KR200144071Y1 - Protection device for water hammer - Google Patents

Abstract

The present invention relates to a water hammer, the water hammer to be installed in the flow path pipe to prevent the water hammer acting on the inside of the flow path in the piston principle, the spring and the piston is inserted into the cylindrical body is composed of an independent single, The cylindrical body is configured to be replaceable by using a connector at the fastening part of the flow path tube, and the inside of the piston is formed as a space part, and the lower end part is opened so that a fluid inflow groove is formed to act on the pressure of the fluid.

Since the water hammer of the present invention is composed of an independent single product, it is easy to manufacture, has excellent advantages of mass productivity and handling, and can be easily installed in any pipe. In addition, the water hammer can be installed independently without regard to the type of pipe and valve, and if the capacity of the pipe is changed, only the main body can be easily replaced and installed, and the piston is operated without uneven wear, and the pressure is applied to the entire surface. Since it can be absorbed evenly, the water hammer buffer damping force has an advantage.

Description

Water hammer

The present invention relates to a water hammer, and in particular, by combining the spring and the piston inside the cylindrical body to form a single unit, so that it can be easily installed regardless of existing and new piping, productivity, handling, construction and operation It is about a water hammer to improve the performance.

In general, the water hammer is to remove the water hammer phenomena generated by the high noise and vibration due to the shock wave generated by the fluid inside the pipe in the flow path for conveying the fluid.

The water hammer phenomenon occurs when the water flow flowing in the pipe is blocked by the valve and the shock pressure (water hammer) reciprocates in the pipe due to the rapid rise of the water pressure, which causes noise and vibration. Transfer to surrounding structures adversely affects structures and systems.

Therefore, when the safety problem of the piping system occurs, when the replacement of the piping system to install a water hammer to separate the water hammer to remove the water hammer.

The scope of application of the above-mentioned water hammer preventer includes a channel for preventing pulsation during operation of the pump, a place capable of absorbing vibration caused by the water hammer phenomenon, a place capable of preventing the impact pressure of the fire fighting piping system, and a person. The circulation pump for the preservation of the quiet environment and the cold / hot temperature is installed in the place close to the automatic control and the place where the vibration of the vibration can be reduced and absorbed when the vibration occurs due to the opening and closing of the check valve at the start or the end.

4 is a cross-sectional view of a conventional water hammer, and FIGS. 5 and 6 are cross-sectional views showing the configuration and operation of a state in which a conventional water hammer is installed in a flow path tube.

In the drawing, 21 is a water hammer prevention device, 22 is a body, and this body 22 is provided with a partition wall 22A having a through hole 22B at an inner center thereof, and the space A 23A is provided at both sides. The space portion B 23B is provided, the cap C is welded to the upper portion, the air valve 25 is provided at the upper center of the cap 24, and the inner space portion A 23A of the main body 22 is provided. The bellows 26 is open to the bottom is coupled.

The lower end of the bellows 26 provided in the space A 23A of the main body 22 is provided with a fixing cap 27 in which a plurality of flow path holes 28 are formed. A flange 29 having a fastening hole 30 for fixing is formed.

As shown in FIGS. 5 and 6, the conventional water hammer prevention device configured as described above is coupled to an appropriate position of the flow path tube 9 through which fluid flows so as to remove the water hammer force. In order to block the flow of the fluid, as shown in FIG. 6, the valve V is rapidly closed to block the flow of the fluid, and the water flowing through the flow path tube 9 instantly flows back to generate a water hammer, and this pressure prevents the water hammer. It flows into the bellows 26 through the flow path 28 of the fixing cap 27 installed in the main body 22 of the 21.

The bellows 26 is instantaneously inflated by the hydraulic force of the fluid, and accordingly, the air received inside the space A 23A is discharged to the space B 23B through the through hole 23B, and the water hammer is buffered and attenuated.

However, the bellows 26 installed in the main body 22 of the conventional water hammer arrester 21 is formed of a synthetic rubber or synthetic resin having elasticity and is easily torn and damaged by a momentary impact force, so that the water hammer cannot be absorbed easily. When the air received in the spaces A, B (23A), (23B) is discharged to the outside through the air valve 25 installed in the upper cap (C) to reduce the air resistance when the bellows 26 is expanded, the bellows (26), the water absorption force absorption function was resisted, and the upper cap (C) is fixed to the upper body of the main body 22, the fixing of the partition wall 22A to the inside of the main body 22, the fixing cap (27) There is a problem that it is difficult to manufacture the water hammer preventer 21 by installing the water hammer, and when the water hammer protector 21 is installed in the flow pipe 9, a bolt is inserted into the fastening hole 30 of the flange 29 to prevent the water hammer preventive 21 from being installed. 9) there was a problem that the work is not easy to fasten.

On the other hand, Japanese Patent Application Laid-Open No. H1-131,388 discloses a water hammer preventing device that prevents water hammer by using the principle of a piston when the water pressure in the oil pipe increases, and the water hammer is formed integrally with the oil pipe. The first piston for opening and closing the flow pipe in one valve housing is installed in the longitudinal direction by touching the weak spring, and the second piston is mounted in the transverse direction by the strong spring in the transverse direction orthogonal to the first piston. Therefore, the first piston is opened and closed automatically, and the water hammer is reduced.

When the hydraulic pressure of the flow pipe increases, the water hammer in the water hammer is equalized in the pressure chamber installed in the middle of the cylinder between the first piston and the second piston, and the pressure in the flow pipe is automatically increased. The first piston is closed again when the water pressure in the flow path is lowered again. When the water pressure rises greatly, the first piston is automatically opened and at the same time, the second piston, which is supported by a strong spring, moves to attenuate the water hammer.

The conventional water hammer prevents the first piston and the second piston in the direction perpendicular to each other in the interior of the valve housing to automatically open and close the flow path according to the water pressure, so that the fluid flows in a range below a certain water pressure As an automatic shut-off valve, there is a problem that can not be installed for the purpose of preventing water hammer in the general flow pipe is equipped with a variety of ordinary valves because it is not an independent water hammer.

The present invention has been made to solve the conventional defects and problems as described above, to provide a water hammer.

In order to achieve the above object, the present invention is installed in the flow pipe to prevent the water hammer acting on the inside of the flow pipe to the piston principle, the piston is inserted into the cylindrical body is composed of an independent single piece, The lower end of the cylindrical body is a connector screwed to the fastening portion of the flow path tube is detachably screwed through the packing, the inside of the piston is formed into a space portion and the lower end is opened fluid inlet groove acting the pressure of the fluid It provides a water hammer preventive is formed.

1 is a cross-sectional view of the water hammer of the present invention.

2 and 3 are cross-sectional views showing the configuration and operation of the water hammer preventer of the present invention is installed in the flow path tube.

4 is a cross-sectional view of a conventional water hammer.

5 and 6 are cross-sectional views showing the configuration and operation of the conventional water hammer is installed in the flow path tube.

* Explanation of symbols for main parts of the drawings

1: water hammer 2: cylindrical body

4: Piston 4A: Fluid Inlet Groove

5: Spring 8: Connector

9: euro tube

Hereinafter, with reference to the accompanying drawings, the present invention as described in detail as follows.

1 is a cross-sectional view of the water hammer preventer of the present invention, Figures 2 and 3 shows the configuration and operation of the water hammer arrester of the present invention is installed in the flow path tube.

In the drawings, reference numeral 1 shows a water hammer according to the present invention, and the water hammer 1 is elastically supported by a spring 4 in a space 3 formed in the cylindrical body 2. At least one O-ring 6 is coupled to an outer circumferential surface of the piston 4, and an upper cap 7 is fastened to an upper portion of the main body 2 through a packing P1, and a packing ( The connector 8 is fastened via P2).

Threads 2A and 7A are formed on the inner circumferential surface of the upper end of the main body 2 and the outer circumferential surface of the upper cap 7, and on the inner circumferential surface of the lower end of the main body 2 and the upper end of the connector 8, the thread 2B. (8A) is formed, the upper cap (7) and the connector (8) is screwed to the body 2 is fastened.

Spring engaging grooves G1 and G2 are formed at the lower end of the outer circumferential surface of the upper cap 7 and the upper end of the outer circumferential surface of the piston 4 so that the upper and lower ends of the spring 5 are engaged, and the piston 4 is engaged. A fluid inflow groove 4A opened toward the flow path tube 9 is formed, and a flow path 10 through which fluid flows is formed at the lower end of the main body 2 and the center of the connector 8.

The connector 8 has a threaded portion 8B formed on a lower outer peripheral surface thereof, and a screwed portion 9A formed on an inner circumferential surface of the fastening portion of the flow passage 9 so that the connector 8 is fastened to the flow passage 9. It is fastened by screwing through the packing (P3) in the part.

In the figure, reference numeral 9A shows the discharge port of the flow path tube 9, and V shows the valve.

Referring to the operation of the present invention as follows.

3 and 4, the water hammer preventing device 1 according to the present invention is used by being fastened to the fastening portion of the flow path tube 9, and the fluid flowing into the flow path tube 9 is discharged when the valve V is opened. Discharge through 9B.

In this way, if the valve V is rapidly closed while the fluid is being discharged, water flow is generated while the flow of the fluid is temporarily blocked inside the flow passage 9, and the valve V is closed. Water hammer occurs even when the water pressure rises rapidly in the fluid transfer line. When water hammer occurs, the fluid flows back in the flow path 9 so that the lower cap 8 and the main body 2 of the water hammer 1 are prevented. It flows into the fluid inflow groove 4A of the piston 4 through the flow path 10 formed in the lower part of the).

Then, the piston 4 overcomes the elasticity of the spring 5 by the pressure of the fluid acting on the fluid inlet groove 4A and moves to the upper side of the main body 2 to absorb and damp the water hammer.

When the valve V is opened in such a state, the fluid is discharged through the discharge port 9B, and at the same time, the piston 4 returns to the initial state by the elastic force of the spring 5.

This water hammer preventive device 1 of the present invention is composed of a single unit by combining the spring (5) and the piston (4) of the cylindrical body (2), not only easy to manufacture and produce, but also easy to handle the product Can be.

And, when the water hammer preventer 1 is installed in the flow path tube 9, the connector 8 can be simply fastened using a screwed structure, so that the water hammer can be installed in any pipe to prevent water hammer. It can be easily installed without regard to newly installed pipes.

In addition, since the connector 8 is coupled between the main body 2 of the water hammer 1 and the fastening portion of the flow pipe 9, the water hammer prevents when the capacity of the flow pipe 9 is changed. The main body 2 of (1) can be replaced easily.

In addition, since the inside of the piston 4 is formed as a space part and the lower end part is opened to form the fluid inlet groove 4A, when water hammer occurs, the pressure of the fluid acts on the fluid inlet groove 4A of the piston 4. This allows the piston 4 to operate without uneven wear and to evenly absorb the pressure across the entire surface.

As described above, the water hammer of the present invention is composed of a single unit, so it is easy to manufacture, and has excellent advantages in mass productivity and handling, and can be easily installed in any pipe. In addition, the water hammer can be installed independently without regard to the type of pipe and valve, and if the capacity of the pipe is changed, only the main body can be easily replaced and installed, and the piston is operated without uneven wear, and the pressure is applied to the entire surface. Since it can be absorbed evenly, the water hammer buffer damping force has an advantage.

Claims (1)

In the water hammer which is installed in the flow path tube to cushion the water hammer acting on the inside of the flow path in the piston principle, the spring 5 and the piston (4) is inserted into the cylindrical body (2) is composed of an independent unitary, At the lower end of the cylindrical body 2, the connector 8 which is screwed with the fastening part of the flow path tube 9 is detachably screwed through the packing P2, and the inside of the piston 4 is formed as a space part. And the lower end of the water hammer preventing device, characterized in that a fluid inlet groove (4A) is formed to act on the pressure of the fluid.