KR0164750B1 - Accumulator of a compressor - Google Patents

Abstract

The present invention relates to a heat accumulator of a compressor, and an object thereof is to provide a valve device for controlling the inflow of refrigerant to the heat accumulator, thereby reducing costs and simplifying the assembly process by reducing components required for installing the valve device. .

In the related art, since the heat storage unit 20 and the valve device 40 are coupled through a separate refrigerant pipe 30, a process of welding 31 to couple the refrigerant pipe 30 with the refrigerant pipe 30 is required.

However, in the present invention, by integrally coupling the valve device 40 to the inlet 21 of the heat storage 20, there is an advantage of reducing the parts and simplify the assembly process.

Description

Heat storage of compressor

1 is a schematic view showing a typical compressor.

2 is a schematic view showing a compressor according to the present invention.

* Explanation of symbols for main parts of the drawings

10: sealed container 11: refrigerant suction pipe

20: heat storage 21: inlet

40: valve device

The present invention relates to a compressor mounted on an air conditioner and the like, and more particularly, to a heat accumulator of a compressor having an improved valve position connected to an end of the heat accumulator to regulate refrigerant inflow.

In general, the compressor functions to compress the refrigerant to a high temperature and high pressure in a refrigeration cycle such as an air conditioner in which compression, condensation, expansion, and evaporation processes are continuously performed through the refrigerant, and serves to discharge the refrigerant to the outside. As shown in FIG. 1, a general compressor having such a function is a compression that sucks and compresses a refrigerant into a sealed container 10 provided with a refrigerant suction pipe 11 and a refrigerant discharge pipe 12 for guiding suction discharge of the refrigerant. It consists of a part (not shown) and a driving part (not shown) for driving the compression part.

On the other hand, in the refrigeration cycle, the refrigerant suction pipe 11 is combined with the accumulator 20 (ACCUMULATOR) to prevent the liquid refrigerant from flowing into the compressor, when the liquid refrigerant is introduced, a large knock that damages the compressor and generates noise (KNOCK) Causes a phenomenon. In addition, an inlet 21 for guiding the refrigerant inflow is provided at the upper portion of the heat storage 20, and a valve device 40 configured with a discharge port 41 for controlling the inflow of the refrigerant and guiding the refrigerant flow is configured. At this time, the inlet 21 of the valve device 40 and the heat storage 20 is connected to the welding 31 by a separate refrigerant pipe (30).

Therefore, the refrigerant passing through the valve device 40 is introduced into the heat accumulator 20 through the refrigerant pipe 30 and the inlet 21, and the refrigerant evaporated in the heat accumulator 20 is connected to the refrigerant suction pipe 11. It is introduced into the sealed container (10). The refrigerant compressed at high temperature and high pressure due to the operation of the driving unit and the compression unit in the sealed container 10 is supplied to the refrigeration cycle again through the refrigerant discharge pipe 12.

At this time, the valve device 40 for controlling the inflow of the refrigerant is connected to the heat storage 20 through a separate refrigerant pipe (30). That is, one end of the refrigerant pipe 30 is welded 31 to the inlet 21 of the heat storage 20, and the other end thereof is also welded 31 ′ to the outlet 41 of the valve device 40. It is.

Therefore, in order to install the valve device 40, two welding parts 31 and 31 'are required, and the assembly process and the number of necessary parts increase.

The present invention is to solve this problem,

It is an object of the present invention to provide a heat accumulator of a compressor which reduces the cost and simplifies the assembly process by reducing the components necessary for installing the valve device by integrally provided with a valve device for controlling the inflow of refrigerant in the heat accumulator.

The accumulator of the compressor according to the present invention for achieving this purpose is a sealed container constituting the main body of the compressor, a regenerator for supplying the vaporized refrigerant to the hermetic container, an inlet provided to one side of the regenerator to guide the refrigerant inlet to the inside, In the compressor with a valve device for controlling the flow of refrigerant,

The inlet of the heat storage is characterized in that the valve device is provided integrally.

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

2 shows a compressor to which the present invention is applied. Since the compressor according to the present invention is the same as the component shown in FIG. 1 except for the installation structure of the valve device, the same components will be briefly described with the same reference numerals.

As shown, the compressor is a compression unit (not shown) for sucking and compressing the refrigerant in the sealed container 10 in which the refrigerant suction pipe 11 and the refrigerant discharge pipe 12 are installed, and a driving unit (not shown) for driving the compression unit. It consists of.

On the other hand, in the refrigerating cycle, a regenerator 20 is provided to prevent the liquid refrigerant from flowing into the compressor, and an inlet 21 for guiding the refrigerant flow is provided at the upper portion of the regenerator 20.

In addition, as a characteristic element of the present invention, the inlet of the regenerator 20 is integrally formed with a valve device 40 having an outlet 41 for controlling the inflow of the refrigerant into the regenerator 20 and guiding the refrigerant flow. . That is, the inlet port 21 of the heat storage device 20 is inserted and welded to the discharge port 41 of the valve device 40, whereby the valve device 40 is integrally formed with the heat storage device 20.

Therefore, a separate refrigerant pipe is not required to connect and couple the heat storage 20 and the valve device 40, thereby reducing components, thereby reducing costs and simplifying assembly.

As described in detail above, in the related art, since the heat storage unit and the valve device are coupled through a separate refrigerant pipe, a process of welding the refrigerant pipe and the combination thereof is required.

However, in the present invention, by integrally coupling the valve device to the inlet of the regenerator, there is an advantage of reducing parts and simplifying the assembly process.

Claims (1)

A sealed container 10 constituting the main body of the compressor, a regenerator 20 for supplying vaporized refrigerant to the sealed container 10, and an inlet 21 provided at one side of the regenerator 20 to guide refrigerant flow into the inside. In the compressor having a valve device 40 for controlling the flow of refrigerant into the heat storage device 20, the inlet port 21 of the heat storage device 20 has a discharge port 41 of the valve device 40. The heat accumulator of the compressor, characterized in that the valve device (40) is integrally provided to the heat accumulator (20) is welded to communicate.