KR200206617Y1 - Automatic flow amount control valve - Google Patents

Abstract

The present invention relates to an automatic flow control valve. More specifically, the flow rate of the piping system can be adjusted more precisely and conveniently, if necessary, and the flow control range is wider to flexibly respond to the change of the piping system, and the maintenance is also very easy. A new, easy-to-use automatic flow control valve.

According to the present invention, a body 10 having a predetermined flow path 11 having an inlet 11a and an outlet 11b therein, and a chamber 15 communicating with the flow path 11, respectively, 10, a diaphragm 20 having a flow path opening and closing shaft 27 extending toward the flow path 11 on one surface thereof, and a spring for elastically supporting the diaphragm 20 in the flow path opening direction. And a flow rate control means 30 coupled to the body 10 and extending toward the flow path 11 in front of or behind the flow path opening and closing shaft 27, wherein one surface of the chamber 15 is provided. The fluid inlet hole 16 is formed in communication with the inlet (11a) side of the flow path 11, the diaphragm 20 is operated by the pressure of the fluid while the flow path 11 through the flow path opening and closing shaft 27 of the one side An automatic flow rate control valve is provided, which enables automatic control of the degree of opening.

Description

Automatic flow amount control valve

The present invention relates to an automatic flow control valve. More specifically, the flow rate of the piping system can be adjusted more precisely and conveniently, if necessary, and the flow control range is wider to flexibly respond to the change of the piping system, and the maintenance is also very easy. A new, easy-to-use automatic flow control valve.

In general, it is a very important task that the piping system can supply the correct amount of fluid to each connected section. For this purpose, it is conventionally designed through a complicated process such as iteratively calculating the pipe diameter and frictional loss of each section. It will be constructed. In addition, even after the piping system is constructed, if the flow rate needs to be adjusted, or if the flow rate changes due to the deposition of foreign matters due to the aging of the piping system in use, balancing is performed through a complicated process.

However, even if some level of balancing is maintained through this complex process, this is only a temporary balance and if a slight change in the system occurs, the piping system is again unbalanced, so it is always flexible to cope with changes in such a system. Automatic flow control valves have been developed and used to allow flow rates to flow.

1 illustrates an example of a conventional automatic flow rate control valve. Referring to this, the automatic flow rate control valve includes a housing 40 having a predetermined flow path 41 therein, and fixed to the flow path 41. A cup-shaped control member 50 provided with a ring body 53 provided therein, a plurality of slots 51 slidably coupled to the ring body 53, and having a plurality of slots 51 passing therethrough, and the control member 50 It consists of a spring 55 to elastically support toward the inlet (41a) of the flow path (41). At this time, the control member 50 is moved forward and backward with respect to the ring body 53 by the pressure of the fluid is adjusted according to the number of slots 51 exposed toward the inlet (41a) is the passage area of the fluid. In addition, such a control member 50 is manufactured by dividing into several kinds of different sizes, and is installed so that the flow rate of the valve can be adjusted by replacing it with the valve.

Therefore, when the pressure of the fluid flowing into the valve increases, the control member 50 withdraws the resilience of the spring 55, the slot 51 exposed toward the inlet (41a) centering around the ring body 53 As the number decreases, the high pressure fluid is passed through in a small area. On the contrary, when the pressure of the fluid decreases, the control member 50 is advanced by the elastic force of the spring 55 and is exposed to the inlet 41a. Increasing numbers allow the low pressure fluid to pass through a large area and automatically control the flow of a certain amount of fluid at all times.

However, when the automatic flow control valve needs to adjust the flow rate by changing the piping system during use, the valve is disassembled and replaced by a control member 50 having a different size, and a complicated work process such as reassembling the valve is performed. There is a hassle of work that has to go through. In addition, the flow rate control method by replacing the control member 50 has a problem that it is difficult to precisely control the flow rate can be adjusted stepwise by some kinds of control member 50 prepared in advance.

In addition, the automatic flow rate control valve controls the passage area of the fluid while the control member 50 slides around the ring body 53 by the pressure of the fluid flowing in between the control member 50 and the ring body 53. There is a problem that very unpleasant metal friction sounds are generated. In addition, since the passage area of the fluid is controlled by the slot 51 of the small area formed in the control member 50, there is a problem that the flow rate adjustment range is small and it is difficult to flexibly cope with the pressure change.

The automatic flow control valve has a disadvantage in that maintenance work is very cumbersome, such as when foreign matter is deposited therein for a long period of time, the valve is disassembled one by one to remove the deposited foreign matter and then reassembled.

The present invention is to solve the problems as described above, the purpose of the present invention is to adjust the flow rate more precisely without disassembling the valve if necessary, the flow rate adjustment range is large, it can flexibly respond to the change of the piping system, the operation It provides a new automatic flow control valve with a new configuration that is quiet in operation and easy to maintain due to no noise.

1 is a cross-sectional view of a conventional automatic flow control valve

2 is a cross-sectional view of the automatic flow control valve according to the present invention

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

10: body 11: euro

15 chamber 20 diaphragm

27: opening and closing shaft 29: spring

30: flow control means 31: cover

33: Adjustment screw

According to the present invention, a body 10 having a predetermined flow path 11 having an inlet 11a and an outlet 11b therein, and a chamber 15 communicating with the flow path 11, respectively, 10, a diaphragm 20 having a flow path opening and closing shaft 27 extending toward the flow path 11 on one surface thereof, and a spring for elastically supporting the diaphragm 20 in the flow path opening direction. And a flow rate control means 30 coupled to the body 10 and extending toward the flow path 11 in front of or behind the flow path opening and closing shaft 27, wherein one surface of the chamber 15 is provided. The fluid inlet hole 16 is formed in communication with the inlet (11a) side of the flow path 11, the diaphragm 20 is operated by the pressure of the fluid while the flow path 11 through the flow path opening and closing shaft 27 of the one side An automatic flow rate control valve is provided, which enables automatic control of the degree of opening.

According to another feature of the present invention, the flow rate control means 30 is a cover 31 detachably installed on one side of the body 10, and is spirally coupled to the cover 31 and extends toward the flow path (11) It is formed is configured to include a control screw 33 for adjusting the opening and closing amount of the flow path (11), characterized in that the automatic configuration characterized in that the flow rate of the valve can be adjusted according to tightening the control screw (33) Flow control valves are provided.

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

2 is a cross-sectional view of the automatic flow control valve according to the present invention. Referring to this, the automatic flow control valve is provided with a body 10 having a chamber 15 communicating with a flow passage 11 therein, and a flow opening / closing shaft 27 installed at one side of the chamber 15. It is composed of a diaphragm 20 provided, and the flow rate control means 30 is installed in the body 10 extending toward the flow path (11).

The body 10 has a predetermined flow path 11 formed therein, and the upper and lower portions of the flow path 11, the chamber 15, the diaphragm 20 is installed, and the flow control means 30 is installed The means coupling part 14 is provided, respectively. The chamber 15 has a fluid inlet hole 16 which communicates with the inlet 11a side of the flow passage on one side of the upper surface thereof, and the opening and closing shaft 27 protruding from the diaphragm 20 is operated at the bottom surface thereof. The hole 17 penetrates toward the outlet 11b of the flow path. The adjustment means coupling portion 14 is formed to penetrate from the lower end of the body 10 toward the central portion of the flow path 11, the inner circumferential surface is formed so that the screw 31 is coupled to the cover 31 to be described later.

The diaphragm 20 is installed inside the chamber 15 to move up and down by the pressure of the fluid. The diaphragm 20 has a flow path opening and closing shaft 27 that extends downward in a predetermined length to control the opening and closing amount of the flow path 11. do. At this time, a balance hole 28 is formed in the central portion of the flow path opening and closing shaft 27 to communicate with the lower space of the chamber 15, and a spring for supporting the diaphragm 20 upwardly around the flow path opening and closing shaft 27 ( 29) is combined.

The flow rate control means 30 is a cover 31 which is detachably helically coupled to the control means coupling portion 14 of the body 1, and is spirally coupled to the central portion of the cover 31 and ascended and lowered in the flow path 11. The adjusting screw 33 is made to control the amount of opening and closing. At this time, a cap 35 covering the adjustment screw 33 is installed at the lower end of the cover 31 to prevent leakage of the fluid.

When the pressure of the fluid to be supplied is increased by the above-described configuration, the pressure at this time is transmitted to the chamber 15 through the fluid inlet hole 16 to lower the diaphragm 20, and the diaphragm 20 The flow path opening and closing shaft 27 extending from the closes the flow path 11 to correspond to the increased pressure. Therefore, since the valve supplies the high pressure fluid through the passage 11 opened in a narrow area, it is possible to maintain a constant flow rate.

On the contrary, when the pressure of the fluid to be supplied decreases, the pressure at this time is transmitted to the chamber 15 so that the diaphragm 20 is raised by the restoring force of the spring 29, and the flow path opening and closing shaft 27 of the diaphragm 20 is Since the flow path 11 is further opened, the fluid of low pressure is supplied through the flow path 11 open to a large area, so that the flow rate supplied can be kept constant.

On the other hand, such automatic flow rate control valve, when it is necessary to properly adjust the flow rate due to the change of the piping system, etc., by adjusting or opening the adjustment screw 33 of the adjusting means 30 to adjust the opening and closing amount of the flow path (11) The flow rate of the valve can be adjusted easily.

As described above, according to the present invention, the automatic flow control valve flows through the valve by adjusting the opening and closing amount of the flow passage 11 by tightening or releasing the adjusting screw 33 coupled to the cover 31 without disassembling the valve. Flow rate can be adjusted simply and precisely.

In addition, since the diaphragm 20 controls the flow rate as the diaphragm 20 is elevated by the pressure of the fluid, the automatic flow rate control valve does not generate a metal friction sound so that the operation is very quiet, and the flow path opening and closing shaft 27 crossing the flow path 11 is provided. Since the flow rate is controlled by the diaphragm 20, the opening and closing amount of the flow path due to the lifting and lowering of the diaphragm 20 has an advantage of being able to flexibly respond to the pressure change of the piping system.

In addition, the automatic flow control valve can easily remove foreign matters deposited therein by simply removing the cover 31 from the body 10, and thus, there is no need to disassemble the valve one by one. The advantage is very easy to maintain.

Claims (2)

A body 10 having a predetermined flow path 11 having an inlet 11a and an outlet 11b therein, and a chamber 15 communicating with the flow path 11, and a chamber of the body 10 15, a diaphragm 20 having a passage opening and closing shaft 27 extending toward the passage 11 on one surface thereof, a spring 29 for elastically supporting the diaphragm 20 in the passage opening direction, Is coupled to the body 10 is configured to include a flow rate control means 30 extending toward the flow path 11 in front or rear of the flow path opening and closing shaft 27, the flow path 11 on one surface of the chamber 15 The fluid inlet hole 16 is formed in communication with the inlet (11a) side of the diaphragm 20 is operated by the pressure of the fluid while the opening degree of the flow path 11 through the flow path opening and closing shaft 27 of the one side Automatic flow control valve, characterized in that the automatic control. According to claim 1, wherein the flow rate control means 30 is detachably installed on one side of the body 10, the cover 31 is spirally coupled to the cover 31 is formed extending toward the flow path (11) Automatic flow control, characterized in that it comprises a control screw 33 for adjusting the opening and closing amount of the flow path (11), the flow rate of the valve can be adjusted according to tightening the control screw 33, if necessary valve.