KR100496918B1 - Compressor - Google Patents

Abstract

Disclosed is a compressor equipped with a soundproof member capable of maximally reducing noise and vibration generated from a compressor. The soundproof member includes a first soundproof part disposed to contact the outer surface of the compressor, a second soundproof part disposed to be spaced apart from the first soundproof part by a predetermined distance, and a space layer formed between the first soundproof part and the second soundproof part. do. The first soundproof part and the second soundproof part are formed of an intermediate layer made of a rubber material between an inner layer and an outer layer made of a felt material to form a plurality of layers. In addition, a second sound insulation member is attached to an outer surface of the accumulator to absorb operating noise and vibration transmitted from the compressor via the refrigerant pipe. The second soundproof member is made of a rubber material to form a single layer.

Description

Compressor

The present invention relates to a compressor for use in an air conditioner and a refrigerator, and more particularly, to a compressor that effectively reduces noise and vibration generated during operation of the compressor.

In general, an apparatus such as an air conditioner and a refrigerator using a refrigeration cycle to cool the surrounding space includes a compressor for compressing a circulating refrigerant at a high pressure, a condenser for condensing the compressed high temperature refrigerant gas, and a condensed refrigerant. And an evaporator for cooling the ambient air by evaporating a low temperature expanded refrigerant.

On the other hand, in the compressor for compressing the refrigerant at high pressure, high vibration and noise are generated according to the operation of the compressor. In order to reduce such vibration and noise, a soundproof member is generally attached to the outer surface of the compressor. Recently, as a large-capacity air conditioner and a refrigerator have been produced and sold, the capacity of the compressor has also increased, and vibration and noise have been inevitably increased due to the operation of the compressor. It became.

Figure 1 shows a compressor having a conventional sound insulation member for reducing the noise by covering the outer surface of the compressor. As shown therein, the compressor 1 forms an appearance by a substantially cylindrical sealed container. In the lower part of the compressor (1), a refrigerant inlet (1a) for introducing gas refrigerant from the accumulator (2) separating the liquid refrigerant into the compressor (1) is disposed, and the upper portion of the compressor (1) is a high pressure compressed gas refrigerant. A refrigerant discharge port 1b for discharging to (not shown) is disposed. In addition, the upper surface of the compressor 1 has a bypass pipe 6 connected to the refrigerant inlet 1a to change the capacity of the compressor 1, and a PWM (Pulse Width Modulation) installed at the bypass pipe 6. ) Valve (3) is provided, the PWM valve (3) is a loading operation and bypass tube (6) to block the bypass pipe (6) to discharge the refrigerant from the compressor (1) to the condenser. It is turned on / off by a control signal so that the refrigerant can be operated in an unloading operation in which the refrigerant discharged from the compressor 1 is returned to the compressor 1 again. The PWM valve 3 enables the configuration of a multi air conditioner in which a plurality of indoor units are connected to one outdoor unit, but also the operation noise of the compressor 1 together with the operation of the PWM valve 3. The conversion sound is generated by periodic loading and unloading, and the noise becomes louder.

Inside the compressor 1, a compression device (not shown) for compressing the introduced gas refrigerant at high pressure is installed. By the operation of the compressor, the compressor 1 sucks gas refrigerant from the accumulator 2 and compresses the gas refrigerant to a high pressure, and then discharges it to a condenser (not shown).

Therefore, the soundproof member 4 is attached to the outer surface of the compressor 1 to reduce the operation noise and vibration generated from the compressor 1 which operates to compress the gas refrigerant at high pressure.

The soundproof member 4 is made of a material capable of reducing the operation noise of the compressor 1 to cover the outer surface of the compressor 1 to reduce the noise and vibration generated by the compressor 1.

In addition, on the outer surface of the accumulator 2 spaced apart from the compressor 1, to prevent the occurrence of dew condensation on the surface of the accumulator 2 due to the temperature difference between the refrigerant having a low temperature inside and the outside air. Insulation member 5 is attached to it.

However, since the compressor according to the related art configured as described above has no space layer capable of absorbing noise and vibration of the compressor between the compressor and the soundproof member because the soundproof member is installed in close contact with the surface of the compressor, the operation generated from the compressor Although the noise can be partially absorbed, most of the operating noise is a disadvantage that is transmitted to the outside through the soundproof member.

In addition, the noise and vibration generated from the compressor is transmitted to the accumulator by the refrigerant suction pipe. The compressor according to the related art does not have a soundproof structure that prevents vibration and noise transmitted from the compressor on the outer surface of the accumulator. There is also a disadvantage that significant noise and vibration occurs.

The present invention is to solve the above problems of the prior art, an object of the present invention to provide a compressor having a soundproof member that can reduce the noise and vibration generated from the compressor to the maximum.

Another object of the present invention is to provide a compressor with a soundproof member attached to the accumulator so as to effectively reduce vibrations and noise generated in the accumulator by the operation of the compressor.

The present invention for achieving this object, in the compressor with a soundproof member on its outer surface,

The soundproof member may include a first soundproof part disposed to contact the outer surface of the compressor, a second soundproof part disposed to be spaced apart from the first soundproof part by a predetermined distance, and between the first soundproof part and the second soundproof part. Characterized in that it comprises a formed space layer.

The first soundproof part and the second soundproof part are disposed between an inner layer made of a felt material and an outer layer, and an intermediate layer made of a rubber material is formed to form a plurality of layers.

The compressor is provided with an accumulator connected by a refrigerant pipe, and a second soundproof member is attached to an outer surface of the accumulator to absorb operating noise and vibration transmitted from the compressor via the refrigerant pipe.

Preferably, the second sound insulation member is made of a rubber material to form a single layer.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

2 is a view showing a rough appearance of a compressor having a soundproofing member according to the present invention. As shown in the drawing, the compressor 10 according to the present invention is formed by an airtight container having a substantially cylindrical shape as in the prior art, and a coolant suction port 12 and a coolant discharge port 13 are respectively formed on the lower and upper portions thereof. Is provided. The refrigerant inlet 12 is connected to a refrigerant inlet pipe 14 for guiding gas refrigerant from the accumulator 11 to the compressor 10, and the refrigerant outlet 13 is configured to guide the compressed gas refrigerant to a condenser (not shown). The refrigerant discharge pipe 15 is connected.

In addition, a bypass pipe 16 is provided between the upper surface of the compressor 10 and the refrigerant suction pipe 14 so as to vary the capacity of the compressor 10, and the bypass pipe 16 has a control signal. In accordance with this, a PWM valve 17 for loading or unloading the compressor 10 is provided. When the PWM valve 17 is opened and the bypass pipe 16 is opened, the gas refrigerant discharged from the compressor 10 is sent to the refrigerant suction pipe 14 and flows back into the compressor 10 so that the compressor 10 returns to the condenser. The compressor is operated by an unloading operation in which gas refrigerant is not discharged. When the bypass tube 16 is closed because the PWM valve 17 is closed, the gas refrigerant discharged from the compressor 10 is discharged to the condenser. Is to operate as a loading operation. By controlling the on / off cycle of the PWM valve 17 it is possible to vary the capacity of the compressor 10 between 100% loading operation and 0% unloading operation.

As described above, the compressor 10 having a variable capacity having a PWM valve 17 generates not only a great noise and vibration by the operation of the compressor 10, but also an on / off operation of the PWM valve 17. In addition, noise and vibration are generated.

In order to absorb such noise and vibration, the first soundproof member 20 according to the present invention is attached to the outer surface of the compressor 10. In FIG. 2, for convenience, the portion covering the upper surface of the compressor is separated and illustrated. The first soundproof member is disposed to surround the outer surface of the compressor as a whole.

The first soundproofing member 20 of the present invention is the first soundproofing portion 21 disposed in contact with the entire surface of the compressor 10 and the second soundproofing spaced apart from the first soundproofing portion 21 by a predetermined interval. A part 22 and a space layer 23 formed between the first soundproof part 21 and the second soundproof part 22.

The first soundproofing part 21 and the second soundproofing part 22 are both inner layers 21a and 22a and outer layers 21b and 22b made of felt and the inner layers 21a and 22a. It is formed of the rubber intermediate layers 21c and 22c provided between the outer layers 21b and 22b to form a plurality of layers.

As described above, the first sound insulation member 20 of the present invention has a structure in which a space layer 23 having a predetermined width is disposed between the first sound insulation portion 21 and the second sound insulation portion 22 forming a plurality of layers. By doing so, the operating noise and vibration generated from the compressor 10 are effectively absorbed through the first soundproof part 21, the space layer 23, and the second soundproof part 22. That is, the operation noise and vibration generated from the compressor 10 are primarily absorbed by the first soundproof part 21, and the noise and vibration passed through the first soundproof part 21 are again the second soundproof part 22. At the same time, the second vibration and noise are trapped in the space layer 23 between the first soundproofing portion 21 and the second soundproofing portion 22 and extinguished, thereby suppressing operating noise and vibration of the compressor 10. It will be effectively reduced.

Here, in the present exemplary embodiment, the first soundproof part 21 and the second soundproof part 22 are described as being formed of three layers. However, the present invention is not limited thereto and may be formed of a single layer or three or more layers.

In addition, the vibration and noise generated by the compressor 10 are transmitted to the accumulator 11 along the bypass pipe 16 and the refrigerant suction pipe 14 to generate vibration and noise in the accumulator 11. In order to prevent this, the second soundproof member 30 according to the present invention is attached to the outer surface of the accumulator 11. The second sound insulation member 30 is formed of a single layer made of rubber material, more specifically, butyl rubber to absorb vibration and noise generated by the accumulator 11 and at the same time accumulate according to the temperature difference. The dew condensation occurring on the outer surface of (11) is prevented.

Since the vibration and noise generated in the accumulator 11 are only transmitted from the compressor 10, the size is not so large that the second soundproof member 30 formed of a single layer can effectively absorb this vibration and noise. It can be. However, in order to more effectively absorb the vibration and noise of the accumulator 11, the second soundproof member 30 may also be formed in the same layer as the first soundproof member 20.

As described above, the operation noise and vibration generated in the compressor 10, and the noise and vibration transmitted from the compressor 10 to the accumulator 11 are the first and second soundproof members 20 and 30 according to the present invention. It will be effectively absorbed by the to keep the surroundings quiet.

This is based on the experiments measured during operation of the compressor (1) with the conventional soundproof member (4) and the compressor (10) having the first soundproof member (20) and the second soundproof member (30) according to the present invention. Proven. That is, in the six-compressor 10 equipped with the first soundproof member 20 according to the present invention, the front noise is at a maximum of 4.4 dB as compared to the six-horsepower compressor 1 equipped with the conventional soundproof member 4. The noise was reduced by at least 1.5dB, and the rear noise was reduced from 2.5dB at the maximum to 0.8dB at the minimum.

In addition, in the accumulator 11 of the present invention with the second soundproof member 30, the front noise is reduced from a maximum of 1.3 dB to a minimum of 0.2 dB, compared to the conventional accumulator 2 without the soundproof member. It can be seen that is reduced from 1.8dB maximum to 0.8dB minimum.

As described in detail above, the compressor and accumulator with a soundproof member according to the present invention has a structure that can effectively reduce the operation noise and vibration compared to the prior art, it is possible to operate quietly according to the noise around Not only does it cause discomfort, but also has the effect of extending the life of the compressor and accumulator.

1 is an external perspective view of a compressor according to the prior art shown by partially cutting the conventional soundproofing member.

Figure 2 is an external perspective view of the compressor according to the present invention shown by partially cutting the soundproof member of the present invention.

* Description of symbols on the main parts of the drawings

10: Compressor 11: Accumulator

20: first sound insulation member 21: first sound insulation

22: second sound insulation 23: space layer

30: second sound insulation member

Claims (5)

A compressor having a PWM valve connected by a refrigerant pipe and having a first soundproof member attached to an outer surface thereof, wherein the first soundproof member is arranged to be in contact with the outer surface of the compressor, and the first soundproof unit is And a second soundproof part disposed to be spaced apart from the first soundproof part so as to form a space layer therebetween, wherein the first soundproof part and the second soundproof part are made of a rubber material between an inner layer and an outer layer made of a felt material. Compressor, characterized in that the intermediate layer is arranged to form a plurality of layers. delete According to claim 1, wherein the accumulator is connected to the accumulator connected by the refrigerant pipe, the outer surface of the accumulator is attached to the second soundproof member for absorbing the operation noise and vibration transmitted from the compressor via the refrigerant pipe The compressor is characterized in that the second soundproof member is made of a rubber material to form a single layer. delete delete