KR0117773Y1 - Noise reduction apparatus for an hermetic compressor - Google Patents

Abstract

The present invention relates to a noise damping device of a hermetic compressor, the purpose of which is to reduce the suction noise and to block the noise flowing back from the cylinder side.

The noise attenuating device of the hermetic compressor according to the present invention has a baffle 53 of the silencer 50 configured in aberration shape capable of rotating movement by suction force of the refrigerant. Accordingly, the damping rate of the suction noise is maximized, and the low frequency noise flowing back from the cylinder 32 side is prevented from being released to the outside, thereby reducing the overall operating noise of the compressor.

Description

Noise reduction device of hermetic compressor

1 is a cross-sectional view of a hermetic compressor to which the present invention is applied.

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

3 is a cross-sectional view of the silencer to which the present invention is applied.

4 is an exploded perspective view of the present invention.

* Explanation of symbols for main parts of the drawings

10: outer 20: electric drive

30: compression part 50: silencer

51: base 52: cover

53: baffle 531: rotating shaft

532: a plate

The present invention relates to a silencer of a hermetic compressor, and more particularly, a baffle of the silencer is configured in a radial aberration type that can be rotated by suction force of a refrigerant to maximize the attenuation efficiency of the suction noise and from the cylinder side. The present invention relates to a noise reduction device of a hermetic compressor which can attenuate low frequency noise flowing backwards.

Hermetic compressor is used to compress the refrigerant of the refrigerating cycle that performs cooling or freezing by successive four processes of compression, condensation, expansion, and evaporation. As shown in FIG. 1, a hermetic compressor having such a function is built in a state in which the transmission part 20 and the compression part 30 are sealed in the outer body 10, and in the lower part of the outer body 10. The bracket 40 is provided and mounted in a machine room such as a refrigerator.

More specifically, the hermetic compressor will be described in more detail. In the transmission unit 20, the rotor 22 and the stator 23 are provided on the outer side of the rotating shaft 21 installed in a vertically rotatable manner, and a suitable place thereunder. It is configured to elastically support the entire transmission portion 20 to the outer body through the compression spring 60 in the.

And the compression unit 30 is connected to the connecting rod 33 to the end of the center of the rotation shaft 21 and the predetermined radius eccentric, the other end of the connecting rod 33 while the horizontal reciprocating motion in the cylinder 32 to the refrigerant A piston 31 for suction and compression is connected. The silencer 50 is installed at the inlet side of the cylinder 32 to attenuate the noise of the refrigerant sucked from the evaporator side during the driving process of the compressor to flow into the cylinder 32 side of the compression unit 30.

As shown in FIG. 2, the conventional silencer includes a cover 152 detachably coupled to an upper portion of the base 151, and an upper portion of the communication tube 153b in the center of the diaphragm 153a. The baffle 153 vertically placed therein is stacked so that the attenuation chamber 154 of a predetermined space is formed in the upper portion.

The driving process of the hermetic compressor configured as described above is as follows. First, when power is applied to the transmission unit 20 and the rotation shaft 21 rotates, the piston 31 of the compression unit 30 is moved into the cylinder 32 by the connecting rod 33 received the rotation force. According to the horizontal reciprocating movement, the suction and compression will be performed.

At this time, the refrigerant introduced from the evaporator side through the suction pipe 11 is compressed to high temperature and high pressure through a repeated process in which the piston 31 is compressed and sucked along the cylinder 32 and then discharged to the condenser side through the discharge tube. .

On the other hand, the suction noise (→) of the refrigerant introduced into the outer body 10 from the evaporator side in the driving process of the hermetic compressor is introduced into the damping chamber 154 through the suction port 151a of the silencer, the communication tube of the baffle 153 The suction noise is attenuated while passing through 153b, and then enters the cylinder 32 through the discharge pipe 151b.

However, since the damping action of the conventional silencer is performed while the suction refrigerant passes intensively and vertically into the communication tube 153b formed at the center of the baffle 153, the damping effect of the suction noise is not smooth due to the resistance of the communication tube 153b. There is a problem.

Then, the low-frequency noise (--->) generated from the intake valve side of the cylinder 32 and flowing back to the upper portion, that is, generated during the opening and closing of the intake valve, causes a low pressure pulsation phenomenon, thereby communicating the communication tube 153b of the baffle 153. The high noise low frequency noise (500 Hz region) flowing back to the upper portion of the suction port 151a is canceled by the suction noise of the refrigerant sucked into the communication pipe 153b of the baffle 153. However, since the low frequency noise backflowed from the cylinder 32 side is canceled out in contact with the suction noise of the refrigerant in the damping chamber 154 in a relatively narrow space, the damping effect is weak. Therefore, low frequency noise that is not canceled by the suction noise of the refrigerant is transmitted from the attenuation chamber 154 through the suction port 151a to cause severe noise in the entire compressor.

The present invention is to solve this problem, the object of the present invention is to install aberration-shaped baffle inside the base of the muffler to smoothly discharge the suction refrigerant and at the same time block the pulsation of low-frequency energy transmitted to the outside through the muffler It is to provide a noise damping device of the hermetic compressor to attenuate the suction noise and to attenuate the low frequency noise flowing back from the cylinder side.

The present invention for achieving the above object, in a hermetic compressor equipped with a silencer installed at the inlet side of the cylinder to guide the refrigerant flow into the cylinder and shields the noise, the length of the convex projecting protruding to have a predetermined curvature at the base of the silencer A rotational space in a direction is formed, and is provided with aberration-shaped baffles that are rotatably movable in the rotational space to guide discharge of the refrigerant while attenuating the suction force of the refrigerant and attenuate low frequency noise flowing back from the cylinder side. do.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. Figure 1 shows the overall structure of the hermetic compressor to which the present invention is applied, Figure 3 and Figure 4 is a cross-sectional view and an exploded perspective view showing the structure of the silencer according to the present invention.

As shown in the enclosed compressor, the transmission part 20 and the compression part 30 are built in a sealed state in the outer body 10, and the bracket 40 is provided in the lower part of the outer body 10 to provide a refrigerator or the like. Mounted in the machine room. The silencer 50 is installed at the inlet side of the cylinder 32 to attenuate the noise of the refrigerant sucked from the evaporator side during the operation of the compressor.

In the hermetic compressor, as shown in FIGS. 3 and 4, the silencer 50 according to the present invention has a base 51 having an upper portion and an inner space formed therein, and a cover 52 blocking the opening. The aberration-shaped baffle 53 which rotates by the suction force of a refrigerant | coolant is provided in the base 51, and is comprised so that it is possible.

Referring to the coupling structure of the baffle 53 in more detail as follows. First, the rotation space 513 protruding convexly protruding to have a predetermined curvature is formed in the longitudinal direction on the base 51, the bearing hole 514 is provided in the center of both side walls of the rotation space 513. The base 51 is bisected about the bearing hole 514. And the baffle 53 is composed of a rotating shaft 531, both ends are arranged in the bearing hole 514 is coupled to the rotational movement, a plurality of diaphragm 532 provided radially on the outer peripheral surface of the rotating shaft 531. At this time, the tip portion of the diaphragm 532 is provided to be adjacent to the inner wall of the rotating space 513.

The rotary shaft 531 of the baffle 53 is inserted into the bearing hole 514 so as to be rotatable in the rotation space 513, and then the joint surface of the bisected base 51 is firmly sealed to seal the silencer. 50 is completed. At this time, since the tip portion of the diaphragm 532 is adjacent to the inner wall of the rotating space 513 as described above, the inside of the base 510 is divided into an upper space and a lower space by the diaphragm 532.

Next will be described the operation of the hermetic compressor according to the present invention configured as described above. When power is applied to the transmission unit 20 and the rotation shaft 21 rotates, the piston 31 of the compression unit 30 is horizontal along the inside of the cylinder 32 by the connecting rod 33 received the rotational force. During the reciprocating motion, the refrigerant is compressed to high temperature and high pressure through an iterative process of sucking and discharging the refrigerant introduced from the evaporator side.

In addition, the suction noise of the refrigerant introduced into the outer body 10 from the evaporator side in the driving process of the hermetic compressor is sucked through the suction port 511 of the silencer 50, and the suction pressure of the refrigerant is one of the diaphragm of the baffle 53. 532). The suction force of the refrigerant acting on the diaphragm 532 rotates the baffle 53 about the rotation shaft 531 to be adjacent to the inner wall of the rotation space 513. Accordingly, the refrigerant is dispersed in the upper space of the baffle 53 in a balanced manner by the rotation of the diaphragm 532 so that the suction noise is attenuated and supplied to the cylinder 32 through the discharge pipe 512.

Further, the low noise energy (500 Hz zone) pulsation generated when the intake valve (not shown) of the cylinder 32 is opened and closed and flows back toward the silencer 50 is in a state adjacent to the inner wall of the rotating space 513. It is blocked from being released to the outside by the rotating diaphragm 532. That is, since the diaphragm 532 of the baffle 53 rotates and partitions the inside of the base 51 to the upper part and the lower part, noise is prevented from flowing back.

Therefore, the low-frequency energy pulsation generated when the intake valve of the cylinder 32 is opened and closed is prevented from colliding with the diaphragm 5320 and flowing back through the inlet 511 of the upper space of the base 51. Attenuation effect can be obtained.

As described in detail above, the noise attenuating device of the hermetic compressor according to the present invention is configured in the baffle of the silencer in aberration shape capable of rotating movement by the suction force of the refrigerant. Accordingly, the damping rate of the suction noise is maximized, and the low frequency noise flowing back from the cylinder side is prevented from being released to the outside, thereby reducing the overall operating noise of the compressor.

Claims (2)

In the hermetic compressor having a silencer installed at the inlet side of the cylinder 32 to guide the refrigerant flow into the cylinder 32 and shield the noise, the base 51 of the noise protrudes convexly to have a predetermined curvature. Rotating space 513 in the longitudinal direction is formed, is provided in the rotary space 513 to be rotatable movement to guide the discharge of the refrigerant while rotating by the suction force of the refrigerant and low-frequency noise flow back from the cylinder 32 side Noise attenuation device of the hermetic compressor characterized in that it comprises a baffle (53) of aberration shape for damping. According to claim 1, The baffle (53) is provided radially on the outer axis of the rotary shaft 531, the rotary shaft 531, both ends of which are rotatably arranged on both inner walls of the upper portion of the base (51) The front end portion rotates adjacent to the inner wall of the rotary space (513) and a plurality of diaphragm (532) for partitioning the inside of the base (51) up and down, characterized in that the noise reduction device of the hermetic compressor.