KR930000082Y1 - Efficiency testing system of freezers condensing unit - Google Patents

Abstract

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Description

Test device for condensing unit for refrigerator

1 is a schematic configuration diagram of the present invention.

2 is a schematic view illustrating the operation of the present invention.

* Explanation of symbols for main parts of the drawings

2: Condensing Unit 3: Condensing Unit Aid

4: Heater cooler 5: Compressor

6: condenser 7: receiver tank

8: filter drier 9, 9 ': heater

10 evaporation tube 11 refrigerant R11

12: Passive expansion valve 13: Silicon controlled rectifier (SCR)

14: Watt meter 15: Manometa

16a, 16b, 16c, 16d, 16e, 16f: temperature detection stage P: refrigerant flow pipe

The present invention relates to a performance test (TEST) device of a condensing unit for a refrigerator using a refrigerant, and in particular, a heater cooler in which an evaporation tube and a heater are installed at one end of the device, and silicon is controlled at both ends. A rectifier element (SCR) and a passive expansion valve are installed to heat the evaporator absorption heat, which changes according to the control of the manual expansion valve, as an electric heater, while adjusting the thermal expansion to improve the performance of the condensing unit with the power consumption of the electric heater. The present invention relates to an apparatus for testing the performance of a condensing unit for a freezer that can be tested.

In general, the fabricated condensing unit 4 The condensing unit in use is tested for its performance to determine the quality and reliability of the product.

In the conventional condensing unit performance test apparatus used for this purpose, all of the condensing units constituting the compressor and the condenser are connected to the evaporator in a separate sealed insulated freezer warehouse to absorb heat of the evaporator. While heating the heat as an electric heater was used to match the thermal equilibrium at the time to test the performance of the electric power consumption of the electric heater, but such a conventional method had the following problems.

First: Every time the performance test of the condensing unit, the evaporator and expansion valve installed in the adiabatic freezer warehouse must be replaced according to the performance of the condensing unit.

Second: In the conventional performance test method, it was difficult to accurately measure the difference between the air volume of the evaporator and the temperature difference between the air before and after the evaporator.

The present invention complements the above-mentioned problems and installs a heater cooler in which a heater is installed inside one end of a test apparatus, and connects a silicon control rectifier element (SCR), a passive expansion valve, and an evaporator tube at both ends thereof. It is possible to test the performance of any condensing unit without changing the capacity of the evaporator and expansion valve, as described in detail below by the accompanying drawings of the present invention.

As shown in FIG. 1, a condensing unit 2 composed of a compressor 5 and a condenser 6 is installed and connected to the receiver tank 7 and the filter drier 8. In the known installation in which the condensing unit auxiliary mechanism (3) consisting of) is connected to the condensing unit (2) and the condensing unit auxiliary mechanism (3), a heater (9), (9 ') and an evaporator ( 10) and a heater cooler 4 having a refrigerant R11 (11), and a passive expansion valve 12 is connected to one side of the evaporator tube 10 of the heater cooler 4 to condensing unit auxiliary mechanism 3 and The other side is directly connected to the compressor (5), the heater (9) installed on the inside of the heater cooler (4) is a phantom meter (WATT) for measuring the silicon control rectifying element 13 and power consumption METER) 14 is connected, and the upper end of the heater cooler 4, the internal refrigerant R1 For accurate temperature measurement of 1 (11), a plurality of temperatures can be measured inside the refrigerant flow pipe (P) of the condensing unit (2) consisting of the manometer (15) and the compressor (5) and the condenser (6). The temperature detection stages 16a, 16b, 16c, 16d, 16e, and 16f are connected to each other.

Referring to the effect of the present invention configured as described above are as follows.

As shown in FIG. 2, first, when the refrigerant gas is discharged from the compressor 5, the refrigerant gas is condensed by the cooling medium in the condenser 6, and the receiver tank 7 and the filter drier 8 are in the form of liquid refrigerant. Passing through) reaches a passive expansion valve 12 installed on one side of the heater cooler 4.

At this time, the liquid refrigerant enters the evaporation tube 10 of the heater cooler 4 in a state where the evaporation pressure is controlled by manually operating the manual expansion valve 12.

At this time, the liquid refrigerant introduced into the heater cooler 4 through the evaporation tube 10 absorbs heat from the steam of the refrigerant R11 11 heated by the electric heaters 9 and 9 'while evaporating, thereby maintaining a constant degree of superheat. Will be entered into the compressor (5).

At this time, by operating the silicon control rectifier (SCR) 13 connected to the heater 9 installed on one side of the heater cooler 4, the amount of power of the heaters 9 and 9 'is adjusted to adjust the amount of power inside the heater cooler 4. After the thermal equilibrium of the evaporation amount of, the power amount displayed on the watt meter 14 is read to test the performance of the condensing unit 2 composed of the compressor 5 and the condenser 6.

Therefore, every time the performance test of the condensing unit, the performance of the condensing unit can be tested without having to replace the evaporator and expansion valve in the insulated freezing warehouse according to the performance of the condensing unit every time. Not only was it possible, but it was also intended to achieve the effect of accurately testing the performance of the condensing unit.

Claims (1)

The condensing unit 2 according to the known one in which the condensing unit 2 having the compressor 5 and the condenser 6 and the condensing unit auxiliary mechanism 3 having the receiver tank 7 and the filter drier 8 are provided. ) And a heater cooler (4) having a heater (9), (9 '), an evaporation tube (10), and a refrigerant R11 (11) at the top to be connected to the condensing unit auxiliary device (3). The expansion valve 12 is connected to one side of the evaporation tube 10), and both the heaters 9 and 9 'installed inside the heater cooler 4 have the SCR 13 and the watt meter 14. Is connected, the upper part of the manometer (15) is characterized in that the condensing unit (Condensing Unit) performance test (TEST) device for a refrigerator.