KR200383975Y1 - Valve - Google Patents

Abstract

The present invention relates to a pressure reducing and relief valve device, a flow path 111 through which fluid is introduced and drained, a communication path 112 communicating with the flow path 111 in the lower portion of the flow path 111, and the communication path ( A valve body 110 having a vertical flow passage 113 in communication with 112; A stem 130 installed to be elevated through the valve body 110; A disk 140 fixed to the lower portion of the stem 130 and positioned in the communication path 112 of the valve body 110 to open and close the pipeline of the communication path 112; A diaphragm 152 fixed to an upper portion of the stem 130 and having hydraulic pressure acting through a vertical flow passage 113 of the valve body 110; A cover 120 installed on the diaphragm 152 to cover the diaphragm 152; And a spring 160 installed between the cover 120 and the diaphragm 152, and the productivity is improved by installing the valve 100 as a valve having a pressure reducing or relief function according to the purpose of use. , Material compatibility is improved by being able to perform the decompression or relief function without replacing the valve body 110.

Description

Pressure Reducing and Relief Valve Device {Valve}

The present invention relates to a valve device having a pressure reducing and relief function, and more particularly to a pressure reducing and relief valve device that can be installed to have a pressure reducing or relief function according to the purpose of use.

In general, the pressure reducing valve is used when the pressure of a part circuit in the fluid circuit is to be lower than the pressure of the main circuit, and is always set constant without changing the outlet pressure for inlet pressure fluctuations above the set pressure. To maintain the pressure, the valve closes when the outlet pressure exceeds the set pressure.

In general, the relief valve sends a part or all of the circuit flow rate to the tank to regulate the maximum pressure in the circuit when the pressure in the pipeline provided with the relief valve is higher than the set pressure. Relief valve, which operates only when abnormal high pressure is generated and is used for preventing overload, is also called safety valve.

The relief valve acts as a safety valve to return excess fluid to the tank to suppress the pressure of the main circuit below the set value, while the pressure reducing valve acts as a set pressure to the outlet side to control the outlet pressure below the main circuit pressure. The difference is that the above fluid does not pass.

However, in the related art, the relief valve and the pressure reducing valve having the above functions and structures have a common main circuit structure similar to that of the direct-acting pressure reducing valve structure, but are separated due to the difference in the flow path and the sub-circuit structure during the control process. There was a drawback that is produced through the manufacturing process of each.

Accordingly, the present invention is devised to solve the problems of the prior art as described above, the productivity is improved by installing one valve to have a decompression or relief function according to the purpose of use, decompression or relief without replacing the valve body It is an object of the present invention to provide a pressure reducing and relief valve device capable of performing a function, thereby improving material compatibility.

A pressure reducing and relief valve device of the present invention for achieving the above object is a valve having a flow path through which fluid is introduced and drained, a communication passage communicating with the flow passage in a lower portion of the passage, and a vertical passage communicating with the communication passage. Body; A stem installed to be movable up and down through the valve body; A disk fixed to the lower part of the stem and positioned in a communication path of the valve body to open and close a pipe of the communication path; A diaphragm fixed to an upper portion of the stem and configured to actuate hydraulic pressure through a vertical flow path of a valve body; A cover installed on the diaphragm so as to cover the diaphragm; And a spring installed between the cover and the diaphragm.

Preferably, a cross member having a plurality of flow passages intersect is provided in the communication passage of the valve body, and the disc of the stem opens and closes the flow passage of the cross member communicating with the flow passage of the valve body.

The disk is made of a sheet of rubber material.

In addition, a support plate for supporting a spring is installed inside the cover, and an adjustment bolt in contact with the support plate is screwed to the cover to adjust the pressure of the diaphragm.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in detail as follows.

1 to 6 are views illustrating a pressure reducing and relief valve device according to the present invention.

The valve device, or valve (hereinafter referred to as " valve ") 100 of the present invention is configured to have the functions of a pressure reducing valve and a relief valve, as shown in FIGS. 1 to 3 and 4 to 6.

Here, in describing the valve 100 of the present invention, it will be described based on the pressure reducing valve of FIGS.

The valve 100 has an appearance formed by the valve body 110 and the cover 120.

The valve body 110 is located in a straight line in which a flow path 111 that can be divided into an inlet and an outlet through which fluid flows in and out is not in communication.

In addition, a communication path 112 communicating only with one of the flow paths 111 of the inlet or the outlet is formed at the lower center of the flow path 111, and the communication path 112 opposite to the communication part has a diaphragm 152 which will be described later. The vertical flow passage 113 is in communication with the cover 120 is installed is formed in communication with, one side of the vertical flow passage 113 is in communication with the other flow path 111 of the inlet or outlet vertically.

That is, the valve 100 has a function of a pressure reducing valve when the vertical flow passage 113 is positioned and used as an outlet side as shown in FIGS. 1 to 3, and is positioned as an inlet side as shown in FIGS. 4 to 6. When used, it has the function of a relief valve.

In addition, the stem 130 is installed at the central portion of the valve body 110 so that the stem 130 may move up and down through the flow path 111 and the communication path 112 in parallel with the vertical flow passage 113, and the stem 130 is a valve. A closing cap 170 is installed on a lower surface of the valve body 110 through which the stem 130 penetrates through a bushing 151 having an O-ring between the body 110 and the body 110.

The lower side of the stem 130, that is, one side of the stem 130 located in the communication path 112, the disk 140 made of a rubber material is installed to be fixed as a nut in the state through the washer, the stem 130 is elevated By opening and closing the pipe of the communication path 112 communicated with the flow path (111).

In addition, the outer periphery of the diaphragm 152 is coupled to the stem 130 of the upper portion of the bushing 151 on the coupling portion of the cover 120 and the valve body 110, which will be described later, and the diaphragm 152 is coupled to the stem 130. The diaphragm sheet 150 is disposed between the bushings 151 and is fixedly installed.

Therefore, the diaphragm 152 acts as a hydraulic pressure through the vertical flow passage 113 of the valve body 110.

In addition, a cover 120 covering the diaphragm 152 is installed at an upper portion of the diaphragm 152, and a spring 160 is interposed between the cover 120 and the diaphragm 152.

On the other hand, the support plate 161 for supporting the upper end of the spring 160 is installed on the inner side of the cover 120, the end of the adjustment bolt 121 screwed on the upper portion of the cover 120 is the support plate 161 Is installed so as to contact, adjust the tension of the spring 160, that is, the pressure of the diaphragm 152.

4 to 6, the hexahedral cross member 180 formed by intersecting a plurality of flow paths 181 on the communication path 112 of the valve body 110 is interposed with an O-ring. If the disk 140 fixed to the stem 130 is installed to be inserted into the installation, the upper flow path 181 of the cross member 180 in communication with the flow path 111 of the valve body 110, The valve 100 is configured to have a function of a relief valve.

At this time, the disk 140 is formed as a size in contact with the inner diameter of the flow path 111 through which the stem 130 penetrates.

Hereinafter, the operation of the pressure reducing and relief valve device according to the present invention configured as described above.

First, when the valve 100 of the present invention is to be used as a pressure reducing valve, the disk 140 having a diameter larger than the inner diameter of the flow passage 111 through which the stem 130 penetrates is placed in the communication path 112. The flow path 111 opposite to the vertical flow passage 113 is provided as an inlet, and the flow path 111 adjacent to the vertical flow passage 113 is used as an outlet.

On the other hand, assuming that the tension of the spring 160 installed as described above, that is, the set pressure of the diaphragm 152 is 5㎏ / ㎠, the fluid is introduced into the inlet in the initial state as shown in Figure 1 through the communication path 112 It is drained to the vertical passage 113 and the outlet.

At this time, the fluid flowing as described above is the hydraulic pressure of the diaphragm 152 through the vertical flow passage 113, when the applied hydraulic pressure is lower than the set pressure of the diaphragm 152, the flow of the fluid as described above maintain.

Thereafter, when the hydraulic pressure transmitted through the vertical flow passage 113 gradually rises and becomes higher than the set pressure of the diaphragm 152, that is, when the pressure exceeds 5 kg / cm 2, the diaphragm 152 is illustrated. This operation and the stem 130 and the disk 140 is interlocked and gradually raised so that the disk 140 gradually narrows the conduit of the communication path 112 in communication with the flow path 111.

Then, when the hydraulic pressure of the outlet side through the vertical flow passage 113 is reduced to less than 5kg / ㎠, the diaphragm 152 is reversed by the spring 160 while the stem 130 and the disk 140 are lowered to the conduit By widening again, the hydraulic pressure at the outlet side is always kept constant.

Therefore, the valve 100 of the present invention has a decompression function for reducing the pressure when the hydraulic pressure is high and maintaining the pressure after decompression constant.

When the valve 100 of the present invention is to be used as a relief valve, a disk 140 having a size in contact with the inner diameter of the flow passage 111 through which the stem 130 penetrates is placed on the flow passage 111. The flow path 111 adjacent to the vertical flow passage 113 is provided as an inlet, and the flow path 111 opposite to the vertical flow passage 113 is used as the outlet.

On the other hand, assuming that the tension of the spring 160 installed as described above, that is, the set pressure of the diaphragm 152 is 5㎏ / ㎠, the fluid flows into the vertical flow passage 113 through the inlet in the initial state as shown in FIG. .

In this case, when the fluid introduced as described above acts on the diaphragm 152 through the vertical flow passage 113 on the inlet side is lower than the set pressure of the diaphragm 152, the disk 140 fixed to the stem 130 The upper flow path 181 of the cross member 180 communicated with the outlet by the diaphragm 152 is blocked.

Thereafter, when the hydraulic pressure at the inlet side is gradually raised to become higher than the pressure of the diaphragm 152, that is, when the pressure exceeds 5 kg / cm 2, the diaphragm 152 is operated as shown in FIG. ) And the disk 140 are gradually raised in conjunction with each other, the flow path 181 of the cross member 180 which is blocked by the disk 140 is opened, and the fluid is connected to the communication path 112 and the cross member of the valve body 110. Drained through the flow path 181 of 180 to the outlet.

Therefore, in the valve 100 of the present invention, when the pressure on the flow path 111 becomes higher than the set pressure, part or all of the fluid flows to regulate the maximum pressure in the flow path 111, thereby destroying the equipment and piping system according to the overpressure. It has the function of relief valve to prevent

As described above, according to the pressure reducing and relief valve device of the present invention, the productivity is improved by installing the valve as a valve having a pressure reducing or relief function according to the purpose of use, it is possible to perform the pressure reducing or relief function without replacing the valve body By doing so, the material compatibility is improved.

1 is a view showing a valve used as a pressure reducing valve according to the present invention.

2 is an exploded perspective view of FIG. 1.

3 is an operating state diagram of FIG. 1.

4 is a view showing a valve used as a relief valve according to the present invention.

5 is an exploded perspective view of FIG. 4.

6 is an operating state diagram of FIG. 4.

<Description of the symbols for the main parts of the drawings>

100: valve 110: valve body

111: euro 112: communication path

113: vertical flow path 120: cover

121: adjusting bolt 130: stem

140: disk 150: diaphragm sheet

151: bushing 152: diaphragm

160: spring 161: support plate

170: closing cap 180: cross member

181: Euro

Claims (4)

A flow path 111 through which fluid flows in and drains, a communication path 112 communicating with the flow path 111 at a lower portion of the flow path 111, and a vertical flow path 113 communicating with the communication path 112. A valve body 110; A stem 130 installed to be elevated through the valve body 110; A disk 140 fixed to the lower portion of the stem 130 and positioned in the communication path 112 of the valve body 110 to open and close the pipeline of the communication path 112; A diaphragm 152 fixed to an upper portion of the stem 130 and having hydraulic pressure acting through a vertical flow passage 113 of the valve body 110; A cover 120 installed on the diaphragm 152 to cover the diaphragm 152; And a spring (160) installed between the cover (120) and the diaphragm (152). The method of claim 1, The cross member 180 is formed in the communication path 112 of the valve body 110 so that a plurality of flow paths 181 intersect, and the cross member 180 communicates with the flow path 111 of the valve body 110. Decompression and relief valve device, characterized in that the flow path (181) of the stem 130 is installed to open and close the disk 140 of the stem. The method according to claim 1 or 2, The disk 140 is a pressure reducing and relief valve device, characterized in that consisting of a sheet of rubber material. The method of claim 3, wherein A support plate 161 for supporting the spring 160 is installed inside the cover 120, and an adjustment bolt 121 in contact with the support plate 161 is screwed to the cover 120 at an upper portion of the cover 120. Decompression and relief valve device characterized in that to adjust the pressure of the diaphragm (152).