KR102196217B1 - Water Hammer Arrester - Google Patents

Abstract

The present invention relates to a water hammer arrestor, and absorbs the shock generated by an instantaneous increase in fluid pressure in the pipe to prevent damage to the pipe, and the structure of a disk that is driven up and down by the fluid pressure is configured in a double structure to prevent fluid pressure. Against this, it relates to a water hammer arrester that makes it possible to more reliably maintain the balance of the disk and improves operational stability.
The present invention relates to a water hammer arrestor installed in a pipe, the lower part is opened, a back pressure chamber is formed therein, and a housing installed in the pipe, a disk part provided inside the housing and driven up and down by fluid pressure, And a spring provided inside the housing to elastically support the disk unit, and a ball check valve provided on an upper end of the housing, wherein the disk unit includes a disk provided in close contact with the inner circumferential surface of the housing, and a constant with the disk It is characterized in that the negative back pressure chamber is formed by a support member coupled to be spaced apart.

Description

Water Hammer Arrester

The present invention relates to a water hammer arrestor, and absorbs the shock generated by an instantaneous increase in fluid pressure in the pipe to prevent damage to the pipe, and the structure of a disk that is driven up and down by the fluid pressure is configured in a double structure to prevent fluid pressure. Against this, it relates to a water hammer arrester that makes it possible to more reliably maintain the balance of the disk and improves operational stability.

As is well known, the water hammer phenomenon refers to a phenomenon in which a shock wave in which fluid pressure rapidly increases instantaneously occurs when a sudden fluctuation of fluid flow occurs in a pipe through which a liquid, which is a non-compressible fluid, passes through opening and closing a valve.

Such a water hammer phenomenon causes extreme shock and vibration, and when the water hammer is severe, the pipe is damaged, the connection part of the pipe is loosened, causing leakage, and also damages valves and pumps connected to the pipe.

In order to prevent such a water hammer phenomenon, a water hammer arrester is installed and used in a pipe through which a liquid, which is a non-compressible fluid, passes.

Such a water hammer preventer is divided into a spring type and a gas type, and the spring type is a method of absorbing a pressure increase simply by a spring cushion without a pressure chamber, and the gas type is a method of absorbing a pressure increase by a piston and a bellows. .

In particular, in recent years, a method of using a piston and a spring in combination has been disclosed in a number of forms, which is installed in the piping with a spring in the upper part and a piston in which a number of O-rings are combined with an outer periphery in the lower part inside a housing with an entrance in the lower part Therefore, when the water hammer comes, the piston compresses the spring and rises to absorb the pressure rise, and when it comes back down, the tension force of the spring makes it easier to return.

However, in the above-described conventional method, the O-ring on the outer side of the piston does not form a symmetrical structure, and it is easily worn and damaged when the piston is raised or lowered by being in close contact with the inner wall surface of the housing by the elastic force acting in the inner and outer directions rather than in the vertical direction. There was a problem.

As such, when the airtightness is poor due to the asymmetric structure of the O-ring, wear, and damage, as well as the inaccuracy of the center of the piston not being located in the center of the housing, the stability of the lifting and lowering operation of the piston decreases, and water hammer occurs. There was a problem in that the absorption operation did not work quickly and accurately.

In addition, in the conventional method, since the lower surface of the piston is formed in a simple flat shape, the pressure raised through the entrance of the housing does not work evenly on the lower surface of the initial piston, so the speed of the piston ascending operation decreases and the piston is pushed evenly. There was a problem that the operation stability was also deteriorated because it was not provided.

Korean Patent Registration No. 10-1704344 Korean Patent Registration No. 10-1902712 Korean Patent Registration No. 10-1856161

The present invention has been conceived to solve the above problems, and an object of the present invention is to prevent damage to the pipe by absorbing the shock generated by an instantaneous increase in fluid pressure in the pipe, and to prevent damage to the pipe, and a disk that is driven up and down by the fluid pressure It is to provide a water hammer arrester with improved operating stability and more reliably maintaining the balance of the disk against fluid pressure by configuring the negative structure in two layers.

In addition, it is an object of the present invention to provide a water hammer arrestor that more accurately prevents water hammer by forming a secondary back pressure chamber by forming a double structure of a disk portion driven by a fluid pressure.

The present invention for solving this problem is; In the water hammer arrester installed in the pipe, a lower portion is opened, a back pressure chamber is formed therein, and a housing installed in the pipe, a disk portion provided inside the housing and driven up and down by fluid pressure, and A spring provided therein to elastically support the disk unit, and a ball check valve provided on an upper end of the housing, wherein the disk unit includes a disk provided in close contact with the inner circumferential surface of the housing, and a predetermined distance from the disk. It is characterized in that the negative back pressure chamber is formed by the supporting member to be coupled.

At this time, the housing is characterized in that the cylinder is formed in a cylindrical shape and is formed of a cylinder coupled to the pipe and a cap member coupled to the upper portion of the cylinder.

In addition, the disk is characterized in that the protrusion formed protruding toward the inlet side of the pipe is formed in the central portion.

In addition, the disk is characterized in that the inlet hole is formed through the symmetrical.

In addition, the ball check valve is coupled to the through hole formed at the upper end of the housing, the body having first and second through holes formed in the upper and lower portions, and a ball provided inside the body to selectively close the first through hole It characterized in that it comprises a member.

According to the present invention of the above configuration, damage to the pipe is prevented by absorbing the shock generated by an instantaneous increase in fluid pressure in the pipe, and the structure of the disk that is driven up and down by the fluid pressure is configured as a dual structure to reduce fluid pressure. Against this, it is possible to more reliably maintain the balance of the disk, and has the effect of improving the operating stability.

In addition, the present invention has the effect of more accurately preventing water hammer by forming a sub-back pressure chamber by forming a double structure of a disk unit driven by fluid pressure.

1 is a conceptual diagram showing a water hammer arrestor according to the present invention.
Figure 2 (a) and (b) is a view showing a state of use of the water hammer arrester according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in more detail with reference to the accompanying drawings. The same reference numerals are used for the same elements in the drawings, and duplicate descriptions for the same elements are omitted. In addition, it should be understood that the present invention may be implemented in a number of different forms, and is not limited to the described embodiments.

1 is a conceptual diagram showing a water hammer arrestor according to the present invention, Figure 2 (a) and (b) is a view showing a state of use of the water hammer arrester according to the present invention.

The present invention prevents damage to the pipe by absorbing the shock that occurs due to an instantaneous increase in fluid pressure in the pipe, and the structure of the disk that is driven up and down by the fluid pressure is configured as a dual structure to ensure that the disk It relates to a water hammer arrester 100 that enables to maintain a balance and improves operational stability, the configuration of which is a housing 110 installed at the inlet 12 formed in the pipe 10, as shown in FIG. A disk unit 120 provided under the housing, a spring 130 provided inside the housing 110 to elastically support the disk unit 120, and a spring 130 provided at the top of the housing 110. It comprises a ball check valve 140.

In more detail, the pipe 10 has an inlet 12 formed on one side of the pipe 10 to move the fluid, so that a water hammer arrestor 100 is installed, and the shock generated when the fluid pressure in the pipe 10 rapidly increases. The water hammer arrestor 100 is absorbed to prevent damage and breakage of the pipe 10.

On the other hand, the housing 110 of the water hammer arrestor 100 according to the present invention is formed in a cylindrical shape, the cylinder 112 coupled to the inlet 12 of the pipe 10, and the upper end of the cylinder 112 Consisting of a cap member 114 to be coupled, a back pressure chamber 116 is formed therein.

At this time, a screw thread is formed on the outer circumferential surface of the lower end of the cylinder 112 and is screwed to the inlet 12 of the pipe 10 to be fixedly installed in the pipe 10.

In addition, a screw thread is formed on the upper inner circumferential surface of the cylinder 112, and a screw thread is formed on the lower outer circumferential surface of the cap member 114 so that the cylinder 112 and the cap member 114 are screwed together to be installed, where, An O-ring 118 is provided at the coupling portion between the cylinder 112 and the cap member 114 so that the airtightness of the back pressure chamber 116 can be maintained.

On the other hand, the disk unit 120 is composed of a disk 122 provided in close contact with the inner circumferential surface of the cylinder 112 of the housing 110, and a support member 124 coupled to be spaced apart from the disk 112 by a predetermined distance, A negative back pressure chamber 126 is formed between the disk 122 and the support member 124.

Here, the O-ring 128 is provided and sealed between the disk 122 and the cylinder 112 so that the fluid supplied to the pipe 10 flows into the back pressure chamber 116 inside the housing 110. To prevent failure and damage of the water hammer arrester 100.

In addition, in the disk 122, a protrusion 122a protrudes toward the inside of the pipe 10 at a central portion, and an inlet hole 122b formed to be symmetrical to each other is formed through.

Here, although the inlet hole 122b is not shown, it is tapered so that the inner diameter of the pipe 10 side is wide and the inner diameter of the sub-back pressure chamber 126 is narrow, so that the fluid flow is slowed when the fluid flows due to the occurrence of a water hammer. It may be configured to further increase the buffering effect.

In addition, the ball check valve 140 includes a body 142 coupled to a through hole formed at an upper end of the cap member 114 of the housing 110 and a ball member provided inside the body 142 ( 144).

Here, the body 142 has a first through hole (142a) is formed in the upper portion to communicate with the outside so that outside air is introduced, and a second through hole (142b) communicating with the back pressure chamber (116) of the housing (110) Is formed.

When explaining the operating relationship of the water hammer arrester 100 according to the present invention configured as described above is as follows.

First, the fluid in the pipe 10 initially flows into the sub-back pressure chamber 126 through the inlet hole 122b of the disk 122, and the ball check valve 140 provided in the housing 110 External air is introduced into the back pressure chamber 116 through the first through hole (142a) of the back pressure chamber 116 to maintain a constant pressure inside the back pressure chamber 116.

Accordingly, as shown in Fig. 2 (a), the tension of the spring 130 supporting the support member 124 and the air pressure applied to the back pressure chamber 116 and the pipe 10 and the sub back pressure chamber 126 ), the pressures of the fluids applied to each other are in a balanced state, and the disk unit 120 is maintained at the inlet side of the housing 110.

Next, when the fluid pressure is instantaneously increased and a water hammer is applied to the pipe 10, the fluid flow is distributed to both sides by the protrusions 122a of the disk 122, thereby pressing the disk 122 in a balanced manner. , Firstly, the impact is relieved by allowing the fluid in which the flow is dispersed to both sides by the protrusion 122a to flow into the sub-back pressure chamber 126 through the inlet hole 122b.

In addition, as shown in (b) of FIG. 2, the disk unit 120 is raised by a water hammer that is greater than the tension of the spring 130 and the air pressure inside the back pressure chamber 116, at this time, the spring ( 130), compresses the air in the back pressure chamber 116, and the ball 144 of the ball check valve 140 closes the first through hole 142a, thereby reducing the impact and reducing the impact of the pipe 10 according to the water hammer Can be prevented from being damaged.

Therefore, according to the water hammer arrestor 100 according to the present invention, the fluid pressure in the piping 10 absorbs the shock generated by an instantaneous sudden rise to prevent damage to the piping 10, and is driven up and down by the fluid pressure. The structure of the disk unit 120 is configured in a double structure to maintain the balance of the disk unit 120 with respect to the fluid pressure, improves operation stability, and is driven up and down by the fluid pressure. It has the advantage of making the water hammer prevention more reliably by forming the secondary back pressure chamber 126 by configuring it in two layers.

In the above, preferred embodiments of the present invention have been described, but the scope of the present invention is not limited thereto, and the scope of the present invention extends to the scope substantially equal to the embodiment of the present invention. It is possible to implement various modifications by those of ordinary skill in the technical field to which the present invention belongs within the scope not departing from.

The present invention relates to a water hammer arrestor, and absorbs the shock generated by an instantaneous increase in fluid pressure in the pipe to prevent damage to the pipe, and the structure of a disk that is driven up and down by the fluid pressure is configured in a double structure to prevent fluid pressure. Against this, it relates to a water hammer arrester that makes it possible to more reliably maintain the balance of the disk and improves operational stability.

10: pipe 12: inlet
110: water hammer arrester 110: housing
112: cylinder 114: cap
116: back pressure chamber 118: O-ring
120: disk unit 122: disk
122a: protrusion 122b: inlet hole
124: support member 126: negative back pressure chamber
128: O-ring 130: spring
140: ball check valve 142: body
142a: first through hole 142b: second through hole
144: ball member

Claims (5)

In the water hammer arrester installed in the pipe,
The lower part is opened and the back pressure chamber is formed inside the housing installed in the pipe,
A disk portion formed of a disk provided in close contact with the inner circumferential surface of the housing and a support member coupled to be spaced apart from the disk by a predetermined distance, driven by fluid pressure, and having a negative back pressure chamber formed between the disk and the support member,
A spring provided inside the housing to elastically support the disk unit,
It comprises a ball check valve provided on the upper end of the housing,
The disk has a protrusion protruding toward the pipe at the central portion, and an inlet hole is formed through the inlet hole to form a symmetrical flow through the inlet hole, and the fluid firstly flows into the sub-back pressure chamber, and the disk is operated to absorb water pressure,
The inlet hole is formed to be tapered so that the inner diameter of the pipe side is wide and the inner diameter of the sub-back pressure chamber side is narrowly formed, so that the fluid flow is slowed and the impact is relieved when the fluid flows due to the occurrence of a water hammer.
The method of claim 1,
The housing is formed in a cylindrical shape and a cylinder coupled to the pipe and installed,
Water hammer arrestor, characterized in that consisting of a cap member coupled to the upper portion of the cylinder.
delete delete The method of claim 1,
The ball check valve is coupled to a through hole formed at an upper end of the housing, and a body having first and second through holes formed in the upper and lower portions,
And a ball member provided on the inner side of the body to selectively close the first through hole.

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