KR20080103278A - A silencer and a refrigerator comprising the same - Google Patents

Abstract

An anti-noise apparatus for a refrigerator is provided to improve the noise abatement performance by continuously maintaining the flow area of the refrigerant inside and by easily flowing out the oil flowed inward to the outside. The anti-noise apparatus for a refrigerator formed in a refrigerant pipe connecting a compressor to a condenser is formed in the shape for preventing the oil flowed in with the refrigerant from being continuously accumulated and recurring toward the compressor. The anti-noise apparatus is composed of a body unit(61) having an empty space, an inlet(62) which is formed at one side of the body unit and in which the refrigerant is flowed in, and an outlet(63) which is formed at the other side of the body unit and in which the refrigerant is flowed out.

Description

A silencer and a refrigerator comprising the same

1 is a rear perspective view of a machine room of a refrigerator equipped with a conventional silencer.

2 is a side cross-sectional view of a conventional silencer.

3 is a rear perspective view of a machine room of a refrigerator equipped with a silencer according to the present invention.

Figure 4 (a) is a side cross-sectional view showing the oil and refrigerant flow into the silencer according to the present invention.

Figure 4 (b) is a side cross-sectional view showing that oil is returned in the inflow direction in the silencer according to the present invention.

Figure 4 (c) is a side cross-sectional view showing that the refrigerant is introduced again after the oil is released from the silencer according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

60: silencer 61: body portion

62: inlet 63: outlet

The present invention relates to a silencer and a refrigerator including the same, and more particularly, to an improved noise damping performance of a muffler, thereby improving quietness of a silencer and a refrigerator equipped with the same.

1, the machine room 13 provided on the rear surface of the refrigerator main body 10, the base plate 15 provided inside the machine room 13, and the base plate 15 are disclosed. The compressor 17, the condenser 20, and a refrigerant pipe 18 connecting the compressor 17 and the condenser 20 are provided, and the refrigerant pipe 18 reduces flow noise of the refrigerant. A silencer 40 is provided.

As shown in Figure 2, the silencer 40 according to the prior art is a flow passage of the refrigerant and the body portion 41 and the space formed therein, respectively formed in the front and rear direction of the body portion 41 and the refrigerant It includes an inlet port 42 and the outlet port 43 to the outlet.

Thus, the refrigerant discharged from the compressor enters the body portion 41 through the inlet 42 and then passes through the outlet 43 again in the condenser direction.

At this time, the inside of the body portion 41 is introduced into the compressor as well as the refrigerant lubricating oil (O) in the compressor, at this time, since the oil (O) is a liquid is accumulated on the lower surface of the body portion (41).

However, even after the operation of the compressor 17 stops the flow of the refrigerant, the oil O remains in the body part 41, because the height of the bottom surface of the body part 40 is the inlet ( 42) and the oil (O) is accumulated in the lower bottom surface because it is lower than the height of the outlet (43).

In this state, when the compressor (see FIG. 1 and 17) operates and the refrigerant flows back into the silencer body portion 41, the effective flow diameter of the refrigerant is reduced by h, the cumulative height of the oil, compared to the diameter d inside the body portion. do.

That is, the diameter of the body portion is significantly larger than the diameter of the inlet, so that the difference in the flow area between the two quantums must occur so that the noise is more effectively reduced by the principle of the Holm Hertz resonator. As a result, the flow area inside the body portion 41 is reduced, and as a result, a problem that the noise attenuation performance is lowered occurs.

The present invention is to solve this problem, to maintain the effective flow area of the refrigerant inside the muffler, and to allow the oil introduced into the muffler to easily flow out of the muffler to improve the noise attenuation performance of the muffler The purpose is to improve.

The present invention for achieving the above object is a silencer provided in the refrigerant pipe connecting the compressor and the condenser, the silencer so that the oil introduced with the refrigerant therein can be returned to the compressor direction without being accumulated continuously Provided is a silencer for refrigerant piping, which has a shape to be.

In addition, the muffler includes a body portion having an empty space therein, an inlet provided at one side of the body portion and a refrigerant inlet, and an outlet provided at the other side of the body portion to allow the refrigerant to flow out, and the bottom surface of the muffler is It is characterized in that it is provided not lower than the lower portion of the inlet.

In addition, the bottom surface of the muffler is characterized in that formed in parallel with the lower portion of the inlet.

In addition, the position of the outlet is characterized in that it is provided higher than the position of the inlet.

In addition, the inner wall located above the inlet of the inner wall of the silencer adjacent to the inlet is characterized in that it is provided to increase the flow area near the inlet inclined upward.

The present invention also includes a compressor, a condenser, a refrigerant pipe connecting the compressor and the condenser, and a silencer provided in the refrigerant pipe to attenuate the refrigerant noise, wherein the silencer includes oil introduced together with the refrigerant therein. Provided is a refrigerator, which is configured in a shape that can be returned to the compressor direction without being accumulated continuously.

In addition, the muffler includes a body portion having an empty space therein, an inlet provided at one side of the body portion and a refrigerant inlet, and an outlet provided at the other side of the body portion to allow the refrigerant to flow out. It is characterized in that it is provided not lower than the lower portion of the inlet.

In addition, the position of the outlet is provided higher than the position of the inlet, it characterized in that it is provided higher than the cumulative height of the oil temporarily accumulated in the silencer when the compressor operates.

In addition, the inner wall located above the inlet of the inner wall of the silencer adjacent to the inlet is characterized in that it is provided to increase the flow area near the inlet inclined upward.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings, and the same components as in the prior art will be described using the same reference numerals.

As shown in FIG. 3, the refrigerator according to the present invention includes a main plate 10, a base plate 15 mounted in the machine room 13, and a machine room 15, and an upper portion of the base plate 15. The compressor 17 includes a compressor, a condenser 20 condensing the refrigerant, and a refrigerant pipe 18 connecting the compressor 17 and the condenser 20.

In addition, a blower 25 is provided on one side of the condenser 20 to assist the refrigerant flowing in the condenser 20 to exchange heat with outside air, and the blower 25 blows air again. Blower fan 27, a fan case 30 disposed on the outer periphery of the blower fan 27, a blower 31 provided inside the fan case 30 to guide the blowing, and connected to the blower fan 27 And a fan motor 33 for driving the blower fan 27 is provided.

On the other hand, the refrigerant pipe 18 connecting the compressor 17 and the condenser 20 is provided with a silencer 60 to attenuate the flow noise of the refrigerant.

Here, the silencer 60 includes a body portion 61 forming the exterior, an inlet 62 through which the coolant flows in, and an outlet 63 through which the coolant flows out, where the inlet 62 is located. Is provided in the lower portion of the front end of the body portion 61, not the center, the outlet 63 is provided in the central portion or upper portion of the rear end of the body portion 61.

That is, the height of the inlet 62 communicated with the compressor 17 is lower than the height of the outlet 63 communicated with the condenser 20.

As shown in Figure 4 (a), the inlet 62 in front of the body portion 61 is provided at a lower position than the outlet 63, the lower portion of the inlet 62 is the body portion 61 It is preferable that the oil is formed at or slightly lower than the bottom of the bottom surface. The oil accumulated on the bottom of the body portion 61 moves to the inlet 61 after the flow of the refrigerant is stopped, and the compressor again. To return to (see Fig. 3, 17).

Here, A is the height difference between the center of the inlet 62 and the outlet 63, the height difference is formed higher than the cumulative height of the oil (O) accumulated temporarily inside the body portion 61 during the refrigerant flow It is desirable to be.

Here, the inner wall (61a) of the body portion 61 is connected to the upper portion of the inlet 62 to form a slope inclined so that the noise is attenuated by rapidly expanding the refrigerant flow area near the inlet (62).

Hereinafter, an operation of the present invention will be described with reference to the accompanying drawings.

As shown in Figs. 3 and 4 (a), the refrigerant discharged into the refrigerant pipe 18 by the compressor 17 is irregular by suction and compression strokes of a piston (not shown) inside the compressor 17. Discharged.

That is, the refrigerant is discharged at a low speed during the suction stroke of the piston provided inside the compressor 17, and is discharged at a high speed during the compression stroke of the piston. The randomly discharged refrigerant is introduced into the body portion 61 by passing through the inlet 62. At this time, the pressure and speed of the refrigerant entering the body portion 61 are reduced, and thus the pressure pulsation of the refrigerant is caused. The change occurs to reduce noise, and then the refrigerant inside the body 61 passes through the outlet 63 to move to the condenser 20.

On the other hand, when the refrigerant (R) is introduced into the body portion 61, not only the refrigerant but also oil (O) for lubricating the components inside the compressor comes in, and this oil is the body portion 61 due to its specific gravity. It is located on the bottom of the).

When the flow of the refrigerant is stopped, as shown in Figure 4 (b), the oil (O) located inside the body portion 61 is moved in the direction of the compressor, the pressure inside the compressor is the silencer ( 60) Since the oil pressure is lower than the internal pressure, the oil is moved toward the compressor 17 due to the pressure gradient.

At this time, since the lower portion of the inlet 62 and the bottom surface of the body portion 61 are formed in substantially parallel, the oil located on the bottom surface of the body portion 61 passes through the inlet 62 and the compressor 17. Direction), and if this process continues, the amount of oil remaining inside the body portion 61 is significantly reduced.

Thereafter, when the compressor 17 is operated again as shown in FIG. 4 (c) and the refrigerant flows back into the silencer 61, the entire inside of the body part 62 of the silencer is used to form an effective flow space of the refrigerant. Since it is formed, the noise reduction function can be improved as much as the flow space increased compared to the prior art.

According to the present invention, even if the compressor lubricating oil temporarily accumulates inside the silencer, since the accumulated oil can be easily discharged to the outside of the silencer, there is a problem of reducing the effective flow volume of the refrigerant, which has been a problem in the prior art. I can solve it.

Thus, by increasing the effective flow area inside the silencer, it is possible to further reduce the pressure of the refrigerant flowing into the silencer, thereby reducing the flow noise of the refrigerant.

Claims (9)

In the silencer provided in the refrigerant pipe connecting the compressor and the condenser, The silencer is a refrigerant pipe silencer, characterized in that it has a shape to return to the compressor without the oil introduced with the refrigerant continuously accumulates therein. The method of claim 1, The silencer and the body portion is formed empty space therein, An inlet provided at one side of the body part and a refrigerant flowing therein; It is provided on the other side of the body portion includes an outlet for the refrigerant flows out, Silencer for the refrigerant pipe, characterized in that the bottom surface of the muffler is provided not lower than the lower portion of the inlet. The method of claim 2, Silencer for the refrigerant pipe, characterized in that the bottom surface of the muffler is formed in parallel with the lower portion of the inlet. The method of claim 2, The position of the outlet is higher than the position of the inlet is a refrigerant pipe silencer, characterized in that provided. The method of claim 2, Silencer for refrigerant pipes, characterized in that the inner wall of the inner wall of the silencer adjacent to the inlet is located to the top of the inlet is inclined upward to enlarge the flow area near the inlet. Compressor, condenser, A refrigerant pipe connecting the compressor and the condenser; It includes a silencer provided in the refrigerant pipe to attenuate the refrigerant noise, The silencer is characterized in that the refrigerator is characterized in that it is configured in such a way that the oil introduced with the refrigerant therein can be returned to the compressor direction without being accumulated continuously. The method of claim 6, The silencer and the body portion is formed empty space therein, An inlet provided at one side of the body part and a refrigerant flowing therein; It is provided on the other side of the body portion includes an outlet for the refrigerant flows out, The bottom surface of the muffler is characterized in that it is provided not lower than the lower portion of the inlet. The method of claim 7, wherein The outlet is positioned higher than the position of the inlet, the refrigerator characterized in that it is provided higher than the accumulated height of the oil temporarily accumulated in the silencer when the compressor is operating. The method of claim 7, wherein The inner wall located above the inlet of the inner wall of the silencer adjacent to the inlet is inclined upward to extend the flow area near the inlet.

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