KR20200081618A - Safety on-off valve - Google Patents

Abstract

The present invention relates to a safe opening/closing valve with increased safety against damage to the seal of a valve that opens and closes a flow path in accordance with an operation of an air cylinder. According to the present invention, the safe opening/closing valve comprises: a valve casing having a fluid inlet and a fluid outlet; a shaft which is slidably installed in the valve casing, and opens and closes the fluid inlet by a disk arranged on an end thereof; a seal member arranged on the valve casing between the outer circumferential surface of the shaft and the valve casing to prevent fluid leakage through a sliding surface of the valve casing and the shaft; and an air cylinder to operate the shaft. A fluid discharge port for discharging fluid when the seal member is damaged is formed at a position separated from the seal member towards the air cylinder by a prescribed distance. Accordingly, damage to the seal of the valve that opens and closes a flow path in accordance with an operation of the air cylinder is sensed, and safety against seal damage is increased. In addition, leakage fluid is easily discharged, and the air cylinder is easily assembled and fastened.

Description

Safety on-off valve

The present invention relates to a safety open/close valve, and more particularly, to a safety open/close valve that increases safety due to seal damage of a valve that opens and closes a flow path according to the operation of an air cylinder.

In general, when moving a liquid or gaseous substance, a plurality of pipes are connected and moved into the pipe, and an on-off valve is installed between them as necessary.

The opening/closing valve opens or closes the flow path manually or automatically. When the flow path is automatically opened or closed, the shaft moves as the air cylinder operates to open and close the flow path. An on-off valve for opening and closing a flow path according to the operation of a conventional air cylinder is disclosed in FIG.

As shown in FIG. 1, the conventional on/off valve 10 has a flow path formed with an inlet 11a and an outlet 11b on the valve casing 11, a disc 12 for opening and closing the flow path, and a disc 12 It includes a shaft 13 for operating, a piston 14 for sliding the shaft 13, and a cylinder 15 to which the piston 14 is coupled.

A piston body 16 through which the shaft 13 slides is coupled to the valve casing 11, and a cap 17 for guiding the piston 14 is fixed to the piston body 16 to be connected to the cylinder 15. In addition, the valve casing 11 is provided with a sealing member 20 between the outer circumferential surface of the shaft 13 to prevent leakage of fluid through the sliding surfaces of the shaft 13 and the valve casing 11. In addition, the piston body 16 is provided with an O-ring 21 and a packing member 22 between the shaft 13 so that fluid does not leak toward the air cylinder.

By the way, in the conventional opening/closing valve 10, it is not only possible to detect the damage of the sealing member 20 in advance, but also when there is no passage through which the fluid comes out when the sealing member 20 is damaged, the valve casing 11 ) And the piston body 16 has a problem in that a high-pressure fluid leaks into a gap that is in contact with the operator, and the worker becomes dangerous.

In addition, the O-ring 21 and the packing member 22 provided on the piston body 16 are damaged by the high pressure fluid, and the fluid leaks toward the air cylinder, thereby damaging parts of the valve and making the surrounding workers more dangerous. There was a problem.

The present invention has been made to solve the problems as described above, and an object of the present invention is to provide a safety open/close valve that detects a seal breakage of a valve that opens and closes a flow path according to the operation of an air cylinder, and increases safety due to seal breakage. To have.

The safety opening/closing valve according to the present invention for achieving the above object is provided with a valve casing formed with a fluid inlet and a fluid outlet, a shaft that is slidably installed in the valve casing, and opens and closes the fluid inlet by a disk provided at the end, and a valve casing It is provided between the over-shaft, and includes a seal member to prevent fluid leakage through the sliding surface of the shaft and the valve casing, and an air cylinder to operate the shaft, where the seal member is located at a certain distance from the seal member to the air cylinder side. A fluid outlet is formed through which fluid is drained upon breakage.

The fluid outlet is formed in the piston body seated at the end of the valve casing and guided while the shaft is sliding.

The fluid outlet is communicated to the valve casing through the connection hole, so that the fluid is discharged to the outside.

A circumferential concave band groove is formed on the inner circumferential surface of the piston body in which the shaft slides, through which fluid is easily discharged.

The piston body is provided with an auxiliary sealing member that prevents fluid from leaking toward the piston through the shaft and the sliding surface of the piston body.

According to the safety opening/closing valve according to the present invention, the seal breakage of the valve that opens and closes the flow path is sensed according to the operation of the air cylinder, while increasing the safety due to the seal breakage, and the leakage fluid is easily released.

1 is a cross-sectional configuration diagram showing a conventional on-off valve.
Figure 2 is a cross-sectional configuration diagram showing a safety switch valve according to an embodiment of the present invention.
Figure 3 is a state diagram of the operation of the safety switch valve according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in this case, in the accompanying drawings, the same components are denoted by the same reference numerals as possible. In addition, detailed descriptions of well-known functions and configurations that may obscure the subject matter of the present invention will be omitted. For the same reason, some components in the accompanying drawings are exaggerated, omitted, or schematically illustrated.

Figure 2 is a cross-sectional configuration diagram showing a safety switch valve according to an embodiment of the present invention. As shown, the safety open/close valve 100 according to an embodiment of the present invention includes a valve casing 110, a disk 120, a shaft 130, a sealing member 140, and an air cylinder 150. Includes.

In the valve casing 110, a fluid inlet F1 is formed collinear with the shaft 130, and a fluid outlet F2 is formed in a direction perpendicular to the fluid inlet F1. A disk action space S is formed inside the valve casing 110. In the disk working space S, a nozzle member 111 forming a valve seat surface in which the disk 120 closely contacts and closes the flow path is provided inside the guide member 112, and the guide member 112 is a pusher 113. It is locked to the body of the valve casing 110 by the mill lock nut 114. The fluid inlet F1 is provided with an inlet pipe connector PT1 that is coupled while pushing the nozzle member 111.

In addition, an adapter 115 enclosing the disk 120 is inserted into the disk working space S to be pushed by the guide member 112. The adapter 115 has a cylindrical shape, and a plurality of through holes 115a are formed on the fluid outlet F2 side. The outlet port connector (not shown) is assembled to the fluid outlet port F2.

The disk 120 is a member that opens and closes the flow path while being seated on the valve seat surface of the nozzle member 111, and is fitted with the ball 121 at the end of the shaft 130, while moving according to the operation of the shaft 130. Opens and closes.

The shaft 130 is slidably installed in the valve casing 110 and operated by the air cylinder 150 to open and close the fluid inlet by a disk 120 provided at the end. The shaft 130 is operated while sliding inside the valve casing 110 and the piston body described later.

The sealing member 140 is provided between the sliding hole of the valve casing 110 and the outer circumferential surface of the shaft 130 to prevent leakage of fluid through the sliding surface of the shaft 130 and the valve casing 110. .

The air cylinder 150 is a part that operates the shaft 130, the piston body 151, the cap 152, the piston 153, the cylinder body 154, the cylinder plate 155, and the auxiliary It is provided with a sealing member (156).

The piston body 151 is assembled in close contact with the valve casing 110, and the shaft 130 is slid therein. The piston body 151 is provided with an auxiliary sealing member 156 that prevents fluid from leaking toward the piston 153 through the shaft 130 and the sliding surfaces of the piston body 151. In this embodiment, the auxiliary seal member 156 is installed with two spaced apart, such as an O-ring and a packing member. The piston body 151 facilitates assembly and fastening of the air cylinder, and prevents damage to parts of the air cylinder due to leakage fluid by the auxiliary sealing member 156 coupled thereto.

The cap 152 is fastened to the piston body 151 by a fastening member, and a space in which the piston 153 operates is formed therein. The piston 153 is coupled to protrude from the cylinder body 154 to operate the shaft 130. The cylinder body 154 is closed by a cylinder plate 155. The air cylinder 150 may be implemented in various forms in a general structure.

On the other hand, at a certain distance from the seal member 140 to the air cylinder 150 side, a fluid outlet (H1) through which fluid is drained when the seal member 140 is damaged is formed. The fluid outlet (H1) is seated at the end of the valve casing 110 and is formed on the piston body 151 that is guided while the shaft 130 is sliding. In this embodiment, the fluid outlet (H1) is formed on the piston body 151, but may also be formed on the valve casing (110).

The fluid outlet (H1) is communicated to the conduit of the valve casing 110 through the connection hole (H2), so that the fluid is discharged to the outside. A discharge pipe connector PT2 is coupled to a pipe of the valve casing 110. The discharge pipe is coupled to the discharge pipe connector (PT2), and the leakage fluid is safely discharged. In addition, a circumferential concave band groove (H3) is formed on the inner circumferential surface of the piston body (151) where the shaft (130) slides through the fluid outlet (H1).

On the other hand, the nozzle member 111, the guide member 112, the piston body 151 of the contact portion or sliding portion is provided with an O-ring to prevent fluid leakage.

2 and 3 in the safety switch valve 100 according to the present invention configured as described above, the fluid flows in the direction of the arrow A and flows out in the direction of the arrow B, and the air cylinder 150 operates to operate the piston When the disk 120 blocks the seat surface of the nozzle member 111 because the shaft 153 pushes the shaft 130, the flow path is closed, and when the piston 153 retreats, the disk 120 according to the pressure of the introduced fluid. (A) The flow path is opened away from the seat surface of the nozzle member (111).

When the seal member 140 is damaged by the pressure of the fluid applied in the working space S while the valve is in operation, the fluid leaking along the outer circumferential surface of the shaft 130 flows out of the fluid outlet (H1) in the circumferential recessed band groove (H3). ), and then easily discharged in the direction of the arrow C through the connection hole (H2) to lead to a safe place.

Therefore, it is possible to take necessary measures because it prevents the operator's damage due to the high-pressure leakage fluid and, accordingly, detects the leakage of the fluid.

On the other hand, the embodiments of the present invention disclosed in the specification and drawings are merely intended to provide a specific example to facilitate the understanding of the present invention and to easily describe the technical contents of the present invention, and are not intended to limit the scope of the present invention. It is apparent to those skilled in the art to which the present invention pertains that other modifications based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

100: safety switch valve
110: valve casing 111: nozzle member
112: guide member 113: pusher
114: lock nut 115: adapter
120: disc 130: shaft
140: seal member 150: air cylinder
151: piston body 152: cap
153: piston 154: cylinder body
155: cylinder plate 156: auxiliary seal member
H1: Fluid outlet H2: Connecting hole
H3: Circumferential recessed groove F1: Fluid inlet
F2: Fluid outlet PT1: Inlet pipe connector
PT2: Outlet pipe connector S: Disc working space

Claims (5)

A valve casing having a fluid inlet and a fluid outlet,
A shaft which is slidably installed in the valve casing and opens and closes the fluid inlet by a disc provided at the end,
A sealing member provided between the valve casing and the shaft to prevent leakage of fluid through the sliding surface of the shaft and the valve casing;
It includes an air cylinder for operating the shaft,
A safety opening/closing valve, characterized in that a fluid discharge port is formed in which a fluid is discharged when the seal member is damaged at a predetermined distance from the seal member to the air cylinder. According to claim 1,
The fluid outlet is seated at the end of the valve casing, the safety opening and closing valve, characterized in that formed on the piston body is guided while the shaft is sliding. According to claim 2,
The fluid outlet is connected to the valve casing through a connection hole, the safety switch valve, characterized in that the fluid is discharged to the outside. According to claim 1,
A safety opening/closing valve characterized in that a circumferential concave band groove through which fluid is easily discharged from the fluid outlet is formed on an inner circumferential surface of the piston body in which the shaft slides. According to claim 1,
The piston body is provided with an auxiliary sealing member to prevent leakage of fluid to the piston side through the sliding surface of the shaft and the piston body safety opening and closing valve.

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