KR19990058919A - Vibration Noise Reduction Structure of Compressor - Google Patents

Abstract

The present invention relates to a structure for reducing vibration noise of a compressor. In the related art, a mass body in which each component coupled to an inside of a sealed container to suck, compress, and discharge refrigerant gas is assembled is supported by four springs at a lower portion thereof. In the process in which the vibration noise generated in 2) is relaxed by the spring 3, a part of the true noise is transmitted to the sealed container 1 through the spring 3 to generate vibration noise to the outside. The present invention is connected to the inside of the hermetic container is connected to the inner container of the lower body and the side of the hermetic container by the elastic member to form a mass body combined with each component to suck, compress, and discharge the refrigerant gas to hang the inner container in the hermetic container In the process of sucking, compressing and discharging the refrigerant gas, vibration noise transmitted to the inner container is alleviated by several elastic members. By minimizing the vibration noise of the groups transmitted to the closed container to minimize the noise and vibration generated in the compressor it is passed to the outside to improve the reliability of the compressor, to the addition to improve the assembly productivity and facilitate the assembly process.

Description

Vibration Noise Reduction Structure of Compressor

The present invention relates to a vibration noise reduction structure of a compressor, and in particular, vibration noise generated by refrigerant gas being sucked, compressed, and discharged, as well as minimizing the transfer to a sealed container, as well as to facilitate the assembly process. It relates to a noise reduction structure.

In general, the compressor constituting the refrigeration cycle device is to compress the refrigerant flowing from the evaporator to be discharged in a state of high temperature and high pressure.

The compressor usually includes a drive motor for generating a driving force by a current applied to an inside of a sealed container having a predetermined internal volume, a piston reciprocating by the drive motor, a cylinder coupled to the piston, and into the cylinder. And a valve assembly configured to allow the refrigerant gas to be sucked and to discharge the compressed refrigerant gas.

In addition, each component installed in the sealed container is coupled to a main frame or an inner container installed inside the sealed container.

In the compressor as described above, the driving motor is driven by the applied electric current, and the driving force of the driving motor is transmitted to the piston so that the piston reciprocates inside the cylinder, and the piston reciprocates the refrigerant gas into the cylinder through the valve assembly. Is sucked, compressed and discharged in a state of high temperature and high pressure.

On the other hand, the compressor generates a vibration noise in the process of inhaling, compressing and discharging the refrigerant while the piston reciprocates, and the vibration noise is transmitted to the sealed container to be waved to the outside to mount the compressor to a refrigerator or home appliances It gives the user a very unpleasant feeling.

1A, 1B, and 1C show the hermetic container 10 constituting the compressor and the components installed in the hermetic container 10 as one mass body 20, the mass body generating the vibration noise. 20 illustrates a structure in which the sealed container 10 is supported. As shown in the figure, a structure for reducing transmission of vibration noise generated in the conventional mass body 20 to the sealed container 10 has several coupling parts 21 formed on one side of the mass body 20, Several coupling parts 11 corresponding to the coupling part 21 formed on the mass body 20 are formed on the bottom surface of the airtight container 10, and the coupling part 21 and the sealing container of the mass body 20 ( The spring 30 is coupled between the coupling portions 11 of the 10 so that the mass body 20 is supported by the airtight container 10 by the spring 30.

The closed container 10 is formed by the upper cap 12 and the lower cap 13 formed in a hemispherical shape by welding, the coupling portion 21 formed on the mass body 20 is formed to protrude in a conical shape and the Coupling portion 21 is formed in each of the two on both sides of the four, the coupling portion 11 formed on the bottom surface of the closed container 10 is formed to protrude in a conical shape and the position is formed on the vertical line of the mass coupling portion. Both ends of the spring 30 are circular coil springs coupled to the coupling portion 21 of the mass body 20 and the coupling portion 11 of the hermetic container 10.

Reference numeral 40 is a suction pipe, and 50 is a discharge pipe.

The structure generates a vibration noise in the process of compressing and discharging the refrigerant while the piston (not shown) constituting the mass 20 reciprocates inside the cylinder (not shown), the generated vibration noise is a spring (30) It is buffered by) to reduce the delivery to the sealed container (1).

However, the conventional compressor vibration noise reduction structure as described above is generated in the mass body 20 by supporting the mass body 20 inserted into the sealed container 10 by the four springs 30 at the bottom thereof. A part of the vibration noise is transmitted to the sealed container 10 through the spring 3 in the process of the vibration noise is relaxed to the spring 30 to generate vibration noise to the outside, and the four springs 30 are coupled to each other. There was a disadvantage in that the assembly process is cumbersome by being fitted into the parts (11, 21), respectively.

Accordingly, an object of the present invention is to provide a vibration noise reduction structure of a compressor that can minimize the transfer of vibration noise generated while the refrigerant gas is sucked, compressed, and discharged into a sealed container, and facilitate the assembly process.

Figure 1a is a front sectional view showing a vibration noise reduction structure of a conventional compressor,

Figure 1b is a side cross-sectional view showing a vibration noise reduction structure of a conventional compressor,

Figure 1c is a sectional plan view showing a vibration noise reduction structure of a conventional compressor,

Figure 2a is a front sectional view showing a compressor vibration noise reduction structure of the present invention,

Figure 2b is a side sectional view showing a compressor vibration noise reduction structure of the present invention,

Figure 3 is a front view showing a coupling structure of the elastic member in the compressor vibration noise reduction structure of the present invention.

* Explanation of symbols for main parts of the drawings

14: sealed container fixing portion 10: sealed container

20 ': Internal container 15: Hook

23: projection 22: inner container coupling portion

24: through hole 60: elastic member

In order to achieve the object of the present invention as described above, a plurality of fixing parts are formed on the inner side of the sealed container having a predetermined internal volume at predetermined intervals, respectively, and a cylinder for sucking and compressing and discharging the refrigerant gas therein; Each component such as a piston is coupled to each other, and a plurality of coupling parts are formed at the lower end of the inner container which is inserted into the sealed container. Vibration noise reduction structure of the compressor is provided, characterized in that the elastically supported in the sealed container.

Vibration noise reduction structure of the compressor is provided, characterized in that the four coupled portions of the fixed vessel and the inner container is formed of four.

The elastic member is provided with a vibration noise reduction structure of the compressor, characterized in that the coil spring.

The fixed portion outside the sealed container is formed by attaching a part of the sealed container to the inside of the sealed container and a connecting ring formed of a needle-shaped thread on the raised part, wherein the elastic member is coupled to the connecting ring to reduce vibration noise of the compressor. Is provided.

The coupling portion of the inner container is formed by the through hole is formed in the protrusion projecting to have a predetermined width, thickness and height roll, the vibration noise reduction structure of the compressor, characterized in that the elastic member is inserted into the through hole of the protrusion is coupled Is provided.

Hereinafter, the compressor vibration noise reduction structure of the present invention will be described according to the embodiment shown in the accompanying drawings.

In the compressor vibration noise reduction structure of the present invention, as shown in Figs. 2A and 2B, several fixing portions 14 are formed at predetermined intervals on the inner side surface of the sealed container 10 having a predetermined internal volume, respectively. The lower end of the inner container 20 'is coupled to each component such as a cylinder (not shown) and a piston (not shown) for sucking, compressing, and discharging the refrigerant gas therein and inserted into the sealed container 10. Several coupling parts 22 are formed in the inner container, and the elastic member 60 is coupled to the coupling part 22 of the inner container 20 'and the fixing part 14 of the closed container 10, respectively, so that the inner container 20 'is elastically supported in the sealed container 10.

The airtight container 10 has a predetermined thickness and is formed by combining the upper cap 12 and the lower cap 13 formed in a hemispherical shape, and having four predetermined intervals on the inner side of the airtight container 10. The fixing part 14 is formed. As shown in FIG. 3, the fixing portion 14 of the airtight container 10 has a part of the airtight container 10 protruded inward and a connection ring 15 having a needle thread formed thereon. Is formed.

The inner container 20 'is formed in a cylindrical shape having a predetermined diameter, four coupling parts 22 of the inner container 20' is formed at the lower end and the coupling part 22 is a predetermined width and thickness and The through hole 24 is formed in the protrusion 23 protruding to have a height.

The elastic member 60 is preferably made of a coil spring, one side of the coil spring is hooked to the catch ring 15 forming the fixing portion 14 of the hermetic container 10 and the other side is an inner container 20 '. Inserted into the through-holes 24 forming the engaging portion 22 is coupled. The elastic member 60 is coupled to the side of the sealed container 10 and the lower end of the inner container 20 'to elastically support the inner container 20' from the side.

Hereinafter, the operational effects of the compressor vibration noise reduction structure of the present invention will be described.

Compressor vibration noise reduction structure of the present invention generates a vibration noise in the process of compressing and discharging the refrigerant while the piston inserted into the inner container (20 ') reciprocates inside the cylinder, the vibration noise is the inner container (20'). Is delivered). The vibration noise transmitted to the inner container 20 'is connected to the side of the sealed container 10 and the lower end of the inner container 20' to several elastic members 60 to support the inner container 20 '. As a result, the vibrations in the longitudinal and transverse directions are absorbed and minimized to the sealed container 10. The inner container 20 'has a structure suspended in the closed container 10 by the elastic member 60 so that the vibration generated in the inner container 20' is transmitted by the elastic member 60 is extremely minimal. .

The present invention has a structure that is coupled to the inner container 20 'by the elastic member 60 in the sealed container 10, the assembly process is facilitated.

As described above, the vibration noise reduction structure of the compressor according to the present invention reduces vibration noise transmitted to the inner container in the process of sucking, compressing and discharging the refrigerant gas by means of several elastic members hanging on the side of the sealed container. By minimizing the transmission of vibration noise of the inner container to the sealed container, it is possible to minimize the vibration noise generated from the compressor to improve the reliability of the compressor, and also to increase the assembly productivity due to the easy assembly process. .

Claims (5)

Several fixed parts are formed on the inner side of the sealed container having a predetermined internal volume at predetermined intervals, and components such as a cylinder and a piston for sucking, compressing, and discharging refrigerant gas therein are coupled to each other. Several coupling parts are respectively formed at the lower end of the inner container to be inserted therein, and elastic members are coupled to the coupling part of the inner container and the fixing part of the closed container, respectively, so that the inner container is elastically supported in the closed container. The vibration noise reduction structure of the compressor. The vibration noise reduction structure of the compressor according to claim 1, wherein the fixing part of the closed container and the coupling part of the inner container are respectively formed of four. The vibration noise reduction structure of claim 1, wherein the elastic member is a coil spring. The method of claim 1, wherein the fixing portion of the sealed container is formed by attaching a portion of the sealed container is inwardly raised and the connecting ring formed of a needle-shaped with the raised portion, it is coupled to the connecting member by an elastic member Vibration noise reduction structure of the compressor. The compressor of claim 1, wherein the coupling part of the inner container is formed with a through hole formed in a protrusion projecting to have a predetermined width, thickness, and height, and the elastic member is inserted into and coupled to the through hole of the protrusion. Vibration noise reduction structure.