KR100990499B1 - Apparatus and method for manufacturinging device for preventing water hammer - Google Patents

Abstract

The present invention relates to a water hammer welding device and a water hammer preventing method, comprising: a jig for fixing a chamber having an inert gas inlet formed thereon, a stage on which the jig is installed, and a support installed to move vertically on the stage. A first holder installed in the unit, the support unit to closely contact the inert gas inlet of the chamber according to the movement of the support unit and inject the inert gas into the chamber, and installed outside the first holder to move the support unit. Accordingly, there is provided a water hammer welding device, comprising: a second holder for closely contacting the upper portion of the water hammer and injecting an inert gas therein, and a welding electrode installed to move through the first holder.

Through this, accurate welding is possible when the inert gas is filled in the chamber and the inert gas inlet of the chamber is sealed with the welding ball.

Chamber, inert gas inlet, first holder, second holder

Description

Water hammer guard welding device and water hammer guard manufacturing method {APPARATUS AND METHOD FOR MANUFACTURINGING DEVICE FOR PREVENTING WATER HAMMER}

The present invention relates to a water hammer welding device and a method of manufacturing a water hammer, and more particularly, to eliminate welding defects caused by easily performing an assembly process of injecting and sealing an inert gas into the water hammer. It relates to a water hammer welding device and a water hammer manufacturing method.

In general, if the valve in the downstream part of the pipeline is filled with liquid, the valve closes abruptly, and the flow of the liquid in the tube is rapidly decelerated, so that the kinetic energy of the liquid is converted into pressure energy to transmit shock noise and vibration inside the pipeline. A water hammer will occur.

If the internal liquid is completely incompressible and the pipe wall is rigid, the pressure when the valve is closed instantaneously is infinite, but in reality the liquid is slightly compressible and the pipe wall is elastic, so closing the valve will close the wall of the pipe. Is small but expands and the liquid is compressed to increase the pressure, but the pressure increase is limited.

This water hammer action is the main cause of the damage and noise generation of the pipeline to prevent this by installing a water hammer to prevent the shock noise and vibration generated in the pipeline.

An apparatus for manufacturing a water hammer prevention device for preventing such a water hammer is disclosed in Korean Patent Publication No. 10-0825423.

Water hammer welding device according to the prior art is shown in Figures 1-3.

1 is a perspective view showing a water hammer according to the prior art, Figure 2 is a cross-sectional view showing a water hammer according to the prior art, Figure 3 is an enlarged view of portion B of FIG.

Referring to the drawings, the water hammer preventive welding device is a support unit 100 and vertically moving on the stage 150 is installed jig 310 is fixed so that the water hammer 20 is not moved, and the support unit ( The holder 260 is in close contact with the inert gas inlet 20a of the water hammer 20 by the movement of the water hammer 20 and injects the inert gas into the chamber 22 of the water hammer 20, and the holder 260. And a welding electrode 220 which is installed to penetrate and welds the inert gas inlet 20a.

As shown in FIG. 3, when the bottom surface of the holder 260 is in close contact with the top surface of the chamber 22 of the water hammer 20, the inlet gas discharge port 266 is sealed by hermetically sealing the periphery of the inert gas injection port 20a. The inert gas injected through is filled into the chamber 22 through the inert gas inlet 20a formed on the upper surface of the chamber 22.

According to the conventional water hammer preventive welding device configured as described above, the inert gas inlet 20a of the chamber 22 can be welded with the welding ball 400 to block the leakage of the inert gas filled in the chamber. In addition, a backflow prevention structure for preventing backflow of the inert gas filled in the chamber 22 is not required for the water hammer to reduce the manufacturing cost.

However, the pressure of a predetermined size, for example 4kg / cm ² through the inert gas inlet 20a formed on the chamber 20 Injecting the pressure and when welding with the welding ball 400 there was a problem that the quality of the welding is not made due to the pressure formed in the chamber 20.

Due to such a poor welding there was a problem that the water hammer does not prevent the normal function.

The present invention is to solve this problem, in order to solve the problem that high-quality welding is not made due to the pressure formed inside the chamber when welding the inert gas through the inert gas inlet formed in the upper chamber and the welding ball. It is an object of the present invention to provide a water hammer welding device and a manufacturing method.

That is, the present invention is provided on the outside of the existing holder in close contact with the upper portion of the water hammer according to the movement of the support unit and having a second holder for injecting an inert gas into the inside to increase the pressure inside and outside the chamber when welding with a welding ball. An object of the present invention is to provide a water hammer preventing device and a manufacturing method.

According to an embodiment of the present invention, the present invention is a device for welding a water hammer including a chamber having an inert gas inlet, jig for fixing the chamber formed with an inert gas inlet on the upper surface, the jig is A stage to be installed, a support unit installed to move vertically on the stage, a first holder installed to the support unit to closely contact the inert gas inlet of the chamber according to the movement of the support unit, and to inert the inert gas into the chamber; And a second holder installed outside the first holder to closely contact an upper portion of the water hammer according to the movement of the support unit, and injecting an inert gas therein, and a welding electrode installed to move through the first holder. It is characterized by.

At this time, it is preferable that at least one inert gas inlet is formed on the side of the second holder.

In addition, it is more preferable to install a gasket between the second holder and the upper surface of the water hammer, in terms of sealing the filled gas.

On the other hand, the present invention is a method for manufacturing a water hammer including a chamber having an inert gas inlet, the step of placing a welding ball on the upper portion of the inert gas inlet formed on the chamber upper surface, the inert formed on the upper surface of the chamber Filling an inert gas into the chamber through a gas injection port; filling an inert gas into a pressure equal to an inert gas pressure filled in the chamber into an outer chamber formed on the chamber; and an inert formed on the upper surface of the chamber. And welding the welding ball to the gas inlet, and welding the welding ball to the inert gas inlet.

At this time, the inert gas filled in the chamber and the outer chamber is preferably helium and nitrogen.

According to the present invention configured as described above, inert gas is injected through the inert gas inlet formed in the upper part of the chamber, and then the same pressure as formed in the chamber and the outside during welding with the welding ball is used to precisely inert gas inlet 20a of the water hammer. To be welded.

This welding makes it easier to manufacture the water hammer and makes the function smooth.

Hereinafter, with reference to Figures 4 to 7 attached to a preferred embodiment of the present invention will be described in detail.

This embodiment is intended to be described in detail so that those skilled in the art to which the present invention pertains can easily carry out the present invention, which does not mean that the spirit and scope of the present invention is limited.

Figure 4 is a partial cross-sectional view showing a water hammer welding device according to an embodiment of the present invention, Figure 5 is a cross-sectional view showing a water hammer welding device according to an embodiment of the present invention, Figure 6 and Figure 7 of the present invention It is a schematic diagram showing the welding effect of the water hammer preventive welding apparatus according to an embodiment.

First, the water hammer preventing device according to the present invention will be described.

As shown in Figure 4 and 5, the water hammer prevention device according to the present invention includes a support unit 100, the first holder 260, a welding electrode 220, the second holder 30.

The support unit 100 moves vertically on the stage 150 on which the jig 310 for fixing the water hammer 20 is not moved.

The first holder 260 is in close contact with the inert gas inlet 20a of the water hammer 20 as the support unit 100 moves and injects the inert gas into the chamber 22 of the water hammer 20. Play a role.

The second holder 30 is installed outside the first holder 260 to closely contact the upper portion of the water hammer 20 according to the movement of the support unit 100 and inject an inert gas therein.

The welding electrode 220 is installed through the first holder 260 to weld the inert gas inlet 20a.

Meanwhile, as shown in FIG. 4, one or more inert gas injection holes 30a may be formed on the side surface of the second holder 30.

In addition, the gasket 40 may be installed between the second holder 30 and the upper surface of the water hammering block 20 to further tightly seal the water hammering block 20 and the second holder.

As shown in FIG. 5, when the lower surface of the first holder 260 is in close contact with the upper surface of the chamber 22 of the water hammer 20, the airtight seal around the inert gas inlet 20a is hermetically sealed and the inert gas outlet ( The inert gas injected through 266 is filled into the chamber 22 through the inert gas inlet 20a formed on the upper surface of the chamber 22.

At this time, the second holder 30 installed outside the first holder 260 is also in close contact with the upper surface of the chamber 22, thereby forming an external chamber. Then, the inert gas is injected through the inert gas inlet 30a.

That is, an inert gas may be filled in the chamber 22 of the water hammer 20 and the outer chamber formed by the second holder 30 at the same pressure.

6 and 7, it can be clearly seen the difference between the configuration and effects of the water hammer preventive device production apparatus according to the prior art and the water hammer preventive device manufacturing apparatus according to the present invention.

In the conventional water hammer prevention device manufacturing apparatus as shown in Figure 6 (a), Figure 7 (a) it is difficult to weld the welding ball 400 accurately due to the pressure inside the water hammer. As a result of such poor welding, the exact tightness of the water hammer can not be maintained.

On the contrary, in the apparatus for manufacturing a water hammer according to the present invention, as shown in FIGS. 6 (b) and 7 (b), the pressure inside the water hammer can be equal to the pressure outside, so that accurate welding can be made. Will be. In this way, accurate welding in the desired position can be maintained the exact tightness of the water hammer.

In conclusion, due to the formation of the outer chamber by the second holder 30, the pressure is balanced when the water hammer is welded, and thus the welding of the water hammer is precisely performed.

Next, a method for manufacturing a water hammer including a chamber having an inert gas inlet will be described.

Method of manufacturing a water hammer according to the present invention comprises the steps of placing a welding ball on the upper portion of the inert gas inlet formed on the upper surface of the chamber, filling the inert gas into the chamber through the inert gas inlet formed on the chamber upper surface; Filling an inert gas at a pressure equal to an inert gas pressure filled in the chamber in an outer chamber formed on the chamber; and placing a welding ball in an inert gas inlet formed in the upper surface of the chamber; Welding to an inert gas inlet.

At this time, the inert gas filled in the chamber and the outer chamber may be made of a component such as helium or nitrogen.

By manufacturing the water hammer as described above, the pressure balance is achieved when the water hammer is welded, and thus, the welding of the water hammer can be accurately performed.

1 is a perspective view showing a water hammer according to the prior art.

2 is a cross-sectional view showing a water hammer according to the prior art.

3 is an enlarged view of a portion B of FIG. 2 according to the prior art.

Figure 4 is a partial cross-sectional view showing a water hammer preventive welding apparatus according to an embodiment of the present invention.

5 is a cross-sectional view showing a water hammer preventing device according to an embodiment of the present invention.

6 and 7 is a schematic diagram showing the welding effect of the water hammer preventive welding apparatus according to an embodiment of the present invention.

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

20: chamber 20a: inert gas inlet

30: second holder 30a: inert gas inlet

40: gasket

100: support unit

150: stage

200: vertical moving unit

220: welding electrode

240: ground rod

260: first holder

261a: Gasket

262: inert gas inlet

264: supply passage of inert gas

266: inert gas discharge port

Claims (5)

In the apparatus for welding a water hammer including a chamber having an inert gas inlet, Jig for fixing the chamber formed with an inert gas inlet on the upper surface, A stage on which the jig is installed, A support unit installed to move vertically on the stage; A first holder installed in the support unit to closely contact the inert gas inlet of the chamber according to the movement of the support unit and inject the inert gas into the chamber; A second holder installed outside the first holder to closely contact the upper portion of the water hammer according to the movement of the support unit, and to inert an inert gas therein; Water hammer prevention welding device comprising a welding electrode which is installed to move through the first holder. The method of claim 1, At least one inert gas injection hole is formed on a side of the second holder. The method according to claim 1 or 2, Water hammer prevention welding device, characterized in that the gasket is installed between the second holder and the upper surface of the water hammer. In the method of manufacturing a water hammer including a chamber having an inert gas inlet, Placing a welding ball on an upper portion of the inert gas inlet formed on the chamber; Filling an inert gas into the chamber through an inert gas inlet formed in the upper surface of the chamber; Filling an inert gas into an outer chamber formed on the chamber at the same pressure as the inert gas pressure filled in the chamber; Seating a welding ball on an inert gas inlet formed on the upper surface of the chamber; Water hammer prevention method comprising the step of welding the welding ball to the inert gas inlet. The method of claim 4, wherein Inert gas is filled in the chamber and the outer chamber is a water hammer prevention method, characterized in that helium and nitrogen.

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