KR100629354B1 - Oil separator of air conditioner - Google Patents

Abstract

An oil separator for an air conditioner is provided to prevent oil from being scattered by separating oil from gas refrigerant by mounting a screen holder in a lower part of a screen, and to prevent oil from flowing into a refrigerant discharge pipe by moving oil into an oil recovery pipe with the screen holder. An oil separator(100) includes a body(102) having an oil recovery hole(101) and storing oil and gas refrigerant, a refrigerant injection pipe(104) circumferentially injecting oil and gas refrigerant into the body by penetrating a side of the body and centrifugally separating and dropping oil and gas refrigerant, a refrigerant discharge pipe(106) extracting gas refrigerant in the body, a screen(170) installed in the body and penetrated by the refrigerant discharge pipe to additionally separate falling oil, and a screen holder(108) installed in a lower part of the screen to prevent separated oil from flowing into the refrigerant discharge pipe and to drop separated oil to the oil recovery hole. The screen holder is installed at an end of the refrigerant discharge pipe in a lower part of the refrigerant injection pipe of the body.

Description

Oil separator of air conditioner {Oil separator of air conditioner}

1 is a schematic perspective view of an air conditioner according to the present invention,

2 is a cross-sectional view showing an oil separator according to the present invention,

3 is a sectional perspective view showing an oil discharge state of the oil separator according to the present invention;

4 is a plan view showing a screen holder of an oil separator according to the present invention,

5 is a sectional view showing an oil separator according to the prior art.

<Explanation of symbols on main parts of the drawings>

50: indoor unit 60: indoor unit

70: indoor unit 80: outdoor unit

90: compressor 100: oil separator

101: oil recovery port 102: body

104: refrigerant injection tube 106: refrigerant discharge tube

108: screen holder 120: oil return tube

150: discharge tube through-hole 160: hole

170: screen

The present invention relates to an oil separator of an air conditioner, wherein an air conditioner having a screen holder equipped with a screen for separating oil and gas refrigerant further centrifugally separated inside the oil separator is mounted inside the body to improve oil separation performance. Relates to an oil separator.

In general, an air conditioner is composed of a compressor, an outdoor heat exchanger, an expander, and an indoor heat exchanger. When cooling, the outdoor heat exchanger and an indoor heat exchanger serve as condensers and evaporators, respectively, to cool an interior. The heat exchanger serves as an evaporator and a condenser, respectively, to heat the room.

Recently, a multi-type air conditioner that connects a plurality of indoor units to one outdoor unit and uses the outdoor unit in common and heats each of the plurality of indoor units is increasing.

In such an air conditioner, the frequency of using a plurality of compressors to increase the capacity, number, or efficiency of the compressor of an indoor heat exchanger is increasing.

The air conditioner is provided with an oil separator which separates gas refrigerant and oil discharged from the plurality of compressors and supplies the separated oil to the plurality of compressors.

5 is a sectional view showing an oil separator according to the prior art.

As shown in FIG. 5, the oil separator 10 according to the related art includes a body 12 storing oil and a gaseous refrigerant and having an oil return pipe 18 formed therein, and the body 12. Refrigerant injection pipe 14 for injecting and separating the oil and gaseous refrigerant discharged from the compressor (not shown) in the circumferential direction and the refrigerant for extracting the separated gaseous refrigerant inside the body 12 It is comprised including the discharge pipe 20.

Looking at the operation of the oil separator 10 according to the prior art configured as described above are as follows.

When the compressor is driven, the oil and gas refrigerant moved from the compressor is supplied into the body 12 of the oil separator 10 through the refrigerant injection pipe 14.

At this time, the refrigerant injection pipe 14 injects the oil and gas refrigerant in the circumferential direction inside the body 12, and the oil and gas refrigerant collide with the inner wall surface of the body 12.

Here, the oil is taken down the inner wall surface of the body 12 to the lower portion of the body 12 is recovered through the oil recovery pipe 18 to the compressor side, the gas refrigerant is the refrigerant discharge pipe 20 Is moved to).

However, the oil separator 10 according to the related art is based on the pressure and temperature of the gas refrigerant supplied from the oil and the gas refrigerant circumferentially injected into the body 12 through the refrigerant injection pipe 14. There is a problem that the separation rate is different.

Therefore, the oil separator 10 according to the prior art does not properly separate the oil and gas refrigerant, there is a problem that some oil is introduced into the refrigerant discharge pipe (20).

The present invention was created to solve the above problems of the prior art, the screen holder equipped with a screen for further separating the oil and gas refrigerant centrifugally separated in the oil separator is mounted inside the body to improve the oil separation performance The purpose is to provide an oil separator of an air conditioner.

The oil separator of the air conditioner according to the present invention for solving the above problems is the oil and gas refrigerant is stored in the lower body and the oil recovery port is formed; A refrigerant injection tube penetrating through one side of the side of the body and injecting the oil and gas refrigerant in the circumferential direction inside the body to separate the oil and gas refrigerant by centrifugal force and fall downward; A refrigerant discharge tube for extracting the gas refrigerant inside the body; A screen mounted inside the body to allow the refrigerant discharge pipe to pass therethrough and to further separate the falling oil; It is mounted to the lower portion of the screen is configured to include a screen holder to prevent the oil flowing into the refrigerant discharge pipe.

The screen holder is mounted at an end of the refrigerant discharge tube under the refrigerant injection tube inside the body.

A burring-shaped discharge tube through hole penetrating the refrigerant discharge tube is formed at the center of the screen holder to fix the refrigerant discharge tube.

In addition, a plurality of hole portions are formed at an edge of the screen holder at a predetermined distance in the circumferential direction.

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

1 is a schematic perspective view of an air conditioner according to the present invention, FIG. 2 is a cross-sectional view showing an oil separator according to the present invention, and FIG. 3 is a cross-sectional perspective view showing an oil discharge state of the oil separator according to the present invention. 4 is a plan view showing a screen holder of an oil separator according to the present invention.

As shown in Figures 1 to 4, since the air conditioner according to the present invention is composed of a plurality of cycles driven separately, a plurality of indoor units 50, 60, 70 and one outdoor unit 80 It is composed.

Therefore, in the air conditioner as described above, a plurality of compressors 90 are used to improve the efficiency.

The air conditioner is provided with an oil separator 100 that separates gaseous refrigerant and oil discharged from the plurality of compressors 90 and supplies the separated oil to the plurality of compressors 90. .

The oil separator 100 stores the oil and gaseous refrigerant and penetrates the body 102 through which the oil recovery port 101 is formed in the lower center, and passes through one side of the body 102 to the oil and gaseous refrigerant. (102) a refrigerant injection pipe (104) for injecting in the circumferential direction to separate the oil and gas refrigerant by centrifugal force and drop downward; A refrigerant discharge pipe (106) for extracting the gas refrigerant inside the body (102); A disk-shaped screen 170 mounted inside the body 102 to penetrate the refrigerant discharge pipe 106 and further separating the falling oil; and a lower screen 170 mounted below the screen 170. It is configured to include a screen holder 108 to prevent the oil is introduced into the refrigerant discharge section 106 and the separated oil to the oil recovery port 101 side.

Here, the oil recovery port 101 is equipped with an oil recovery pipe 120 connected to the compressor (90).

In addition, the oil recovery pipe 120 is provided with a capillary tube (not shown) to prevent the oil flowing back, so that the oil flows into the compressor 90 little by little.

In addition, the refrigerant injection pipe 104 is connected to the compressor 90 to supply oil and gas refrigerant discharged from the plurality of compressors 90 into the body 102 of the oil separator 100.

In addition, the coolant injection pipe 104 has an end 104a formed in the circumferential direction of the body 102 so that oil and gas coolant are injected in the circumferential direction of the body 102.

The refrigerant discharge pipe 106 penetrates the upper surface of the body 102 and is partially disposed inside the body 102.

That is, a cylindrical flow path is formed between the inner wall surface of the body 102 and the outer wall surface of the refrigerant discharge tube 106 in the body 102.

The screen holder 108 penetrates the end 106a of the refrigerant discharge pipe 106 together with the screen 170 and is mounted inside the body 102.

Here, a discharge tube through hole 150 through which the refrigerant discharge tube 106 penetrates is formed at the center of the screen holder 108.

Here, the discharge tube through hole 150 of the screen holder 108 is formed in a burring shape, and serves to fix the refrigerant discharge tube 106 inside the body 102.

In addition, a plurality of holes 160 are formed at an edge of the screen holder 108 at a predetermined distance in the circumferential direction of the screen 108.

The screen holder 108 is made of stainless material.

Hereinafter, the operation of the oil separator 100 of the air conditioner according to the present invention configured as described above is as follows.

First, the oil and gas refrigerant are supplied in a direction toward the end 104a of the refrigerant injection tube 104, that is, in a direction along the central axis of the body 102 and along an inner wall surface of the body 102. It is flowed in a circumferential direction.

The oil and gas refrigerant is pivoted down several times along the inner wall surface of the body 102, in particular the body 102, the collision between the oil particles is increased to combine the oil particles, the specific gravity of the oil and gas refrigerant The oil is centrifuged from the gaseous refrigerant by the difference.

Here, the oil falls down on the inner wall surface of the body, the separation rate of the oil and gas refrigerant is changed according to the pressure or temperature state of the oil and gas refrigerant discharged from the refrigerant injection pipe 104, Oil flows down the inner wall of the refrigerant discharge pipe 106.

Thereafter, the separated oil and gas refrigerant are separated by the screen 170 again.

In detail, the oil of the oil and gas refrigerant is collected by the screen 170 and dropped, and the gas refrigerant falls through the screen 170.

Thereafter, the oil is dropped to the lower portion of the body 102 through the plurality of hole portions 160 of the screen holder 108 and moved to the oil recovery pipe 120, and the gas refrigerant is transferred to the plurality of hole portions ( The refrigerant is discharged from the body 102 to the refrigerant discharge pipe 106 through the 160.

Therefore, the oil is prevented from flowing directly into the refrigerant discharge pipe 106 by the screen holder 108 via the refrigerant discharge pipe 106 on the wall.

The oil separator of the air conditioner according to the present invention constituted as described above is provided with a screen holder having a plurality of holes formed through the end of the refrigerant discharge pipe and mounted in the body at the bottom of the screen, and is introduced into the body. The oil and gas refrigerant which are separated by centrifugation are prevented from being separated again by the screen and prevented from being scattered to the surroundings, and then fall through the hole of the screen holder to prevent the oil from flowing into the refrigerant discharge pipe. .

Claims (4)

A body in which oil and gaseous refrigerants are stored and an oil recovery port is formed at the bottom thereof; A refrigerant injection tube penetrating through one side of the side of the body and injecting the oil and gas refrigerant in the circumferential direction inside the body to separate the oil and gas refrigerant by centrifugal force and fall downward; A refrigerant discharge tube for extracting the gas refrigerant inside the body; A screen mounted inside the body to allow the refrigerant discharge pipe to pass therethrough and to further separate the falling oil; And a screen holder mounted on the lower portion of the screen to prevent oil from flowing into the refrigerant discharge pipe. The method according to claim 1, The screen holder is the oil separator of the air conditioner, characterized in that mounted to the end of the refrigerant discharge pipe under the refrigerant injection pipe inside the body. The method according to claim 2, And a burring-shaped discharge tube through-hole penetrating the refrigerant discharge tube to fix the refrigerant discharge tube in the center of the screen holder. The method according to any one of claims 1 to 3, The oil separator of the air conditioner, characterized in that a plurality of holes are formed at the edge of the screen holder spaced apart a predetermined distance in the circumferential direction.

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