KR20000013434U - Discharge valve structure of hermetic compressor - Google Patents

Abstract

The present invention relates to a structure of a discharge valve to improve the response characteristics by improving the structure of the discharge valve installed in the hermetic compressor, and to improve the performance of the compressor.

The present invention is to provide a quick return of the discharge valve by installing a back spring on the outside of the discharge valve is fastened to the valve plate.

The present invention configured as described above has the effect of improving the performance of the compressor by removing the residual refrigerant in the discharge port by quickly returning to the discharge valve and closing the discharge port while hitting the back spring at the same time when the discharge valve is opened. .

Description

Discharge valve structure of hermetic compressor

The present invention relates to a hermetic compressor installed in a refrigerating device such as a refrigerator to compress and discharge refrigerant gas sucked in a sealed case.

More particularly, the present invention relates to a discharge valve structure of a hermetic compressor, which improves the response characteristics by improving the structure of the discharge valve and improves the performance of the compressor.

In general, the compressor compresses the refrigerant gas of low temperature and low pressure evaporated from the evaporator, raises the pressure and temperature to the saturation pressure corresponding to the condensation temperature, and then supplies it to the condenser, thereby condensing and liquefying the refrigerant gas in the condenser. It's a device that lets you.

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 again passed through the expansion valve, the temperature and pressure is drastically lowered by the throttling action, the refrigerant gas is evaporated from the evaporator to absorb the heat of the object to be cooled to cool.

1 is a cross-sectional view of a general hermetic compressor, in which a compressor main body is built in upper and lower cases 10 and 20 sealed by welding.

The compressor main body has a frame 30 which acts as a large skeleton, a driving part (motor part 40) installed at the lower part of the frame to rotate the shaft 60, and converts the rotational motion of the shaft into a linear motion to cool the refrigerant gas. It consists of a mechanical part 50 for sucking and compressing.

The frame 30 supports the entire driving part and the mechanical part, and the upper and lower ends thereof are supported by the side stopper 70 and the coil spring 80, which are cushioning and noise preventing means, with a predetermined interval on the upper and lower cases 10 and 20, respectively. do.

The driving unit 40 is composed of a stator 90 supported by a frame and serving as a stator, a rotor 100 serving as a rotor, and a shaft 60 that is pressed into the rotor and rotates therewith.

The mechanical part 50 may include a cylinder 110, a piston 120, and a piston rod 130, which substantially suck and compress refrigerant gas, and valve assemblies such as suction and discharge valves, which are suction and discharge means of the refrigerant gas. It consists of a valve plate 140 having a 150, etc., the piston rod 130 is connected between the crank portion 61 and the piston 120 of the shaft 60 to the linear reciprocating motion of the shaft By converting, the refrigerant gas in the cylinder 110 is compressed and discharged through the piston.

In the configuration of the valve assembly 150 installed on the valve plate 140, a discharge valve having a plate spring shape is formed on one side of the valve plate 140 in which suction and discharge ports 141 and 142 are formed, as shown in FIG. 2. After the 160 and the valve stopper 170 are overlapped, the discharge valve and the valve stopper are fastened to the valve plate using the rivet 180.

The valve assembly 150 discharges the discharge valve 160 by the discharge pressure when the refrigerant gas sucked into the suction port 141 of the valve plate 140 is compressed in the cylinder 110 and then discharged. The discharge is made apart from the port 142, and after the discharge is completed, the discharge valve hits the valve stopper 170 and returns to its original position by its elastic force to seal the discharge port.

However, such a structure has a disadvantage in that the valve stopper is bent upwardly and thus the distance between the discharge valve and the valve stopper is too long, resulting in a slow response response and a slow return speed of the discharge valve.

As a result, residual refrigerant is present in the discharge port, thereby degrading the performance of the compressor and reducing the efficiency.

The present invention has been made to solve this problem, and the technical problem is to improve the performance of the compressor by removing residual refrigerant in the discharge port by improving the structure of the valve assembly to speed up the response characteristics of the discharge valve. have.

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

2 is a cross-sectional view of a conventional structure

3 is a cross-sectional view of the present invention

4 is a plan view of 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

90: stator 100: rotor

140: valve plate 141: suction port

142: discharge port 150: valve assembly

160: discharge valve 170: valve stopper

180: rivet 190: back spring

In order to achieve the above object, the present invention provides a quick return of the discharge valve by additionally installing a back spring on the outer side of the discharge valve fastened to the valve plate.

The present invention configured as described above has the effect of improving the performance of the compressor by removing the residual refrigerant in the discharge port by quickly returning to the discharge valve and closing the discharge port while hitting the back spring at the same time when the discharge valve is opened. .

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

3 is a cross-sectional view of the present invention, Figure 4 shows a plan view.

As shown in the present invention, the discharge valve 160 and the valve stopper 170 are overlapped with each other by installing the discharge valve 160 and the valve stopper 170 on the valve plate 140 having the suction and discharge ports 141 and 142 formed therein. In assembly 150,

Between the discharge valve 160 and the valve stopper 170 by installing a back spring 190 in contact with the discharge valve and supported by the valve stopper.

The back spring 190 is fastened between the discharge valve 160 and the valve stopper 170 when the riveting is bent in an arc shape.

Accordingly, one end of the back spring is fastened by the rivet 180 and the other end is free and positioned inside the valve stopper 170.

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

The valve assembly 150 of the present invention has a discharge valve 160 by the discharge pressure when the refrigerant gas sucked into the suction port 141 of the valve plate 140 is discharged after being compressed in the cylinder 110. When the discharge of the refrigerant gas is completed while the discharge valve 160 is opened, the discharge valve 160 opened during the discharge immediately returns to contact with the back spring 190 to seal the discharge port 142.

That is, the discharge valve opened at the time of discharging immediately returns while contacting the back spring 190 installed inside the valve stopper 170 to seal the discharge port 142.

Therefore, the present invention does not have residual refrigerant in the discharge port because the return speed of the discharge valve is fast and the response characteristic is fast, thereby improving the performance and efficiency of the compressor.

As described above, the present invention provides an additional back spring on the outside of the discharge valve constituting the valve assembly of the hermetic compressor, so that the return valve can be quickly returned, so that residual refrigerant does not exist in the discharge port. Performance and efficiency are improved.

Claims (1)

In the valve assembly 150 of the hermetic compressor, in which the discharge valve 160 and the valve stopper 170 are superimposed on the valve plate 140 on which the suction and discharge ports 141 and 142 are formed, and then fastened by riveting. , Discharge valve structure of the hermetic compressor characterized in that the discharge valve 160 and the valve stopper 170 is further provided with a back spring (190) in contact with the discharge valve and supported by the valve stopper.