KR101036141B1 - automatic shutting valve for leakage prevention of water, gas, oil in the pipe - Google Patents

Abstract

The present invention relates to a shut-off valve that automatically detects leaks and breakage in the pipeline, more specifically, water, gas, oil, etc. is damaged by the disaster such as excavation work or earthquake, water, gas, oil, etc. The present invention relates to a device which can be cut off by a mechanical device rather than a conventional electrical or electronic device when there is a rapid decrease in flow rate and flow rate. In particular, this device is a disaster prevention device that immediately shuts down the pipeline immediately after an accident, even before the user controls it by conventional electrical or manual operation in case of danger (ie, before an administrator recognizes an accident). will be.

The auto shut-off device according to the present invention used a pressure cylinder method rather than the conventional diaphragm method, and when the oil, gas, etc. leak due to the breakage of the pipe, it blocks the pipe primarily by the force of the spring, and secondly in the pressure pipe. The present invention relates to a device that enables a faster and more reliable shut-off of a pipeline by applying a greater force with a spring due to oil, gas, etc. introduced.

Automotive shut-off valve, pressure cylinder, pressure line, emergency pin, pressure spring

Description

   Automatic shutoff valve for leakage prevention of water, gas, oil in the pipe}

1 is a perspective view showing the overall appearance of a shut-off valve according to the present invention.

Figure 2 is a front sectional view showing the internal appearance of the shut-off valve.

Figure 3 is a front sectional view showing a state in which the pressure plate is lowered by the spring operation of the shut-off valve

Figure 4 is a front sectional view showing a state that the pressure plate is the final lowering operation of the shut-off valve.

Figure 5 is a front sectional view showing the operation to restore the original state after the operation of the shut-off valve

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

1: pipeline 2: Hurenji

10: pressure chamber case 11: upper pressure chamber

12: Lower pressure chamber 13: Emergency pin

14: Emergency fin tube 15: Support spring

16: spring 17: spring tube                 

18: pressure plate 19: sealing

20: oil storage jaw 30: drain

31: Drain cover 32: Main shaft

32a: Pressure handle 33: Safety cutoff clip

34: lock valve gate 35: round hole

40: upper pressure line 41: lower pressure line

42: upper pressure gauge 43: lower pressure gauge

44: intermediate valve

The present invention relates to a shut-off valve that automatically detects leaks and breakage in the pipeline, more specifically, water, gas, oil, etc. are leaked due to breakage of the water pipe, gas pipe or oil pipe resulting in rapid flow rate and flow rate If there is a reduction, it relates to a device which can be shut off by a mechanical device rather than an electrical or electronic device.

In general, there are mechanical devices and electronic devices with respect to a device which shuts off during abnormal discharge of gas, oil, and the like. In the case of electronic devices, it is faster than mechanical and easy to operate by users.However, if there is an accident in the wiring system due to a big disaster such as an earthquake or power failure, the operation is not performed properly, and the electricity must be supplied at all times. There are many disadvantages.

Mechanically blocking the gas, oil, etc. are as follows.

There is a Korean Utility Model Publication No. 1983-0002224, `` Low Pressure Gas Leakage Breaker '' regarding the automatic shutoff of gas flow by monitoring the decrease in gas pressure when the gas leaks using a diaphragm.

However, such a conventional device is difficult to use for high pressure water pipes or gas delivery pipes by using a diaphragm utilizing the flexibility of the iron plate. In addition, the diaphragm occupies a lot of space compared to the present invention, which makes it difficult to secure the space, thereby causing excessive manpower and cost.

In addition, by using only the spring as a pressure control device there is a disadvantage that the rust occurs in the spring when used for a long time, so that the operation is not made at the pressure adjusted first, gas, oil, etc. are not properly blocked.

The present invention has been proposed in order to solve the problems posed in the conventional shut-off valve device as described above.                         

First, an object of the present invention is to provide an auto shut off valve that can operate in a high pressure and a large capacity pipeline using a pressure cylinder method.

In addition, an object of the present invention to achieve a perfect control by applying a pressure up to several times the existing pressure secondly apart from the primary blocking device by the spring using the upper pressure pipeline.

In order to achieve the above object, the shut-off valve device according to the present invention, when the pressure of the fluid passing through the pipe falls due to breakage of the pipe, the locking device is operated by a spring in the pressure chamber attached to the pipe separately An shut-off valve for blocking the flow of the fluid, the pressure chamber is divided into upper and lower by the pressure plate having a pressure chamber having an upper pressure chamber and a lower pressure chamber; An upper pressurizing pipe line separated from the pipe to move some fluid to the upper pressure chamber; A lower pressurizing pipe line separated from the pipe to move some fluid to the lower pressure chamber; A main shaft having a pressure plate in the middle while penetrating the pressure chamber, and a lower part of the main shaft having a valve gate configured to pass and block the flow of fluid in the conduit as it moves up and down; It is attached to the pressure plate in the upper pressure chamber, and consists of an emergency pin for passing and blocking the flow of the fluid to the upper pressure pipe in accordance with the vertical movement of the pressure plate.

Hereinafter, with reference to the accompanying drawings to be described in detail with respect to the configuration of the shut-off valve device according to the present invention.

1 is a perspective view of the present invention to block the flow of the fluid by operating the shut-off valve when the fluid flowing in the pipe (1) changes pressure due to leakage, etc. The present invention is a pressure sensing device in the pipe (1) The phosphorus pressure chamber was connected to the pipe line 1 and the flange 2, and an upper pressure pipe line for moving some fluid to the upper pressure chamber 11 separately from the pipe line 1 at an input portion of the fluid that is the front part of the pressure chamber ( 40), a lower pressurizing pipe line 41 is formed at the discharge portion of the fluid, which is a rear part of the pressure chamber, to move some fluid to the lower pressure chamber 12, separately from the conduit 1. In this case, the upper pressurizing pipe line 40 is provided with an intermediate valve 44 that can open and close the inside. Although not shown in the drawing, the lower pressurizing pipe line 41 may be attached to the intermediate valve to provide convenience in operation.

In addition, a pressure handle 32a having a handle is attached to the upper end of the main shaft 32 at the upper portion of the pressure chamber, and the main shaft 32 penetrates through the center of the pressure chamber and has a lock valve in the conduit 1. 34) It is connected to the gate.

Fig. 2 shows a front sectional view of the apparatus, which shows a case where a fluid flows while maintaining a constant pressure in a pipeline 1 normally.

The shut-off valve is a pressure chamber for detecting the pressure drop of the fluid and the pressure pipe (40) 41 for moving some fluid from the pressure chamber (1) to the pressure chamber, the spring 16 and the pressure plate in the center while passing through the pressure chamber 18 is provided, and the lower part consists of the main shaft 32 which attaches the lock valve 34. As shown in FIG. The spring is wrapped by a tube made of vinyl, wherein the material of the tube may be any material capable of maintaining airtightness other than vinyl.

The pressure chamber is divided by the pressure plate 18 and the upper portion of the pressure plate 18 is referred to as the upper pressure chamber 11 and the lower portion of the pressure plate 18 is referred to as the lower pressure chamber 12. At this time, the upper pressure chamber 11 is fitted to the main shaft 32 in the center and has a spring 16 located in the longitudinal direction between the pressure plate 18 and the upper case of the upper pressure chamber 11, The emergency pin 13 is fixed to the upper side of the pressure plate 18 to open and close the flow of the fluid in the upper pressure line 40.

The pressure plate 18 has a circular cross section equal to the flat section of the pressure chamber, and the outer diameter of the pressure plate 18 is configured to be sealed to each other in the upper and lower portions in accordance with the inner diameter of the pressure chamber. In addition, as the contact portion between the pressure plate 18 and the pressure chamber, the outer diameter portion of the pressure plate 18 is provided with a sealing 19 means that can be completely sealed.

The emergency pin 13 has an upper portion of an arrowhead or a circular dome shape so that it can be easily fitted into the upper pressurizing pipe line 40, and the lower portion has a rod shape having a uniform width. However, the shape of the upper part of the emergency pin is not limited to that described above, and may be anything that is intended to maintain airtightness by partially modifying the shape.

The upper part of the emergency pin 13 and abutting the upper pressure line 40 is attached to the rubber, metal, silicon, aluminum and other materials that can improve the airtightness, the periphery of the emergency pin 13 is a tube (14) Wrapped in). In addition, a support spring is disposed below the emergency pin, and the support spring 15 has a size such that the emergency pin 13 is not separated from the upper pressure line due to the small movement.

The tube 14 of the emergency pin 13 generally selects a material that is easily torn in the longitudinal direction (longitudinal direction) of the emergency pin 13 but is not easily torn in the horizontal direction, and improves the strength in the horizontal direction. For this purpose, it is also preferable to install a thin metal ring in the transverse direction.

In addition, an upper portion of the pressure chamber case 10 of the upper pressure chamber 11 has a hole formed with a projection to the outside, and a plug for blocking the hole is fitted with the projection-shaped drain 30.

The bottom of the lower pressure chamber 12 was provided with a rectangular projection oil storage jaw 20, the height of the oil storage jaw 20 is to prevent the complete lock. In addition, the case of the lower pressure chamber 12 of the lower pressure chamber 12 has a connection passage connected to the lower pressure line 41.

The lower part of the pressure chamber is provided with a device for opening and closing the fluid in the conduit (1) as follows.

The opening and closing device has a circular hole 35 through which the fluid passes, and has a lock valve 34 gate as a device capable of blocking the circular hole 35.                     

The lock valve 34 gate is attached to the lower end of the main shaft 32, and is configured to be completely sealed in close contact with the circular hole 35 in the shape of a circular plate.

In addition, the upper part of the pressure chamber case 10, which is in contact with the main shaft 32 is provided with a triangular fixing rod that is supported by a spring and can move forward and backward, and the main shaft 32 is There is a triangular groove to which the clamp can be engaged. When the main shaft 32 is moved to the bottom, the triangular grooves are in a position where the triangular fixing rods can move forward to be coupled to each other.

The operation of the present invention as described above is as follows.

2 is a view showing a case in which the fluid in the conduit 1 flows in a steady state without damage to the conduit 1, and FIG. 3 is a case in which the pressure in the lower pressure chamber 12 drops due to damage in the conduit 1. It is a diagram in which the pressure valve according to the present invention is operating.

4 is a view showing a case in which the flow of the fluid in the conduit 1 is completely blocked because the pressure valve according to FIG. 3 is fully actuated, and FIG. 5 is an upper part to recover the original condition when the damaged conduit 1 is repaired. The figure which shows that gas, oil, and water in the pressure chamber 11 are taken out.

As shown in FIG. 2, the fluid in the conduit 1 flows into the conduit 1 at a constant pressure, and some of the fluid flows into the lower pressure chamber 12 through the lower pressure conduit 41. However, once the introduced fluid is filled in the lower pressure chamber 12, it is no longer introduced and only the pressure of the fluid is transmitted to the pressure plate 18.

The transmitted pressure of the lower pressure chamber 12 is in constant balance with the pressure of the fluid in the spring 16 and the upper pressure line 40 of the pressure chamber case 10, the pressure plate 18 is a constant position To keep it. In addition, the force of the fluid in the lower pressure chamber 12 is greater than the pressure of the fluid in the spring 16 and the upper pressurizing passage 40 of the upper pressure chamber 11, according to the change in the pressure in the general conduit 1 The pressure plate 18 does not move up and down.

However, if the emergency pin 13 blocking the upper pressure line 40 by the small amount of vibration or shaking in the device is moved, the fluid may accidentally flow down and the pipe may be closed even though there is no breakage of the pipe 1. In order to prevent this, first, the emergency pin 13 is in contact with the upper pressure line (40) wrapped with good airtight rubber, silicone, etc., the second around the emergency pin (13) Wrapped with a tube (14) to prevent it from flowing over a certain amount in preparation for unexpected leakage, and thirdly, the support spring (15) is installed at the bottom of the emergency pin (13) to absorb the shock against the small swing. To prevent leakage of fluid in three stages.

At this time, the spring 16 in the upper pressure chamber 11 used a well-known adjustment means that can be adjusted elasticity, according to the required tension of the spring to fall below the desired level of pressure to allow the device to operate. have. Here, the tension of the spring can be adjusted according to the flow rate and flow rate of the installation place during the initial design, but after installation, the user may adjust the pressure to an appropriate pressure by using a pressure gauge in accordance with the field situation using a tab such as a bolt.

3 and 4 show the operation principle of the apparatus, the breakage occurs in the pipeline 1, the pressure of the fluid is lowered, thereby gradually lowering the pressure acting on the lower pressure chamber 12. . When the lowered pressure is lower than the pressure of the spring and the upper pressure line 40, which is the pressure in the upper pressure chamber 11, the pressure plate 18 is gradually lowered. (However, in this case, the pressure of the upper pressurizing pipe line 40 has a small cross-sectional area and practically hardly affects the pressure.)

When the emergency pin 13 is separated from the upper pressure line 40 due to the lowering (the protection tube of the emergency pin 13 is torn due to the lowering of the pressure plate 18), the fluid is ejected from the upper pressure line 40. The ejected fluid exerts a force separate from the pressure of the spring on the pressure plate 18. At this time, when the ejected fluid is filled in the upper pressure line 40, the pressure of the lower pressure plate 18 and the pressure of the upper pressure plate 18 by the fluid is the same, and eventually the lowering of the pressure plate 18 is a pure spring ( It descends by the power of 16). Therefore, unlike the conventional method that only depends on the spring, even if the spring elasticity is reduced due to corrosion, it is possible to be completely sealed.

However, when the pressure plate 18 is lowered, the metal pressure chamber and the pressure plate 18 slide and move with each other. In this case, the corrosion preventing oil is buried in the seal 19 to protect the pressure plate 18. However, the anticorrosion oil is also supplemented to the lower part of the pressure plate 18 in order to continuously supplement the anticorrosion oil in the sealing 19 of the sliding pressure plate 18. The anticorrosion oil supplemented as described above flows into the liquid fluid flowing into the lower pressure plate 18 (if water, the anticorrosion oil floats on the water because its specific gravity is lighter than water, and if the fluid is oil). There is no need for a separate anti-corrosion oil.) The contact with the sealing portion is to prevent the wear of the seal (19).

At this time, in order to prevent the corrosion of the anti-corrosion oil in the lower pressure chamber 12, the oil storage jaw 20 is placed at the bottom. In addition, the oil storage jaw 20 also serves to prevent the pressure plate 18 from falling to the bottom of the lower pressure chamber 12, which is the foreign matter present in the fluid flowed in as time passes. This is to accumulate on the bottom, so that the accumulated foreign matter is caught in the seal 19 of the pressure plate 18 so as not to cause severe wear.

After the complete descent occurs, the safety blocking clip 33 attached to the pressure chamber case is operated to be coupled to the triangular groove at the top of the main shaft 32, the seal is completely fixed.

5 is a view showing a process of restoring the pressure plate 18 to its original position when repairing the breakage of the conduit 1 in a state in which the pressure plate 18 is completely lowered and fixed by the safety cutout clip 33. The restoration work of the pipe line 1 is made and when the pressure plate 18 is to be restored to its original state after the restoration work is completed, first, the upper pressure pipe line 40 is blocked to prevent the inflow of additional fluid and to the upper pressure chamber 11. To open the drain 30 cover. When the pressure handle 32a attached to the upper end of the main shaft 32 pulls the fluid through the drain 30, and when the fluid exits the upper pressure chamber 11, the drain cover 31 Close and finally replace the emergency pin (13) and its cover to restore the work is finished.

Herein, the present invention may be used not only in the case of the glow valve as shown in the embodiment, but also in the gate valve for opening and closing the pipe in the same manner, and rotating about the central axis rather than the vertical movement as in the above invention. In the case of the ball valve to open and close the pipeline by using a known actuator can also be used to change the vertical motion to a rotary motion. Therefore, any device that uses the present invention and the technical idea in the same manner falls within the scope of the present invention even if used in any valve.

As described above, the shut-off valve device according to the present invention has the following effects.

First, by using a pressure cylinder method instead of a diaphragm method, the pressure plate can be operated without change even at high pressure.

Secondly, by adding a secondary pressure device that can increase the existing pressure using the upper pressure line in addition to the primary blocking device by the spring, it is possible to achieve a rapid and reliable supply shutoff.

Third, an oil storage jaw is provided at the bottom of the lower pressure chamber so that the sealing of the pressure plate does not come into contact with foreign matters deposited on the bottom and also prevents the corrosion preventing oil from flowing down the bottom.

Fourth, by wrapping the tube around the spring and the emergency pin can prevent the spring corrosion during long-term use, in particular the tube of the emergency pin can prevent unexpected airtight damage.

Claims (9)

When the pressure of the fluid passing through the pipeline drops due to the breakage of the pipeline, the shut-off valve is operated by a spring in the pressure chamber attached to the pipeline separately to block the flow of fluid, The pressure chamber is divided into upper and lower sides by a pressure plate, the pressure chamber having an upper pressure chamber and a lower pressure chamber; An upper pressurizing conduit for separating a portion of the fluid flowing into the shutoff valve from the conduit to the upper pressure chamber; A lower pressure conduit for separating a portion of the fluid flowing out of the shutoff valve to the lower pressure chamber from the conduit; A main shaft having a pressure plate in the middle while penetrating the pressure chamber, and a lower part of the main shaft having a device for passing and blocking the flow of fluid in the conduit as it moves up and down; It is attached to the pressure plate inside the upper pressure chamber, and consists of an emergency pin for passing and blocking the flow of the fluid to the upper pressure pipe in accordance with the vertical movement of the pressure plate, When the pipe breaks, the pressure plate and the emergency pin are lowered so that the fluid flows into the upper pressure chamber, and the fluid flowing into the upper pressure chamber exerts a force on the pressure plate that is lowered by the spring, thereby providing a greater falling pressure. Shut-off valve. The method of claim 1, It consists of a drain having a discharge means for discharging and blocking the fluid inside the upper pressure chamber and an opening and closing means for blocking the flow of fluid into the upper pressure chamber when the fluid discharged inside the upper pressure chamber as an intermediate valve located on the upper pressure line. Became, Closing the intermediate valve to block the flow of additional fluid to the upper pressure chamber in order to restore the pipeline shut down due to breakage of the pipeline, and then open the drain to discharge the fluid in the upper pressure chamber. The method of claim 1, The spring is a shut-off valve characterized in that the protection tube is wrapped around the spring to prevent damage caused by corrosion and foreign matters due to the fluid and air introduced into the upper pressure chamber. The method according to any one of claims 1 to 3, The spring is a shut-off valve, characterized in that provided with a pressure measuring device and an elastic adjustment device to maintain the proper spring elasticity according to the lower pressure. The method of claim 1, The emergency pin has a separate sealing device around the upper end portion that is in contact with the upper pressure pipe line to prevent the flow of fluid in the gap characterized in that the shut-off valve. The method of claim 1, The emergency pin is an automobile shut-off valve characterized in that the air tightness is maintained even by shaking due to the impact of the shut-off valve by attaching a support spring to the contact with the pressure plate, the lower end. The method according to claim 1, 5 or 6. The emergency pin is a shut-off valve characterized in that it comprises a protective tube for wrapping the surrounding fluid to contain the fluid flowing out of the closed portion with the upper pressure line. The method of claim 1, Attached to the lower end of the main shaft, the shut-off valve characterized in that the locking valve gate for sealing the circular hole in the shape of a circular plate. The method of claim 1, The bottom of the lower pressure chamber is provided with a rectangular projection-shaped oil storage jaw having a height that does not block the complete sealing of the pipeline, so that the car does not reach the bottom of the lower pressure chamber even when the pressure plate is lowered Single valve.

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