KR19980014046A - Refrigerant suction structure of linear compressor - Google Patents

Abstract

The present invention relates to a refrigerant suction structure of a linear compressor, and more particularly, to a refrigerant suction structure of a linear compressor, in which a guide channel tube (42) installed so that refrigerant flowing into a closed container (1) And a suction guide 43 for directly connecting the guide passage tube 42 and the external refrigerant suction pipe 6 which is an inflow passage of the refrigerant is formed as a water-filled body. By doing so, Since the refrigerant is formed integrally with the piston without being mixed with the high-temperature refrigerant in the hermetically sealed container, there is an effect of preventing flaws in the guide passage tube despite the long use, and the piston and the guide passage tube are integrally formed The assembling tolerance can be eliminated, and the leakage of the refrigerant flowing into the suction side is prevented.

Description

Refrigerant suction structure of linear compressor

The present invention relates to a refrigerant suction structure of a linear compressor to which an axial valve system is applied. In particular, a guide channel tube for guiding a refrigerant introduced from the outside is integrally formed inside a piston, and a guide channel tube and an external refrigerant suction tube are connected And the suction guide is made of an elastic body.

Since the suction side of the refrigerant passage is opened due to its structural characteristics in the linear compressor to which the conventional axial valve system is applied, a large amount of suction noise is generated. In order to solve such a problem, , A piston (12) slidably coupled to the interior of the cylinder (11), an outer piston (13), a rod post (14) coupled to the inside of the outer piston (13) A first syringe 16 communicating with the inlet side of the refrigerant passage is formed between the piston rod 15 and the rod post 14 and the first syringe 16 is formed between the piston rod 15 and the rod post 14, A second silencer 17 communicating with the first silencer 16 is formed between the outer cylinder 14 and the outer piston 13. A first silencer 16 , And a second silencer (17) A piston hole 12a is formed on both sides of the front end surface of the piston 12 and a hop-on valve 41 is provided at the center of the front end surface of the piston 12, A first discharge valve 24, a second discharge valve 25 and a stopper 25 are fixed to the inner receiving groove 23a of the head cover 23 fixed to one side surface of the cylinder 11, A spring 26, and a spring 27 are inserted and installed.

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

Particularly, in the linear compressor, a hermetic spring holder 5 is coupled to the outside of the cylinder 11, a cap 2 is coupled to an inlet side of the hermetic spring holder 5, The refrigerant sucked into the external refrigerant suction pipe 4 of the hermetically sealed container 1 flows into the third silencer 3 through the internal refrigerant suction pipe 4 formed in the cap 2 and flows into the first refrigerant suction pipe 4, The noise is reduced and then the noise is reduced in the second and third order by the first and second silencers 16 and 17 of the cylinder 11 so that the noise reduction effect is further improved.

However, in such a linear compressor, the refrigerant having passed through the external refrigerant suction pipe 6 flows into the internal space through the small hole 4 formed in the cap 2. In order to be sucked into the cylinder 911, There is a problem that it is required to go through a complicated structure of That is, conventionally, there is a problem that the suction refrigerant is heated in the process of passing through the internal flow path of the high-temperature piston 12 to lower the cooling force, and there is a problem that the internal flow path of the piston is narrow, In addition, the external piston 13 as the piston assembly, the rod post 14 and the piston rod 15 must be shrunk and the refrigerant sucked into the external refrigerant suction pipe 6 is smoothly moved by the cap 2. [ There is a problem that this is not done.

In the linear compressor shown in FIG. 2, the linear compressing that has been devised in view of the above-described various problems is such that the linear compressor compresses the inside of the piston 12 which is slidably and lockably coupled to the inside of the cylinder 11 And 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 inserted into the piston 12 through the cap 2. A suction muffler 31 is formed on the external refrigerant suction pipe 6 into which the refrigerant flows, and the piston 12, the guide flow path pipe 32 for guiding the refrigerant by cutting off the heat of the piston is formed to be long to the suction valve 21.

The refrigerant suction structure of the linear compressor thus configured is provided with the refrigerant suction induction pipe 30 in a state in which the parts of the piston installed inside the cylinder 11, that is, the piston rod 15, the rod post 14, The heat transfer of the heated piston 12 is interrupted to increase the capacity of the refrigerant, and since the suction muffler 31 is mounted, the flow of the refrigerant inhaled And the suction muffler 31 is mounted to smooth the flow of the refrigerant sucked in. The flow path inside the piston 12 becomes structurally large and simplified, whereby the flow path loss of the refrigerant becomes remarkable .

2, since the refrigerant introduced into the closed container 1 through the external refrigerant suction pipe 6 is mixed with the high-temperature refrigerant in the container 1, the temperature of the suction refrigerant is raised, There is a problem that the efficiency is lowered and there is a problem that the noise generated at the suction side escapes through the guide flow pipe 32 of the refrigerant suction flow path pipe 30 and the noise of the compressor is increased, 3, the applicant eliminates the suction muffler 31 of the refrigerant suction pipe 30 and directly connects the external refrigerant suction pipe 6 and the guide pipe 32 by using the suction guide 33, And a refrigerant suction structure of the linear compressor is proposed.

According to the refrigerant suction structure of the present invention configured as described above, the refrigerant sucked from the outside is guided by the suction guide (33) and is not mixed with the refrigerant in the closed container (1) (C). In the operation of the compressor, the external refrigerant suction pipe 6, the suction guide 33, the cap 2, and the guide flow pipe 32 are not moved, and only the piston 12 reciprocates, The efficiency of the compressor is improved by flowing the refrigerant flowing through the suction hole 6 directly into the suction valve 21 side without being mixed with the high temperature refrigerant in the container 1 and the noise generated at the suction side So that the noise of the compressor is reduced.

However, in the case of the refrigerant suction structure of the linear compressor shown in Fig. 3, since the guide flow pipe 32 is made of the same material as plastic, there is a problem that the guide pipe 32 is easily bent, and the tolerance in assembling the guide flow pipe 32 and the piston 12 And there is a problem that the gap between the piston 12 and the guide flow path tube 32 is generated and the refrigerant flowing into the suction side is leaked.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to prevent burnout of the guide passage tube even during prolonged use.

Another object of the present invention is to eliminate the tolerance in assembly of the guide flow path tube and the piston.

Another object of the present invention is to prevent leakage of the refrigerant by eliminating a gap generated between the piston and the guide passage tube.

1 is a 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 conventional linear compressor.

3 is a cross-sectional view showing another refrigerant suction structure of a conventional linear compressor.

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

DESCRIPTION OF THE REFERENCE NUMERALS

One; Sealed container, 6; External refrigerant suction pipe, 11; Cylinder, 12; Piston, 42; Guide channel 43; Suction guide

In order to accomplish the object of the present invention, there is provided an air conditioner, comprising: an external refrigerant suction pipe which is a passage through which refrigerant flows into a hermetically sealed container; and a guide channel pipe of a refrigerant suction pipe for collecting the refrigerant toward the inside of the cylinder, And the suction guide is formed as an elastic body, and the refrigerant suction structure of the linear compressor is formed by integrally forming the guide channel tube with the piston, and the suction guide is formed of an elastic body.

One embodiment of the refrigerant suction structure of the linear compressor according to the present invention will be described in more detail based on an embodiment shown in the accompanying drawings.

4 is a sectional view of the refrigerant suction structure of the linear compressor according to the present invention. As shown therein, the refrigerant suction structure of the linear compressor according to the present invention is such that the refrigerant flowing into the interior of the closed container (1) Which is provided so as to be guided in the inside of the piston 12 and is integrally formed on the inner circumferential surface of the piston 12 so as to be in direct contact with the external refrigerant suction pipe 6 which is an inflow passage of the refrigerant, And the guide 43 is formed of an elastic body.

The piston 12 is integrally formed with the guide channel 42 and the suction guide 43 is formed of the elastic body so that the piston 12 reciprocates in the cylinder 11 and the guide channel pipe 42 are interlocked with each other and the external refrigerant flows into the suction side valve 21 through the suction guide 43 and the guide flow pipe 42.

As described above, since the refrigerant suction structure of the linear compressor according to the present invention is formed integrally with the piston while the low-temperature refrigerant introduced from the outside is not mixed with the high-temperature refrigerant in the muffle container, And it is possible to eliminate the assembly tolerance because the piston and the guide passage tube are integrally formed, and also to prevent the leakage of the refrigerant flowing into the suction side.

Claims (1)

A refrigerant suction pipe which is a passage through which the refrigerant flows into the inside of the hermetically sealed container; and a refrigerant suction pipe for collecting the refrigerant to the inside of the cylinder and guiding the refrigerant to the suction side, Wherein the suction pipe structure is formed integrally with the piston, and the suction guide is formed of an elastic body.