KR102570001B1 - Pressurazation type of preaction and deluge valve which could reduce installation space dramatically - Google Patents

Abstract

A pressurized preaction and simultaneous opening valve is initiated. In the pressurized preaction and simultaneous opening valve according to the present invention, when the width direction of the road or tunnel on which the valve is to be installed is referred to as the left-right direction and the direction of movement of the vehicle or person is referred to as the front-back direction, the inlet 200 on the lower side and the upper side The valve body 20 in which the water outlet 202 is disposed in the vertical direction and the chamber 204 is formed between the water inlet 200 and the water outlet 202, and one side formed inside the valve body 20 After extending 220 downward by a certain length from the outlet 202 on the upper side toward the chamber 204, it is bent forward 222, and the bent end is open to pass water with the outlet 202, and the edge In the discharge pipe 22 provided with a valve seat 224 of a first diameter, and an angle exceeding the angle at which the discharge pipe 22 can pass through so that the discharge pipe 22 can be assembled and wrapped around the discharge pipe 22, but less than 180 degrees. A valve 24 comprising a fitting head 243, a sealing head 247, a coupling rod 244, a support 248, and a valve opening/closing operation rod 249 in which an incision 240 cut by the amount is formed. ), and a cylinder 250 and a piston 252 fitted into the cylinder 250, one side of which the valve opening and closing operation rod 249 is coupled, and the other side of which forms a pressurized chamber 254, and an inlet hole A valve opening/closing part 25 for moving the valve 24 forward or backward according to the difference between the pressure of the water filled in the pressure chamber 254 through the 256 and the elastic supporting force of the spring 260, and the sealing head ( 247) is supported by the primary side water pressure and the spring 260 so that the discharge pipe 22 remains blocked, and when a fire occurs and the primary side pressurized water flows into the inlet hole 256, the valve 24 is driven forward. Characterized in that it is converted to an open state.
The pressurized preaction and simultaneous opening valves according to the present invention are pressurized valves that do not require setting pipes, so installation is simple, and the primary inlet and secondary outlet pipes are installed in the vertical direction, and the valve opening and closing parts for valve opening and closing operations are installed in the forward and backward directions. Since it does not protrude in the left-right direction, which is the direction of road width, it is optimized for places with many restrictions on installation space, such as tunnels, and has the effect of distributing and using the installation space very efficiently. In addition, since the diaphragm type is excluded even though it is based on the pressurized type, there is an effect of excellent durability.

Description

Pressurization type of preaction and deluge valve which could reduce installation space dramatically}

The present invention relates to a pressurized valve, and more particularly, as a pressurized preaction and simultaneous opening valve that maintains a sealed state by the primary water pressure in the installation stage and opens the valve by pressurizing the same primary water pressure in the event of a fire. It is about pressurized preaction and simultaneous opening valves that can drastically reduce the installation space and efficiently use the installation space by being optimized for places where there are many restrictions on installation space, such as

A deluge valve is a valve used in a deluge system among sprinkler fire extinguishing facilities, and is used to temporarily supply a large amount of water to a sprinkler head when a fire is detected. The simultaneous opening valve, which is currently widely used in fire extinguishing devices, has been raised as a disadvantage in that its structure is complicated and that there is a large pressure loss due to a large change in water flow due to a large change in the flow path of the water at the inlet side.

In addition, the conventional simultaneous opening valve opens the valve by pressurizing the diaphragm in the event of a fire, and since there is a pillar around the valve, it causes a huge pressure loss, and for smooth discharge of fire water, for example, a diaphragm with a thickness of 20 mm The overall size of the valve is increased to about 800 mm, and as a result, the metal body is increased, so that the price is expensive by several thousand dollars.

Another conventional simultaneous opening valve to solve this problem is disclosed in Republic of Korea Patent Registration No. 10-1990213 published on June 17, 2019. 1 shows the structure of a conventional simultaneous opening valve made of a diaphragm method as the registered patent. Referring to FIG. In order to minimize, a valve having a first valve 10A having an inlet and a second valve 10B having an outlet and combining with the first valve to form a predetermined space therein ( 10) and a diaphragm 16 interposed between the first valve 10A and the second valve 10B to divide the inside of the valve into a water inlet space 13 and a control chamber 14, An opening/closing disc 12 for opening and closing the inlet inside the valve 10, an interlocking means for interlocking the opening/closing disc 12 and the diaphragm, and installed inside the second valve 10B, The control chamber forming member 18 that forms the control chamber 14 between the fram and 16 and forms the guide portion 19 connected to the outlet between the second valve 10B and the valve ( It consists of an external passage connecting the inlet and outlet from the outside of 10), and a branch passage connecting the external passage to the control chamber, and water is supplied through the branch passage of the external passage, so that the inside of the control chamber 14 If the force of the water pushing the interlocking means is greater than the force acting on the opening/closing disk 12 at the inlet, it becomes a closed state in which water does not enter through the inlet, and when water flows through the external passage to the outlet, water flows in from the inlet. Water introduced into the space is opened so that water can flow from the outside of the diaphragm through the guide to the outlet.

Thus, if the force of the water inside the control chamber acting on the interlocking means is greater than the force acting on the disc at the inlet, if water is supplied only to the branch valve side, it will be in a closed state, and if water flows from the external passage to the outlet, then the water will flow from the inlet. The water introduced into the inlet space is opened so that water can flow from the outside of the diaphragm through the guide part to the outlet, so that a large amount of water can be temporarily supplied.

According to the present invention having the configuration as described above, while basically configuring a simultaneous opening valve, the overall internal configuration can be expected to have a simple advantage. For example, since the control chamber is made inside the valve, it is possible to achieve a compact external configuration, and by configuring the external passage separately from the valve body, various design modifications and pressure loss prevention can be expected. make it possible

However, such a conventional simultaneous opening valve still applies a diaphragm, and since the diaphragm is made of rubber material, it is changed in contact with oxygen when it is in water for a long time, and durability is not sufficient, so it must be replaced every 5 years. There is a problem that requires .

On the other hand, the simultaneous opening valve can be divided into a pressure opening method and a reduced pressure opening method. In the pressurized opening type simultaneous opening valve, the primary side of the valve is filled with pressurized water, and an electronic opening valve or manual opening valve is installed on the pipe to detect a fire detector and open the solenoid valve or manual opening valve. By pushing up the piston connected to one side, the valve is opened and pressurized water is discharged to the head. In the pressure-reducing opening type simultaneous opening valve, the primary side of the valve is filled with pressurized water and is an electronic opening valve or a manual opening valve installed on the bypass pipe. is opened and the pressure is reduced, the cylinder is opened and the valve is opened, and the pressurized water is discharged to the head.

The reduced pressure opening method requires a setting piping called bypass piping, so the piping is somewhat complicated and there is a risk of freezing or bursting. There is a problem with increasing the size. That is, since the conventional simultaneous opening valve shown in FIG. 1 is still made of a diaphragm type, the overall valve size is increased and durability is also problematic.

The present invention was developed to solve the above problems, and the technical problem to be achieved by the present invention is to operate in a pressurized method that does not require a setting pipe, but is optimized for places with many restrictions on installation space, such as tunnels, so that the installation space can be reduced very efficiently. In addition, by applying a piston method instead of a diaphragm method, the valve is kept closed by spring force and primary water pressure, and when a fire is detected, the valve is opened by the force of the opening piston. It is to provide pressurized preaction and simultaneous opening valves that can minimize loss, greatly reduce valve size, significantly reduce pressure loss, have low manufacturing cost, and excellent durability.

The pressurized preaction and simultaneous opening valves according to the present invention for achieving the above object,

When the width direction of the road or tunnel on which the valve is to be installed is referred to as the left-right direction, and the direction of movement of the vehicle or person is referred to as the front-back direction,

A valve body 20 in which the inlet 200 on the lower side and the outlet 202 on the upper side are disposed in the vertical direction and a chamber 204 is formed between the inlet 200 and the outlet 202;

It is formed inside the valve body 20, and one side extends 220 downward by a certain length from the water outlet 202 on the upper side toward the chamber 204, and then bends forward 222, and the bent end is a discharge pipe 22 open to pass the outlet water 200 and having a valve seat 224 having a first diameter at an edge thereof;

An incision 240 cut by an angle exceeding the angle through which the discharge pipe 22 can pass but less than 180 degrees is formed so that the discharge pipe 22 can be assembled and installed while surrounding the discharge pipe 22, and a female thread 242 is formed inside the body. The fitting head 243 is formed, and a male screw thread 246 meshing with the female screw thread 242 of the fitting head 243 is formed on the outer surface of the cylindrical body, and the bottom surface of the cylindrical body is formed with the valve seat 224 The sealing head 247 seated on the closure head 247, the coupling rod portion 244 extending at least by a length exceeding the valve opening/closing operation distance in the rear direction from the rim of the fitting head 243, and the coupling rod portion 244 A support part 248 supporting the lower end, and one end coupled to the support part 248 in the chamber 204 and the other end coupled with the piston 252 outside the chamber 204 to operate in the forward and backward directions. ) is provided with a valve 24; and

It is inserted into the cylinder 250 and the cylinder 250, and the valve opening and closing operation rod 249 is coupled to one side, and the other side is composed of a piston 252 forming a pressurized chamber 254, and an inlet hole 255 A valve opening/closing unit 25 that moves the valve 24 forward or backward according to the difference between the pressure of the water filled in the pressure chamber 254 and the elastic support force of the spring 260 through

The sealing head 247 is elastically supported by the primary side water pressure and the spring 260 so that the discharge pipe 22 remains blocked, and when a fire occurs and the primary side pressurized water flows into the inlet 256, the valve 24 opens. It is characterized in that it is driven forward and converted to an open state.

Also, the diameter of the piston 252 preferably has a second diameter exceeding the first diameter.

The pressurized preaction and simultaneous opening valves according to the present invention are pressurized valves that do not require a setting pipe, so installation is simple, and the primary inlet and secondary outlet pipes are installed in the vertical direction, and the valve opening and closing parts for valve opening and closing are installed in the forward and backward directions. Since it does not protrude in the left-right direction, which is the direction of road width, it is optimized for places with many restrictions on installation space, such as tunnels, and has the effect of distributing and using the installation space very efficiently. In addition, since the diaphragm type is excluded even though it is based on the pressurized type, durability is also excellent.

1 is a view showing the structure of a conventional simultaneous opening valve made of a diaphragm method;
2 is a cross-sectional view for explaining the structure of a pressurized preaction and simultaneous opening valve according to the present invention and a closed state of the valve;
3 is a cross-sectional view for explaining the structure of a pressurized preaction and simultaneous opening valve according to the present invention and an open state of the valve;
FIG. 4 is a partial cutaway perspective view for explaining a process of assembling and installing the pressurized preaction and simultaneous opening valves of FIGS. 2 and 3; and
5 is a perspective view illustrating the effect of the pressurized preaction and simultaneous opening valves according to the present invention.

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

1 shows a cross-sectional view for explaining the structure of a pressurized preaction and simultaneous opening valve according to the present invention and a valve closed state, and FIG. 2 shows a structure of a pressurized preaction and simultaneous opening valve according to the present invention and a valve open state A cross-sectional view for explaining is shown.

1 and 2, in the pressurized preaction and simultaneous opening valves according to the present invention, when the width direction of the road or tunnel on which the valve is to be installed is referred to as the left-right direction and the direction of movement of the vehicle or person is referred to as the front-back direction, the lower A valve body 20 in which an inlet port 200 on the side and an outlet port 202 on the upper side are disposed in the vertical direction and a chamber 204 is formed between the inlet port 200 and the outlet port 202 is provided.

Inside the valve body 20, one side extends 220 downward by a certain length from the outlet port 202 on the upper side toward the chamber 204, and then bends forward 222, and the bent end is the outlet water A discharge pipe 22 is formed so as to pass water with the 200 and is provided with a valve seat 224 having a first diameter at an edge thereof.

In addition, the pressurized preaction and simultaneous opening valves cover the discharge pipe 22 and have an incision 240 cut by an angle exceeding the angle at which the discharge pipe 22 can pass but less than 180 degrees so that the discharge pipe 22 can be assembled and installed. is formed, and a fitting head 243 having a female screw thread 242 is formed on the inside of the body, and a male screw thread 246 meshing with the female screw thread 242 of the fitting head 243 is formed on the outer surface of the cylindrical body. The lower surface of the cylindrical body is a sealing head 247 seated on the valve seat 224 and a coupling rod portion extending at least by a length exceeding the valve opening/closing operation distance in the rear direction from the rim of the fitting head 243 ( 244), the support portion 248 for supporting the lower end of the coupling rod portion 244, and one end coupled to the support portion 248 in the chamber 204 and the other end coupled to the piston 252 outside the chamber 204 It is provided with a valve 24 comprising a valve opening/closing operating rod 249 operated in the forward and backward directions.

The valve 24 is opened and closed by the valve opening and closing part 25, the valve opening and closing part 25 is inserted into the cylinder 250 and the cylinder 250, and the valve opening and closing operation rod 249 is coupled to one side and the other side. The valve ( The valve 24 is opened and closed by moving 24 forward or backward.

The sealing head 247 is elastically supported by the spring 260 so that the discharge pipe 22 remains blocked, and when a fire occurs and the primary pressurized water flows into the inlet hole 256, as shown in FIG. 2, the valve ( 24) is driven forward and converted to the open state.

Although not shown in the drawings, when the fire state is released, the primary side water pressure flowing into the inlet hole 256 is blocked and the water in the pressurized chamber 254 is discharged through an outlet hole (not shown) so that the valve 24 is switched to a closed state. do.

FIG. 3 is a partially cut-away perspective view illustrating a process of assembling and installing the pressurized preaction and simultaneous opening valves of FIGS. 1 and 2 . Referring to FIG. 3, the valve 24 surrounds the discharge pipe 22 and has a cutout 240 cut at an angle exceeding the angle through which the discharge pipe 22 can pass so that it can be assembled and installed, and inside the body It comprises a fitting head 243 in which the female thread 242 is formed. The cutout 240 will have to be less than 180 degrees to remain engaged.

The female thread 242 of the fitting head 243 is engaged with the male thread 246 of the sealing head 247 and assembled. Thus, the fitting head 243 is fitted into the sealing head 247 .

In the pressurized preaction and simultaneous opening valves according to the present invention installed as described above, the inlet 200 and the outlet 202 are in the vertical direction, that is, in the height direction of the tunnel, and the longitudinal direction for the operation of the valve 24 is the front and rear directions, That is, it is parallel to the traveling direction of the vehicle in the tunnel. Therefore, it is noteworthy that protrusion in the width direction of the tunnel is minimized.

4 is a perspective view for explaining the effect of the pressurized preaction and simultaneous opening valves according to the present invention. Referring to FIG. 5, in the pressurized valve according to the present invention, the sealing head 247 is supported by the primary side water pressure and the spring 260 without using a diaphragm, so that the discharge pipe 22 remains blocked, and a fire occurs. When the primary side pressurized water flows into the inlet hole 256, the valve 24 is driven forward and switched to an open state. That is, it is noteworthy that a diaphragm is adopted, unlike conventional pressurized valves, even though the valve is kept closed in normal times and the valve is opened in a pressurized manner in the event of a fire.

In addition, since the pressurized preaction and simultaneous opening valves according to the present invention are pressurized valves that do not require a setting pipe, installation is simple, and the primary inlet and secondary outlet pipes are installed in the vertical direction, and the valve opening and closing parts for valve opening and closing are in the road direction. When installed in the corresponding forward and backward direction, since the valve does not operate in the left and right direction, which is the road width direction, it is possible to install it without protruding at all in the left and right direction, so it is optimized for places with many installation space restrictions, such as tunnels, to save installation space. It has the effect of being able to distribute and use it very efficiently.

That is, the valve according to the present invention can significantly reduce the size, efficiently use the installation space, and greatly improve durability compared to conventional pressure-actuated valves because it does not use a rubber diaphragm.

20: valve body
200: inlet 202: outlet
204: chamber
22: discharge pipe
220: extension 222: bending
224: valve seat
24: valve
240: incision 242: female thread
243: fitting head 244: coupling rod
246: Male thread 247: Sealing head
248: support 249: valve opening and closing operation rod
25: valve opening and closing part
250: cylinder 252: piston
254: pressurized chamber 256: inlet hole
260: spring

Claims (2)

In the pressurized preaction and simultaneous opening valves,
When the width direction of the road or tunnel on which the valve is to be installed is referred to as the left-right direction, and the direction of movement of the vehicle or person is referred to as the front-back direction,
A valve body 20 in which the inlet 200 on the lower side and the outlet 202 on the upper side are disposed in the vertical direction and a chamber 204 is formed between the inlet 200 and the outlet 202;
It is formed inside the valve body 20, and one side extends 220 downward by a certain length from the water outlet 202 on the upper side toward the chamber 204, and then bends forward 222, and the bent end is a discharge pipe 22 open to the water outlet 202 and having a valve seat 224 having a first diameter at an edge thereof;
An incision 240 cut by an angle exceeding the angle through which the discharge pipe 22 can pass but less than 180 degrees is formed so that the discharge pipe 22 can be assembled and installed while surrounding the discharge pipe 22, and a female thread 242 is formed inside the body. The fitting head 243 is formed, and a male screw thread 246 meshing with the female screw thread 242 of the fitting head 243 is formed on the outer surface of the cylindrical body, and the bottom surface of the cylindrical body is formed with the valve seat 224 The sealing head 247 seated on the closure head 247, the coupling rod portion 244 extending at least by a length exceeding the valve opening/closing operation distance in the rear direction from the rim of the fitting head 243, and the coupling rod portion 244 A support part 248 supporting the lower end, and one end coupled to the support part 248 in the chamber 204 and the other end coupled with the piston 252 outside the chamber 204 to operate in the forward and backward directions. ) is provided with a valve 24; and
It is inserted into the cylinder 250 and the cylinder 250, and the valve opening and closing operation rod 249 is coupled to one side, and the other side is composed of a piston 252 forming a pressurized chamber 254, and an inlet hole 255 A valve opening/closing unit 25 that moves the valve 24 forward or backward according to the difference between the pressure of the water filled in the pressure chamber 254 and the elastic support force of the spring 260 through
The sealing head 247 is elastically supported by the primary side water pressure and the spring 260 so that the discharge pipe 22 remains blocked, and when a fire occurs and the primary side pressurized water flows into the inlet hole 256, the valve 24 A pressurized preaction and simultaneous opening valve, characterized in that is driven forward and converted to an open state. 2. The pressurized preaction and simultaneous opening valve according to claim 1, characterized in that the diameter of the piston (252) is a second diameter that exceeds the first diameter.

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