KR100326720B1 - Surge control check valve for water pipe line - Google Patents

Abstract

The present invention relates to a structure of a surge control check valve for a water supply pipe, and an object of the present invention is to provide a check valve that is installed in various water supply / drain pipes and a pump station to control the flow of a fluid and a safety valve that alleviates the pressure rise of the fluid. When the pump is suddenly started or the power is cut off, and the valve is opened and closed quickly, when the flow velocity in the pipeline changes rapidly, the pressure rises or drops significantly, resulting in water shock due to fluid transients, thereby preventing damage to the pipeline and the valve. By improving the safety and durability.

In particular, it reduces the economic loss by solving the conventional problems in the installation cost, valve reduction, pipeline protection, protection of the pump equipment and automatic control system caused by the pipeline and valve damage caused by excessive water pressure on the safety valve and the check valve. It is in the box.

Therefore, the surge control check valve according to the present invention for achieving the above object is formed by connecting the inlet valve body and the outlet valve body formed with a flange frame on the upper side to prevent the back flow of the fluid and to control the pressure of the fluid, Connecting flanges are formed at both ends of the inlet valve body and the outlet valve body, and the valve seat is inserted into the valve body and the valve seat installation groove of the valve body by forming a valve seat installation groove inside the inlet valve body and the outlet valve body connection part. And a backflow prevention part formed to fix the valve disc to the shaft in the outflow valve body so that the valve disc seat closes to the valve seat when the fluid for the water pipe flows back, and the valve disc of the backflow prevention part is closed and leaked. When the pressure in the valve body rises and exceeds the set pressure, the spring of the pressure fluid discharge section momentarily As the piston pushes up, the cylinder opens and the safety valve is connected so that the pressure fluid is discharged to the inlet valve body through the discharge bent pipe. When the pressure fluid flows backward, the flange frame of the outlet chamber and the outlet valve body It is achieved by having a surge control check valve composed of a pressure fluid discharge portion formed to be connected.

Description

Surge control check valve for water pipes {SURGE CONTROL CHECK VALVE FOR WATER PIPE LINE}

The present invention relates to a surge control check valve for a water supply pipe, and more particularly, a check valve for controlling the flow of a fluid and a safety valve for relieving the pressure of the fluid due to backflow are integrally formed. It is equipped with a check valve to control the flow of fluid and a safety valve to alleviate the pressure rise of the fluid, so that when the pump is suddenly started or a power failure, and the valve is opened and closed quickly, For a water pipe that greatly improves safety and durability by a large rising up surge and a falling down surge causing water shocks due to fluid transients, thereby preventing damage to pipelines, valves and pumps. Surge control check valve.

In general, pipelines used for water intake, water purification and pressurization stations, and tap water, water supply and drainage pipes of the water supply and sewage system receive a large amount of fluid, so that a considerable hydraulic pressure is applied to them. As a result, the shape of the pipeline rapidly rises from the water supply facility located at the lower part, and becomes a sloped slope, and the fluid is transferred to a landing well, a drainage reservoir, or a surge tank at a high altitude. As shown in Fig. 1, an up-down surge occurs when the pressure in the pipe rises or falls due to the rapid flow rate change of the fluid present in the water supply pipe during an accidental power outage. Pump equipment 40 or the like due to an up surge, To prevent breakage, and the check valve 20 is provided between the pump 40 and the water pipe 30, the water pipe portion 30 has been configured with a safety valve 10 is installed in the middle of the channel. In this case, the safety valve is installed in the upper portion of the pump station outlet pipe path has a function to disperse the pressure of the fluid temporarily applied when the flow of the back flow, such as the drainage or surge tank in the upper portion to the upstream quickly and is installed in the pump station The check valve was to prevent the back flow due to the back flow of the fluid and to prevent the valve from being damaged by the excessive pressure. However, as the safety valves installed in the water supply line and the check valves installed in the pumping station and the pipelines are installed at a predetermined distance from each valve, the pressure distribution speed of the safety valves and the hydraulic pressure acting as a check valve accordingly As the time difference of the safety valve, that is, the release effect of the pressure fluid of the safety valve, is insignificant, the distribution of the hydraulic pressure acting on the check valve is not properly achieved, and the fluid in the pipe cannot endure the pipe or the check valve due to the water shock caused by abnormal flow. It was a problem that can not be broken.

The damage caused by water hammer caused rupture of pumps, check valves, pipelines, and other facilities, resulting in flooding of pumping stations, road damages, and even human damages. Also, unnecessary waste wasted due to water recovery costs and excessive labor costs. There was also a significant problem that the maintenance costs had to be used unnecessarily and repeatedly.

Therefore, the present invention was devised to solve the structural problem of each valve installed in the conventional water pipe, the object of the present invention is a surge control check for the water pipe sharing the pressure fluid discharge function of the safety valve to the backflow prevention function of the check valve The valve prevents up surge due to excessive pressure and temporary back flow of the fluid, thereby eliminating the risk of damage to the water supply facility, and preventing industrial property and human injury. The present invention provides a surge control check valve for a water pipe.

The surge control check valve according to the present invention for achieving the above object is formed by connecting the inlet and the discharge pipe to prevent the back flow of the fluid and control the pressure of the fluid, forming a connecting flange at both ends of the inlet and the outlet, the valve The body connection flange is fixed by inserting a valve seat into a valve body having a valve seat mounting groove and a valve seat mounting groove of the valve body.

Inside the outlet valve body, the disc is fixed to the shaft so that the disc seat is in close contact with the valve seat when the fluid flows back, and the disc is closed to prevent the disc flow. When the pressure exceeded the negative set pressure, the spring of the safety valve momentarily pushed upward and the seat of the cylinder opened, causing the pressure fluid to be discharged to the inlet body through the discharge pipe.

It is achieved by having a surge control check valve composed of a pressure fluid discharge portion formed to be connected to the flange of the discharge chamber and the discharge pipe for discharging the fluid introduced into the nozzle when the pressure fluid flows back by forming a pressure fluid discharge connection.

1 is a schematic configuration diagram of a valve used in a conventional water pipe;

Figure 2 is an exploded perspective view of the surge control check valve for water pipes according to the present invention,

Figure 3 is a combined cross-sectional view of the surge control check valve for water pipes according to the present invention,

4 is a cross-sectional view showing a pressure fluid discharge unit of the present invention;

5 is a cross-sectional view showing the shaft connecting portion of the disk of the present invention;

Figure 6 is a schematic configuration diagram showing a state of use of the valve for water pipes according to the present invention.

<Explanation of symbols for major parts of drawing>

1: pressure fluid discharge part 2: valve body 3: backflow prevention part

11: Adjustable bolt cap 12: Cover 13: Body

14: exhaust chamber 15: exhaust pipe 16: guide

21: Flange frame 22: Connecting flange 23: Outlet valve body

24: Inlet valve body 31: Disc 32: Valve seat

121: spring 122: spring upper support 123: spring lower support

131: Stop nut 132: Valve stem 133: Safety ring 134: Spring adjustment bolt 141: Nozzle 142: Piston disc

143: piston 144: cylinder 145: flange 151: exhaust pipe flange 211: seat mounting groove 212: valve body connecting flange 311: boss 312: shaft fixing screw 313: shaft

314: Disc seat 10: Safety valve 20: Check valve

30: water pipe 40: pump

Hereinafter, a preferred surge control check valve for a water pipe according to the present invention will be described in detail with reference to the accompanying drawings. 2 and 3 are a perspective view and a combined sectional view of the surge control check valve for water pipes according to the present invention, Figure 4 is a sectional view showing a pressure fluid discharge portion of the present invention, Figure 5 is a sectional view showing a disk shaft connection of the present invention. .

As shown therein, the surge control check valve of the present invention includes a pressure fluid discharge unit 1 having a discharge chamber 14, a cover 12, and a discharge curved tube 15, a disk 31, and a valve seat 32. It is configured by coupling the backflow prevention part (3) which is formed with the valve body (2) integrally.

Here, the valve body 2 is a cylindrical tube that is connected to the outlet valve body 23 and the inlet valve body 24, the both ends of the pump 40 of the upstream end and the water supply pipe 30 of the downstream end The connection flange 22 for pipe connection by bolting is formed, and the central connection portion of the valve body 2 is formed with a valve body connection flange 212 having an inclined shape as shown in FIGS. 2 and 3. A seat installation groove 211 is formed in the inner diameter of the connecting portion of the valve body connecting flange 212.

In the inner diameter of the valve body 2, a backflow prevention part 3 is formed to prevent a backflow of the fluid and flow in only one direction. The backflow prevention part 3 includes a disk 31 and a valve seat 32. do. The ring-shaped valve seat 32 is fixed with the outer circumferential surface inserted into the seat installation groove 211 of the valve body 2, and the disk 31 has a pair of bosses 311 formed on the upper surface thereof and the boss The pair of shafts 313 inserted into the inner diameter of 311 are bolted to the disk 31 with the key 316 inserted.

In addition, the shape of the disk 31 is preferably formed to be convex upward to withstand the backflow fluid pressure, and the lower outer peripheral surface of the disk seat 314 in contact with the valve seat 32, which is made of stainless, screwed the disk seat 314, but the valve seat ( Forming a softer material than copper 32 allows for a perfect index of the valve seat 32.

As described above, when the pressure of the fluid increases in the state in which the backflow prevention part 3 prevents the backflow, a pressure fluid discharge part 1 is formed in the valve body 2 to limit the maximum rising pressure, which is a set pressure. When abnormal, the fluid is discharged to lower the rising pressure below the set pressure.

This pressure fluid discharge unit 1 is composed of a discharge chamber 14, the body 13 and the cover 12 as shown in Figure 4, the discharge chamber 14, one side of the discharge curved pipe 15 In this connection, the discharge chamber 14 is a cylindrical tube of a 90-degree curved pipe, the curved pipe portion is configured to be open, and each of the open portion is formed with a flange-shaped bolting hole, the flange frame of the outlet valve body 23 The nozzle 141 is screwed to the inlet connected to the 21 to guide the fluid introduced from the valve body 2.

The body 13 is fixed to the upper end of the discharge chamber 14 as described above, but the cylinder 144 is interposed between the discharge chamber 14 and the body 13 and the piston 143 is disposed in the inner diameter of the cylinder 144. It is installed so that the piston disk 142 formed in the middle of the piston 143 and the top of the nozzle 141 is in close contact.

Such a body 13 has a spring 121 interposed therebetween, and an upper spring support 122 and a lower spring support 123 are installed on the upper side and a valve stem 132 is installed at the center of the spring 121. The lower end of the valve stem 132 is formed to contact the inner center of the piston 143. On the other hand, the top of the body 13 is fixed to the cover 12, the cover 12 is formed inside the guide 16 is connected to the body 13, the guide 16 to move the top of the valve stem 132 Is accommodated).

In addition, the upper end of the guide 16 is formed with a spiral in the outer diameter is fixed to the upper side of the body 13, the stop nut 131, and press the spring upper support 122 with the spring adjustment bolt 134 spring 121 The elasticity of the can be adjusted.

On the other hand, the discharge chamber 14 is formed at an angle of 90 degrees is fixed so that the flange 145 of the inlet valve body 24 and the flange frame 21 of the inlet valve body 24 communicates with the discharge curved pipe 15. It is formed to guide the pressure of the fluid to the inlet valve body 24 side in the reverse flow.

Hereinafter will be described the operation and effect of the present invention configured as described above.

Surge control check valve for the water pipe of the present invention is to be coupled to the upstream end of the water pipe 30 is installed in the form of an inclined gradient as shown in Figure 6, which is the water pipe 30 in front of the valve body (2) This is coupled to the outlet to be connected to the pump 40 to the rear is used to move the fluid from low to high.

At this time, when the fluid in the water pipe flows back due to a change in the external environment such as a power failure, the back pressure of the inclined zone applies a temporary back pressure to the check valve installed at the bottom of the inclined zone, and the disk 31 is formed such that the rotating shaft is deflected upward. At the same time as the close contact with the (32) to block the flow of the fluid at the same time the fluid to the piston 143 blocking the top of the nozzle 141 along the discharge chamber 14 coupled to the valve body (2) upper portion. When the pressure is higher than the set pressure, the piston lower portion 123 rises simultaneously while the piston 143 rises due to the hydraulic pressure and the valve stem 132 holding the piston 143 in the center by the spring 121 elasticity also rises.

As such, the fluid flows between the spaces spaced between the piston disk 142 and the nozzle 141 while the pressure of the fluid flowing back above the set pressure overcomes the pressure of the spring 121, thereby communicating and fixing the discharge curved pipe 15 fixed thereto. It flows to the inlet valve body 24 through to release the fluid pressure applied to the valve body (2) or the backflow prevention part (3) and the water supply pipe (30), and when the pressure is released to the original state by the restoring force of the spring do.

The surge control check valve should be set in accordance with the height or length of the water pipe, and the set pressure adjustment method is to rotate the spring adjustment bolt 134 formed on the top of the valve stem 132 after opening the cover (12). When it is possible to adjust the elastic force of the spring 121 by the movement of the spring upper support (122). Since the set pressure can be easily adjusted as described above, it is preferable that the safety ring 133 is formed on the cover 12 and the body 13 so that only an administrator can use it.

As such, by releasing the pressure of the fluid flowing back from the water supply pipe instantaneously to prevent damage to the equipment, it is possible to freely adjust the set pressure according to the situation to increase the efficiency of the product.

As described above, the valve of the present invention comprises a pressure fluid discharge unit and a backflow prevention unit integrally to prevent a sudden increase in pressure in the water supply pipe, thereby installing an upstream end of the inclined water supply pipe to reduce the installation cost and valve, It is not only limited to water pipes, but also can be applied to various areas of industrial fields such as water and sewage intake and purification plants, pressurized pumps, drainage pump stations, and hydro power plants. It will provide the expected effect.

Claims (3)

The inlet valve body and the outlet valve body having a flange frame formed on the upper side to prevent the back flow of the fluid and to control the pressure of the fluid is formed, but connecting flanges are formed at both ends of the inlet valve body and the outlet valve body. The inner connection part of the outlet valve body includes a valve body having a valve seat groove, A back flow prevention part formed by inserting a ring-shaped valve seat in the valve seat installation groove and rotating the disk inside the outlet valve body so as to be in close contact with the valve seat when the fluid flows backward; When the disc of the backflow prevention part is closed and the pressure of the valve outlet body is higher than the set pressure, the body is coupled to the upper portion of the valve outlet body to discharge the pressure fluid, and a cylinder having a piston in between the valve outlet body and the body is opened. In the inner diameter of the body, a spring is installed between the upper spring support and the lower support to form a valve stem where the bottom is interviewed with the center of the piston. The cover is fixed to the upper part of the body, and the upper part of the cover accommodates the valve stem at the inner diameter. The guide is formed to interview the upper support, the guide is fixed with a stop nut inside the cover, the upper end forms a spring adjustment bolt, the pressure to form a connection to the discharge bent pipe to communicate with the inlet valve body to the inlet valve body side of the discharge chamber For water pipes, characterized in that the fluid discharge portion If the control valve. The surge control check valve for a water pipe according to claim 1, wherein the seat installation groove of the valve body is formed to be inclined at an angle toward the inlet valve body. The surge control check valve for a water pipe according to claim 1, wherein a disk sheet is formed at the outer diameter of the disk of the backflow prevention unit.