2008 GREAT WALL FLORID relay

Downloaded from www.Manualslib.com manuals search engine GWFLORID Maintenance Manual204
FailureSymptoms Cause analysis
Air con-
ditioning
system fails
to produce
cold air
Compressor
does not work
Blown fuse, compressor relay damaged
Pressure switch contact broken, short circuited, or open circuit
Compressor electromagnetic clutch open circuit
Switch burnt out
Main relay burnt out
Clutch slips
Compressor belt broken or loose
Compressor failure
Insufficient coolant, system pressure below 0.196 MPa
System pressure exceeds 3.14 MPa
Engine water temperature is too high
Clutch voltage is below 7 V
Compressor
pulling in
Compressor relay often open contact bond, system coolant leaks severely,
system has no coolant
Blower does not work
Blower has no windBlown fuse
Blower motor brush damaged
Blower switch damaged
Wiring connector detached or open circuit
Speed regulation module damaged
Blower has no wind at high speeds, high speed relay damaged
Note: Blower's non operational process has a resistance value of 0, with a
open circuit resistance value of
The cool-
ing system
sometimes
works, some-
times not
Compressor operates
normally
Cooling system has ice blockage
Thermistor or thermometer bulb malfunction
Abnormal A/C switch contact
Condenser blower damaged
Compressor operates
abnormally
Clutch slides, clutch coil loose, clutch coil bad connection
Insufficient
cooling




Low wind volume

Blower fan normal: air pipe damaged
Cooling fan operates abnormally:
(1) Blower switch abnormal
(2) Supply voltage low
(3) Speed regulation module damaged
Wind vol-
ume normal

Compressor operates normally
(1) High and low pressure side's pressure is low
(a) Expansion valve is blocked
(b) Expansion valve opening is too small
(2) High and low pressure pipe's pressure is high
(a) High pressure pipeline malfunction, uneven flow
(b) Thermistor failure
(c) Expansion valve opening is too big
(d) Too much refrigerant oil
(e) Too much refrigerant
(f) Poor condenser heat dissipation
Note: When the speed is at 2000 r/min, cooling fan at max gear, and air tem-
perature at 30-35oC, the system's low pressure side pressure should be 147-
192 KPa, and high pressure side pressure 1373-1668 KPa

Troubleshooting

Downloaded from www.Manualslib.com manuals search engine 205Air Conditioning System
FailureSymptoms Cause analysis
Insufficient
cooling
Wind vol-
ume normal
Compressor operates normally
(3) High pressure side pressure is too low
(a) Low pressure pipeline damaged
(b) Low pressure pipeline blocked
(4) Low pressure side pressure is too low
(a) Evaporator frost
(b) Expansion valve is blocked
(c) Low pressure pipeline not clear
(d) Thermal speed adjustive resistance failure
(5) Low pressure side's pressure sometimes normal, sometimes negative,
moisture in the cooling system, and ice blockage
(6) Low pressure side's negative pressure, high pressure side's pressure too
low, blockage in the cooling system
(7) Low pressure side pressure too low, high pressure side pressure too high
(a) Inner portion of the condenser is blocked
(b) High pressure pipeline blocked
(8) Low pressure side pressure too high, high pressure side pressure \
too low
(a) Compressor leaks
(b) Compressor valve damaged
(9) Low wind volume of the condenser blower can lead to poor heat dissipation
Compressor operates abnormally
(1) Compressor internal malfunction
(2) Compressor belt loose, slides
(3) Electromagnetic clutch malfunction
(a) Supply voltage low
(b) Interference between the stator and the rotor
(c) Idling stabilizing amplifier malfunction
(d) Circuit broken, connector detached
(e) Bad switch and relay operation
(f) Short, open circuit
(g) Bad ground
Other causes
Dysfunctional Carriage seal
Cooling
system is
too noisy
Noise too loudBelt loose or overly worn
Compressor's mounting bracket set screw loose
Compressor's mounting bracket damaged
Compressor's internal components are damaged
Refrigerant too little or empty
Clutch slip noise
Clutch bearing lacks oil or is damaged
Blower motor bearing damaged
Blower bracket broken or loose
Blower vane broken or loose
Blower vane rubs against other components
Troubleshooting (Continued)

Downloaded from www.Manualslib.com manuals search engine GWFLORID Maintenance Manual206
FailureSymptoms Cause analysis
Heating sys-
tem
No or insuffi-
cient heating
Air conditioner blower malfunction
Blower relay damaged
Hot air duct blockage
Cooling water pipe blockage
Temperature change throttle actuator damaged
Coolant insufficient
Blower does
not work
Fuse blown or ill switch contact
Blower motor burnt out
Blower's high speed relay broken
Speed adjustive resistance damaged
Open circuit
Water leakageHeater water pipe degradation, poor connection
Over heatedFan's speed adjustive resistance damaged
Temperature change throttle actuator damaged
Defroster’s hot
air insufficient
Mode cable damaged
Vent is not in place
Air outlet blockage
Insufficient heating
Air duct mounting
Open circuit
Troubleshooting (Continued)

Downloaded from www.Manualslib.com manuals search engine GWFLORID Maintenance Manual208
Air Conditioning System Terminal Definition
PinInterface signalPinInterface signal
AEmergency lamp relay2Parking lamp drive +
BPower supply (+)3Safety indicator
lamp drive +
CGround4Blower LO gear drive +
DPower supply5Blower common
terminal GND
EAir conditioner
request signal6Blower HI gear drive +
FBlower relay9Blower M1 gear drive +
10Blower M2 gear drive +
Air conditioner switchHazard warning switch + rear defroster switchBlower + night lighting + safety instruction
Cylinder
Blade
Exhaust valve
Rotor
Exhaust valve
Compressor
Entire outline structure (shown on the left)
Rotary vane compressor’s operation
As the diagram shows, when the rotor is rotating under an
external force, due to the synergism of centrifugal force and the
oil pressure difference on the five vanes of the rotor, their edge
clings to the cylinder wall. Because the fixed cylinder is oval
shaped, while rotating on the rotor, the rotor vanes spread and
retract according to the cylinder's geometrical shape, which in
turn makes the crescent shape consisting of the cylinder, vanes,
etc. to change continuously, so as to achieve the functions of
suction, compression, and exhaustion.