KR200445716Y1 - Flow control valve - Google Patents

Abstract

The present invention allows the catching ball to elastically support the catching groove of the adjusting mechanism through the spring after the adjustment of the flow rate, so that the flow rate of the valve is not changed by the fluid inside or the vibration applied from the outside, and the assembly structure of the valve is simplified. It relates to a flow rate control valve that the flow rate is finely controlled by the control knob rotates smoothly.

The flow control valve according to the present invention, the inlet and outlet are formed on both sides, the upper portion is open, the body is formed with a through-hole; A support fastened to an open upper portion of the body and penetrated vertically; A guide part inserted through the support, rotating in place without moving, having an O-ring formed at an outer circumference thereof, and a moving hole formed at a lower surface thereof; An opening and closing part fastened to the moving hole to move up and down according to the rotation of the guide part to open and close the through hole; An insertion hole formed at one side of the body and elastically supported by a spring inserted into the insertion hole; And it is fixedly coupled to the upper portion of the guide, and includes a control mechanism is formed a plurality of locking grooves corresponding to the locking ball.

Body, Support, Guide, Opening and Closing Ball, Hanging Ball

Description

Flow control valve

The present invention relates to a flow control valve, and more particularly, after the flow adjustment is completed, the catching ball is elastically supported by the catching groove of the adjusting mechanism through the spring so that the change in the flow rate regulated by the fluid in the valve or the vibration applied from the outside is achieved. It does not occur, and the assembly structure of the valve is simplified, and the flow rate control valve that the flow rate is finely adjusted by the rotation of the regulator smoothly.

Cold and hot water is moved and circulated through the pipe in the apartment house or building, such as an apartment, and a flow control valve is installed in the pipe for balanced distribution of cold and hot water. By the way, in the pipe in which the flow control valve is installed, cavitation (cavitation) is generated while the cold and hot water flows to generate noise and vibration. In this case, the cavitation refers to a phenomenon in which the pressure of the liquid is locally lowered than the saturation pressure of the liquid as the flow rate increases in the valve, so that a part of the liquid evaporates and bubbles are generated and the bubble bursts at a position where the flow rate decreases.

Thus, the flow control valve was introduced to reduce the occurrence of cavitation by finely adjusting the flow rate, but the assembly structure of the valve is still complicated, and in particular, the combination of the opening and closing parts is not simple, resulting in an increase in manufacturing cost. There was a problem that the flow rate can not be finely adjusted through the effective up and down movement.

In addition, in the conventional flow control valve, there is a problem in that the change in the regulated flow rate is caused by arbitrarily rotating the regulator by a change in the fluid pressure in the valve or vibration applied to the valve from the outside. That is, when a random change in the flow rate controlled by the vibration occurs, the imbalance of cooling and heating occurs, the operation in the optimum state is impossible and the waste of energy due to the unnecessary flow of fluid.

On the other hand, when the opening and closing portion and the control opening is integrated as in the prior art, when the passage hole is increased to increase the flow rate, the opening and closing portion and the control opening rise together with the rotation of the control, so that the control port is protruded to the upper side, the flow rate adjustment In the case where the installation place of the valve is narrow, a considerable inconvenience arises in using the flow control valve, and a problem in which the user may be injured by the protruded control port also occurs.

The present invention is to solve the problems as described above, so that after the flow rate adjustment is finished, the catching ball is elastically supported by the catching groove of the adjusting opening through the spring to change the flow rate adjusted by the fluid in the valve or vibration applied from the outside. The purpose is to provide a flow control valve that does not occur.

In addition, the opening and closing portion is simply coupled to the support through the guide to simplify the assembly structure of the valve, and by gently adjusting the vertical movement of the opening and closing portion can be finely adjusted the flow rate, forming a groove between the plurality of engaging grooves fluid or Another object of the present invention is to provide a flow control valve in which a control knob can be rotated smoothly by an external force applied by a user without rotating the adjuster by an externally applied vibration.

In order to achieve the above object, the flow control valve of the present invention includes an inlet and an outlet formed at both sides, an upper portion of which is opened, and a through hole formed therein; A support fastened to an open upper portion of the body and penetrated vertically; A guide part inserted through the support, rotating in place without moving, having an O-ring formed at an outer circumference thereof, and a moving hole formed at a lower surface thereof; An opening and closing part fastened to the moving hole to move up and down according to the rotation of the guide part to open and close the through hole; An insertion hole formed at one side of the body and elastically supported by a spring inserted into the insertion hole; And it is fixedly coupled to the upper portion of the guide portion, and includes a control mechanism for forming a plurality of locking grooves corresponding to the locking ball, characterized in that a groove is formed between the plurality of locking grooves.

 Since the catching ball is elastically supported by the catching groove of the adjuster through the spring, after the flow rate adjustment is finished, there is no change in the regulated flow rate caused by the fluid in the valve or the vibration applied from the outside, thus maintaining the balance between cooling and heating. There is an effect that operation in the state is guaranteed.

In addition, the groove is formed between the plurality of engaging grooves by the external force applied by the user without rotating the control by the fluid or the vibration applied from the outside, the control knob is rotated smoothly, the opening and closing part is simply coupled to the support through the guide portion Simplify the assembly structure of the valve, and finely adjust the flow rate by smoothly adjusting the vertical movement of the opening and closing part, the simple structure of the valve can reduce the failure rate, reduce the production cost, can be used in narrow space It has an effect.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the subject matter of the present invention, the detailed description is omitted.

Flow control valve according to a preferred embodiment of the present invention, as shown in Figure 1a to 2b, the body 10, the support 20, the guide portion 30, opening and closing portion 40, the locking ball 50 , And the adjuster 60.

The body 10 has an inlet 11 and an outlet 12 formed at both sides, the upper portion 13 is open, the inlet 11 and the outlet 12 is a through hole formed in the interior of the body (10) 15) communicate with each other. The inlet 11 and the outlet 12 of the body 10 is formed with a fastening means that can be coupled to the pipe, the fastening means may have a variety of forms, but to form a female screw and a male screw to fasten the screw fitting structure It is common.

The support 20 fastened to the open upper portion 13 of the body 10 by a screwing structure is penetrated up and down so that the guide portion 30 can be inserted therein, and the upper portion 13 and the support of the body 10. O-rings 29 may be inserted at the outer periphery of the support 20 to completely prevent leakage that may occur between the 20.

Guide portion 30 is inserted into the inner circumferential surface of the support 20, the O-ring 39 formed on the outer periphery of the guide portion 30 is in close contact with the inner circumferential surface of the support 20 or the upper portion 13 to prevent leakage And, according to the rotation of the adjustment device 60 to be described later, the guide unit 30 is rotated in place without the shangdong, the lower surface of the guide unit 30 is formed with a moving hole (31).

When the O-ring 39 formed at the outer circumference of the guide part 30 is in close contact with the inner circumferential surface of the support body 20, the guide part 30 inserted into the support body 20 rotates in the support body 20 without being moved. In order to form a fixing groove 21 in the lower inner periphery of the support 20, the fixing ring 22 for supporting the lower end of the guide portion 30 can be inserted into the fixing groove (21). In addition, when the O-ring 39 formed on the outer circumference of the guide portion 30 is in close contact with the inner circumferential surface of the upper portion 13, a fixing protrusion (not shown) supporting the lower end of the guide portion 30 on the inner circumference of the upper portion 13. May be formed so that the guide part 30 rotates in place without moving.

A male screw 42 is formed on the upper outer circumferential surface of the opening / closing part 40 which is fastened to the moving hole 31 and moves up and down according to the rotation of the guide part 30 to open and close the through hole 15, and the moving hole 31 is formed. The inner circumferential surface of the female screw 32 is formed so that the upper portion of the moving hole 31 and the opening and closing portion 40 is screwed, the opening and closing portion 40 is moved up and down in accordance with the rotation of the guide portion 30 to rotate in place. At this time, the protrusion 43 is formed on the outer circumferential surface of the opening and closing part 40, and the seating groove 17 is formed on one side of the body 10 to accommodate the protrusion 43 so that the opening and closing part 40 does not rotate up and down. Can be moved to

In addition, the disk 41 is formed at the lower end of the opening and closing portion 40 to facilitate the flow through the passage hole 15, and the disk so that the opening and closing portion 40 can completely seal the passage hole 15. The O-ring 49 may be inserted into the upper portion of the 41, and the disk 41 may be made of a soft material to effectively control flow and prevent leakage. The shape of the disk 41 may be variously modified, and the O-ring 49 may be unnecessary depending on the shape of the disk 41.

The insertion hole 51 is formed at one side of the body 10, and the locking ball 50 is elastically supported by the spring 52 inserted into the insertion hole 51, and corresponds to the locking ball 50. A plurality of locking grooves 61 are formed in the adjusting opening 60. That is, after adjusting the flow rate finely by rotating the adjusting device 60 fixedly coupled to the upper portion of the guide part 30, the catching ball 50 through the spring 52 of the locking groove 61 of the adjusting device 60 Since it is elastically supported by), the adjustment opening 60 is rotated by the change of the fluid pressure or by the vibration applied from the outside to prevent the change in the regulated flow rate. At this time, considering the depth of the insertion hole 51 and the convenience of assembly, the protrusion 16 is formed on the outer surface of the open upper portion 13 of the body 10, the insertion hole 51 on the upper surface of the protrusion 16 ), And it is preferable to form a plurality of engaging grooves 61 at the lower end of the ring shape of the adjustment opening (60).

In addition, the adjusting device 60 is not rotated by the fluid or external vibration, but the locking groove 61 between the plurality of locking grooves 61 so that the control device 60 can be rotated smoothly by the external force applied by the user. The groove 62 can be formed smaller than the size and depth.

A key 33 is formed on the upper part of the guide part 30, and a key groove 53 is formed on the central lower surface of the adjusting part 60 to spline the upper part of the guide part 30 and the control part 60. At this time, the upper portion of the guide portion 30 is made of polygons in place of the spline coupling, and the groove 30 is formed along with the control slot 60 by forming a groove of the polygon on the center lower surface of the control mechanism 60 You may. In addition, the upper portion of the guide portion 30 and the control opening 60 can be fixedly coupled in various ways, but to form a screw groove 35 on the top of the guide portion 30, the center of the control opening (60) It is preferable to couple the upper portion of the guide portion 30 and the adjusting opening 60 by coupling the bolt 66 fixed through the screw groove 35.

A scale is displayed on the outer circumference or upper surface of the adjusting opening 60 so that the user can grasp how much the valve is opened and closed.

When explaining the function and action of the flow control valve according to a preferred embodiment of the present invention configured as described above with reference to Figures 2a and 2b.

When the flow control valve coupled to the pipe is all open as shown in FIG. 2A, when the user rotates the control mechanism 60 to reduce the flow rate, the control mechanism 60 and the spline coupling and the bolt 66 The guide part 30 fixedly coupled to the lower part rotates the opening and closing part 40 while rotating in place without moving up and down, and the flow path area of the upper part of the through hole 15 is reduced, so that the through hole 15 is removed from the inlet 11. The flow rate of the fluid flowing through the outlet 12 is reduced.

At this time, after the flow rate adjustment is completed, the locking ball 50 is elastically supported in the locking groove 61 of the adjusting hole 60 through the spring 52, so that the fluid pressure in the valve or the vibration applied to the valve from the outside. By this, it is possible to prevent the changer 60 from being arbitrarily rotated to cause a change in the adjusted flow rate. A groove 62 smaller than the size and depth of the locking groove 61 is formed between the plurality of locking grooves 61 so that the adjusting hole 60 does not rotate due to the vibration applied from the fluid or the outside, but is applied to the external force applied by the user. As a result, the adjuster 60 can be rotated smoothly. When the user rotates the adjuster 60 to the end, as shown in FIG. 2B, the descending opening and closing portion 40 completely closes the passage hole 15.

In addition, the O-ring 49 may be formed on the upper portion of the disk 41 of the opening and closing portion 40 to completely block the through hole 15, and between the upper portion 13 and the support 20 of the body 10 and the support. O-rings 29 and 39 are respectively inserted into the outer periphery of the support 20 and the guide part 30 so as to completely seal between the penetrated inner circumferential surface of the 20 and the guide part 30 to prevent leakage.

The above descriptions are merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention belongs may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the claims below, and all technical ideas within the scope of the present invention should be interpreted as being included in the scope of the present invention.

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

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

Figure 2a is a cross-sectional view when the flow control valve is fully open in accordance with a preferred embodiment of the present invention.

Figure 2b is a cross-sectional view when the flow control valve is completely sealed in accordance with a preferred embodiment of the present invention.

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

10: Body 11: Inlet

12: outlet 13: upper part

15: through hole 16: protrusion

20: support 21: fixing groove

22: retaining ring 29, 39, 49: O-ring

30: guide part 31: moving hole

33: key 35: screw groove

40: opening and closing part 41: disk

50: locking ball 51: insertion hole

52: spring 53: keyway

60: adjusting hole 61: locking groove

62: groove 66: bolt

Claims (5)

An inlet and an outlet are formed at both sides, and an upper portion thereof is opened, and a body having a through hole formed therein; A support fastened to an open upper portion of the body and penetrated vertically; A guide part inserted through the support, rotating in place without moving, having an O-ring formed at an outer circumference thereof, and a moving hole formed at a lower surface thereof; An opening and closing part fastened to the moving hole to move up and down according to the rotation of the guide part to open and close the through hole; An insertion hole formed at one side of the body and elastically supported by a spring inserted into the insertion hole; And It is fixedly coupled to the upper portion of the guide portion, and includes a control mechanism is formed a plurality of locking grooves corresponding to the locking ball, A flow control valve, characterized in that a groove is formed between the plurality of engaging grooves. The method of claim 1, The protrusion is formed on the outer surface of the open upper portion of the body, the insertion hole is formed on the upper surface of the protrusion, The plurality of locking grooves are flow rate control valves, characterized in that formed on the lower end of the ring-shaped of the control. delete delete delete

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