fuel filter DATSUN PICK-UP 1977 User Guide
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 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 109 of 537
Engine
Fuel
TROUBLE
DIAGNOSES
AND
CORRECTIONS
Condition
Fuel
pump
fails
to
operate
Fuel
pump
fails
to
discharge
sufficient
flow
Insufficient
fuel
discharge
during
high
speed
travelling
Low
float
level
at
idling
Fuel
pump
is
actuated
more
frequently
than
under
normal
condi
tion
Rattling
noise
Probable
cause
Terminals
or
connections
loose
Rust
on
terminals
or
grounding
metal
Frozen
liquid
in
plunger
or
pump
Clogged
filter
Insufficient
fuel
Air
in
fuel
hose
through
connections
Hose
necked
down
or
bent
Fuel
tank
breather
tube
bent
or
necked
down
Weakened
return
spring
Air
sucked
through
connection
fuel
hose
and
fuel
pump
joint
Fuel
hose
on
suction
side
bent
Clogged
fIlter
Mounting
bolts
loose
EF
13
Corrective
action
Retighten
Clean
Clean
plunger
assembly
Replace
pump
if
plunger
is
stuck
or
seized
Clean
pump
interior
Clean
and
if
necessary
replace
fIlter
Replenish
Apply
a
coating
of
end
sealing
compound
to
connections
and
retighten
Check
and
correct
Check
and
correct
Replace
Apply
a
coating
of
end
sealing
compound
to
connection
and
retighten
Check
and
correct
Clean
or
replace
fIlter
Retighten
Page 111 of 537
tZrJ
I
Fuel
nipple
2
Fuel
filter
3
Needle
4
Float
S
Primary
main
jet
6
Idle
adjust
screw
7
I
die
hole
8
Primary
bypass
hole
9
Primary
throttle
valve
10
Primary
altitude
compensator
pipe
California
models
11
Secondary
altitude
compensator
pipe
California
models
Engine
Fuel
jli@
I
12
Air
bleed
13
Primary
slow
jet
14
Plug
15
Primary
slow
air
bleed
6
Primary
main
air
bleed
17
Primary
air
vent
pipe
8
Primary
main
nOlzle
Note
Do
not
remove
the
parts
marked
with
an
asterisk
PRIMARY
SYSTEM
Prlmar
main
s
stem
The
primary
main
system
is
a
Stromburg
type
Fuel
flows
as
shown
in
Figure
EF
25
through
the
main
jet
mixting
with
air
which
comes
in
from
the
main
air
bleed
and
passes
through
the
emulsion
tube
and
is
pulled
out
into
the
venturi
through
the
main
nozzle
IdUns
and
slow
s
stem
During
low
engine
speed
as
shown
in
Figure
EF
25
fuel
flows
through
the
slow
jet
located
on
rear
right
side
of
main
nozzle
mixing
with
air
com
ing
from
the
1st
slow
air
bleed
again
mixing
with
air
coming
from
the
2nd
slow
air
bleed
and
then
is
pulled
out
I
III
@
19
Choke
valve
20
Primary
small
venturi
21
High
speed
enricher
air
bleed
22
Richer
nozzle
23
Richer
jet
24
Secondary
air
vent
pipe
into
the
engine
through
the
idle
hole
and
bypass
hole
Adoption
of
the
submerged
type
of
slow
jet
eliminates
such
hesitation
as
occurs
on
sudden
deceleration
of
the
vehicle
Slow
economizer
system
obtains
smooth
deceleration
at
high
speeds
Small
opening
of
the
throttle
valve
at
idling
or
partial
load
creates
a
large
vacuum
pressure
in
the
intake
mani
fld
By
this
vacuum
pressure
fuel
is
measured
through
the
slow
jet
located
behind
the
main
jet
And
air
coming
from
the
1st
slow
air
bleed
is
mixed
with
fuel
in
the
emulsion
hole
This
mixture
is
further
mixed
and
atomized
with
air
coming
from
the
2nd
slow
air
bleed
The
atomized
mixture
is
supplied
to
the
engine
from
EF15
25
Secondary
main
nozzle
26
Secondary
small
enturi
27
D
C
D
D
a
sembly
28
Secondary
throttle
valve
EF722
Fig
EF
25
Sectional
view
of
carburetor
the
idle
hole
and
bypass
hole
via
the
sow
sysem
passage
Accele
atlns
mechanism
The
carburetor
is
equipped
with
the
piston
type
accelerating
mechanism
linked
to
the
throttle
valve
When
the
primary
throttle
valve
shown
in
Figure
EF
26
is
closed
the
piston
goes
up
and
fuel
flows
from
the
float
chamber
through
the
inlet
valve
into
the
space
under
the
piston
When
the
throttle
valve
is
opened
the
piston
goes
down
opening
the
outlet
valve
and
fuel
is
forced
out
through
the
injector
Page 126 of 537
Engine
Fuel
DISASSEMBLY
AND
ASSEMBLY
ff
C
oI
Q
f
@
ID
J
@
tJ
@
1
Lock
lever
2
Filter
set
screw
3
Fuel
filter
4
Fuel
nipple
5
Needle
valve
body
6
Needle
valve
7
Fuel
chamber
parts
8
Accelerating
pump
parts
9
Altitude
compensator
pipe
California
models
tng
ail
bleed
adJ
@
@1
@
A
Choke
chamber
B
Center
body
C
Throttle
chamber
I
J
@
EF725
EF30
11
High
speed
enricher
air
bleed
12
Choke
valve
13
Accelerating
pump
lever
14
Throttle
return
spring
15
Accelerating
pump
rod
16
Automatic
choke
cover
17
Automatic
choke
body
and
diaphragm
chamber
18
Richer
jet
19
Coasting
air
bleed
I
20
Primary
main
jet
21
Secondary
main
jet
22
Secondary
slow
air
bleed
23
Secondary
slow
jet
24
Plug
25
Air
bleed
26
Coasting
jet
27
Secondary
main
air
bleed
28
Power
valve
29
Primary
main
air
bleed
30
Plug
31
Primary
slow
jet
32
No
2
primary
slow
air
bleed
33
Primary
and
secondary
small
venturi
34
Venturi
stopper
screw
35
Choke
connecting
rod
36
Anti
dieseling
solenoid
valve
37
Fast
idle
cam
38
Diaphragm
chamber
parts
39
Idle
limiter
cap
40
Idle
adjust
screw
41
Idle
adjust
screw
spring
42
Throttle
adjust
screw
3
Thr9ttle
dj
t
5Crew
spring
44
Primary
and
secondary
throttle
valve
45
B
C
D
D
California
models
46
Vacuum
control
solenoid
valve
47
B
C
D
D
Non
Califomia
models
Note
Do
not
remove
the
parts
marked
with
an
asterisk
Ill
@ff
Fig
EF
62
Carburetor
part
Page 128 of 537
Engine
Fuel
1
l
@
Vacuum
control
solenoid
valve
2
B
C
D
D
3
Coasting
jet
4
Secondary
slow
jet
5
ptug
6
Air
bleed
1
Secondary
slow
air
bleed
8
Secondary
main
air
bleed
9
Power
valve
10
Primary
main
air
bleed
11
Weight
and
outlet
valve
12
ptug
13
Primary
slow
jet
14
Ptirnar
slow
air
bleed
15
Accelerator
pump
assembly
16
AntkUeselingsolenoid
vain
17
Fast
idle
earn
18
Chok
e
connecting
rod
19
Fast
idle
earn
shaft
20
Ventuci
stopper
screw
21
Primary
and
secondary
small
venturi
Center
body
parts
Sets
Note
Do
not
remove
the
parts
marked
with
an
asterisk
It
EF726
Fig
EF
64
Removing
jets
Float
I
i
@
i
j
1
L
4
2
V
4
S
@
c
4
6
e4
11
Qll
1D
Yr
J
1
t
t
1
lil
c
@5
1
p
u
I
r
i
r
1
CJi
U
7
to1
8rtj
lv
Ji
JlJ
if
I
1
2
3
4
4
1
4
2
4
3
44
4
5
Hi
5
Secondary
main
jet
Primary
main
jet
Float
chamber
parts
Fuel
inlet
assembly
Lock
lever
Filter
set
screw
Fuel
f1Iter
Fuel
nipple
Needle
valve
body
Needle
valve
Diaphragm
chamber
aiSembly
EF227
Fig
EF
65
Removing
float
EF
32
Page 130 of 537
CLEANING
AND
INSPECTION
Dirt
gum
wuler
or
l
arbon
con
taminatiun
in
or
on
exterior
moving
parts
of
a
arburctor
arc
often
respon
sihk
for
unsatisfactory
performance
For
this
reason
efficient
carbutetioll
dcpends
upon
careful
cleaning
and
inspection
while
servicing
I
Blow
all
passages
and
castings
with
compressed
air
and
blow
off
all
parts
until
dry
Note
Do
not
pass
drills
or
wires
through
calibrated
jet
or
passaaa
as
this
may
enlarge
orirlce
and
seriously
affect
carburetor
calibrs
lion
2
Check
all
parts
for
wear
If
wear
is
noted
damaged
parts
must
be
re
placed
Note
especially
the
following
Engine
Fuel
I
Check
float
needle
and
seat
for
wear
If
wear
is
noted
assembly
must
be
replaced
2
Check
throule
and
choke
shaft
bores
in
throtlle
chamber
and
choice
chamber
for
wear
or
out
of
roundness
3
Inspect
idle
adjusting
needle
for
burrs
or
ridges
Such
a
condition
re
quires
replacemen
1
3
Inspect
gaskets
0
see
if
they
appear
hard
or
briUle
or
if
edges
are
torn
or
distorted
If
any
such
condi
tion
i
noted
they
must
be
replaced
4
Check
filter
screen
for
dirt
or
lint
Clean
and
if
screen
is
distorted
or
remain
plugged
replace
5
Check
linkage
for
operating
condition
6
Inspect
operation
of
accelerating
pump
Pour
f
el
into
jloat
chamber
and
make
throtlle
lever
operate
Check
condition
of
fuel
injection
from
the
EF
34
accelerating
nowe
7
Push
connecting
rod
of
dia
phragm
chamber
and
block
passage
of
vacuum
with
finger
When
connecting
rod
becomes
free
check
for
leakage
of
air
or
damage
to
diaphragm
Jets
Carburetor
performance
depends
on
jet
and
air
bleed
That
is
why
these
components
must
be
fabricated
with
utmost
care
To
clean
them
use
cleaning
solvent
and
blow
air
on
them
Larger
inner
numbers
tamped
on
the
jet
indicate
larger
diameters
Ac
cordingly
main
and
slow
jets
with
lalger
nUmbers
provide
richer
mixture
the
smaller
the
numbers
the
leaner
the
mixture
Conversely
the
main
and
slow
air
bleeds
through
which
air
to
passes
through
make
the
fueLleaner
if
they
bear
larger
numbers
the
smaller
the
numbers
the
richer
the
fuel
Page 163 of 537
3
Check
ignition
system
with
regard
to
the
following
items
Refer
to
Inspection
of
Ignition
System
1
Ignition
AMP
2
Distributor
Emission
Control
System
3
Ignition
coil
4
High
tension
code
5
Spark
plug
4
Check
idle
CO
adjustment
Refer
to
Inspection
of
Idle
CO
Adjustment
Note
Even
if
there
is
nothing
wrong
with
engine
the
warning
lamp
may
come
on
if
vebicle
is
being
driven
on
a
steep
slope
continuously
in
lower
gears
at
high
engine
speeds
EVAPORATIVE
EMISSION
CONTROL
SYSTEM
CONTENTS
DESCRIPTION
OPERATION
INSPECTION
FUEL
TANK
VAPOR
LIQUID
SEPARATOR
AND
VAPOR
VENT
LINE
DESCRIPTION
The
evaporative
emission
control
system
is
used
to
reduce
hydrocarbons
emitted
to
the
atmosphere
from
the
fuel
system
This
reduction
of
hydro
EC
30
EC
30
EC
31
CARBON
CANISTER
PURGE
CONTROL
VALVE
CARBON
CANISTER
FILTER
FUEL
TANK
VACUUM
RELIEF
VALVE
IEC
32
IEC
32
EC
32
EC
31
carbons
is
accomplished
by
activated
charcoals
in
the
carbon
canister
This
system
is
made
up
to
the
following
I
Fuel
tank
with
positive
sealing
filler
cap
@
2
Vapor
liquid
separator
3
Vapor
vent
line
4
Carbon
canister
5
Vacuum
signal
line
6
Canister
purge
line
5
OPERATION
Fuel
vapors
from
the
sealed
fuel
tank
are
led
into
the
carbon
canister
1
Fuel
tank
2
Fuel
nIler
cap
with
vacuum
relief
valve
3
liquid
vapor
separator
4
Vapor
vent
line
5
Canister
purge
line
6
Vacuum
signal
line
7
Carbon
canister
EF274
Fig
EC
76
Schematic
drawing
of
l
Iaporotive
emiaion
control6ydem
The
canister
is
fined
with
activated
charcoals
to
absorb
the
fuel
vapors
EC
30
when
the
engirie
is
at
rest
or
at
idlin
ll
See
Figure
EC
77
Page 164 of 537
J
1
Fuel
tank
2
Fuel
f1l1er
cap
with
vacuum
relief
valve
3
Liquid
vapor
separator
4
Vapor
vent
line
5
Vacuum
signalUne
As
the
throttle
valve
opens
and
vehicle
speed
increases
vacuum
pres
sure
in
the
vacuum
signal
line
forces
rHL
JL
I
EC785
INSPECTION
FUEL
TANK
VAPOR
LIQUID
SEPARATOR
AND
VAPOR
VENT
LINE
I
Check
all
hoses
and
fuel
tank
mler
cap
2
Disconnect
the
vapor
vent
line
connecting
carbon
canister
to
vapor
liquid
separator
3
Connect
a
3
way
connector
a
Emission
Control
System
Close
at
idling
Open
at
rest
i
J
17
f
Fuel
vapor
6
Canister
purge
line
7
Throttle
valv
8
Engine
9
Carbon
canister
10
Activated
carbon
11
Screen
12
Filter
13
Purge
control
valve
14
Spring
15
Diaphragm
16
Fixed
orifice
i
j
EC784
Fig
EC
77
Evaporative
emu
ion
control
sy
tem
Fuel
vapor
flow
when
engine
i6
at
red
or
idling
the
purge
control
valve
to
open
and
admits
an
orifice
to
intake
manifold
and
fuel
vapor
is
then
drawn
into
the
I
J
o
I
Fuel
vapor
Fresh
air
intake
manifold
through
the
canister
purge
line
See
Figure
EC
7B
Fig
EC
78
Evaporative
emiuion
control
system
Fuel
vapor
flow
when
engine
i
running
manometer
and
a
cock
or
an
equiva
lent
3
way
charge
cock
to
the
end
of
the
vent
line
4
Supply
fresh
air
into
the
vapor
vent
line
through
the
cock
little
by
little
until
pressure
becomes
368
mrnH20
14
5
inH20
5
Shut
the
cock
completely
and
leave
it
unattended
6
After
2
5
minutes
measure
the
height
of
the
liquid
in
the
manometer
7
Variation
of
height
should
remain
EC
31
with
25
mmH20
0
98
inH20
8
When
filler
cap
does
not
close
completely
the
height
should
drop
to
zero
in
a
short
time
9
I
f
the
height
does
not
drop
to
zero
in
a
short
time
when
filler
cap
is
removed
it
is
the
cause
of
a
stuffy
hose
Note
In
case
the
vent
line
is
stuffy
the
breathing
in
fuel
tank
is
not
thoroughly
made
thus
causing
in
Page 165 of 537
sufficient
delivery
of
fuel
to
engine
or
vapor
lock
It
must
therefore
be
1
3
connectur
COCk
Air
Manometer
Emission
Control
System
repaired
or
replaced
368
mmH20
14
5
inH20
LL
IPO
liqUid
epo
o
36
r
@
Carbon
canister
EC786
Fig
EC
79
Checking
evaporative
emmion
control
syatem
CARBON
CANISTER
PURGE
CONTROL
VALVE
Check
for
fuel
vapor
leakage
in
the
distributor
vacuum
line
at
diaphragm
of
carbon
canister
purge
control
valve
To
check
for
leakage
proceed
as
follows
I
Disconnect
rubber
hose
in
the
line
between
T
connector
and
carbon
canister
at
T
connector
2
Inhale
air
into
the
opening
of
rubber
hose
running
to
vacuum
hole
in
carbon
canister
and
ensure
that
there
is
no
leak
ET349
Fig
EC
so
Checking
carbon
canuter
purge
control
valve
3
If
there
is
a
leak
remove
top
cover
from
purge
control
valve
and
check
for
dislocated
or
cracked
dia
phragm
If
necessary
replace
dia
phragm
kit
which
is
made
up
of
a
retainer
a
diaphragm
and
a
spring
@
@
1
Cover
2
Diaphragm
3
Retainer
4
Spring
ET350
Fig
EC
81
Carbon
catU
ter
purge
control
valve
CARBON
CANISTER
FILTER
Check
for
a
contaminated
element
Element
can
be
removed
at
the
bottom
of
canister
installed
on
vehicle
body
EC
32
ET37Q
Fig
EC
s2
Replacing
carbon
canuter
filter
FUEL
TANK
VACUUM
RELIEF
VALVE
Remove
fuel
filler
cap
and
see
it
functions
properly
I
Wipe
clean
valve
housing
and
have
it
in
your
mouth
2
Inhale
air
A
slight
resistance
ac
companied
by
valve
indicates
that
valve
is
in
good
mechanical
condition
Note
also
that
by
further
inhaling
air
the
resistance
should
be
disappeared
with
valve
clicks
3
If
valve
is
clogged
or
if
no
resist
ance
is
felt
replace
cap
as
an
assem
bled
uni
t
l
u
ET369
Fig
EC
83
Fuel
filler
cap