check oil DATSUN PICK-UP 1977 Owner's Guide
Page 92 of 537
The
pump
shaft
is
supported
by
a
double
row
of
ball
bearings
press
fit
in
an
aluminum
die
cast
pump
body
The
bearings
are
permanently
lubricated
and
sealed
to
prevent
loss
of
lubricant
and
entry
of
dirt
The
pump
is
provided
with
an
impeller
which
turns
on
a
steel
shaft
The
steel
shaft
rotates
together
with
the
torque
coupling
wheeL
The
volute
chamber
is
built
in
the
engine
front
cover
assembly
The
inlet
of
the
pump
is
connected
to
the
radiator
s
lower
tank
by
a
hose
i
o
CQ047
Fig
CO
2
Water
pump
and
engine
front
cover
REMOVAL
AND
INSTALLATION
Removal
in
to
a
clean
con
assembly
I
CQ048
Fig
CO
3
Removing
water
pump
Installation
1
Be
sure
to
clean
the
gasket
sur
faces
in
contact
with
pump
and
front
cover
Always
use
new
gaskets
when
installing
pump
assembly
Be
sure
to
tighten
bolts
Cooling
System
Tightening
torque
0
4
to
0
5
kg
m
3
0
to
3
6
ft
lb
2
Fill
cooling
system
and
check
for
leaks
at
pump
3
Install
fan
blade
and
tighten
at
taching
bolts
securely
Install
belt
and
adjust
for
specified
tension
4
Operate
the
engine
at
fast
idling
and
recheck
for
leaks
5
Install
fan
shrouds
Note
Ensure
that
clearance
between
shroud
and
Can
is
even
at
any
place
DISASSEMBLY
Water
pump
is
made
of
aluminum
and
its
bearing
outer
race
is
of
a
press
fit
type
For
this
reason
water
pump
should
not
be
disassembled
INSPECTION
AND
ADJUSTMENT
Inspection
Inspect
pump
assembly
for
the
fol
lowing
conditions
and
replace
if
nee
essary
1
Badly
rusted
or
corroded
body
as
sembly
and
vane
2
Excessive
end
play
or
roughness
of
bearings
in
operation
3
Reduced
cooling
efficiency
due
to
deteriorated
silicone
oil
4
Oil
leakage
in
torque
coupling
Adjustment
Fan
belt
should
be
properly
ad
justed
at
all
times
A
tight
belt
causes
wear
of
alternator
and
water
pump
bearings
A
loose
belt
brings
about
improper
cooling
fan
water
pump
and
alternator
operation
Check
the
belt
slack
between
alter
nator
and
fan
pulley
by
force
of
10
kg
22
lb
Slackness
of
fan
belt
8
to
12
mm
0
31
to
0
47
in
If
adjustment
is
necessary
loosen
bolt
retaining
alternator
adjusting
bar
to
alternator
Move
alternator
toward
or
away
from
engine
until
the
correct
tension
is
obtained
TORQUE
COUPLING
Except
air
conditioner
equipped
models
The
torque
coupling
keeps
the
fan
speed
at
2
500
rpm
rated
or
below
to
conserve
horsepower
at
high
engine
speed
It
also
helps
reduce
fan
noise
to
a
minimum
during
high
speed
opera
tion
This
unit
is
filled
with
a
special
silicone
oil
used
as
a
fluid
coupling
which
controls
the
fan
speed
Silicone
oil
can
not
be
replenished
1
Torque
coupling
wheel
2
Torque
coupling
cover
3
Torque
coupling
bearing
4
Pulley
5
Water
pump
C0060
Fig
CO
4
Sectional
view
of
torque
coupling
and
water
pump
00
3
Page 94 of 537
Conventional
COUplin9
WATER
PUMP
SPEED
F
Z
Tern
coupling
WATER
PUMP
SPEED
C0029
Fig
CO
6
Characteristic
of
Tern
coupling
INSPECTION
Check
Tem
coupling
for
oil
leakage
or
bend
of
bimetal
If
the
above
symptoms
are
found
replace
it
with
a
new
one
as
an
assembly
THERMOSTAT
A
wax
pellet
type
thermostat
is
mounted
in
the
thermostat
housing
at
the
cylinder
head
water
outlet
The
function
of
the
thermostat
is
to
control
the
flow
of
coolant
facili
tating
fast
engine
warm
up
and
regu
lating
coolant
temperature
The
ther
mostat
is
designed
to
open
and
close
at
predetermined
temperatures
and
if
not
operating
properly
should
be
re
moved
and
tested
as
described
below
REMOVAL
AND
INSTALLATION
I
Drain
coolant
partially
2
Disconnect
upper
radiator
hose
at
water
outlet
3
Remove
bolts
and
remove
water
outlet
gasket
and
thermostat
from
thermostat
housing
Fig
CO
7
Removing
therm06t
t
Cooling
System
4
After
checking
thermostat
re
install
with
a
new
housing
gasket
in
place
5
Reinstall
water
outlet
6
Replenish
coolant
and
check
for
leaks
INSPECTION
A
sticking
thermostat
will
prevent
the
cooling
system
from
functioning
properly
If
the
thermostat
sticks
in
the
open
position
the
engine
warms
up
very
slowly
If
the
thermostat
sticks
in
the
closed
position
over
heating
will
result
Therefore
the
ther
mostat
should
be
inspected
to
make
sure
that
it
is
in
good
condition
1
Measure
coolant
temperature
when
thermostat
valve
starts
to
open
2
Measure
the
maximum
lift
of
thermostat
valve
Fig
CO
S
Impecting
therm06t
t
Temperate
Frigid
Tropical
type
type
iype
Valve
opening
80
5
to
83
5
86
5
to
89
5
75
to
78
temperature
177
to
183
187
to
193
167
to
172
oC
OF
Maximum
valve
lift
8
95
8
1
00
8
90
mm
oC
in
F
0
31
203
0
31
212
0
31
194
If
thermostat
does
not
operate
at
the
above
specified
temperature
it
must
be
replaced
because
it
cannot
be
repaired
RADIATOR
The
radiator
is
a
conventional
down
flow
type
having
top
and
bottom
tanks
to
distribute
the
coolant
flow
uniformly
through
the
vertical
tube
of
radiator
core
The
radiator
filler
cap
is
designed
to
maintain
a
pre
set
pressure
0
9
kg
cm2
13
psi
above
atmospheric
pressure
The
relief
valve
consisting
of
a
blow
off
valve
and
a
vacuum
valve
helps
to
prevent
the
coolant
from
boiling
by
giving
pressure
to
it
How
ever
when
the
pressure
is
reduced
below
atmospheric
pressure
the
vacu
um
valve
allows
air
to
re
enter
the
radiator
preventing
the
formation
of
a
vacuum
in
the
cooling
system
CO
5
On
models
equipped
with
auto
matic
transmission
the
oil
cooler
is
combined
with
the
radiator
to
cool
transmission
fluid
REMOVAL
AND
INSTALLATION
Drain
coolant
into
a
clean
con
tainer
2
Disconnect
radiator
upper
and
lower
hoses
On
models
with
auto
matic
transmissions
disconnect
cooler
inlet
and
outlet
lines
from
radiator
3
Remove
fan
shroud
retaining
bolts
and
remove
fan
shroud
4
Remove
front
grille
5
Remove
radiator
retaining
bolts
and
then
remove
radiator
upward
6
Install
radiator
in
the
reverse
se
quence
of
removal
Note
the
fol
lowing
I
Insert
hoses
in
their
positions
until
they
bottom
2
Ensure
that
arrow
marks
on
hoses
are
clearly
visible
from
upper
Page 95 of 537
r
direction
when
hoses
are
assembled
3
Ensure
that
clearance
between
radiator
hose
and
any
adjacent
parts
is
30
mm
I
181
in
minimum
On
mod
els
equipped
with
air
conditions
a
minimum
clearance
of
18
mm
0
709
in
should
exist
between
compressor
and
hose
4
Ensure
that
clearance
between
shroud
and
fan
is
even
at
any
place
Note
Be
careful
not
to
damage
radia
tor
fins
and
core
tube
when
in
stalling
INSPECTION
Radiator
cap
should
be
checked
for
working
pressure
at
regular
tune
up
intervals
First
check
rubber
seal
on
cap
for
tears
cracks
or
deterioration
Cooling
System
after
cleaning
it
Then
install
radiator
cap
on
a
tester
If
cap
does
not
hold
or
will
not
release
at
the
specified
pres
sure
replace
cap
Fig
CO
9
Telting
radiator
cap
Also
inspect
radiator
for
leakage
using
cap
tester
and
applying
a
pres
sure
of
1
6
kg
cm
22
8
psi
If
a
leakage
is
detected
repair
or
replace
radiator
Fig
CO
IO
Testing
cooling
6ystem
pUS
ure
SERVICE
DATA
AND
SPECIFICATIONS
Thermostat
Valve
opening
temperature
oC
F
Maximum
valve
lift
mm
oC
inj
F
Radia
tor
Type
Manual
transmission
Automatic
transmission
Cap
relief
pressure
Cooling
system
Leakage
testing
pressure
Capacity
Manual
transmission
Automatic
transmission
Fan
Number
of
blades
x
outer
diameter
Without
air
conditioner
mm
in
With
air
conditioner
mm
in
kg
em
psi
kg
em
psi
liters
US
qt
Imp
qt
liters
US
qt
Imp
qt
CO
6
Temperate
Frigid
type
Tropical
type
type
80
5
to
83
5
86
5
to
89
5
75
to
78
177
to
183
187
to
193
167
to
172
8
95
8
100
8
90
0
31
203
0
31
212
0
31
194
Corrugated
fin
type
Corrugated
fin
type
equipped
with
oil
cooler
0
9
1
3
1
6
22
8
with
heater
8
0
8
Ii
7
7
8
8
Y
6
J
i
without
heater
74
7J
i6
1i
7
2
7
X
6
X
7
x
380
15
8
x
380
15
Page 96 of 537
Condition
Loss
of
water
Poor
circulation
Corrosion
Overheating
Overcooling
Cooling
System
TROUBLE
DIAGNOSES
AND
CORRECTIONS
Probable
cause
Damaged
radiator
seams
Leaks
at
heater
connections
or
plugs
Leak
at
water
temperature
gauge
Loose
joints
Damaged
cylinder
head
gasket
Cracked
cylinder
block
Cracked
cylinder
head
Loose
cylinder
head
bolts
Restriction
in
system
Insufficient
coolant
Inoperative
water
pump
Loose
fan
belt
Inoperative
thermostat
Excessive
impurity
in
water
Infrequent
flushing
and
draining
of
system
Inoperative
thermostat
Radiator
fin
choked
with
mud
chaff
etc
Incorrect
ignition
and
valve
timing
Dirty
oil
and
sludge
in
engine
Inoperative
water
pump
Loose
fan
belt
Restricted
radiator
Inaccurate
temperature
gauge
Impurity
in
water
Inoperative
thermostat
Inaccurate
temperature
gauge
CO
7
Corrective
action
Repair
Repair
Tigh
ten
Tighten
Replace
Check
engine
oil
for
contamination
and
refill
as
necessary
Replace
Check
engine
oil
in
crankcase
for
mixing
with
water
by
pulling
oil
level
gauge
Replace
Tighten
Check
hoses
for
crimps
and
clear
the
system
of
rust
and
sludge
by
flushing
radiator
Replenish
Replace
Adjust
Replace
Use
soft
clean
water
Rain
water
is
satis
factory
Cooling
system
should
be
drained
and
flushed
periodically
Permanent
anti
freeze
Ethylene
glycol
base
can
be
used
through
out
the
seasons
of
the
year
and
change
periodically
at
intervals
recommended
Replace
Clean
out
air
passage
thoroughly
by
using
air
pressure
from
engine
side
of
radiator
Adjust
Refill
Replace
Adjust
Flush
radiator
Replace
Use
soft
clean
water
Replace
Replace
Page 106 of 537
4
Run
the
engine
at
varying
speeds
5
The
pressure
gauge
indicates
static
fuel
pressure
in
the
line
The
gauge
reading
should
be
within
the
following
range
0
21
to
0
27
kg
em2
3
0
to
3
8
psi
Note
If
the
fuel
in
carburetor
float
chamber
has
run
out
and
engine
has
stopped
clip
and
pour
fuel
into
carburetor
Fasten
clip
secure
ly
and
repe
1
static
pressure
test
Pressure
below
the
lower
limit
indi
cates
extreme
wear
on
one
part
or
a
small
amount
of
wear
on
each
working
part
It
also
indicates
ruptured
dia
phragm
worn
warped
dirty
or
gum
ming
valves
and
seats
or
a
weak
diaphragm
return
spring
Pressure
above
the
upper
limit
indicates
an
excessively
strong
tension
of
dia
phragm
return
spring
or
a
diaphragm
that
is
too
tight
Both
of
these
condi
tions
require
the
removal
of
pump
assembly
for
replacement
or
repair
CAPACITY
TEST
The
capacity
test
is
made
only
when
static
pressure
is
within
the
specifications
To
make
this
test
pro
ceed
as
follows
1
Disconnect
pressure
gauge
from
T
connector
and
in
its
vacant
place
install
a
suitable
container
as
a
fuel
sump
2
Run
engine
at
1
000
rpm
3
The
pump
should
deliver
1
000
cc
2
11
US
pt
of
fuel
in
one
minute
or
less
If
little
or
no
fuel
flows
from
the
open
end
of
pipe
it
is
an
indication
that
fuel
line
is
clogged
or
pump
is
malfunctioning
REMOVAL
AND
DISASSEMBLY
Remove
fuel
pump
assembly
by
unscrewing
two
mounting
nuts
and
disassemble
in
the
following
order
1
Separate
upper
body
and
lower
body
by
unscrewing
body
set
screws
Engine
Fuel
2
Take
off
cap
and
cap
gasket
by
removing
cap
screws
3
Unscrew
elbow
and
connector
4
Take
off
valve
retainer
by
un
screwing
two
retainer
screws
and
re
move
two
valves
5
To
remove
diaphragm
press
down
its
center
against
spring
force
With
diaphragm
pressed
down
tilt
it
until
the
end
of
pull
rod
touches
the
inne
wall
of
body
Then
release
diaphragm
to
unhook
push
rod
Be
careful
during
this
operation
not
to
damage
diaphragm
or
oil
se
L
i
J
EFOO7
Fig
EF
20
Remouing
pull
rod
6
Drive
rocker
arm
pin
out
with
a
press
or
hammer
8
o
6
7
8
@
INSPECTION
I
Check
upper
body
and
lower
body
for
cracks
EF
10
I
fuel
pump
cap
2
Cap
gasket
3
Valve
packing
4
fuel
pump
val
e
assembly
S
Valve
retainer
6
Diaphragm
assembly
7
Diaphragm
spring
8
PuRro
9
Lower
body
seal
washer
10
Lower
body
seal
11
Inkl
connector
12
Outlet
connector
13
Rocker
arm
spring
14
Rocker
arm
I
S
Rocker
artyl
side
pin
16
Fuel
pump
packing
17
Spacer
fuel
pump
fo
cylinder
block
EF510
Fig
EF
21
Slruc
ure
of
fuel
pump
2
Check
valve
assembly
for
wear
on
valve
and
valve
spring
Blow
valve
assembly
with
brea
th
to
examine
its
function
Page 107 of 537
3
Check
diaphragm
for
small
holes
carcks
or
wear
4
Check
rocker
arm
for
wear
at
the
mating
portion
with
camshaft
5
Check
rocker
arm
pin
for
wear
A
worn
pin
may
cause
oil
leakage
6
Check
all
other
components
for
any
abnormalities
and
replace
if
neces
sary
DESCRIPTION
INSPECTION
REMOVAL
AND
INSTALLATION
DESCRIPTION
The
electric
fuel
pump
is
adopted
on
air
conditioner
equipped
models
Engine
Fuel
ASSEMBLY
Reverse
the
order
of
disassembly
Closely
observe
the
following
instruc
tions
L
Use
new
gaskets
2
Lubricate
rocker
ann
rocker
arm
link
and
rocker
arm
pin
before
installa
tion
3
To
test
the
function
proceed
as
follows
Position
fuel
pump
assembly
about
I
meter
3
3
ft
above
fuel
level
of
fuel
strainer
and
connect
a
pipe
from
strainer
to
fuel
pump
Operate
rocker
arm
by
hand
If
fuel
is
drawn
up
soon
after
rocker
arm
is
released
fuel
pump
is
functioning
properly
ELECTRIC
FUEL
PUMP
CONTENTS
EF
11
EF
11
EF
12
DISASSEMBL
Y
ASSEMBL
Y
TROUBLE
DIAGNOSES
AND
CORRECTIONS
EF
12
EF
12
The
silicon
transistor
type
fuel
pump
consists
of
a
transistor
diodes
a
sole
I
Tr
lOsistor
6
Ou
tIet
valve
2
Plunger
7
Return
spring
3
Diaphragm
8
Filter
4
Diode
9
Magnet
5
Magnet
coil
10
Inlet
valve
INSPECTION
I
Disconnect
fuel
hose
at
pump
outlet
2
Connect
a
suitable
hose
approxi
mately
6
mm
0
24
in
inner
dia
meter
to
pump
outlet
ev
J
J
Note
If
diameter
is
too
small
the
following
proper
delivery
capacity
cannot
be
obtained
even
if
pump
functions
properly
EF
11
EF
13
noid
a
pump
mechanism
and
filter
parts
I
T
nsistor
2
Re
ist
f
I
3
Dinde
4
Signal
coil
5
Main
coil
6
Resistor
3
7
Zener
dlOdl
8
Resistor
2
EF719
Fig
EF
22
Construction
of
electric
fuel
pump
3
With
hose
outlet
in
a
higher
posi
tion
than
pump
operate
pump
and
check
delivery
capacity
for
more
than
15
seconds
4
The
capacity
should
be
I
400
cc
Page 135 of 537
There
are
three
types
of
control
system
These
are
J
Closed
type
CIllnkcase
emission
control
system
Emission
Control
System
of
GENERAL
DESCRIPTION
2
Exhaust
emission
control
system
3
Evaporative
ell
lhsion
control
sys
tem
Pericxiic
inspection
and
required
seCV1Clng
of
these
systems
should
be
carried
out
to
reduce
harmful
emis
sions
to
a
minimum
CRANKCASE
EMISSION
CONTROL
SYSTEM
c
01
Lkf
If
1
TIL
II
tll
1
j
GUuuu
DESCRIPTION
This
system
returns
blow
by
gas
to
both
the
intake
manifold
and
carbure
tor
air
cleaner
The
positive
crankcase
ventilation
p
C
V
valve
is
provided
to
conduct
crankcase
blow
by
gas
to
the
intake
manifold
During
partial
throttle
operation
of
the
engine
the
intake
manifold
sucks
the
blow
by
gas
through
the
P
C
V
valve
Normally
the
capacity
of
the
valve
is
sufficient
to
handle
any
blow
by
and
a
small
amount
of
ventilating
air
4
c
Fresh
air
Blow
by
gas
The
ventilating
air
is
then
drawn
from
the
dust
side
of
the
cadlUretor
air
cleaner
tluough
the
tube
con
necting
carburetor
air
cleaner
to
rock
er
cover
into
the
crankcase
Under
full
tluottle
condition
the
manifold
vacuwn
is
insufficient
to
draw
the
blow
by
flow
tluough
the
valve
and
its
flow
goes
through
the
tube
connection
in
the
reverse
diree
tion
On
vehicles
with
an
excessively
high
blow
by
some
of
the
flow
will
go
through
the
tube
connection
to
carbu
retor
air
cleaner
under
all
conditions
1
Sealtypc
oil
level
gauge
2
Bame
plate
3
Flame
arrester
4
Filler
5
P
C
Y
valve
6
Steel
net
7
Bame
plate
EC716
Fig
EC
l
Crankcase
miaion
control
ay
tem
EC
2
INSPECTION
P
c
V
VALVE
AND
FILTER
Checking
P
C
V
valve
in
accord
ance
with
the
following
method
With
engine
running
at
idle
remove
the
ventilator
hose
from
P
C
V
valve
if
the
valve
is
working
a
hissing
noise
will
be
heard
as
air
passes
through
the
valve
and
a
strong
vacuwn
should
be
felt
immediately
when
a
fmger
is
placed
over
valve
inlet
Replace
P
C
V
valve
and
filter
in
accordance
with
the
maintenance
schedule
VENTILATION
HOSE
1
Check
hoses
and
hose
connec
tions
for
leaks
2
Disconnect
all
hoses
and
clean
with
compressed
air
If
any
hose
cannot
be
free
of
obstructions
replace
Ensure
that
flame
arrester
is
surely
inserted
in
hose
between
air
cleaner
and
rocker
cover
Page 140 of 537
REMOVAL
AND
INSTAUATION
Emission
Control
System
EC533
Remove
snap
ring
D
and
lock
bolt
@
and
the
following
parts
can
be
detached
from
heat
control
valve
shaft
Key
00
Counterweight
@
TherI
lostat
spring
CID
Coil
spring
@
Note
As
previously
descnoed
heat
control
valv
1
is
welded
to
valve
shaft
@
at
exhaust
manifold
and
cannot
be
disassembled
To
install
reverse
the
removal
pro
cedure
INSPECTION
I
Run
engine
and
visually
check
counterweight
to
see
if
it
operates
properly
1
For
some
time
after
starling
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
3
When
heat
con
trol
valve
is
in
the
full
open
position
coun
terweight
moves
further
clockwise
exceeding
the
1
Snap
ring
2
Lock
bolt
3
Key
4
Counterweight
5
Thermostat
spring
6
Coil
spring
7
Heat
control
valve
8
Valve
shaft
9
Stove
gasket
10
Manifold
stove
11
Heat
shield
plate
Fig
EC
5
Exploded
view
of
E
F
E
stem
position
described
in
1
1
above
and
stops
again
coming
into
con
tact
with
stopper
pin
j
EC246
1
Counterweight
2
S
topper
pin
3
Heat
control
valve
Fig
EC
6
Operation
of
counterweight
when
engine
is
cold
EC246
1
Counterweight
2
Stopper
pin
3
Heat
control
valve
Fig
EC
7
Operation
of
counterw
ight
when
ngine
is
hot
EC
7
2
With
engine
stopped
visually
check
E
F
E
system
for
the
following
items
1
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
by
a
finger
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
DESCRIPTION
The
spark
tirnin
control
system
serves
to
control
the
distributor
vacu
um
advance
under
varying
travelling
conditions
so
as
to
reduce
HC
and
NOx
emissions
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
immediately
upon
deceleration
The
valve
is
designed
for
one
way
opera
tion
and
consists
of
a
one
way
umbrel
la
valve
and
sinlered
steel
fluidic
restrictor
Page 141 of 537
Emission
Control
System
C
bur
tor
I
EC284
When
installing
this
valve
ensure
that
it
properly
oriented
Tlus
valve
shuuld
be
replaced
periodically
Refer
to
Maintenance
Schedule
Note
Carburetor
side
Black
DisInDutor
side
Brown
horn
distributor
To
carburetor
TOdi
ribUI0
carburClor
EC
lCiJr
Fig
EC
9
Operation
01
park
delay
value
INSPECTION
Remove
spark
delay
valve
2
Blow
air
through
port
on
carbure
tor
side
then
through
the
other
port
on
distributor
side
Spark
delay
valve
Distributor
side
1
One
way
umbrella
valve
2
Sintered
metal
disc
Fig
EC
8
Spark
delay
valve
is
in
good
condition
if
when
finger
is
placed
over
port
on
distributor
side
air
flow
resistance
is
greater
than
that
on
the
other
side
See
Figur
ET
lO
3
If
a
considerable
air
flow
resist
ance
is
fell
at
port
on
distributor
side
in
step
2
above
and
if
the
condition
of
spark
delay
valve
is
questionable
dip
port
on
carburetor
side
into
a
cup
filled
with
water
Blow
air
through
the
other
port
Small
air
bubbles
should
appear
Carburetor
side
Distributor
side
EC346
Fig
EC
IO
Checking
park
delay
valve
EC
8
EC219
Fig
EC
11
Checking
spark
d
tay
valve
Note
Be
careful
to
avoid
entry
of
oil
or
dirt
into
valve
AIR
INJECTION
SYSTEM
DESCRIPTION
The
Air
Injection
System
A
LS
is
aeSigiieino
iiiject
coin
pressed
air
sec
ODllary
air
corning
from
the
air
pump
into
the
exhaust
manifold
to
reduce
hydrocarbons
and
carbon
monoxide
in
exhaust
lri
s
through
re
combustion
There
are
two
types
of
A
I
S
One
type
is
mounted
on
California
models
and
the
other
is
on
non
California
models
The
non
California
type
con
sists
of
an
air
pump
air
cleaner
an
air
pump
a
relief
valve
a
check
valve
an
anti
backfIre
valve
an
air
gallery
and
hoses
The
California
type
has
in
addition
to
the
components
of
the
non
California
type
an
air
control
valve
and
an
emergency
air
relief
valve
These
valves
prevent
ahnonnal
tem
perature
rise
of
the
catalytic
converter
Page 147 of 537
9
From
air
pump
l
h
1
Not
actuated
REMOVAL
AND
INSTALLATION
Air
p
mp
sir
cleaner
Remove
air
hose
then
detach
air
cleaner
from
hoodledge
Air
cleaner
element
and
Ii
r
deancr
lower
body
are
built
into
a
unit
construction
Replace
air
cleaner
clcl
nen
and
lower
body
as
an
assembly
J
J
tt
c
t
o
J
EC
323
Fig
EC
26
Replacing
oir
cleaner
element
Air
pum
Remove
air
hoses
from
air
pump
2
Loosen
air
pump
adjusting
bar
mounting
bolts
and
air
pump
mount
ing
bolts
then
remove
air
pump
drive
bell
3
Remove
air
pump
pulley
4
Remove
air
pump
from
bracket
Air
control
valve
California
models
l
Disconnect
air
hoses
and
a
vacu
um
hose
from
air
control
valve
2
Remove
air
con
trol
valve
from
bracket
E
A
R
valve
California
modela
Remove
vacuum
pipe
and
air
hose
and
dismount
E
A
R
valve
Emission
Control
System
o
jJ
To
Intake
mamfold
rF
vacuum
r
To
air
cleaner
From
air
pump
EC781
Fig
EC
27
Locotion
of
E
A
R
wive
Antl
backflravalve
Disconnect
air
hose
and
vacuum
hose
from
anti
backfire
valve
Check
valve
Disconnect
hose
and
remove
check
valve
from
air
gallery
pipe
Air
ganery
pIpe
andinJactlon
nozzles
It
is
very
difficult
to
remove
the
air
gallery
from
the
exhaust
manifold
without
bending
the
pipe
which
could
result
in
fractures
or
leakage
There
fore
removal
of
the
air
gallery
pipe
and
injection
nozzles
should
be
under
taken
only
when
they
are
damaged
I
Lubricate
around
the
connecting
portion
of
air
injection
nozzle
and
air
gallery
with
engine
oil
2
Hold
air
injection
nozzle
hexagon
head
with
a
wrench
and
unfasten
flare
screw
connecting
ait
gallery
to
injec
tion
nozzle
Remove
air
gallery
EC
14
To
intake
manifold
vaCUl
lm
r
Y
4
9
Gf
T
I
To
air
cleaner
I
Actuated
EC299
Fig
EC
25
Operation
of
air
control
value
Notes
a
Apply
engine
011
to
rews
several
times
during
above
work
b
Be
atreful
not
to
damage
other
parts
3
Unfasten
air
injection
nozzle
from
cylinder
head
applying
engine
oil
to
screwed
portion
several
times
4
Check
air
gallery
and
nozzle
for
fractures
or
leakage
Clean
air
injection
nozzle
with
a
wire
brush
5
At
time
of
installation
hold
air
injection
nozzle
hexagon
head
with
a
wrench
and
tighten
air
gallery
flange
screw
to
a
torque
of
5
0
to
5
9
kg
m
36
to
43
ft
lb
6
Check
cylinder
head
air
injection
nozzle
and
air
gallery
for
leaks
with
engine
running
Air
pump
relief
vslve
Loosen
carburetor
air
cleaner
mounting
sc
ews
and
remove
air
pump
relief
valve
InstallatIon
Install
in
the
reverse
order
of
reo
moval
DISASSEMBLY
AND
ASSEMBLY
Disassembly
of
air
pump
1
Remove
four
pulley
drive
bolts
and
remove
pulley
from
hub
2
Secure
air
pump
drive
hub
in
a
vise
as
shewn
in
Figure
EC
28
and
remove
four
end
cover
bolts