KR20150109095A - Leak checker of pipline and method thereof - Google Patents

Abstract

A pipe leakage inspection apparatus is disclosed. According to an aspect of the present invention, there is provided an apparatus for inspecting a pipe leak, comprising: a water tank in which a test fluid provided in a pipeline is stored; A water pump connecting the water tank and the pipeline so as to introduce the inspection fluid of the water tank into the pipeline; And an air supply unit connected to the pipeline to provide air to the pipeline upon removal of the test fluid from the pipeline.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a leak checker pipeline,

The present invention relates to an apparatus and method for inspecting leakage of a pipeline, and more particularly, to an apparatus and method for inspecting a leak of a pipeline after inspecting leakage of installed pipelines will be.

Ship or offshore structures are equipped with high pressure and large pipelines. Such a pipeline is arranged to pass through various paths in a hull or a structure, and a plurality of pipes are completed by joining with a joint such as an annular flange.

Pipelines may leak to joints or pipes after completion, so run a leak test to check the leakage of each joint by flowing the test fluid.

Further, after the leakage inspection for the pipeline is completed, the inspection removal operation for removing the inspection fluid from the pipeline is carried out.

Conventionally, the equipment connected to the end of the pipeline where the number of inspections of the pipeline is reached is disassembled so that the air can be introduced to the pipeline, and after the drain action is taken, The fluid was removed.

However, this inspection fluid removal method for existing pipelines has the disadvantages of dismantling the equipment from the pipeline, and separately performing the drain operation when the pipeline is decompressed.

Korean Utility Model Application No. 20-2011-05065

One embodiment of the present invention is to provide a method and system for removing inspection fluid from a pipeline by removing vacuum of the pipeline without advancing equipment disassembly and drain work to prevent vacuuming of the pipeline And to provide a pipeline leaking water inspecting apparatus and method therefor.

According to an aspect of the present invention, there is provided a water tank in which an inspection fluid provided in a pipeline is stored; A water pump connecting between the water tank and the pipeline to introduce the inspection fluid of the water tank into the pipeline; And an air supply unit connected to the pipeline to supply air to the pipeline when removing the inspection fluid from the pipeline.

Wherein the air supply unit comprises: a valve module connecting between the water pump and the pipeline so that the air flows into the pipeline when the inspection fluid is removed; And an air blower module coupled to the valve module to supply the air.

The valve module may be provided with a three-way valve so that the air supplied from the air blower module flows into the pipeline and can be supplied to the connection portion of the water tank and the water pump.

The filter module may be disposed at the connection portion between the water tank and the water pump so that foreign substances contained in the inspection fluid are filtered.

After the operation of the water pump is stopped and water leakage inspection for the pipeline is completed, the valve module is switched so that the air can be introduced from the pipeline, and the air blower module can be operated.

In the pipe inspection apparatus described above, the air supply unit may be connected to a branch valve or a pipe of the pipeline.

According to another aspect of the present invention, there is provided a method for controlling a water pump, comprising the steps of connecting a water pump connected to a water tank in which an inspection fluid is stored to a pipeline, and connecting an air supply unit capable of supplying air between the water pump and the pipeline; Operating the water pump to pressurize the inspection fluid of the water tank into the pipeline to introduce the inspection fluid; After depressurizing the pipeline, depressurizing the pipeline so that the test fluid in the pipeline flows in a reverse direction; And activating the air supply unit to supply air to the pipeline side to remove the vacuum of the pipeline.

Wherein the air supply unit comprises: a valve module connecting between the water pump and the pipeline so that the air flows into the pipeline when the inspection fluid is removed; And an air blower module connected to the valve module to supply the air, wherein after the operation of the water pump is stopped and leakage inspection for the pipeline is completed, the air is supplied to the valve The module is switched, and the air blower module can be operated.

Wherein the valve module is configured such that the air supplied from the air blower module is introduced into the pipeline and supplied to the connection portion of the water tank and the water pump and the inspection fluid is flowed from the pipeline to the water pump side Direction valve, and the valve module may be operated so that the air is disposed between the water tank and the water pump so as to be provided to a filter module for removing foreign matter of the inspection fluid.

The above-mentioned pipeline leakage inspection method may further include connecting the air supply unit to a branch valve or pipe of the pipeline.

According to an embodiment of the present invention, when the inspection fluid of the pipeline is removed, the vacuum of the pipeline is released and the inspection fluid is removed from the pipeline without performing equipment disassembly and drain operation to prevent the vacuum of the pipeline It is possible to provide an apparatus for inspecting leakage of pipelines and a method therefor that can drain water smoothly.

1 is a schematic view of a pipe leakage inspection apparatus according to an embodiment of the present invention.
2 is a schematic view of a pipe leakage inspection apparatus according to another embodiment of the present invention.

Various embodiments of the present invention will now be described by way of specific embodiments shown in the accompanying drawings. The differences between the embodiments of the present invention described below are to be understood as mutually exclusive. That is, the specific shapes, structures, and characteristics described may be embodied in other embodiments in accordance with one embodiment without departing from the spirit and scope of the present invention, It is to be understood that the arrangements may be altered, where like reference numerals refer to like or similar features throughout the several views, and length and area, thickness, and the like may be exaggerated for convenience.

1, the apparatus for inspecting a pipe leakage according to an embodiment of the present invention includes a water tank 110 in which a test fluid provided in a pipeline 100 is stored, a test fluid 110 in a water tank 110, A water pump 120 connected between the water tank 110 and the pipeline 100 for introducing the test fluid into the pipeline 100 and a water pump 120 connected to the pipeline 100 when the test fluid is removed from the pipeline 100. [ And an air supply unit 130 connected to the pipeline 100 to provide air.

The apparatus for inspecting a pipe leakage according to the present embodiment is characterized in that when the inspection fluid pushed by the pipeline 100 to check the leakage of the pipeline 100 is removed, It is possible to relieve the vacuum of the pipeline 100 and smoothly drain the inspection fluid from the pipeline 100 without performing equipment disassembly and drain operation.

That is, according to the present embodiment, water is stored in the water tank 110 as an inspection fluid, and this water is conveyed to all the regions of the pipeline 100 which are pressurized and connected by the water pump 120.

In the pipeline 100, it is possible to check where the leakage is caused by the water filled with the pressurized pressure. When there is leakage of the pipeline 100, water is removed from the pipeline 100 after indicating the location of the leak or after performing maintenance work to prevent leakage.

Water may be discharged in a direction opposite to the direction in which the water is introduced as the pressure in the pipeline 100 is reduced. At this time, as the water in the pipeline 100 is discharged to the outside, a vacuum is generated in the pipeline 100, so that the discharge of water from the pipeline 100, which is at least several kilometers, may not be smooth. The vacuum of the pipeline 100 can be relieved as air is introduced from the pipeline 100 by means of the valves 130,

Thus, water can be removed from the pipeline 100 without disassembling the equipment at the end of the pipeline 100 to relieve the vacuum, as described above.

The air supply unit 130 capable of preventing the generation of the vacuum on the pipeline 100 side is provided with the water pump 120 and the pipeline 100 so that air can be introduced into the pipeline 100 when the inspection fluid is removed. And an air blower module 138 connected to the valve module 135 to supply air.

The valve module 135 according to the present embodiment is configured such that the air supplied from the air blower module 138 flows into the pipeline 100 and flows into the connection portion 140 between the water tank 110 and the water pump 120 Way valve that can be supplied.

Air supplied from the air blower module 138 by the valve module 135 can be selectively supplied to the pipeline 100 and the connection portion 140. Air may be supplied to the filter module 141 side at the time of air cleaning of the filter module 141, which will be described later, disposed at the connection portion 140. [

The water pump 120 is connected to the connection portion 140 of the water tank 110 according to the present embodiment so that foreign matter contained in water flowing from the pipeline 100 to the water pump 120 can be filtered. Module 141 may be disposed. The filter module 141 may be provided in a filter or a strainer type. The air described above may be provided to the filter in reverse to the flow direction of water provided from the pipeline 100 to remove foreign matter from the filter.

As described above, according to the present embodiment, after the operation of the water pump 120 is stopped and the leak check on the pipeline 100 is completed, the air can be introduced into the valve module 135 to be introduced from the pipeline 100, The air blower module 138 can be operated so that air is supplied to the pipeline 100 at the same time.

At this time, the air blower module 138 may be an air blowing unit connected to a compressor or a compressor, or an air pump of a vane or gear type. The operation of the air blower module 138 is enabled by a power supply to the motor in an electrical manner.

Hereinafter, a leakage inspection method of the pipeline 100 by the leakage inspection apparatus of the pipeline 100 as described above with reference to FIG. 1 will be described.

The water leakage inspection method of the pipeline 100 according to an embodiment of the present invention includes connecting a water pump 120 connected to a water tank 110 in which inspection fluid is stored to a pipeline 100, Connecting the air supply unit 130 capable of supplying air between the pipeline 100 and the pipeline 100 and controlling the operation of the water pump 120 to pressurize the inspection fluid of the water tank 110 to the pipeline 100 And depressurizing the pipeline (100) so that the test fluid of the pipeline (100) flows out in the reverse direction after confirming the leakage of the pipeline (100); and operating the air supply unit And supplying air to the pipeline 100 side to remove the vacuum of the pipeline 100.

According to the leakage inspection method of the pipeline 100 according to the present embodiment, water can be supplied as inspection fluid to the pipeline 100 side to check the leakage of the pipeline 100, Air is supplied to the pipeline 100 side by the air supply unit 130 to prevent the generation of vacuum in the pipeline 100 when the water is discharged from the pipeline 100 after the leakage of the pipeline 100 is inspected, The water can be smoothly drained from the water tank 100 and stored in the water tank 110 again.

The air supply unit 130 as described above used for this purpose includes a valve module 120 connecting between the water pump 120 and the pipeline 100 so that air is introduced into the pipeline 100 side upon removal of the inspection fluid, And an air blower module 138 connected to the valve module 135 so as to supply air to the water pump 120. After the water pump 120 is stopped and the water leakage inspection of the pipeline 100 is completed, The valve module 135 is switched so that air can flow from the pipeline 100, and the air blower module 138 can be operated.

The valve module 135 at this time is configured such that the air supplied from the air blower module 138 flows into the pipeline 100 and is supplied to the connecting portion 140 between the water tank 110 and the water pump 120, Valve. In addition, the valve module 135 may be operated so that air is provided between the water tank 110 and the water pump 120 to be supplied to the filter module 141 which removes foreign matter of the inspection fluid.

2, air of the air blower module 138 may be provided to the pipeline 100 through the valve module 135, as well as a branch valve or valves located at more than one point on the pipeline 100 May be provided to the pipeline through conduit 150.

According to this alternative embodiment, air can be provided at a plurality of points in the pipeline 100, so that the generation of vacuum in the pipeline 100 can be prevented more effectively.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Deletion, addition or the like of the present invention may be variously modified and changed within the scope of the present invention.

100: Pipeline
110: Water tank
120: Water pump
130: Air supply unit
135: Valve module
138: Air blower module
140:
141: Filter module
150: Branch valve or tube

Claims (10)

A water tank in which the inspection fluid supplied to the pipeline is stored;
A water pump connecting between the water tank and the pipeline to introduce the inspection fluid of the water tank into the pipeline; And
And an air supply unit connected to the pipeline to provide air to the pipeline when the inspection fluid is removed from the pipeline. The method according to claim 1,
The air supply unit includes:
A valve module connecting between the water pump and the pipeline so that the air flows into the pipeline when the inspection fluid is removed; And
And an air blower module connected to the valve module to supply the air. 3. The method of claim 2,
Wherein the valve module is provided with a three-way valve so that the air supplied from the air blower module flows into the pipeline and is supplied to the connection portion of the water tank and the water pump. The method of claim 3,
Wherein the filter module is disposed at a connection portion between the water tank and the water pump so that foreign matter contained in the inspection fluid is filtered. 5. The method of claim 4,
Wherein the valve module is switched so that the air can be introduced from the pipeline after the water pump is stopped and water leakage inspection on the pipeline is completed, and the air blower module is operated. The method according to claim 1,
Wherein the air supply unit is connected to a branch valve or a pipe of the pipeline. Connecting a water pump connected to a water tank in which the inspection fluid is stored to a pipeline and connecting an air supply unit capable of supplying air between the water pump and the pipeline;
Operating the water pump to pressurize the inspection fluid of the water tank into the pipeline to introduce the inspection fluid;
After depressurizing the pipeline, depressurizing the pipeline so that the test fluid in the pipeline flows in a reverse direction; And
And operating the air supply unit to supply air to the pipeline side to remove the vacuum of the pipeline. 8. The method of claim 7,
The air supply unit includes:
A valve module connecting between the water pump and the pipeline so that the air flows into the pipeline when the inspection fluid is removed; And
And an air blower module connected to the valve module to supply the air,
Wherein the water pump is switched on so that the air can be introduced from the pipeline after the water pump is stopped and the leakage inspection of the pipeline is completed, . 9. The method of claim 8,
Wherein the valve module is configured such that the air supplied from the air blower module is introduced into the pipeline and supplied to the connection portion of the water tank and the water pump and the inspection fluid is flowed from the pipeline to the water pump side Directional valve,
Wherein the valve module is operated such that the air is disposed between the water tank and the water pump so as to be provided to a filter module that removes foreign matter of the inspection fluid. 8. The method of claim 7,
And connecting the air supply unit to a branch valve or pipe of the pipeline.

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