KR200165730Y1 - Refrigerant gas suction pipe assembling structure for a compressor - Google Patents

Abstract

The present invention is a coupling structure for omitting the coil spring interposed between the suction port of the suction muffler and the refrigerant suction pipe, and to provide a refrigerant suction pipe coupling structure of the suction suction muffler for the compressor that can perform its function smoothly. The refrigerant suction pipe coupling structure of the refrigerant suction pipe coupling structure of the suction muffler for the suction muffler coupled to the suction port side and the suction port side of the suction muffler, the refrigerant suction pipe coupling structure is the refrigerant suction pipe of the suction suction pipe of the suction muffler It is characterized in that it is loosely mounted to a predetermined depth inside.

Description

Refrigerant suction pipe joint structure of compressor suction muffler

The present invention relates to a refrigerant suction pipe coupling structure of a compressor suction muffler, and more particularly, to allow suction suction to be sucked in a state in which a suction port of the suction muffler is loosely mounted to the refrigerant suction pipe to a predetermined depth, thereby simplifying the coupling structure. The present invention relates to a refrigerant suction pipe coupling structure of a compressor suction muffler to improve assembly performance and reduce cost.

As shown in FIG. 1, a general hermetic compressor includes an electric mechanism part 5 including a stator 3 and a rotor 4 inside the upper and lower containers 1 and 2, and the rotor 4. By the rotational operation of the crankshaft 6 press-fitted fixed in the center of the refrigerant may be divided into a compression mechanism (7) for sucking and compressing.

The compression mechanism (7) is coupled to the cylinder block (9) formed integrally with the cylinder (8) forming the suction space of the refrigerant, and the lower end of the crank shaft (6) to perform a linear reciprocating motion inside the cylinder (8). A piston 10, a cylinder head 11 which is fixed to the end of the cylinder 8, and is interposed between the cylinder 8 and the cylinder head 11 so that the refrigerant is introduced into the cylinder 8. The valve device 12 etc. which suck in and discharge a compressed refrigerant are included.

In addition, a muffler 13 having a predetermined shape is erected and fixed to the upper part of the cylinder head 11 so as to be in close contact with the stator 3, and the muffler 13 has a refrigerant installed through the lower container 2. The suction pipe 14 is connected and fixed.

In the general hermetic compressor as described above, the refrigerant sucked through the refrigerant suction pipe (14) passes through the muffler (13), passes through the cylinder head (11) and the valve device (12), and then flows into the cylinder (8). And a compression process in which the suction refrigerant is compressed by the linear reciprocating motion of the piston 10 according to the rotation of the crankshaft 6, and the refrigerant compressed in the cylinder 8 is again the valve device 12 and the cylinder. The discharge process discharged to the outside along the discharge path through the head 11 is repeated.

In the figure, reference numeral 20 denotes a buffer spring.

Figure 2 is a cross-sectional view showing a coupling structure of the refrigerant suction pipe of the compressor muffler according to the prior art, the muffler is a suction muffler.

The suction muffler 13 has a body 21 having a predetermined space, a suction port 23 protruding to one side of the body 21 to introduce the refrigerant, and the refrigerant introduced through the suction port 23. It includes a pair of outlet port 25 for sending to the compression mechanism (7) side.

The suction inlet 23 of the suction muffler 13 is equipped with a refrigerant suction pipe 14, and the suction port 23 and the refrigerant suction pipe 14 are coupled by a coil spring 27.

The coil spring 27 allows the suction mechanism 13 to be sucked into the suction muffler 13 in a state in which the movement mechanism 5 and the compression mechanism 7 are moved by vibration or the like to freely move the coil spring 27.

The refrigerant suction pipe coupling structure of the suction suction muffler as described above is a structure in which the suction port of the suction muffler and the refrigerant suction pipe are coupled to each other through a separate coil spring, which not only takes a lot of time during assembly work but also increases the manufacturing cost. there is a problem.

The present invention has been created to solve the above problems, the object of the present invention is a coupling structure for omitting the coil spring interposed in the suction port of the suction muffler and the refrigerant suction pipe, the suction for the compressor that can perform its function smoothly To provide a coupling structure of the refrigerant suction pipe of the muffler.

1 is a cross-sectional view showing the main configuration of a hermetic compressor.

Figure 2 is a cross-sectional view showing a coupling structure of the refrigerant suction pipe of the compressor muffler according to the prior art.

Figure 3 is a front view showing a coupling structure of the refrigerant suction pipe for the suction muffler compressor according to the present invention.

Figure 4 is an enlarged cross-sectional view of the main portion of the coupling structure of the suction muffler refrigerant suction pipe for the compressor according to the present invention.

<Description of the code | symbol about the principal part of drawing>

13: suction muffler 14: refrigerant suction pipe

14 ': vertical part 23: suction port

The present invention for achieving the above object is in the refrigerant intake pipe coupling structure of the suction muffler for the suction muffler coupled to the suction port side and the suction port side of the suction muffler to suck the refrigerant,

The refrigerant suction pipe coupling structure provides a refrigerant suction pipe coupling structure of the suction muffler for the compressor to loosely mount the suction port of the suction muffler to a predetermined depth inside the refrigerant suction pipe.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention based on the accompanying drawings in detail as follows.

3 is a front view showing a coupling structure of the compressor suction muffler refrigerant suction pipe for the present invention, Figure 4 is an enlarged cross-sectional view of the main portion of the coupling structure of the compressor suction muffler refrigerant suction pipe for the present invention.

The refrigerant suction pipe extends into the case of the compressor and is coupled to the suction port of the suction muffler to supply suction refrigerant to the suction port of the suction muffler.

The refrigerant suction pipe 14 has a vertical portion 14 'which is bent and extended vertically under the suction port 23 of the compressor.

The suction part 23 of the suction muffler 13 is mounted to the vertical part 14 ′ to directly suck the suction refrigerant supplied through the refrigerant suction pipe 14.

The suction port 23 of the suction muffler 13 is loosely fitted to the vertical portion 14 'of the refrigerant suction pipe 14 at a predetermined depth.

In detail, the suction port 23 is formed such that its outer diameter is smaller than the inner diameter of the vertical portion 14 ', and is coupled in a state maintaining a gap between the inner wall of the vertical portion 14' and a predetermined interval. The vertical portion 14 'does not limit the movement of the suction port 23 caused by the vibration of the compression mechanism 7 and the transmission mechanism 5 of the compressor.

In addition, when performing the operation of mounting the suction port 23 to the vertical portion 14 ', the vertical portion 14' and the suction port 23 can be mounted in a state of maintaining a free space, Since the work is easy, the time required for assembly work can be shortened.

In addition, the end of the suction port 23 is formed to be inclined at a predetermined angle so as to extend the inlet in the direction in which the refrigerant is introduced to facilitate the introduction of refrigerant.

Referring to the action state of the refrigerant suction pipe of the compressor suction muffler according to the present invention configured as described in detail as follows.

The refrigerant is sucked into the suction muffler 13 in a state in which the suction port 23 is vibrated in the vertical portion 14 ′ by the vibration of the suction muffler 13 by the operation of the compressor.

Further, since the outer diameter of the suction port 23 of the suction muffler 13 is smaller than the inner diameter of the vertical part 13, the suction port can be easily inserted into the vertical part 13.

Refrigerant suction pipe coupling structure of the suction muffler for compressor according to the present invention configured and acts as described above is a coupling structure for omitting the coil spring interposed between the suction port of the suction muffler and the refrigerant suction pipe, for the compressor that can perform its function smoothly Since it provides a refrigerant suction pipe coupling structure of the suction muffler can reduce the manufacturing cost, there is an advantage that can shorten the assembly process.

Claims (2)

In the refrigerant inlet pipe coupling structure of the suction muffler for the suction muffler coupled to the suction port side and the suction port side of the suction muffler for sucking the refrigerant, The refrigerant suction pipe coupling structure is a refrigerant suction pipe coupling structure of the compressor suction muffler, characterized in that the suction inlet of the suction muffler loosely mounted to the inside of the refrigerant suction pipe to a predetermined depth. The refrigerant suction pipe coupling structure of claim 1, wherein the suction end of the suction muffler is formed to be inclined at a predetermined angle.