WO2018207965A1

WO2018207965A1 - Flow control valve

Info

Publication number: WO2018207965A1
Application number: PCT/KR2017/005604
Authority: WO
Inventors: 김병용
Original assignee: 삼미기계주식회사
Priority date: 2017-05-11
Filing date: 2017-05-30
Publication date: 2018-11-15
Also published as: KR20180124248A; KR101985935B1

Abstract

The present invention comprises: a valve body installed between pipes and having a seat formed on the inner circumferential surface thereof; a disk installed inside the valve body; a linear actuator coupled to the disk so as to enable the disk to closely adhere to the seat by advancing, and enable the disk to be spaced apart from the seat by retreating; and a rotary actuator coupled to the disk so as to enable the disk spaced apart from the seat to rotate and open.

Description

Flow control valve

The present invention relates to a flow control valve, which is installed in the pipe to control the flow rate, the inside of the disk is rotatable structure to open and close, and the disc to move the front and back structure to remove the foreign matter fixed to the seat It is a technology related to the flow control valve that can increase the adhesion while.

The flow control valve has a structure in which the disk is operated to open and close the flow path. Flow control valve related to the present invention relates to a butterfly valve type that is a method of opening and closing the flow path by the rotation operation of the disk.

Looking at the type of a general flow control valve is formed a seat that the disk is in close contact with the inside of the valve body, the disk connected to the shaft inside the valve body is closed when the contact with the seat is closed.

Conventionally, when the disk is opened or closed by the rotation of the disk, there is a problem that sealing is not easy when there is a foreign matter between the disk and the sheet. In other words, if foreign matter is fixed on the contact surface of the sheet or disk, the shape is lifted between the sheet and the disk upon closing.

If such a problem occurs, it is necessary to repair or replace the valve, which requires a lot of time and money, so that a technique for preventing foreign matter from sticking on the seat is required.

The present invention has been made to solve the above problems, to provide a flow control valve that can increase the adhesion to the seat while removing the foreign matter by the disk is rotatable opening and closing, and also moveable before and after the structure The purpose is.

In order to achieve the above object, the present invention is provided between the valve body and the valve body seat is formed on the inner peripheral surface; A disk installed inside the valve body; A linear actuator coupled to the disk to closely adhere the disk to the sheet by advancing and space the disk onto the sheet by reversing; And a rotating actuator coupled to the disk to rotate the disk spaced apart from the sheet to be openable.

The disk is characterized in that the linear guide groove is formed on the surface, the curved stepped portion is formed on the outer peripheral surface.

The rotary actuator is positioned in the linear guide groove at the end to be guided during the linear movement of the disk, and when rotated, a rectangular stem is formed to interfere with and transmit the rotational force to the disk.

The linear actuator is formed to protrude in the form of wrapping the inner and outer sides of the step at the end to guide the rotation of the disk, characterized in that the clamp is formed to be moved forward and backward on the disk to interfere when moving forward and backward.

It is characterized in that the sealing member is attached to the front of the disk is in close contact with the sheet.

According to the present invention of the configuration described above, the following effects can be expected.

The disk opens and closes the flow path by the rotation, and the rotatable disk is moved forward and backward to remove foreign matter between the sheet and the disk has the advantage that the adhesion to the seat can be enhanced.

1 is a perspective view of a flow control valve according to an embodiment of the present invention.

Figure 2 is an internal configuration of the flow control valve according to an embodiment of the present invention.

3 is a detailed view of a sealing member according to an embodiment of the present invention.

4 is a state in which the disk is reversed by the operation of the linear actuator according to an embodiment of the present invention.

5 is a state in which the disk is opened by the operation of the rotary actuator according to an embodiment of the present invention.

6 is a view showing an operating state of the flow control valve according to an embodiment of the present invention from above.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 is an internal configuration diagram of a flow control valve according to an embodiment of the present invention.

Referring to FIG. 1, the present invention includes a valve body 100, a disk 200, a linear actuator 300, and a rotary actuator 400, and is capable of forward and backward rotation of the disk. .

2 is an internal configuration of a flow control valve according to an embodiment of the present invention.

Referring to FIG. 2, the valve body 100 is installed between pipes, and a seat 120 supporting the disk 200 is formed on an inner circumferential surface thereof.

The disk 200 is installed inside the valve body 100 to open and close the flow path by rotation.

Here, the disk 200 is formed in a disk shape, the block is formed on the upper, lower, connected to the structure that transmits and blocks the power generated in the linear actuator 300 and the rotary actuator 400 disk 200 ) To move forward and backward and to provide a rotatable structure.

Specifically, a linear guide groove having a long shape and a surface of the block of the disk 200 is formed, and a curved stepped portion is formed on the outer circumferential surface of the block.

Here, the linear guide groove is formed so that the disk 200 can be interlocked with the operation of the rotary actuator 400, and the step is formed, so that the disk 200 is moved to the operation of the linear actuator 300. It will be linked to move afterwards. This operation does not interfere with each other can be seen in the coupling structure of the linear actuator 300 and the rotary actuator 400 will be described in detail later.

The linear actuator 300 is coupled to the disk 200 to close and close the disk 200 to the sheet 120 by advancing, and the disk 200 is spaced apart from the sheet by backward It can be rotated.

Here, the linear actuator 300 may be composed of a handle, a gear box rotated according to the handle direction, and a guide rod connected to the gear box forward and backward.

The reason for moving the disk 200 before and after is because the adhesion to the seat 120 by advancing increases the adhesion and can be removed by pushing the debris stuck on the seat 120.

The rotary actuator 400 may be coupled to the disk 200 to rotate the disk 200 spaced apart from the sheet 120.

The rotary actuator 400 is located in the linear guide groove at the end is guided during the linear movement of the disk, and when the rotation is characterized in that the rectangular stem 420 is formed to transmit the rotational force to the disk. Here, the power of the rotary actuator 400 becomes the motor 440.

That is, the disk 200 is capable of moving forward and backward since the disk 200 is not interfered with the stem 420 by the linear guide groove during linear movement by the operation of the linear actuator 300. Then, the stem 420 is only interfered with the rotation to be able to rotate the disk 200.

The linear actuator 300 is formed to protrude in the form of surrounding the inner and outer sides of the stepped at the end to guide the rotation of the disk, and when the front and back interference is interfered with the disk 320 is formed to move forward and backward It is characterized by.

That is, the disk 200 can be moved forward, backward by the clamp 320. The clamp 320 is formed in a shape corresponding to the shape of the step so that the disk 200 is not interfered with the rotation.

Therefore, the present invention enables the forward and backward movement of the disk and the rotational motion to increase the sealing ratio and the waste removal efficiency by the forward when closed by the structure that each operation is possible separately, and when the disk is needed, There is an advantage that can be rotated backwards.

Meanwhile, referring to FIG. 3, a sealing member 220 is detachably attached to the front surface of the disk 200 to be in close contact with the sheet. Here, the sealing member 220 may be detachably coupled to the disk 200 by bolt coupling, and thus may be easily replaced, and the sealing member 220 may have various shapes.

In addition, the sealing member 220 may be made of a metal material, it is possible to further increase the adhesion to the sheet using a flexible poly-based resin.

Hereinafter, an operation example of the flow control valve of the present invention will be described, and the operation example is expressed in FIGS. 4 and 5.

Referring to FIG. 4, the disk 200 is retracted by the operation of the linear actuator 300 to be spaced apart by the seat 120, thereby allowing the disk 200 to be rotatable.

Referring to Figure 5, by rotating the disk 200 by the operation of the rotary actuator 400 to completely open the inside of the pipe.

On the contrary, when the inside of the pipe is closed, the disk 200 is rotated to its original position by the operation of the rotary actuator 400 and closely adhered to the sheet 120 to remove the foreign matter fixed in the sheet 120.

6 is a view showing an operating state of the flow control valve according to an embodiment of the present invention from the upper side.

Referring to FIG. 6, the disk 200 has upper and lower blocks 240 formed therein, and linear guide grooves 242 having a long length and a surface of the block 240 are formed. And the curved stepped portion 244 is formed on the outer circumferential surface of the block 240. The stem 242 is positioned in the linear guide groove 242, and the step 244 is coupled to the clamp 320.

In Fig. 6A, the disc is closed. As shown in FIG. 6 (b), the clamp 320 pulls the disk 200 and is spaced apart from the seat 120 by the operation of the linear actuator so as not to interfere with the seat 120 on the rotation radius of the disk 200. . In FIG. 6C, the stem 420 of the rotary actuator rotates to interfere with the linear guide groove 242 to rotate the disk 200 and open the flow path. At this time, the clamp 320 does not interfere with the block 240 to allow the rotation of the disk 200.

As described above, it can be seen that the present invention is to provide a flow control valve as a basic technical idea, and within the scope of the basic idea of the present invention, many other ordinary skill in the art Of course, variations are possible.

The present invention relates to a flow control valve, which is installed in the pipe to control the flow rate, the inside of the disk is rotatable structure to open and close, and the disc to move the front and back structure to remove the foreign matter fixed to the seat It can be used in the field of flow control valves that can increase the adhesion.

Claims

A valve body 100 installed between pipes and having a seat 120 formed on an inner circumferential surface thereof;

A disk 200 installed inside the valve body;

A linear actuator 300 coupled to the disk to closely adhere the disk to the sheet by advancing and space the disk onto the sheet by reversing;

And a rotating actuator (400) coupled to the disc to rotate the disc spaced apart from the seat to open the disc.
The method of claim 1,

The disk 200 is a flow guide valve, characterized in that the linear guide groove is formed on the surface, the curved stepped portion is formed on the outer peripheral surface.
The method of claim 2,

The rotary actuator 400 is located in the linear guide groove at the end to be guided during the linear movement of the disk, and during rotation is a square stem 420 is formed to interfere with and transmit the rotational force to the disk Flow control valve.
The method of claim 2,

The linear actuator 300 is formed to protrude in the form of surrounding the inner and outer sides of the stepped at the end to guide the rotation of the disk, and when the front and back interference is interfered with the disk 320 is formed to move forward and backward Flow control valve, characterized in that.
The method of claim 1,

Flow control valve, characterized in that the sealing member 220 is attached to the front surface of the disk 200 is in close contact with the seat.