KR101180991B1 - Shutoff Valve for Excessive Flux - Google Patents

Abstract

PURPOSE: A flow blocking valve is provided to always perform a stable blocking motion by mechanically blocking a passage in excess flow. CONSTITUTION: A flow blocking valve comprises a valve body(10), a fixed ring(20), a valve disc(30), and a spring(40). The valve body comprises a first chamber(11) and a second chamber(12). The fixed ring is fixed in the rear end of the second chamber of the valve body. The valve disc is installed in the first chamber of the valve body to be moved in an axial direction to open and close the first chamber while moving back and forth with the flow of fluid flowing along a pipe. The spring is interposed between the fixed ring and the valve disc to elastically support the valve disc from the fixed ring.

Description

Shutoff Valve for Excessive Flux

The present invention relates to a valve, and more particularly, to a flow blocking valve for automatically closing the pipe when the flow rate of the fluid flowing along the pipe exceeds the set amount to block the flow of the fluid.

In general, the flow blocking valve is a device installed in a pipe through which a fluid such as liquid or gas flows to block the flow of the fluid, and there are various types depending on the purpose and purpose of use. Such a flow shutoff valve is used to improve the safety of the equipment or to realize stable operation by blocking the inflow of the fluid and adjusting the flow rate when a high pressure fluid is suddenly ejected or exceeded a set flow rate. have.

Since the conventional flow shutoff valve needs the ability to completely shut off completely in response to a stop signal or an abnormal signal, an energized open solenoid valve is mainly used. However, the conventional energized solenoid valve loses its function as a flow shutoff valve when an electronic component or a power supply line is broken or damaged, which may cause serious problems in the safety or operation of the equipment.

The present invention is to solve the above problems, the object of the present invention is structurally simplified and easy to manufacture and installation, mechanically operated by the flow rate or pressure of the fluid in the pipe without using electrical energy to the pipe It is to provide a flow shutoff valve that can be opened and closed.

The present invention for achieving the above object, in the flow rate blocking valve for opening and closing the pipe in accordance with the flow rate of the fluid is connected to the flow pipe, the first chamber having an inner diameter larger than the inner diameter of the pipe, and A valve body having a second chamber formed at a rear of the first chamber to have an inner diameter smaller than that of the first chamber; A fixing ring fixed to the rear end of the second chamber of the valve body; A valve disc installed to be movable in the axial direction in the first chamber of the valve body to open and close the first chamber while moving in the front-rear direction by the flow rate of the fluid flowing along the pipe; Interposed between the fixed ring and the valve disk is provided a flow rate blocking valve comprising a spring for elastically supporting the valve disk with respect to the fixed ring.

According to the present invention, when the fluid is supplied to the pipe below the set flow rate, the valve disc is pushed by the pressure of the fluid, the flow path is opened, and when the flow rate of the fluid supplied into the pipe is rapidly increased to be above the set value, the valve disc is The valve moves backward to close the flow path while the rear surface of the valve disc contacts the rear end of the first chamber. Therefore, since the flow path can be mechanically blocked at the excess flow rate, it is possible to always implement a stable blocking operation.

1 to 3 are cross-sectional views showing a flow blocking valve according to an embodiment of the present invention.
4A and 4B are sectional views showing a flow blocking valve according to another embodiment of the present invention.
5 is a cross-sectional view showing a flow blocking valve according to another embodiment of the present invention.

Hereinafter, a flow blocking valve according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 show an embodiment of the flow blocking valve according to the present invention, the flow blocking valve of this embodiment is a valve body 10 is connected to the pipe (1) through which the fluid flow, and the valve body ( 10) includes a fixing ring 20 and the valve disk 30 and the spring 40 is installed in.

The valve body 10 is formed in the form of a cylindrical tube with both ends open, the first chamber 11 having an inner diameter larger than the inner diameter of the pipe (1), the first behind the first chamber (11) The second chamber 12 is formed to have a smaller inner diameter than the chamber 11.

The fixing ring 20 is formed in the shape of a circular ring in which an opening 21 through which a fluid passes is formed, and fixed to the rear end of the second chamber 12 of the valve body 10. It is installed.

The valve disc 30 is disposed in the first chamber 11 of the valve body 10 and moves in the front and rear axial directions by the flow rate of the fluid flowing along the pipe 1 to move the first chamber 11. Perform the action of opening and closing. The valve disc 30 has a disk shape and has a diameter larger than the inner diameter of the pipe 1 and smaller than the inner diameter of the first chamber 11. Therefore, when the valve disc 30 is in contact with the pipe 1 in front of the first chamber 11 or the rear end of the first chamber 11, the flow of fluid is blocked, and the valve disc 30 When the elastic force of the spring 40 is overcome by the pressure of the fluid and positioned inside the first chamber 11 (see FIG. 2), a gap between the outer circumferential surface of the valve disc 30 and the inner circumferential surface of the first chamber 11 is formed. The fluid flows through it so that the fluid can flow along the pipe (1).

On the rear surface of the valve disk 30 is formed a spring fixing portion 30a to which the front end of the spring 40 is fixed.

On the outer peripheral surface of the rear portion of the valve disc 30, the valve disc 30 and the rear of the first chamber 11 when the valve disc 30 contacts the rear end of the first chamber 11 by an excess flow rate of a set value or more. The sealing material 50 which seals between the edge parts is provided. In this embodiment, the sealing material 50 is installed on the outer circumferential surface of the rear portion of the valve disc 30, but the sealing material 50 is circumferentially installed at the rear end of the first chamber 11, so that the valve disc 30 is provided. The watertight function can also be performed in contact with the rear face of the.

The spring 40 may be configured by applying a known spring, such as a compression coil spring. The spring 40 is interposed between the fixing ring 20 and the valve disk 30 to elastically support the valve disk 30 with respect to the fixing ring 20.

The configured flow blocking valve as described above acts as follows.

If no fluid is initially supplied or if the pressure of the fluid is lower than the set value, i.e., lower than the pressure to overcome the elastic force of the spring 40, the valve disc 30 is the first chamber as shown in FIG. At the front end of (11), it contacts the pipe (1) to block the flow of the fluid.

In this state, when the fluid is supplied over the set flow rate through the pipe (1), as shown in FIG. 2, the valve disk 30 is pushed backward by the pressure of the fluid to overcome the elastic force of the spring 40, the first The chamber 11 is opened, and fluid flows backward through the space between the outer circumferential portion of the valve disc 30 and the inner circumferential surface of the first chamber 11.

At this time, if the flow rate rapidly increases above the set flow rate, the valve disc 30 is completely pushed backward so that the rear surface of the valve disc 30 comes into close contact with the rear end of the first chamber 11. At this time, the flow of the fluid is completely blocked by the sealing material 50 so that the fluid cannot flow to the rear of the valve disc 30. Therefore, the risk of damage to the equipment or safety problems due to the excess flow rate can be eliminated.

When the flow rate of the fluid supplied to the pipe 1 is lower than the set value, the pressure is lowered, the valve disk 30 is moved forward by the elastic force of the spring 40 so that the fluid can flow again.

On the other hand, since the valve disk 30 is supported by the spring 40, it is possible to set the excess flow to be blocked by adjusting the elastic force of the spring 40. As shown in FIGS. 4A and 4B to adjust the elastic force of the spring 40 as described above, the main disk 31 having the bolt fastening hole 31a formed at the center of the valve disk 30, and the A variable disk 32 which is installed at the rear of the main disk 31 so as to be movable in the axial direction with respect to the main disk 31 and has a spring fixing part 32a to which the front end of the spring 40 is fixed; The bolt fastening hole (31a) of the main disk 31 is fastened and the rear end is in contact with the front surface of the variable disk 32 to adjust the axial position of the variable disk 32 relative to the main disk 31 The bolt 33 can be comprised.

The variable disk 32 is accommodated inside the groove 31b recessed behind the main disk 31, and moves in the axial direction from the inside of the groove 31b as the adjusting bolt 33 is rotated. Is variable.

When the valve disk 30 is configured in this way, the rotational position of the variable disk 32 relative to the main disk 31 is varied as the adjusting bolt 33 is rotated, and thus the length of the spring 40 is changed. Is adjusted, the elastic force of the spring 40 is adjusted.

Figure 5 shows another embodiment of the flow blocking valve according to the present invention, the flow blocking valve of this embodiment is formed so that a plurality of guide shafts 22 extending in the axial direction in the fixed ring 20, the guide The front portion of the shaft 22 is configured to penetrate the valve disk 30 in the axial direction. When the guide shaft 22 is formed in the fixing ring 20 as described above, the valve disc 30 guides the guide shaft 22 when the valve disc 30 moves in the axial direction by the flow rate in the pipe 1. It can be moved smoothly without being bent outward. Therefore, it is possible to reduce the vortex of the fluid flowing out of the valve disc 30 to suppress noise and vibration, and to obtain uniform flow characteristics.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. In addition, it is apparent that any person having ordinary knowledge in the technical field to which the present invention belongs may make various modifications and imitations without departing from the scope of the technical idea of the present invention.

1: piping 10: valve body
11: first chamber 12: second chamber
20: retaining ring 21: opening
22: guide shaft 30: valve disc
31: main disk 32: variable disk
33: adjustment bolt 40: spring
50: sealing material

Claims (5)

In the flow blocking valve which is connected to the pipe (1) through which the fluid flows to open and close the pipe according to the flow rate of the fluid,
The first chamber 11 having an inner diameter larger than the inner diameter of the pipe 1 and the second chamber 12 formed to have an inner diameter smaller than the first chamber 11 behind the first chamber 11. A valve body 10;
A fixing ring 20 fixedly installed at a rear end of the second chamber 12 of the valve body 10;
It is installed to be movable in the axial direction in the first chamber 11 of the valve body 10 to open and close the first chamber 11 while moving in the front and rear direction by the flow rate of the fluid flowing along the pipe (1). A valve disc 30;
A spring (40) interposed between the fixing ring (20) and the valve disk (30) to elastically support the valve disk (30) with respect to the fixing ring (20);
The valve disc 30 is installed to be movable in the axial direction with respect to the main disk 31 and the main disk 31, the bolt fastening hole 31a is formed in the center and the rear of the main disk 31, The variable disk 32 is formed with a spring fixing portion (32a) is fixed to the front end of the spring 40, and the bolt fastening hole (31a) of the main disk 31 is fastened to the rear end of the variable disk 32 And a control bolt (33) for contacting the front surface of the control panel to determine the axial position of the variable disk (32) relative to the main disk (31). delete 2. The flow shutoff valve according to claim 1, wherein a groove (31b) in which the variable disk (32) is received is formed in a recess behind the main disk (31). According to claim 1 or 3, the rear end is fixed to the fixing ring 20 and the front portion is installed so as to penetrate the valve disk 30 in the axial direction, the guide for guiding the movement of the valve disk (30) And a shaft (22). The first chamber 11 of claim 1 or 3, wherein the valve disc 30 is disposed between the outer peripheral portion of the rear surface of the valve disc 30 and the rear end of the first chamber 11 by an excess flow rate of the set value or more. And a sealing member (50) for sealing between the valve disc (30) and the rear end of the first chamber (11) when contacting the rear end of the valve.

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