KR100463057B1 - Expansion valve - Google Patents

Abstract

The present invention reduces noise by suppressing the vibration of the refrigerant flow caused by the shaking of the ball by applying a vibration-proof spring to the expansion valve mounted on the inlet of the evaporator of the vehicle air conditioner system to change the high temperature and high pressure refrigerant into a low temperature and low pressure refrigerant. It relates to a device for reducing the noise of the air conditioner refrigerant,

The opening degree of the orifice portion communicating the inlet and the evaporator inlet on the condenser side is controlled by the shanghai-dong of the ball supported by the coil spring, and the shanghai-dong of the ball is changed in accordance with the temperature and pressure change of the evaporator outlet in the direction opposite to the coil spring. In the air-conditioning expansion valve configured to be controlled by the expansion means which is moved up and down,

An anti-vibration spring is formed between the lower side of the spring sheet for supporting the ball with the coil spring and the end of the coil spring, wherein the anti-vibration spring is formed of the annular plate and the annular plate for fitting to the circular end of the spring sheet. It is composed of a plurality of leaf springs extending downward from the outer circumferential surface, characterized in that the lower end of the leaf spring is in contact with the wall surface of the spring mounting hole in the process of moving the spring sheet is made of vibration absorption.

Description

Flow noise reduction device for air conditioner refrigerant {Expansion valve}

The present invention relates to an apparatus for reducing noise of air conditioner refrigerant, and more particularly, by applying a dustproof spring to an expansion valve mounted at an inlet of an evaporator of a vehicle air conditioner system to change a high temperature and high pressure refrigerant into a low temperature and low pressure refrigerant. The present invention relates to a device for reducing noise of an air conditioner refrigerant to reduce noise by suppressing vibration of a refrigerant flow caused by shaking of a ball.

In general, an air conditioner refers to a device that automatically maintains a room in a pleasant state by automatically adjusting indoor air temperature and humidity by a mechanical device, and constitutes a refrigeration cycle consisting of an evaporator, a compressor, a condenser, and an expansion valve.

4 is a view schematically showing a refrigeration cycle based on an expansion valve, in which the refrigerant gas evaporated by endothermic action in the evaporator 14 is sent to the compressor 11, and the compressor 11 is operated from the outside. It is received and compressed in a gaseous state of high temperature and high pressure is sent to the condenser 12. When the high-temperature, high-pressure refrigerant gas is forcedly cooled by air in the condenser 12, a phase change occurs and becomes a high-pressure liquid refrigerant and is sent to the receiver end dryer 13. The expansion valve 20 makes the refrigerant spray by throttling the high pressure refrigerant in the receiver end dryer 13 so as to easily evaporate the refrigerant. The refrigerant in the sprayed state is sent back to the evaporator 14 to obtain a freezing effect by the endothermic action.

The expansion valve 20 has an inlet port 22 formed on one side of the lower portion of the main body 21 so as to introduce a high pressure refrigerant in the receiver end dryer 13, and the high pressure refrigerant from the inlet port 22 evaporator 14. Evaporator inlet 23 formed on the other side of the upper portion of the main body 21 adjacent to the inlet 22 so that the inlet 22, and the refrigerant gas evaporated by the endothermic action in the evaporator 14 to the compressor (11) An evaporator outlet 24 formed through the upper portion of the 21, a diaphragm mounting portion 24 formed in the upper portion of the main body 21, and an orifice portion 25 communicating between the inlet 22 and the evaporator inlet 23. And a pressure control section 26 formed at the bottom to selectively open and close the orifice section 25 to control the outflow pressure to the evaporator outlet port 23.

The diaphragm 30 is attached to the diaphragm attaching part 24 of the main body 21, and predetermined | prescribed set pressure is enclosed in the upper part. In addition, the rod member 40 is built in the longitudinal direction from the center of the body 21, the guider 42 attached to the upper end in accordance with the outflow pressure of the evaporator outlet 24 slides in the diaphragm 30, The lower end of the lower rod 44 is configured to slide the orifice portion 25 between the inlet 22 and the evaporator inlet 23. An O-ring 46 is attached to the middle of the rod member 40. In addition, the guider 42 is formed with a temperature sensitive portion 28 in communication with the evaporator outlet 24.

The pressure control part 26 of the main body 21 is provided with the ball 50 adjacent to the orifice part 25, and the coil spring 52 is elastically supported by this ball 50, and the coil spring 52 is carried out. Adjusting screw 54 is provided to adjust the elasticity of the evaporator is configured to control the pressure of the outlet 24.

By the configuration as described above, the expansion valve 20 changes the refrigerant into a low-temperature low-pressure wet steam state through the throttling of the high-temperature and high-pressure liquid refrigerant flowing from the receiver end dryer 13. In addition, the flow rate of the refrigerant is controlled to adjust the refrigerant flow rate so as to exhibit the maximum cooling performance in response to the heat load of the refrigeration cycle that varies depending on the outdoor environment, the internal environment, the compressor rotation speed and the like.

However, when the air conditioner is operated in a part of the vehicle to which the expansion valve is configured as described above, the high pressure liquid refrigerant passes through the orifice portion between the ball and the rod of the expansion valve. There was a problem that noise occurs. In addition, there is a problem in that noise is generated while the ball vibrates up and down by the refrigerant passing through the orifice portion due to the water hammer caused by the inflow of the liquid refrigerant. Thus, in order to improve the noise problem, conventionally, by increasing the stroke of the rod when the engine is low, the pressure of the rod portion was stabilized and improved.

Therefore, the present invention has been made to solve the above problems, by applying the anti-vibration spring to the expansion valve which is mounted at the inlet of the evaporator of the vehicle air conditioner system to change the refrigerant of high temperature and high pressure into a refrigerant of low temperature and low pressure. It is an object of the present invention to provide an apparatus for reducing the noise of an air conditioner refrigerant to reduce noise by suppressing vibration of a refrigerant flow caused by shaking.

The present invention as a means for achieving the above object,

The opening degree of the orifice that communicates the inlet and the evaporator inlet on the condenser side is controlled by the shanghai-dong of the ball supported by the coil spring, and the shanghai-dong of the ball is changed according to the temperature and pressure change of the evaporator outlet in the direction opposite to the coil spring. In the air-conditioning expansion valve configured to be controlled by the expansion means which is moved up and down,

An anti-vibration spring is formed between the lower side of the spring sheet for supporting the ball with the coil spring and the end of the coil spring, wherein the anti-vibration spring is formed of the annular plate and the annular plate for fitting to the circular end of the spring sheet. It is composed of a plurality of leaf springs extending downward from the outer circumferential surface, characterized in that the lower end of the leaf spring is in contact with the wall surface of the spring mounting hole in the process of moving the spring sheet is made of vibration absorption.

1 is a block diagram of an air conditioner expansion valve according to the present invention.

2 is a perspective view of a dustproof spring which is a main part of the present invention;

Figure 3 is an operating state of the expansion valve according to the present invention.

4 is a diagram for explaining a conventional technology.

※ Explanation of code for main part of drawing

11: compressor 12: condenser

13: receiver end dryer 14: evaporator

20 expansion valve 21 body

22: inlet 23: evaporator inlet

25: orifice portion 26: pressure control unit

30: diaphragm 40: rod member

50: ball 52: coil spring

55: spring seat 60: dustproof spring

62: annular plate 64: leaf spring

66: turning

Hereinafter, a preferred embodiment according to the configuration and operation according to the present invention will be described in detail with the accompanying drawings.

1 is a configuration diagram of an air conditioner expansion valve according to the present invention, FIG. 2 is a perspective view of a dustproof spring which is a main part of the present invention, and FIG. 3 is an operation state diagram of the expansion valve according to the present invention.

Reference numeral 20 shown in the drawing indicates an expansion valve according to the present invention, and reference numeral 60 indicates an antivibration spring according to the present invention.

Since the general configuration of the expansion valve 20 according to the present invention is configured as the expansion valve described in the description of the prior art, the detailed description thereof avoids the redundant description, even in the case of the reference numerals according to the description of the prior art The symbols used in the description of C are referred to as they are.

That is, the characteristic of the expansion valve 20 according to the present invention is to reduce the vibration caused by the flow of the liquid refrigerant between the ball 50 for pressure control, and the coil spring 52 for supporting the ball 50 The dustproof spring 60 is attached.

The anti-vibration spring 60 is mounted between the ball 50 and the lower surface of the spring seat 55 for supporting the ball 50 by the coil spring 52.

To this end, the anti-vibration spring 60 is an annular plate 62 for fitting to the circular end 56 of the spring sheet 55, and a plurality of leaf springs extending downward from the outer peripheral surface of the annular plate 62 It consists of 64.

The leaf spring 64 is manufactured integrally with the annular plate 62, and a plurality of leaf springs 64 extend in a radial direction at regular angular intervals on the outer circumferential surface of the annular plate 62, and the leaf spring ( 64) is formed in a state bent at 70 to 80 degrees downwards. The length of the leaf spring 64 is preferably formed in a range of about 1 to 3 times the outer diameter of the annular plate 62.

In addition, the lower portion of each leaf spring 64 is formed with a projection 66 of a predetermined size toward the outside, the projections 66 are the pressure that the leaf spring 64 is the coil spring is received In order to be in point contact with the inner wall surface of the control unit 26.

That is, when the coil spring 54 is compressed while the ball 50 is lowered, the leaf spring 64 of the anti-vibration spring 60 is opened in the radial direction and the inner wall surface of the pressure control unit 26. The vibrations are reduced by alleviating the impact caused by the shanghai dong as it comes into contact.

The inner diameter of the annular plate 62 mounted with the anti-vibration spring 60 is inserted into the lower circular end 56 of the spring seat 55, and the upper end of the coil spring 52 is in contact with the spring seat 55. By doing so, the dustproof spring 60 is mounted.

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

When the driver turns on the air conditioner switch of the vehicle and the air conditioner is operated, each component of the air conditioner system plays a role and cools the interior of the vehicle.

In particular, the expansion valve 20 equipped with the anti-vibration spring 60 serves to lower the pressure while throttling the liquid refrigerant of the high temperature and high pressure supplied from the receiver end dryer 13.

In this process, the guider 42 formed at the top of the main body 21 slides in the diaphragm 30 according to the outlet pressure of the evaporator outlet 24, and the lower end of the lower rod 44 is inlet 22 and the evaporator. The orifice portion 25 between the inlets 23 is slid. Therefore, when the rod 44 is lowered, the ball 50 compresses the coil spring 52 so that the orifice portion 25 is opened so that the high-pressure refrigerant stored in the receiver end dryer 13 moves toward the evaporator 14. Supplied.

At this time, the vibration generated when the ball 50 presses the coil spring 52 by the anti-vibration spring 60 or the ball 50 is raised by the elastic force of the coil spring 52 is attenuated. . That is, the spring seat 55 is moved along with the shank of the ball 50 and the annular plate 62 of the vibration-proof spring 60 is shanghai, thereby being integrated into the lower part of the annular plate 62. Vibration is absorbed in the process that the lower end of the formed leaf spring 66 is in contact with the wall surface of the pressure control unit 26. In addition, the anti-vibration spring 60 is to suppress the vibration generated by the ball 50 to shake left and right by the high pressure of the refrigerant.

This reduction of vibration is to reduce the noise generated by the flow of the refrigerant in the air conditioning system.

The present invention constituted as described above is absorbed by the vibration-proof spring provided on the lower side of the spring seat through the flow of the refrigerant passing through the air-conditioning expansion valve, the noise caused by the vibration of the ball and the flow of the refrigerant is reduced and There is a big advantage to increase the comfort of the passengers and the merchandise of the vehicle.

Claims (3)

The opening degree of the orifice portion communicating the inlet and the evaporator inlet on the condenser side is controlled by the shanghai-dong of the ball supported by the coil spring, and the shanghai-dong of the ball is changed in accordance with the temperature and pressure change of the evaporator outlet in the direction opposite to the coil spring. In the air-conditioning expansion valve configured to be controlled by the expansion means which is moved up and down, The anti-vibration spring 60 is formed between the lower side of the spring sheet 55 and the end of the coil spring 52 for supporting the ball 50 with the coil spring 52, the anti-vibration spring 60 ) Is composed of an annular plate 62 to be fitted to the circular end 56 of the spring sheet 55 and a plurality of leaf springs 64 extending downward from the outer circumferential surface of the annular plate 62, the spring The lower end of the leaf spring 64 is in contact with the wall surface of the pressure control unit 26 in which the coil spring 52 is accommodated while the seat 55 is moved. Flow noise reduction device. The method of claim 1, A device for reducing noise of air conditioner refrigerant, characterized in that a protrusion (66) is formed to protrude from the lower side of the leaf spring (64) to make point contact with the wall surface of the pressure control unit (26). The method of claim 1, The leaf spring (64) is an air conditioner air conditioner noise reduction device, characterized in that eight is formed radially at equal intervals.