KR101378489B1 - Structure for recovery the oil of refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator oil recovery structure, the structure includes a compressor; Accumulators; At least two evaporators connected to the accumulator; A connecting pipe connecting the accumulator and the suction part of the compressor; One end is introduced into the accumulator, the other end is connected to the compressor, and a capillary tube for recovering the oil in the accumulator to the compressor; According to the above structure, the first evaporator when the refrigerator ON / OFF It prevents the low temperature refrigerant flowing into the second and third evaporators due to the weight difference and the pressure difference to completely block the refrigerant flowing into the second and third evaporators, thereby greatly improving the temperature of the refrigerator. By returning the oil to the compressor, it is possible to provide the oil required to drive the compressor to improve the performance and durability of the compressor.

Description

Structure for recovery the oil of refrigerator

The present invention can improve the performance and durability of the compressor, and relates to a refrigerator oil recovery structure for greatly improving the temperature of the refrigerator.

In general, a refrigeration cycle unit is a condenser for condensing a high-temperature, high-pressure gas refrigerant discharged from the compressor to a high-temperature, high-pressure liquid refrigerant, and by expanding the high-temperature and high-pressure liquid refrigerant from the condenser, low-temperature low-pressure liquid refrigerant And an evaporator for converting the low temperature and low pressure liquid refrigerant through the expansion device into a low temperature and low pressure gas refrigerant.

The gas refrigerant passing through the evaporator is a mixed refrigerant with some liquid refrigerant. Therefore, an accumulator is disposed between the compressor and the evaporator to separate the liquid refrigerant from the mixed refrigerant so that only the gas refrigerant can be sent to the compressor.

3 illustrates a structure in which a conventional accumulator and an evaporator are connected.

Referring to FIG. 3, one end of the accumulator 4 is provided with an outlet pipe 5 through which the gas refrigerant separated from the mixed refrigerant flows out.

The other end of the accumulator (4) is connected to the connecting pipe (6) connected to the third evaporator (3), the first branch pipe (7) branched from the connecting pipe (6) is connected to the first evaporator (1) Another second branch pipe 8 branched from the connecting pipe 6 is connected to the second evaporator 2.

The connection structure of the conventional accumulator and the evaporator has the following problems.

When the refrigerator is turned on or off, the low-temperature refrigerant flowing into the first evaporator 1 flows into the second evaporator 2 and the third evaporator 3 due to its own weight and the pressure difference, A temperature difference is generated that lowers the temperature by 1 to 2 ° C.

As such, the temperature of the second and third evaporators 2 and 3 is lowered, and thus the storage temperature of the refrigerator is lowered. Thus, the constant temperature of the refrigerator cannot be maintained and the storage stored in the refrigerator is damaged.

In addition, the oil collected in the accumulator 4 is not discharged and accumulates in the lower part of the accumulator 4.

Such a refrigeration cycle apparatus has a problem in that the performance of the compressor is deteriorated because it does not provide an appropriate amount of oil for lubrication when driving the compressor.

Furthermore, since the refrigerant is not circulated smoothly by the remaining oil, there is a problem that the cooling performance of the evaporator is lowered.

In addition, as the oil provided to the compressor by the remaining oil is reduced, there is a problem that the compressor is worn and damaged or the life is shortened accordingly.

The present invention has been made to solve the above-mentioned problems, to provide a refrigerator oil recovery structure that can provide the oil required for driving the compressor to improve the performance and durability of the compressor, and greatly improve the temperature of the refrigerator. The purpose is.

The present invention is a compressor; Accumulators; At least two evaporators connected to the accumulator; A connecting pipe connecting the accumulator and the suction part of the compressor; One end is introduced into the accumulator, the other end is connected to the compressor, capillary tube for recovering the oil in the accumulator to the compressor; includes.

In the present invention, the other end of the capillary tube may be connected to the process unit of the compressor.

In the present invention, the other end of the capillary tube may be connected to the suction part of the compressor.

According to the refrigerator oil recovery structure of the present invention, there are the following effects.

A connecting pipe 60 is provided to connect the accumulator 20 and the suction part 11 of the compressor 10 so that the low-temperature refrigerant flowing into the first evaporator 30 when the refrigerator is turned on or off is removed by the weight and the pressure difference. By preventing the inflow into the second and third evaporators 40 and 50, the refrigerant flowing into the second and third evaporators 40 and 50 is completely blocked, thereby greatly improving the refrigerator's temperature.

In addition, by recovering the oil in the accumulator 20 to the compressor 10, the oil required for driving the compressor 10 may be provided to improve the performance and durability of the compressor 10.

1 is a schematic view showing a refrigerator oil recovery structure according to a first embodiment of the present invention.
Figure 2 is a schematic diagram showing a refrigerator oil recovery structure according to a second embodiment of the present invention.
Figure 3 is a schematic diagram showing a connection structure of the accumulator and the evaporator of the conventional refrigerator.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

As shown in Figure 1, the refrigerator oil recovery structure according to the first embodiment of the present invention is provided with an accumulator 20, the accumulator 20 is a mixed refrigerant to send only the gas refrigerant to the compressor (10) It is provided to separate the liquid refrigerant in, and is disposed between the compressor 10 and the evaporator.

A suction unit 11 and a discharge unit 15 are provided at one side of the compressor, and a processor 13 is provided at the other side.

The evaporator is connected to the accumulator 20 and provided with at least two. In the present embodiment, the first evaporator 30, the second evaporator 40 disposed below the first evaporator 30, and the second evaporator 30 are provided. The third evaporator 50 is disposed below the evaporator 40.

One end of the first connecting pipe 80 is connected to the outlet side of the third evaporator 50, and the other end of the first connecting pipe 80 is connected to the accumulator 20.

One end of the second connecting pipe 90 is connected to the outlet side of the first evaporator 30, and the other end of the second connecting pipe 90 is connected to a predetermined position of the first connecting pipe 80.

One end of the third connecting pipe 100 is connected to the outlet side of the second evaporator 40, and the other end of the third evaporator 50 is connected to a predetermined position of the first connecting pipe 80.

On the other hand, the connecting tube 60 connects the suction unit 11 of the accumulator 20 and the compressor 10, and thus, the connecting tube 60 is provided and flows to the first evaporator 30 when the refrigerator is turned on or off. The low-temperature refrigerant is prevented from flowing into the second and third evaporators 40 and 50 due to its own weight and pressure difference, thereby completely blocking the refrigerant flowing into the second and third evaporators 40 and 50, thereby allowing the refrigerator to maintain It can be greatly improved.

One end of the capillary tube 70a flows into the accumulator 20. That is, even the part in which the oil in the accumulator 20 accumulates is inserted.

The other end of the capillary tube 70a is connected to the processor unit 13 of the compressor 10, so that oil in the accumulator 20 may be recovered by the compressor 10.

In this way, by recovering the oil in the accumulator 20 to the compressor 10, it is possible to improve the performance and durability of the compressor 10 by providing the oil necessary for driving the compressor 10.

On the other hand, the refrigerator oil recovery structure according to the second embodiment of the present invention is shown in FIG. In the second embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted.

The connecting pipe 60 connects the accumulator 20 and the suction part 11 of the compressor 10.

One end of the capillary tube 70b flows into the accumulator 20. That is, even the part in which the oil in the accumulator 20 accumulates is inserted.

The other end of the capillary tube 70b is connected to the suction unit 11 of the compressor 10, so that oil in the accumulator 20 can be recovered by the compressor 10.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

10 compressor 11 suction part
13 processor section 15 discharge unit
20: accumulator 30: first evaporator
40: second evaporator 50: third evaporator
60: connector 70a, 70b: capillary
80: first connector 90: second connector
100: third connector

Claims (3)

compressor;
Accumulator;
At least two evaporators connected to the accumulator;
A connecting pipe connecting the accumulator and the suction part of the compressor;
A capillary tube having one end introduced into the accumulator and the other end connected to the compressor to recover oil inside the accumulator to the compressor.
One end of the capillary is inserted from the top to the bottom of the accumulator,
Refrigerator oil recovery structure characterized in that the other end of the capillary tube is connected to the process unit of the compressor or the suction unit of the compressor. delete delete

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