KR20030016480A - Apparatus for reduce the noise of rotary compressor - Google Patents

Abstract

PURPOSE: An apparatus for reducing noise of a rotary compressor is provided to improve noise reducing performance. CONSTITUTION: A sound attenuator(120) includes an opening groove(125a) formed on a circumference of a contacting part(125) contacting an upper bearing to cover to improve air-tightness between the upper bearing and the sound attenuator. At least one opening groove is formed on the circumference of the contacting part with fixed width and depth at regular intervals. Deformation due to difference of shape of the contacting part and the upper bearing is restricted within the opening groove thereby.

Description

Noise reduction device of rotary compressor {APPARATUS FOR REDUCE THE NOISE OF ROTARY COMPRESSOR}

The present invention relates to a noise reduction device for a rotary compressor, and more particularly, to a noise of a rotary compressor, which is covered with an upper bearing coupled to an upper cylinder of a rotary compressor, and has a groove formed at the end of the silencer forming a resonator to improve sealing. It relates to an abatement device.

In general, a rotary compressor compresses the refrigerant by rotating the rotor in the cylinder without centrifugal force. The rotary compressor rotates and rotates along the inner circumferential surface of the cylinder in conjunction with the rotation of the eccentric roller mounted on the lower part of the crankshaft. A device for suction and compression, and the accumulator mounted in the hermetic compressor serves to separate the liquid refrigerant and impurities from the refrigerant sucked into the rotary compressor.

As shown in FIG. 1, the rotary compressor has a sealed container 1 having a predetermined inner receiving space and having a suction pipe 14 and a discharge pipe 15 formed therein, and inside the sealed container 1. It is provided with a motor mechanism consisting of a stator (2) and a rotor (3), the rotary shaft 4 is pressed into the inner diameter of the rotor 3, the eccentric portion (4a) is formed at the bottom, and the rotary shaft On the eccentric portion 4a of the rotating shaft 4 and the cylinder 8, which is enclosed by the eccentric portion 4a of (4) and is coupled by a bolt 7 together with the upper bearing 5 and the lower bearing 6; The rolling piston 9 is inserted into and in contact with the inner diameter of the cylinder 8 to rotate and rotate, and is in sliding contact with the outer circumferential surface of the rolling piston 9 to separate the inside of the cylinder 8 into a high pressure part and a low pressure part, and to move linearly. Compressor mechanism is composed of a vane (not shown) or the like is installed.

The low pressure part of the cylinder 8 is formed with an inlet 8b through which refrigerant gas flows into the cylinder 8, and the inlet 8b is an accumulator 13 installed at the side of the sealed container 1. ) And the suction pipe (14).

A discharge port 8a for discharging the compressed refrigerant gas is formed at one side of the cylinder 8 forming the high pressure part by the vane, and the discharge port 8a is disposed at one side of the upper bearing 5. The discharge hole 5a is formed in communication.

On the upper surface of the upper bearing 5, a discharge valve 10 for opening the discharge hole 5a when a predetermined pressure or more is provided, and a retainer 11 for limiting and supporting the open state of the discharge valve 10 together. Are combined.

In addition, the upper portion of the upper bearing 5 is coupled to the silencer 20 to reduce the discharge noise of the discharge gas is coupled.

As shown in FIGS. 2 and 3, the silencer 20 has a hole 26 to be fitted to one end of the upper bearing 5 and a fastening hole to be coupled to the upper bearing 5. 23 is formed and each resonant chamber 22 having a cap-shaped main body 21 having an inner space and a flow path having different volumes so that refrigerant discharged into the main body 21 moves and noise is reduced. And a discharge port 24 through which the refrigerant passing through the resonance chamber 22 is discharged into the sealed container, and a contact portion 25 covered by the upper bearing 5 by a predetermined length.

When a current is supplied to the rotary compressor configured as described above and the rotor 3 rotates to rotate the rotary shaft 4, the rolling piston mounted to the eccentric portion 4a by the rotation of the rotary shaft 4 ( 9) rotates the inside of the cylinder (8) in contact with the vane, the low-temperature low-pressure refrigerant flowing through the accumulator (13) by the rotation of the rotating shaft (4) and the rolling piston (9) Is sucked into the cylinder (8) through the suction pipe (14) and the suction port (8b) and compressed into a refrigerant of high temperature and high pressure.

When the refrigerant in the cylinder 8 is compressed to a predetermined pressure or more, the discharge valve 10 is opened and the compressed high-temperature and high-pressure refrigerant opens the silencer 20 through the discharge port 8a and the discharge hole 5a. After discharged into the sealed container (1), the discharged refrigerant is discharged to the outside through the discharge pipe 15 formed on the top of the sealed container (1).

However, in the rotary compressor as described above, the silencer 20 coupled to the upper bearing 5 has a contact portion 25 that is in close contact with the upper bearing 5 and the upper bearing 5. Due to the difference in shape between them, a gap is generated during fastening.

As a result, the refrigerant, which has been compressed and brought into a high temperature and high pressure state, escapes through the gap between the contact portion 25 and the upper bearing 5 without passing through the respective resonance chambers 22 forming the flow path. There is a problem that the noise performance is reduced by not reducing the noise.

An object of the present invention devised in view of the above point is to provide a noise reduction device of a rotary compressor having improved noise reduction function by improving the sealing property by improving the coupling between the upper bearing and the silencer of the rotary compressor.

1 is a longitudinal sectional view of a conventional rotary compressor,

2 is a rear view of the silencer mounted on the rotary compressor of FIG.

3 is a side view of the muffler mounted to the rotary compressor of FIG.

Figure 4 is a longitudinal cross-sectional view of a rotary compressor equipped with an embodiment of the present invention,

5 is a rear view of the silencer mounted on the rotary compressor of FIG. 4, which is an embodiment of the present invention;

6 is a side view of the silencer mounted on the rotary compressor of FIG. 4, which is an embodiment of the present invention;

** Description of symbols for the main parts of the drawing **

1: sealed container 2: stator

3: rotor 4: rotation axis

4a: eccentric portion 5: upper bearing

5a: discharge tube 6: lower bearing

7: bolt 8: cylinder

8a: discharge port 8b: suction port

9: rolling piston 10: discharge valve

11: retainer 13: accumulator

14: suction pipe 15: discharge pipe

120: silencer 121: main body

122: resonance chamber 123: fastener

124 discharge port 125 contact portion

125a: opening groove 126: hole

The noise reduction device of the rotary compressor for achieving the object of the present invention as described above compresses the refrigerant sucked by the rotation of the cylinder to a constant pressure, and is discharged to the discharge port of the upper bearing discharged by the compressed refrigerant discharge noise In the silencer of the rotary compressor to be reduced, the silencer is formed by processing the coupling groove for improving the sealing property of the upper bearing and the silencer in the contact portion which is covered with the upper bearing.

In addition, the opening groove is formed at least one having a predetermined width and depth at regular intervals on the edge of the contact portion.

Hereinafter, a noise reduction device of a rotary compressor according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings, and the same parts as in the related art will be described with the same reference numerals.

In the rotary compressor equipped with a noise reduction device of the rotary compressor according to an embodiment of the present invention, as shown in FIG. 4, the rotary compressor has a predetermined inner receiving space, and a suction container 14 and a discharge tube 15 are formed. (1), the inside of the airtight container (1) is provided with an electric mechanism consisting of a stator (2) and a rotor (3), etc., press-fitted into the inner diameter of the rotor (3) The cylinder 8 which surrounds the rotating shaft 4 with the core part 4a, and the eccentric part 4a of the said rotating shaft 4, and is joined by the bolt 7 with the upper bearing 5 and the lower bearing 6, respectively. And a rolling piston 9 which is inserted into the eccentric portion 4a of the rotary shaft 4 and rotates and rotates while contacting the inner diameter of the cylinder 8, and is in sliding contact with the outer circumferential surface of the rolling piston 9. A vane that linearly moves while separating the inside of the cylinder 8 into a high pressure part and a low pressure part (not shown). Um) is composed of a compression mechanism portion is constituted by a installed.

The low pressure part of the cylinder 8 is formed with an inlet 8b through which refrigerant gas flows into the cylinder 8, and the inlet 8b is an accumulator 13 installed at the side of the sealed container 1. ) And the suction pipe (14).

A discharge port 8a for discharging the compressed refrigerant gas is formed at one side of the cylinder 8 forming the high pressure part by the vane, and the discharge port 8a is disposed at one side of the upper bearing 5. The discharge hole 5a is formed in communication.

On the upper surface of the upper bearing 5, a discharge valve 10 for opening the discharge hole 5a when a predetermined pressure or more is provided, and a retainer 11 for limiting and supporting the open state of the discharge valve 10 together. Are combined.

In addition, the upper portion of the upper bearing 5 is coupled to the silencer 120 for reducing the discharge noise of the discharge gas is coupled.

5 and 6, the silencer 120 includes a hole 126 to allow one end of the upper bearing 5 to be fitted into a central portion thereof, and a fastening hole coupled to and coupled to the upper bearing 5. 123 is formed and each of the resonant chambers 122 having a cap-shaped body 121 having an inner space and a flow path having different volumes so that the refrigerant discharged into the body 121 moves and noise is reduced. And a discharge port 124 through which the refrigerant passing through the resonance chamber 122 is discharged into the sealed container, and a contact portion 125 and the contact portion 125 which are covered with the upper bearing 5 by a predetermined length. It is composed of at least one opening groove (125a) formed to have a predetermined width and depth at regular intervals on the edge.

Hereinafter, the operation and effect of the noise reduction device of the rotary compressor of one embodiment of the present invention will be described.

When the refrigerant is compressed by the cylinder 8 and the rolling piston 9 to a predetermined pressure or more, the discharge valve 10 opens and the compressed high-temperature and high-pressure refrigerant is discharged to the discharge port 8a and the discharge hole 5a. Through the silencer 120 is discharged into the sealed container (1), the discharged refrigerant is discharged to the outside through the discharge pipe 15 formed on the top of the sealed container (1).

In this case, the silencer 120 has an opening groove 125a formed at the end of the contact portion 125, and the contact portion 125 is coupled to cover a portion of the upper bearing 5 so as to be in close contact with the contact portion 125. Since the deformation due to the difference in shape between the 125 and the upper bearing 5 is not limited to the entire silencer 120 and is limited to the opening groove 125a, no gap is generated in the coupling part, thereby improving sealing performance.

Therefore, noise is reduced through the resonance chamber 122 in which the refrigerant compressed to the high temperature and high pressure by the cylinder 8 forms a flow path, and the sealed container 1 is discharged through the discharge hole 124. Since it is discharged to the inside of the discharge pipe 15 is discharged to the outside, the noise due to leakage is reduced.

As described above, in the noise reduction device of the rotary compressor according to the present invention, when the silencer is mounted on the upper bearing, the noise of the silencer is limited to the opening groove formed at the end of the contact portion due to the difference in shape. There is an effect of reducing noise by preventing incomplete flow due to the leakage of the refrigerant generated by the deformation.

Claims (2)

In the silencer of the rotary compressor to compress the refrigerant sucked by the rotation of the cylinder to a constant pressure, and to be discharged to the discharge port of the upper bearing discharged by the compressed refrigerant to reduce the discharge noise, The silencer is a noise reduction device of the rotary compressor, characterized in that the opening groove for improving the sealing property of the upper bearing and the muffler is formed on the edge of the contact portion which is covered with the upper bearing. The noise reduction apparatus of claim 1, wherein the opening groove is formed at least one of the opening grooves having a predetermined width and depth at regular intervals.