HAIER
REFRIGERATOR
Service Manual
PART # RF-8888-193
HAIER AMERICA TRADING, LLC
1
SPECIFICATION
MODEL
Capacity
Power supply
Rated power input
Power consumption
Net weight
HBF05EABB
47.5
115V / 60Hz
100
(gallons)
V/Hz
W
k*W*h / 24hrs 0.60
(lbs)
(lbs)
83.7
93.6
Gross weight
Unit dimensions
Package dimensions
Container quantity
Container quantity
(D x W x H) in
(D x W x H) in
40’
23.6 x 23.6 x (33 x 3.4)
26.3 x 25.9 x 36
146
146
40’ HC
3
SAFETY PRECAUTIONS
Read all the instructions before using the appliance. When using this appliance, always
exercise basic safety precautions, including the following:
1. Use this appliance only for its intended purpose as described in this operation manual.
2. This appliance must be properly installed in accordance with the instruction before it is
used. See grounding instructions in the section.
3. Never unplug your appliance by pulling on the power cord. Always grasp the plug firmly
and pull it straight out from the outlet.
4. Repair or replace immediately all electric service cords that have been damaged. Do
not use a cord that shows cracks or abrasion damage along its length, the plug or the
connector end.
5. Unplug your appliance before cleaning or before making any repairs.
Note:
If for any reason this product requires service, we strongly recommend that a certified
technician perform the service.
6. Do not use any electrical service or any sharp instrument to defrost your appliance.
7. If your old appliance is discarded, we recommend that you remove the door and leave
the shelves in place. This will reduce the possibility of danger children.
8. This appliance should not be recessed or built in an enclosed cabinet. It is designed
freestanding installation only.
9. Do not operate your appliance in the presence of explosives fumes.
10.It is intended strictly for household use.
Save these instructions
• Danger
Risk of child entrapment:
Before you discard your old appliance or freezer, take off the doors. Leave the shelves in
place so that children may not easily climb inside. As per UL 250 standards.
• Warning
CO2 Can Be Dangerous
CO2 when charged contain high-pressure compressed gas that is hazardous if not handled
properly. Read and understand the following procedures for CO2 cylinders before
installation.
4
1. Always connect CO2 gas cylinder to a regulator. Failure to do so could result in an
explosion with possible death or injury when the cylinder valve is opened.
2. Never connect CO2 gas cylinder directly to beer keg.
3. Always secure CO2 gas cylinder in an upright position.
4. Always keep CO2 cylinder away from heat.
5. Never drop or throw CO2 gas cylinder.
6. Always check the D.O.T (Department of Transport) test date located on the nick of the
cylinder. If over five (5) years, do not use, return the gas cylinder to gas supplier.
7. Never connect a product container unless there are two (2) safety mechanisms in the
pressure system;
a) One of the CO2 regulators. (The regulator supplied with this unit is inclusive of
such a safety mechanism)
b) One at, on the product container coupler, or in the pressure gas line. (The keg
coupler supplied with this unit is inclusive of such a safety mechanism)
8. Always ventilate area after any leakage of CO2
9. If it becomes difficult to breath and/or your head starts to ache, abnormal concentrations
of carbon dioxide (CO2) may be present in the area. CLOSE THE MAIN VALVE ON
THE CO2 CYLINDER, VENTILATE AND LEAVE THE ROOM IMMEDIATELY.
10.CO2 gas cylinder should be stored in the coolest part of the establishment (preferably;
at 70°F (21°C) and must always be securely fastened in the “upright” position.
5
REFRIGERATING PRINCIPLE
Schematic diagram of refrigerating principle
• Brief Description of the Refrigeration Principle
The refrigerating system of direct cooling single-system refrigerators belongs to the category of
dual temperature and single-control refrigerating system. The heat conducting area of the
corresponding evaporator determines the refrigerating capacity of its refrigerator or freezer
compartment. After being throttled by the capillary, the low-pressure refrigerant flows through
the refrigerator compartment evaporator first and then the freezer compartment evaporator,
thus, completing the whole process of refrigeration.
6
PRINCIPLE OF ELECTRIC CONTROL
HBF05NABB
RATED VOLTAGE
RATED CURRENT
RATED FREQUENCY
115V
1.3A
60Hz
OVERLOAD
PROTECTOR
THERMOSTAT
COMPRESSOR
HIGH SIDE PRESSURE 280Psi
LOW SIDE PRESSURE 130Psi
REFRIGERANT R134a
RUN
CAPACITOR
7
TROUBLESHOOTING AND REPAIRS
1. NORMAL REFRIGERATOR FUNCTIONS
A domestic refrigerator is comprised of an electric control system and a refrigerating
system. Since both systems work together, it is difficult to tell whether the refrigerating
system is in good working condition. If any part of the refrigerating system or electric control
does not work properly, the refrigerator’s efficiency will decline, operating properties will
destabilize, and in worst cases, it will not function at all.
Sending refrigerators to a service department can be difficult since they are generally large.
At times, normal phenomena are incorrectly diagnosed as troubles. Before we deal with the
recurrent problems of refrigerators, here is a brief outline of normal occurrences that should
not be considered as problems. If any of the occurrences listed below happens, you can
continue to use your refrigerator:
a) Rumbling Sounds
When the compressor of a refrigerator stops running, a rumbling sound will be heard from
the evaporator. This sound is caused by the flow of refrigerant in the evaporator tube. The
refrigerant flows shortly after the compressor has stopped running. This sound, therefore,
does not constitute a problem.
b) Clicking Noises
Refrigerators often make clicking noises. This is also normal. It is the result of the intake
or release of the armature of a current dead weight start relay when the compressor is
started. The compressor motor makes a clicking sound while it is running. This sound is
faint in the daytime but becomes louder at night.
c) Hot Refrigerator Parts
The compressor consists of an electric motor and a compressing apparatus. During its
normal operation, the temperature of the motor’s starter core and windings will range
between 212°F-230°F. The temperature of the piston and cylinder of the compressing
mechanism is normally 212°F due to the heat produced when compressing the
refrigerant. Most of the heat radiates through the compressor casing to the air, therefore
the temperature of the casing is generally between 185°F and 194°F. It becomes
extremely hot, particularly in summer when the ambient temperature is higher than usual.
All these are normal phenomena.
d) Crackling Sounds
For the direct cooling refrigerator, an irregular crackling sound is caused by expansion
and contraction of the compressor. This sound will not affect the normal operation of the
refrigerator.
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2. COMMON PROBLEMS OF A REFRIGERATOR AND THEIR SOLUTIONS
Refrigerator problems are closely related to the quality of components, level of
workmanship, and owner maintenance. The parameters generally used to determine the
working conditions of a refrigerator include the temperature inside the refrigerator, the
operating rate, electrical power consumption, noise level, and other functional indices. If
any of these indices passes their permissible range, there is a fault with the refrigerator.
During the entire service life of a refrigerator, the probability of problems occurring within a
specific time is called its failure rate. A comparison between the control circuit system of a
refrigerator and its refrigerating system indicates that the failure rate of the former is higher.
When troubleshooting, the first thing you must do is to determine whether the source of the
problem is the control system or the refrigerating system.
There is usually no troubleshooting instrument for the domestic refrigerator. The location
and nature of problems must therefore be determined according to their respective
features. Experience in servicing is very important for troubleshooting. Well-experienced
service technicians can correctly identify and solve problems based on their comprehensive
analysis of the characteristics of the particular problems as well as the operating conditions
for various kinds of refrigerators.
• Three Essential Things To Note During A Checkup
ꢀ Look
a) Check the tubing of the refrigerating system for cracks and various welding points for
leakages. If there is a leakage, a distinct oil stain will be seen.
b) Check the suction and exhaust pressure valves of the compressor to see whether they
are normal.
c) Pay attention to the rate at which the temperature decreases in both the refrigerator and
freezer compartments.
d) Check the environment to see whether it is suitable for the refrigerator.
e) Check refrigerator door seal, case, table surface, and heat insulation layer.
ꢀ Listen
a) Listen to the noises made while the compressor is running. During the normal operation
of compressor, a slight and uniform humming sound due to undulation of electric
currents will be heard. The sounds listed below indicate a malfunction.
i. Humming sounds from a fully enclosed aggregate unit indicate that the motor was
not started properly.
ii. Clattering sounds from the start relay indicate that the start contacts cannot be
released normally.
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iii. Whistling sounds indicate the release of high-pressure gas from a crack in the
pressure tube inside the compressor.
iv. Clucking sounds indicate that the suspended spring inside the compressor has
broken
v. Knocking sounds from inside the compressor indicates that a large quantity of moist
refrigerant vapor or refrigerating oil has linked into the compressor cylinder.
vi. Striking sounds from metal parts inside the compressor indicate that moving parts
are loose.
b) Listen to the gas flowing in the evaporator by opening the refrigerator door while the
compressor is in operation. Normally, refrigerant circulating in the evaporator produces
a gentle whistling accompanied by a sound similar to water flowing. If only the whistling
can be heard and there is no sound similar to water flowing, then the refrigerant has
already percolated. If neither sound can be heard, the filter or capillary is clogged.
.
ꢀ Touch and Feel
a) Feel the compressor while it is running. Its temperature should be less than 194ºF. Its
temperature may exceed 194ºF if it has been running for an extended period.
b) After the compressor has operated for 5~10 minutes, feel the condenser. The
temperature of its upper part should be higher than that of its lower part (or its right part
is hotter than its left part, depending on the type of condenser coil). This indicates that
the refrigerant is circulating properly. If the condenser is not hot, then the refrigerant is
leaking. If the condenser is hot for only a few minutes and then cools down, the filter
and capillary are clogged. If hot air is blown out of the forced air-cooling condenser, the
system is out of order.
c) Feel the filter’s temperature. Normally, the temperature on the filter’s surface should be
a little higher than the ambient temperature. If the filter is lower than the ambient
temperature, then the meshes of its screen are clogged. This obstructs the flow of
refrigerant and causing a drop in temperature due to throttling.
d) Feel the temperature of exhaust gas from the refrigerating system. The exhaust gas
should be extremely hot. If the refrigerator has an enclosed compressor refrigerating
system, there should be no frost or condensation on the gas suction tube. However,
frost and condensation may appear for a very short time period when immediately after
starting the machine.
Do not use only one of the indicators from the checklist above to decipher the state of your
refrigerating system. It is advisable to find out two or more abnormal phenomenon, or
conduct comprehensive troubleshooting because several kinds of troubles may share a
common abnormality.
3. ANALYSIS OF TROUBLES AND TROUBLESHOOTING
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a. Poor Refrigerating Effect
The “poor refrigerating effect “refers to when the refrigerator operates normally, but does
not cool to the temperature indicated by the thermostat. Possible causes are discussed and
analyzed below:
1) Refrigerant leaks
Analysis of Trouble
The refrigerant leaks will result in an insufficient refrigerating capacity. This will lead to
lower gas suction and exhaust pressure as well as hotter exhaust gas. The exhaust tube
will become extremely hot, and the sound of gas flowing from outlet of the capillary will
become louder than usual. After shut down, the balance pressure in the system is lower
than the saturation pressure corresponding to the same ambient temperature.
Remedy
Locate the refrigerant leak points immediately, and note welding points and parts where the
leaks occur. While troubleshooting, pay attention to those parts that are liable to leak,
check main connection points for oil seepage and tubing for cracks. After repairing the leak
points, refill the refrigerant. If you have problems detecting the leak points, charge the
system with nitrogen to help identify leaks. Drain the system of the nitrogen before refill with
refrigerant.
2) Too much refrigerant in the system
Analysis of Trouble
a) If amount of refrigerant in the system exceeds its nominal capacity, the excess
refrigerant will displace the evaporator. This will reduce the heat-dissipation area and
decrease the refrigerating efficiency. Malfunctions caused by excess refrigerant are: gas
suction and exhaust pressures increase, condenser becomes hotter, the electric current
of the compressor rises, frost forms on the evaporator and gas return tube, and the
refrigerator temperature drops slowly.
b) If excessive refrigerant has been charged, the liquid refrigerant that cannot evaporate in
the evaporator will return to the compressor. This will cause “liquid striking.” The liquid
refrigerant evaporates and effervesces as soon as it flows into the refrigerating oil at the
bottom of compressor. If the condition is severe, foams will cover the inside the
compressor housing and be sucked by the piston, causing damage to the components
of compressor.
Remedy
According to the operating procedures, it is mandatory to turn the machine off. After several
minutes, open the refrigerant charging tube and let the refrigerant escape from it, replace
the dry filter, refill the refrigerant after evacuating, and then seal the charging port.
3) There is air left in the refrigerating system
11
Analysis of Trouble
Residual air in the refrigerating system will reduce its refrigerating efficiency. Major effects
are an increase in temperature of the segment from the compressor outlet to the condenser
inlet and an increase in gas suction and exhaust pressures. However, the gas exhaust
pressure will not exceed its rated value. Due to the air in the system, both the gas exhaust
pressure and temperature will rise. In addition, the sound of gas flowing will become
intermittent and louder.
Remedy
Turn off the refrigerator, and wait for several minutes. Next, open and evacuate the tubing.
Then refill the system with refrigerant.
4) Low efficiency of compressor
Analysis of Trouble
Low efficiency of a refrigerating compressor refers to the actual reduction of gas discharge
capacity and the corresponding reduction of refrigerating capacity under the condition that
the refrigerant in the system is unchanged. This typically occurs when the compressor has
been is use for a long time.
Remedy
Measure the high and low pressures with pressure gauges to see whether they are normal.
If an abnormal sound comes from the compressor or the temperature of its causing is too
high, cut the discharge port open and operate the compressor. Inspect to see if there is
pressure at the discharge port with your finger. In a normal compressor, it is difficult block
the discharge port with your finger.
5) Too thick frost layer formed on evaporator
Analysis of trouble
If a direct cooling refrigerator is to be used for a prolonged period, make sure that you
defrost its evaporator regularly. If you fail to do so, the frost layer on the evaporator tubing
will become thicker and thicker. Heat conduction will be severely affected when the whole
tubing is wrapped with a transparent ice layer, and finally the temperature in the refrigerator
cannot fall to the prescribed range.
Remedy
Turn the refrigerator off and prepare for defrosting. Open the refrigerator’s door to let air
inside or use a fan to speed up air moving into the refrigerator to quicken the defrosting
process. Never strike the frost layer with any iron tools or wooden stick in order not to
damage the evaporator tubing.
6) Flow obstructed in refrigerating system
Analysis of Trouble
If the refrigerating system was not purged thoroughly, the filter screen meshes become
clogged by dirt. This results in a decrease in flow rate and a poor refrigerating effect. The
effects of clogged filters included: decrease of gas discharge pressure, the drop in the
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temperature of discharged gas, and, for severe cases, condensation and frosting may
appear.
Remedy
Purge the tubing. After replacing the dry filter or cleaning it thoroughly, refill the system with
refrigerant and seal the charging port.
• No Refrigerating
“No refrigerating” refers to a situation where the compressor runs normally, but the
refrigerator’s temperature does not decrease. While servicing, careful attention will be
required to find and correct the cause. The most common causes for this malfunction are
analyzed below.
1) The entire refrigerant has leaked
Analysis of Trouble
Leak points in the refrigerating system have not been found and repaired timely, allowing
refrigerant to leak completely. There are two kinds of leaks: slow leaks and fast leaks.
Symptoms of total leakage of refrigerant are:
i. The compressor can be started easily (if there is no damage to the compressor parts)
ii. The operating current becomes low
iii. The gas suction pressure increases
iv. The discharge pressure decreases
v. The temperature of the gas discharge tube drops
vi. There is no sound of gas eruption from the liquid in the evaporator, and
vii. No gas gushes out of the process tube when cut after shutdown
Remedy
Check the whole machine, particularly those locations which are liable to leak. After leak
points have been found, repair them or replace them with new parts according to specific
circumstances. Then evacuate the system and finally charge refrigerant.
2) Refrigerating system is clogged with ice
Analysis of Trouble
This is typically a result of a poor dryness treatment, improper air purging, or substandard
water content. The symptoms of this condition are:
- Irregular refrigeration, extreme frosting at the clogged area,
- Evaporation temperature drops below 0°C or 32°F,
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- Water accumulates and gradually clogs the narrow part of the capillary,
- Frost to melt at the evaporator, there is no sound of gas flowing,
- The gas suction pressure becomes a vacuum.
Note that these phenomena will appear intermittently. In order to know whether the system
is clogged with ice, heat the parts that are suspected with hot water. If the sound of gas
flowing is heard and the gas suction pressure rises, the trouble is that the system is
clogged by ice.
Remedy
If there is too much moisture in the refrigerating system, release the refrigerant, purge the
tubing with nitrogen, and then refill the system with the filtered refrigerant. Another method
is to connect a filter with moisture absorbers, such as silica gel or anhydrous calcium
chloride, to the refrigerating system. Next, replace the filter, evacuate it again, and fill the
system with refrigerant.
3) Refrigerating system is clogged with dirt
Analysis of Trouble
Coarse-grained dirt and refrigerant oil in the system tend to settle and clog the capillary
inlet. Flow of refrigerant stops when the filter screen is completely clogged by dirt. This
condition has the same symptoms as when the refrigerating system is clogged by ice.
However, when you heat the clogged area with a hot towel, there is no reaction. After
rejecting the possibility of ice clogging, it can be concluded that the clogging is due to dirt.
Remedy
Dismantle the system. Remove the dry filter and purge the tubing with nitrogen. Next, install
a new filter. Then evacuate it and fill with refrigerant.
4) Clogged filter
Analysis of Trouble
The complete clogging of the filter rarely occurs. Oftentimes, there is an accumulation of
paste-like matter formed from dust on the filter. Tapping the filter may remove part of the
paste-like matter. When the filter is clogged, it will be cooler than normal.
Remedy
The same as described for the capillary clogged with dirt.
• Troubles of Compressor
1) Broken gas suction and discharge valve blocks
Analysis of Trouble
The compressor works by opening and closing the gas suction valve and discharge valve
to suck and discharge the refrigerant. If the valve block is broken, the refrigerant cannot be
discharged. This prevents refrigeration.
14
Remedy
It is quite difficult to differentiate this trouble from others because they have similar
symptoms. When repairing, listen attentively for abnormal sounds coming from the
compressor. Oftentimes, broken pieces of valve block strike against the cylinder. Check to
see if the compressor casing is too hot. Secondly, measure the pressures at the high and
low-pressure ports of the compressor with pressure gauges. If the gas suction valve block
is broken, the suction pressure gauge pointer will swing violently and the suction pressure
will be very high. Whereas when the gas discharge valve block is broken, the discharge
pressure gauge pointer will swing drastically and the discharge pressure will be very high.
In both cases, stop the compressor at once. If possible, open the cylinder cover, check the
valve block, and repair it.
ꢁ Compressor suddenly stops
Very often, when the compressor suddenly stops, the gas suction pressure and/or
discharge pressure have exceeded their respective prescribed ranges. When this happens,
the pressure-operated protective relay automatically shuts off the power to the compressor.
Below we discuss the reasons for high gas discharge pressure and low suction pressure.
ꢀ Stoppage due to excessively high gas discharge pressure
1) High gas discharge pressure due to excess refrigerant
Analysis of Trouble
Loose frosting and poor refrigerating effect may occur if excessive refrigerant has been
charged into the system. Excess refrigerant will occupy additional space in the evaporator.
This will reduce its heat dissipating area, and the phenomenon of “liquid striking” may occur.
Condensation may occur on the gas return tube, and the gas discharge pressure will rise.
When it reaches the threshold value, the protective relay will actuate and shut off the power
supply to the compressor.
Remedy
Open the tubing. Re-evacuate and charge the system with a proper quantity of refrigerant.
2) Air in the system
Analysis of Trouble
The residual air in the system will circulate with the refrigerant in the system. The major
symptoms are higher gas discharge pressure, higher discharged gas temperature, and
poor refrigerating effect. The gas discharge pressure will exceed its maximum value when
the compressor has run for an extended period, and activates the protective relay.
Remedy
Check the air has been in the refrigerating system. Generally, there are three possibilities.
First, is that the air has been sucked into the system during repairs due to carelessness.
Secondly, it has not been completely purged evacuating the system. The third possibility is
that there are leak points at the low-pressure end of the refrigerating system. Leak points
appear in low temperature parts or assemblies. This is because the evaporation
temperature is lower for such low temperature devices, especially at the low-pressure end;
it is easier for the air to go into the system. Once it has been ascertained that air does exist
15
in the system, you have to open the tubing, re-evacuate it and then charge it with
refrigerant.
ꢀ Stoppage due to electrical troubles
ꢁ Thermostat is out of control due to electric troubles
Analysis of Trouble
In case the thermostat does not work in its good order or its temperature sensor has not
been installed properly, frequent stoppage is also likely to occur.
Remedy
Try to adjust the temperature sensor’s position until the compressor can be started and
stopped normally. If this cannot be achieved, and the stoppage still occurs repeatedly, it is
most likely that the mechanical parts or contacts are out of order, disassemble the
thermostat, make a thorough checkup and repair it.
ꢁ Overload of electric motor
Analysis of Trouble
Probably, too many things have been put into the refrigerator, and hence the thermal load
exceeds its refrigerating capacity; or in case the power supply voltage drops considerably,
the current flowing through the motor will increase drastically making the thermal protector
actuate and the fuse blown, and hence the motor stops running. If the motor is still running
continuously in such a case, its windings will be burned out.
Remedy
Reduce the thermal load, pay attention to the variation in voltage of the power supply.
ꢁ Abnormal thermal protection
Analysis of Trouble
The compressor current is within its normal range, but the thermal protector actuates
repeatedly.
Remedy
Replace the thermal protector with a new one.
ꢀ Sudden stoppage due to other causes.
Normal Stoppage
Thermostat generally controls start and stop of the compressor. When the temperature in
the refrigerator reaches its desired value, the thermostat will shut down the compressor
automatically. Never take this normal operation as a problem; care should be taken to
differentiate it from other real problems in servicing.
ꢁ Compressor won 't start.
16
In case the compressor cannot be started, you must find out the origins of this trouble
through systematic checkup, because probably there are many causes, including the
electrical and mechanical parts.
a) Inspect the power supply to see whether it is connected to the compressor circuit.
Analysis of Trouble
In case the compressor cannot be started, this will generally exhibit in the power supply
circuit, for instance, power failure, poor contact of switch, and blown fuse. Make a
comprehensive analysis of these phenomena, find out its real cause and take corrective
measures to resolve the problem.
Remedy
i) Check the input power circuit to see whether there is voltage in the power supply, note:
the circuit that is connected to the knife switch. This can be determined with a voltmeter
or a test pencil. If a blown fuse is found, ascertain and remove its cause, then replace it
with a new one of the same specifications.
ii) Check the compressor accessories, including its thermal protector and relay. In case
the thermal protector is damaged, the compressor cannot be powered on. If the relay is
out of order, the motor will not run and hum sound can be heard from it after the
compressor is turned on. In that case, shut it down immediately, otherwise, the motor
windings will be burned out in case this condition lasts longer.
iii) Check the relay contacts and plugs to see if they are perfect and work reliably. Poor
contact may cause the motor not running or humming.
b) Check the circuit voltage to see whether it is normal
Analysis of trouble
If the circuit voltage is obviously lower than its rated value, it will be difficult to start the
motor, and a hum sound can be heard from it.
Remedy
Measure the voltage with a voltmeter; if it is really too low, give directions to the user for
buying a stabilizer to step up the voltage, thus normal operation can be achieved.
c) Check the thermal relay to see whether its contacts are closed.
Analysis of Trouble
The contacts of thermal relay sometimes may be open due to the leakage of temperature
sensing agent from the temperature sensor.
Remedy
Remove the relay cover to check up its contacts. If they are open, this means that the
original setting is not properly set or temperature-sensing agent has leaked out of the
17
temperature sensor. Try to turn the adjusting stem of this value in the direction of the lower
temperature graduation, and then check the contacts to see whether they are closed. If
they are still not closed, dismantle the temperature-sensing disc and then immerse it into
warm water to see whether the contacts actuate. If not, it can be preliminarily determined
that temperature-sensing agent has leaked out, and it must be replaced with a new
thermostat.
d) Problems of motor and other electrical faults
i) Motor windings are damaged or there is a short circuited between turns
Analysis of Trouble
When motor windings are damaged or there the occurrence of a short circuit between
turns, the fuse will be blown repeatedly, and the blowout particularly occurs at that
instance where you close the knife switch.
Remedy
Check the terminals and the outer casing to see whether they are short-circuited, and
measure the resistance of each phase with an avometer. If short circuit occurs or the
resistance of a particular phase is low, this means that there is no short circuit in the
windings and/or between turns, and that insulation layers are damaged or deteriorated.
Another instrument that can also be used in this inspection is a megameter. If the
insulation resistance is lower than 2 MΩ, this means that the insulation layer has a
breakdown already. If the motor is damaged, repair or replaced it with a new one.
ii) Control relay is faulty
Analysis of Trouble
Overheating, burns or wearing of control relay contacts will generally occur if this is true.
All these will cause poor contact in electricity.
Remedy
Dismantle it for repairs, or replace it with a new one.
iii) Poor electric contractor in thermostat
Analysis of Trouble
Damaged contractor and leakage of temperature sensing agent will generally occur if
this is true.
Remedy
Replace the old one with a new one.
iv) Check the terminals for loose connection and electric circuits for other abnormal
phenomena.
e) Mechanical faults of compressor
i) Seizure of shaft
18
This is normally caused by poor lubrication, insufficient quantity of lubricant, clogging in
the lubricant oil’s line, or intermittent lubricant oil supply. Dirt and other impurities in the
lubricant will increase its viscosity and cause the shaft to be seized. Copper plating may
also result in the seizure of the shaft.
ii) Seizing of piston
This happens because the fit clearance between the piston and cylinder is too small or
expansion due to heat.
iii) How do you know that the shaft and piston have been seized
When the refrigerator is switched on, the compressor will not start running. A slight hum
sound will be heard and several seconds later, the thermal protective relay will actuate
and open the contacts. This process will occur repeatedly, but the compressor will not
start.
ꢁ Compressor will not stop
Sometimes, the compressor will run continuously (for several hours or run without end).
If the food placed in the refrigerator is not too much, there may be the following two
situations:
i) Control system is probably out of order
ii) The control system works normally but there are problems in the refrigerating system or
other parts
a) Temperature is set improperly
i) The temperature control knob is set to the “coldest” position. This position is to be used
for fast freezing or continuous running, its temperature for power off is too low,
therefore, the compressor will not stop and the temperature in the refrigerator becomes
lower and lower.
ii) Inspection method: check the temperature control knob to see whether it is set in the
position “coldest”.
b) Thermostat is malfunctioning and makes the compressor running continuously
Analysis of Trouble
When the thermostat does not work normally, it will make the compressor run continuously,
and hence very low temperature will be achieved in the refrigerator. The fault is generally
because the contacts of the thermostat cannot be released.
Remedy
Dismantle the thermostat and make a through checkup. If it is totally out of functioning,
replace with a new one.
c) Evaporation temperature is too high in refrigerating system, resulting in lower
refrigerating capacity and hence continuous running of compressor
19
Analysis of Trouble
Leakage of refrigerant and clogging in a refrigerating system will directly affect its
refrigerating capacity. Due to the reduction in its refrigerating capacity, the refrigerator
temperature cannot reach its rated value. The thermostat will not work, thus the
compressor runs continuously. When the evaporation temperature in the system is too
high, the temperature sensing agent in the temperature sensor is also hotter therefore, the
thermostat is unable to cut off the power supply to the compressor and stop it.
Remedy
If it has been found that the refrigerant in the system is insufficient in quantity, recharge it
with refrigerant. In case clogging occurs, disassemble the part where it is blocked. If the
evaporation temperature is too high, settle this problem with an appropriate quantity of
refrigerant.
d) No stoppage of compressor due to damaged heat-insulation layer inside case body
and / or door seal
Analysis of Trouble
When the heat-insulation layer inside the case body deteriorates or the door seal does not
closely touch the doorframe, the temperature in the refrigerator will rise and makes the
compressor run continuously.
Remedy
Check the heat-insulation layer for damaged parts. Repair it if damaged to improve its heat-
insulation property. If the door has deformed or the door seal is not tightly sealed against
the case body, repair them.
e) Too much food is placed in the refrigerator, or is placed too densely, resulting in
poor ventilation or poor conditions for temperature sensing hence no stoppage of
the compressor.
f) Too high ambient temperature, poorer ventilation and heat dissipation make the
compressor run without stopping.
ꢁ Electric leakage of refrigerator
a) Slight electric leakage
Electric insulation has deteriorated due to being affected with damp, thus resulting in slight
electric leakage.
b) Serious electric leakage
Refrigerator case has become live due to faults occurred in some electric devices or the
erroneous wiring in installing power cord plug or outlet by the user. This is very dangerous.
c) Electric leakage test
ii) Slight electric leakage
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A tingle sense will be experienced as soon as you touch the metal parts of the
refrigerator with the hand. When you test them with a test pencil, its neon lamp will
come on. In that case, the first thing you need to do is to determine whether the
grounding is perfect. If the grounding has no problem, turn off the refrigerator
immediately, then check the insulation of electric circuits with a voltmeter.
iii) Serious electric leakage
Do not touch the case body of the refrigerator, its door handle or other metal parts with
your hand. When you test the refrigerator with a test pencil, it will light up intensively.
Measure the resistance between the power cord plug and the case body with a
voltmeter, the reading will be zero (0Ω); in the worse case, the fuse will blow. Check the
3-prong outlet to see whether the live wire and the null line are inversely connected.
One possibility is that the live wire and null line of the outdoor power supply circuit have
been inversely connected; this makes the null line become a live wire.
ꢁ Stronger vibration and loader noise
1. Refrigerator placed improperly
a. Uneven ground
Uneven ground will cause the refrigerator to be placed unsteadily, causing stronger
vibration and noise during its operation.
b. Leveling screws not properly adjusted
If the leveling screws on refrigerator legs have not been adjusted properly, vibration and
noise will still occur even if the refrigerator has been placed on a level ground.
2. Abnormal noise from compressor
Three suspended spring inside the compressor case are out of balance, and strike against
the case, moreover, the wear of compressor parts may cause noise sometimes.
3. Resonance of tubing and loosening of parts
Improper and compact lying of tubes or the loosening of parts may cause vibrations and
noise.
4. Inspection method
To find the sources of noise, press the vibration spot with your hand while the refrigerator is
in operation and listen attentively whether the vibration becomes weaker or vanishes. If the
refrigerator has not been levelly placed, put a level meter on its top table and adjust the
leveling screws on its legs. In case noise occurs from the compressor, strike different
locations on the side surface of its case using a rubber hammer or hand hammer with a
wood block in between to determine whether the suspended springs are out of balance or
being seized.
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