KR100962050B1 - A device for resisting water hammer - Google Patents

Abstract

PURPOSE: A water-hammering prevention device is provided to prevent the water hammering by absorbing the pressure of fluid by reducing an inner space which is filled with nitrogen gas. CONSTITUTION: A water-hammering prevention device comprises a pipe coupling part(110), a first and a second circular plates(132,133), a first and a second frames(121,122), a frame body unit, and a ball(123). Threads(111) are formed on the one side of the pipe coupling part. The pipe coupling part is thread-combined with the pipe. The first and the second disk have curved sections. The diameter of the first and the second disk(132a,133a) is bigger than the diameter of the first frame(121a). A gas inlet(122a) is formed on the central part of the second frame. The first and the second frame are combined to each other by micro plasma welding.

Description

Water hammer prevention device {A Device for Resisting Water Hammer}

The present invention relates to a water hammer prevention device, and more particularly, to a water hammer prevention device that can effectively prevent the noise or vibration caused by the water hammer phenomenon caused by the hydraulic pressure of the fluid flowing through the pipe.

Typically, if the flow path resistance changes during the flow of fluid material, the pressure of the fluid changes. In the case of gas, which is a compressive fluid, the change in flow path resistance is converted into a simple change in pressure, but in the case of liquid, which is an incompressible fluid, it is different from that of gas. For example, the flow of liquid entering a narrow passage from a wide passage results in a hydraulic jump in which the liquid level rises.

In the real life, in the case of the pipe constituting the water pipe, when the valve is blocked during the flow of water, a sudden change in flow path resistance cannot absorb water, which is an incompressible fluid, so that a significant shock wave is generated, thereby generating high noise and vibration. The occurrence of shock waves in the liquid pipe is referred to as a water hammer.

This water hammer problem is aggravated as the rotary valve is switched to a one-touch valve for convenience of use, which causes noise and vibration as well as damage to pipes and valves. In addition, when a pipe is rapidly opened in a limited pipe passage, the liquid may boil rapidly due to a pressure drop, causing bubbles in the liquid, and causing a cavitation phenomenon.

Accordingly, an object of the present invention is to provide a water hammer prevention device that can effectively prevent the water hammer phenomenon caused by the hydraulic pressure of the fluid flowing in the pipe, to solve the above-mentioned conventional problems.

In order to achieve the above object, according to a preferred embodiment of the present invention, the tubular connection portion is formed in a cylindrical shape having a predetermined diameter, the one end is connected to the pipe of the predetermined shape and connected to the pipe connection, A first frame formed in a substantially disk shape and having a hole penetrating the other end of the pipe connecting portion; And a frame main body portion having a cylindrical shape having one surface open, and including a second frame coupled to the first frame to form a predetermined closed space, and formed in a space formed by the frame main body portion. The bellows is formed in communication with the hole formed in the first frame, the bellows, the hole is formed to communicate with the hole of the first frame, has a curved cross-section, the inner circumference is coupled to the first frame Wow; The hole is formed to communicate with the hole of the first frame, has a curved cross section, the hole is formed so that the outer peripheral edge is in communication with the hole of the first frame and the first frame coupled to the outer peripheral edge of the sheet, A piston having a curved cross section corresponding to the curved cross section of the first disc, wherein a second disc having an inner circumference coupled with the inner circumference of the first disc consists of a pair, and at least two or more pairs of which are sequentially stacked and stacked and; Provided is a water hammer preventing device which is coupled to the outer circumferential edge of the second disc of the piston and comprises a cover plate for sealing the inner space formed by the seat and the piston.

Preferably, a thread is formed on one side of the pipe connection part, and the pipe connection part may be fastened by screwing the pipe.

Preferably, the first and second discs may each have a curved cross section consisting of one or more floors and valleys.

Preferably, the diameters of the holes formed in the first and second discs may be relatively larger than the diameters of the holes formed in the first frame.

Preferably, a gas injection hole is formed in a central portion of the second frame, nitrogen gas is filled in the space formed by the frame main body through the gas injection hole, and a ball corresponding to the diameter of the gas injection hole is welded to the gas injection hole. The inner space of the frame main body may be sealed.

According to the present invention, while harmless to the human body, there is an effect that can easily prevent the water hammer phenomenon due to the hydraulic pressure of the fluid flowing through the pipe.

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

1A is a perspective view illustrating a water hammer prevention apparatus according to an embodiment of the present invention, FIG. 1B is an exploded perspective view of the water hammer prevention apparatus of FIG. 1A, and FIG. 2 is a schematic cross-sectional view of the water hammer prevention apparatus of FIG. 1A.

1A to 2, the water hammering prevention device 100 according to an embodiment of the present invention includes a frame body part 120 including a pipe connection part 110, a first frame 121, and a second frame 122. ), And bellows 130.

The pipe connection part 110 is formed in a cylindrical shape having a predetermined diameter, and one end is connected to and fastened to the pipe 10 having a predetermined shape. For example, a thread 111 is formed at one side of the pipe connection part 110 connected to the pipe 10, and the pipe connection part 110 may be fastened by screwing the pipe 10. That is, the flow path (fluid flow path) is formed by the high pressure inside the pipe 10, the pipe 10 and the pipe connection portion 110 fastened by the screw coupling can withstand high pressure and effectively maintain airtightness have.

The frame body part 120 is connected to the pipe connection part 110 and, as shown in the drawing, has a substantially disc shape, and includes a first frame having a hole 121a penetrating the other end of the pipe connection part 110. 121); And a second frame 122 which is formed in a cylindrical shape having one surface substantially open, and which is coupled to the first frame 121 to form a predetermined closed space A.

The bellows 130 is formed in the space A formed by the frame main body 120 and communicates with the hole 121a formed in the first frame 121. Here, the bellows 130 may be configured to substantially reduce the water hammer due to the hydraulic pressure of the fluid material sequentially passing through the pipe 10, the pipe connecting part 110, and the hole 121a of the first frame 121. Will be absorbed.

The bellows 130 is comprised from the sheet | seat 131, the piston 135 which consists of the 1st disc 132 and the 2nd disc 133, and the cover plate 139. As shown in FIG.

Specifically, the bellows 130, the hole 131a is formed to communicate with the hole 121a of the first frame 121, has a curved cross-section, the inner circumference is coupled to the first frame 121 sheet 131; The hole 132a is formed to communicate with the hole 121a of the first frame 121, has a curved cross section, and has a first disc 132 and a first outer periphery coupled to the outer periphery of the sheet 131. The hole 133a is formed to communicate with the hole 121a of the frame 121, and has a curved cross section corresponding to the curved cross section of the first disc 132, and an inner circumference of the first disc 132. A piston 135 formed of a pair of second discs 133 coupled to the circumference and sequentially stacked and coupled to each other; The cover plate 139 is coupled to the outer circumference of the second disc 133 of the piston 135 and seals the inner space B formed by the seat 131 and the piston 135. On the other hand, the cover plate 139 is not formed with a hole for sealing the inner space (B) of the bellows 130. In addition, the first frame 121 and the second frame 122 may be coupled by micro plasma welding, but the present invention is not limited thereto, and various welding methods may be applied.

As shown, in the present embodiment, six pairs of the first disk 132 and the second disk 133, which are one set or a pair, may be formed by sequentially bonding and stacking as described above. For example, sequentially, the inner circumference of the first disc 132 is coupled with the inner circumference of the second disc 133, and the outer circumference of the second disc 133 is coupled with the outer periphery of the other first disc 132. The inner circumference of the other first disc 132 is combined with the outer circumference of the other second disc 133. With the above structure, the first and second discs 132 and 133 may be formed by sequentially stacking six or more pairs.

In addition, the first and second discs 132 and 133 preferably each have a curved cross section consisting of one or more tops and valleys. That is, by maximizing the contact area between the first and second discs 132 and 133 and the fluid passing through the pipe 10, the hydraulic pressure may be dispersed as much as possible and the elastic force of the piston 135 may be maximized. Accordingly, it is possible to minimize the shock (shock), noise (vibration) inside the pipe 10 due to water hammer.

In addition, the diameters of the holes 132a and 133a formed in the first and second discs 132 and 133 may be relatively larger than the diameters of the holes 121a formed in the first frame 121. That is, since the diameter of the holes 121a formed in the first frame 121 is relatively smaller than the diameters of the holes 132a and 133a formed in the first and second discs 132 and 133, the internal space B of the bellows 130 is formed. The amount of fluid flowing into the can be optimized.

A gas may be filled in the space A formed by the frame body 120 except for the space B of the bellows 130. In the present exemplary embodiment, nitrogen gas is filled in the internal space A of the frame body 120 to additionally absorb the water hammer of the pipe 10.

Meanwhile, the process of filling nitrogen gas into the internal space A of the frame body 120 is as follows. First, a gas injection hole 122a is formed in the center of the second frame 122. Thereafter, the internal space A of the frame body 120 is formed in a vacuum state. Thereafter, nitrogen gas is filled into the internal space A of the frame main body 120 through the gas injection hole 122a. Thereafter, the ball 123 corresponding to the diameter of the gas injection hole 122a is welded to seal the internal space A of the frame body 120.

Here, since the interior space A of the frame body 120 may be filled with nitrogen gas, which is harmless to the human body, the water hammer prevention apparatus 100 according to the present embodiment may be connected to a water pipe. Meanwhile, the pipe connection part 110, the frame body part 120, and the bellows 130 may be made of stainless steel to prevent corrosion.

3 is a schematic cross-sectional view showing an operation example of the water hammer prevention device of FIG. 1A.

As shown, from the state of (a) to the state of (b), the interior space A formed by the bellows 130, i.e., the piston 135, is expanded and filled with nitrogen gas. Since it is reduced, the hydraulic pressure of the fluid is absorbed, so that the water hammer can be easily prevented.

As the hydraulic pressure inside the pipe 10 changes, the first and second discs 132 and 133, in which the inner and outer circumferences are alternately coupled, contract and expand in the direction of fluid movement by elastic force and restoring force, The shock, noise, or vibration caused by the phenomenon can be effectively suppressed.

In the above description of embodiments of the present invention with reference to the accompanying drawings has been described with respect to the water hammer prevention device having a specific shape and structure, the present invention can be variously modified and changed by those skilled in the art, such variations and modifications It should be interpreted as falling within the protection scope of the present invention.

1A is a perspective view illustrating a water hammer prevention device according to an embodiment of the present invention.

1B is an exploded perspective view of the water hammer prevention device of FIG. 1A.

2 is a schematic cross-sectional view of the water hammer prevention apparatus of FIG. 1A.

3 is a schematic cross-sectional view showing an operation example of the water hammer prevention device of FIG. 1A.

Claims (5)

A hole formed in a cylindrical shape having a predetermined diameter, the pipe connection part of which one end is connected to and fastened to a pipe of a predetermined shape, and connected to the pipe connection part, formed in a substantially disk shape, and a hole penetrating the other end of the pipe connection part; A formed first frame; And a frame main body portion having a cylindrical shape having one surface open, and including a second frame coupled to the first frame to form a predetermined closed space, and formed in a space formed by the frame main body portion. The bellows is formed in communication with the hole formed in the first frame, the bellows, the hole is formed to communicate with the hole of the first frame, has a curved cross-section, the inner circumference is coupled to the first frame Wow; A hole is formed to communicate with the hole of the first frame, has a curved cross section, a first disc having an outer circumference coupled to the outer circumference of the sheet, and a hole formed to communicate with the hole of the first frame, The second disc has a curved cross section corresponding to the curved cross section of the first disc, and a second disc having an inner circumference coupled with the inner circumference of the first disc is formed as a pair, and at least two or more pairs are sequentially stacked and stacked. A piston; In the water hammering prevention device which is coupled with the outer periphery of the 2nd disc of the said piston, and consists of a cover plate which seals the internal space formed by the said seat and the piston, A thread is formed at one side of the pipe connection part, the pipe connection part is fastened by screwing the pipe together, and the first and second discs each have a curved cross section consisting of one or more floors and valleys. The diameter of the hole formed in the second disc is relatively larger than the diameter of the hole formed in the first frame, and a gas inlet is formed in the center of the second frame, and nitrogen is provided through the gas inlet in the space formed by the frame body. Gas is filled and the ball corresponding to the diameter of the gas inlet is welded to seal the internal space of the frame body part, And the first frame and the second frame are joined by micro plasma welding. delete delete delete delete

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