KR20000013427U - Spring mounting structure for body support of hermetic compressor - Google Patents

Abstract

The present invention relates to a spring mounting structure for supporting the body of the hermetic compressor to improve the seating structure of the spring supporting the body in the hermetic compressor to reduce the number of parts and contribute to cost reduction.

To this end, the present invention is to form a spring integrally to the periphery of the burr by integrally forming a burr protruding in a cylindrical shape at the top of the side stopper.

The present invention, as described above, directly seats the spring without using a separate part, thereby reducing the manufacturing cost due to the reduction in the number of parts and reducing the assembly process, thereby contributing to productivity.

Description

Spring mounting structure for body support of hermetic compressor

The present invention relates to a hermetic compressor installed in a refrigerator or the like to compress and discharge refrigerant gas sucked in.

More specifically, the present invention relates to a spring mounting structure for supporting the main body of a hermetic compressor which improves the mounting structure of the spring for supporting the main body of the compressor, thereby reducing the number of parts and contributing to cost reduction.

In general, a compressor compresses a refrigerant gas of low temperature and low pressure evaporated from an evaporator, raises its pressure and temperature to a saturation pressure corresponding to the condensation temperature, and supplies it to a condenser to condense and liquefy the refrigerant gas in the condenser. It's a device that makes it easy.

Such a compressor is a reciprocating compressor that compresses refrigerant gas through a reciprocating motion of a piston, a rotary compressor that compresses refrigerant gas by rotating a rotor in a cylinder, and converts velocity energy into pressure energy by using a centrifugal force of an impeller. For example, there is a turbo compressor for compressing refrigerant gas.

Such a compressor is installed in a refrigerating device such as a refrigerator, and performs a cooling operation to take heat around the evaporator by using the latent heat of evaporation of the refrigerant gas together with the condenser, the expansion valve, and the evaporator.

That is, when the compressor compresses the refrigerant gas and raises the pressure and temperature up to the saturation pressure, the condenser condenses and liquefies the refrigerant gas by absorbing the heat of the high-temperature / high pressure refrigerant gas by using water or air. And the liquefied refrigerant gas is passed through the expansion valve again, the temperature and pressure is drastically lowered by the throttling action, the refrigerant gas is evaporated from the evaporator to cool by absorbing the heat of the object to be cooled.

1 is a plan sectional view of a general hermetic compressor, and FIG. 2 is a front sectional view.

As shown in the drawing, the hermetic compressor includes a compressor main body embedded in the upper and lower cases 10 and 20 sealed by welding.

The compressor main body has a frame 30 that acts as a skeleton, a drive unit (or motor unit 40) installed at the lower portion of the frame to rotate the shaft 60, which is a transmission medium, and a linear movement of the shaft rotational motion. It consists of a mechanical unit 50 for compressing and discharging the refrigerant gas sucked by the conversion.

The frame 30 supports the entire driving part and the mechanical part, and is supported by the upper and lower cases 10 and 20 through side stoppers 70 and coil springs 80 which are cushioning and noise preventing means, respectively.

The drive unit 40 is composed of a stator 90 supported by the frame to serve as a stator, and a rotor 100 to rotate the shaft 60.

The mechanical part 50 is connected between the cylinder 110 fixed to the upper end of the frame, the piston 120 inserted into the cylinder, and the crank part 61 of the piston and the shaft 60 to rotate the shaft Is composed of a piston rod 130 for converting the linear motion.

Accordingly, in the hermetic compressor, the piston 120 rotates the piston rod 130 of the mechanical part 50 through the crank part 61 by the shaft 60 rotated by the driving part 40. Compressing and discharging the refrigerant gas sucked into the cylinder while performing a linear reciprocating motion within 110, the refrigerant gas circulates the refrigeration apparatus to achieve the desired refrigeration purpose.

In addition, a valve plate 140 having suction and discharge valves is installed at one side of the cylinder 110, and suction and discharge mufflers 150 and 160 which guide suction and discharge of refrigerant gas are installed outside the valve plate. The suction and discharge mufflers are connected to suction and discharge pipes 170 and 180.

Among them, the side stopper 70, which is a shock absorbing and noise preventing means, is provided with a spring for supporting the frame 30 of the main body.

3 is a front view showing an installation state of a conventional spring.

As shown in the prior art, the small diameter portion 211 of the spring support 210 composed of a small diameter portion 211 and a large diameter portion 212 on top of the side stopper 70 having a "translator" shape attached to the lower case 20. It was fixed by pressing, and the main body support spring 200 was inserted and seated outside the large diameter portion 212 of the spring support.

That is, the spring support 200 was supported by using a spring support member 210 for the side support 70.

Therefore, such a structure uses a spring support, which is a separate part, to seat the body support spring on the side stopper, which has a problem of lowering productivity due to an increase in cost and additional assembly process due to an increase in the number of parts.

The present invention has been made to solve this problem, the technical problem is to allow the spring to be mounted directly on the side stopper without using a separate component.

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

Figure 2 is a front sectional view of a typical hermetic compressor

3 is a front view of a conventional structure

4 is a front view of the present invention

5 is a plan view of a burr according to the present invention

※ Explanation of code for main part of drawing

10: upper case 20: lower case

30 frame 40 drive unit

50: mechanical part 60: shaft

70: side stopper 71: bur

90: stator 100: rotor

200: spring

In order to achieve the above object, the present invention is to form a spring integrally formed on the periphery of the burr (Burr) integrally formed at the top when the side stopper is manufactured.

The present invention, as described above, directly seats the spring without using a separate part, thereby reducing the manufacturing cost due to the reduction in the number of parts and reducing the assembly process, thereby contributing to productivity.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

4 is a front view of the present invention, Figure 5 shows a plan view of the burr.

As shown in the present invention in installing the body support spring 200 in the side stopper 70 of the "translator" shape is attached to the lower case 20,

By forming a burr (71) protruding in a cylindrical shape on the upper end of the side stopper (70) integrally to the body support spring 200 is seated on its periphery.

The outer diameter of the burr 71 is formed to be smaller than the inner diameter of the spring 200, as shown in Figure 5 may be formed on both sides in an arc shape or as one.

The burr 71 is formed integrally with the body by performing a burring operation when bending the press mold to produce the side stopper 70.

Referring to the operation of the present invention configured as described above are as follows.

In the present invention, when the spring 200 for supporting the main body is installed, the spring may be inserted into the burr 71 of the side stopper 70.

In other words, you do not need to use a separate component, the spring is directly inserted into the burr to rest.

Therefore, the present invention does not use a separate part to seat the spring compared to the conventional one, the cost is reduced by the number of parts, the assembly is improved and the productivity is increased.

As described above, in the present invention, in installing a spring for supporting the main body in the side stopper of the hermetic compressor, the side stopper is burred to integrally form a bur which protrudes upward, and the spring is formed in the burr. It will be inserted and seated.

Therefore, since the separate parts are not used when the spring is seated, it can contribute to productivity by reducing the assembly process and shortening the cost by reducing the number of parts.

Claims (1)

In the hermetic compressor in which the side stopper 70 is attached to the lower case 20, and the body support spring 200 is installed on the side stopper. For supporting the main body of the hermetic compressor, a burr (71) protruding in a cylindrical shape is integrally formed at the upper end of the side stopper (70), and the main support spring (200) is seated on the periphery of the burr. Spring seating structure.