KR102380831B1 - Pipe blocking device for preventing inflow of foreign material method for cutting pipe using the same - Google Patents

Abstract

According to the present invention, a tubular body; a balloon accommodated in a body passage formed inside the body; and an air supply pipe accommodated in the body passage and communicating with the balloon, wherein the body is made of a shape memory alloy whose shape is deformed by heating, so that a point of a portion extending in a straight line before heating is heated in one direction Provided are a pipe blocking device that is bent and deformed and a pipe cutting method using the same

Description

A pipe blocking device for preventing the inflow of foreign substances and a pipe cutting method using the same {PIPE BLOCKING DEVICE FOR PREVENTING INFLOW OF FOREIGN MATERIAL METHOD FOR CUTTING PIPE USING THE SAME}

The present invention relates to a pipe cutting technique, and more particularly, to a technique for preventing foreign substances from flowing into a pipe in a vertical pipe cutting operation.

Recently, the necessity of dismantling nuclear power plants and improving nuclear power plant facilities is emerging due to the aging of nuclear power plants. When dismantling and improving nuclear power plants, foreign substances are generated during the pipe cutting process. In the case of vertical pipes extending along the height direction, foreign substances generated during the cutting work fall within the vertical pipe, making it difficult to remove them. Since there is a problem that the possibility of damage to the device increases when foreign substances are introduced into the vertical pipe as described above, a technique for blocking the inflow of foreign substances into the vertical pipe in advance during the vertical pipe cutting process is required.

Republic of Korea Patent Publication No. 10-1726330 (2017.04.13.)

It is an object of the present invention to provide a pipe blocking device for preventing foreign substances from flowing into a pipe in a vertical pipe cutting operation and a pipe cutting method using the same.

In order to achieve the above object of the present invention, according to an aspect of the present invention, a body in the form of a tube; a balloon accommodated in a body passage formed inside the body; and an air supply pipe accommodated in the body passage and communicating with the balloon, wherein the body is made of a shape memory alloy whose shape is deformed by heating, so that a point of a portion extending in a straight line before heating is heated in one direction A pipe blocking device that is deformed by bending is provided.

In order to achieve the above object of the present invention, according to another aspect of the present invention, a through-hole processing step of forming a through-hole in a pipe to be cut; a device installation step of installing a pipe blocking device for blocking the pipe passage of the pipe to be cut through the through hole; and a pipe cutting step of cutting the pipe to be cut in a state in which the pipe passage is blocked by the pipe blocking device, wherein the pipe blocking device includes a body made of a shape memory alloy in the form of a pipe, and the inside of the body A device comprising: a balloon accommodated in the body passage formed in A pipe blocking step of blocking the pipe passage by supplying air to the balloon through the air supply pipe in a state in which the body is bent and deformed in the pipe passage by heating the body to expand the balloon A method of cutting a tubing is provided.

In order to achieve the above object of the present invention, according to another aspect of the present invention, a tubular body; and a blocking part having a plurality of supports sequentially arranged along the circumferential direction of the body, and a blocking film coupled to the plurality of supports, wherein one end of each of the plurality of supports is integrally connected with the body and the body and the plurality of supports are made of a shape memory alloy whose shape is deformed by heating, and the body is deformed by bending a point of a portion extending in a straight line before heating to one side by heating, and the plurality of The supports are provided with a pipe blocking device that is deformed to be radially unfolded by heating in a folded state so as to be in contact with the outer periphery of the body before heating.

In order to achieve the above object of the present invention, according to another aspect of the present invention, a through-hole processing step of forming a through-hole in a pipe to be cut; a device installation step of installing a pipe blocking device for blocking the pipe passage of the pipe to be cut through the through hole; and a pipe cutting step of cutting the target pipe to be cut in a state in which the pipe passage is blocked by the pipe blocking device, wherein the pipe blocking device includes a tube-shaped body and a body in the form of a tube, sequentially along the circumferential direction of the body A plurality of supports are disposed, and a blocking part having a blocking film coupled to the plurality of supports, wherein one end of each of the plurality of supports is integrally connected to the body, and the body and the plurality of supports are It is made of a shape memory alloy whose shape is deformed by heating, wherein the device installation step includes a device insertion step of inserting the front end of the body into the pipe passage through the through hole, and heating the body and the plurality of supports The body is bent and deformed in the pipe passage, and the plurality of supports are radially spread with respect to the body and deformed so that the blocking film blocks the pipe passage.

In order to achieve the above object of the present invention, according to another aspect of the present invention, as an apparatus for blocking the passage of the pipe, the rod-shaped body; and a blocking portion coupled to the body and deformed in shape to block the passage, wherein a portion of the body including the blocking portion is inserted into the passage through a through hole formed in the pipe, and the blocking portion is in the passage In the inserted state, the blocking portion is deformed to extend radially outward with respect to the body to provide a pipe blocking device for blocking the passage.

In order to achieve the above object of the present invention, according to another aspect of the present invention, a through-hole processing step of forming a through-hole in a pipe to be cut; a device installation step of installing a pipe blocking device for blocking the pipe passage of the pipe to be cut through the through hole; and a pipe cutting step of cutting the pipe to be cut in a state in which the pipe passage is blocked by the pipe blocking device, wherein the pipe blocking device includes a pipe-shaped body, coupled to the body and deformed A blocking unit for blocking the pipe passage is provided, wherein the device installation step includes: a device insertion step of inserting the tip of the body into the pipe passage through the through hole; There is provided a pipe cutting method comprising the steps of:

According to the present invention, all of the objects of the present invention described above can be achieved. Specifically, since a part of the pipe blocking device is inserted through the through hole formed in the pipe to be cut and the cut is made in the state that the internal passage of the pipe is blocked, the entry of foreign substances into the pipe is prevented in advance can be

1 is a flowchart schematically illustrating a pipe cutting method step by step according to an embodiment of the present invention.
Figure 2 is a perspective view showing a state in which the pre-processing step is performed in the pipe cutting method shown in Figure 1;
FIG. 3 is a cross-sectional view illustrating a state in which a groove is formed in a pipe to be cut through performing the pre-processing step shown in FIG. 2 .
Figure 4 is a perspective view showing a state in which the drilling step is performed in the pipe cutting method shown in Figure 1.
5 is a cross-sectional view illustrating a state in which a through hole is formed in a pipe to be cut through the execution of the drilling step shown in FIG. 4 .
6 is a perspective view showing a state in which the device insertion step is performed in the pipe cutting method shown in FIG. 1 , using the pipe blocking device according to an embodiment of the present invention.
7 is a cross-sectional view illustrating a state in which the pipe closing step is performed in the pipe cutting method shown in FIG. 1 .
8 is a cross-sectional view showing a state after the pipe cutting step is performed in the pipe cutting method shown in FIG.
9 is a perspective view illustrating a state in which the device insertion step of FIG. 1 is performed using a pipe blocking device according to another embodiment of the present invention.
10 is a cross-sectional view illustrating a state in which the pipe closing step of FIG. 1 is performed by the pipe blocking device shown in FIG. 9 .

1 is a flow chart showing a pipe cutting method according to an embodiment of the present invention. Referring to FIG. 1 , in the method for cutting a pipe according to an embodiment of the present invention, a through-hole processing step (S10) of forming a through-hole in order to install a pipe blocking device in a pipe to be cut, a through-hole processing step (S10) A device installation step (S20) of installing a pipe blocking device in the pipe to be cut using the through hole formed in the pipe cutting step (S30) of cutting the pipe to be cut in a state where the pipe blocking device is installed in the pipe to be cut (S30); It includes a foreign material removal step (S40) of removing the foreign material generated in the pipe cutting process. In this embodiment, the pipe cutting method shown in FIG. 1 may be suitably used for cutting a vertical pipe extending along a height direction during a plumbing facility improvement operation due to decommissioning and aging of a nuclear power plant in a nuclear power plant.

In the through-hole processing step ( S10 ), the pipe to be cut is processed to form a through hole for installing the pipe blocking device in the pipe to be cut. More specifically, the through-hole processing step (S10) includes a pre-processing step (S11) of forming a groove in the pipe to be cut, and forming a through-hole in the pipe to be cut by drilling the bottom of the groove formed through the pre-processing step (S11). and a drilling step (S12).

In the pre-processing step (S11), a pipe groove to be cut is formed corresponding to the cut position of the pipe to be cut. 2 shows a state in which the pre-processing step S11 is performed. Referring to FIG. 2 , the pipe to be cut 10 extending vertically along the height direction is drilled from the outside of the pipe 10 to be cut by the drill tool 20, and the pre-processing step S11 is performed, A groove 15 as shown in FIG. 3 is formed in the pipe 10 to be cut. Referring to FIG. 3, the groove 15 extends from the outer wall surface 11 of the pipe 10 to be cut toward the inner wall surface 12, and the inner wall surface 12 is blocked so that the bottom of the groove 15 ( 17) is formed. The groove 15 is positioned to correspond to the place where the pipe 10 to be cut is cut. The bottom 17 of the groove 15 is preferably as thin as possible. The bottom 17 of the groove 15 is drilled through the drilling step (S12). In this embodiment, the drill tool 20 used in the pre-machining step (S11) will be described as a conventional power drilling tool.

In the drilling step (S12), the bottom 17 of the groove 15 formed in the pipe 10 to be cut through the pre-processing step S11 is drilled to form a through hole in the pipe to be cut. 4 shows a state in which the drilling step (S12) is performed. Referring to FIG. 4 , the groove 15 of the pipe 10 to be cut is drilled by the drill tool 30 so that the bottom (17 of FIG. 3 ) of the groove 15 is drilled, as shown in FIG. As shown, a through hole 18 through which the inside and the outside of the pipe 10 to be cut communicates is formed. In this embodiment, the drill tool 20 used in the drilling step (S12) will be described as a fine drilling tool. By using a fine drill tool, it is possible to minimize the occurrence of foreign substances such as chips in the process of drilling the bottom (17 of FIG. 3 ) of the groove 15 in the drilling step ( S12 ). A pipe blocking device is installed in the pipe 10 to be cut by using the through hole 18 formed through the drilling step (S12). Although not shown, a vacuum suction device may be connected to the through hole 18 and used to prevent the inflow of fine chips generated in the process of performing the drilling step S12 into the pipe 10 .

In the device installation step (S20), a pipe blocking device is installed on the cutting target pipe 10 . The pipe blocking device installed on the pipe 10 to be cut in the device installation step S20 blocks the internal passage of the pipe 10 to be cut. In the device installation step (S20), the pipe blocking device is installed using the through hole 18 formed in the pipe 10 to be cut. Specifically, the device installation step (S20) is a device insertion step (S21) in which a part of the pipe blocking device is inserted through the through hole 18 formed in the pipe 10 to be cut, and the device insertion step (S21) is cut through A part of the pipe blocking device inserted into the target pipe 10 is deformed to provide a pipe blocking step (S22) of blocking the internal passage of the target pipe 10 to be cut.

In the device insertion step (S21), a part of the pipe blocking device is inserted through the through hole 18 formed in the pipe 10 to be cut. 6 shows a state in which the device insertion step S21 is performed. Referring to FIG. 6 , a part including the tip of the pipe blocking device 100 according to an embodiment of the present invention is cut from the outside through the through hole 18 formed in the pipe 10 to be cut 10 . is inserted into the After the device insertion step (S21) is performed and a part of the pipe blocking device 100 is inserted through the through hole 18 formed in the cutting target pipe 10, the pipe blocking step (S22) is performed.

In the pipe blocking step (S22), a part of the pipe blocking device 100 inserted into the pipe 10 to be cut through the device insertion step S21 is deformed to block the internal passage 15 of the pipe 10 to be cut. . 7 shows a state in which the pipe blocking step (S22) is performed so that the internal passage 15 of the pipe 10 to be cut is blocked by the pipe blocking device 100 .

Now, with reference to FIGS. 6 and 7, the configuration and operation of the pipe blocking device 100 will be described in detail. The pipe blocking device 100 includes a tube-shaped body 110 , a balloon 150 accommodated in a passage 111 formed inside the body 110 , and a passage 111 of the body 110 . It is accommodated and provided with an air supply pipe 170 communicating with the balloon (150).

The body 110 has a circular tube shape, and the balloon 150 and the air supply tube 170 are accommodated in the inner passage 111 . The body 110 is a shape memory alloy that is deformed into a specific shape memorized when heated above a specific temperature, and the shape before heating is a shape extending in a straight line as shown in FIG. 6, and a shape deformed by heating (memory A specific shape) is a shape bent at a substantially right angle at a point 112 of a portion located in the internal passage 111 of the pipe 10 to be cut, as shown in FIG. 7 . Accordingly, in the pipe blocking step (S22), a process of heating the body 110 is performed. A mark 113 indicating the direction in which the body 110 is bent is provided on the outside of the body 110 . The mark 113 is located at a portion exposed from the outside when a part including the tip of the body 110 is inserted into the inner passage 15 of the pipe 10 . The operator can know the direction in which the body 110 is bent in the inner passage 15 of the pipe 10 through the mark 113 .

The balloon 150 is accommodated in the inner passage 111 of the body 110 in an uninflated state and is located close to the open tip 114 of the body 110 . The balloon 150 communicates with the air supply pipe 170 to receive air for expansion of the balloon 150 from the outside through the air supply pipe 170 . The balloon 150 is movable along the inner passage 111 of the body 110 , so that it can be expanded outward from the body 110 through the open tip 114 of the body 110 . The balloon 150 may come out of the body 110 by being pushed by the air supply pipe 170 . The balloon 150 is expanded while coming out from the body 110 so that the outer peripheral surface 151 of the balloon 150 is cut in close contact with the inner wall surface 12 of the pipe 10 to be cut, as shown in FIG. 7 . The passage 15 of the target pipe 10 is blocked. To this end, when the balloon 150 is inflated, it has a size and shape corresponding to the passage 15 of the pipe 10 to be cut.

The air supply pipe 170 is accommodated in the passage 111 of the body 110 and communicates with the balloon 150 . External air is supplied to the balloon 150 through the air supply pipe 170 , and the balloon 150 is expanded as shown in FIG. 7 by the air supplied to the balloon 150 through the air supply pipe 170 . . The air supply pipe 170 can be moved along the passage 111 of the body 110 to push the balloon 150 accommodated in the passage 111 of the body 110 to expose it to the outside of the body 110 . The air supply pipe 170 is made of a flexible material and may be deformed in response to the deformation of the body 110 .

In the pipe cutting step (S30), the transverse cutting of the pipe 10 to be cut is performed. The cutting of the pipe 10 to be cut in the pipe cutting step S30 may be performed using an appropriate cutting tool. In the pipe cutting step (S30), the pipe to be cut 10 is cut along the cutting line L shown in FIG. The cutting line L is located in a direction from the balloon 15 toward the through hole 18 , and is preferably located within a section between the balloon 15 and the through hole 18 . 8 shows a state in which the pipe cutting step (S30) is performed. 8, the pipe cutting step (S30) is performed so that the upper part of the pipe 10 is removed, and chips (C), which are foreign substances generated in the cutting process, are caught by the balloon 15 and the remaining pipe ( 10) does not flow into it.

In the foreign material removing step (S40), the foreign material (C) caught in the balloon 15 generated in the pipe cutting step (S30) is removed.

9 and 10 show a state in which the device installation step S20 shown in FIG. 1 is performed using the pipe blocking device 200 according to another embodiment of the present invention. Referring to FIGS. 9 and 10 , the pipe blocking device 200 includes a tubular body 210 and a blocking unit 250 positioned outside a portion including the front end of the body 210 .

The body 210 is a circular tube shape (or a rod shape), and may be hollow or solid. The body 210 is a shape memory alloy that is deformed to a specific shape memorized when heated to a specific temperature or higher, and the shape before heating is a shape extending in a straight line as shown in FIG. 9, and a shape deformed by heating (memory A specific shape) is a shape bent at a substantially right angle at a point 212 of a portion located in the inner passage 111 of the pipe 10 to be cut, as shown in FIG. 10 . Accordingly, in the pipe blocking step (S22), a process of heating the body 210 is performed. A mark 213 indicating the direction in which the body 210 is bent is provided on the outside of the body 210 . The mark 213 is located at a portion exposed from the outside when a part including the tip of the body 210 is inserted into the inner passage 15 of the pipe 10 . The operator can know the direction in which the body 210 is bent in the inner passage 15 of the pipe 10 through the mark 213 .

The blocking unit 250 includes a plurality of supports 251 integrally connected to the body 210 and a blocking film 255 coupled to the plurality of supports 251 .

The plurality of supports 251 are integrally connected to the front end of the body 210 , and each of the plurality of supports 251 extends radially outward from the body 210 . The plurality of supports 251 are arranged to be sequentially spaced apart from each other at equal intervals along the circumferential direction around the body 210 . The plurality of supports 251 are also made of a shape memory alloy like the body 210 . Before heating, it is folded to closely contact the outer peripheral surface of the body 210 as shown in FIG. 9, and is deformed to spread radially as shown in FIG. 10 by heating. A blocking film 255 is coupled to the plurality of supports 251 .

The blocking film 255 is made of a flexible material, and is supported by being coupled to a plurality of supports 251 . In a state in which the plurality of supports 251 are unfolded as shown in FIG. 10 , the blocking film 255 is also deployed, and the outer periphery 257 of the blocking film 255 is in contact with the inner wall surface 12 of the pipe 10 to be cut. It is prevented that foreign substances generated during the cutting process of the pipe 10 fall and flow into the pipe 12 .

Although the present invention has been described through the above examples, the present invention is not limited thereto. The above embodiments may be modified or changed without departing from the spirit and scope of the present invention, and those skilled in the art will recognize that such modifications and changes also belong to the present invention.

100, 200: pipe blocking device
110, 210: body
150: balloon
170: air supply pipe
250: blocking unit
251: support
255: barrier

Claims (11)

tubular body;
a balloon accommodated in a body passage formed inside the body; and
and an air supply pipe accommodated in the body passage and communicating with the balloon,
The body is made of a shape-memory alloy whose shape is deformed by heating, so that a point of a portion extending in a straight line is bent in one direction by heating and deformed before heating,
pipe shut-off device. The method according to claim 1,
The balloon is movable in the body passage,
Exposed by being pushed to the outside of the body by the movement of the air supply pipe,
pipe shut-off device. The method according to claim 1,
The air supply pipe is made of a flexible material,
pipe shut-off device. A through-hole processing step of forming a through-hole in the pipe to be cut;
a device installation step of installing a pipe blocking device for blocking the pipe passage of the pipe to be cut through the through hole; and
A pipe cutting step of cutting the target pipe to be cut in a state in which the pipe passage is blocked by the pipe blocking device,
The pipe blocking device includes a body made of a tubular shape memory alloy, a balloon accommodated in a body passage formed inside the body, and an air supply pipe accommodated in the body passage and communicating with the balloon,
The device installation step includes a device insertion step of inserting the front end of the body into the pipe passage through the through hole, and through the air supply pipe in a state in which the body is bent and deformed in the pipe passage by heating the body. A pipe blocking step of supplying air to the balloon to inflate the balloon to block the pipe passage,
How to cut a pipe. tubular body; and
A plurality of supports that are sequentially arranged along the circumferential direction of the body, and a blocking part having a blocking film coupled to the plurality of supports,
One end of each of the plurality of supports is integrally connected with the body,
The body and the plurality of supports are made of a shape memory alloy whose shape is deformed by heating, and the body is deformed by bending a point of a portion extending in a straight line before heating to one side by heating, and the plurality of supports are Deformed to spread radially by heating in a folded state to be in contact with the outer periphery of the body before heating,
pipe shut-off device. 6. The method of claim 5,
The blocking film is made of a flexible material,
pipe shut-off device. A through-hole processing step of forming a through-hole in the pipe to be cut;
a device installation step of installing a pipe blocking device for blocking the pipe passage of the pipe to be cut through the through hole; and
A pipe cutting step of cutting the target pipe to be cut in a state in which the pipe passage is blocked by the pipe blocking device,
The pipe blocking device includes a tubular body, a plurality of supports that are sequentially disposed along a circumferential direction of the body, and a blocking unit having a blocking film coupled to the plurality of supports,
One end of each of the plurality of supports is integrally connected with the body, and the body and the plurality of supports are made of a shape memory alloy whose shape is deformed by heating,
The device installation step includes a device insertion step of inserting the front end of the body into the pipe passage through the through hole, and heating the body and the plurality of supports so that the body is bent and deformed in the pipe passage, and the plurality of A pipe blocking step in which the supports are radially spread and deformed with respect to the body so that the blocking film blocks the pipe passage,
How to cut a pipe. A device for blocking the passage of a pipe, comprising:
rod-shaped body; and
It is coupled to the body and is deformed in shape to include a blocking part blocking the passage,
A part of the body including the blocking part is inserted into the passage through a through hole formed in the pipe,
In a state in which the blocking portion is inserted into the passage, the blocking portion is deformed to extend radially outward with respect to the body to block the passage,
pipe shut-off device. delete delete delete

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