KR20140003020U - Pipe line structure for water pressure testing - Google Patents

Abstract

The present invention relates to a pipeline structure for hydraulic test, and more particularly, a vent portion for forming an air discharge passage on one side of a pipeline is installed to improve the accuracy of the hydraulic test in the pipeline, And more particularly to a pipeline structure for a water pressure test.
In order to achieve the above object, the present invention provides a pipeline structure for a water pressure test inside a pipe, comprising: a branch boss formed at one side of the pipe to form a channel communicating with the inside of the pipe, the branch boss protruding outward from an outer peripheral surface of the pipe; Wherein the opening and closing part includes a blind flange having a discharge hole formed in close contact with the branch boss, a vent plug for opening and closing the discharge hole, and a connection member connected between the vent plug and the blind flange. Lt; / RTI >

Description

Pipe line structure for water pressure testing [

The present invention relates to a pipeline structure for a hydraulic test, and more particularly, to a pipeline structure for a hydraulic test in order to improve the accuracy of pipeline weld defect, Line structure.

In general, ships and offshore structures are equipped with a number of pipelines such as drinking water lines, steam lines, fire extinguishing lines, air supply lines and the like.

Such a pipe line is installed by connecting a plurality of pipes through welding. After such a pipe line is installed, a water pressure test is performed to check whether a welded portion welded between pipes is defective.

That is, by measuring the water pressure inside the pipeline, it is possible to confirm whether or not the welded portion of the pipe is defective.

Hereinafter, with reference to FIG. 1, a conventional hydraulic test process for checking whether a welded portion of a pipeline is defective will be described.

1 is a conventional hydraulic pressure test state diagram for confirming whether or not a welded portion of a stainless steel pipe is defective. As shown in FIG. 1, a hydraulic test for checking whether a welded portion of a pipe 1 after a piping installation is defective is performed First, the end portion of the stainless steel pipe 1 is sealed using the watertight plate 2.

After the end of the stainless steel pipe 1 is sealed by using the watertight plate 2 as described above, one end of the water supply hose 3 is connected to the stainless steel pipe 1, 3 is connected to the water tank 4 at the other end.

The water supply hose 3 is provided with a test pump 5 capable of supplying the water in the water tank 4 into the stainless steel pipe 1 as well as the water pressure inside the stainless steel pipe 1 The water in the water tank 4 is introduced into the stainless steel pipe 1 by the test pump 5 and the water pressure in the stainless steel pipe 1 is measured by a pressure gauge (6), it is possible to confirm whether or not the welded portion of the stainless steel pipe (1) is defective.

However, the conventional pipeline structure for the pipeline hydraulic pressure test has the following problems.

In order to raise the water pressure inside the pipe 1 normally, all the air inside the pipe 1 must be discharged. Since a separate vent hole for discharging the air is not formed in the conventional pipe 1, 1) was not smoothly discharged.

Accordingly, there is a problem in that accuracy and reliability of the water pressure test can not be maximized as the water pressure can not be normally raised inside the pipe 1. [

Republic of Korea Pub. No. 20-2009-0000884

The object of the present invention is to provide a pipeline structure for a water pressure test in which a vent portion is provided so as to smoothly discharge the air inside the pipe so as to improve the accuracy of the hydraulic test. .

According to another aspect of the present invention, there is provided a pipeline structure for a water pressure test inside a pipe, comprising: a branch boss formed at one side of a pipe to form a pipe communicating with the inside of the pipe, Wherein the opening and closing part includes a blind flange having a discharge hole formed in close contact with the branch boss, a vent plug for opening and closing the discharge hole, and a connecting member connected between the vent plug and the blind flange And provides a pipeline structure for the constructed hydraulic test.

At this time, the branch boss is formed with a coupling flange, and the blind flange is preferably bolted to the coupling flange.

At this time, a vent valve may be further provided between the opening / closing part and the branch boss.

Further, it is preferable that the vent plug is screwed to the discharge hole.

The pipeline structure for the hydraulic test according to the present invention has the following effects.

First, a vent portion is provided at one side of the pipeline so that the air inside the pipe can be discharged, so that all the air inside the pipe can be discharged.

Accordingly, the water pressure inside the pipe can be raised normally, and the reliability and accuracy of the water pressure test can be enhanced.

Secondly, since the connecting member is provided between the vent plug and the blind flange, even if the vent plug protrudes due to the discharge pressure during the discharge of air through the discharge hole, there is no fear that the vent plug is lost due to the restraint of the connecting member However, it is effective not to cause a safety accident caused by the vent plug being protruded.

FIG. 1 is a schematic view for confirming a water pressure test inside a pipeline in order to confirm defects of a welding portion of a pipeline according to the prior art; FIG.
2 is a side view showing a main part of a pipeline structure for a water pressure test according to a preferred embodiment of the present invention
3 is a side view showing a state in which a discharge port of a vent plug of a pipeline structure for a water pressure test is opened according to a preferred embodiment of the present invention;

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to best describe its own design in the best way It should be construed as meaning and concept consistent with the technical idea of the invention.

Hereinafter, a pipeline structure for a water pressure test according to a preferred embodiment of the present invention (hereinafter referred to as a pipeline structure) will be described with reference to FIGS. 2 and 3 attached hereto.

The pipeline structure has a technical feature that a separate vent is provided to completely discharge the air in the pipe during the hydraulic test of the inside of the pipe to check defects in the welded portion of the pipeline.

The vent portion is installed at one side of the pipeline and has a structure to communicate with the inside and the outside of the pipeline.

The bent portion will be described below.

The vent portion includes a branch boss (100), a vent valve (200), and an opening / closing portion (300).

The branch boss 100 is formed as a pipe that communicates with the inside of the pipeline 1 and is formed protruding from one side of the pipeline 1 toward the outside of the pipeline 1.

The branch boss 100 serves as a pipe for discharging the air inside the pipeline 1 for the water pressure test inside the pipeline 1 and preferably has a diameter smaller than the diameter of the pipeline 1 Do.

That is, since it serves as a pipe for discharging the air inside the pipeline 1, it does not need to have a large diameter.

At this time, a coupling flange 110 is formed at the end of the branch boss 100.

The coupling flange 110 is configured to be coupled to a vent valve 200 to be described later, and the coupling flange 110 is formed with a plurality of coupling holes 111 for bolt fastening.

Meanwhile, the branch boss 100 is preferably bent at about 45 degrees toward one side with respect to the pipeline 1.

Next, the vent valve 200 serves to open and close the piping of the branch boss 100, and is installed in the coupling flange 110 formed on the branch boss 100.

The vent valve 200 opens the piping of the branch boss 100 in the process of discharging the air inside the pipeline 1 for the water pressure test inside the pipeline 1, So that the pipeline 1 can be discharged to the outside together with the water, and after the discharge of the air inside the pipeline 1 is completed, the pipe line of the branch boss 100 is closed during the water pressure test inside the pipeline 1, So that the water pressure test can be performed.

At this time, coupling flanges 210 are also provided at both ends of the vent valve 200.

Next, the opening and closing part 300 serves to open and close the duct of the branch boss 100 together with the vent valve 200. [

Specifically, the opening and closing part 300 is installed at one end of the vent valve 200 to open and close the flow path of the vent valve 200.

The opening and closing part 300 includes a blind flange 310, a vent plug 320, and a connecting member 330.

The blind flange 310 is screwed to the coupling flange 210 formed at one end of the vent valve 200 and a discharge hole 311 communicating with the flow path of the vent valve 200 is formed at the center of the blind flange 310 do.

The discharge hole 311 is a portion where air and water are discharged through the branch boss 100 when the vent valve 200 is opened.

The vent plug 320 serves to open and close the discharge hole 311 and is screwed to the discharge hole 311.

That is, in order to open and close the discharge hole 311 of the blind flange 310, the vent plug 320 is tightened or loosened to the discharge hole 311 to perform opening and closing operations with respect to the discharge hole 311.

The connecting member 330 serves to prevent the vent plug 320 from being separated from the blind flange 310.

That is, in the course of discharging the air inside the pipeline 1, the water in the pipeline 1 is discharged through the flow path of the branch boss 100 and the rental valve 200 with a certain pressure together with the air, The pressure of the water discharged from the pipeline 1 when the vent plug 320 is released and the discharge hole 311 is opened may cause the vent plug 320 to jump out and be lost as well as causing the protruding vent plug 320 The connecting member 330 serves to hold the vent plug 320 so that the vent plug 320 does not protrude from the blind flange 310.

At this time, the shape and material of the connecting member 330 are not limited, but are preferably provided as a chain of SUS material.

Hereinafter, the operation of the pipeline structure constructed as described above will be described.

In order to confirm whether or not there is a defect in the welded portion of the pipeline 1, a water pressure test is performed, and the operation of discharging all the air inside the pipeline 1 before the water pressure test is performed.

This is because, when the air in the pipeline 1 becomes cold, a normal pressure rise can not be achieved in raising the water pressure inside the pipeline 1 for the hydraulic test later.

For this purpose, although not shown, water is introduced into the pipeline through a water inflow conduit installed at one side of the pipeline 1.

At this time, the discharge hole 311 of the blind flange 310 is closed by the vent plug 320, and the vent valve 200 is opened.

On the other hand, the water flowing into the pipeline 1 is continuously heated up, and the vent valve 200 is raised through the branch boss 100.

At this time, since the inside of the pipeline 1 is filled with water, the air is completely exhausted. When the water reaches the vent valve 200, the vent plug 320 is released to open the discharge hole 311.

At this time, all of the air together with the water is discharged through the discharge hole 311. In this process, the vent plug 320 is constrained to the connection member 330 as shown in FIG. 3, .

Next, when the discharge of the air in the pipeline 1 is completed, the vent hole 320 is closed to close the discharge hole 311 and the vent valve 200 is closed to close the flow path of the vent valve 200.

Next, by performing water pressure test inside the pipeline 1 while introducing water into the pipeline 1 through the water inflow conduit to increase the water pressure in the pipeline 1, Is completed.

As described above, the pipeline structure for the hydraulic test according to the present invention is a technique in which a vent portion is installed on one side of the pipeline so that the air inside the pipeline can be smoothly discharged before the hydraulic test in the pipeline is performed. Feature.

Accordingly, as the water pressure inside the pipeline rises normally, accuracy and reliability of the water pressure test can be increased, and the accuracy of determination of welding defect can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

100: Branch boss 110: Coupling flange
111: fastening ball 200: vent valve
210: coupling flange 300: opening /
310: Blind flange 311: Exhaust hole
320: vent plug 330: connecting member

Claims (4)

A pipeline structure for a hydraulic test in a pipe,
A branch boss formed at one side of the pipe to form a channel communicating with the inside of the pipe and protruding outward from an outer peripheral surface of the pipe;
And an opening and closing part for opening and closing the channel of the branch boss,
The opening /
A pipeline structure for a water pressure test comprising a blind flange in close contact with a branch boss and formed with a discharge hole, a vent plug for opening and closing the discharge hole, and a connecting member connected between the vent plug and the blind flange. The method according to claim 1,
Wherein the branch boss is formed with a coupling flange and the blind flange is bolted to the coupling flange. 3. The method of claim 2,
And a vent valve is further provided between the opening / closing part and the branch boss. 4. The method according to any one of claims 1 to 3,
And the vent plug is screwed to the discharge hole.

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