KR20010017581A - Accumulator of compressor - Google Patents

Abstract

PURPOSE: An accumulator of a compressor is provided to minimize resistance by resonance effect and to reduce vibration and noise thereby by changing the diameter of a connecting tube in an accumulator body when refrigerant flows into a compressor through the connecting tube from the accumulator. CONSTITUTION: An accumulator of a compressor is comprised of: an accumulator body(201) having a refrigerant inlet port(201a) on the upper end and a hollow portion(201b) connected with the refrigerant inlet port; a connecting tube(202) inserting a specific length of end portion to the hollow portion of the accumulator body and having a lower end connected to a compressor body(1); a screen holder(204) with a screen(203), positioned between the refrigerant inlet port and the connecting tube in the hollow portion; and an oil hole(205) set on the lower portion in the accumulator body to be connected with the connecting tube. A part of the connecting pipe positioned on the hollow portion of the accumulator body is extended to have a larger diameter(A) than the other portions. Therefore, resistance is minimized when refrigerant flows into the compressor through the connecting tube.

Description

Accumulator of compressor

The present invention relates to the field of compressors, and more particularly to an accumulator that serves to prevent the liquid refrigerant from flowing directly into the compressor body forming the refrigeration cycle.

In general, a compressor is a component of a refrigeration cycle of various cooling devices such as a refrigerator or an air conditioner, and is used for compressing a low temperature low pressure gas refrigerant into a high temperature high pressure gas refrigerant. An accumulator (2) provided in a state connected to one side of the compressor main body to separate the refrigerant into a gas and a liquid so that the refrigerant in the liquid state does not flow into the compressor main body 1 and supply only the gaseous refrigerant to the compressor (2) It consists of).

The conventional configuration of the accumulator 2 has an accumulator body 21 having a coolant inlet 21a at an upper end thereof and a hollow part 21b in a state in communication with the coolant inlet, and a hollow part 21b of the accumulator body. End portion is received in a predetermined length and the lower end is connected to the compressor body (1) 22, the refrigerant inlet (21a) formed on the upper end of the accumulator body 21 and the hollow portion of the accumulator body (21) It is fixed in a state located between the connecting pipes 22 accommodated in the 21b so that the oil in the refrigerant flowing through the refrigerant inlet 21a does not fall directly below the refrigerant inlet but falls to the circumferential portion while the various kinds in the refrigerant A screen holder 24 having a screen 23 for filtering impurities and an accumulator body 2 formed at the connecting pipe 22 in a state positioned below the accumulator body 21 when the compressor is stopped. The oil accumulated in the hollow portion 21b of 1) is composed of an oil hole 25 to enter the connection pipe 22 inside.

In the above-described configuration, the connecting pipe 22 serving to allow the vaporized refrigerant to enter the hollow body 21b of the accumulator body 21 to continuously enter the compressor body 1 has a shape in which all parts have the same diameter. .

Therefore, the compressor constituting the refrigeration cycle is operated during the operation of the cooling machine to continuously compress the low-temperature, low-pressure gas refrigerant into a high-temperature and high-pressure gas refrigerant, the compressor compresses the refrigerant and the action of the conventional accumulator In more detail as follows.

When a compression action occurs due to various components provided in the compressor main body 1 constituting the compressor, a suction force is generated, so that an accumulator body 21 constituting the accumulator 2 is provided on one side of the compressor main body 1. As it is connected by a connecting pipe 22, the refrigerant flows into the accumulator 2 and is sufficiently vaporized and then enters the compressor body 1 and is compressed again.

That is, when the refrigerant flows into the hollow portion 21b of the accumulator body 21 through the refrigerant inlet 21a formed at the upper end of the accumulator body 21, the refrigerant flows into the hollow of the accumulator body 21 at some time. Passes through the screen holder 24 fixed to the portion 21b, the refrigerant passing through the screen holder contains some impurities and oil, so the impurities are filtered by the screen 23 provided in the screen holder 24 When the impurities are filtered out, the middle portion of the screen holder 24 (directly below the refrigerant inlet) is closed, and the main surface of the refrigerant is in the center of the screen holder 24. After hitting the part and spreading around, it falls down.

In this way, if the refrigerant does not fall directly below the inflow by the screen holder 24, but spreads around the drop, the pure refrigerant is light, so that the refrigerant rises again and is connected to the hollow portion 21b of the accumulator body 21. Compressed into the compressor main body (1) through 22, but the oil contained in the refrigerant is heavy, so that it does not rise with the refrigerant and is still accumulated in the hollow portion 21b of the accumulator body 21. Through 22 it is understood that only pure refrigerant enters the compressor body 1.

If the oil enters together when the refrigerant enters into the compressor main body 1 through the connecting pipe 22, the oil affects the compression of the refrigerant in the compressor main body 1, and thus the compression efficiency is greatly reduced. have.

On the other hand, when the operation of the compressor is stopped, the oil accumulated in the accumulator body 21 through the oil hole 25 formed in the connecting pipe 22 in a state positioned below the hollow portion 21b of the accumulator body 21. The oil entering into the connecting pipe 22 continues to enter the compressor main body 1 to perform cooling and lubrication of various components.

However, the accumulator of such a compressor has the same diameter as that of the connecting tube, and thus, the refrigerant flowing into the accumulator body during operation of the compressor receives vibration when the refrigerant is introduced into the compressor main body through the connecting tube. This caused a problem that the noise generation is intensified.

The present invention has been made in order to solve the above-described problems, the resonance when the refrigerant flowing into the accumulator body during the operation of the compressor by changing the diameter of the connector in the accumulator body is introduced into the compressor body through the connection tube The purpose is to reduce the vibration and the resulting noise significantly as the resistance to receive as small as possible by the effect.

According to the aspect of the present invention for achieving the above object, the accumulator body having a hollow portion in a state in communication with the refrigerant inlet and the inside of the accumulator body, the end portion is accommodated by a predetermined length in the hollow portion of the accumulator body A screen holder having a fixed screen positioned between a lower end connected to a compressor body, a refrigerant inlet formed at an upper end of the accumulator body, and a connection tube accommodated in a hollow part of the accumulator body, and a lower part in the accumulator body. Comprising an oil hole formed in the connecting pipe in a state positioned in the, the accumulator of the compressor is provided so as to partially expand the portion of the connecting pipe located in the hollow portion of the accumulator body so that the diameter of the expanded pipe is larger than the diameter of the remaining portion. .

1 is a longitudinal sectional view showing an accumulator of a conventional compressor;

2 is a longitudinal sectional view showing the accumulator of the compressor of the present invention as a first embodiment;

3 is a longitudinal sectional view showing the accumulator of the compressor of the present invention as a second embodiment;

4 is a longitudinal sectional view showing the accumulator of the compressor of the present invention in a third embodiment;

Fig. 5 is a longitudinal sectional view showing the accumulator of the compressor of the present invention as a fourth embodiment;

Explanation of symbols for the main parts of the drawings

201. Accumulator 201a. Refrigerant inlet

201b. Hollow Section 202. Connector

203. Screen 204. Screen Holder

205. Oil balls

Hereinafter, with reference to the accompanying Figures 2 to 5 showing an embodiment of the present invention in more detail as follows.

2 is a longitudinal cross-sectional view showing the accumulator of the compressor of the present invention as a first embodiment, Figure 3 is a longitudinal cross-sectional view showing the accumulator of the compressor of the present invention as a second embodiment, Figure 4 is a accumulator of the compressor of the present invention Fig. 5 is a longitudinal sectional view showing a third embodiment, and Fig. 5 is a longitudinal sectional view showing an accumulator of the compressor of the present invention as a fourth embodiment.

The present invention has an accumulator body 201 having a coolant inlet 201a at an upper end thereof and having a hollow part 201b in a state in communication with the coolant inlet part, and an end portion of the accumulator body 201b is constant. Connection pipe 202 is received by the length and the lower end is connected to the compressor body (1), the refrigerant inlet (201a) formed in the upper end of the accumulator body 201 and the connection received in the hollow portion 201b of the accumulator body (201) The screen is fixed between the pipes 202 so that oil in the coolant flowing through the coolant inlet 201a does not fall directly below the coolant inlet but falls to the circumference thereof to filter various impurities in the coolant. A screen holder 204 having a 203 and a hollow portion 20 of the accumulator body 201 when the compressor is stopped, formed in the connecting pipe 202 in a state positioned below the accumulator body 201. In the oil pipe 205 for allowing the oil accumulated in 1b) to enter the inside of the connecting pipe 202, the portion of the connecting pipe 202 located at the hollow portion 201b of the accumulator body 201 is removed. Some expansion is such that the diameter of the expansion portion (A) and the diameter of the remaining portions are different from each other.

Therefore, the compressor constituting the refrigeration cycle is operated during the operation of the cooling machine to continuously compress the low-temperature low-pressure gas refrigerant into a high-temperature and high-pressure gas refrigerant, the compressor compresses the refrigerant and the accumulator of the present invention The operation is described as follows.

When a compression action occurs by various components provided in the compressor main body 1 constituting the compressor, a suction force is generated, so that an accumulator body 201 constituting the accumulator 2 is connected to one side of the compressor main body 1. As it is connected by the tube 202, the refrigerant flows into the accumulator 2 and is sufficiently vaporized, and then enters the compressor main body 1 and is compressed again. The basic action of the accumulator according to the present invention configuration is a conventional action. Reference will be made to the present invention, so it will be understood that the present invention will be fully understood. Therefore, only the operation of the expansion pipe 202, which is a main component of the present invention, will be described in detail.

When the refrigerant flowing into the hollow portion 201b of the accumulator body 201 enters the compressor body 1 through the connecting pipe 202 to be compressed again, the hollow of the accumulator body 201 of the connecting pipe 202 is entered. Since the portion located in the portion 201b is partially expanded and its diameter A is wider than the diameter of the remaining portion, the refrigerant eventually resonates with a change in resistance in the course of passing through the expansion portion, and thus a muffler Since the size of the transmitted noise is reduced, the vibration and the noise caused by the vibration are greatly reduced.

On the other hand, in each embodiment of the present invention, although the shape and number of expansion pipe portion (A) formed in the connection pipe 202 is different, the change in the operation due to this can not be expected greatly, expansion pipe as in the third and fourth embodiments When the number of the portions A is two or more, it is understood that the vibration and the noise caused by the vibration are further reduced.

Therefore, the present invention receives the resistance as small as possible by the resonance effect when the refrigerant introduced into the accumulator body during the operation of the compressor is introduced into the compressor body through the connecting pipe as much as possible because vibration and the resulting noise is greatly reduced. There is an effect that it is possible to use the cooling device in a quiet state.

Claims (1)

An accumulator body having a hollow portion in a state in communication with the refrigerant inlet at an upper end thereof, a connecting tube in which an end portion is received by a predetermined length at a hollow portion of the accumulator body, and a lower end thereof is connected to the compressor body, and the accumulator A screen holder having a screen fixed in a state positioned between a refrigerant inlet formed in an upper portion of the body and a connection tube received in a hollow portion of the accumulator body, and an oil hole formed in the connection tube located in a lower portion of the accumulator body. In Accumulating a portion of the connecting tube positioned at the hollow portion of the accumulator body so that the diameter of the expansion portion is larger than the diameter of the remaining portion.