KR100186485B1 - Refrigerant gas suction structure of a linear compressor - Google Patents

Abstract

The present invention relates to a refrigerant suction structure of a linear compressor, which excludes the suction muffler (31) of the refrigerant suction flow path tube (30), and removes the external refrigerant suction pipe (6) and the guide flow path tube (32) from the suction guide (33). The refrigerant sucked from the outside is directly connected to the suction guide 33 so as not to be mixed with the refrigerant in the airtight container 1 and directly supplied to the compression chamber C through the guide flow pipe 32. As a result, the refrigerant flowing through the external refrigerant suction pipe 6 does not mix with the high temperature refrigerant in the container 1 and flows directly to the suction valve 21 side, thereby improving the efficiency of the compressor. The noise does not leak to the outside to reduce the noise of the compressor.

Description

Refrigerant suction structure of linear compressor

The present invention relates to a linear compressor to which an axial valve system is applied, and more particularly, to a refrigerant suction structure of a linear compressor for directly connecting an external refrigerant suction pipe and a refrigerant flow path pipe in a compressor in which a refrigerant flow path pipe is installed. It is about.

In the conventional linear compressor with the axial valve system, the suction side of the refrigerant passage is opened due to its structural characteristics, so that a lot of suction noise is generated. The linear compressor proposed to solve this problem is shown in FIG. Similarly, the piston 12 slidably coupled to the inside of the cylinder 11 includes an outer piston 13, a rod post 14 coupled to the inside of the outer piston 13, and the rod post 14. Separately formed by the piston rod 15 which is coupled to the inside of the, forming a first silencer 16 to communicate with the inlet side of the refrigerant passage between the piston rod 15 and the rod post 14, the rod A second silencer 17 is formed between the post 14 and the external piston 13 to communicate with the first silencer 16. A predetermined portion of the rod post 14 has a first silencer ( 16) and through the second silencer (17) A through hole 14a for locking is formed, and as an axial valve device, piston holes 12a are formed on both sides of the front end face of the piston 12, and a suction valve 41 is provided at the center of the front end face thereof. The first discharge valve 24, the second discharge valve 25, and the stopper are fixed to the pins 42 and are in the inner receiving groove 23a of the head cover 23 fixed to one side of the cylinder 11. It is the structure by which 26 and the spring 27 are inserted.

In the figure, reference numeral 28 shows a refrigerant discharge pipe.

In particular, the linear compressor has a hermetic spring holder 5 coupled to the outside of the cylinder 11, and a cap 2 is coupled to the inlet side of the hermetic spring holder 5, so that a third silencer is formed therein. (3) is formed, the refrigerant sucked into the external refrigerant suction tube (4) of the sealed container (1) flows into the third silencer (3) through the internal refrigerant suction tube (4) formed in the cap 2 and primarily Since the noise is reduced and the noise is reduced second and third by the first and second silencers 16 and 17 of the cylinder 11, the effect of the noise reduction is further improved.

However, in such a linear compressor, the refrigerant passing through the external refrigerant suction pipe 6 is introduced into the internal space through the small hole 4 formed in the cap 2, and the piston 12 is sucked into the cylinder 11. There is a problem that must go through a complex structure. That is, in the related art, the suction refrigerant is heated in the process of passing through the internal flow path of the high temperature piston 12 to decrease the cooling power, and the internal flow path of the piston is narrow and complicated, so that there is a problem of a large flow loss. In addition, a shrinkage of the external piston 13, the rod post 14, and the piston rod 15, which is a piston assembly, must be made, and the refrigerant sucked into the external refrigerant suction pipe 6 can be smoothly moved by the cap 2. This was not a problem.

In view of the various problems described above, the present applicant has proposed a refrigerant suction structure of the linear compressor as shown in FIG. 2, and the linear compressor 12 is slidably coupled to the inside of the cylinder 11. ), A refrigerant suction induction pipe (30) communicating from the refrigerant suction side of the refrigerant passage to the suction valve (21) side is provided. At this time, the refrigerant suction induction pipe is mounted to the inside of the piston 12 through the cap (2), the suction muffler 31 is formed toward the external refrigerant suction pipe 6 through which the refrigerant is introduced, and the piston ( 12) is inserted into the guide passage pipe 32 for guiding the refrigerant to block the heat of the piston is formed to the intake valve 21 long.

The refrigerant suction structure of the linear compressor configured as described above allows the refrigerant suction induction pipe 30 to be installed in a state in which the piston parts 15, ie, the piston rod 15, the rod post 14, etc., which are installed in the cylinder 11 are excluded. Because the refrigerant flowing through only the refrigerant suction induction pipe 30, the heat transfer of the heated piston 12 is blocked, thereby increasing the cooling power of the refrigerant, the suction muffler 31 is mounted to the suction of the refrigerant There is an effect that the flow is smooth, there is an advantage that the flow path loss of the refrigerant is remarkably reduced by the passage of the internal passage of the piston 12 is large and simple.

However, a problem arises also in the refrigerant suction structure of the linear compressor shown in FIG. 2, that is, the refrigerant introduced into the sealed container 1 through the external refrigerant suction pipe 6 has a high temperature in the container 1. Since the mixture of the refrigerant and the temperature of the suction refrigerant is raised, there is a problem that the efficiency of the compressor is lowered.

In addition, the noise generated from the suction side is discharged through the guide flow path pipe 32 of the refrigerant suction flow path pipe 30, there is a defect that the noise of the compressor is increased.

The object of the present invention devised in view of these problems is to prevent the mixing of the suction refrigerant with the high temperature refrigerant in the container.

Another object of the present invention is to reduce the noise generated on the suction side.

In order to achieve the object of the present invention, the external refrigerant suction pipe which is a passage through which the refrigerant is introduced into the sealed container, and the guide flow path tube of the refrigerant suction flow path tube that collects the refrigerant to the inside of the cylinder and guides it to the suction side. Provided is a refrigerant suction structure of a linear compressor, characterized in that the guide is installed and connected directly.

1 is a cross-sectional view of a linear compressor to which a conventional axial valve system is applied.

2 is a cross-sectional view showing a refrigerant suction structure of a pre- filed linear compressor.

3 is a cross-sectional view showing a refrigerant suction structure of the linear compressor according to the present invention.

* Explanation of symbols for main parts of the drawings

1: sealed container 6: external refrigerant suction pipe

30: refrigerant suction guide pipe 32: guide flow pipe

33: suction guide

3 is a cross-sectional view illustrating a refrigerant suction structure of the linear compressor according to the present invention, the refrigerant suction structure of the linear compressor according to the present invention excludes the suction muffler 31 of the refrigerant suction flow path tube 30. The external refrigerant suction pipe 6 and the guide flow path pipe 32 are configured by directly connecting the suction guide 33 using the suction guide 33.

According to the refrigerant suction structure according to the present invention configured as described above, the refrigerant sucked from the outside is guided to the suction guide 33 so as not to mix with the refrigerant in the hermetic container 1, and is directly compressed through the guide channel pipe 32. It is supplied to the yarn (C). When the compressor operates, the external refrigerant suction pipe 6, the suction guide 33, the cap 2, and the guide flow path tube 32 are not moved, and only the piston 12 is reciprocated.

As described above, according to the refrigerant suction structure of the linear compressor according to the present invention, the refrigerant introduced through the external refrigerant suction pipe (6) flows straight into the suction valve (21) without being mixed with the high temperature refrigerant in the container (1). As a result, the efficiency of the compressor is improved, and the noise generated at the suction side does not leak to the outside, thereby reducing the noise of the compressor.

Claims (1)

An external refrigerant suction pipe, which is a passage through which the refrigerant flows into the sealed container, and a guide passage tube of the refrigerant suction flow path tube that collects the refrigerant into the cylinder and guides it to the suction side, are directly connected by installing suction guides. Refrigerant suction structure of linear compressor.