KR101155574B1 - Seal apparatus for tube - Google Patents

Abstract

A piping closure device is disclosed in which a hermetic plate inserted into a flange installed in a perforated piping is securely fixed. The pipe closing device is a flange which communicates with the hole of the perforated pipe is formed to open to the outside of the pipe, the fixing groove is formed on the inner circumferential surface of the communication hole; is inserted into the communication hole to seal the communication hole Sealing plate; It is separated in a radial shape, the fixing plate is inserted into the communication hole is inserted into the sealing plate; And as the rotation is passed through the through hole to transfer the fixing plate in the circumferential direction of the flange, the fixing plate is inserted into the fixing groove And an adapter to be fixed.

Description

Sealing apparatus for piping {Seal apparatus for tube}

The present invention relates to a pipe closing device, and more particularly to a pipe closing device for closing the hole of the perforated pipe for the replacement, repair, and the like of the pipe.

Hot Tapping & Plugging technology is a representative technique for replacing and repairing pipes without interrupting the flow of fluids (gas, oil, steam, hot water, etc.) flowing along the pipes. Hot tapping & plugging technology has been applied to the introduction of storage tanks and new pipes in city gas, waterworks, district heating, and oil transportation.

These hot tapping and plugging technologies include flange installation, drilling, pipe breaking and plumbing installation, in-block operation, removal of the plumbing and plugging devices, and finishing.

1A to 1D are process diagrams illustrating a hot tapping & plugging process.

Referring to FIG. 1A, the flange installation process is a process of installing the flange 20 at a portion where the pipe 10 is to be drilled. The flanges 20 are disposed at both sides of the blocking section of the pipe 10, which requires replacement, repair, or the like. The flange 20 is peeled off to keep the fluid tight, and the surface of the pipe 10 is removed. Is preferably welded to.

Referring to FIG. 1B, the drilling process is a process of drilling a hole in the pipe 10. The drilling process installs a valve 30 on the flange 20 to temporarily control the flow of fluid flowing along the pipe 10 prior to the installation of a cleaning device (not shown). Subsequently, a perforation device (not shown) is installed on the flange 20, the valve 30 is opened, and the cutter 40 is lifted and rotated to drill a hole in the pipe 10. And remove the tip (tip) that is separated from the pipe 10 due to the perforation of the pipe (10). Subsequently, the valve 30 is locked to prevent fluid from flowing out through the flange 20 and to remove the puncturing device (not shown).

Referring to FIG. 1C, the process of installing the pipe block and the pipe may be a process of connecting the plugging device 50 to the flange 20 and installing the pipe 60 to form a temporary flow path of the fluid. When the plugging device 50 is installed and the valve 30 is opened, the plugging device 50 closes both sides of the blocking section to block the fluid from flowing into the blocking section. Accordingly, the fluid that flowed along the pipe 10 flows along the temporary pipe 60 so that the work process in the blocking section can be performed without interrupting the flow of the fluid.

Referring to FIG. 1D, the process of removing the duct and the plugging device is a process of normalizing the flow of the fluid by removing the duct and the plugging device 50. When the work in the blocking section is finished, the plugging device 50 opens both sides of the blocking section. Accordingly, the fluid flows along the blocking section. Subsequently, the valve 30 is closed and the temporary pipe 60 is removed.

Subsequently, the finishing process is a process of closing the flange 20 and removing the valve 30. When the flow of fluid is normalized, the flange 20 should be sealed to prevent the fluid from flowing out through the perforation. Therefore, after the valve 30 is opened and the locking plate 70 is inserted into the flange 20, the locking plate 70 is fixed to the flange 20. At this time, the locking plate 70 inserted into the flange 20 is fixed to the flange 20 by welding. When the flange 20 is sealed in this manner, all processes are completed by removing the valve 30 from the flange 20.

However, when a high pressure fluid flows in the pipe 10, the locking plate 200 inserted into the flange 20 is difficult to maintain a fixed position due to the supply pressure of the fluid, so that the locking plate 70 is flanged to the flange 20. There is a difficulty in welding to, there is a problem that the accuracy of the locking plate 70 fixed operation is inferior.

In addition, when a high-pressure, high-temperature fluid flows in the pipe 10, a gap is generated between the locking plate 70 and the flange 20, and high-temperature fluid may flow out, thereby exposing a worker performing welding to high temperature fluid. There is a problem that a safety accident occurs.

SUMMARY OF THE INVENTION An object of the present invention is to provide a pipe closing device for tightly fixing a sealing plate inserted into a flange installed in a perforated pipe.

The pipe closing device is a flange which communicates with the hole of the perforated pipe is formed to open to the outside of the pipe, the fixing groove is formed on the inner circumferential surface of the communication hole; is inserted into the communication hole to seal the communication hole Sealing plate; It is separated in a radial shape, the fixing plate is inserted into the communication hole is inserted into the sealing plate; And as the rotation is passed through the through hole to transfer the fixing plate in the circumferential direction of the flange, the fixing plate is inserted into the fixing groove And an adapter to be fixed.

The pipe closing device may further include a cover welded to the communication hole to which the fixing plate is fixed.

The pipe closing device is formed on one surface of the fixing plate toward the sealing plate, the guide groove having a longitudinal direction in the outer circumferential direction of the flange; and formed on one surface of the sealing plate toward the fixing plate, the guide groove A guide protrusion for guiding the transport of the fixed plate according to; may further include.

The adapter may include an input shaft coupled to an output shaft of a driver that provides rotational power; a support shaft extending from the input shaft and passing through the through hole and supported by the sealing plate; and disposed between the input shaft and the support shaft. It may include a; rotating plate rotated by.

The pipe closing device is formed on one surface of the rotating plate facing the fixed plate, and has a longitudinal direction of the rotation direction of the rotating plate, the rotation is formed so that the fixed plate is transferred in the outer circumferential direction of the flange as the rotating plate is rotated A groove; and a rotating protrusion formed on a rear surface of the fixed plate facing the rotating plate, the rotating protrusion being constrained to the rotating groove to rotate the fixed plate according to the rotation of the rotating plate.

The fixing groove may have a polygonal inner circumferential surface, and a pressing protrusion may be formed on the outer circumferential surface of the rotating plate.

The pipe closing device may further include an airtight member coupled to an outer circumferential portion of the sealing plate to maintain airtightness between the sealing plate and the inner circumferential surface of the flange.

Pipe closing device according to the present invention can secure the reliability of the pipe closing work by firmly fixing the sealing plate inserted into the flange, and can prevent the safety accident that may occur in the process of pipe closing work in advance. There is.

1A to 1D are process diagrams illustrating a hot tapping & plugging process.
2 is a cross-sectional view showing a state in which a pipe closing device according to the present embodiment is installed in a pipe.
3 is a cross-sectional view showing a part of a pipe closing device according to the present embodiment.
4 is a perspective view showing a part of a pipe closing device according to the present embodiment.
5A and 5D are cross-sectional views showing a state in which the flange is closed by the pipe closing device according to the present embodiment.
6A and 6B are plan views illustrating a part of a pipe closing device according to another embodiment.
7A and 7B are plan views illustrating a part of a pipe closing device according to still another embodiment.

Hereinafter, a pipe closing device according to the present embodiment will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view showing a state in which a pipe closing device according to the present embodiment is installed in a pipe, FIG. 3 is a cross-sectional view showing a part of a pipe closing device according to the present embodiment, and FIG. 4 is a pipe according to the present embodiment. It is a perspective view which shows a part of closing device for.

2 to 4, the pipe closing device 100 includes a flange 110, a sealing plate 130, a fixing plate 150, and a cover 170.

The flange 110 is for easily installing a perforation device, a plugging device, and the like, and is installed at both sides of a pipe blocking section requiring repair of the pipe 10, replacement of the pipe 10, and the like. The flange 110 has a communication hole 111 in communication with the hole of the pipe 10 is formed therein. An inner circumferential surface of the communication hole 111 is provided with a fixing groove 113 into which the fixing plate 150 is inserted and fixed.

The sealing plate 130 seals the communication hole 111 and is provided in a disc shape and inserted into the communication hole 111. An airtight member 131 such as an O-ring is disposed on an outer circumference of the sealing plate 130. The airtight member 131 maintains airtightness between the sealing plate 130 and the inner circumferential surface of the communication hole 111.

The fixing plate 150 is to fix the sealing plate 130 inserted into the communication hole 111 firmly, and a through hole 151 is formed at the center thereof and is radially separated. The fixing plate 150 separated as described above is installed to be transportable in the outer circumferential direction of the flange 110.

That is, each of the fixing plate 150 to be separated is formed with a guide groove 153 on one surface facing the sealing plate 130, respectively. In addition, the sealing plate 130 is formed with a guide protrusion 133 corresponding to the guide groove 153. The guide groove 153 has a longitudinal direction extending in the circumferential direction from the center of the communication hole 111. In FIG. 3, the guide protrusions 133 are illustrated as protrusions protruding from the fixing plates, but are provided in the form of pins, screws, and the like, which are coupled to the sealing plate 130 to be transferred along the guide grooves 153. Could be.

Meanwhile, the pipe closing device 100 further includes a driver 180 and an adapter 190 for transferring the fixing plate 150 in the circumferential direction of the flange 110. A rotating motor is adopted as the driver 180 to provide rotational power to the adapter 190. The adapter 190 is coupled to an output end of the driver 180 and extends from the input shaft 191 and the input shaft 191 that are rotated by receiving rotational power from the driver 180 and penetrates the through hole 151 of the fixing plate 150. The rotary plate 195 is rotated in accordance with the rotation of the input shaft 193, which is disposed between the support shaft 193, the input shaft 191 and the support shaft 193 is supported by the closing plate 130.

Here, the rotating plate 195 is formed with a plurality of rotating grooves 197 on one surface facing the fixing plate 150, the rotating projections 155 corresponding to the plurality of rotating grooves 197 on the rear surface of each fixing plate 150 Is formed. The plurality of rotating grooves 197 has a longitudinal direction extending in the rotational direction of the rotating plate 195, but one end and the other end of the rotating groove 197 are formed to have different distances from the central axis of the rotating plate 195. . Accordingly, the rotary protrusion 155 inserted into the rotary groove 197 is rotated in the circumferential direction of the rotary plate 195 according to the rotation of the rotary plate 195, and each of the fixing plates 150 is the guide protrusion 133 and the guide groove 153. In accordance with the guidance of) is conveyed in the circumferential direction of the flange 110 is fixed to the fixing groove 113.

The cover 170 is for closing the communication hole 111 after the fixing plate 150 is fixed inside the flange 110, and preferably has an outer circumference smaller than the inner diameter of the flange 110.

Hereinafter, with reference to the accompanying drawings for the operation of the pipe closing device according to this embodiment will be described in detail.

5A and 5B are cross-sectional views illustrating a state in which a flange is closed by a pipe closing device according to the present embodiment.

5A and 5D, the sealing plate 130 is inserted into the flange 110 to seal the communication hole 111. At this time, the airtight member 131 maintains airtightness between the sealing plate 130 and the inner circumferential surface of the communication hole 111.

As such, when the sealing plate 130 seals the communication hole 111, the fixing plate 150 is inserted into the flange 110. At this time, the guide protrusion 133 is located inside the guide groove 153.

Meanwhile, the adapter 190 has an input shaft 191 coupled to the output shaft of the driver 180, and the support shaft 193 passes through the through hole 151 of the fixing plate 150 and is supported by the sealing plate 130. At this time, the rotary protrusion 155 is located inside the rotary groove 197.

Subsequently, the driver 180 rotates the adapter 190 to fix the fixing plate 150. As the adapter is rotated, the rotating plate 195 is rotated, and the rotating protrusion 155 is rotated along the rotating groove 197. However, since the guide protrusion 133 is located inside the guide groove 153, the fixing plate 150 is not linearly rotated along the rotary groove 197, but is linearly moved in the circumferential direction of the flange 110 along the guide groove 153. . Each fixing plate 150 linearly conveyed in the circumferential direction of the flange 110 is inserted into the fixing groove 113 and fixed.

Thereafter, the cover 170 is inserted and welded into the communication hole 111 of the flange 110, and the flange 110 is closed.

As described above, the sealing device for piping 100 seals the communication hole 111 by the sealing plate 130, and the fixing plate 150 is fixed to the fixing groove 113 so that the sealing plate 130 is inside the pipe 10. It is prevented from being separated from the communication hole 111 by the hydraulic pressure of, and by welding the cover 170, the flange 110 is firmly closed.

Hereinafter, a pipe closing device according to another embodiment will be described. In the following description, the same reference numerals are given to components similar to those of the above-described pipe closing device 100, and detailed description thereof will be omitted. Therefore, components that are not described in detail in the following description will be understood with reference to the above description.

6A and 6B are plan views showing a part of a pipe closing device according to another embodiment, and FIGS. 7A and 7B are plan views showing a part of a pipe closing device according to another embodiment.

6A and 7B, the pipe closing device 100 may transfer the fixing plates 150a and 150b by a cam driving method.

That is, the pressing protrusions 199a and 199b are formed on the outer circumferential surfaces of the rotating plates 195a and 195b of the adapter 190, and the inner circumferential surfaces of the through holes 151a and 151b are pressed by the rotation of the rotating plates 195a and 195b. It may be provided in the form of a polygon that can be pressed by the 199a, 199b can be conveyed in the circumferential direction of the flange (110).

Accordingly, as the adapter 190 is rotated by the driver 180 and the adapter 190 is rotated, the rotating plates 195a and 195b pressurize the inner circumferential surfaces of the through holes 151a and 151b to flange the fixing plates 150a and 150b. Transfer in the outer circumferential direction of (110). The fixing plates 150a and 150b transferred in the circumferential direction of the flange 110 are inserted into and fixed to the fixing groove 113.

110: flange 130: sealing plate
150: fixing plate 170: cover
190: adapter

Claims (7)

A flange having a communication hole communicating with a hole of the perforated pipe, the flange being open to the outside of the pipe and having a fixing groove formed on an inner circumferential surface of the communication hole;
A sealing plate inserted into the communication hole to seal the communication hole;
Polygon through-holes are formed in the center and radially separated and fixed plate disposed on the sealing plate; And
The rotating plate is inserted into the through hole and has a rotating plate protruding the pressing projection accommodated in the corner portion of the through hole, the rotating plate is rotated so that the outer diameter of the fixing plate is expanded as the pressing projection presses the inner surface of the through hole fixed plate Adapter for the fixed to the fixing groove; Pipe closure device comprising a. The method according to claim 1,
Closing device for a pipe, characterized in that further comprising a cover welded to the communication hole is fixed to the fixing plate. The method according to claim 1,
A guide groove formed on one surface of the fixing plate facing the sealing plate and having a longitudinal direction in an outer circumferential direction of the flange; and
And a guide protrusion formed on one surface of the sealing plate toward the fixing plate and guiding the transfer of the fixing plate along the guide groove. The method of claim 1, wherein the adapter
An input shaft coupled to an output shaft of the driver for providing rotational power;
And a support shaft extending from the input shaft and passing through the through hole and supported by the sealing plate. delete delete The method according to claim 1,
And a hermetic member coupled to an outer circumference of the hermetic plate to maintain hermeticity between the hermetic plate and the inner circumferential surface of the flange.

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