring harness for shorts and
opens
and remove the generator for an overhaul. To check the genera­
tor circuit when a suitable ammeter is unavailable,

Fig.
H-19, disconnect the armature cable at the

regulator.
Connect one lead of
a
12v
test
lamp to the regulator terminal marked "armature" and with
the engine running, ground the other lead. Should
the
test
light
fail
to
burn
there is a fault either in the generator or regulator. To localize the fault, discon­
nect both the
"Field"
and
"Armature"
cables at the generator. Connect a wire from the
"Field"
ter­
minal
to ground and use a 60 watt, 110 volt
test

lamp
to ground the
"Armature"
terminal. If the
generator is charging satisfactorily the
test
lamp

will
glow
at approximately 1500 rpm. engine speed
and
the fault
will
be definitely localized in the
regulator.

c.
Incorrect Regulator—Make sui he regulator
is the correct type for use with the generator.

d.
Battery—Check
the specific gravity and termi­

nal
voltage of the battery. If the \ ttery is not up
to specifications substitute temporarily
for
test
pur­
poses
a fully charged battery of the same type and
capacity.

e. High Resistance Connections—Inspect the
wir­
ing between the generator, regulator and battery for broken wires and high resistance connections.

Pay
special attention to the ground connections at
all
three units. Connect a reliable ammeter with 1-ampere graduations in series with the regulator

B-terminal
and the lead removed from this
terminal.
Run
the generator at a medium speed and
turn
on the lights or accessories until the ammeter shows a 10-ampere charging rate. At this charging rate
measure the voltage drop between the following
points using an accurate voltmeter graduated in
,1-volt divisions. The voltmeter should not show

a
reading above the maximum noted.
Generator
"A" terminal to regulator
"A"
terminal
—.1-volt maximum.

Generator
"F"
terminal to regulator
"F"
terminal
—.05-volt maximum.

Battery
terminal to regulator "B" terminal— .1-volt maximum.

Regulator
ground screw to generator frame— .03-volt maximum. 191

H

ELECTRICAL
SYSTEM
Regulator
ground screw to battery ground post
—.03-volt maximum.

Generator
frame to battery ground post—.03-volt
maximum.

H-47.
Test Procedure

a.
Circuit
Breaker—Connect
an ammeter in series between the regulator B-terminal and the lead
wire
removed from that terminal. Connect a
voltmeter between the regulator
A-terminal
and the regulator mounting base. Disconnect the field lead

from
the regulator
F-terminal
and insert a variable resistance (3 amp., 50 ohm capacity) between the

lead
and the regulator terminal. Run the generator
at about 1000 generator rpm. Insert all the re­
sistance in the field
circuit,
then slowly reduce the
resistance noting the voltage reading just before the change caused by the closing of the circuit

breaker.
Increase the charging rate to the figure
specified for the regulator being tested then reduce
the charging rate by inserting resistance in the
field
circuit.
Note
the voltmeter and ammeter

reading
just before the circuit breaker
opens
and
the ammeter reading drops to zero. The closing voltage and the opening voltage or current should
be within the limits specified. An accurate method
for noting the exact instant of the opening or closing
of the circuit breaker is to connect a headphone (2000 ohms or higher) to the battery and armature

terminals
of the regulator. When the contacts
open or close a
click
will
be
heard
in the headphones.
To
adjust the closing voltage change the armature

spring
tension by bending the hanger at the lower end of the spring. Increase the spring tension to

raise
the closing voltage or decrease the tension
to lower the closing voltage. To adjust the opening voltage raise or lower the stationary contact
keeping the contacts perfectly aligned. Increasing
the contact gap lowers the opening
'
voltage.
Change
the contact gap by expanding or contract­
ing the stationary contact bracket, keeping the
contacts aligned. Do not adjust the gap between
the contacts to less than the specified minimum.

b.
Voltage Regulator—Connect the ammeter as in

step
a. Connect the voltmeter between the regulator
B-terminal
and the regulator base. Remove the

variable
resistance from the field
circuit.
Run the
generator at
half
output for 15 minutes to bring
the regulator to normal operating temperature.

Keep
the cover on the regulator during the
warm-

up period and also when taking readings.
Stop the engine then bring it up to approximately 2500 generator rpm. Adjust the amperage to
half

maximum
output by turning on lights or accessor­
ies and then
note
the voltmeter reading.
This
read­

ing should be within the limits specified for the voltage regulator operation. To adjust the oper­
ating voltage change the
armature
spring tension by
bending the hanger at the lower end of the
arma­

ture
spring. After each adjustment
stop
the engine then restart it.
Bring
it up to speed and adjust the

current
before taking a reading. In order to obtain

an
accurate indication of the operation of the volt­
age regulator unit connect a headphone (2000 ohm

or
higher) between the
F-terminal
and ground to

pick
up the sound of the opening and closing of the
contacts. The clicks should be regular and clear without irregularities or missing. If the
tone
is not

clear
and regular remove the regulator cover and
inspect the contacts. The contacts should be flat
and
not burned excessively and should be aligned
to make
full
face contact. If the contacts need
cleaning refer to paragraph d for the method.

c.
Current
Regulator—Connect the regulator and the
test
equipment as in
step
b. Running the generator at approximately 3000 generator rpm.,

turn
on lights and accessories so that the generator must charge at maximum rate. The ammeter should give a reading within the limits specified.

To
adjust opening amperage, change the armature

spring
tension by bending the hanger at the lower
end of the armature spring. After each adjustment,

stop
the engine, then restart it.
Bring
the engine up to speed and take an ammeter reading. Keep
the cover on the regulator when taking
these

readings.

Connect
a headphone (2000 ohms or higher) be­
tween the regulator
F-terminal
and ground to pick
up the sound of opening and closing of the contacts.

Clear,
regular clicks should be heard over the
headphones; they should not be
irregular
or missing.
If
the
tone
is not clear and regular remove the
regulator cover and inspect the contacts. The
contacts should be flat and not burned excessively

and
should be aligned to make
full
face contact. If
the contacts need cleaning refer to paragraph d.
below for the method.

d.
Contacts—Inspect the contacts on all three
units.
In normal use the contacts
will
become

grayed.
If the contacts are burned or dirty or if they are not smooth, file the contacts with a #6

American,
Swiss cut, equalling file. Move the file

parallel
and lengthwise to the armature.
File
just
enough so that the contacts present a smooth
sur­

face toward each other. It is not necessary to remove every trace of pitting. After filing, dampen

a
piece of linen or lintless bond tape in refined

carbon
tetrachloride and draw the tape between
the contacts. Repeat with a dry piece of tape. Use
clean
tape for each set of contacts.
e. Recheck—Operate the unit at
half
maximum
output for five minutes with the cover on the regu­

lator.
Repeat the testing procedure for all units as described in a, b, c above. Be sure cover is on regu­

lator
when taking readings.

H-48.
Quick
Checks

H-49.
Low Charging Rate with a
Fully
Charged
Battery

A
fully charged battery and a low charging rate
indicates normal regulator operation.
A
further check of the regulator operation can be
made by using the starting motor for 5 to 10
seconds with the ignition switch in the "off" posi­ tion.
Then
start the engine and operate at a genera­
tor speed of 2500 to 3000 rpm. The charging rate should rise to its maximum value then taper off to

a
minimum charge as the battery becomes charged.

H-50.
High Charging Rate with a
Fully
Charged
Battery

This
is usually an indication that the voltage regu­

lator
is not operating correctly. The high voltage 192