KR101602715B1 - Pressure reducing valve device for high pressure fluid - Google Patents

Abstract

The present invention relates to a pressure reducing valve which is configured to precisely and remotely control a secondary pressure in a pressure test device, etc. using a simple structure. Disclosed in the present invention is a pressure reducing valve comprising: a first chamber (16) which is formed between an inlet (12) and an outlet (14); a valve housing (2) which has a second chamber (18) coaxially disposed to and communicated with the first chamber (16) to each other; a valve body (20) which is elastically supported to a spring (26) in the first chamber (16) and opens and closes between the inlet (12) and an outlet (14) as forwardly and backwardly moving in the axial direction; a piston (22) which is disposed to be forwardly and backwardly moved in the axial direction in the second chamber (18), wherein a balance chamber (24) is formed between the second chamber (18) at the rear end and the front end of the piston is in contact with the rear end of the valve body (20); an accumulator (30) which is coupled to the rear end of the valve housing (2) to be communicated with the rear end of the second chamber (2) and pressurizes the piston (22) against the elasticity of the spring (26); a pressure sensor (34) disposed around the outlet (14); a solenoid valve (40) which selectively opens and closes a flow passage between an inlet (12) of the valve housing (2) and the balance chamber (24) or between the balance chamber (24) and a drain (28); and a controller (50) which controls the operation of the solenoid valve (40) in accordance with a detection of the outlet (14) pressure sensor.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pressure reducing valve device for a high-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pressure reducing valve device for a high-pressure fluid, and more particularly, to a pressure reducing valve device for a high-pressure fluid, which is capable of remotely and precisely controlling a secondary- Quot;

In a pressure test apparatus for testing whether a pipe or a water tank leaks, or a pressure washing apparatus for removing scale by spraying pressurized water, water is sprayed into a pipe or a container at a relatively high pressure to test the internal pressure, Or foreign matter is removed. In addition, pressure testing equipment such as piping and tanks should be subjected to various pressure test depending on the type of object and design conditions. Conventionally, a pressure test apparatus that operates under high pressure or a pressure reducing valve used to control pressure on the downstream side of a pressure cleaning apparatus has a large weight and a large volume so that the cost is high and occupies a large occupied space. There is a problem in that it is troublesome to use the valve manually, for example, to manually adjust the pressure on the side of the vehicle.

Patent No. 2-0841702 (June 26, 2008)

The present invention has been made in view of the problems of the conventional pressure reducing valve device for high-pressure fluid as described above, and it is an object of the present invention to precisely control the secondary pressure of a fluid, which has a simple and compact structure, Pressure fluid valve for a high-pressure fluid, which is easy to use and has a new structure.

According to one aspect of the present invention there is provided a method of manufacturing a semiconductor device comprising a first chamber formed between an inlet and an outlet and a second chamber coaxially disposed and communicating with the first chamber, Which is elastically supported by the spring 26 in the first chamber 16 and which is opened and closed between the inlet 12 and the outlet 14 as the valve body moves back and forth in the axial direction, And a valve chamber 20 is formed in the second chamber 18 so as to be able to move forward and backward in the axial direction and a balance chamber 24 is formed between the second chamber 18 and the valve chamber 20 A piston 22 connected to a rear end of the valve housing 2 and connected to a rear end of the second chamber 2 to press the piston 22 against an elastic force of the spring 26, An accumulator 30 and a pressure sensor 34 provided on the side of the outlet 14 and a pressure sensor 34 provided between the inlet 12 of the valve housing 2 and the balance chamber 24, A solenoid valve 40 for selectively opening and closing a flow path between the outlet 24 and the drain 28 and a controller for controlling the operation of the solenoid valve 40 in accordance with the detection of the pressure sensor 34 on the outlet 14 side Wherein the valve housing comprises a first chamber having an inlet and an outlet facing away from each other and a second chamber communicating with the first chamber, A bottom block 4 sealingly engaged with the bottom of the first chamber 16 and having the spring 26 laid thereon; a main block 3 on which the main block 3 is formed, And an upper block (5) formed with a channel (31) connecting the accumulator (30) and the second chamber (18) while closing the upper portion of the second chamber (18) A pressure reducing valve device for a fluid is provided.

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The solenoid valve 40 includes a pressure increasing valve unit 42 for opening and closing a flow path between the inlet 12 of the valve housing 2 and the balance chamber 24, And a pressure reducing solenoid valve unit (44) for opening and closing a flow path between the drain (24) and the drain (28) are integrally or separately formed and attached to the outer surface of the valve housing (2) do.

According to the invention, a valve body (20) which is axially reciprocated in a first chamber (16) formed between an inlet (12) and an outlet (14) of a valve housing (2) A piston 22 contacting the rear end of the valve body 20 is installed in the second chamber 18 communicating coaxially with the accumulator 20 and the accumulator 30 A solenoid valve 40 for selectively opening and closing the inlet 12 of the valve housing 2 and the balance chamber 24 or the balance chamber 24 and the drain 28 is formed By controlling the opening and closing of the solenoid valve 40 by the controller 50 in accordance with the detection signal of the pressure sensor 34 on the side of the outlet 14, the secondary side water pressure or the fluid pressure coming out of the outlet 14 reaches the target value The pressure in the equilibrium chamber 24 is supplied to the drain 28 by the hydraulic pressure of the high pressure inlet 12 to the equilibrium chamber 24, Thereby, it is convenient to use with pressure testing equipment to be able to precisely control the remote to the outlet side pressure of the valve to change from time to time as set by the controller 50 to the target pressure.

The first chamber 16 in which the valve housing 2 is formed at the opposed position where the inlet 12 and the outlet 14 are offset and the second chamber 18 communicating with the first chamber 16 are arranged on the upper side A bottom block 4 sealingly connected to the bottom of the first chamber 16 and to which the spring 26 is laid and a bottom block 4 on which the main block 3 is sealed, And an upper block 5 formed with a passage 31 connecting the accumulator 30 and the second chamber 18 while closing the upper portion of the second chamber 18, The structure of the housing 2 can be made robust and compact, so that a valve structure having a sufficient internal pressure against a high-pressure fluid can be achieved.

The solenoid valve 40 is connected to the pressure increasing valve unit 42 for opening and closing the flow path between the inlet 12 of the valve housing 2 and the balance chamber 24 and the balance chamber 24 and the drain 28, The valve unit can be structurally compact and remotely controlled by attaching the decompression solenoid valve unit 44, which integrally or separately, to the outer surface of the valve housing 2.

1 is a cross-sectional view of an embodiment of the present invention
2 is a cross-sectional view of another embodiment of the present invention
3 is an external view of the embodiment

Hereinafter, preferred embodiments of the present invention will be described. 1 is a cross-sectional view of an embodiment of the present invention. As shown in the drawings, the present invention includes a valve housing 2 in which a main block 3, a bottom block 4, and an upper block 5 are combined. The main block 3 of the valve housing 2 is provided with a first chamber 16 in which an inlet 12 and an outlet 14 are formed at opposed positions offset from each other, A second chamber 18 communicating with the second chamber 18 is formed. A relatively high pressure water or fluid is introduced into the inlet 12, and a reduced pressure water or fluid is discharged to the outlet 14 side.

An opening 6 is formed at the bottom of the first chamber 16 and the bottom block 4 is coupled to the opening 6 to define the lower portion of the first chamber 16. A hollow-shaped sheet member 7 is coupled to the peripheral wall of the first chamber 16 and the inner space of the sheet member 7 substantially forms the first chamber 16. The valve body 20 is watertightly coupled to the inside of the first chamber 16 and specifically in the sheet member 7 so as to move back and forth along the axial direction to open and close a flow path between the outlet 12 and the outlet 14. [ do. In the illustrated embodiment, the bottom surface of the sheet member 7 forms the seat portion. When the head portion of the valve element 20 is raised to contact the seat portion of the seat member 7, the flow path is blocked and the valve body 20 The fluid flows through the groove of the valve body 20. As the valve body 20 descends much, the flow path becomes larger and the flow rate increases. A spring 26 is mounted on the concave portion 27 formed inside the bottom block 4 to press the valve body 20 upward.

An opening 8 is formed in an upper portion of the second chamber 18 formed in the upper portion of the first chamber 16 and an upper block 5 is coupled to the opening 8, Upper part. A hollow type sleeve 9 is coupled to the peripheral wall of the second chamber 18 so that the inner space of the sleeve 9 substantially forms the two chambers 18, Are coupled to each other in a watertight manner. A projecting portion 25 is formed at the lower end of the piston 22 so as to be in contact with the valve body 20 in the first chamber 16. A ballast chamber 24 is formed in the second chamber 18 at the upper end of the piston 22, . An accumulator 30 communicating with the balancing chamber 24 is coupled to the upper block 5 of the valve housing 2 via a flow path 31. According to such a structure, by balancing the downward pressing force applied to the piston 22 by the oil pressure filled in the accumulator 30 and the upward pressure of the spring 26 applied to the valve body 20, Is regulated within the first chamber 16 to open or close the flow path between the inlet 12 and the outlet 14 or to regulate the opening.

On the other hand, a pressure sensor 34 for detecting the water pressure on the secondary side of the valve device is disposed on the side of the outlet 14 of the valve housing 2, and a pressure sensor 34 for receiving the detection signal of the pressure sensor 34, A controller 50 is provided. The controller 50 is separately arranged from the valve housing 2 and disposed at a spaced apart position.

According to the present invention, there is provided a solenoid valve (40) disposed between a flow path (38) opened to the inlet (12) side of the valve housing (2) and a flow path (36) communicating with the balancing chamber (24). In the illustrated embodiment, the solenoid valve 40 is composed of a three-way three-position valve and has a neutral position at which the flow path is shut off and a neutral position at which the balance chamber 24 and the inlet 12 are in communication, And a reduced pressure position for reducing the pressure in the balancing chamber 24 by connecting the balancing chamber 24 and the drain 28.

According to such a configuration, when the apparatus of the present invention is used for the pressure test of the tank or the pipe, when the result of detecting the pressure of the outlet 14 by the pressure sensor 34 is lower than a target set value, The high pressure on the side of the inlet 14 is supplied to the equilibrium chamber 24 of the second chamber 18 by remote control of the solenoid valve 40 from the neutral position to the boosted position in the equilibrium chamber 24, The valve body 20 also descends while the piston 22 is lowered against the elastic force of the spring 26 to further open the flow path, thereby increasing the flow rate and increasing the pressure at the outlet 14 side. And the pressure of the outlet 14 reaches the set point and the controller 50 controls the solenoid valve 40 to return to the neutral position. If the pressure of the outlet 14 is higher than the set value as a result of detecting the pressure of the outlet 14, the controller 50 remotely controls the solenoid valve 40 from the neutral position to the reduced pressure position, The pressure in the equilibrium chamber 24 is discharged to the drain 28 and reduced in pressure so that the urging force of the spring 26 overcomes the pressure of the accumulator 30 and raises the valve body 40 to reduce the flow path, Reducing the flow rate and reducing the hydraulic pressure on the outlet 14 axis. When the pressure of the outlet 14 reaches the set value, the controller 50 returns the solenoid valve 40 to the neutral position.

According to this structure, the target pressure on the outlet 14 side of the valve device can be set or changed through the controller 50 provided at a position spaced from the valve device, and the pressure on the outlet side 14 side It is detected that the pressure is lower or higher than the set value and the solenoid valve 40 is controlled in real time through the remote controller installed to supply the pressure of the relatively high inlet 12 to the balancing chamber 24, By controlling the opening degree of the valve body 40 by discharging the pressure to the drain 28, the water pressure of the outlet 14 can be precisely controlled in real time.

2 is a cross-sectional view and an external view of another embodiment of the present invention. Unlike the embodiment of FIG. 1 in which the solenoid valve 40 is controlled to simultaneously control the pressure increase and the pressure decrease, the inlet 12 side of the valve housing 2 An increase valve unit 42 for increasing the pressure of the secondary side by increasing the pressure of the equilibrium chamber 24 by opening and closing the flow path 36 connecting the equilibrium chamber 24, Pressure solenoid valve unit 44 that separately opens and closes the flow path 39 connecting the valve chamber 2 and the pressure in the equilibrium chamber 24 to reduce the pressure in the secondary side is mounted on the valve housing 2, ).
FIG. 3 is an external view of a valve device according to the present invention, showing a structure that is structurally robust, compact, and capable of effectively remotely controlling the pressure of a high-pressure fluid.

Claims (3)

A valve housing 2 having a first chamber 16 formed between an inlet 12 and an outlet 14 and a second chamber 18 disposed coaxially with and communicating with the first chamber 16, A valve body 20 which is elastically supported by the spring 26 in the first chamber 16 and which opens and closes the inlet 12 and the outlet 14 as the valve body moves back and forth in the axial direction, A piston 22 is disposed in the chamber 18 so as to be capable of moving forward and backward in the axial direction and a balance chamber 24 is formed between the second chamber 18 and the rear end of the chamber 18, An accumulator 30 coupled to a rear end of the valve housing 2 to communicate with a rear end of the second chamber 18 and to press the piston 22 against the elastic force of the spring 26, A pressure sensor 34 provided on the side of the outlet 14 and a flow path between the inlet 12 of the valve housing 2 and the balance chamber 24 or between the balance chamber 24 and the drain 28 And a controller (50) for controlling the operation of the solenoid valve (40) in accordance with the detection of the pressure sensor (34) on the outlet side (14), wherein the valve housing Includes a main block 3 having a first chamber 16 formed at an opposed position where an inlet 12 and an outlet 14 are offset and a second chamber 18 communicating with the first chamber 16, A bottom block 4 sealingly engaged with the bottom of the first chamber 16 and sprung by the spring 26 and an upper portion of the second chamber 18 sealingly coupled to the upper portion of the main block 3, And an upper block (5) having a flow path (31) connecting the accumulator (30) and the second chamber (18).
The solenoid valve (40) according to claim 1, wherein the solenoid valve (40) comprises a pressure increase valve unit (42) for opening and closing a flow path between an inlet (12) of the valve housing (2) and the balance chamber (24) And a pressure reducing solenoid valve unit (44) for opening and closing a flow path between the drain (28) and the valve housing (2) is integrally or separately formed and attached to the outer surface of the valve housing (2).
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