KR100590653B1 - Device for Separating Compressor Lubricant Oil from Refrigerant Line of Air Conditioner - Google Patents

Abstract

The present invention discloses a compressor oil separator for an air conditioner in which refrigeration oil for compressor lubrication discharged from the compressor is separated from the refrigerant and circulated back to the compressor without passing through the heat exchanger of the air conditioner.

The main configuration of the present invention is installed in the piping of the refrigerant from the compressor to the condenser to separate the refrigerant and oil discharged from the compressor, the refrigerant is introduced into the condenser and the oil while heating the refrigerant from the evaporator to the compressor while the In a compressor oil separator of an air conditioner comprising a three-way oil separator having an oil return pipe connected to a pipe from the evaporator to the compressor to be returned to the compressor, wherein the three-way oil separator is a refrigerant-oil connected to the compressor. A three-way pipe having an inlet, a refrigerant outlet connected to the condenser, and an oil outlet connected to the oil return pipe, respectively; Oil separation holes are formed in the pipe of the three-way pipe along the refrigerant outlet direction and bisect the inside of the pipe up and down, and are opened toward the oil outlet port, and between the oil separation holes. The guide plate for inducing the oil to fall into the oil separation hole due to the specific gravity difference in the refrigerant-oil flowing to the top of the way pipe;

Air conditioner, compressor, oil, condenser, refrigerant, 3-way oil separator, specific gravity

Description

Compressor Oil Separator for Air Conditioner {Device for Separating Compressor Lubricant Oil from Refrigerant Line of Air Conditioner}             

1 is a block diagram showing a conventional air conditioning system

2 is a block diagram showing an air conditioner system having an oil separation device of the present invention.

3: A partial cutaway perspective view of the three-way oil separator of FIG. 2

4: A partial cutaway perspective view of the three-way oil separator of FIG. 3 from different angles.

<Explanation of symbols for the main parts of the drawings>

10 compressor 20 condenser

30 receiver drier 40 expansion valve

50: evaporator 60: piping

70: three-way oil separator 71: oil return tube

72: 3-way pipe 72a: refrigerant-oil inlet

72b: refrigerant outlet 72c: oil outlet

72d: slide groove 73: plate

73a: oil separation hole 73b: guide plate

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly, to a compressor oil separator for an air conditioner, in which oil supplied for lubrication to the compressor of the air conditioner is separated from the refrigerant so as not to circulate the air conditioner system together with the refrigerant.

Conventional air conditioner system, as shown in Figure 1, the compressor (10), condenser (20), receiver dryer (30), expansion valve (40), each device of the evaporator (50) piping 60 The refrigerant is circulated through the heat exchange to perform cooling or heating. That is, the refrigerant gas compressed by the high temperature and high pressure in the compressor 10 is liquefied by being forcedly cooled in the condenser 20, and only the liquid refrigerant in a state in which water and foreign substances contained in the refrigerant are removed while passing through the receiver dryer 30. It is sent to the expansion valve 40 and enters the evaporator 50 in a state of low temperature and low pressure, and takes the heat of the ambient air from the evaporator 50 and performs a circulation process which is sucked back into the compressor 10.

On the other hand, among the above devices, the compressor 10 is coated with refrigeration oil for lubrication during the operation of the piston for the compression of the refrigerant, which is accidentally discharged together with the refrigerant from the compressor 10 when the air conditioner is operating This will cycle the air conditioning system. As such, the lubrication refrigeration oil of the compressor circulating the air conditioning system together with the refrigerant causes the following problems. First, since the viscosity and specific gravity of the oil is greater than that of the refrigerant, the oil does not cause a phase change even when the refrigerant is phase-changed by heat exchange in the condenser 20 and the evaporator 50. And degrades performance. Second, although the refrigeration oil is only used for the compressor, the entire air conditioner system is circulated. If the amount returned to the compressor 10 is small in this circulation process, the compressor ( 10) Damage may occur. Third, in the circulation of the refrigerant, when the refrigerant exits the evaporator 50 and enters the compressor 10, the liquid refrigerant may be damaged due to the liquid compression. In addition, the deterioration of the heat exchanger as mentioned above weakens the overall performance of the air conditioner, so a larger capacity heat exchanger is required, which not only violates the recent trend of compactness of the air conditioner, but also causes a price increase. In the case of a vehicle air conditioner, there is a problem in terms of design because the mounting space of the air conditioner is limited.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned general problems, and an object of the present invention is to provide an air conditioner in which a refrigerant oil for lubricating compressor discharged from a compressor is separated from a refrigerant without passing through a heat exchanger of the air conditioner and circulated back to the compressor. To provide a compressor oil separator.

Compressor oil separator of the air conditioner according to the present invention for achieving the above object is installed in the pipe of the refrigerant from the compressor to the condenser to separate the refrigerant and oil discharged from the compressor, the refrigerant to be introduced into the condenser The oil consists of a three-way oil separator having an oil return line connected to a pipe from the evaporator to the compressor to return to the compressor while heating the refrigerant from the evaporator to the compressor, wherein the three-way oil separator is connected to the compressor. A three-way pipe having a refrigerant-oil inlet connected thereto, a refrigerant outlet connected to the condenser, and an oil outlet connected to the oil return pipe; Oil separation holes are formed in the pipe of the three-way pipe along the refrigerant outlet direction and bisect the inside of the pipe up and down, and are opened toward the oil outlet port, and between the oil separation holes. The guide plate for inducing the oil to fall into the oil separation hole due to the specific gravity difference in the refrigerant-oil flowing to the upper portion of the way pipe;

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In addition, a slide groove is formed on the inner circumferential surface of the three-way pipe, it is preferable that the diaphragm is coupled to the slide groove is brazed welding.

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

2 is a block diagram illustrating an air conditioner system in which an oil separation device of the present invention is interposed, and the same parts as in FIG. 1 will be described with the same reference numerals. As shown, the air conditioning system is constructed along a pipe 60 from the compressor 10 to the condenser 20, the receiver drier 30, the expansion valve 40 and the evaporator 50, the oil of the present invention. The separator is installed on the pipe 60 between the compressor 10 and the condenser 20. Accordingly, the oil separator of the present invention separates oil and refrigerant discharged from the compressor 10 on a pipe 60 of the refrigerant directed from the compressor 10 to the condenser 20, and the refrigerant flows into the condenser 20. The oil is introduced into the pipe from the evaporator 50 to the compressor 10. In particular, the oil separator of the present invention is embodied as a three-way oil separator (70), the three-way oil separator (70) is an oil return pipe (71) connected to the pipe from the evaporator (50) to the compressor (10) ), The refrigerant and the oil which are directed from the evaporator 50 to the compressor 10 join. Since the oil returned to the compressor 10 by joining the refrigerant is a high temperature state, the refrigerant entering the compressor 10 is heated so that the liquid compression does not occur in the compressor 10.

On the other hand, a more specific configuration for the three-way oil separator 70 is shown in Figures 3 and 4 attached. Referring to the drawings, it can be seen that the three-way oil separator 70 of the present invention is largely composed of two elements. That is, it can be divided into a three-way pipe 72 having three outlets and a diaphragm 73 installed in the three-way pipe 72. First, the three-way pipe 72 is connected to the compressor 10 and a refrigerant-oil inlet 72a through which a mixture of refrigerant and oil flows from the compressor 10 into the three-way pipe 72. A refrigerant outlet 72b connected to the condenser 20 to discharge the refrigerant separated from the oil to the condenser 20, and an oil separated from the refrigerant connected to the oil return pipe 71 described above. The oil outlet 72c is provided, respectively. Next, the diaphragm 73 is installed in the pipe of the three-way pipe 72 along the refrigerant | coolant outlet 72b side direction, and divides the inside of a pipe up and down, and the refrigerant | coolant toward the upper part of the 3-way pipe 72- It consists of a plate that allows the oil to flow, the partition 73 is formed with a plurality of oil separation holes (73a) opened toward the oil outlet (72c), between the oil separation holes (73a) A guide plate 73b is formed to be inclined to induce the oil to fall into the oil separation hole 73a due to the specific gravity difference in the refrigerant-oil flowing to the upper portion of the -way pipe 72. On the other hand, a slide groove 72d is formed on the inner circumferential surface of the three-way pipe 72, and brazing welding is performed in a state where the partition 73 is slidingly coupled to the slide groove 72d.

The oil separator of the present invention configured as described above separates the refrigerant and the oil by the following process.

First, the high temperature and high pressure refrigerant gas is discharged together with the oil from the compressor 10 and flows into the 3-way oil separator 70 on the way to the condenser 20 through the pipe 60. In addition, the refrigerant gas and oil flowing into the refrigerant-oil inlet 72a formed in the three-way pipe 72 of the three-way oil separator 70 flow through the upper portion of the three-way pipe 72. Since the gas is in the gas state and the oil is in the liquid state, the refrigerant and the oil flow up and down by the specific gravity difference. That is, the refrigerant gas having a specific gravity smaller than that of the oil flows upward, and the oil having a specific gravity greater than the refrigerant gas flows downward from the refrigerant gas. Accordingly, the refrigerant gas flows out of the three-way pipe 72 through the refrigerant outlet 72b and flows to the condenser 20, and the oil is dropped below the oil separation hole 73a by the guide plate 73b. It is discharged to the outlet 72c. In particular, the oil discharged to the oil outlet 72c flows into the oil recovery pipe 71 and flows into the pipe from the evaporator 50 to the compressor 10 and joins the refrigerant discharged from the evaporator 50. Since the oil at this time is in a high temperature state, the oil is heated when the refrigerant is discharged from the evaporator 50, thereby preventing the refrigerant returned to the compressor 10 from being compressed.

As described above, the compressor oil separator of the air conditioner according to the present invention allows the compressor lubricating refrigeration oil discharged from the compressor to be separated from the refrigerant without passing through the heat exchanger of the air conditioner and circulated back to the compressor. Exert.

First, since the oil that does not cause a phase change in the heat exchanger does not flow into the heat exchanger, the efficiency and performance of the heat exchanger is significantly improved compared to the conventional.

Second, since almost all of the oil discharged from the compressor is returned to the compressor, the compressor is lubricated smoothly, thereby preventing damage to the compressor and contributing to increasing the service life.

Third, the oil returned to the compressor joins the refrigerant from the evaporator to the compressor and heats the refrigerant to prevent the liquid from being compressed in the compressor.

Fourth, as the efficiency and performance of the heat exchanger are improved, the overall performance of the air conditioner is improved and contributes to the compactness of the air conditioner.

Claims (3)

delete It is installed in the piping of the refrigerant from the compressor to the condenser to separate the refrigerant and oil discharged from the compressor, the refrigerant is introduced into the condenser and the oil is returned to the compressor while heating the refrigerant from the evaporator to the compressor from the compressor from the evaporator In the compressor oil separator of an air conditioner comprising a three-way oil separator having an oil return pipe connected to a pipe directed to the The three-way oil separator, A three-way pipe having a refrigerant-oil inlet connected to the compressor, a refrigerant outlet connected to the condenser, and an oil outlet connected to the oil return pipe; Oil separation holes are formed in the pipe of the three-way pipe along the refrigerant outlet direction and bisect the inside of the pipe up and down, and are opened toward the oil outlet port, and between the oil separation holes. Compressor oil separator of the air conditioner, characterized in that consisting of a plate is formed inclined guide plate for inducing oil to fall into the oil separation hole due to the specific gravity difference in the refrigerant-oil flowing to the top of the way pipe. The method of claim 2, A slide groove is formed on an inner circumferential surface of the three-way pipe, and the diaphragm is coupled to the slide groove by sliding to weld the brazing compressor to the air conditioner.

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