KR200163928Y1 - Noise reduction structure of a hermetic compressor - Google Patents

Abstract

The present invention relates to a noise reduction structure of a hermetic compressor used in an air conditioner such as a refrigerator and an air conditioner, and more particularly, to effectively reduce noise generated when the valve device is operated, thereby contributing to the low noise of the air conditioner. A noise reduction structure of a hermetic compressor.

The noise reduction structure of the hermetic compressor according to the present invention for this purpose is a muffler base having a first and a second suction pipe communicating with the refrigerant suction hole of the valve device, a muffler body installed in the muffler base, and the muffler base And a baffle having a refrigerant induction pipe connected to the first and second suction pipes, and when a baffle is installed, a resonance room and a first and a second heat insulation room are formed inside the muffler body to generate noise during operation of the valve device. In the noise reduction structure of the hermetic compressor configured to be reduced in the resonance chamber,

By communicating the first and second heat insulating rooms with the refrigerant flow passages inside the refrigerant induction pipe, the noise generated when the valve device is operated is resonated in the resonance rooms with the first and second heat insulating rooms. It is characterized by.

Description

Noise Reduction Structure of Hermetic Compressor

The present invention relates to a noise reduction structure of a hermetic compressor used in an air conditioner such as a refrigerator and an air conditioner, and more particularly, to effectively reduce noise generated when the valve device is operated, thereby contributing to the low noise of the air conditioner. A noise reduction structure of a hermetic compressor.

In general, the hermetic compressor is shown in Figs. 1 and 2, the electric mechanism part 5 consisting of the stator 3 and the rotor 4 in the upper and lower cases (1, 2), and the rotor It consists of a compression mechanism (7) which sucks and compresses the refrigerant by the rotational operation of the crankshaft (6) press-fitted in the center of the electron (3) to discharge.

The compression mechanism (7) is coupled to the cylinder block (9) formed integrally with the cylinder (8) forming the suction space of the refrigerant, and the lower end of the crankshaft (6) to perform a linear reciprocating motion inside the cylinder (8) A piston 10, a cylinder head 11 which is fixed to the end of the cylinder 8, and interposed between the cylinder 8 and the cylinder head 11 to suck refrigerant into the cylinder. And a valve device 12 or the like for discharging the compressed refrigerant.

Meanwhile, a muffler base 16 is installed between the cylinder 8 and the cylinder head 11, and the muffler base 16 communicates with the refrigerant suction hole 12a of the valve device 12. Suction pipes 16a and 16b are formed, and the muffler base 16 is provided with a suction muffler 13 for reducing noise generated by the operation of the valve device.

A baffle 15 is installed inside the muffler body 13a forming the suction muffler 13, and the baffle 15 receives the refrigerant introduced into the muffler body 13a from the first and second muffler bases 16. A refrigerant induction pipe 15a is installed to be connected to the suction pipes 16a and 16b to guide the suction pipes 16a and 16b.

A refrigerant suction pipe 14 installed through the lower case 2 is connected and fixed to the suction muffler 13, and inside the suction muffler 13, the first and second heat insulating rooms 17 are formed by the baffle 15. ) And a resonance chamber 18 are formed.

In the conventional hermetic compressor having the above configuration, as the compressor is driven and the crankshaft 6 is rotated, the piston 10 reciprocates in the cylinder 8, thereby inducing, compressing, and discharging the refrigerant. do.

Accordingly, the refrigerant introduced through the refrigerant suction pipe 14 of the suction muffler 13 is formed by the first and the first and the refrigerant guide pipe 15a of the baffle 15 and the muffler base 16 as indicated by the thin arrows in FIG. 2. Flows into the refrigerant suction chamber (not shown) of the cylinder head 11 through the second suction pipes 16a and 16b, and is then sucked into the cylinder 8 through the refrigerant suction hole 12a of the valve device; In this way, the refrigerant sucked into the cylinder 8 is compressed by the piston 10.

The refrigerant compressed in the cylinder (8) is discharged while opening the discharge valve through the discharge hole of the valve plate (not shown), through the discharge chamber and the discharge tube of the cylinder head 11 to the outside of the compressor case (1, 2) Discharged.

When driving the hermetic compressor configured as described above, noise is generated according to the operation of the valve device, and the noise flows in a direction opposite to the flow path of the refrigerant (the thick arrow in FIG. 2). After the refrigerant suction hole (12a) formed in the through the refrigerant induction tube (15a) of the baffle (15), passing through the resonance chamber 18, the noise and resonance of a specific frequency of the resonance chamber 18 is attenuated Pass through the suction pipe (14).

As such, in the related art, the noise generated by the operation of the valve device is resonated in the resonance chamber 18 and then discharged to the outside via the refrigerant suction pipe 14, and the suction muffler 13 of the hermetic compressor is Focusing on the performance aspect, the structure is designed to suck refrigerant gas, so the satisfactory result in noise reduction was not obtained.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a noise reduction structure of a hermetic compressor that effectively reduces noise generated during operation of the valve device to contribute to low noise of the air conditioner.

1 is a cross-sectional view of a typical hermetic compressor.

Figure 2 is a noise reduction structure of a typical hermetic compressor showing the flow path of the refrigerant and noise.

Figure 3 is a noise reduction structure of a hermetic compressor according to an embodiment of the present invention showing the flow path of the refrigerant and noise.

Figure 4 is a noise reduction structure of the hermetic compressor according to another embodiment of the present invention showing the flow path of the refrigerant and noise.

Figure 5 is a noise reduction structure of a hermetic compressor according to another embodiment of the present invention showing the flow path of the refrigerant and noise.

<Description of the code used in the main part of the drawing>

5: electric mechanism part 7: compression mechanism part

12: valve device 18: resonance room

23: suction muffler 25: baffle

25a: refrigerant induction pipe 27: heat insulation room

29: bulkhead

The noise reduction structure of the hermetic compressor according to the present invention for achieving the above object includes a muffler base having first and second suction pipes communicating with a refrigerant suction hole of a valve device, a muffler body installed at the muffler base, and And a baffle having a refrigerant induction pipe connected to the first and second suction pipes of the muffler base, and when the baffle is installed, a resonance room and a first and second heat insulation room are formed inside the muffler body to operate the valve device. In the noise reduction structure of the hermetic compressor configured to reduce the noise generated in the resonance chamber, the first and second heat insulating rooms communicate with the refrigerant flow passages inside the refrigerant induction pipe, thereby operating the valve device. The noise generated is characterized in that the resonance is made in the first and second heat insulation room and the resonance room is reduced.

Hereinafter, a preferred embodiment of the noise reduction structure of the hermetic compressor according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 shows the noise reduction structure of the hermetic compressor according to an embodiment of the present invention.

Between the cylinder 8 and the cylinder head 11, a muffler base 16 having first and second suction pipes 16a and 16b communicating with the refrigerant suction hole 12a of the valve device is provided. 16, a muffler body 13a is installed, and inside the muffler body 13a, a refrigerant induction pipe for guiding refrigerant introduced into the muffler body 13a to the first and second suction pipes 16a and 16b ( A baffle 25 having a 25a formed therein is provided, and the refrigerant induction pipe 25a communicates with the refrigerant flow passage inside the refrigerant induction pipe 25a and the first and second air insulators 27 and 27. The through hole 28 is formed to make.

4 illustrates a noise reduction structure of the hermetic compressor according to another embodiment of the present invention. As shown in the drawing, one end of the refrigerant induction pipe 25a contacts the first and second suction pipes 16a and 16b. The length of the refrigerant induction pipe 25a is shorter than that of the conventional refrigerant induction pipe 15a so that the first and second air insulators 27 and 27 flow in the refrigerant in the refrigerant induction pipe 25a. It is to communicate with the passage.

When the baffle 25 having the refrigerant induction pipe 25a configured as described above is installed in the muffler body 13a, the suction muffler 13 communicates with the refrigerant flow passage in the refrigerant induction pipe 25a. The 1st and 2nd heat insulation rooms 27 and 27 and the resonance room 18 are formed.

As a result, the noise generated during operation of the valve device 12 passes through the first and second suction pipes 16a and 16b to be firstly reduced in the first and second heat insulating rooms 27 and 27, and then resonates. Since the room 18 is secondarily reduced, it is possible to effectively reduce noise generated when the valve device is operated.

FIG. 5 illustrates a noise reduction structure of a hermetic compressor according to still another embodiment of the present invention. In the noise reduction structure configured as shown in FIG. 4, the first portion of the refrigerant induction pipe 25a is formed in the middle portion of the refrigerant induction pipe 25a. And a partition wall 29 for preventing the noise passing through the second suction pipes 16a and 16b from being synthesized in the refrigerant induction pipe 25a before the resonance is reduced in the first and second heat insulating rooms 27 and 27. ) Is installed in the longitudinal direction of the refrigerant induction pipe (25a), one end of the partition 29 is installed in the muffler base (16).

Accordingly, the noise generated when the valve device is operated is first and second heat insulation chambers 27 and 27 before being synthesized in the refrigerant induction pipe 25a of the baffle 25, as indicated by the thick arrows in FIG. 5. Is effectively reduced.

According to the noise reduction structure of the hermetic compressor according to the present invention configured as described above, the noise generated when the valve device is operated is attenuated in the first and second heat insulation rooms and the resonance room, so the noise generated when the valve device is operated. Can be further reduced.

Therefore, it is possible to contribute to the low noise of the air conditioning apparatus such as the refrigerator and the air conditioner.

The present invention is not limited to the embodiments described herein, and may be modified and changed by those skilled in the art within the spirit and scope of the appended utility model registration claims.

Claims (5)

And a muffler base having first and second suction pipes communicating with the refrigerant suction hole of the valve device, a muffler body installed at the muffler base, and a refrigerant induction pipe connected to the first and second suction pipes of the muffler base. Reduction of noise in a hermetic compressor configured to include a baffle, and when a baffle is installed, a resonance chamber and a first and a second insulating chamber are formed inside the muffler body to reduce noise generated when the valve device is operated in the resonance chamber. In structure, By communicating the first and second heat insulating rooms with the refrigerant flow passages inside the refrigerant induction pipe, the noise generated when the valve device is operated is resonated in the resonance rooms with the first and second heat insulating rooms. Noise reduction structure of the hermetic compressor characterized in that. The noise reduction structure of a hermetic compressor of claim 1, wherein a through hole is formed in the refrigerant induction pipe so that the first and second air insulators communicate with the refrigerant flow path inside the refrigerant induction pipe. The refrigerant induction pipe of claim 1, wherein the refrigerant induction pipe is reduced in length so that one end thereof does not contact the first and second suction pipes so that the first and second air insulators communicate with the refrigerant flow passages inside the refrigerant induction pipe. Noise reduction structure of the hermetic compressor characterized in that. The hermetic compressor of claim 1, wherein a partition wall is installed in the refrigerant induction pipe in a longitudinal direction of the refrigerant induction pipe so that noise passing through the first and second suction pipes is not synthesized in the refrigerant induction pipe. Noise reduction structure. The noise reduction structure of a hermetic compressor of claim 2, wherein the partition wall is installed at an intermediate portion of the refrigerant induction pipe.