LG GR 051SF User Manual REFRIGERATOR Manuals And Guides L0212259

LG Refrigerator Compact Manual L0212259 LG Refrigerator Compact Owner's Manual, LG Refrigerator Compact installation guides

User Manual: LG GR-051SF GR-051SF LG REFRIGERATOR - Manuals and Guides View the owners manual for your LG REFRIGERATOR #GR051SF. Home:Kitchen Appliance Parts:LG Parts:LG REFRIGERATOR Manual

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SAFETY PRECAUTIONS

Please read the followings before servicing your refrigerator.

1. Check if an electric leakage occurs in the set.

2. When servicing current applying parts, unplug prior to

servicing.

3. In case of testing with power injecting, wear rubber

gloves to prevent electric shock.

4. If you use any appliances, check regular current, voltage

and capacity.

5. Don't touch metal products in cold freezer room with wet

hand. It may cause frostbite.

6. Prevent water flowing to electric elements in mechanical

parts.

7. When sloping the set, remove any materials on the set,

especially thin plate type(ex,: glass plates or books.).

8. When servicing evaporator part, wear cotton gloves

without fail. it is to prevent wound by sharp fin of

evaporator.

9. Leave a breakage freezing cycle to a heavy service

center. The gas in cycle inside may soil ambient air.

SERVICING PRECAUTIONS

AIR RECHARGING IN COMPRESSOR

Test the refrigeration system by connecting it electrically

before refilling operation. This is necessary to ascertain the

function of the motor-compressor and identify the defects

immediately. If the defects have been found, empty the old

system of eventual R-12 residue by breaking off the end of

the extension piece at its narrow point. (Figure 1)

Replace the filter and any damaged components. Unsolder

and pull off the piece remaining inside the service tube and

then attach an extension completely with male Hansen and

last, solder it to the same tube again. (Figure 2)

it is necessary to execute the soldering operation with

valve open so that the fumes caused by oil residue can

come out freely without blowholes between two tubes

during heating the point to be soldered.

The extension fitted with the male Hansen is connected to

the female fitting of the vacuum pump tube. (Figure 3)

Air evacuating from the system begins as soon as the

pump starts. The refrigeration system must be kept under

vacuum until the reading on the low-pressure gauge

indicates vacuum (0 absolute, -t atm., -760 mm Hg) in any

case it is advisable to keep the pump running for about

30 minutes. (Figure 4)

POINT TO BEE]

BROKEN

SERVICE TUBEE]

EXTENSION

Figure I

CHARGE TUBEE] FEMALEr

EXTENSION HANSEN

MALEE]

HANSEN

SOLDERINGE]

POINT

Figure 2

PRE

GAUGE

Figure 3 Figure 4

-3-

In case that a considerable leakage occurs and to stop the

vacuum pump will be necessary and add a small quantity

of Freon to the system, if vacuum should not be obtained

(pressure gauge can't fall to 1 atmosphere.), start the

refrigeration unit and find the leakage with the special

leak-finder. When the defective soldering point is visible,

re-do it after opening the extension tube valve and

reestablishing the normal outside pressure inside the

group.

Because the melted alloy is sucked into the tubes and

block them, the pressure must be rebalanced when

vacuum is in the system in soldering. As soon as the

vacuum operation is over, add the quantity in grams of R-

12 to the refrigeration system. Remember that every

system has an exact quantity of R-12 with a tolerance of

-+5grams than can be added. (Figure 5)

TO THED

R-12 CYLINDER

TO THED

REFRIGERATIOND

SYSTEM

Figure 5

Before performing this operation (if the vacuum pump and

refilling cylinder are connected), make sure that the valve

placed between the vacuum pump and refilling tube are

closed to keep the Freon for adding to the system. (Figure 6)

FILLING ORB VALVE TO BE []

_ CHARGE TUBE ,PENED WHEN []

REFILLING

TO THE• TO THE []

REFRIGERATIOND CHARGE[]

SYSTEM CYLINDER

VALVE TO BED

VACUUM[ CLOSED[]

PUMP AFTER VACUUM

Figure 6

In addition, check the graduated scale on the cylinder for

the quantity of R-12 to be added, for example, if we have

750 grams of Freon in the cylinder and must add 165

grams to the group, this amount will be reached when R-12

has dropped to 585 grams, remembering that the indicator

shows a lower limit of meniscus. Do this after choosing the

scale corresponding to the gas pressure different scales

reported as the same gas pressure indicated by the

pressure gauge on the top of the column.

To make R-12 flow into the system, open the valve placed

at the base of the cylinder and connected to the filling tube.

The amount of Freon cannot be added to the system all at

once because it may cause a blocking of motor-compressor.

Therefore, proceed by adding original quantity of about

20-30 grams and close the valve immediately.

The pressure rises and the motor-compressor must start,

sucking the gas and making the pressure go down again.

Regulate the valve again, maintaining the same manner

until reaching the quantity of R-12 established for the

system being charged. When the system is running, the

suction pressure must be stabilized from 0.30 to 0.6

atmosphere.

-4-

AIR RECHARGING IN COMPRESSOR

Test the refrigeration system by connecting it electrically

before refilling operation. This is necessary to ascertain the

function of the motor-compressor and identify the defects

immediately. If the defects have been found, empty the old

system of eventual R134a residue by breaking off the end

of the extension piece at its narrow point. (Figure 1)

Replace the filter and any damaged components. Unsolder

and pull off the piece remaining inside the service tube and

then attach an extension completely with male Hansen and

last, solder it to the same tube again. (Figure 2)

It is necessary to execute the soldering operation with

valve open so that the fumes caused by oil residue can

come out freely without blowholes between two tubes

during heating the point to be soldered.

The extension fitted with the male Hansen is connected to

the female fitting of the vacuum pump tube. (Figure 3)

Air evacuating from the system begins as soon as the

pump starts. The refrigeration system must be kept under

vacuum until the reading on the low-pressure gauge

indicates vacuum (0 absolute, -t atm., -760 mm Hg) in any

case it is advisable to keep the pump running for about

60 minutes. (Figure 4)

POINT TO BED

BROKEN

SERVICE TUBED

EXTENSION

Figure I

CHARGE TUBED FEMALEF

EXTENSION HANSEN

MALED

HANSEN

SOLDERINGD

POINT

Figure 2

; I VACUUMD

_ PUMP

PRE

GAUGE

Figure 3 Figure 4

-5-

In case that a considerable leakage occurs and to stop the

vacuum pump will be necessary and add a small quantity

of Freon to the system, if vacuum should not be obtained

(pressure gauge can't fall to 1 atmosphere.), start the

refrigeration unit and find the leakage with the special

leak-finder. When the defective soldering point is visible,

re-do it after opening the extension tube valve and

reestablishing the normal outside pressure inside the

group.

Because the melted alloy is sucked into the tubes and

block them, the pressure must be rebalanced when

vacuum is in the system in soldering. As soon as the

vacuum operation is over, add the quantity in grams of

Rt34a to the refrigeration system. Remember that every

system has an exact quantity of Rt34a with a tolerance of

-+5grams than can be added. (Figure 5)

F _ TO THE[]

Ri34a CYLINDER

TOT RAT,ON[]

SYSTEM

Figure 5

Before performing this operation (if the vacuum pump and

refilling cylinder are connected), make sure that the valve

placed between the vacuum pump and refilling tube are

closed to keep the Freon for adding to the system. (Figure 6)

FILLING ORD VALVE TO BE []

_ CHARGE TUBE OPENED WHEN D

REFILLING

TO THED TO THE D

REFRIGERATIOND CHARGE[]

SYSTEM CYLINDER

TO THE VALVE TO BE[]

VACUUME CLOSED[]

PUMP AFTER VACUUM

Figure 6

In addition, check the graduated scale on the cylinder for

the quantity of R134a to be added, for example, if we have

750 grams of Freon in the cylinder and must add 165

grams to the group, this amount will be reached when

R134a has dropped to 585 grams, remembering that the

indicator shows a lower limit of meniscus. Do this after

choosing the scale corresponding to the gas pressure

different scales reported as the same gas pressure

indicated by the pressure gauge on the top of the column.

To make R134a flow into the system, open the valve

placed at the base of the cylinder and connected to the

filling tube. The amount of Freon cannot be added to the

system all at once because it may cause a blocking of

motor-compressor. Therefore, proceed by adding original

quantity of about 20-30 grams and close the valve

immediately.

The pressure rises and the motor-compressor must start,

sucking the gas and making the pressure go down again.

Regulate the valve again, maintaining the same manner

until reaching the quantity of R134a established for the

system being charged. When the system is running, the

suction pressure must be stabilized from 0.10 to 0.4

atmosphere.

-6-

1. SPECIFICATIONS

ITEMS

DOOR TYPE

NET CAPACITY

CONDENSER TYPE

DEFROSTING SYSTEM

TEMPERATURE CONTROL

SPECIFICATIONS

1DOOR

46 l

WALL CONDENSER

(FLUSH BACK)

MANUAL

KNOB DIAL

ITEMS

INSULATION DOOR

CABINET

EVAPORATOR

DIMENSION

NET WEIGHT

SHELF

REFRIGERANT

VS Series

COMPRESSOR

LUBRICANT NS Series

COMPRESSOR

SPECIFICATIONS

POLYURETHANE

POLYURETHANE

ROLL BOND TYPE

443(W)X501(H)X450(D)mm

15 Kg

1 PIECE

R-12(40g) R-134a(43g)

HTS-150 FREOL a22G

(200cc) (200cc)

HTS-150 FREOL a22G

(180cc) (180cc)

2. PARTS IDENTIFICATION

THERMOSTAT

Regulates the operation of

the motor and controls the

temperature inside the

refrigerator.

EVAPORATOR

The heart of the refrigerator,

It evaporates the refrigerant

fluid and thereby absorbs

heat from the surrounding.

Made of pure aluminum.

Keeps butter.

ICE CUBE TRAY

Ice cube is easy to remove

from the tray

PLASTIC SHELF

It has full width and can

slide out and catches the

water that drips off the

evaporator when

defrosting.

DOOR SEAL

Keeps the refrigerator

virtually airtight all along

the edge, but is

nevertheless easy to open.

BOTTLE SUPPORTER

Keeps bottles, cans or jars.

-7-

3. DISASSEMBLY

A. DOOR

1. Loosen 1 screw holding an cover hinge and 3 screws

holding an upper hinge to separate the door body.

(Figure 7)

Figure 7

B. THERMOSTAT

1. Pull Knob Dial. (Figure 8)

2. Loosen 1 screw holding the case to remove the Thermo

cover. (Figure 9)

Figure 8 Figure 9

C. COMPRESSOR AND PTC

1. Remove Protector Cover, Power Cord and Lead Wire

first. (Figure 11)

2. Separate OLR

3. Separate PTC.

4. Remove the Compressor Base by loosening 4 bolts

fixed to base plate of the set. (Figure 12)

Figure 11 Figure 12

5. Remove the Compressor by loosening 2 earth screws

next to Compressor.

NOTE : Replace the Compressor, after peeling off

painted part of earth terminal.

• Compressor inhales the gas evaporated from Evaporator

and condenses this gas and then delivers to Condenser.

• PTC is abbreviation of Positive Temperature Coefficient

and is attached to the Compressor, and operates motor.

• OLP prevents Motor coil from being started inside

Compressor.

• Do not turn the Adjust Screw of OLP in any way for

nomal operation of OLR

3. Pull out thermostat in the thermostat cover, and

disconnecting 2 or 3 lead wires. (Figure 10)

NOTE : Replace a proper specification new thermostat.

Figure 10

-8-

2000.03.13 100/70

CIRCUIT DIAGRAM

BK

THERMOSTAT

Y"

_, i i GN(GI_.)

_l 4N-I

BL

BK

BL_ _ __C_IOMPRESSOR

P.T.CSTARTER

YL :YELLOW

BK:BLACK

BL:BLUE

GN:GREEN

PK:PINK

THE PLUG TYPE ON CIRCUIT DIAGRAM IS SUBJECT

TO CHANGE IN DIFFRENT LOCALTIES. 3854,JD1009E

5. TROUBLESHOOTING

DEFECT CAUSE REMEDY

GROUP PARTIALLY

OR COMPLETELY

OUT OF

REFRIGERANT

CHARGE

EXCESSIVELY

FULL

HUMIDITY IN THE

SYSTEM

PRESENCE OF AIR

IN THE SYSTEM

BLOCKED

CAPILLARY

MOTOR-

COMPRESSOR

SHOR_CIRCUITED

OR BLOCKED

MOTOR-

COMPRESSOR

DOSE NOT

COMPRESS

NOISY MOTOR-

COMPRESSOR

EFFECT

Evaporatordosenot frost even

though motor-compressorruns

continually.

This defectis indicatedby the

presenceof wateroutside

refrigeratornearthe motor caused

byformationsof ice onthe return

tube.

This defectis indicatedby the partial

frosting of the evaporatorand by

continualdefrostingcyctes

determinedby the interruptionof the

flow ofgas onthe evaporator.The

motorcompressorkeeps running.

Poor performanceof the refrigerant

systemwhich is indicated:onthe

evaporatorwith a slight frost which

dose notfreeze and anexcessive

overheatingof the condenserand

motor-compressor.

Becauseof the lackof circulation

Freonin the system,there is no

frosting of the evaporator,while a

slight overheatingof thefirst spiral

of the condenser is noted.

The systemdose notwork andthe

"clixson"intervenesinterrupting

delivery to the motor-compressor.

Nofrost forms onthe evaporator

even if the motor-compressoris

apparentlyrunning regulary.

in caseofmechanicalfailure inthe

motor-compressorthere inan

excessivenoisewhenthe system is

functioning:incase a suspension

springis unhooked,bangingwill be

heardand therewillbe especially

strong vibrationswhen the system

starts up and stops.

An emptyrefrigerantsystem

indicatesa leakageof R_2.This loss

isgenerallyto be lookedfor at the

soldering pointsconnectingthe

variouscomponentsor in an

eventual hotein the evaporator

madeby the user.

If in the refrigerantsystema quantity

of R_2isintroducedwhich is greater

than that indicated,the excessgas

dose not terminateits expansionin

the evaporatorbut proceedsinto the

returntube.

The refrigerantsystemis humid

when there isa small percentageof

water present which, notcompletely

retainedby the dehydratorfilter,

enters intocirculationwiththe Freon

and freezesat the capillaryexit in

the evaporator.

There is air in a refrigeratingsystem

when duringthe filling phase

vacuum is not effectedor it is not

adequatelydone.

Eventuatimpuritiescontained in the

Freonor inthe componentsof the

refrigerationsystembefore

assemblyand not retainedbythe

filter canobstructthe capillary.

In case of shortcircuit,the

breakdownis dueto the electric

winding: if blocked,there isa

mechanicalfailurein the motor-

compressor.

In this case there is a mechanical

failure in the diaphramvalves which:

remainingcontinuallyopen, do not

permitthe pistonto suckand

compressorthe which

consequente]ydose notcirculatein

the system.

The causeof theexcessivenoise is

normallyto be soughtfor in a

mechanicalbreakdown, and only

rarelyin theunhooking of oneof the

suspensionsprings.

Leakagemust beeliminated by

resolderingthedefectivepoint or

substitutingthe damaged

evaporator.

Thesystem mustbe emptiedand

subsequentlyrefilled introducingthe

correctquantityof R_.

Thesystem mustbe emptiedand

then refilledafter eliminatingthe

humidity.

Groupmust be drained and

subsequentlyrefilled aftercarefully

creatingvacuum.

Torestorethe systemit must be

emptied,substitutethe capillaryor

the evaporatorentirelyin case the

capillaryis coaxialwith respectto

the returntube, then refill it.

Themotor-compressormust be

replacedand then proceed with

refilling.

Themotor-comprossormust be

replacedand then proceed with

refilling.

Themotor-comprossormust be

substitutedand then proceedwith

the refilling.

-10-

NO COOLING

The Compressor

doesn't run.

Check if the current

flows at the contacting

point of the Thermostat.

Poor contacting point Replace the

Thermostat.

Check the components

on the main circuit.

Check if the current

flows at the contacting

point of the starting

system.

Poor contacting point

and broken Replace the device.

-11 -

COMPRESSOR AND ANOTHER ELECTRIC COMPONENTS

Separate the PTC-STARTER from

the Compressor and measure the

voltage between M and C of the

Compressor.

YES

YES

NO

NO

OLP works within 30 sec.

in forcible OLP operation

YES

NO

Measure minimum starting voltage

after checking steps 1-3 above.

And measure the pressure balance

of the PTC with the interval of

more than 5 min.

-12-

PTC

Poor starting or no

operating of the

Compressor.

First, separate the PTC from

the Compressor and check the

voltage between NO 5 and 6

in the PTC with a multitester

or Wheatstone Bridge.

Separate the OLP from

the Compressor and

check resistance value

between two terminals of

OLP with Tester.

-13-

6. EXPLODED VIEW

I

I

NOTE : The shape of parts are subject to change in different localities.

-14-

7. EXPLODED VIEW

&

NOTE : The shape of parts are subject to change in different localities.

-15-

WALMART(WAL) Electrical Specification

ITEM GR-051SF

BUYER MODEL NAME GR_051SF

RATED INPUT(W) 70+15%

DEFROST INPUT(W)

ENERGY CONSUMPTION(kwh/yr) 288

AMPERE(Amp) 0.84

RATING(V/Hz) 115/60

REFRIGERANT R134a

CHARGE(Oz) 1.41

COMPRESSOR NS24LBCM

OLP 4TM232NFB

PTC P6R8MD

CAPACITOR-R 10pF/250VAC

CAPACITOR-S

HOME DEPOT(HDP) Electrical Specification

ITEM GR-051SF GR-131SF GR=151SF

BUYER MODEL NAME GR_051SF GR_131SPF GR-151SPF

RATED INPUT(W) 70+15% 70+15% 70+15%

DEFROST INPUT(W)

ENERGY CONSUMPTION(kwh/yr) 288 330 350

AMPERE(Amp) 0.84 1.0 0.7

RATING(V/Hz) 115/60 115/60 115/60

REFRIGERANT R134a R134a R134a

CHARGE(Oz) 1.41 2.12 3.35

COMPRESSOR NS24LBCM NS24LBCG NS30LACM

OLP 4TM232NFB 4TM232NFB 4TM265MFB

PTC P6R8MD P6R8MC P6R8MD

CAPACITOR-R 101JF/250VAC 101JF/250VAC

CAPACITOR-S