KR950005819Y1 - Compressor - Google Patents

Abstract

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Description

Suction silencer fastening structure of hermetic compressor

1 is a plan view showing a general hermetic compressor.

2 is a structural diagram showing the flow of the refrigerant in FIG.

3 is a cross-sectional view showing the structure of a suction silencer of a conventional hermetic compressor.

Figure 4 is a longitudinal cross-sectional view showing the structure of the suction silencer of the present invention hermetic compressor.

5 is a longitudinal sectional view of FIG.

6 is a cross-sectional view taken along the line A-A of FIG.

7 is a sectional view taken along the line B-B in FIG.

8 is a graph showing the noise measurement results of the product to which the present invention is applied in comparison with the conventional one.

* Explanation of symbols for main parts of the drawings

40: suction pipe 41: separator plate

50: resonance hole 51: resonance hole

40: common pipe 61: extension pipe

The present invention improves the compression efficiency by preventing the flow loss of the refrigerant, and relates to the structure of the suction silencer of the hermetic compressor to effectively reduce the noise generated in the cylinder, in particular the noise of the high frequency band.

As shown in FIG. 1, a general hermetic compressor is integrally fastened to an upper portion of a rotary shaft mounted inside the outer casing 1, and is eccentrically rotated to the crank shaft 2 and the crank shaft 2, respectively. A piston 4 fastened to the mounted slider 3 to move northward, a piston 5 fastened therein, and a cylinder 5 for compressing and discharging the introduced refrigerant and communicating with the cylinder 5. A suction silencer 6 installed to introduce refrigerant, a cylinder head 7 connected to the cylinder 5 to communicate with the compressed refrigerant, and a refrigerant compressed in communication with the cylinder head 7 to be discharged. Made of a discharge silencer (8).

As shown in FIG. 1 and FIG. 2, the hermetic compressor has an eccentric rotation of the crankshaft 2 so that the piston 4 reciprocates. The refrigerant introduced into the gas was compressed and discharged. That is, the flow of the refrigerant in such a hermetic compressor will be described in detail. First, the refrigerant introduced through the suction silencer 6 flows into the cylinder 5, and the refrigerant introduced into the cylinder 5 passes through the piston 4. Compressed by compression, this compressed refrigerant flowed into the cylinder head 7 and was discharged through the discharge silencer 8 introduced into the cylinder head 7.

On the other hand, in such a hermetic compressor, the conventional suction silencer has a fastening structure, as shown in FIG. 3, a suction tube 10 having a separating plate 11 formed in a longitudinal direction via refrigerant on an inner circumferential surface thereof, and the suction tube. Resonance cylinder 20 is fastened to the side wall surface of the (10) and the resonance hole 21 is formed in the fastening portion, and the hollow tube 30 is fastened so as to communicate with the upper portion of the suction pipe (10).

As shown in FIG. 3, the suction silencer structure of the conventional hermetic compressor is divided into two parts by a separator plate 11 formed therein with the refrigerant flowing into the suction pipe 10, and the separator plate 11. Refrigerant separated by the re-integrated in the upper portion is introduced into the interior of the hollow tube 30, the refrigerant introduced into the hollow tube 30 was introduced into the cylinder fastened to the upper portion. At this time, the noise generated in the cylinder is introduced into the suction pipe 10 via the common pipe 30, the noise introduced into the hollow pipe 30 is separated by a separating plate 11, each of which is a pipe line Resonance inside the resonance cylinder 20 through the resonance hole 21 formed therein was reduced, in particular the noise of the low frequency band is reduced.

However, the suction silencer structure of the conventional hermetic compressor has a problem that the noise of the low frequency band is reduced among the noise generated in the cylinder by the resonance cylinder in which the resonance life is formed, but the noise of other frequency bands, especially the high frequency band, remains.

An object of the present invention is to solve the conventional problems as described above, to prevent the loss of the flow rate of the refrigerant to improve the compression efficiency of the compressor, reduce the noise generated inside the cylinder, in particular to reduce the noise of the high frequency band effectively To provide a suction silencer structure of the hermetic compressor.

Hereinafter, the technical configuration of the present invention in detail.

The suction silencer structure of the present invention hermetic compressor includes a suction tube 40 in which a separator plate 41 extends in a longitudinal direction via refrigerant on an inner circumferential surface thereof, and the suction tube 40 as shown in FIGS. Resonance cylinder 50 is fastened to the side wall of the side and the resonance hole 51 is formed in the fastening portion, and the extension pipe is fastened to the upper portion of the suction pipe 40 and extended to communicate with the separation plate 41 of the suction pipe 40 It is characterized by the technical configuration that the 61 consists of a hollow tube 60 formed therein.

The separating plate 41 formed in the longitudinal direction through which the refrigerant passes through the inner circumferential surface of the suction pipe 40 extends to the end of the suction pipe 40 to divide the inside of the suction pipe 40 into two parts.

In addition, the suction tube 40 and the cavity tube 60 are not communicated with each other by the diameter of the cavity tube 60 as in the related art, but the two portions 61a and 61b around the separator plate 41 of the suction tube 40. Divided into and connected to the extension pipe (61a, 61b) having a gradually smaller diameter from the suction pipe 40 into the hollow tube (60).

In addition, as shown in FIG. 7, the resonance cylinder 50 is fastened to the side wall surface of the suction pipe 40 and the resonance hole 51 formed at the fastening portion is formed around the separation plate 41.

The present invention is the suction silencer structure of the hermetic compressor as shown in FIGS. 5 and 7, the two parts by the separating plate 41 formed in the suction pipe 40, the refrigerant introduced into the suction pipe 40 The refrigerant separated into two parts by the separating plate 41 is introduced into each of the extension pipes 61a and 61b communicating with the upper portion, and the refrigerant passing through the extension pipes 61a and 61b is again passed. The inside of the cavity 60 is combined to flow into the cylinder.

At this time, the noise generated inside the cylinder is introduced into the cavity tube 60, some of the noise introduced into the cavity tube 60 is extinguished by the extension tube 61, the remaining noise is separated extension tube 61a. , 61b) is introduced into the suction pipe 40 and is separated by the separator plate 41 and introduced into the suction pipe 40 to be resonated in the resonance tube 50 through the resonance hole 51 formed in the pipeline and disappeared. . At this time, the disappearing noise is mainly a high frequency band.

FIG. 8 is a graph showing the noise measurement result (B) of the product to which the conventional design is applied and the noise measurement result (C) of the product to which the present invention is applied. 3dB decrease is shown.

As described above, the suction silencer structure of the enclosed compressor of the present invention, the separation plate in the longitudinal direction via the refrigerant flows inside the suction pipe to which the resonance cylinder is fastened to the side wall surface, the inside of the hollow pipe fastened to the upper portion of the suction pipe By forming an extension tube in the communication tube to communicate with the separation plate of the suction tube, the refrigerant flowing into the suction tube is introduced into the cylinder fastened to the upper portion of the cavity without loss of flow, and part of the noise generated inside the cylinder is the hollow tube It is extinguished in the tube and extension tube, and the rest is extinguished in the resonance tube, which is particularly useful for the efficient reduction of noise in the high frequency band.

Claims (1)

A suction tube having a separator plate extending in a longitudinal direction through the refrigerant on an inner circumferential surface thereof, a resonance tube fastened to the suction tube and having a resonance hole formed at a fastening portion, and an extension tube communicating with the separator plate of the suction tube therein; Suction silencer structure of the hermetic compressor characterized in that the configuration.