KR101138315B1 - Oil Recovery Apparatus of Refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator oil recovery apparatus, and in particular, a first evaporator, a second evaporator positioned below the first evaporator, and a first connection pipe through which the refrigerant discharged from the first evaporator flows into the compressor. And a second connection pipe through which the refrigerant discharged from the second evaporator passes through the first connection pipe, and an oil reservoir connected to a lower end of the first connection pipe to recover oil when a part of the reservoir is turned off. A refrigerator oil recovery apparatus.

Refrigerator, storage, oil, recovery

Description

Oil Recovery Apparatus of Refrigerator

The present invention relates to a refrigerator oil recovery device.

The conventional refrigerator oil recovery apparatus includes a compressor (1) installed in a machine room, a first evaporator (5) located under the machine room, a second evaporator (6) located under the first evaporator (5), In the third evaporator (7) located below the second evaporator (6), the accumulator (4) disposed between the compressor (1) and the first evaporator (5), and in the first evaporator (5) A first connecting pipe 51 allowing the discharged refrigerant to flow into the accumulator 4 and a second connecting pipe allowing the refrigerant discharged from the second evaporator 6 to flow into the first connecting pipe 51. 61 and third connecting pipes 71 and 72 allowing the refrigerant discharged from the third evaporator 7 to flow into the first connecting pipe 51.

In the prior art according to the first embodiment shown in Figure 1, the second connecting pipe 61 is connected to the lower end of the first connecting pipe 51, the third connecting pipe 71 is the first connection Branched from the bottom of the tube 51, one side is located above the second connecting pipe 61, the other side is connected to the third evaporator (7).

The first evaporator 5 and the third evaporator 7 are turned on, the second evaporator 6 is turned off, or the first evaporator 5 is turned on, and the second evaporator 6 and the When the third evaporator 7 is turned off, oil flows into the second evaporator 6 by gravity, and oil is not recovered by the compressor 1, but stays in the second evaporator 6.

In the prior art according to the second embodiment shown in FIG. 2, the second connecting pipe 61 is branched from the first connecting pipe 51, and one side is positioned above the third connecting pipe 72. The other side is connected to the second evaporator (6), the third connecting pipe 72 is connected to the lower end of the first connecting pipe (51).

The first evaporator 5 and the second evaporator 6 are turned on, the third evaporator 7 is turned off, or the first evaporator 5 is turned on, and the second evaporator 6 and the When the third evaporator (7) is off, it is possible to prevent the oil flow into the second evaporator (6), but the oil flows to the third evaporator (7) by gravity, and oil is not recovered by the compressor (1) It will stay in the third evaporator (7).

In the refrigerator oil recovery apparatus, since the evaporator needs to be turned on at a predetermined interval in order to recover oil by the compressor 1, the temperature of the evaporator is lowered and the storage temperature of the refrigerator is lowered. There is this.

In addition, the performance of the evaporator is lowered, there is a problem that the efficiency of the refrigerator is lowered.

The present invention has been made in order to solve the above-described problem, by installing an oil reservoir separately to facilitate the oil recovery to the compressor even when some of the reservoir is off, by storing the oil not recovered by the compressor separately to recover when restarted The temperature of the reservoir does not decrease.

Refrigerator oil recovery apparatus of the present invention for achieving the above object, the first evaporator, a second evaporator located below the first evaporator, and a first to allow the refrigerant discharged from the first evaporator to be introduced into the compressor A first connection pipe, a second connection pipe through which the refrigerant discharged from the second evaporator passes through the first connection pipe, and an oil reservoir connected to a lower end of the first connection pipe to recover oil when the partial storage is turned off. Include.

The apparatus may further include a third evaporator positioned below the second evaporator, and a third connecting tube allowing the refrigerant discharged from the third evaporator to pass through the first connecting tube.

The oil recovery operation further includes an oil recovery conduit connected to the oil reservoir to recover the oil in the oil reservoir.

According to the refrigerator oil recovery apparatus of the present invention as described above, there are the following effects.

An oil reservoir is installed at the bottom of the first connection pipe, so that some oil reservoirs are stored separately even when the oil tank is off, so that oil can be recovered smoothly when restarting, and since there is no oil flowing into the evaporator, the performance of the evaporator can be improved. have.

The third evaporator and the third connecting pipe for passing the refrigerant discharged from the third evaporator to the first connecting pipe further includes, the oil reservoir is installed at the lower end of the first connecting pipe, to install a plurality of evaporators Can be.

Further comprising an oil recovery induction pipe, the refrigerant discharged from the compressor upon restart can smoothly recover the oil while passing through the oil reservoir.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

For reference, among the configurations of the present invention to be described below, the same configuration as the prior art will be referred to the above-described prior art, and a detailed description thereof will be omitted.

3 is a schematic diagram of a refrigerator oil recovery apparatus according to a preferred embodiment of the present invention.

The refrigerator to which the present invention is applied includes a machine room in which a compressor 1 and a condenser 2 are installed, a first cellar provided at a lower part of the machine room, a second cellar disposed at a lower part of the first cellar, and the first cellar. The first evaporator (5) installed on the outer wall of the, the second evaporator (6) provided on the outer wall of the second reservoir and the refrigerant passing through the condenser (2) to discharge to the evaporators (5, 6, 7) The first passage 52 through which the step valve 3, the refrigerant passing through the step valve 3 flows into the first evaporator 5, and the refrigerant passing through the step valve 3 are connected to the second valve. A second flow passage 62 is introduced into the evaporator 6.

The step valve 3 means a step valve of the prior art.

A condenser 2 for condensing the high temperature and high pressure gas refrigerant discharged from the compressor 1 to a high temperature and high pressure liquid refrigerant, and expanding the high temperature and high pressure liquid refrigerant discharged from the condenser 2 to obtain a low temperature and low pressure. An expansion device (not shown) for changing into a liquid refrigerant and an evaporator (5, 6) for phase-changing the low temperature and low pressure liquid refrigerant passing through the expansion device with ambient air to change into a low temperature and low pressure gas refrigerant. Include.

The gas refrigerant passing through the evaporators 5 and 6 is a mixed refrigerant including some liquid refrigerant, and between the compressor 1 and the first evaporator 4 so that only the gas refrigerant can be sent to the compressor 1. The accumulator 4 may be installed.

As shown in FIG. 3, the refrigerator oil recovery apparatus of the present invention includes a first evaporator 5, a second evaporator 6 positioned below the first evaporator 5, and the first evaporator ( A first connecting pipe 51 allowing the refrigerant discharged from 5) to flow into the compressor 1, and a second allowing the refrigerant discharged from the second evaporator 6 to pass through the first connecting pipe 51. It is connected to the connecting pipe 61 and the lower end of the first connecting pipe 51, and includes an oil reservoir (8) for recovering oil when some of the reservoir off.

The third evaporator 7 positioned below the second evaporator 6 and the third connecting tube 73 allowing the refrigerant discharged from the third evaporator 7 to pass through the first connecting tube 51. And a third passage 75 through which the refrigerant passing through the step valve 3 flows into the third evaporator 6.

The first connecting tube 51 is a form in which the horizontal tube 51a and the vertical tube 51b are combined.

One side of the horizontal tube (51a) of the first connecting tube 51 is connected to the first evaporator (5), the other side is connected to the vertical tube (51b).

The second connecting pipe 61 is parallel to the horizontal pipe 51a of the first connecting pipe 51, one side is connected to the second evaporator 6, and the other side is the number of the first connecting pipes 51. It is connected to the straight pipe 51b.

The third connecting tube 73 is parallel to the horizontal tube 51a and the second connecting tube 61 of the first connecting tube 51, one side is connected to the third evaporator (7), the other side is It is connected to the vertical pipe (51b) of the first connecting pipe (51).

The oil reservoir 8 is connected to the lower end of the vertical pipe 51b of the first connecting pipe 51.

The oil reservoir 8 is connected to the step valve 3 by an oil recovery induction pipe 80.

The oil recovery induction pipe (80), during the oil recovery operation, the refrigerant passing through the step valve (3) flows into the oil reservoir (8), leading to recover the oil in the oil reservoir (8).

Hereinafter, the operation of the present embodiment having the above-described configuration will be described.

When the first evaporator 5 and the second evaporator 6 are turned on and the third evaporator 7 is turned off, the compressor 1 is operated so that the first flow passage 52 and the second flow passage 62 are closed. It opens and the third flow path 75 is closed.

The refrigerant having passed through the compressor (1) and passed through the condenser (2) passes through the first passage (52) and the second passage (62) in an open state, and thus the first evaporator (5) and the second evaporator. When entering the accumulator 4 via (6), a part of the oil is stored in the oil reservoir (8) through the first connecting pipe (51).

During the oil recovery operation, the oil recovery induction pipe 80 is opened so that the oil stored in the oil reservoir 8 is recovered to the compressor 1.

When the first evaporator 5 and the third evaporator 7 are turned on and the second evaporator 6 is turned off, the compressor 1 is operated so that the first flow passage 52 and the third flow passage 75 are closed. It opens and the second flow path 62 is closed.

The refrigerant having passed through the compressor (1) and passed through the condenser (2) passes through the first passage (52) and the third passage (75) in an open state, and thus the first evaporator (5) and the third evaporator. When entering the accumulator 4 via (7), a portion of the oil is stored in the oil reservoir (8) through the first connecting pipe (51).

In the oil recovery operation, the oil recovery induction pipe 80 is opened, and the oil stored in the oil reservoir 8 is recovered by the compressor 1.

When the first evaporator 5 is turned on and the second evaporator 6 and the third evaporator 7 are turned off, the compressor 1 is operated to open the first flow passage 52 and the second flow passage 62. And the third passage 75 is closed.

When the refrigerant passing through the condenser 2 through the compressor 1 passes through the first flow passage 52 in an open state and enters the accumulator 4 through the first evaporator 5, A part is stored in the oil reservoir 8 through the first connecting pipe 51.

During the oil recovery operation, the oil recovery induction pipe 80 is opened, and the oil stored in the oil reservoir 8 is recovered by the compressor 1.

The refrigerator oil recovery apparatus has an advantage that the temperature of the storage does not decrease since oil does not flow into the evaporator due to gravity, and thus the evaporator does not have to be operated at a predetermined time.

In addition, during the oil recovery operation, there is an advantage that some oil dropped due to the refrigerant flow through the evaporator is stored separately and smoothly recovered by the compressor 1.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art various modifications or variations of the present invention without departing from the spirit and scope of the invention described in the claims below Can be carried out.

As described above, the refrigerator oil recovery apparatus according to the present invention is particularly suitable for a refrigerator having an upper machine room or a plurality of evaporators.

1 is a schematic view of a refrigerator oil recovery device according to a first embodiment of the prior art.

Figure 2 is a schematic diagram of a refrigerator oil recovery apparatus according to a second embodiment of the prior art.

3 is a schematic view of a refrigerator oil recovery apparatus according to a preferred embodiment of the present invention.

DESCRIPTION OF REFERENCE NUMERALS

1: compressor 2: condenser

3: step valve 4: accumulator

5: first evaporator 6: second evaporator

7: third evaporator 8: oil reservoir

51: first connector 51a: horizontal tube of the first connector

51b: vertical pipe of the first connector 52: first channel

61: second connector 62: second euro

71,72,73: third connector 75: third euro

80: oil recovery induction pipe

Claims (3)

First evaporator; A second evaporator located below the first evaporator; A horizontal tube of a first connection tube allowing the refrigerant discharged from the first evaporator to flow into the compressor; A vertical tube of the first connecting tube allowing the refrigerant discharged from the horizontal tube of the first connecting tube to flow into the compressor; A second connecting pipe allowing the refrigerant discharged from the second evaporator to pass through the vertical pipe of the first connecting pipe; An oil reservoir connected to a lower end of the vertical pipe of the first connection pipe to recover oil when a part of the reservoir is turned off; A step valve for introducing the refrigerant discharged from the compressor into the first evaporator and the second evaporator; Including; oil recovery induction pipe connecting the step valve and the oil reservoir; During the oil recovery operation, the refrigerant passing through the step valve flows into the oil reservoir through the oil recovery induction pipe, and the oil flows through the vertical pipe of the first connection pipe connected to the oil reservoir to the compressor. Refrigerator oil recovery device, characterized in that. The method of claim 1, And a third evaporator positioned below the second evaporator, and a third connecting tube allowing the refrigerant discharged from the third evaporator to pass through the vertical tube of the first connecting tube. delete

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