stop start DATSUN PICK-UP 1977 Service Manual
Page 26 of 537
Fresh
air
Blow
by
gas
CHECKING
VENTILATION
HOSE
1
Check
hoses
and
hose
connec
tions
for
leaks
2
Disconnect
all
hoses
and
blow
them
out
with
compressed
air
If
any
hose
cannot
be
free
of
obstructions
replace
Ensure
that
flame
arrester
is
surely
inserted
in
the
hose
between
air
cleaner
and
rocker
cover
CHECKING
EXHAUST
MANIFOLD
HEAT
CONTROL
VALVE
Run
engine
and
visually
check
counterweight
to
see
if
it
operates
properly
I
For
some
time
after
starting
engine
in
cold
weather
counterweight
turns
counterclockwise
until
it
comes
into
contact
with
stopper
pin
installed
to
exhaust
manifold
Counterweight
gradually
moves
down
clockwise
as
engine
warms
up
and
ambient
temperature
goes
higher
around
exhaust
manifold
2
When
engine
speed
is
increased
discharge
pressure
of
exhaust
gases
causes
counterweight
to
move
down
ward
clockwise
Engine
Tune
up
CoOl
1
Oil
level
gauge
2
8affle
pia
te
3
Flame
arrester
4
Filter
5
P
C
V
valve
6
Steel
net
7
Baffle
plate
1fiI
o
EC716
Fig
ET
20
Crankcaae
emi
ion
control8
tem
3
When
heat
control
valve
is
in
the
full
open
position
counterweight
moves
further
clockwise
exceeding
the
position
described
in
1
1
above
and
stops
again
coming
into
contact
with
stopper
pin
ct
t
C
EC245
1
Counterwe
ht
2
Stopper
pin
3
Heat
control
valve
Fig
ET
21
Cold
operation
of
counte
weigh
t
EC246
1
Counterweight
2
Stopper
pin
3
Heat
control
valve
Fig
ET
22
Hot
operation
of
counter
weight
ET
14
2
With
engine
stopped
visually
check
E
F
E
system
for
the
following
items
I
Thermostat
spring
for
dismount
ing
2
Stopper
pin
for
bend
and
count
er
weight
stop
position
for
dislocation
3
Check
heat
control
valve
for
malfunction
due
to
break
of
key
that
locates
counterweight
to
valve
shaft
4
Check
axial
clearance
between
heat
control
valve
and
exhaust
mani
fold
Correct
clearance
is
0
7
to
1
5
mm
0
028
to
0
059
in
5
Check
welded
portion
of
heat
control
valve
and
valve
shaft
for
any
indication
of
crack
or
flaking
6
Rotate
heat
control
valve
shaft
with
a
fmger
and
check
for
binding
between
shaft
and
bushing
in
closing
and
opening
operation
of
heat
control
valve
If
any
binding
is
felt
in
rotating
operation
move
valve
shaft
in
the
rotation
direction
several
times
If
this
operation
does
not
correct
binding
condition
it
is
due
to
seizure
between
shaft
and
bushing
and
exhaust
mani
fold
should
be
replaced
as
an
assem
bly
CHECKING
SPARK
TIMING
CONTROL
SYSTEM
This
system
is
installed
on
non
California
automatic
transmission
models
SPARK
DELAY
VALVE
Automatic
transmission
models
only
This
valve
delays
vacuum
spark
advance
during
rapid
acceleration
it
also
cuts
off
the
vacuwn
spark
advance
imme
iately
upon
deceleration
The
valve
is
designed
for
one
way
opera
tion
and
consists
of
a
one
way
umbrel
la
valve
and
sintered
steel
fluidic
restrictor
Page 28 of 537
Note
Vacuum
hose
position
R
R
side
of
Nissan
mark
on
the
top
of
sensor
for
intake
manifold
L
R
side
of
the
mark
is
for
vacuum
rootor
2
2
Vacuum
motor
I
With
engine
stopped
disconnect
fresh
air
duct
Place
a
mirror
at
the
end
of
air
cleaner
inlet
pipe
as
shown
and
check
to
see
if
air
control
valve
is
in
correct
position
EF213
Fig
ET
27
Impecting
lJalv
position
Air
control
valve
is
in
correct
posi
tion
if
its
under
hood
air
inlet
is
open
and
hot
air
inlet
is
closed
Check
air
control
valve
linkage
for
condition
2
Disconnect
vacuum
motor
inlet
vacuum
hose
and
connect
another
hose
to
the
inlet
to
apply
vacuum
to
vacuum
motor
Vacuum
can
be
ap
plied
by
breathing
in
the
hose
end
as
shown
Place
a
mirror
at
the
end
of
air
cleaner
inlet
pipe
and
check
to
see
if
air
control
valve
is
in
correct
position
Engine
Tune
up
EF217
Fig
ET
28
lmpecting
value
position
Correct
pC6ition
of
air
control
valve
is
the
reverse
of
paragraph
I
above
Air
control
valve
is
in
correct
position
if
under
hood
air
inlet
is
closed
and
hot
air
inlet
is
open
3
With
hot
air
inlet
is
open
posi
tion
as
descnbed
in
paragraph
2
above
pinch
vacuum
hose
with
fingers
and
cut
of
air
from
vacuum
hose
In
this
condition
check
that
air
control
valve
maintains
the
condition
de
scribed
in
step
2
for
more
than
30
seconds
and
that
hot
air
inlet
is
open
If
diaphragm
spring
actuates
the
air
control
valve
by
its
spring
force
to
open
under
hood
air
inlet
within
30
seconds
replace
vacuum
motor
as
an
assembly
since
this
may
be
resulted
from
air
leak
at
vacuum
motor
dia
phragm
2
3
Temperature
sensor
Check
temperature
sensor
for
func
tion
by
proceeding
as
follows
Be
sure
to
keep
engine
cold
before
starting
test
1
With
engine
off
check
air
control
valve
for
condition
In
this
case
under
hood
air
inlet
is
open
Use
a
mirror
for
inspection
as
2
2
1
above
2
Start
engine
and
keep
idling
Immediately
after
engine
starting
check
air
control
valve
for
correct
position
as
described
above
In
this
case
correct
position
of
air
control
valve
is
the
reverse
of
2
2
1
under
hood
air
inlet
is
closed
and
hot
air
inlet
is
open
ET
16
3
Check
that
air
control
valve
grad
ually
opens
to
under
hood
air
inlet
side
as
engine
warms
up
When
en
vironmental
temperature
around
tern
perature
sensor
is
low
spend
more
time
for
engine
warming
up
operation
to
facilitate
smooth
opera
tion
of
air
con
trol
valve
If
the
above
test
reveals
any
prob
lem
in
the
operation
of
air
control
valve
carry
out
the
following
test
4
Remove
air
cleaner
cover
Set
temperature
sensing
element
of
ther
mistor
or
thermometer
to
a
position
where
tempera
ture
around
sensor
can
be
measured
In
this
case
fix
wiring
of
thermistor
or
thermometer
on
the
bot
tom
surface
of
air
cleaner
with
adhe
sive
tape
in
such
a
manner
that
the
set
position
of
temperature
sensing
ele
ment
will
not
be
affected
by
airflow
Then
install
air
cleaner
cover
EF221
Fig
ET
29
Checking
temperotur
e
ensor
5
Carry
out
test
as
described
in
steps
I
2
and
3
above
When
air
control
valve
begins
to
open
to
under
hood
air
inlet
side
severa
minutes
after
engine
starting
read
the
indica
tion
of
thermistor
or
thermometer
If
reading
falls
within
the
working
tern
perature
range
of
temperature
sensor
the
sensor
is
normaL
If
reading
ex
ceeds
the
range
replace
the
sensor
with
new
one
Note
Before
replacing
temperature
sensor
check
idle
compensator
as
described
in
Section
EF
page
EF
8
Page 33 of 537
Ignition
Switch
Position
START
Detector
Drive
Counter
E
G
R
Warning
Lamp
ON
a
After
completing
inspection
of
E
G
R
control
system
be
sure
to
reset
odometer
of
detector
drive
counter
to
zero
b
This
item
applies
to
620
models
except
those
bound
for
California
and
Canada
3
With
engine
stopped
inspect
E
G
R
control
valve
for
any
indication
of
binding
or
sticking
by
movirig
dia
phragm
of
control
valve
upwards
with
fmgers
Engine
Tune
up
ON
Below
50
000
counts
Above
50
000
counts
OFF
ON
4
With
engine
running
inspect
E
G
R
control
valve
and
thermal
vacu
um
valve
for
normal
operation
I
When
engine
coolant
tempera
ture
is
low
Make
sure
that
E
G
R
control
valve
does
not
operate
when
engine
speed
is
increased
from
idling
to
3
000
to
3
500
rpm
Place
fingers
on
the
diaphragm
of
E
G
R
control
valve
to
check
for
valve
operation
2
When
engine
coolant
tempera
ture
is
high
I
Make
sure
that
E
G
R
control
valve
operates
when
engine
speed
is
in
creased
from
idling
to
3
000
to
3
500
rpm
Place
fingers
on
the
diaphragm
of
E
G
R
control
valve
to
check
for
valve
operation
2
If
E
G
R
control
valve
does
not
operate
check
as
follows
Disconnect
one
end
E
G
R
control
valve
side
ofvacuum
hose
connect
ing
thermal
vacuum
valve
to
E
G
R
EC253
Fig
ET
40
Checking
E
G
R
control
valve
control
valve
Increase
engine
speed
from
idling
to
3
000
to
3
500
rpm
Make
sure
that
thermal
vacuum
valve
is
open
and
that
carburetor
vacuum
is
present
at
the
end
E
G
R
control
valve
side
ofvacu
urn
hose
If
vacuum
is
weak
or
not
present
at
all
replace
thermal
vacuum
valve
If
vacuum
is
present
replace
E
G
R
con
trol
valve
ET
21
EC254
Fig
ET
41
Checking
thermal
vacuum
valw
If
any
difficulty
is
encountered
in
judging
the
condition
of
any
compo
nent
during
above
inspection
check
the
questionable
component
independ
ently
as
follows
E
G
R
control
valve
Dismount
E
G
R
control
valve
from
engine
I
Apply
vacuum
to
E
G
R
control
valve
referring
to
the
following
figure
If
the
valve
moves
to
full
position
it
is
normal
E
G
R
control
valve
will
remain
open
for
more
than
30
seconds
after
vacuum
has
cut
off
0
r11
hC
J
ET152
Fig
ET
42
Checking
E
G
R
control
VGlve
2
Visually
check
E
G
R
control
valve
for
damage
wrinkle
or
deforma
tion
3
Clean
the
seating
surface
of
E
G
R
control
valve
with
a
brush
and
compressed
air
and
remove
foreign
matter
from
around
the
valve
and
port
Page 102 of 537
r
AIR
CLEANER
1
Loosen
bolts
securing
air
cleaner
to
air
cleaner
bracket
2
Loosen
air
cleaner
lock
bolt
and
remove
air
cleaner
from
carburetor
Disconnect
the
following
hoses
when
dismounting
air
cleaner
Under
hood
air
inlet
hose
Hot
air
inlet
hose
Vacuum
hose
Sensor
to
intake
manifold
Vacuum
hose
Sensor
to
vacuum
motor
Vacuum
hose
Idle
compensator
to
intake
manifold
Hose
Air
pump
to
air
cleaner
Hose
AB
valve
to
air
cleaner
Hose
Carburetor
to
air
cleaner
Blow
by
hose
Air
cleaner
to
rocker
cover
Hose
Air
control
vaive
to
air
cleaner
California
models
only
3
To
install
reverse
the
removal
procedure
INSPECTION
1
AIR
CLEANER
ELEMENT
Viscous
paper
type
air
cleaner
ele
ment
does
not
require
any
cleaning
operation
until
it
is
replaced
periodi
cally
Brushing
or
blasting
operation
will
cause
clogging
and
result
in
enrich
ment
of
carburetor
mixture
and
should
never
be
conducted
For
reo
placement
interval
of
air
cleaner
ele
ment
refer
to
Maintenance
Sched
ule
2
HOT
AIR
CONTROL
SYSTEM
In
warm
weather
it
is
difficult
to
find
out
malfunction
of
hot
air
control
system
In
cold
wea
thee
however
malfunction
of
air
control
valve
due
to
disconnection
or
deterioration
of
vacu
um
hose
between
intake
manifold
and
vacuum
motor
and
insufficient
dura
bility
of
air
control
valve
will
cause
insufficient
automatic
control
opera
tion
for
intake
air
and
result
in
engine
disorder
including
I
Stall
or
hesitation
of
engine
oper
ation
2
Increase
in
fuel
consumption
3
uck
of
power
Engine
Fuel
These
phenomena
reveal
malfunc
tion
of
hot
air
control
system
If
these
phenomena
should
occur
check
hot
air
control
system
as
described
in
the
following
before
carrying
out
inspec
tion
of
carburetor
2
1
Vacuum
hose
Intake
manifold
to
3
way
connec
tor
3
way
connector
to
temperature
sensor
3
way
connector
to
idle
com
pensator
temperature
sensor
to
vacu
um
motor
I
Check
that
vacuum
hoses
are
se
curely
connected
in
correct
postion
2
Check
each
hose
for
cracks
or
distortion
hose
clip
for
condition
Note
Vacuum
hose
position
R
H
side
of
Nissan
mark
on
the
top
of
sensor
is
for
intake
manifold
L
U
side
of
the
mark
is
for
vacuum
motor
2
2
Vacuum
motor
I
With
engine
stopped
disconnect
fresh
air
duct
Place
a
mirror
at
the
end
of
air
cleaner
inlet
pipe
as
shown
and
check
to
see
if
air
con
trol
valve
is
in
correct
position
EF213
Fig
EF
11
Inspecting
valve
position
Air
control
valve
is
in
correct
posi
tion
if
its
under
hood
air
inlet
is
open
and
hot
air
inlet
is
closed
Check
air
control
valve
linkage
for
condition
2
Disconnect
vacuum
motor
inlet
vacuum
hose
and
connect
another
hose
to
the
inlet
to
apply
vacuum
to
vacuum
motor
Vacuum
can
be
ap
plied
by
breathing
in
the
hose
end
as
shown
Place
a
mirror
at
the
end
of
air
cleaner
inlet
pipe
and
check
to
see
if
air
control
valve
is
in
correct
position
EF
6
EF217
Fig
EF
12
Inspecting
valve
position
Correct
position
of
air
control
valve
is
the
reverse
of
paragraph
J
above
Air
control
valve
is
in
correct
position
if
under
hood
air
inlet
is
closed
and
hot
air
inlet
is
open
3
With
hot
air
inlet
in
open
posi
tion
as
described
in
paragraph
2
above
pinch
vacuum
hose
with
fingers
and
cut
off
air
from
vacuum
hose
In
this
condition
check
that
air
control
valve
maintains
the
condition
de
scribed
in
step
2
for
more
than
30
seconds
and
that
hot
air
inlet
is
open
If
diaphragm
spring
actuates
the
air
control
valve
by
its
spring
force
to
open
under
hood
air
inlet
within
30
seconds
replace
vacuum
motor
as
an
assembly
since
this
may
be
resulted
from
air
leak
at
vacuum
motor
dia
phragm
2
3
Temperature
ensor
Check
temperature
sensor
for
func
tion
by
proceeding
as
follows
Be
sure
to
keep
engine
cold
before
starting
test
I
With
engine
off
check
air
control
valve
for
condition
In
this
case
under
hood
air
inlet
is
open
Use
a
mirror
for
inspection
as
2
2
1
above
2
Start
engine
and
keep
idling
Immediately
after
engine
starting
check
air
control
valve
for
correct
position
as
described
above
In
this
case
correct
position
of
air
control
valve
is
the
reverse
of
2
2
I
under
hood
air
inlet
is
closed
and
hot
air
inlet
is
open
3
Check
that
air
control
valve
grad
ually
opens
to
under
hood
air
inlet
side
as
engine
warms
up
When
en
vironmental
temperature
around
tern
perature
sensor
is
low
spend
more
time
for
engine
warming
up
operation
Page 108 of 537
854
co
in
in
one
minute
or
less
If
no
gasoline
or
only
a
little
flows
from
open
end
of
pipe
with
pump
operated
or
if
pump
does
not
work
perform
the
following
diagnosis
Notes
3
Do
not
connect
battery
in
reverse
polarity
which
if
left
for
a
long
time
would
damage
transitor
circuit
and
disable
pump
Engine
Fuel
b
Do
not
let
fall
pump
as
it
may
damage
electronic
components
c
Do
not
apply
overvoitage
max
l
8Y
Overvoltage
starting
by
quick
charge
or
tage
running
would
deteriorate
or
damage
elec
tronic
components
Fuel
pressure
maximum
0
32
kg
cm
4
6
psi
REMOVAL
AND
INSTALLATION
Flom
fuel
tank
Electric
fuel
pump
is
installed
on
bracket
with
two
bolts
This
bracket
is
located
on
R
H
side
member
adjacent
to
fuel
tank
I
Remove
inlet
hose
from
fuel
pump
Also
remove
outlet
hose
run
ning
to
engine
Receive
fuel
remaining
in
fuel
hose
in
a
suitable
container
2
Disconnect
harness
at
connector
3
Remove
bolts
securing
fuel
pump
to
bracket
and
detach
fuel
pump
4
Installation
is
the
reverse
order
of
removal
9
@
1
Cover
2
Magnet
3
Cover
gasket
4
Filter
5
Gasket
6
Spring
retainer
7
Washer
8
O
ring
9
Inlet
valve
10
Retutn
PIing
11
Plunger
12
Plunger
cylinder
13
Body
To
carburetor
1
Elecuic
fuel
pump
2
Mounting
bracket
3
Fuel
mter
EF72D
Fig
EF
23
Electric
fuel
pump
DISASSEMBLY
Do
not
disassemble
unless
pump
is
faulty
I
Remove
cover
with
wrench
and
take
out
cover
gasket
magnet
and
filter
from
pump
body
2
When
removing
plunger
take
out
spring
retainer
from
plunger
tube
3
Then
take
out
washer
O
ring
inlet
valve
return
spring
and
plunger
from
tube
Note
Do
not
disassemble
electronic
components
If
n
replace
with
new
ones
6
EF721
Fig
EF
24
Exploded
view
of
electric
fuel
pump
EF
12
ASSEMBLY
I
Before
assembly
clean
all
parts
with
gasoline
and
compressed
air
com
pletely
Notes
a
If
gask
t
an
d
fdterare
faulty
r
place
b
Clean
magnet
and
cover
for
fault
c
Take
care
not
to
defonn
thin
tube
d
Assemble
plunger
return
spring
inlet
valve
O
ring
washer
and
set
spring
retainer
in
that
order
e
Assemble
filter
gasket
and
cover
with
f
Tighten
cover
with
wrench
to
the
stopper
If
component
parts
are
dirty
after
disassembly
clean
as
follows
Wash
fIlter
and
strainer
with
clean
gasoline
and
blow
with
compressed
air
When
cleaning
parts
check
fllter
for
fault
If
faulty
replace
Wash
plunger
plunger
cylinder
and
inlet
valve
with
clean
gasoline
and
blow
dust
off
with
compressed
air
2
Check
c
v
m
lI
parts
for
wear
or
damage
If
they
are
found
faulty
replace
them
3
Insert
plunger
assembly
into
plunger
cylinder
of
body
and
apply
electric
current
to
it
Move
the
assembly
up
and
down
If
the
assembly
does
not
move
it
shows
that
the
electric
uuit
is
faulty
and
it
must
be
replaced
Page 120 of 537
ELECTRIC
AUTOMATIC
CHOKE
Checklna
automatic
choke
heater
circuit
with
function
test
connector
Caution
Do
not
altach
test
leads
of
a
circuit
tester
to
those
other
than
designated
Refer
to
figure
Ef
43
I
With
engine
not
running
check
for
continuity
between
A
and
B
as
shown
in
figure
Ef
43
If
continuity
exists
heater
is
func
tioning
properly
If
continuity
d
s
not
exist
check
for
disconnected
connector
or
open
P
T
e
heater
circuit
2
With
engine
running
at
idle
check
for
presence
of
voltage
across
A
and
B
as
shown
in
figure
EF
43
If
voltmeter
reading
is
12
volts
d
c
heater
circuit
is
functioning
properly
If
vohmeter
reading
is
zero
check
for
disconnected
connector
open
circuit
or
faulty
automatic
choke
relay
3
Replace
faulty
parts
J
j
N
j
EF710
1
ignition
key
2
Automatic
choke
relay
Engine
stop
OFF
Engine
start
ON
3
Automatic
choke
heateI
4
Function
test
connector
5
Altema
tor
Fig
EF
43
Checking
oulomalic
choke
heater
circuit
with
fu
nc
non
led
connector
Engine
Fuel
Automatic
choke
I
Before
starting
engine
fully
de
press
al
celerator
pedaJ
to
ensure
that
choke
valve
doses
properly
Push
choke
valve
with
a
finger
and
heck
for
binding
3
Check
0
be
sure
that
bi
rnetal
cover
index
mark
is
set
at
the
cen
leT
of
choke
housing
index
mark
a
s
shown
in
Figure
EF
44
Note
Do
not
set
b
metal
cover
index
mark
at
any
position
except
the
center
of
choke
housing
index
marl
tE
jL
J
Thermostat
cover
Bi
metal
chamber
2
Thermostat
housing
3
Groove
ET034
Fig
EF
44
Bi
metol
tting
4
Check
automatic
choke
heater
source
wiring
for
proper
connection
then
start
engine
5
After
warming
up
the
engine
see
that
choke
valve
is
fully
open
6
If
automatic
choke
heater
source
wiring
is
normal
and
choke
valve
does
not
operate
after
warm
up
replace
hi
metal
co
t
er
Automatic
choke
relay
I
Remove
automatic
choke
relay
Auto
choke
heater
relay
EF278
Fig
EF
45
Location
of
automatic
choke
relay
EF
24
2
Make
an
operational
check
of
automatic
choke
relay
as
shown
in
Figure
EF
46
Apply
2
volts
d
c
across
termi
nals
I
and
3
to
ensure
that
i
ontinuity
exists
between
terminals
2
and
4
Check
t
lal
continuity
does
not
exist
between
terminals
2
and
4
when
no
voltage
is
applied
across
them
If
results
satisfies
the
above
automatic
choke
relay
is
functioning
properly
if
not
replace
choke
relay
1
2
3
y
4
EF723
Fig
EF
46
Checking
automatic
choke
relay
Automatic
choke
heater
I
Measure
resistance
of
choke
heater
as
shown
in
figure
EF
47
spe
ified
re
s
an
ce
is
3
7
to
8
9
ohms
F
EF261
Fig
EF
47
Automatic
choke
heater
check
2
If
measured
value
is
not
within
the
specification
replace
bi
metal
cover
INTERLOCK
OPENING
OF
PRIMARY
AND
SECONDARY
THROTnE
VALVE
Figure
EF
48
shows
primary
throt
tie
valve
opened
SO
When
primary
throtlle
valve
is
opened
50
the
adjust
plate
integrated
with
throttle
valve
is
in
contact
with
return
plate
at
A
Page 121 of 537
When
throttle
valve
is
opened
fur
ther
locking
arm
is
detached
from
secondary
throttle
arm
permitting
see
ondary
system
to
start
operation
Linkage
between
primary
and
see
ondary
throttles
will
function
properly
if
distance
between
throttle
valve
and
inner
wall
of
throttle
chamber
is
74
mm
0
291
in
Adjustment
is
made
by
bending
connecting
link
I
L
l
1
4
CAl
Secondary
prm
ary
I
Jl
I
7
t
@
1
Roller
4
Adjust
plate
2
Connecting
lever
5
Throttle
c
amber
3
Return
plate
6
Throttle
valve
Fig
EF
48
Adjusting
interlock
opening
DASH
POT
1
Idling
speed
of
engine
and
mix
ture
must
be
well
tuned
up
and
engine
sufficiently
warm
2
Turn
throttle
valve
by
hand
and
read
engine
speed
when
dash
pot
just
touches
stopper
lever
3
Adjust
position
of
dash
pot
by
turning
nut
until
engine
speed
is
in
the
specified
range
Specified
engine
speed
Manual
transmission
1
900
to
2
100
rpm
Automatic
transmission
1
650
to
1
850
rpm
4
Tighten
lock
nuts
5
Make
sure
that
engine
speed
drops
smoothly
from
2
000
to
1
000
rpm
in
about
three
seconds
Engine
Fuel
Fig
EF
49
Adjusting
dash
pot
ACCELERATING
PUMP
I
Visually
inspect
accelerating
pump
cover
for
any
sign
of
fuel
leaks
2
If
fuel
leaks
are
found
check
gasket
and
replace
if
necessary
ANTI
DIESELING
SOLENOID
VALVE
If
engine
does
not
stop
when
igni
tion
switch
is
turned
off
this
indicates
that
a
striking
closed
solenoid
valve
is
shutting
off
supply
of
fuel
to
engine
If
harness
is
in
good
condition
replace
solencid
valve
as
a
unit
Notes
a
Tightening
torque
is
1
8
to
3
5
kg
m
13
to
25
ft
Ib
b
After
replacement
star
engine
and
check
to
be
sure
that
fuel
is
not
leaking
and
that
anti
dieseling
sol
noid
is
in
good
condition
B
C
D
D
CIRCUIT
WITH
FUNCTION
TEST
CONNECTOR
Caution
Do
not
attach
test
leads
of
a
circuit
tester
to
those
other
than
designated
Refer
to
Figure
EF
50
Menuel
trensmlsslon
models
I
Check
for
continuity
between
A
and
B
when
vehicle
is
brought
to
a
complete
stop
Refer
to
Figure
EF
50
B
C
D
D
circuit
is
functioning
properly
if
continuity
exists
and
volt
meter
reading
is
0
volt
d
c
in
step
2
below
If
continuity
does
not
exist
check
for
disconnected
connector
and
or
faulty
amplifier
speed
detecting
switch
or
B
C
D
D
solenoid
valve
2
Check
for
presence
of
voltage
across
A
and
B
at
a
speed
of
more
than
16
km
h
10
MPH
Refer
to
Figure
EF
50
Conduct
this
test
by
one
of
the
following
two
methods
I
Raising
up
rear
axle
housing
with
stand
2
Chassis
dynamometer
test
If
voltmeter
reading
is
0
volt
at
a
speed
of
more
than
16
km
h
10
MPH
circuit
is
functioning
prop
erly
If
voltmeter
reading
is
not
0
volt
check
for
disconnected
connector
burned
fuse
faulty
amplifier
B
C
D
D
solenoid
valve
or
speed
detecting
switch
3
If
by
above
checks
faulty
part
or
unit
is
located
it
should
be
removed
and
tested
again
If
necessary
replace
1
P4
11
0
8
l
1
Ignition
Icey
2
Fuse
3
Amplifier
4
Speed
detecting
switch
Above
10
mph
OFF
Below
10
mph
ON
5
Function
test
connector
6
B
C
D
D
solenoid
valve
EF711
Fig
EF
50
Checking
B
C
D
D
circuit
with
function
test
connector
for
manual
transmission
EF
25
Page 158 of 537
Ignition
Switch
Position
START
Detector
Drive
Counter
E
G
R
Warning
Lamp
ON
b
After
completing
inspection
of
E
G
R
control
system
be
sure
to
reset
odometer
of
detector
drive
counter
to
zero
c
This
item
applies
to
all
620
models
except
those
bound
for
California
and
Canada
3
With
engine
stopped
inspect
E
G
R
control
valve
for
any
indication
of
binding
or
sticking
by
moving
dia
phragm
of
control
valve
upwards
with
a
finger
2
When
engine
coolant
tempera
ture
is
high
I
Make
sure
that
E
G
R
control
valve
operates
when
engine
speed
is
in
creased
from
idling
to
3
000
to
3
500
rpm
Place
a
fmger
on
the
diaphragm
of
E
G
R
control
valve
to
check
for
valve
operation
2
If
E
G
R
control
valve
does
not
operate
check
as
follows
Disconnect
one
end
E
G
R
control
valve
side
of
vacuum
hose
connect
ing
thermal
vacuum
valve
to
E
G
R
Emission
Control
System
ON
Below
50
000
counts
Above
50
000
counts
OFF
ON
4
With
engine
running
inspect
E
G
R
control
valve
and
thermal
vacuo
um
valve
for
normal
operation
1
When
engine
coolant
tempera
ture
is
low
Make
sure
that
E
G
R
control
valve
does
not
operate
when
engine
speed
is
increased
from
idling
to
3
000
to
3
500
rpm
Place
a
fmger
on
the
diaphragm
of
E
G
R
control
valve
to
check
for
valve
operation
EC253
Fig
EC
62
Checking
E
G
R
control
valve
control
valve
Increase
engine
speed
from
idling
to
3
000
to
3
500
rpm
Make
su
re
that
thermal
vacu
um
valve
is
open
and
that
carburetor
vacuum
is
present
at
the
end
E
G
R
control
valve
side
of
vacu
um
hose
If
vacuum
is
weak
or
not
present
at
all
replace
thermal
vacuum
valve
If
vacuum
is
present
replace
E
G
R
control
valve
EC
25
EC254
Fig
EC
63
Checking
lhermal
vacuum
valve
If
any
difficulty
is
encountered
in
judging
the
condition
of
any
compo
nent
during
above
inspection
check
the
questionable
component
independ
ently
as
follows
E
G
R
control
valve
Dismount
E
G
R
control
valve
from
engine
I
Apply
vacuum
to
E
G
R
control
valve
referring
to
the
following
figure
If
the
valve
moves
to
full
position
it
is
normal
E
G
R
control
valve
will
remain
open
for
more
than
30
seconds
after
vacuum
has
cut
off
la
ET152
Fig
EC
64
Checking
E
G
R
control
ualue
2
Visually
check
E
G
R
control
valve
for
damage
wrinkle
or
defonna
tion
3
Clean
the
seating
surface
of
E
G
R
control
valve
with
a
brush
and
compressed
air
and
remove
foreign
matter
from
around
the
valve
and
port
Page 173 of 537
OPERATION
When
the
ignition
switch
turned
fully
clockwise
to
the
START
posi
tion
battery
current
flows
through
series
and
shunt
coils
of
the
solenoid
magnetizing
the
solenoid
The
plunger
is
pulled
into
the
solenoid
so
that
it
operates
the
shift
lever
to
move
the
drive
pinion
into
the
flywheel
ring
gear
Then
the
solenoid
switch
contacts
close
after
the
drive
pinion
is
partially
engaged
with
the
ring
gear
Closing
of
the
solenoid
switch
contacts
c
uses
the
motor
to
crank
the
engine
and
also
cut
out
the
series
coil
of
the
solenoid
the
magnetic
pull
of
the
shunt
coil
being
sufficient
to
hold
the
pinion
in
mesh
after
the
shifting
has
been
performed
After
the
engine
starts
running
the
driver
releases
the
ignition
key
and
it
automatically
returns
to
the
ON
posi
tion
The
torsion
spring
then
actuates
the
shift
lever
to
pull
the
pinion
which
allows
the
solenoid
swi
tch
contacts
to
open
Consequently
the
starting
mo
tor
stops
Engine
Electrical
System
I
I
Ring
gear
2
Shift
lever
guide
3
Armature
4
Battery
5
Field
coil
6
Stationary
contact
7
Monble
contactor
More
positive
meshing
and
demeshing
of
the
pinion
and
the
ring
gear
teeth
are
secured
by
means
of
the
overrunning
clutch
The
overruIUling
clutch
employs
a
shift
lever
to
slide
the
pinion
along
the
armature
shaft
EE
6
F
l
cp
o
r
1
I
I
W
m
EE274
8
Shunt
coil
9
Plunger
10
Ignition
switch
11
Series
coil
12
Torsion
spring
13
Shift
lever
14
Pinion
Fig
EE
7
Starting
motor
circuit
into
or
out
of
mesh
with
the
ring
gear
teeth
The
overrunning
clutch
is
de
signed
to
transmit
driving
torque
from
the
motor
armature
to
the
ring
gear
but
prevent
the
armature
from
over
running
after
the
engine
has
started
Page 174 of 537
CONSTRUCTION
O
o
8
w
il
Engine
Electrical
System
V
1
Magnetic
switch
assembly
13
Brush
spring
jj
JI
2
Dust
cover
t4
Brush
Adjusting
washer
15
Yoke
P
3
Torsion
pring
t6
Field
coil
assembly
4
Shift
lever
17
Armature
assembly
5
Dust
cover
18
Center
plate
SI14
1808
only
6
Thrust
washer
19
Pinion
assem
bly
7
E
ring
20
Dust
cover
8
Rear
cover
metal
21
Pinion
stopper
9
Through
bolt
22
Stopper
clip
10
Rear
cover
23
Gear
case
tl
Brush
holder
assembly
24
Gear
case
metal
12
Brush
REMOVAL
Disconnect
battery
ground
cable
Disconnect
black
wire
with
yellow
stripe
from
magnetic
switch
terminal
and
black
battery
cable
from
battery
terminal
of
magnetic
switch
2
Remove
two
bolts
securing
start
ing
motor
to
transmission
case
Pull
starter
assembly
forward
and
remove
starting
motor
DISASSEMBLY
I
Disconnect
connecting
plate
from
M
terminal
of
magnetic
switch
Re
move
two
screws
securing
magnetic
switch
and
remove
magnetic
switch
assembly
2
Remove
dust
cover
E
ring
and
thrust
washer
s
EE317
@
@
O
Fig
EE
9
Remouing
dUlt
cover
E
ring
and
thrust
washer
s
3
Remove
two
screws
securing
brush
holder
assembly
EE318
Fig
EE
IO
Removing
brush
holder
d
crt
w
EE
7
S
4
f
I
jl
I
EE316
Fig
EE
B
Exploded
view
of
starting
motor
4
Remove
two
through
bolts
and
rear
cover
5
Remove
b
rushes
from
their
hold
er
by
moving
each
brush
spring
away
from
brush
with
a
hook
Remove
brush
holder
6
Remov
yoke
assembly
and
with
draw
armature
assembly
and
shift
lever
7
Remove
pinion
stopper
located
at
the
end
of
armature
shaft
To
remove
stopper
first
move
stopper
toward
pinion
and
after
removing
stopper
clip
remove
stopper
with
overrunning
clutch
assembly
from
armature
shaft
Pinion
stopper
Pinion
stopper
clip
EE277
Fig
EE
l1
Removing
pinion
stopper