KR100201849B1 - Apparatus reducing sound of compressor - Google Patents

Abstract

The present invention relates to a noise reduction device of a compressor capable of reducing noise generated by dispersing a suction load of refrigerant gas sucked at the start of a hermetic compressor, and the present invention relates to an interior of a cylinder head in a baffle installed inside a suction muffler. Noise attenuating means is coupled to attenuate the noise generated from the reverse flow to the outside of the refrigerant gas is sucked to the outside through the suction muffler, the baffle is dispersed in the refrigerant gas is sucked into the resonance chamber of the suction muffler By forming a gas flow path and forming a refrigerant gas and a noise dispersing means for dispersing the noise in the resonance chamber of the suction muffler, the suction flow path of the refrigerant gas is improved to effectively disperse the suction load of the refrigerant gas being sucked to reduce the noise generated. Pressure with equivalent freezing capacity You can always use it in silence.

Description

Noise reduction device of the compressor

The present invention relates to an apparatus for reducing noise of a compressor, and more particularly, to reduce noise generated by dispersing a suction load of refrigerant gas sucked at the start of a hermetic compressor.

In general, a compressor is an important device constituting a refrigerating cycle, in which the low-temperature and low-pressure refrigerant in the gaseous state, usually through the evaporator, is sucked and compressed, and the high-temperature and high-pressure refrigerant in the gaseous state is transferred to the condenser, When the refrigerant is compressed and supplied at a high temperature and high pressure, the refrigerant is sucked into the evaporator to keep the inside of the evaporator at a low pressure and circulate the refrigerant so that the liquefied refrigerant can evaporate at a low temperature.

In the conventional hermetic compressor, as illustrated in FIGS. 1 to 4, a suction muffler 1 is installed inside the upper and lower cases 11 and 12 made of a pressure vessel, and a baffle is provided inside the suction muffler 1. (2a) is installed, the muffler cover 13 is fixed to the upper portion of the suction muffler (1), the cylinder head (3) is installed below the suction muffler (1), the cylinder head (3) and suction The muffler base 14 is mounted between the mufflers 1.

In addition, a spring 10 is installed between one side of the suction muffler 1 and the suction pipe 9 through which the refrigerant gas is sucked, and the capillary tube 15 and the valve for sucking the compressor oil are provided in the cylinder head 3. (16) is provided and comprised.

The refrigerant gas sucked through the suction pipe 9 at the start of the conventional compressor passes through a spring 10 installed between one side of the suction muffler 1 and the suction pipe 9 to form an upper and a lower case of a pressure vessel ( 11) is sucked into the suction muffler 1 in 12, some refrigerant gas is sucked into the cylinder head 3 via a baffle 2a provided inside the suction muffler 1, or the suction muffler 1 Is sucked into the cylinder head 3 via the resonance chamber 6 of.

That is, the refrigerant gas is sucked into the cylinder head 3 through the suction muffler 1 by the action of the piston (not shown) and the valve 15 installed inside the cylinder head 3, wherein the cylinder head ( The noise generated inside 3) is reversed from the refrigerant gas to be sucked, and spreads to the outside through the suction muffler 1.

However, such a conventional compressor has a large suction load of the refrigerant gas because the refrigerant gas is sucked directly into the cylinder head 3 through the baffle 2a of the suction muffler 1 in order to improve only the refrigerating capacity. The reliability of the product can not be used in a quiet state as the noise generated inside the head 3 escapes to the elliptical suction port 4a formed to be open to the entire center of the baffle 2a. There was a problem such as lowering.

The present invention is to solve the above problems, it is possible to reduce the noise generated by dispersing the suction load of the refrigerant gas sucked at the start of the hermetic compressor to have an equal refrigeration capacity and to use the compressor in a quiet state It is an object of the present invention to provide a noise reduction device of a compressor.

1 is a longitudinal cross-sectional view showing a conventional hermetic compressor.

2 is an enlarged longitudinal sectional view of the suction muffler of FIG.

3 is a longitudinal sectional view showing a suction muffler according to the present invention;

Explanation of symbols on the main parts of the drawings

One; Suction muffler 2; baffler

3; Cylinder head 4; Inlet

5; Blocking member 6; Resonance room

7; First through hole 8; 2nd through

In order to achieve the above object, the present invention provides an upper and lower case consisting of a pressure vessel, a suction muffler installed inside the upper and lower cases, a baffle installed inside the suction muffler, and fixed to an upper portion of the suction muffler. A noise reduction device of a compressor having a muffler cover, a cylinder head installed below the suction muffler, and a muffler base mounted between the cylinder head and the suction muffler, the noise reduction device of the compressor comprising: a baffle provided inside the suction muffler. Noise attenuation means for reducing the noise generated inside the cylinder head countercurrent to the refrigerant gas to be sucked back and spread out through the suction muffler is coupled, the baffle is dispersed by the refrigerant gas to be sucked resonance of the suction muffler The suction muffler is formed in the room and the suction muffler The noise reduction apparatus of the refrigerant gas and the compressor unit noise variance is formed for dispersing the noise in the room is achieved doemeurosseo provided.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. For reference, the drawings referred to below will be described with the same reference numerals for the same parts as in the prior art for convenience of description.

Figure 3 is a longitudinal sectional view showing a suction muffler according to the present invention, the present invention is the noise generated inside the cylinder head (3) in the center of the upper end of the baffle (2) installed inside the suction muffler (1) of the hermetic compressor A blocking member 5 having a conical inlet 4 formed in the center is coupled to reverse the flow of the refrigerant gas to be sucked back and attenuate outwards through the suction muffler 1.

In addition, a plurality of first through holes 7 are formed on the upper outer circumferential surface of the baffle 2 to form a suction gas flow path in the resonance chamber 6 of the suction muffler 1 by dispersing the suction refrigerant gas. A plurality of second through holes 8 are formed on the lower sidewall of the baffle 2 to disperse the noise into the resonance chamber 6 of the suction muffler 1.

3, the refrigerant gas sucked through the suction pipe 9 when the compressor starts up passes through a spring 10 installed between one side of the suction muffler 1 and the suction pipe 9. A part of the refrigerant gas which has arrived at the muffler cover 13 fixed to the upper part of the suction muffler 1 in the upper and lower cases 11 and 12 of the pressure vessel is directly baffle 2 in the suction muffler 1. It is sucked into the cylinder head 3 via the muffler base 14 through the conical inlet 4 formed in the center of the blocking member 5 coupled to the top center.

At the same time, another refrigerant gas is delivered to the resonance chamber 6 of the suction muffler 1 through a plurality of first through holes 7 formed in the upper outer circumferential surface of the baffle 2 to the lower sidewall of the baffle 2. It is sucked into the cylinder head 15 via the muffler base 14 through the formed plurality of second through holes 8.

At this time, since the blocking member 5 having the conical suction port 4 formed therein is coupled to the center of the upper end of the baffle 2 installed inside the suction muffler 1, the noise generated inside the cylinder head 3 is reduced. When it flows backward through the suction muffler 1 and flows back to the refrigerant gas, which is sucked through the suction muffler 1 due to the suction port 4 having a narrow conical shape only in the center of the blocking member 5. The noise spreading to the outside can be effectively attenuated.

In addition, a plurality of first through holes 7 are formed on the upper outer circumferential surface of the baffle 2, and a plurality of second through holes 8 are formed on the lower sidewall of the baffle 2, so that the first through holes 7 are formed. Due to the dispersion of the refrigerant gas sucked in to form the suction gas flow path also in the resonance chamber (6) of the suction muffler (1) to improve the suction flow path of the refrigerant gas and at the same time the suction muffler due to the second through hole (8) In the resonance chamber (1) (1), the noise can be dispersed widely.

As described above, the present invention always quiets the compressor having the equivalent refrigeration capacity by improving the suction flow path of the refrigerant gas at the start of the hermetic compressor to effectively disperse the suction load of the refrigerant gas being sucked and thereby reduce the noise generated. Because it can be used in one state, it is a very useful invention that greatly improves the efficiency and reliability of the device.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (3)

An upper and lower case consisting of a pressure vessel, a suction muffler installed inside the upper and lower cases, a baffle provided inside the suction muffler, a muffler cover fixed to the upper portion of the suction muffler, and a lower portion of the suction muffler In the noise reduction device of the compressor provided with a cylinder head installed in the, and a muffler base mounted between the cylinder head and the suction muffler, Noise attenuating means is coupled to the baffle installed inside the suction muffler to attenuate the noise generated inside the cylinder head from flowing backward through the suction muffler as opposed to the refrigerant gas, which is sucked into the baffle. And a refrigerant gas and a noise dispersing means for dispersing the refrigerant gas to form a suction gas passage in the resonance chamber of the suction muffler and at the same time dispersing the noise in the resonance chamber of the suction muffler. The noise reduction device of claim 1, wherein the noise attenuation means is a blocking member coupled to a center of an upper end of a baffle and formed with a conical suction port at a center thereof. The noise of the compressor according to claim 1, wherein the refrigerant gas and the noise dispersing means comprise a plurality of first through holes formed in the upper outer circumferential surface of the baffle and a plurality of second through holes formed in the lower sidewall of the baffle. Abatement system.

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