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SERVICING PRECAUTIONS
AIR RECHARGING
IN COMPRESSOR
Test the refrigeration system connecting it electrfaally before
refilling operation. It is necessary to ascertain the function
of the motor*compressor
and identity the defects
immediately,
if defects have been found, empty the old
system of possible R-134a 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 complete extension with male Hansen and
at last, solder it to the same tube again. (Figure 2)
POINT TO BE BROKEN
SERVICE TUBE EXTENSION
Figure
I
CHARGE
TUBE
FEMALE
EXTENSION
RANSEN
MALE HANSEN
SOLDERING POINT
Figure
2
It is necessary
to executethe soldering operation with
valve open so that the fumes caused by oil residue can
come out freely without blowholes between two tubes
during the heating the of 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)
L3_
GAUGE
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, -1 aim., -760 mm hg). In any
case it is advisable to keep the pump running for about 30
minutes. (Figure 3)
If considerable
leakage occurs, it will be necessary
to stop
the vacuum pump and to 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 special leak-finder.
When the
defective soldering
point is visible, repair 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
blocks them, the pressure must be rebalanced
when
vacuum is in the system when soldering, As soon as the
vacuum operation is over, add the quantity in grams of
R-134a to the refrigeration
system. Remember that every
system has an exact quantity of R-134a that can be added
with a tolerance of +5 grams. (Figure 4)
TO THE R-t34a CYLINDER
1
TO THE REFRIGERATION
SYSTEM
r_;_--
_J
Figure
4
1
Before performing this operation (if the vacuum pump and
refilling cylinder are connected),
make sure that the valve
placed between the vacuum pump and the refilling tube is
dosed in order to keep the Freen for addition to the system.
(Figure 5)
FILLING OR
VALVE TO BE OPENED
CHARGE TUBE
WHEN REFILLING
TO THE REFRIGERATION
TO THE CHARGE
SYSTEM
CYLINDER
VALVE TO BE CLOSED
AFTER
VACUUM
TO THE
VACUUM
_
Figure
5
PUMP
T
In addition, check the graduated
scale on the cylinder for
the quantity of R-134a to be added, for example, if we have
750 grams of Freon in the cylinder and must add 140
grams to the group, this amount will be reached when
R-134a has dropped to 610 grams, remembering
thai 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-134a flow i_o the system, open the valve
placed at the base of the cylinder connected
to the filling
tube. The amount of Freen cannot be added to the system
all at once because it may cause a blocking of motor-
compressor.
Therefore, proceed by adding the 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 lowering the pressure again. Open the
valve again, maintaining the same manner until reaching to
the quantity of R-134a established
for the system being
charged. When the system is running, the suction pressure
must be stabilized between 0.30 to 0.6 (0.10 to 0.4)
atmosphere.
-3-
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Summary of Contents for LG LRTBC2021W precautio
- Page 1 SERVICING PRECAUTIONS AIR RECHARGING IN COMPRESSOR vacuum operation is over, add the quantity in grams of R-134a to the refrigeration system. Remember that every Test the refrigeration system connecting it electrfaally before system has an exact quantity of R-134a that can be added refilling operation.
- Page 2 2001.06.01 1601120 CIRCUITDIAGRAM _11_ SUPI_YlNG IBIE CONIROL THERM(_TAT I_FRO6T,1111R _,,,-I o ° I _W_'_ _ TIME I----- ,, : ,, . -, 10.5 s_ 9 8eC _ , , ,_ =_=--', 10 se_ i ' ' ,_ ._m-"-I ', 11 SeC ..
-
Page 3: Parts Identification
2. PARTS IDENTIFICATION FREEZER COMPARTMENT Freezer Shelf Automatic Ice Maker Ice Cube Box Freezer Door Bin Freezer Temperature Control Dial Door Cooling On the refrigerator door, the cold air passageway is REFRIGERATOR installedto supply COMPARTMENT cold air to the doorside of the refrigerator Temperature compartment. - Page 4 3. DISASSEMBLY 3-1 DOOR 3-2 DOOR SWITCH • Freezer Door 1. To remove the door switch, pull out it with a slotted type 1. Remove the hinge cover by pulling it upwards. driver as shown in (figure g). 2. Loosen hexagonal bolts fixing the upper hinge to the 2.
-
Page 5: Defrost Control Assembly
3-6 REFRIGERATOR ROOM LAMP 3-4 FAN AND FAN MOTOR 1. Remove the freezer shelf. (If your refrigerator have an Ice Maker, disassemble the Ice maker first) REFRIGERATOR ROOM LAMP 2. Remove the grille by pulling it out and by loosening a screw. -
Page 6: Ptc-Starter
4. ADJUSTMENT _ICOMPRESSOR 4-2-3 PTC-Appltad Circuit Diagram • According to Starting Method for the Motor 4-1-1 Role The compressor intakes low temperature and low pressure gas evaporated from evaporator of the refrigerator, OVERLOAD PROTECTOR(O.L.P) condenses this gas to high temperature and high pressure gas, and then plays delivering role to condenser. -
Page 7: Circuit Diagram
4-30LP (OVERLOAD PROTECTOR) CONTACTING 4-3-1 Definition of OLP POINT COVER (1) OLP (OVERLOAD PROTECTOR) is attached to the Compressor and protects the Motor by cutting the current to the Motor if the temperature rises and activates the bimetal spring in the OLP. (2) When over-voltage flows to Compressor motor, the Bimetal works by heating the heater inside the OLP, and the OLP protects Motor by cutting off current which... -
Page 8: Troubleshooting
6. TROUBLESHOOTING 6-1 COMPRESSOR AND ELECTRIC COMPONENTS Remove the PTC- Starter from the [ Power Source. (Rating Voltage _+10%)? "[_ Compressor measure the voltage between Terminal C of Compressor Terminals 5 or 6 of PTC. )_No Voltage. OLP disconnected? Replace OLR condition. -
Page 9: Defrost Timer
6-2 PTC AND OLP Separate the PTC- Normal operation of Compressor Starter from 220VISOHz : 22_±30% electric components, I 115V/60Hz : 6.8__+30% impossible or poor. Compressor measure the 240VI50 HZ: 33_±30% resistance between ._}1_ Observation value is 127. 220V!60Hz : 22_ Check another No. -
Page 10: Other Electric Components
6-4 OTHER ELECTRIC COMPONENTS • Cooling is impossible co 0r--o, I >I Check if current flows to Cause doesn't run, the following components. Poor contacting and a. Thermostat gas leakage. Shorted or broken. b. Starting devices Poor contacting c. OLP _' or shorted. -
Page 11: Service Diagnosis Chart
6-4 SERVICE DIAGNOSIS CHART COMPLAINT POINTS TO BE CHECKED REMEDY Cooling • Is the power cord unplugged from the outlet? - Plug to the outlet. impossible • Check if the power S/W is set to OFF. • Set the switch to ON. - Check if the fuse of power S/W is shorted. -
Page 12: Refrigerating Cycle
6-5 REFRIGERATING CYCLE • Troubleshooting Chart CAUSE STATE OF STATE OF THE TEMPERATURE THE SET EVAPORATOR OF THE REMARKS COMPRESSOR PARTIAL Freezer Low flowing sound of A little higher • Refrigerant level is low due LEAKAGE compartment Refrigerant is heard and than ambient to a leak. - Page 13 • General Control of Refrigerating Cycle _EMS UNIT STANDARDS REMARKS PURPOSES Min. Pipe and Pipe: within 1 hour. To protect The opening time should be reduced moisture Comp: within 10 minutes. piping system to a half of the standards during rain Drier: within 20 minutes.
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Page 14: Operation Principle
7. OPERATION PRINCIPLE AND REPAIR M ETHOD O FICEMAKER This manual describes function of models adhering Ice Maker, 7-1 OPERATION PRINCIPLE 7-1-1 Operation principle of Ice Maker Power Input • Keep a level of ice-removing tray with °initial control" inputting Initial Control._ _ power,... - Page 15 7-2 Function of Ice maker 7-2-1 Initial control function 1. The level of the ice-removing tray (ice-removing container) after completing the MICOM initialization in the initial POWER ON,returning to electricity failure and turning-off of ice-making stop switches. Namely, detection lever operates up and down. 2.
- Page 16 7-2-4 Ice-removing control function 1. Ice-removing control means operation to separate ice within lee-making tray ( ice-making container) after ice-making is completed. 2. Step to check ices stored at the ice bank (container for storing ice) are fully filled. It is considered as they are fully filled if signals of the hall sensor are at the On status ("high") before 3.6seconds after rotating positively the ice-making motor.
- Page 17 7-2-5 Test Function 1. Function used compulsory operation for the purpose of performing operation test, service and cleaning. This test function is performed if pressing the test switch mounted on the automatic ice-maker itself for 0.5 second or more. 2. The test button operates when the test function is not input but at the level status. It does not perform ice-removal control and water supply control if ices are full during operation of test function 3.
- Page 18 7-3 Failure diagnosis method of ice maker Replacementof MAIN PCB Defect of power terminal • Check DC power (5V,12V) Defect of ice-making sensor Replacement ice-making sensor • Check resistance values of both ends of icemaking sensor (Pin for PCB CON2 1,2 PIN) •...
- Page 19 7-4 Explanation of ice maker circuits 7.4ol Power circuit vo,,v"(MICOM) i/a STOP S/_II -- -- TEST The secondary party of transformer consists of power (12Vdc) for ddvicg display and relay and power (5Vdc) supplying power to MICOM and IC. In this case, voltage at each part is as follows: Part Both ends of VA1 Both ends of CE2...
- Page 20 Load drive circuit 1. Load drive status check IN41_ 4.7K WATER VALVE [--('_}AUK (MICOM) " " IKRCIO2MI _J KRn'AIO6M Load Type Water Valve Measurement Location lV below Condition - 22 -...
- Page 21 7-4-5 ICE MAKER drive/circuit _*,TXX2 /zs_O_4vF CON2 (REVERSE) (so^/so: (FORVARD) Be.l/2W ICE HAKER MDTDR BA6222 223_o0v C_. 9 (MICOM) ICE MAKER TEST IRF1 6._F (_N7: ICE MAKER SENSOR This circuit is a circuit used to embody functions such as ice-removing, full-ice detection, level noise, and ice-making tem- perature detection of ice-making tray (ice-making container).
- Page 22 7-5 Main PWB Assembly and Parts List 7-5-1 MAIN pW1B - 24 -...
- Page 23 7-5-2 Replacement Part List owe.NO* _no_ sEc' MAKER Ie70JBL_ :Y*_,MNN :R-I(0S-lt07A 000 S_ t--1.6 _170_200_ FRid_S PC m:117%O:15\ T_ 9JN(!_ANS ;630JBe0GIB I;Z_-_2.4 IjNE EUp ;ON1 WAFER _'30JBS00_ SMW250--O_ _ON2 ,EONH _MW250--C_ :ON3 IZZJB200_ _IC_ CHIFTMp87c4ogf Ct{=/_ IRP_ 780fi01_ _GUtJT_ }_H17_120_ (1)BA17812T ROHM _UtATO F 14E78120_...
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Page 24: Water Valve
7-6PWB DIAGRAM WATER VALVE (iCE) KRCIO2MI KRAIO6M XOUT RESET - 26 -... - Page 25 IOOuF C£4 /25V CON2 (REVERSE) 4,7KX2 (FORWARD) P€3 68.1/2w MOTOR ICE MAKER 8A6222 ICE MAKER TEST S/W CClO _- 104 n_ CCll _- 104- F_ 6.2KF ICE MAKER SENSOR (AIN7) CC12 -T- 104 F/_ (WATER SUPPLYING TIME S/W) CONTROL 4_10,12,13,16,24-,25,26 - 27 -...
-
Page 26: Exploded View And Replacement Parts List
8. EXPLODED VIEW & REPLACEMENT PARTS LIST • The parts of refrigerator and the shape of each part are subject to change in different localities. • Capacitors and fuse are optional parts. GR-T622, GR-T722 - 28 -... - Page 27 - 29 -...
- Page 28 - 30 -...
- Page 29 ICE MAKER PART & -31 -...
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