KR101909251B1 - corn valve for flow control - Google Patents

Abstract

The present invention relates to a flow rate control valve, and more particularly, to a flow rate control valve that can adjust flow rate easily by reciprocating a flow rate regulating member that rotates and moves gears and gears in a surface portion of a cone portion, Wherein a flow control cone valve having a curved end portion formed on a surface portion of the flow rate regulating member to increase the airtight effect is provided with a flow path in the longitudinal direction and a cone portion is formed in the flow path portion, A first body having a flange formed to have a threaded portion at one end of an inner circumferential surface thereof, a groove formed to receive a seal on the inside of the threaded portion and connected to the pipe to form a flow path through the cone portion, And a flow regulator part having a handle is formed on the upper part and connected to the pipe, A rotation gear member having a second flange formed in the second flange and having a through hole formed in the center of the second flange and having a screw thread formed on an inner circumferential surface of the second flange, A bent end portion is formed in a surface portion corresponding to the bent end portion formed on the cone portion of the first body so that the flow rate of the flow is controlled through a gap between the first body and the cone portion, And a flow rate regulator which is connected to the threaded portion of the first body and the threaded portion of the rotary body and rotates to adjust the flow rate.

Description

[0001] The present invention relates to a flow control valve,

The present invention relates to a flow rate control valve, and more particularly, to a flow rate control valve that can adjust flow rate easily by reciprocating a flow rate regulating member that rotates and moves gears and gears in a surface portion of a cone portion, The present invention relates to a flow control valve capable of increasing airtightness by forming a bent end portion on the surface of a flow rate regulator.

In general, there are various types of valves that control the flow rate of the fluid flowing through the pipeline, such as ball valves, butterfly valves, gate valves, and diaphragm valves.

Among them, ball valves are widely used, and they are manufactured in various forms and used.

The valve for controlling the flow of the fluid to control the flow of the fluid is disclosed in Korean Patent No. 1365228 filed by the present applicant. The cone valve capable of precisely controlling the pressure and the flow rate has a flow path 11 formed in the longitudinal direction, A groove portion 14 is formed on the inner circumferential surface so as to mount a sealing portion 14 and a sealing portion 14a to the inside of the thread portion 13 and a fixing screw 15a A first body 10 having a flange 16 formed to penetrate through a fixing hole 15 to be connected to a pipe and to form a flow path through a cone 12 is provided inside the first body 10 A connecting pipe portion 21 having a slope 24 formed therein so as to control the flow rate of the molten metal through the gap G with the cone portion 12 and a pressurizing pipe portion 22 connected to the connecting pipe portion 21 ) And the press-fit conduit portion (22), and a press-fit conduit portion And a mounting flange portion 23. The connecting pipe passage portion 21 is coupled to the flow passage 11 of the first body 10 and adjusts the flow rate through the gap G with the cone portion 12 as it rotates, And a second body 30 connected to the pipe and connected to the pressurization pipe portion 22 of the flow rate regulating body 20.

However, there is a problem that the surface portion of the cone portion and the surface portion of the flow rate regulating member are formed in a single-length area, so that it is not easy to control a minute amount of fluid.

In addition, when formed into a single area, there is a problem that flatness and accuracy are impaired due to a wider length area of the processing.

Korean Patent Registration No. 1365228.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a flow control device in which a curved end portion is formed on the outer circumferential surface of a cone portion, There is provided an adjustable cone valve.

According to an aspect of the present invention, there is provided a flow path structure including a flow path formed in a longitudinal direction, a cone portion formed in the flow path, a curved end portion formed in an outer surface portion of the cone portion, A first body having a flange formed to be connected to the pipe to form a flow path through the cone portion, a flow regulator unit coupled to the other side of the flange of the first body and having a handle on the upper portion thereof, A second body having a mounting flange connected to the pipe to supply a flow path; a rotation gear member having a through-hole formed in the center of the second body and having a threaded portion formed on an inner circumferential surface of the second body; And a second body, which is inserted into the first body and the second body, A bent portion is formed on a surface portion corresponding to the bent end portion formed on the cone portion of the first body so that the flow rate of the fluid passing through the first body is controlled and the threaded portion of the first body and the threaded portion of the rotating body portion are rotated around the outer periphery, And a flow rate regulator for regulating the flow rate.

The bent portion formed at the concave portion of the first body and the bent end portion formed at the coupled pipe portion of the flow rate adjusting body may include a first end fold portion and a second end fold portion.

In addition, a flow rate pocket portion is formed at a point where the first end bending portion and the second end bending portion formed at the first body and the flow rate adjusting body are bent.

The inclined angle of the first end bending portion formed at the bent end of the first body and the bent end of the flow control member may be in the range of 10 ° to 30 ° and the bent end of the first body and the inclined angle formed at the bent end of the flow adjusting body And the inclination angle of the two-step bent portion is formed larger than 30 DEG.

Further, the rotating gear portion, which is fastened to the threaded portion of the flow rate regulator, is coupled to the center portion of the thread portion of the flow rate regulator, and the flow regulator portion of the second body, which engages with the synchronizer portion, .

As described above, according to the present invention, the flow rate control valve of the present invention is capable of finely adjusting the flow rate by reciprocating the flow rate regulator which rotates and moves with gears and gears in the surface portion of the cone portion. The flow regulating member is formed with a bent end portion on the surface thereof, thereby increasing the sealing effect.

In addition, when the face portion of the cone portion formed inside the first body and the face portion of the flow rate adjusting body are formed as the bent ends, the processing length is short, so that flatness and accuracy during processing can be improved.

1 is a sectional view showing a conventional cone valve.
2 is a sectional view showing a flow control valve of the present invention.
3 is an enlarged cross-sectional view showing "a ".
4A and 4B are views showing a face portion of the cone portion and a face portion of the flow rate adjusting body according to the present invention.
5 is a view showing a surface portion of the cone portion of the present invention.
6 is a view showing another embodiment of the face portion of the cone portion and the face portion of the flow rate adjusting body of the present invention.
7 is an embodiment showing a flow control valve of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

2 to 3, the flow control valve 1 of the present invention has a flow path 11 formed in a longitudinal direction thereof, and a cone portion 12 is formed in the flow path 11, And a threaded portion 14 is formed at one end of the inner circumferential surface and a groove 15 is formed in the threaded portion 14 so that a seal is mounted inside the threaded portion 14, And a flange 16 connected to the flange 16 to form a flow path through the cone 12 and a flange 16 connected to the flange 16 of the first body 10, A second body 20 having a fisher 22 and a mounting flange 24 formed thereon and a rotating gear member 30 having a through hole formed in the inside of the second body and having a threaded portion 32 formed on an inner circumferential surface thereof, A first body 10 and a second body 20, and at one end thereof, a cone of the first body 10, A bent end portion 42 is formed on a surface portion corresponding to the bent end portion 13 formed on the cone portion 12 of the first body 10 so as to control the flow rate through the space between the first and second portions 12, And a flow control member 40 which is coupled to the threaded portion 13 of the body 10 and the threaded portion 32 of the rotary body 30 and rotates to adjust the flow rate.

The curved end portion 13 is formed in the surface portion of the cone portion 12 formed inside the first body 10 and the curved end portion 42 of the corresponding flow control member 40 is formed, Adjustment and airtight effect can be increased.

The folded end portion 13 formed on the surface of the cone portion 12 of the first body 10 and the bent end portion 42 of the flow control member 40 equivalent to the folded end portion 13 may be formed in multiple stages, The folded end portion 13 formed on the cone portion 12 of the body 10 and the bent end portion 42 of the flow rate regulating body 40 are formed by the first end folds 13-2 and 42-2, (13-4, 42-4).

4A and 4B, when the flow rate regulating body 40 is moved to regulate and tighten the flow rate, the first bent portion 42-2 of the flow rate regulating body 40 is inserted into the first body 10 The second cutting bend portion 42-4 of the flow rate adjusting body 40 is in contact with the first body bend portion 13-2 of the first body portion 13-2 of the flow control body 40, The airtightness and the flow rate can be easily controlled by closing the second end folded portion 13-4 of the second end folding portion 10 of the first embodiment.

The bent end portion 13 formed on the cone portion 12 of the first body 10 and the bent end portion 42 of the flow amount adjusting body 40 are connected to the first end bent portions 13-2 and 42-2, The bent end portion 13 of the first body 10 and the bent end portion 42 of the flow rate regulator 40 are formed as shown in FIG. The inclination angle of the first end bending portions 13-2 and 42-2 formed on the first body 10 is 10 to 30 degrees and the inclination angle of the bent end 13 of the first body 10 and the bending It is preferable that the inclination angle of the second end folds 13-4 and 42-4 formed on the end portion 42 is formed larger than 30 degrees.

That is, the inclination angle of the first end bending portion (13-2, 42-2) formed on the bent end portion (13) of the first body (10) and the bent end portion (42) The inclined angle of the second end folds 13-4 and 42-4 formed on the folded end portion 13 of the body 10 and the bent end portion 42 of the flow control member 40 is formed to be large, Fluid) for a while to control the flow rate and increase the airtight effect.

When the surface portion of the cone portion 12 formed in the first body 10 and the surface portion of the flow rate regulator 40 are formed as the bent end portions 13 and 42 as described above, the processing length is short, There is an effect that can be.

6, the first and second end bending portions formed at the first body 10 and the flow rate adjusting body 40 are bent at a point where the first end bending portion and the second end bending portion are bent It is preferable that the flow rate pocket portions 13-6 and 42-6 are formed.

That is, when the first cut bending portion 42-2 of the flow rate regulating member 40 is closely contacted with the first end bending portion 13-2 of the first body 10, A flow rate pocket formed at a point where the first end bending portions 13-2 and 42-2 and the second end bending portions 14-4 and 42-4 formed at the body 10 and the flow rate adjusting body 40 are bent, (13-6, 42-6) so that the flow rate can be further controlled and the airtight effect can be increased.

The threaded portion 32 of the rotary block 30 is coupled to the flow control member 40 and the flow control unit 22 of the second body 20 is engaged with the rotary block 30, It is preferable that it is formed in a gear shape.

That is, as shown in FIG. 7, by rotating the central portion of the flow rate adjusting member flowing through the channel, the amount of rotation is changed in length to easily adjust the interval between the surface portion of the cone portion 12 and the surface portion of the flow rate adjusting member 40 So that it is easy to control the flow rate and to seal it.

As described above, the flow rate control cone valve of the present invention is capable of finely adjusting the flow rate by reciprocating the flow rate regulating member in which the gear and the gear are engaged with each other by rotating the gear and the gear in the surface portion of the cone portion. When the surface portion of the cone portion formed inside the first body and the surface portion of the flow rate adjusting body are formed into the bent end portions, the processing length is shortened The flatness and the accuracy can be improved at the time of processing.

1: Flow control cone valve
10: first body 11:
12: Cond 13: Bending end
13-2: First end bending section 13-4: Second end bending section
13-6: Flow Pocket Part
14: threaded portion 15:
16: Flange
20: second body 22: flow regulator fisher
30: rotation drive unit 32:
40: Flow regulator 42: Bending end
42-2: first end bending portion 42-4: second end bending portion
42-6: Flow Pocket Part

Claims (5)

Wherein a cone portion is formed in the flow path in the longitudinal direction, a curved end portion is formed in an outer surface portion of the cone portion, a threaded portion is formed at one end of the inner circumferential surface, and a groove portion is formed so that a seal is mounted inside the threaded portion A first body having a flange connected to the pipe to form a flow path through the cone;
A second body coupled to the other side of the flange of the first body and having an upper portion formed with a flow regulator portion and a mounting flange;
A rotating gear member which is inserted in the second body and has a through hole at a central portion thereof and has a threaded portion formed on an inner peripheral surface thereof;
And a bent portion formed at one end of the first body and corresponding to a bent end portion formed at a cone portion of the first body so that a flow rate of the flow is controlled through a gap between the first body and the second body, And a flow regulating body which is connected to the threaded portion of the first body and the threaded portion of the rotating body to rotate and move the flow adjusting body. The method according to claim 1,
Wherein the bent portion formed in the concave portion of the first body and the bent end portion formed in the coupled pipe portion of the flow rate adjusting body are formed of a first end bend portion and a second end bend portion. 3. The method of claim 2,
Wherein a flow rate pocket portion is formed at a point where the first end bending portion and the second end bending portion formed at the first body and the flow rate adjusting body are bent. 3. The method of claim 2,
The inclined angle of the first end bending portion formed at the bent end of the first body and the bent end of the flow rate adjusting body is set to 10 ° to 30 ° and the second end formed at the bent end of the first body and the bent end of the flow adjusting body And the inclined angle of the bent portion is formed larger than 30 DEG. The method according to claim 1,
Wherein the rotating gear portion of the flow control member is engaged with the center portion of the thread portion of the flow rate regulating member and the flow regulating member of the second body is engaged with the rotating member portion of the flow rate regulating member. Flow control cone valve.

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