KR950010120Y1 - Accumulator structure of air conditioner - Google Patents

Abstract

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Description

Accumulator structure of air conditioner

1 is a cross-sectional view showing an accumulator structure of a conventional air conditioner.

2 is a plan cross-sectional view of FIG.

3 is an enlarged cross-sectional view showing the main part of FIG.

4 is a cross-sectional view showing the accumulator structure of the air conditioner according to the present invention.

5 is a cross-sectional view of FIG.

6 is an enlarged cross-sectional view showing the main part of FIG.

* Explanation of symbols for main parts of the drawings

20: accumulator 21: suction pipe

22: opening 23: distribution hole

24: screen holder 25: reservoir

26: screen

The present invention relates to an accumulator structure of an air conditioner using a refrigeration cycle, such as a refrigerator and an air conditioner. In particular, the accumulator structure is improved to completely separate the liquid refrigerant in the gas refrigerant flowing into the compressor from the evaporator. This is to improve the performance of the compressor, and further to improve the performance of the air conditioner.

In general, the refrigeration cycle used in the air conditioner mechanically controls the pressure and evaporation to compress the cold rice gas ---> condensation ---> expansion ---> evaporation process to achieve cooling and freezing That is, by compressing the gaseous refrigerant in the compressor is sent to the condenser in the state of high-temperature, high-pressure gas refrigerant, the high-temperature, high-pressure gas refrigerant is heat exchanged with the temperature of the outside air while passing through the condenser Similar temperature and high pressure liquid refrigerant enters the next stage of the capillary.

Subsequently, while the high and high pressure liquid refrigerant passes through a thin capillary tube, the resistance is changed into a low pressure liquid refrigerant by resistance and enters the evaporator. In the evaporator, the low temperature and low pressure liquid refrigerant absorbs heat from the surrounding liquid liquid refrigerant. Is changed into a gas refrigerant to achieve cooling or freezing in the space, and the refrigerant gas, which has been heat exchanged in the evaporator, and becomes a gas is sucked back into the compressor.

In such a refrigeration cycle, the circulating refrigerant should be introduced into the compressor in a gaseous state after heat exchange in the evaporator, but the liquid refrigerant, which has not been heat exchanged due to the evaporator, is introduced into the compressor, thereby degrading the performance of the compressor. Accordingly, the accumulator was provided between the evaporator and the compressor to separate and vaporize the liquid refrigerant contained in the gas refrigerant.

Accumulators having such a function have already been proposed and used in practice. For example, when looking at the configuration thereof, as shown in FIG. 1, the fixing bracket 2 is disposed on one side of the pusher 1. The cylindrical accumulator 3 is provided.

That is, the upper portion is provided with an inlet port 4 connected to an evaporator (not shown) for introducing refrigerant gas, and a lower portion of the suction pipe 5 connected to the cylinder in the compressor 1 extends to a predetermined position therein. The opening 6 at the upper end of the suction pipe 5 is vertically provided.

In addition, the upper end opening 6 of the suction pipe 5, which is provided to extend from the lower portion of the accumulator 3 to the inner upper portion by a predetermined height, has a vertical shape, which is a position directly above the suction pipe 5; In the inner diameter of the cumulator 3, a screen holder 8 having a plurality of flow holes 7 is formed.

At this time, the distribution holes (7) is to allow the liquid state of the refrigerant gas flowing into the interior through the inlet (4) can be distributed into the bottom reservoir (9), the position of the opening of the suction pipe (5) It is provided on a different position from (6) to prevent the liquid refrigerant gas from flowing straight into the suction pipe (5).

In addition, the upper portion of the screen holder 8 is provided with a convex screen 10 so as to be slightly spaced apart from the upper surface of the screen holder 8.

However, in the conventional accumulator structure, since the end opening 6 of the suction pipe 5 provided inside is vertical, the liquid refrigerant gas in the liquid state, which cannot be exchanged by the evaporator, is a gaseous refrigerant. As the gas flows through the inlet 4 and the distribution hole 7 of the screen holder 8 and flows directly into the suction pipe 5, the liquid refrigerant flows into the cylinder of the compressor 1. It was.

That is, even if the distribution hole 7 of the screen holder 8 and the opening 6 of the suction pipe 5 are not located in a straight line, the water storage portion (through the distribution hole 7 of the screen holder 8) Since the liquid refrigerant falling into 9) is partially contained in the gas refrigerant, there is a problem that the liquid refrigerant easily flows into the compressor 1 through the opening 6 of the suction pipe 5.

This problem is further increased at initial startup of the compressor 1, that is, liquid refrigerant remaining in the refrigerating cycle is easily introduced into the compressor 1, and a large load is applied to each drive in the compressor 1 Early wear of the compressor was, of course, deteriorating performance, and furthermore, it was a factor that degraded the performance of the entire air conditioner.

Therefore, the present invention has been made in consideration of the above circumstances, and the object is achieved by completely separating the liquid refrigerant in the refrigerant gas flowing into the compressor from the evaporator so that only the refrigerant gas in the pure gas state is introduced into the compressor. That is, the upper end opening of the suction pipe provided in the accumulator is formed in a curved shape, and the screen holder fixed to the accumulator inner diameter at the upper part is formed in the shape of a trumpet having an upper portion. The holder is provided with a screen in such a manner as to surround the opening of the suction pipe, so that the refrigerant gas in the liquid state cannot be introduced directly into the opening of the suction pipe.

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

4 is a configuration diagram in which the accumulator according to the present invention is fixed to the compressor 1, and reference numeral 20 in the drawing denotes a main body of the accumulator according to the present invention.

Its main body 20 is provided in a cylindrical shape and is fixed to one side of the compressor (1) by a fixing bracket (2), the upper inlet (4) and the compressor (1) connected to the evaporator and the refrigerant gas flows in Is connected to the suction gas passing through the main body 20 is provided with a suction pipe for suction into the compressor (1).

This has the same configuration as in the prior art, but in the present invention is to improve the accumulator 20, that is, the upper opening of the suction pipe 21 is provided to extend by a certain height to the inner upper portion of the accumulator 20 A screen holder having a plurality of flow holes 23 on the inner diameter of the accumulator 20, which is configured to have a curved shape bent in one direction and is directly upstream of the suction pipe 21. (24) is configured in a trumpet shape with a convex upper portion.

At this time, the distribution holes 23 are so that the liquid state of the refrigerant gas flowing into the interior through the inlet (4) can be directly distributed into the bottom reservoir 25 along the tapered surface of the screen holder 24 The position is provided at the outer periphery of the screen holder 24 which is different from the opening 22 of the suction pipe 21 so that the liquid refrigerant gas is guided to the tapered surface of the screen holder 24, (25) It is to let flow in immediately.

And, the upper portion of the screen holder 24 is configured to be closed while having a convex shape, on the outer periphery thereof, that is, the screen 26 on the outer periphery except the one side where the opening 22 of the suction pipe 21 is located It is provided with the opening provided.

Therefore, the present invention configured as described above, when the liquid refrigerant gas along with the gaseous refrigerant gas in the evaporator flows into the accumulator 20 through the inlet port 4, the upper and the tapered surface of the screen holder 24 It is guided to the distribution hole 23 to be introduced into the reservoir 25 under the screen holder 24, and at the same time the gaseous refrigerant gas is the opening of the suction pipe 21 of the screen holder 24 ( It is sucked into the compressor 1 through 22).

In other words, the liquid refrigerant gas falls down directly through the distribution holes 23 due to its specific gravity and is stored in the reservoir 25, and the gaseous refrigerant gas is formed at the outer periphery of the screen holder 24. It is sucked through the opening 22 of the suction pipe 21 which is sucked through the screen 26 provided on the opposite side of the screen 26.

At this time, the refrigerant refrigerant in the liquid state stored in the reservoir 25 is vaporized by the conductive heat generated when the compressor 1 is driven and is also sucked into the compressor 1 through the opening 22 of the suction pipe 21. It will be repeated.

Therefore, the present invention is constructed such that the openings 22 of the suction pipes 21 are positioned opposite the screens 26 around the screen holders 24 and the screens 26 are enclosed in a vertical state. In addition, since the distribution hole 23 is provided on the outer edge of the screen holder 24, the liquid refrigerant in the refrigerant gas circulated from the evaporator to the compressor 1 does not flow directly into the suction pipe, and thus the accumulator 20 It is stored in the water section 25, so that only the pure gas refrigerant is sucked into the compressor.

This effect not only prevents early wear of the compressor but also improves the performance of the compressor, as it has the advantage of completely separating the liquid refrigerant even when a large amount of liquid refrigerant is introduced at the time of initial driving. Furthermore, it will have the effect of improving the performance of the entire air conditioner.

Claims (1)

In the accumulator structure of the air conditioner using a refrigeration cycle, the accumulator is connected to the compressor and provided with a suction pipe having an opening bent in one direction at the top and vertically provided at a predetermined height from the bottom to the top of the inside; A screen holder having a plurality of distribution holes on the outer periphery and an upper portion of the screen holder are closed, and the screen is provided with a predetermined width on one side of the outer periphery thereof. Accumulator structure of an air conditioner characterized by having an opening.