KR0133641B1 - Refrigerant circuit of refigerator with pressure removing apparatus - Google Patents

Abstract

The present invention relates to a refrigerant circuit of a refrigerator having an idle pressure removing means, and an object of the present invention is to temporarily store an idle pressure generated when the refrigerator is turned off as described above so that a high pressure is not applied between the compressor and the condenser. As a result, the refrigerant circuit of the refrigerator having an idle pressure removing means capable of preventing the crack on the low pressure side due to the movement of the refrigerant from the high pressure side to the low pressure side as described above, and also reducing the starting power consumption of the compressor. To provide.

In the present invention to achieve the above object, in the refrigerant circuit of the refrigerator connected to the compressor, the condenser, the capillary tube and the evaporator, the first solenoid valve and the first solenoid interposed in the first refrigerant passage between the condenser and the capillary tube A check valve connected in series with the valve; A refrigerant storage container interposed in a second refrigerant passage connected in parallel with the first refrigerant passage between the condenser and the capillary and having a larger diameter than the diameter of the second refrigerant passage; A second solenoid valve mounted to a second refrigerant passage upstream of the refrigerant storage container; A third solenoid valve mounted to a second refrigerant passage downstream of the refrigerant storage container; The second solenoid valve and the third solenoid valve is closed when the pressure of the refrigerant storage container is high and the second solenoid valve is closed when the pressure is low, and the third solenoid valve is opened while the second solenoid valve is closed. A high and low pressure cut-off switch interposed between a second solenoid valve and the refrigerant storage container; And closing the first solenoid valve and the third solenoid valve immediately before the off operation of the compressor, opening the second solenoid valve, and closing the first, second and third solenoid valves immediately after the off operation of the compressor. And a control unit configured to open the first solenoid valve and the third solenoid valve at the time of the on operation of the compressor.

Description

Refrigerant circuit of refrigerator with idle pressure removing means

1 is a schematic diagram of a refrigerant circuit of a refrigerator having an idle pressure removing means according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: leaving pressure removing means 10a: first refrigerant flow path

10b: second refrigerant passage 11: refrigerant storage container

12: first solenoid valve 13: check valve

14: second solenoid valve 15: third solenoid valve

16: high and low voltage break switch 17: control

20 Compressor 21 Condenser

22 capillary 23 evaporator

The present invention prevents cracks on the low pressure side caused by the residual high pressure between the refrigerant circuit of the refrigerator having the idle pressure removing means, in particular, the compressor and the condenser generated when the operation switch of the refrigerator is turned off to the low pressure section including the evaporator. The present invention also relates to a refrigerant circuit of a refrigerator having an idle pressure removing means capable of reducing consumption of starting power of a compressor generated when the operation switch of the refrigerator is turned on due to the presence of the idle pressure.

In the refrigerator according to the prior art, when the operation of the refrigerator is turned off, a high pressure (hereinafter referred to as an idle pressure) remains between the compressor and the condenser, and such an idle pressure is transferred to the low pressure side of the refrigerant flow path including the evaporator. A sudden pressure on the low pressure side caused a crack on the low pressure side.

In addition, the refrigerator according to the prior art as described above had a problem that the power energy required to start the compressor is excessively large when the operation of the refrigerator is turned off and then turned on again.

Accordingly, an object of the present invention is to temporarily store the idle pressure generated when the refrigerator is turned off as described above so that a high pressure is not applied between the compressor and the condenser, and thus the refrigerant is moved from the high pressure side to the low pressure side as described above. According to the present invention, there is provided a refrigerant circuit of a refrigerator having an idle pressure removing means capable of preventing cracks on the low pressure side and reducing the power consumption of the compressor.

In the present invention to achieve the above object, in the refrigerant circuit of the refrigerator connected to the compressor, the condenser, the capillary tube and the evaporator, the first solenoid valve and the first solenoid interposed in the first refrigerant passage between the condenser and the capillary tube A check valve connected in series with the valve; A refrigerant storage container interposed in a second refrigerant passage connected in parallel with the first refrigerant passage between the condenser and the capillary and having a larger diameter than the diameter of the second refrigerant passage; A second solenoid valve mounted to a second refrigerant passage upstream of the refrigerant storage container; A third solenoid valve mounted to a second refrigerant passage downstream of the refrigerant storage container; The second solenoid valve and the third solenoid valve is closed when the pressure of the refrigerant storage container is high and the second solenoid valve is closed when the pressure is low, and the third solenoid valve is opened while the second solenoid valve is closed. A high and low pressure cut-off switch interposed between a second solenoid valve and the refrigerant storage container; And closing the first solenoid valve and the third solenoid valve immediately before the off operation of the compressor, opening the second solenoid valve, and closing the first, second and third solenoid valves immediately after the off operation of the compressor. And a control unit configured to open the first solenoid valve and the third solenoid valve at the time of the on operation of the compressor.

Hereinafter, with reference to the accompanying Figure 1 will be described in detail an embodiment of the present invention.

As shown in the figure, the idle pressure removing means 10 according to an embodiment of the present invention comprises a first refrigerant passage 10a interposed between the condenser 21 and the capillary tube 22 of the refrigerant circuit and the first refrigerant passage 10a. And a second refrigerant passage 10b connected in parallel with the first refrigerant passage 10a.

The first solenoid valve 12 and the check valve 13 are connected in series to the first refrigerant passage 10a.

In the second refrigerant passage 10b, a refrigerant storage container 11 having a larger diameter than the diameter of the second refrigerant passage 10b is described. The second solenoid valve 14 is provided upstream of the refrigerant storage container 11, and the third solenoid valve 15 is provided downstream thereof.

In addition, between the second solenoid valve 14 and the refrigerant storage container 11, the pressure of the refrigerant storage container 11 is sensed, and when the pressure is high, the second solenoid valve 14 and the third solenoid are detected. When the valve 15 is closed and the pressure is low, the high and low pressure shutoff switch 16 is provided to close the second solenoid valve 14 and open the third solenoid valve 15. .

In addition, the idle pressure removing means 10 is provided with a control unit 17 for controlling the opening and closing of the first, second, third solenoid valves 12, 14, 15. The control unit 17 closes the first solenoid valve 12 and the third solenoid valve 15 immediately before the operation of the compressor 20, while opening the second solenoid valve 14, and opens the compressor. Immediately after the off operation of the 20, the first, second, and third solenoid valves 12, 14, and 15 are all closed, and the first solenoid valve 12 and the on operation of the compressor 20 are closed. The third solenoid valve 15 is set to open.

Hereinafter, the operation of the present invention will be described.

First, the first solenoid valve 12 and the third 15 are closed while the second solenoid valve 14 is opened according to the command of the controller 17 immediately before the compressor 20 is operated off. The high pressure refrigerant existing across the 20 and the condenser 21 is collected in the refrigerant storage container 11 through the second solenoid valve 14 in an open state. Subsequently, immediately after the off operation of the compressor 20, the first, second and third solenoid valves 12, 14 and 15 are closed in response to a command of the controller 17, thereby allowing the refrigerant storage container 11 to be closed. The high pressure refrigerant can be stored. Therefore, the high pressure refrigerant existing across the compressor 20 and the condenser 21 is blocked by the refrigerant storage container 11 so that the high pressure including the evaporator 23 does not reach the low pressure side of the refrigerant circuit and thus the low pressure. The crack of the side can be prevented.

In addition, when the compressor 20 is turned on, the second solenoid valve 13 is kept closed according to the command of the controller 17, and the first and third solenoid valves 12 and 15 are opened. The high pressure refrigerant in the refrigerant storage container 11 is discharged through the third solenoid valve 14, and the refrigerant is a compressor 20, a condenser 21, a first refrigerant passage 10a, a capillary tube 22, and an evaporator. Through 23 it is possible to flow along the normal refrigerant circuit.

According to the present invention as described above, it is possible to prevent the high pressure is applied between the compressor and the condenser by temporarily storing the idle pressure generated when the refrigerator is turned off in the aforementioned refrigerant storage container. Therefore, it is possible to prevent the crack on the low pressure side due to the movement of the refrigerant from the high pressure side to the low pressure side, and to reduce the starting power consumption of the compressor by reducing the standing pressure of the compressor.

Claims (1)

In the refrigerant circuit of the refrigerator connected to the compressor (20), the condenser (21), the capillary tube and the evaporator (23), the first intervening in the first refrigerant passage (10a) between the condenser 21 and the capillary tube (22) A solenoid valve 12 and a check valve 13 connected in series with the first solenoid valve 12; Interposed in the second refrigerant passage (10b) connected in parallel to the first refrigerant passage (10a) between the condenser 21 and the capillary tube 22, and having a larger diameter than the diameter of the second refrigerant passage (10b) Refrigerant storage container (11); A second solenoid valve 14 mounted to the second refrigerant passage 10b upstream of the refrigerant storage container 11; A third solenoid valve (15) mounted in the second refrigerant passage (10b) downstream of the refrigerant storage container (11); The second solenoid valve 14 and the third solenoid valve 15 are closed in the case of high pressure by sensing the pressure of the refrigerant storage container 11, and the second solenoid valve 14 is closed in the case of low pressure. On the other hand, the high and low pressure cut-off switch 16 interposed between the second solenoid valve 14 and the refrigerant storage container 11 to open the third solenoid valve 15; And closing the first solenoid valve 12 and the third solenoid valve 15 immediately before turning off the compressor, opening the second solenoid valve 14, and immediately after turning off the compressor. The control unit 17 is set to close all the 2, 3 solenoid valves 12, 14, 15, and open the first solenoid valve 12 and the third solenoid valve 15 when the compressor is turned on. Refrigerant circuit of a refrigerator having an idle pressure removing means (10) comprising a.