KR100864100B1 - A valve unit having a pilot valve for controlling flow of fluid - Google Patents

Abstract

The present invention relates to a valve unit for controlling a fluid, wherein a disk which is installed inside the fluid transfer passage of the valve unit body and opens and closes the fluid transfer passage is connected to an opening and closing control cylinder through a stem, and a piston connected to the stem for the opening and closing control cylinder. In the fluid control valve unit is built, the piston is elastically supported by a spring, an air chamber is provided between the piston and the cylinder cover of the cylinder, the air chamber for controlling the opening and closing of the control air flow A pilot valve is connected to regulate the operation of the cylinder. In addition, the pilot valve is a disk for controlling the flow of compressed air is supported on the stem, the stem is connected to the probe elastically supported by a spring, the diaphragm is in close contact with the tip of the probe is installed diaphragm and A fluid chamber is formed between the stems, and a pressure outlet pipe is connected between the fluid chamber and the fluid outlet of the valve unit. In the valve unit of the present invention having such a structure, when compressed air is injected into the air chamber of the open / close control cylinder through the pilot valve, compressed air is supplied to the air chamber of the open / close control cylinder to open the valve unit. When the supply of compressed air is cut off through the pilot valve, the fluid pressure at the outlet side of the valve unit is transmitted to the pilot valve through the pressure outlet pipe to keep the pilot valve open, thereby keeping the pilot valve open in the air chamber of the open / close control cylinder. By letting the compressed air out, the valve unit is shut off. Therefore, the valve unit according to the present invention is to control the operation of the valve unit by a separate pilot valve, it is possible to accurately control the flow of the fluid can prevent the problem such as back flow of the fluid will be.

Fluid Control Valve, Pressure Reducing Valve, Pilot Control Valve, Pilot Valve

Description

A valve unit for fluid control with a pilot valve {A VALVE UNIT HAVING A PILOT VALVE FOR CONTROLLING FLOW OF FLUID}

1 is a cross-sectional view showing the structure of a valve unit for fluid control according to the present invention;

Figure 2 is a cross-sectional view showing the structure of a conventional conventional Y-shaped valve for fluid control.

* Explanation of symbols on the main parts of the drawings

1-valve unit body 3-inlet

5-Outlet 7-Transfer passage

9-Disk 11-Stem

13-Cylinder for opening and closing control 15-Pilot valve

17-Pressure relief tube 19-Piston

21-Spring 23-Cylinder Cover

25-Air chamber 27-End connection

29-Air inlet 31-Air outlet

33-Airway 35-Disc

37-Stem 39-Spring

41-Probe 43-Diaphragm

45-Fluid chamber 47-Disc seat

49-air passage

The present invention relates to a valve for controlling a fluid to control the flow of the fluid, to control the flow of the fluid by controlling the operation of the valve by a separate pilot valve for the fluid control to prevent the flow of the fluid back flow It relates to a valve unit.

In general, there are various types of valves for controlling the flow of fluid. The Y-shaped valve, in which the opening and closing operation of the valve is automatically controlled by the flow of the fluid, is illustrated in FIG. 2, as shown in FIG. A disc seat 105 is formed to be inclined between the 103, a disc 107 is installed in the disc seat 105, and the disc 107 is connected to the control cylinder 111 through the stem 109. It is structured.

In addition, the control cylinder 111 has a piston 115 elastically supported by the spring 113, and the stem 109 is inserted through the yoke 119 connected to the valve body 117. In order to prevent the fluid from leaking through the gap between the yoke 119 and the stem 109, the O-ring 121 is installed.

The conventional general Y-shaped fluid control valve having such a structure is discharged through the outlet 103 while the disc 107 is opened by the pressure of the fluid introduced through the inlet 101, and thus the disc 107. The piston 115, which is connected through the stem 109 and the disk 107 to be opened by the pressure of the fluid, is pushed up to the rear while compressing the spring 113.

On the other hand, as described above, when the piston 115 is pushed up, the flow meter 123 which is installed in the piston 115 and protrudes outward from the rear of the cylinder 111 is pushed up and introduced through the inlet 101. Flow rate can be measured.

Therefore, the pressure at which the disk 107 is closed as well as the opening pressure of the disk 107 is determined by the elastic force of the spring 113.

The fluid control valve of such a structure is connected to the inlet 101 and the outlet 103 while the disk 107 is lowered by the restoring force of the spring 113 when the flow of the pressure fluid injected through the inlet 101 is blocked. When the flow of the pressure fluid is blocked, the disk 107 is still kept away from the disk seat 105, so that the pressure fluid of the outlet 103 is inlet 101 There was a problem that the reverse flow to the side could not supply the correct flow rate.

That is, the conventional Y-shaped valve as described above has a problem that it is not possible to accurately control the opening and closing operation of the valve can not accurately measure the flow rate.

Accordingly, an object of the present invention is to provide a fluid control valve unit capable of precisely controlling the opening and closing operation of the valve and accurately adjusting the passage flow rate by solving the problems of the fluid control valve as described above.

Fluid control valve unit of the present invention for achieving the above object, the disk is installed in the fluid transfer passage of the valve unit body for opening and closing the fluid transfer passage is connected to the opening and closing control cylinder through the stem, the opening and closing control A piston connected to the stem is embedded in the cylinder, and in the fluid control valve unit in which the piston is elastically supported by a spring, an air chamber is provided between the piston of the cylinder and the cylinder cover, and the compressed air of the air chamber is The pilot valve is connected to control the flow to control the operation of the opening and closing control cylinder.

In addition, the pilot valve is a disk for controlling the flow of compressed air is supported on the stem, the stem is connected to the probe elastically supported by a spring, the diaphragm is in close contact with the tip of the probe is installed diaphragm and A fluid chamber is formed between the stems, and a pressure outlet pipe is connected between the fluid chamber and the fluid outlet of the valve unit.

In the valve unit of the present invention having such a structure, when compressed air flows into the air chamber of the open / close control cylinder through the pilot valve, the piston of the open / close control cylinder is pushed up to open the open / close disk of the valve unit. While supplying a fluid, such as steam, through the air supply, when the supply of fluid is to be cut off, when the flow of compressed air supplied through the pilot valve is blocked, the fluid outlet pressure of the valve unit is increased through the pressure outlet pipe. It is delivered to the fluid chamber to allow the probe of the pilot valve to be lifted up against the force of the spring so that the valve disc remains open for the passage of compressed air and keeps the passage of compressed air open. Is filled in the air chamber of the cylinder By allowing the compressed air is discharged through the pilot valve, the piston of the cylinder as restored by a spring force is dropped to the slide valve element blocks the fluid passage of the valve unit.

Therefore, the valve unit according to the present invention is to control the operation of the valve unit by a separate pilot valve, it is possible to accurately control the flow of the fluid can prevent the problem such as back flow of the fluid .

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail.

1 is a cross-sectional view showing the structure of a valve unit according to the present invention. As shown in the drawing, the present invention provides a fluid transfer passage 7 between an inlet port 3 and an outlet port 5 of the valve unit body 1. A disk 9 for opening and closing the fluid transfer passage 7 is provided therein, and the disk 9 is connected to the opening and closing control cylinder 13 through the stem 11, and to the opening and closing control cylinder 13. A pilot valve 15 for controlling the operation of the cylinder 13 by supplying compressed air is connected, and a pressure relief pipe 17 between the pilot valve 15 and the outlet 5 of the valve unit body 1. This structure is installed.

The opening and closing control cylinder 13 includes a piston 19 connected to the stem 11, and the piston 19 is elastically supported by a spring 21.

In addition, an air chamber 25 is provided between the piston 19 of the cylinder 13 and the cylinder cover 23, and the pilot valve may be connected through a connector 27 formed at one side of the air chamber 25. 15) is connected.

In addition, the pilot valve 15 has a disk 35 for controlling the flow of compressed air in the air passage 33 between the air inlet 29 for introducing compressed air and the air outlet 31 for discharging the air. A stem 37 is connected to the disk 35, and a probe 41 elastically supported by a spring 39 is connected to the stem 37.

A diaphragm 43 is installed in close contact with the tip of the probe 41, and a fluid chamber 45 is formed between the diaphragm 43 and the stem 37. The fluid chamber 45 and the valve unit body are provided. The pressure outlet pipe 17 is connected between the outlets 5 of (1).

The valve unit of the present invention having such a structure is first supplied with a fluid such as steam through the valve unit body 1, the flow of such fluid is to be controlled by a pilot valve 15 for controlling the supply of compressed air It is.

Therefore, when supplying compressed air through the air inlet 29 of the pilot valve 15 in order to supply fluid through the valve unit body 1, the disk 35 is pushed up by the pressure of the air Compressed air is injected into the air chamber 25 of the cylinder 13 through the outlet 31 and the connector 27.

When compressed air is injected into the air chamber 25, the piston 19 of the cylinder 13 is pushed upward while compressing the spring 21, and through the stem 11 to the piston 19. The connected disk 9 is separated from the disk seat 47 to open the transfer passage 7 so that the inlet part 3 and the outlet port 5 can communicate with each other.

When the transfer passage 7 is opened in this way, a fluid such as steam supplied through the inlet 3 is supplied through the outlet 5.

As described above, when the fluid supply such as steam is supplied through the valve unit body 1 or after the supply of the fluid is completed, the air inlet 29 of the pilot valve 15 is closed. When the supply of compressed air is interrupted and the supply of fluid supplied through the inlet 3 of the valve unit body 1 is also stopped, the pressure of the fluid is transmitted to the inlet 3 of the valve unit body 1. Although not in the state, since the pressure of the fluid already supplied to the outlet 5 side flows back in a moment, the pressure of the fluid is exerted.

At this moment, the internal fluid pressure of the outlet 5 is transferred into the fluid chamber 45 of the pilot valve 15 through the pressure outlet pipe 17 connected to the outlet 5.

When the pressure of the fluid is transferred into the fluid chamber 45, the diaphragm 43 is pushed upward, and the probe 41 is lifted upward. As a result, a stem (which is connected to the probe 41 in turn) ( 37) and the disk 35 to be held upward.

That is, even though compressed air is not supplied to the air inlet 29 of the pilot valve 15, the disk 35 of the pilot valve 15 is driven by the pressure transmitted from the outlet 5 of the valve unit body 1. The lifted state is maintained to maintain the air inlet 29 and the air outlet 31 in communication with each other.

As such, when the compressed air is not supplied to the air inlet 29 of the pilot valve 15, the air passage 49 formed by the air inlet 29 and the air outlet 31 communicate with each other is in a communication state. The compressed air injected into the air chamber 25 of the opening / closing control cylinder 13 is discharged through the air passage 49 of the pilot valve 15.

On the other hand, no fluid is supplied to the inlet port 3 of the valve unit body 1, so that the compressed fluid maintains a state in which the force for pushing up the disk 9 is not applied, thereby maintaining the contracted state. As the spring 21 of the opening and closing control cylinder 13 is restored, the piston 19 is pushed down.

As such, when the stem 11 and the disk 9 connected to the piston 19 come down to come into close contact with the disk seat 47, the fluid transfer passage 7 is blocked.

In the above description, the process of sequentially describing the operation of the pilot valve 15, the operation of the opening / closing control cylinder 13, and the movement of the disk 9 of the valve unit body 1 is a little complicated and long time. It feels like it's caught, but in practice this process happens in a matter of seconds because it's reacted by the pressure transfer of air and fluid.

Accordingly, when the supply of the compressed air supplied through the pilot valve 15 is blocked while the supply of the fluid supplied through the valve unit body 1 is stopped, the pressure transfer process as described above is serially performed. As the disc 9 of the valve unit body 1 blocks the transfer passage 7 to precisely control the flow of the fluid, the fluid at the outlet 5 is reversed or the fluid is blocked at the correct time. It can solve various problems caused by not being able to do it.

As described above, the valve unit according to the present invention is to be controlled by the opening and closing control cylinder 13 and the pilot valve 15, the disk is not opened and closed by the pressure of the fluid supplied itself, the pilot Since the valve 15 is configured to be controlled by the pressure transmitted from the outlet 5 of the valve unit body 1, the problem that the fluid passing through the valve unit body 1 flows back may not occur. In addition, by enabling the disk 9 to open and close the transfer passage 7 at an accurate time, it is possible to obtain the effect of accurately controlling the transfer flow rate.

Claims (2)

A disk 9 installed inside the fluid transfer passage 7 of the valve unit body 1 to open and close the fluid transfer passage is connected to the opening and closing control cylinder 13 through the stem 11, and the opening and closing control cylinder 13 In the piston 19 is connected to the stem (11) is built in the fluid control valve unit, the piston 19 is elastically supported by the spring (21), An air chamber 25 is provided between the piston 19 and the cylinder cover 23 of the cylinder 13, and the air chamber 25 controls the flow of compressed air to operate the opening and closing control cylinder 13. Pilot valve 15 for controlling the connection is made, the pilot valve 15 is in the air passage (33) between the air inlet port 29 for introducing the compressed air and the air outlet port 31 for discharging the air. A disk 35 for controlling the flow of compressed air is installed, and a probe 41 elastically supported by a spring 39 is connected to a stem 37 connected to the disk 35, and the probe 41 is connected to the stem 37. A fluid chamber 45 is formed between the diaphragm 43 and the stem 37 provided at the front end of the valve, and pressure is drawn between the fluid chamber 45 and the outlet 5 of the valve unit body 1. Valve unit for fluid control, characterized in that the pipe (17) is connected delete

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