checking oil DATSUN PICK-UP 1977 Owner's Guide
Page 316 of 537
CHECKING
SPEED
CHANGING
CONDITION
The
driver
s
feeling
during
gear
changes
should
also
be
checkedatten
tively
I
A
sharp
shock
or
unSffioothness
is
felt
during
a
gear
change
2
A
gear
change
is
made
with
a
long
and
dragging
feeling
These
indicate
that
the
tIuottle
pressure
is
too
low
or
some
valve
connected
to
the
throttle
is
faulty
h
k
100
1
1
2
I
2
J
I
1
2
I
I
I
2
3
oo
I
c
I
E
I
I
300
I
Z
5
L
mmHg
t
1
400
I
I
1
Output
shaft
speed
rpm
20
30
40
50
60
70
80
90100
00
io
3
0
40
0
60
Vehicle
speed
R
4
315
r
0
321
6
00
14
ATll0
Fig
AT
111
Shift
IChedule
Automatic
Transmission
SHI
SCHEDULE
500
CHECKING
ITEMS
DURING
km
hO
1O
SPEED
CHANGE
I
In
D
range
gear
changes
DI
D2
D3
are
effected
In
R
range
the
speed
does
not
increase
2
The
kickdown
operates
properly
3
By
moving
the
lever
from
D
to
I
gear
changes
D
2
1
2
1
are
effected
In
the
ranges
12
and
I
the
engine
braking
works
prop
erly
4
In
I
the
speed
does
not
in
crease
5
Should
be
quickly
fixed
at
2
range
6
In
P
vehicle
can
he
parked
properly
If
any
malfunction
occurs
in
second
gear
during
the
road
test
that
is
if
vehicle
shakes
drags
or
slings
while
shifting
up
from
D
directly
to
D
or
in
shifting
up
from
D
to
D2
the
brake
band
should
be
ad
justed
If
these
troubles
remain
after
the
brake
band
is
adjusted
check
the
servo
piston
seal
for
oil
leakage
MPH
Ii
io
LINE
PRESSURE
TEST
When
any
slipping
occurs
in
clutch
or
brake
or
the
feeling
during
a
speed
change
is
not
correct
the
line
pressure
must
be
checked
Measuring
line
pressure
is
done
by
a
pressure
gauge
attached
to
two
pres
sure
measuring
holes
after
removing
blind
plugs
located
at
transmission
case
See
Figure
AT
112
The
line
pressure
measurement
is
begun
at
idling
and
taken
step
by
step
by
enlarging
the
throttle
opening
I
A
sharp
shock
in
up
shifting
or
too
high
changing
speeds
are
caused
mostly
by
too
high
throttle
pressure
2
Slipping
or
incapability
of
opera
tion
is
mostly
due
to
oil
pressure
leakage
within
the
gear
trains
or
spool
valve
AT
S2
3
3SA
000
t
I
1
I
c
l
1
c
7
D
jf
o
CV
ATl13
1
Lige
pressure
2
Governor
feed
3
SerVo
release
pressure
Fig
AT
112
MeCJ
uring
line
preuure
Page 321 of 537
Automatic
Transmission
TROUBLE
SHOOTING
GUIDE
FOR
3N71B
AUTOMATIC
TRANSMISSION
Order
Test
item
Checking
Oil
level
gauge
2
Downshift
solenoid
3
Manuallinkage
L
4
Inhibitor
switch
5
Engine
idling
rpm
6
Vacuum
pressure
of
vacuum
pipe
7
Operation
in
each
range
8
Creep
of
vehicle
Stall
test
I
Oil
pressure
before
tesling
1
2
Stall
test
3
Oil
pressure
after
testing
Road
test
Slow
acceleration
I
st
2nd
2nd
3rd
2
Quick
acceleration
lst
2nd
2nd
3rd
3
Kick
down
operation
3rd
2nd
or
2nd
1st
Procedure
Check
gauge
for
oil
level
and
leakage
before
and
after
each
test
Check
for
sound
of
operating
solenoid
when
depressing
accelerator
pedal
fully
with
ignition
key
ON
Check
by
shifting
into
P
lR
IN
D
2
and
I
ranges
with
selector
lever
Check
whether
starter
operates
in
N
and
p
ranges
only
and
whether
reverse
lamp
operates
in
R
range
only
Check
whelher
idling
rpm
meet
standard
Check
whether
vacuum
pressure
is
more
than
450
mmHg
in
idling
and
whether
it
decreases
with
increasing
rpm
Check
whether
transmission
engages
positively
by
shifting
N
0
N
2
N
l
I
and
N
R
range
while
idling
with
brake
applied
Check
whether
there
is
any
creep
in
D
2
R
ranges
and
Measure
line
pressures
in
D
2
I
and
R
range
while
idling
Measure
engine
rpm
and
line
pressure
in
D
2
I
and
R
ranges
during
full
throttle
operati
n
Notes
a
Temperature
of
torque
converter
oil
used
in
test
should
be
from
600
to
1000C
1400
to
2120F
i
e
sufficiently
warmed
up
but
not
overheated
b
To
cool
oil
between
each
stall
test
for
D
2
I
and
R
ranges
idle
engine
i
e
rpm
at
about
1
200
rpm
for
more
than
1
minute
in
P
range
Measurement
time
must
not
be
more
than
5
seconds
Same
as
item
I
Check
vehide
speeds
and
engine
cpm
in
shifting
up
Ist
2nd
range
and
2nd
Jo3rd
range
while
running
with
lever
in
D
range
and
engine
vacuum
pressure
of
about
200
I11I1lHg
Same
as
item
1
above
except
with
engine
vacuum
pressure
of
0
mmHg
i
e
in
position
just
before
kickdown
Check
whether
the
kickdown
operates
and
measure
the
time
delays
while
running
at
30
40
50
60
70
km
h
18
25
30
37
43
MPH
in
D3
range
AT
57
Page 326 of 537
Automatic
Transmission
SPECIAL
SERVICE
TOOLS
No
Tool
number
tool
name
Description
For
use
on
Reference
page
or
Figure
No
Oil
pressure
gauge
set
3N71B
Fig
AT
11
2
and
3N71A
AfT
ST2S0SS001
Use
for
checking
hydraulic
pressure
SE119
2
ST07870000
Use
for
setting
transmission
3N71
B
Page
AT
36
AfT
Transmission
case
stand
SE120
3
ST2S850000
Use
for
removing
oil
pump
3N7IB
Fig
AT
S6
and
Sliding
hammers
3N71A
J
AfT
JIB
SE121
4
ST2S42000I
Use
for
assemblilJg
or
disassembling
front
and
rear
clutch
3N71B
Fig
AT
79
and
Fig
AT
86
Clutch
spring
3N7lA
compressor
AIT
SE
122
3N71B
Fig
AT
69
and
3N71A
AlT
Torque
wrench
Use
for
tightening
correct
torque
Max
torque
4
6
kg
m
0
33
ft
lb
Drive
angle
3
8
square
S
GG93010000
SE123
AT
62
Page 497 of 537
REFRIGERAi
H
R
12
COMPRESSOR
OIL
MAINTENANCE
PERIODIC
MAINTENANCE
AND
SEASON
IN
INSPECTION
GENERAL
SERVICE
INSTRUCTION
SAFETY
PRECAUTIONS
EV
ACUA
TlNG
AND
CHARGING
SYSTEM
HANDLING
MANIFOLD
GAUGE
HANDLING
SERVICE
VALVE
HANDLING
CAN
TAP
DISCHARGING
SYSTEM
REFRIGERANT
R
12
The
refrigerant
used
in
the
air
conditioner
is
generally
called
Re
frigerant
12
R
12
No
other
refrig
erant
than
the
above
refrigerant
should
be
used
This
refrigerant
is
usually
available
in
a
small
can
or
a
cylinder
In
either
case
it
is
liquefied
under
high
pressure
in
the
container
Refrigerant
evaporates
easily
has
a
low
evaporation
point
and
moreover
since
the
latent
heat
of
the
refrigerant
is
large
it
can
abSorb
a
large
amount
of
heat
wh
err
e
vaporating
Extreme
care
must
be
exercised
when
handling
the
refrigerant
COMPRESSOR
OIL
The
SUNISO
5GS
or
SUNISO
351
should
be
used
as
refrigeration
lubricant
Mixing
of
the
two
is
allowable
The
refrigeration
lubricant
should
be
used
to
assure
the
successful
com
pressor
operation
Use
of
oils
other
than
recommended
or
mixing
of
the
oil
with
other
oils
would
cause
chemical
reaction
or
lead
to
lowered
viscosity
or
deficient
lubrication
The
oil
absorbs
moisture
as
it
con
tacts
the
air
This
points
out
the
need
for
care
not
to
expose
it
to
atmos
phere
for
an
extended
period
of
time
Air
Conditioning
GENERAL
SERVICE
CONTENTS
EVACUATING
SYSTEM
CHARGING
REFRIGERANT
CHECKING
FOR
LEAKS
HALIDE
LEAK
DETECTOR
ELECTRIC
LEAK
DETECTOR
REFRIGERANT
LEVEL
CHECK
SIGHT
GLASS
PERFORMANCE
TEST
COMPRESSOR
OIL
LEVEL
CHECK
PERFORMANCE
TEST
REFRIGERANT
LEAKS
AC
8
AC
8
AC
8
AC
8
AC
8
AC
9
AC
9
AC
9
AC10
AC
11
AC
12
MAINTENANCE
PERIODIC
MAINTENANCE
AND
SEASON
IN
INSPECTION
Both
periodic
maintenance
and
season
in
inspection
are
most
essential
to
enable
the
air
conditioner
to
give
full
performance
Perform
the
following
checks
Start
engine
and
check
refrigerant
level
through
sight
glass
on
receiver
dryer
For
details
refer
to
relative
topics
under
Refrigerant
Level
Check
2
Check
the
entire
sysiein
for
sign
of
refrigerant
leaks
Refer
to
relative
topics
under
Checking
for
Leaks
and
Refrigerant
Leaks
If
any
trace
of
oil
is
noted
at
and
around
connection
fittings
it
is
a
sure
indication
that
refrigerant
is
leaking
This
condition
can
be
corrected
easily
by
retightening
the
joints
If
any
joint
on
line
is
suspected
of
small
amount
of
leakage
use
a
leak
detector
to
locate
leaking
points
3
Check
compressor
drive
belts
for
proper
deflection
Season
off
Observe
the
following
maintenance
tips
to
allow
the
air
conditioner
to
operate
normally
in
the
next
season
I
Keep
the
entire
system
free
from
AC
8
AC12
AC
13
AC15
AC15
AC16
AC
16
AC16
AC
17
AC17
AC
17
AC18
refrigerant
leakage
by
periodically
checking
for
refrigerant
gas
leak
even
out
of
season
2
Turn
the
compressor
for
10
minutes
at
least
once
a
month
by
running
the
engine
at
1
500
rpm
c
ENERAL
SERVICE
INSTRUCTION
The
servicing
of
the
air
conditioner
should
be
carried
out
only
by
well
trained
servicemen
This
chapter
de
scribes
essential
points
of
servicing
Jf
a
Jarge
amount
of
dirt
and
sand
enter
the
system
they
will
be
carried
with
refrigerant
and
may
clog
the
system
or
scratch
rotating
parts
This
points
out
the
need
for
care
in
servicing
the
system
That
is
disconnecting
joints
should
be
carried
out
in
a
dean
place
Water
should
not
be
allowed
to
get
inside
the
system
The
refrigerant
does
not
readily
mix
with
water
However
the
presence
of
even
a
minute
amount
of
water
will
cause
a
chemical
reaction
at
high
tem
perature
which
will
in
turn
produce
hydrochloric
acid
HCl
Since
hydrochloric
acid
is
highly
corro
sive
to
metals
the
aluminum
and
copper
piping
etc
will
become
corroded
and
the
refrigeration
system
will
become
clogged
Page 498 of 537
Water
in
the
system
will
ice
the
orifice
when
the
high
pressure
re
frigerant
is
changed
to
low
pressure
refrigerant
by
expansion
valve
etc
and
will
obstruct
the
refrigerant
flow
The
following
items
are
general
instructions
to
be
closely
observed
in
servicing
the
system
I
When
a
system
line
is
discon
nected
plug
the
opening
immediately
This
is
especially
necessary
to
prevent
moisture
condensation
from
forming
in
the
line
and
to
keep
out
dirt
and
dust
It
is
also
necessary
to
keep
the
line
at
and
above
surrounding
air
temperatures
at
all
times
When
con
necting
system
lines
do
not
attempt
to
remove
the
plug
from
the
opening
until
ready
for
immediate
use
2
Always
keep
the
working
place
clean
and
dry
and
free
from
dirt
and
dust
Wipe
water
off
with
a
clean
cloth
3
Have
all
necessary
tools
in
pre
paration
beforehand
and
have
tools
clean
and
dry
4
The
compressor
oil
will
easily
absorb
moisture
when
exposed
to
air
Immediateiy
close
the
opening
of
the
container
after
use
It
is
also
necessary
to
observe
the
following
notes
Notes
a
The
oil
should
not
be
transfused
from
a
container
into
another
as
the
failure
will
possibly
cause
mois
ture
to
mix
with
the
oil
b
The
used
oil
should
not
be
returned
into
a
container
c
The
oil
should
not
be
used
if
its
state
of
preservation
is
not
clear
enough
5
When
connecting
or
disconnect
ing
pipes
from
the
refrigeration
sys
tem
use
two
wrenches
One
wrench
is
used
for
holding
the
fixing
nut
in
place
while
the
other
for
turning
the
mating
flare
nut
Failure
to
do
so
may
result
in
a
twisted
tube
or
may
damage
connection
6
Also
use
care
not
to
give
scratches
to
the
seating
surface
at
connections
A
small
scratch
on
the
seating
surface
Air
Conditioning
may
be
the
cause
of
gas
leakage
Before
connecting
pipes
be
sure
to
give
coating
of
compressor
oil
to
the
sea
ting
surfaces
SAFETY
PRECAUTIONS
I
Since
direct
contact
of
the
liquid
refrigerant
with
your
skin
will
cause
frostbite
always
be
careful
when
handling
the
refrigerant
Wear
gloves
or
wrap
a
piece
of
cloth
around
service
valve
to
protect
your
fingers
against
frostbite
by
refrigerant
If
any
of
the
refrigerant
should
get
into
your
eyes
when
charging
the
refrigerant
splash
your
eyes
with
cool
water
to
raise
the
temperature
gradually
Apply
a
protec
tive
film
to
the
eye
to
avoid
infection
Do
not
rub
your
eyes
Consult
an
eye
specialist
Always
wear
goggles
or
glasses
to
protect
your
eyes
when
working
around
the
system
Should
refrigerant
strikes
your
body
splash
on
cool
water
and
apply
a
protective
film
2
The
refrigerant
service
container
has
a
safe
strength
However
if
han
dled
incorrectiy
it
wili
explode
Therefore
always
follow
the
instruc
tions
on
the
label
In
particular
never
stpre
it
in
a
hot
location
above
S20C
l250F
or
drop
it
from
a
high
height
3
The
refrigerant
gas
is
odorless
and
colorless
and
breathing
may
become
difficult
due
to
the
lack
of
oxygen
Since
the
refrigerant
gas
is
heavier
than
air
and
will
lay
close
to
the
floor
be
especially
careful
when
handling
it
in
small
confined
spaces
4
The
refrigerant
itself
is
nonflam
mable
However
a
toxic
gas
phosgene
gas
is
produced
when
it
contacts
fire
and
special
care
is
therefore
required
when
checking
for
leaks
in
the
system
with
a
halide
torch
5
Do
not
steam
clean
on
the
sys
tern
especially
condenser
since
exces
sively
high
pressure
will
build
up
in
the
system
resulting
in
explosion
of
the
system
The
above
precautions
are
essential
in
handling
of
Refrigerant
l
2
and
their
strict
observation
requires
suffi
AC
9
dent
training
Therefore
it
is
of
first
importance
that
any
other
personnel
than
a
well
trained
serviceman
should
not
be
allowed
to
handle
the
refrig
erant
EVACUATING
AND
CHARGING
SYSTEM
During
servicing
use
caution
to
keep
air
from
getting
into
refrigerant
When
air
enters
the
system
all
refriger
ant
must
be
evacuated
from
system
prior
to
charging
new
refrigerant
Air
in
refrigerant
has
the
following
delete
rious
effects
I
Since
the
condensation
tempera
ture
of
the
air
is
extremely
low
the
air
will
not
be
condensed
when
refrigerant
gas
is
condensed
in
the
condenser
and
the
air
will
thus
remain
in
gaseous
form
Consequently
the
effective
thermal
transmission
area
of
condenser
for
refrigerant
gas
will
be
red
uced
and
refrigerant
gas
to
be
condensed
will
be
red
ueed
The
pressure
rise
will
become
proportional
to
the
volume
of
the
air
in
system
2
When
air
and
refrigerant
are
mixed
in
system
a
chemical
reaction
will
be
produced
and
hydrochloric
acid
which
will
adversely
affect
the
aluminum
copper
iron
and
other
materials
in
system
may
be
generated
HANDLING
MANIFOLD
GAUGE
The
pressure
at
the
high
and
low
sides
of
system
should
be
measured
when
evacuating
and
charging
refrig
erant
and
when
diagnosing
trouble
in
the
system
The
manifold
gauge
is
used
for
these
purposes
A
manifold
gauge
has
two
pressure
gauges
a
low
pressure
gauge
and
a
high
pressure
gauge
These
gauges
are
connected
to
the
high
and
low
side
service
valves
of
system
through
flexible
charging
hoses
The
construction
of
manifold
gauge
is
shown
in
Figure
AC
13
When
valve
stem
is
fully
screwed
the
valve
is
front
seated
and
valve
path
and
the
center
path
are
blocked
When
valve
stem
is
backed
off
the
paths
are
opened
Page 501 of 537
DISCHARGING
SYSTEM
The
pressurized
refrigerant
gas
Ul
side
system
must
be
discharged
to
a
pressure
approaching
atmospheric
pressure
prior
to
evacuating
refrigerant
inside
system
This
operation
should
be
made
to
permit
safe
re
oval
when
replacing
system
components
I
Close
high
and
low
pressure
valves
of
manifold
gauge
fully
2
Connect
two
charging
hoses
of
manifold
gauge
to
their
respective
service
valves
3
Open
both
manifold
gauge
valves
slightly
and
slowly
discharge
refriger
ant
from
system
See
Figure
AC
17
Note
Do
not
allow
refrigerant
to
rush
out
Otherwise
compressor
oil
will
be
discharged
along
with
re
frigerant
AC735
Fig
AC
17
Discharging
system
Caution
Protect
fingers
with
cloth
against
frostbite
by
refrigerant
when
connecting
the
charging
hose
to
the
service
valve
or
disconnecting
it
therefrom
Air
Conditioning
EVACUATING
SYSTEM
1
Connect
high
and
low
pressure
charging
hoses
of
manifold
gauge
to
their
respective
service
valves
of
sys
tern
and
d
ischarge
refrigerant
from
system
Refer
to
Discharge
System
2
When
refrigerant
has
been
dis
charged
to
a
pressure
approaching
at
mospheric
pressure
connect
center
charging
hose
to
a
vacuum
pump
3
Close
both
valves
of
manifold
gauge
fully
Then
start
vacuum
pump
4
Open
low
pressure
valve
and
suck
old
refrigerant
from
ystem
See
Figure
AC
18
S
When
low
pressure
gauge
reading
has
reached
to
approximately
500
mm
Hg
20
in
Hg
slowly
open
high
pressure
valve
See
Figure
AC
19
6
When
pressure
inside
system
has
dropped
to
710
mm
Hg
28
in
Hg
fully
close
both
of
valves
of
manifold
gauge
and
stop
vacuum
pump
Let
stand
it
for
5
to
10
minutes
in
this
state
and
confirm
that
the
reading
does
not
rise
Notes
a
The
low
pressure
gauge
reads
lower
by
2S
mm
Hg
I
in
Hg
per
a
300
m
1
000
ft
elevation
Perform
evacu
ation
according
to
the
following
table
Elevation
m
ft
Vacuum
of
system
mm
Hg
in
Hg
0
0
300
I
000
600
2
000
900
3
000
710
28
68S
27
660
26
635
25
Note
Values
show
readings
of
the
low
pressure
gauge
AC
12
b
The
rate
of
ascension
of
the
low
pressure
gauge
should
be
less
than
2S
mm
Hg
I
in
Hg
in
five
min
utes
If
the
pressure
rises
or
the
specified
negative
pressure
can
not
be
obtained
there
is
a
leak
in
the
system
In
this
case
immediately
charge
system
with
refrigerant
and
repair
the
leak
de
scribed
in
the
following
I
Confirm
that
both
valves
of
manifold
gauge
are
fully
closed
and
then
disconnect
center
charging
hose
from
vacuum
pump
2
Connect
center
hose
to
can
tap
in
place
of
vacuum
pump
Attach
refrigerant
can
to
can
tap
and
pass
refrigerant
to
manifold
gauge
3
Loosen
the
connection
of
center
fitting
of
manifold
gauge
to
purge
air
from
center
hose
4
Open
low
pressure
valve
of
mani
fold
gauge
and
charge
refrigerant
into
system
After
one
can
about
0
4
kg
I
Ib
of
refrigerant
has
been
charged
into
system
close
low
pressure
valve
5
Check
for
refrigerant
leakage
with
a
leak
detector
Repair
any
leak
ages
found
Refer
to
Checking
for
Leaks
and
Refrigerant
Leaks
6
Confirm
that
both
valves
of
manifold
gauge
are
fully
closed
and
then
change
center
charging
hose
from
can
tap
to
vacuum
pump
7
Open
high
and
low
pressure
valves
and
operate
vacuum
pump
to
suck
refrigerant
from
system
When
the
pressure
in
system
has
dropped
to
710
mm
Hg
28
in
Hg
fully
close
both
valves
of
manifold
gauge
7
The
above
operation
completes
evacuation
of
system
Next
charge
refrigerant
Refer
to
Charging
Refrig
erant
Page 504 of 537
7
After
the
specified
amount
of
refrigerant
has
been
charged
into
sys
tem
close
manifold
gauge
valves
Then
detach
charging
hoses
from
service
valves
of
system
Be
sure
to
install
valve
cap
to
service
valve
8
Confirm
that
there
are
no
leaks
in
system
by
checking
with
a
leak
detec
tor
Refer
to
Checking
for
Leaks
Note
Conducting
a
performance
test
prior
to
removing
manifold
gauge
is
a
good
sen
ice
operation
Refer
to
Performance
Test
CHECKING
FOR
LEAKS
Conduct
a
leak
test
whenever
leak
age
of
refrigerant
is
suspected
and
when
conducting
service
operations
which
are
accompanied
by
disassembly
Dr
loosening
of
connection
fittings
Air
Conditioning
Refrigerant
is
a
colorless
odorless
gas
and
leakage
from
system
is
diffi
cult
to
detect
Accordingly
the
use
of
a
leak
detector
facilitates
check
for
leaks
Two
methods
of
checking
are
available
one
employs
a
halide
leak
detector
which
burns
propane
gas
or
butane
gas
and
the
other
is
an
electric
type
leak
detector
HALIDE
LEAK
DETECTOR
Since
the
propane
leak
detector
and
butane
leak
detector
are
the
same
in
respect
to
their
operation
this
section
describes
the
operation
of
the
propane
leak
detector
The
copper
screen
is
heated
by
the
burning
of
propane
Refrigerant
gas
decomposes
to
color
the
flame
when
it
contacts
the
heated
screen
The
gas
to
be
checked
is
drawn
into
the
sampling
tube
and
sent
out
to
the
burner
A
refrigerant
leak
can
clearly
be
detected
by
variations
in
the
color
of
the
flame
Propane
type
NO
LEAK
SMALL
LEAK
LARGE
LEAK
Greenish
blue
Yellow
Purple
AC010
1
Copper
reaction
plate
2
Flame
adjusting
lines
3
Burner
4
Sampling
tube
5
Strainer
6
Gas
bomb
7
Flame
adjuster
Fig
A
C
25
Checking
for
leak
Butane
type
Pale
blue
Bright
blue
Vivid
green
AC
15
I
Discharge
refrigerant
in
one
or
two
seconds
to
ascertain
that
system
has
a
sufficient
pressure
needed
for
leak
detection
Charge
with
04
kg
I
lb
of
refrigerant
if
necessary
2
Light
leak
detector
Adjust
the
height
of
the
ilame
between
flame
adjusting
lines
at
the
top
and
bottom
of
combustion
tube
A
reaction
plate
will
immediately
become
red
hot
3
Place
the
end
of
sampling
tube
near
the
point
of
the
suspected
leak
in
system
Notes
a
Since
refrigerant
gas
is
heavier
than
air
small
leaks
can
b
easily
detect
ed
by
placing
sampling
tube
direct
ly
below
the
check
point
b
Suitable
ventilation
is
required
If
refrigerant
gas
is
mixed
with
the
surrounding
air
leak
detector
will
always
indicate
a
response
and
detection
of
the
actual
leak
will
be
difficult
c
Never
bold
leak
detector
at
an
angle
Cautions
a
Never
inhale
the
fumes
produced
by
combustion
of
refrigerant
gas
since
they
are
toxic
b
Never
use
halide
torch
in
a
place
where
combustible
or
explosive
gas
is
present
4
The
ilame
will
be
almost
colorless
when
there
is
no
refrigerant
gas
being
burned
When
there
is
a
small
refriger
ant
gas
leak
the
ilame
will
be
green
or
yellowgreen
When
refrigerant
gas
leak
age
is
large
the
ilame
will
be
brilliant
blue
or
purple
Since
the
color
of
the
ilame
will
be
yellow
when
dust
is
being
burned
Or
there
is
aging
scale
on
copper
reaction
plate
always
keep
the
strainer
of
sampling
tube
and
reaction
plate
clean
5
Major
check
points
I
Compressor
Compressor
shaft
seal
rotate
the
compressor
by
hand
Oil
filler
plug
Flexible
hose
connections
Rear
cover
and
side
cover
gaskets
Service
valve
2
Condenser
Condenser
pipe
fitting
Condenser
inlet
and
outlet
pipe
connections
I
Page 506 of 537
Notes
a
The
bubbles
seen
through
the
sight
glass
are
influenced
by
the
ambient
temperature
Since
the
bubbles
are
hard
to
show
up
in
comparatively
low
temperatures
below
200C
6S0
F
it
is
possible
that
a
slightly
larger
amount
of
refrigerant
would
be
filled
if
supplied
according
to
the
sight
glass
Be
sure
to
recheck
the
amount
when
it
exceeds
200C
680F
In
higher
temperature
the
bubbles
are
easy
to
show
up
b
When
the
screen
in
the
receiver
dryer
is
clogged
the
bubbles
will
appear
even
if
the
amount
of
refrig
erant
is
normal
In
this
case
the
outlet
side
pipe
of
the
receiver
dryer
becomes
considerably
cold
PERFORMANCE
TEST
Check
for
the
amount
of
refrigerant
in
the
system
can
be
made
by
meas
uring
pressure
on
discharge
side
The
correct
amount
of
refrigerant
is
in
the
system
if
pressure
on
the
discharge
side
is
within
the
specified
range
For
details
refer
to
Perform
ance
Test
described
later
Overcharging
will
show
up
in
higher
pressure
on
discharge
side
COMPRESSOR
OIL
LEVEL
CHECK
The
oil
used
to
lubricate
compres
sor
circulates
into
system
from
the
oil
sump
while
c9mpressor
is
operating
The
efore
to
correctly
measure
com
pressor
oil
the
amount
of
oil
flowing
to
system
must
be
considered
If
a
considerable
amount
of
leakage
of
refrigerant
gas
happens
the
leakage
of
compressor
oil
is
also
considered
There
will
be
no
compressor
oil
leak
age
from
a
completely
sealed
system
When
system
operates
under
satisfying
condition
the
compressor
oil
level
check
is
unnecessary
When
checking
the
level
of
com
pressor
oil
or
when
replacing
any
component
part
of
the
system
use
the
following
service
procedure
This
fa
cilitates
to
return
oil
to
compressor
I
Operate
compressor
at
engine
idling
speed
1
000
rpm
or
below
with
controls
set
for
maximum
cooling
Air
Conditionin
j
and
high
blower
speed
for
10
to
15
minutes
in
order
to
return
compressor
oil
to
compressor
2
Stop
the
engine
and
discharge
refrigerant
of
system
and
then
remove
compressor
from
the
vehicle
3
Remove
compressor
fIller
plug
Drain
compressor
oil
from
compres
sor
oil
sump
and
measure
the
amount
4
Compressor
oil
is
satisfactory
if
the
following
amount
of
oil
remains
in
the
compressor
Residual
oil
S5
to
128
gr
3
to
4
oz
5
Check
the
cleanliness
of
the
oil
If
the
oil
contains
chips
or
other
foreign
material
clean
oil
5ump
with
new
oil
6
Discard
the
used
oil
and
fili
with
the
same
amount
of
new
oil
Add
oil
if
found
less
than
above
amount
Fig
AC
27
Filler
plug
If
compressor
is
inoperative
due
to
faulty
compressor
or
heavy
loss
of
refrigerant
remove
compressor
and
repair
as
necessary
Then
pour
oil
up
to
correct
level
and
install
on
engine
After
above
steps
have
been
complet
ed
recheck
oil
level
drain
oil
to
correct
level
if
level
is
excessively
high
PERFORMANCE
TEST
The
cooling
performance
of
the
air
conditioner
changes
considerably
with
changes
in
surrounding
conditions
Testing
must
be
performed
using
the
correct
method
This
test
is
used
to
judge
whether
system
is
operating
cor
rectly
and
can
also
be
used
as
a
guide
in
checking
for
problems
I
Park
the
vehicle
indoors
or
in
the
shade
AC
17
2
Open
all
the
windows
of
the
vehicle
fully
However
close
the
doors
3
Open
the
hood
4
Connect
manifold
gauge
to
high
and
low
side
service
valves
of
the
system
Refer
to
Handling
Manifold
Ga
uge
5
Set
fan
control
lever
to
maxi
mum
6
Set
temperature
control
lever
to
max
cool
position
7
Start
the
engine
and
hold
engine
speed
at
1
500
rpm
S
After
the
air
conditioner
has
been
operated
for
about
10
minutes
measure
system
pressures
at
high
pres
sure
discharge
side
and
low
pressure
suction
side
9
Measure
the
temperature
of
dis
charge
air
at
outlet
grille
10
Measure
the
temperature
of
capin
11
Measure
ambient
temperature
and
humidity
one
meter
3
3
ft
away
from
condenser
front
Be
careful
not
to
expose
dry
buib
and
wet
bulb
to
direct
sunlight
12
Check
for
any
abnormalities
by
comparing
the
test
results
with
stand
ard
pressure
in
Performance
Chart
Notes
a
The
pressure
will
change
in
the
followi
g
manner
with
changes
in
conditions
When
blower
speed
is
low
dis
charge
pressure
will
drop
When
the
relative
humidity
of
in
take
air
is
low
discharge
pressure
will
drop
b
The
temperature
will
change
in
the
following
manner
with
changes
in
conditions
When
the
ambient
air
temperature
is
low
the
outlet
air
temperature
will
become
low
If
the
test
reveals
that
there
is
any
abnormality
in
system
pressure
isolate
the
cause
and
repair
by
reference
to
the
Trouble
Diagnoses
and
Cor
rections
Page 507 of 537
REFRIGERANT
LEAKS
If
leaks
are
noticeable
leaky
parts
should
be
repaired
Then
system
should
be
filled
with
refrigerant
Do
not
operate
compressor
with
refriger
ant
level
e
cessively
low
If
this
caution
is
neglected
a
burnt
compressor
will
result
since
heavy
loss
of
refrigerant
usually
indicates
heavy
loss
of
compressor
oil
If
system
has
been
exposed
to
atmosphere
for
an
extended
period
of
Air
Condition
ing
time
receiver
dryer
must
be
replaced
If
leaks
are
slight
and
no
air
is
present
in
system
add
refrigerant
as
necessary
To
detect
leaks
refer
to
relative
topics
under
Checking
for
Leaks
Here
is
how
leaks
are
stopped
I
Check
torque
on
the
connection
fitting
and
if
too
loose
tighten
to
the
proper
torque
Check
for
gas
leakage
with
a
leak
detector
2
If
leakage
continues
even
after
AC
18
the
fitting
has
been
retightened
dis
charge
refrigerant
from
system
discon
nect
the
fittings
and
check
its
seating
face
for
damage
Always
replace
even
if
damage
is
slight
3
Check
compressor
oil
and
add
oil
if
required
4
Charge
refrigerant
and
recheck
for
gas
leaks
If
no
leaks
are
found
evacuate
and
charge
system
Page 517 of 537
I
o
Fig
AC
37
Disconnectirt
connector
3
DISASSEMBLY
AND
ASSEMBLY
I
Remove
bracket
and
lead
wire
connector
main
relay
thermo
switch
resistor
motor
etc
from
cooling
unit
2
Remove
five
screws
and
duct
3
Remove
main
relay
4
Remove
thermo
switch
5
Remove
three
screws
and
five
springs
securing
upper
case
lower
case
and
rear
bracket
6
Unfasten
fittings
securing
inlet
and
outlet
pipes
Air
Conditioning
11
To
install
cooling
unit
reverse
the
order
of
removal
Notes
a
Apply
a
coat
of
fresh
compressor
oil
to
sealing
surfaces
when
COD
necting
pipe
joints
b
Use
two
wrenches
when
connecting
cooling
pipes
c
Evacuate
cooling
system
then
re
chaJge
with
refrigerant
Refer
fo
Evacuating
and
Charging
System
under
General
Service
see
tion
9
7
Upper
and
lower
cases
can
now
be
separated
8
Remove
motor
and
fan
as
an
assembly
Also
remove
evaporator
9
Peel
heat
insulating
tape
from
ex
pansion
valve
and
unfasten
clip
secur
ing
expansion
valve
capillary
tube
to
pipe
Remove
expansion
valve
from
evap
orator
10
To
install
reverse
the
order
of
removal
AG
28
d
Check
refrigerant
leakage
if
neces
sary
repair
Refer
to
Checking
for
Leaks
under
General
Service
sec
tion
Tightening
torque
Copper
tube
joint
nut
High
pressure
side
3
8
in
2
5
to
3
5
kg
m
18
to
25
ft
lb
Low
pressure
side
I
2
in
2
5
to
4
0
kg
m
18
to
29
ft
lb
00
L
1
Motor
2
Fan
3
Lower
case
4
Cooler
duct
5
Evaporator
6
Expansion
valve
7
Upper
case
8
Resistor
9
Main
relay
10
Thermo
switch
11
Cable
c
mp
12
Cable
3
Harness
AC725
Fig
A
C
38
Disassembling
cooling
unit
Expansion
valve
tightening
torque
5
kg
m
36
ft
Ib
Notes
a
When
installing
expansion
valve
on
evaporator
make
sure
that
temper
ature
oensing
capillary
tube
is
in
its
proper
position
on
outlet
side
b
Apply
a
coat
of
fresh
compressor
oil
to
sealing
surfaces
of
pipes