KR100790541B1 - Discharge-damping apparatus for hermetic compressor - Google Patents

Abstract

The present invention relates to a discharge pulsation reducing device of a hermetic compressor. In the present invention, the pulsation reduction flow path 64 for reducing the pulsation of the working fluid discharged by compression is formed in the discharge guide 60 formed integrally with the suction guide 50. That is, the pulsation reducing flow path 64 is formed inside the discharge chamber 42 by forming a spiral groove in the discharge guide 60 and mounting the discharge guide 60 on the head plate 30. . The discharge chamber 42 is formed by the head plate 30 and the head cover 40 attached thereto, and the suction guide 50 and the discharge guide 60 are mounted to the head plate 30 therein. As a result, the suction chamber 52 and the pulsation reduction flow path 64 are formed. The suction port 62, which is the inlet of the pulsation reduction passage 64, communicates with the discharge chamber 42, and the outlet communicates with the discharge silencer 70 through the discharge hole 35. According to the present invention as described above, the configuration for removing the discharge pulsation is simplified and at the same time the manufacturing and assembly work is easy.

Hermetic compressor, discharge pulsation, pulsation pipe

Description

Discharge pulsation reduction device for hermetic compressor {Discharge-damping apparatus for hermetic compressor}

1 is an exploded perspective view showing the main configuration of the hermetic compressor according to the prior art.

Figure 2 is a block diagram showing the configuration of the head cover portion provided with a discharge pulsation reduction device of the hermetic compressor according to the prior art.

Figure 3 is a partial cross-sectional view showing the configuration of a preferred embodiment of the discharge pulsation reduction device of the hermetic compressor according to the present invention.

Figure 4 is a plan view of the suction guide and the discharge guide constituting an embodiment of the present invention.

5 is a cross-sectional view taken along the line AA ′ of FIG. 4.

Explanation of symbols on the main parts of the drawings

1: cylinder block 2: compression chamber

3: intake valve 5: valve plate

6: discharge valve 7: gasket

8p: head plate 8 ': discharge chamber

8: second head cover 9: suction silencer

10: discharge silencer 11: pulsating pipe

20: suction silencer 22: suction pipe                 

30: head plate 32: suction hole

33: inflow hole 34: discharge hole

35: discharge hole 40: head cover

42: discharge chamber 50: suction guide

52: suction chamber 60: discharge guide

62: suction port 64: pulsation reducing flow path

70: discharge silencer 72: discharge pipe

The present invention relates to a hermetic compressor, and more particularly, to a discharge pulsation reducing apparatus of a hermetic compressor for reducing the pulsation noise of the working fluid discharged from the compression chamber after being compressed.

The compressor serves to compress the working fluid used in the heat exchange cycle, and FIG. 1 shows a configuration for transferring the working fluid from the general compressor to the compression chamber and discharging the compressed working fluid.

As shown therein, a compression chamber 2 is formed in the cylinder block 1 in which the working fluid is compressed. The cylinder block 1 is provided with a valve assembly for suctioning the working fluid into the compression chamber 2 or discharging the compressed working fluid to the outside of the compression chamber 2.                         

The valve assembly comprises a suction valve 3, a valve plate 5, a discharge valve 6 and a gasket 7. The valve plate 5 is provided with a suction hole 5i for sucking the working fluid into the compression chamber 2 and a discharge hole 5e for discharging outside the compression chamber 2. A suction valve 3 for opening and closing the suction hole 5i is installed between the valve plate 5 and the cylinder block 1.

On the opposite side to which the suction valve 3 is installed, a discharge valve 6 is installed to be in close contact with the valve plate 5. The head plate 8p is provided in close contact with the discharge valve 6 on the opposite side in contact with the valve plate 5. A gasket 7 for preventing leakage is installed between the discharge valve 6 and the head plate 8p. Such components are assembled by bolts B passing through the bolt holes BH which are drilled at corresponding positions, respectively, and being fastened to the cylinder block 1.

On the other hand, the head plate (8p) is provided with a suction silencer (9) for reducing the noise when delivering the working fluid sucked from the outside through the suction hole (5i) to the compression chamber (2). Reference numeral 9 'is a suction pipe.

Then, the head cover 8 is blazed welded to the head plate 8p to form a discharge chamber 8 'therebetween. The discharge chamber 8 'is compressed in the compression chamber 2 and the working fluid discharged through the discharge hole 5e is located. A suction guide 8g is installed inside the discharge chamber 8 'to guide the working fluid from the suction silencer 9 to the compression chamber 2. The suction guide 8g is mounted to the head plate 8p to communicate the suction silencer 9 and the compression chamber 2 through the suction hole 5i.                         

 A discharge silencer 10 is provided in communication with the discharge chamber 8 ', and the discharge silencer 10 is in communication with the discharge chamber 8' by the pulsation pipe 11. The pulsating pipe 11 is wound in a circle many times. On the other hand, the discharge pipe 12 for delivering the working fluid delivered to the discharge silencer 10 to the outside is provided.

It will be described that the working fluid is compressed in the hermetic compressor according to the prior art having such a configuration.

The working fluid delivered from the cycle component connected to the compressor is delivered to the suction silencer 9 through the suction pipe 9 '. In the suction silencer 9, the noise of the working fluid is reduced, and the working fluid is transferred to the compression chamber 2 through the suction hole 5i according to the operation of the suction valve 3. The working fluid compressed in the compression chamber 2 is transferred to the discharge chamber 8 'through the discharge hole 5e by the operation of the discharge valve 6.

The working fluid is transferred from the discharge chamber 8 'to the discharge silencer 10 through the pulsation pipe 11. In addition, the working fluid in which the pulsation noise is reduced in the pulsation pipe 11 and the discharge silencer 10 is transferred to the outside of the compressor through the discharge pipe 12.

However, the discharge noise reduction device having the above configuration has the following problems.

The pulsation pipe 11 is installed inside the discharge silencer 10, the pulsation pipe 11 is wound in a coil spring shape and fixed by blazing welding inside the discharge silencer 10 having a relatively narrow volume. do. Therefore, a separate process of winding the pulsation pipe 11 in the form of a coil spring is required, and the problem of installing the pulsation pipe 11 wound in the form of the coil spring inside the discharge silencer 10 is cumbersome. have.

In addition, since the distance between the pulsation pipe 11 and the inner wall of the discharge silencer 10 is relatively small, a gap management between the tip of the pulsation pipe 11 and the inner wall of the discharge silencer 10 is also required. have.

In addition, since the pulsation pipe 11 is fixed inside the discharge silencer 10 through blazing welding, when the pulsation pipe 11 is not properly fixed, the pulsation pipe 11 vibrates during use to discharge the silencer ( 10, rather noise is generated.

Accordingly, an object of the present invention is to solve the conventional problems as described above, and to more reliably reduce the discharge noise of the working fluid generated in the hermetic compressor.

Another object of the present invention is to simplify the configuration of the discharge pulsation reducing device.

According to a feature of the present invention for achieving the above object, the present invention provides a discharge chamber in which a compressed working fluid is discharged from the compression chamber, and a working fluid installed inside the discharge chamber and the compressed and discharged working fluid flows. And a discharge guide provided with the reduced pulsation reduction passage, and a discharge silencer for removing noise and pulsation of the working fluid passing through the pulsation reduction passage of the discharge guide.

The discharge chamber is formed by a head plate coupled to the valve assembly and a head cover mounted to the head plate, and a suction guide integrally formed with the discharge guide forms a suction chamber between the head plate and the discharge plate. It forms and supplies working fluid to the compression chamber.

The pulsation reduction flow path is formed in the discharge guide, the inlet is in communication with the discharge chamber and the outlet is in communication with the discharge silencer is formed in cooperation with the head plate to form a relatively long flow path length of the working fluid Reduce discharge pulsation

According to the present invention having such a configuration there is an advantage that the components constituting the discharge pulsation reducing device is simplified to facilitate the assembling work and to be accurate and eliminate the need for separate dimension management.

Hereinafter, a preferred embodiment of the discharge pulsation reducing device of the hermetic compressor according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

3 is a partial cross-sectional view of a preferred embodiment of the discharge pulsation reducing device of the hermetic compressor according to the present invention, Figure 4 is a plan view of the suction guide and the discharge guide constituting the embodiment of the present invention, Figure 5 A cross-sectional view taken along line AA ′ of FIG. 4 is shown. The same thing as that of the prior art will be described using the reference numerals of the prior art drawings.

As shown in these figures, the suction silencer 20 removes the noise and pulsation of the working fluid which is sucked from the outside of the compressor and delivered to the compression chamber 2. The working fluid flows into the suction silencer 20 through the suction pipe 22.

The suction silencer 20 is mounted to the head plate 30. The head plate 30 is mounted to the cylinder block 1 together with the valve assembly. The head cover 40 is mounted on the opposite side of the head assembly 30 in contact with the valve assembly to form a discharge chamber 42 therein.

In this way, a plurality of through holes are formed in the head plate 30, which cooperates with the head cover 40 to form the discharge chamber 42, for the flow of the working fluid. First, a suction through-hole 32 is drilled to communicate the suction silencer 20 with the suction chamber 52 to be described below. An inflow hole 33 is formed through the head plate 30 so as to communicate the compression chamber 2 through the suction chamber 52 and the suction hole 5i. A discharge through hole 34 is drilled in the head plate 30 to discharge the working fluid compressed in the compression chamber 2 to the discharge chamber 42. Finally, the discharge hole 35 is drilled to pass the pulsation reduction passage 64 from the discharge chamber 42 to deliver the working fluid to the discharge silencer 70.

Next, the suction guide 50 and the discharge guide 60 formed integrally inside the discharge chamber 42 are mounted to the head plate 30. The suction guide 50 forms a suction chamber 52 therein in cooperation with the head plate 30. The suction chamber 52 is formed between the suction silencer 20 and the compression chamber 2 to guide the working fluid to the compression chamber 2.

As shown in FIG. 4, the discharge guide 60 is integrally formed with the suction guide 50. Swirl grooves are formed in the discharge guide 60 to cooperate with the head plate 30 to form a pulsation reducing flow path 64. The pulsation reduction flow path 64 serves to reduce the pulsation of the compressed working fluid discharged periodically by lengthening the passage length as much as possible. The inlet of the pulsation reduction passage 64 is an inlet 62, which allows the discharge chamber 42 to communicate with the pulsation reduction passage 64. The end portion of the pulsation reduction flow path 64 is in communication with the discharge hole 35 of the head plate (30). The suction guide 50 and the discharge guide 60 may be formed by pressing a rolled steel sheet, for example.

Next, the discharge silencer 70 is mounted at one end of the head plate 30. The discharge silencer 70 is installed in a position opposite to the suction silencer 20, and serves to remove noise and pulsation of the compressed and discharged working fluid. The discharge silencer 70 is provided with a discharge pipe 72 to transfer the working fluid to the outside.

Hereinafter, the operation of the discharge pulsation reducing device of the hermetic compressor according to the present invention having the configuration as described above will be described.

When the compressor is driven, the piston is linearly reciprocated in the compression chamber 2. As the piston moves, the pressure inside the compression chamber 2 changes, the working fluid is sucked from the outside of the compressor according to the pressure change, and the compressed working fluid is discharged to the outside of the compressor.

That is, in the suction stroke, the working fluid is delivered to the suction silencer 20 through the suction pipe 22. Noise is removed from the suction silencer 20, and a working fluid is transferred to the suction chamber 52 through the suction hole 32. The working fluid delivered to the suction chamber 52 flows to the compression chamber 2 via the inflow hole 33 and the suction hole 5i.

The working fluid delivered to the compression chamber 2 is compressed by the movement of the piston. As a result of the compression operation, the internal pressure of the compression chamber 2 is increased, and the discharge valve 6 is opened, and the compressed working fluid of the compression chamber 2 opens the discharge hole 5e and the discharge hole 34. It discharges to the discharge chamber 42 via.

The working fluid discharged to the discharge chamber 42 is transferred into the pulsation reduction flow path 64 through the suction port 62 and is vortexed to form a pulsation reduction flow path 64 having a relatively long length of the flow path. Pulsation is reduced while passing.

The working fluid passing through the pulsation reducing passage 64 flows to the discharge silencer 70 through the discharge hole 35, and the pulsation and noise are removed in the discharge silencer 70. The working fluid in the discharge silencer 70 is delivered to the outside of the compressor through the discharge pipe 72.

The discharge pulsation reducing apparatus of the hermetic compressor according to the present invention as described above is made inside the discharge chamber by a discharge guide in which the pulsation reducing passage is formed integrally with the suction guide. Therefore, the number of components constituting the compressor is relatively reduced. In addition, since the pulsation reduction flow path is formed by mounting the discharge guide formed integrally with the suction guide on the head plate, the work for forming the pulsation reduction flow path becomes relatively simple, thereby increasing the workability of manufacturing and assembly work.

Claims (3)

A discharge chamber through which the compressed working fluid is discharged from the compression chamber, A discharge guide provided in the discharge chamber and having a pulsation reduction flow path for reducing pulsation while the compressed and discharged working fluid flows; And a discharge silencer for removing noise and pulsation of the working fluid passing through the pulsation reducing passage of the discharge guide. The discharge chamber of claim 1, wherein the discharge chamber is formed by a head plate coupled to the valve assembly and a head cover mounted to the head plate, and a suction guide integrally formed with the discharge guide has a head plate in the discharge chamber. Discharge pulsation reduction device of the hermetic compressor, characterized in that the suction chamber is formed between the supplying the working fluid to the compression chamber. The pulsation reducing channel is formed in the discharge guide, a spiral groove having an inlet communicating with the discharge chamber and an outlet communicating with the discharge silencer is formed in cooperation with the head plate. Discharge pulsation reduction device of the hermetic compressor characterized in that it is formed long to reduce the discharge pulsation of the working fluid.

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