KR20100045234A - Apparatus and method for blocking a fluid transfer pipe - Google Patents

Abstract

PURPOSE: A blocking device of a pipe for delivering fluid and a method for preventing the slacking of a transport pipe for fluid cargo is provided to close a pipe by passing the fluid which is different from the fluid which is passing through the independent space. CONSTITUTION: A blocking device of a pipe for delivering fluid comprises a pair of first opening and closing units(2,6) and a first and a second auxiliary pipes(3,4). A pair of first opening and closing units is installed on a main pipe(1). The main pipe transfers the first fluid. An independence section(1a) is formed by opening and closing a pair of first opening and closing units within the main pipe. The first and the second auxiliary pipes are connected to the independence section. The first and the second auxiliary pipes discharge the second fluid in the independence section.

Description

Blocking device and method for fluid transfer pipes {APPARATUS AND METHOD FOR BLOCKING A FLUID TRANSFER PIPE}

The present invention relates to an apparatus and a method for blocking a pipe for transporting a fluid, and more particularly, to a blocking device and a method for blocking a transport of a fluid through a pipe by using a fluid different from the fluid being transported. .

Valves and flange assemblies are generally used to disconnect the pipes and block the flow of fluid through the pipes.

In the case of using a valve, it is easy to shut off and reconnect, that is, open and close the pipe, but it is difficult to completely shut off the pipe, and in particular, when the flow rate is high or the pressure is high, the pipe is not reliable.

When using the flange assembly, the pipe can be completely blocked, but there is a problem that fluid can leak from the seam of the flange assembly. The flange assembly has a structure in which bolts are connected to each other by inserting bolts into fastening holes formed in the flanges with a gasket interposed between flanges formed at ends of pipes facing each other, and when the pipe is blocked, the pipes facing each other are connected. After separation, the disk is closed by joining the disc to the end of the opened pipe.

Due to the structure of the flange assembly, unlike the case where the pipe to be blocked is installed in a stationary place such as a land plant or facility, when it is installed in a marine vessel or structure to which dynamic deformation is applied from the outside, bending stress that is difficult to experience on land Since an external force of the back continues to be applied to the flange assembly, there is a risk of damage to the seam of the flange assembly. This increases the likelihood of fluid leakage in offshore vessels or structures even when the pipes are blocked using flange assemblies.

Therefore, in ships or structures that carry or store cryogenic liquid cargo, such as LNG and LPG, at sea, it is not recommended to use a flange assembly for the pipe for transporting liquid cargo, and it is recommended to use welding for the pipe connection. It is becoming.

As a result, there is a need for continuous development and improvement of a device and method for blocking a fluid conveying pipe which can reliably block the pipe if necessary while reducing the risk of leakage for the pipe conveying the liquid cargo as described above.

The present invention for solving the above-described problems, the pipe to be blocked by the valves provided at regular intervals to make the inside of the pipe between these valves to an independent space, and is different from the fluid transported in this independent space It is an object of the present invention to provide an apparatus and method for blocking a pipe by flowing a fluid.

According to an aspect of the present invention for achieving the above object, as a device for blocking a pipe for transporting a fluid, a pair of first opening and closing means which are installed spaced apart from each other in the main pipe used for transporting the first fluid; ; First and second auxiliary pipes connected to independent sections formed in the main pipe by a closing operation of the pair of first opening and closing means and capable of supplying and discharging a second fluid to the independent sections; Provided is a blocker of a fluid transport pipe comprising a.

The shut-off device may include a second opening / closing means installed in the first auxiliary pipe for supplying a second fluid into the independent section, and a third opening / closing device provided in the second auxiliary pipe for discharging a second fluid from the independent section. It is preferred to include means.

Preferably, the blocking device includes an inspection unit installed downstream of the third opening and closing means of the second auxiliary pipe and inspecting whether the first fluid is mixed in the second fluid discharged from the independent section.

Preferably, the first opening and closing means provided on the main pipe is a valve.

Preferably, the second and third opening and closing means installed on the first and second auxiliary pipes are any one selected from a valve and a flange assembly.

Preferably, the first fluid conveyed through the main pipe is a liquefied gas, and the second fluid conveyed through the first and second auxiliary pipes is an inert gas.

The pressure of the second fluid conveyed through the first and second auxiliary pipes is preferably greater than the pressure of the first fluid conveyed through the main pipe.

Preferably, the first and second auxiliary pipes are permanently installed in the main pipe.

The main pipe may be permanently installed with the second and third opening and closing means and the inspection unit, and the first and second auxiliary pipes may be connected when the main pipe needs to be blocked.

At this time, it is preferable that the flange assembly for attaching and detaching the first and second auxiliary pipes is installed on the upstream side of the second opening and closing means and the downstream side of the inspection unit, respectively.

The main pipe may be permanently provided with the second and third opening and closing means, and the first and second auxiliary pipes and the inspection unit may be connected when the main pipe needs to be blocked.

At this time, it is preferable that a flange assembly for attaching and detaching the first and second auxiliary pipes is installed at an upstream side of the second opening and closing means and a downstream side of the third opening and closing means.

According to another aspect of the present invention, as a method for blocking the main pipe for transporting fluid, the main pipe to be blocked by the opening and closing means provided at regular intervals to block the inside of the main pipe between the opening and closing means A method of blocking a fluid transfer pipe is provided, characterized in that the main pipe is blocked by making it into an independent space and allowing another fluid to flow through the main pipe into the independent space.

The blocking method may include determining whether the fluid leaks by inspecting a component of the another fluid flowing through an independent space inside the main pipe.

In addition, the pressure of the other fluid flowing through the independent space is preferably maintained higher than the pressure of the fluid conveyed through the main pipe, so that even if the closing of the opening and closing means of the main pipe is incomplete with the fluid inside the main pipe Leakage of the fluid can be prevented by the pressure difference between the other fluids in the independent space.

According to the present invention as described above, the pipes to be blocked are blocked by valves installed at regular intervals to make the inside of the pipes between these valves an independent space, and to flow a fluid different from the fluid transported in this independent space. Thereby, an apparatus and method for blocking a pipe can be provided.

According to the pipe shutoff device and method of the present invention, it is possible to reliably shut off the pipe if necessary while reducing the risk of leakage during use of the pipe for transporting the liquid cargo.

EMBODIMENT OF THE INVENTION Hereinafter, the shutoff apparatus and method of the fluid transportation pipe which concern on preferred embodiment of this invention are demonstrated in detail with reference to drawings.

1 is a conceptual diagram schematically showing a shutoff device for a fluid transfer pipe according to a preferred embodiment of the present invention, and FIGS. 2 to 4 are schematic conceptual views of a pipe shutoff device according to a modification of the present invention. It is. And Figure 5 is a view for explaining the blocking and connection of the pipe using the flange.

As shown in FIG. 1, a shutoff device for a fluid transfer pipe according to a preferred embodiment of the present invention is a pair provided spaced apart from each other at regular intervals in a main pipe 1 used to transfer a first fluid. Of the first opening and closing means 2 and the independent section 1a of the main pipe 1 forming an independent space during the closing operation of the pair of first opening and closing means 2 to transfer the second fluid. First and second auxiliary pipes 3, 4.

The second opening and closing means 5 is installed in the first auxiliary pipe 3 for supplying the second fluid into the independent section 1a, and the second auxiliary pipe 4 for discharging the second fluid from the independent section 1a. It is preferable that the inspection unit 7 is installed together with the third opening and closing means 6.

The pair of first opening and closing means 2 installed in the main pipe 1 may be a valve. In particular, when the pipe blocker of the present invention is used in a vessel or a structure that floats at sea, the opening and closing means such as a flange assembly that may be leaked by deformation by external force is avoided, so that the first opening and closing means 2 It is more preferable to utilize a valve installed by welding as).

The first and second auxiliary pipes 3, 4 may be connected to the main pipe 1 by welding, and the second and third opening and closing means installed on the first and second auxiliary pipes 3, 4 ( 5, 6 and the inspection unit 7 can also be installed by welding. As the second and third opening and closing means 5 and 6, an open flange, a spectacle flange, or the like may be utilized as well as a valve.

According to the present invention, the first fluid conveyed through the main pipe 1 is a liquefied gas such as LNG or LPG, and the second fluid conveyed through the first and second auxiliary pipes 3 and 4 is nitrogen or the like. It is preferable that it is an inert gas.

The inspection unit 7 is installed in the second auxiliary pipe 4 and inspects whether or not the first fluid is mixed with the second fluid discharged from the independent section 1a. If the first fluid is detected by the inspection unit 7 or more than the reference value, it may be determined that the pipe is not blocked.

According to the invention, the pressure of the second fluid conveyed through the first and second auxiliary pipes 3, 4 is preferably determined to be greater than the pressure of the first fluid conveyed through the main pipe 1. If the pressure of the second fluid is greater than the pressure of the first fluid, the pressure inside the independent section 1a can be greater than the pressure inside the main pipe 1 when the pipe is blocked, so that the leakage of the first fluid can be more reliably prevented. Can be.

2 to 4 schematically show a pipe blocker according to various modifications of the present invention.

According to the pipe blockage device of the first variant shown in FIG. 2, the first and second auxiliary pipes 3, 4 are permanently connected to the main pipe 1 via second and third opening and closing means 5, 6, respectively. It is installed. At this time, the second auxiliary pipe 4 may be provided with a valve 8 as another opening and closing means on the downstream side of the inspection unit 7.

According to the pipe shut-off device of the second modification shown in FIG. 3, only the second and third opening and closing means 5, 6 and the inspection unit 7 are permanently installed in the main pipe 1, and the first and second The auxiliary pipes 3 and 4 are not permanently connected and are only connected when the pipe is to be blocked.

To this end, a flange assembly 10 for attaching and detaching the first and second auxiliary pipes 3 and 4 is installed on the upstream side of the second opening and closing means 5 and the downstream side of the inspection unit 7, respectively. Since both the upstream side of the second opening and closing means 5 and the flange assembly 10 provided on the downstream side of the inspection unit 7 are the same, the flange assembly provided on the upstream side of the second opening and closing means 5 with reference to FIG. 5. Only (10) will be described.

For example, as shown in FIG. 5, the flange assembly 10 includes a first flange portion 11 formed at the end 5a of the second opening and closing means 5, and the first auxiliary pipe 3 is not connected to the flange assembly 10. In this case, the disc 12 for closing the first flange portion 11 formed at the end 5a of the second opening and closing means 5 and the end 3a of the first auxiliary pipe 3 are formed in the first auxiliary. It comprises a second flange portion 13 which is joined to the first flange portion 11 when the pipe 3 is connected.

The engagement between the first flange portion 11 and the disc 12 and the engagement between the first flange portion 11 and the second flange portion 13 are made by bolts and nuts (not shown), not shown. May be interposed.

The flange assembly of FIG. 5 is merely an example, of course, another type of flange assembly, such as spectacle flanges of the type 8 may be used. In addition, a valve 8 as another opening and closing means may be provided on the downstream side of the inspection unit 7.

According to the pipe blocking device of the third modification shown in FIG. 4, only the second and third opening and closing means 5, 6 are permanently installed in the main pipe 1, and the first and second auxiliary pipes 3, 4 are permanently installed. ) And the inspection unit 7 are not permanently connected, but only when a block of the pipe is required.

To this end, a flange assembly 10 for attaching and detaching the first and second auxiliary pipes 3 and 4 is provided upstream of the second opening and closing means 5 and downstream of the third opening and closing means 6, respectively. Since the flange assembly 10 provided upstream of the 2nd opening / closing means 5 and downstream of the 3rd opening / closing means 6 is the same as the flange assembly of a 2nd modification, detailed description is abbreviate | omitted.

As described above with reference to the illustrated drawings, the fluid transfer pipe blocking device and method according to the present invention, the present invention is not limited by the embodiments and drawings described above, the present invention within the claims Of course, various modifications and variations can be made by those skilled in the art.

1 is a conceptual view schematically showing a shutoff device for a fluid transport pipe according to a preferred embodiment of the present invention;

2 to 4 is a schematic conceptual view of a pipe blocking device according to the first to third modified examples of the present invention, and

5 is a view for explaining the blocking and connection of the pipe using the flange.

<Description of the reference numerals for the main parts of the drawings>

1: Main pipe 1a: Independent section

2: first opening and closing means 3: first auxiliary pipe

4: second auxiliary pipe 5: second opening and closing means

6: third opening and closing means 7: inspection unit

10 flange assembly 11 first flange portion

12: disc 13: second flange portion

Claims (15)

A device for blocking a pipe for transporting a fluid, A pair of first opening and closing means spaced apart from each other in a main pipe used to transfer the first fluid; First and second auxiliary pipes connected to independent sections formed in the main pipe by a closing operation of the pair of first opening and closing means and capable of supplying and discharging a second fluid to the independent sections; Blocking device of the fluid transfer pipe comprising a. The method according to claim 1, And second opening and closing means installed on the first auxiliary pipe for supplying a second fluid into the independent section, and third opening and closing means installed on the second auxiliary pipe for discharging a second fluid from the independent section. Blocking device for the fluid transfer pipe characterized in that. The method according to claim 2, And an inspection unit installed downstream of the third opening / closing means of the second auxiliary pipe and inspecting whether the first fluid is mixed in the second fluid discharged from the independent section. . The method according to claim 1, The first opening and closing means installed in the main pipe is a shutoff device for a fluid transport pipe, characterized in that the valve. The method according to claim 2, And the second and third opening and closing means installed on the first and second auxiliary pipes are any one selected from a valve and a flange assembly. The method according to claim 1, The first fluid conveyed through the main pipe is a liquefied gas, and the second fluid conveyed through the first and second auxiliary pipes is an inert gas. The method according to claim 1, And the pressure of the second fluid conveyed through the first and second auxiliary pipes is greater than the pressure of the first fluid conveyed through the main pipe. The method according to claim 1, And the first and second auxiliary pipes are permanently installed in the main pipe. The method according to claim 3, The second and third opening and closing means and the inspection unit are permanently installed in the main pipe, and the first and second auxiliary pipes are connected when the main pipe needs to be blocked. Blocking device. The method according to claim 9, And a flange assembly for attaching and detaching the first and second auxiliary pipes is provided on an upstream side of the second opening and closing means and a downstream side of the inspection unit, respectively. The method according to claim 3, The second and third opening and closing means are permanently installed in the main pipe, and the first and second auxiliary pipes and the inspection unit are connected when the main pipe needs to be blocked. Blocking device. The method according to claim 11, And a flange assembly for attaching and detaching the first and second auxiliary pipes is provided on an upstream side of the second opening and closing means and a downstream side of the third opening and closing means. A method for blocking a main pipe carrying a fluid, The main pipe to be blocked is blocked by opening and closing means provided at regular intervals to make the inside of the main pipe between these opening and closing means independent, and the fluid which is different from the fluid conveyed through the main pipe is separated from the main pipe. And the main pipe is blocked by flowing therein. 14. The method of claim 13, Blocking the fluid transport pipe, characterized in that for determining the leakage of the fluid by inspecting the component of the another fluid flowing in the independent space inside the main pipe. 14. The method of claim 13, And the pressure of the another fluid flowing through the independent space is maintained higher than the pressure of the fluid conveyed through the main pipe.

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