KR20010017217A - A muffler of rotary compressor - Google Patents

Abstract

PURPOSE: A noise reducer of a rotary compressor is provided to reduce the excess degree of pressure pulsation in a process of discharging compressed gas by mounting a rotating discharge plate on the upper portion of a silencer. CONSTITUTION: A noise reducer of a rotary compressor includes: a silencer case(71) mounted on the upper portion of a main bearing(64) to form a space for discharging compressed gas of a cylinder(61), and having a central hole on the upper face; and a rotating discharge plate(75) set on the central hole of the silencer case with plural outlet ports in a circumferential direction. The noise reducer keeps the refrigerant gas flowing regularly because pressure pulsation is not changed violently without regard to an eddy of refrigerant gas. Therefore, the discharge pressure pulsation is generated smoothly and noise is reduced effectively.

Description

Noise reduction device for rotary compressors {A muffler of rotary compressor}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary compressor for compressing refrigerant gas and the like, and more particularly, to a noise reduction device of a rotary compressor for installing a rotary discharge plate on an upper surface of a silencer to reduce pulsation noise generated during discharge of compressed gas.

In general, the rotary compressor is composed of a drive unit for providing a rotational force to perform a compression action and a compression unit for compressing the refrigerant gas in the sealed space.

In the rotary compressor as shown in FIGS. 1 and 2, the stator 2 and the rotor 3 of the motor form a driving unit together in an upper portion of an inner space formed of the sealed case 1, and the rotor ( 3) is coupled to the rotating shaft (4) to transmit the rotational force to the compression unit (10).

The compression unit 10 includes a cylinder 11 forming an outer wall of the compression chamber, an eccentric rotation shaft 4a located inside the cylinder 11 and installed around the rotation shaft 4, and the eccentric rotation shaft 4a. The compression chamber (C) in the upper and lower portions together with the roller (12) and the vane (13) and the roller (12) while supporting the rotating shaft (4) while contacting the inner surface of the cylinder (11) in accordance with the rotational movement of ), The main bearing 14 and the auxiliary bearing 15, and the suction port 16 and the cylinder discharge port 11a serving as flow passages of the refrigerant gas sucked into and discharged from the cylinder 11 are formed.

In particular, a silencer 20 as shown in FIG. 3 is installed in the upper portion of the main bearing 14, and the silencer 20 has a silencer discharge port through which the refrigerant gas introduced through the discharge port 11a is discharged. 21 is formed.

Such a silencer 20 of the prior art is formed in a circular cap shape, a boss hole 22 through which the boss portion 14a of the main bearing 14 is formed is formed in the center portion, the screw in the outer circumferential direction A bolt fixing part 23 recessed to be fastened and fixed is formed.

In the operation of the rotary compressor equipped with the silencer as described above, the refrigerant gas is sucked into the compression chamber C through the suction port 16 as the rotor 3 of the motor rotates, and the rotation of the roller 12 is performed. The pressure in the compression chamber C is reduced by the pressure, and the pressure is raised to the discharge pressure. Then, the high-pressure refrigerant gas passes through the cylinder discharge port 11a in accordance with the operation of the valve installed in the main bearing 14. Discharged into the inner space of the silencer 20 located above the 14.

The refrigerant gas discharged into the inner space of the silencer 20 is discharged into the sealed case 1 through the silencer discharge port 21.

The silencer 20 is positioned in the middle of the discharge passage to prevent the gas compressed in the cylinder 11 from rapidly flowing into the sealed case 1 to reduce noise generated during discharge.

Since the silencer 20 determines the noise reduction characteristics for the discharge pressure pulsation according to the design specifications of the inner space and the shrinking and expanding passage, the frequency band for effectively reducing the noise is determined according to the noise reduction characteristics.

However, since the silencer of the prior art as described above is designed to be limited to a single noise reduction characteristic, there is a problem in effectively reducing pressure pulsations having frequencies of various components during compressed gas discharge.

In addition, since the discharge port 21 of the muffler 20 is located at a predetermined position in the compressor internal space, the prior art has a strong resonance sound by continuously exciting the acoustic mode of the internal space as the pressure pulsation component rapidly expands during the discharge of the high-pressure refrigerant gas. There is also a problem that the noise is aggravated by radiation.

The present invention has been made to solve the above problems, by providing a rotary discharge plate on the top of the silencer to provide a noise reduction device of the rotary compressor to effectively reduce the excessive pressure pulsation generated during the discharge of compressed gas have.

The noise reduction device of the rotary compressor according to the present invention for realizing the above object is a silencer case which is provided on the upper side of the main bearing to form a compressed gas discharge space of the cylinder, the central hole is formed on the upper surface; It is installed so as to be rotatable in the central hole of the silencer case, characterized in that it comprises a rotary discharge plate formed with a plurality of outlets in the circumferential direction.

1 is a front sectional view showing a rotary compressor of the prior art,

2 is a cross sectional plan view of an essential part of a rotary compressor of the prior art,

3 is a plan view and a cross-sectional view taken along line A-A of a prior art silencer;

4 is a front sectional view showing a rotary compressor with a silencer according to the present invention;

5 is a view showing another silencer in the present invention,

5a is a plan view,

5B is a cross-sectional view taken along the line B-B of FIG. 5A;

5C is a cross-sectional view taken along the line C-C in FIG. 5A.

<Explanation of symbols for main parts of drawing>

50: drive unit 51: sealed case

52: stator 53: rotor

54: rotation axis 54a: eccentric rotation axis

60: compression section 61: cylinder

61a: cylinder discharge port 62: roller

64: main bearing 64a: boss

65: auxiliary bearing 70: silencer

71: silencer case 72: guide groove

75: rotary discharge plate 76: outlet

77: working part

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

4 is a rotary compressor equipped with a silencer according to the present invention is composed of a stator 52 and a rotor 53 on the upper portion of the sealed case 51, the drive unit 50 for rotating the rotary shaft 54 is located, the lower In the operation of the rotary shaft 54 is located a compression unit 60 for compressing and discharging the refrigerant gas in the cylinder (61).

The compression unit 60 may include a cylinder 61 forming an outer wall of the compression chamber C, a roller 62 contacting the inner surface of the cylinder 61 according to the rotational movement of the eccentric rotation shaft 54a, and a compression operation 62. The main bearing 64 and the auxiliary bearing 65 are coupled to the upper and lower portions of the cylinder 61 while supporting the rotating shaft 54 to form a compression chamber C, and suctioned into the cylinder 61. It consists of the suction port 66 and the cylinder discharge port 61a which serve as the flow path of discharged refrigerant gas.

In particular, a silencer 70 is formed above the main bearing 64 to form a discharge space in order to reduce noise during discharge of compressed refrigerant gas.

5 is a plan view, B-B line cross-sectional view, C-C line cross-sectional view showing a silencer according to the present invention.

Referring to FIG. 5, the muffler 70 is rotated by a silencer case 71 fixed in a cap shape on an upper side of the main bearing 64 and a compressed gas discharged from an upper portion of the muffler case 71. It consists of a rotary discharge plate 75 for forming a.

The silencer case 71 is fixed to the upper side of the main bearing 64 by welding or the like to form a discharge space of the compressed gas discharged from the cylinder 61. And a hole is formed in the upper surface so that the rotary discharge plate 75 can be installed.

The rotary discharge plate 75 is fitted into the boss portion 64a of the main bearing 64 so as to be rotatable in the hole of the silencer case 71. Therefore, the boss hole 75a is formed to be fitted to the boss portion 64a, and a protrusion 78 is formed in the circumferential direction on the outer circumferential surface thereof so as to fit into the guide groove 72 of the muffler case 71. It can rotate in the state.

In addition, the rotary discharge plate 75 has a plurality of outlets 76 are formed in the circumferential direction, the plurality of outlets 75 are formed in a symmetrical manner.

In addition, the outlet 75 is formed with a curved working part 77 to be rotated by a resistance that is hit when the discharge gas exits as shown in FIG. 5C. That is, the acting portion 77 is formed to protrude in a direction opposite to the rotation direction of FIG. 5A to rotate the rotary discharge plate 75 while the compressed gas is discharged, and the discharge gas is changed into the vortex flow into the sealed case 51. Will flow.

Referring to the operation of the noise reduction device of the rotary compressor according to the present invention configured as described above are as follows.

When the compressor is operated, the discharge process is repeated by the discharge valve which periodically opens and closes the compression chamber C of the cylinder 61, and the pressure pulsation in the compression chamber C is rapidly discharged into the sealed case 51. Can cause discharge noise.

In the present invention, when the pressure pulsation of the compression chamber (C) is periodically discharged and passes through the silencer case (71), the rotary discharge plate (75) installed on the upper surface rotates in a direction corresponding to the rotation direction of the compressor. .

Therefore, as the vortex occurs in the refrigerant gas passing through the silencer under the action of the rotational movement of the rotary discharge plate 75, the discharge pressure pulsation is smoothly flowed out, and it is not accompanied by a sudden change in the pressure pulsation, which is constant and stable. It is possible to maintain the flow flow.

In addition, the moment of the fluid is increased by the vortex generated in the refrigerant gas to reduce the pressure loss of the fluid passing through the gap between the stator 52 and the rotor 53 during the discharge process to improve the compression efficiency.

In particular, as the rotary discharge plate 75 rotates, the position of the outlet 776 changes at each time of periodic discharge of the pressure pulsation, thereby solving the problem of continuously exciting the acoustic mode of the internal space of the compressor to effectively generate the resonance sound. Can be reduced.

The noise reduction device of the rotary compressor of the present invention as described above is a constant and stable flow flow because the vortex occurs in the refrigerant gas passing through the silencer in accordance with the action of the rotary motion of the rotary discharge plate does not induce a sudden change in pressure pulsation This is to maintain the action, and thus there is an advantage that can smoothly discharge the discharge pressure pulsation and at the same time effectively reduce the noise.

In addition, the present invention has an effect that the moment of the fluid is increased by the vortex generated in the refrigerant gas to reduce the pressure loss of the fluid, thereby improving the compression efficiency, and as the rotary discharge plate rotates, the pressure is discharged at each periodic discharge point. As the position of the outlet changes, there is an advantage that the resonance sound can be effectively alleviated by solving the problem of continuously exciting the acoustic mode of the compressor internal space.

Claims (3)

A silencer case installed above the main bearing to form a compressed gas discharge space of the cylinder and having a central hole formed on the upper surface thereof; The noise reduction device of the rotary compressor, which is rotatably installed in the central hole of the silencer case, the rotary discharge plate formed with a plurality of outlets in the circumferential direction. The method of claim 1, The rotary discharge plate is a noise reduction device of a rotary compressor, characterized in that the curved portion is formed by the action of the rotary member by the resistance hit when the discharge gas exits at the exit. The method of claim 1, The outlet of the rotary discharge plate is a noise reduction device of the rotary compressor, characterized in that formed in a symmetrical shape.