KR200251631Y1 - fluid blocking apparatus for pipe line - Google Patents

Abstract

The present invention relates to a fluid shut-off device for a pipeline structure of a new structure that can be opened and closed quickly by one-touch method during branching or partial pipeline replacement work to improve work efficiency and prevent gas leakage.

According to the present invention, the communication pipe (2) is formed in the main pipe (1) through the end pipes (5,6) connected to the main pipe (1), and the plug 33 for sealing in the short pipes (5,6). In the fluid shut-off device for the pipeline operation to be mounted, the opening and closing hole 15 is formed through the intermediate shut-off valve 10 which is installed in communication with the front end of the end pipe (5, 6) through the opening and closing hole (15) And a housing 20 connected to the intermediate shut-off valve 10, a shaft 30 penetrating through the central portion of the housing 20, and a perforation head selectively installed at the lower end of the shaft 30. 31 or a plug holder 32, wherein the intermediate shut-off valve 10 has a body (11, 12) having a sliding space 13 in the direction crossing the opening and closing hole 15 therein; Opening and closing plate 14, which is rotatably mounted on the sliding space 13 of the body (11, 12) to open and close the opening and closing hole 15, and integral with the opening and closing plate 14 through the short axis (16) Times A body (11, 12) working fluid conduit, characterized in that configured by a handle 17 is installed exposed to the outside so that the blocking device is provided.

Description

Fluid blocking apparatus for pipe line

The present invention relates to a fluid shut-off device for pipe work, and more specifically, it can be opened and closed quickly by one-touch method for pipe branch work or partial pipe work, thereby improving work efficiency and preventing gas leakage. A fluid shutoff device for pipeline operation in a new structure.

In general, inhabited dwellings, gas pipes for supplying city gas, water and sewage pipes for treating drinking water and sewage are piped like spider webs. Moreover, in recent years, as the use of city gas is rapidly increasing, such pipes are increasing. In addition, various pipelines for supplying industrial water or chemicals may be installed in various factories.

In this way, the main pipe and the plurality of branch pipes connected to the main pipe are installed in the pipeline for transferring fluids such as gas, water and sewage, and chemical substances, and the branch tee is mounted at the connection portion of the main pipe and the branch pipe. Thus, the main pipe and the branch pipe are confidentially connected. For example, in the case of a gas pipe, branch pipes are arranged from a main pipe to a building where a gas is used, and then the main pipe and the branch pipe are connected to each other using a branching tee.

1 and 2 are cross-sectional views showing the moisturizing at the time of drilling and finishing work by the fluid blocking device for the conventional pipe work, respectively. Referring to this, the installation process of the branch tee 5 connecting the main pipe 1 and the branch pipe 3 is welded to the main pipe 1 at the lower end of the T-shaped branch tee 5 as shown in FIG. 1. Then, the branch pipe 3 is welded to the gas outlet 5b on one side of the branch tee 5. Subsequently, as shown in FIG. 2, after the intermediate shutoff valve 70 is installed on the flange 5a of the upper part of the branch pipe 5, the housing 20 and the drilling head are disposed on the upper portion of the intermediate shutoff valve 70. A shaft 30 having a 31 is provided, and the drilling head 31 is lowered toward the main pipe 1 while the intermediate shutoff valve 70 is opened to drill the main pipe 1. When the drilling is completed, the punching head 31 is raised, the intermediate shutoff valve 70 is closed, and the shaft 30 is separated from the housing 20.

Subsequently, as shown in FIG. 2, after coupling the plug 33 to the holder 32 at the tip of the shaft 30 and installing the plug 33 on the upper end of the housing 20, the intermediate shutoff valve 70 is opened and the shaft 30 is closed. Rotating the plug 33 is coupled to the central threaded hole 5c at the top of the branch tee 5 to seal the central threaded hole 5c. As such, when the central threaded hole 5c of the branch tee 5 is closed, the shaft 30 is lifted up to separate the holder 32 of the tip from the plug 33 and then the intermediate shutoff valve 70 is opened. When it is separated from the branch tee 5, it is finished.

The conventional intermediate shut-off valve 70 used in this process is connected to the flange (5a) of the upper end of the branch tee (5), the body 71 and 72, the sliding space 73 is formed therein, and the body ( An opening and closing plate 74 which is provided in the sliding space 73 of the 71 and 72 and opens and closes the central threaded hole 5c of the branch tee 5, and is screwed to the opening and closing plate 74, and at an outer end thereof. It consists of a screw shaft 76 with a handle 77. Accordingly, in order to open and close the central threaded hole 5c of the branch tee 5 using the intermediate shutoff valve 70, the handle 77 of the outer end of the screw shaft 76 is rotated a plurality of times and the screw shaft 76 is rotated. Opening and closing plate 74 coupled to the to be transferred from one side of the sliding space portion 73 to the other side.

However, in order to transfer the opening and closing plate 74 from one side to the other side by repeatedly rotating the handle 77 in this way, there is a problem that the operation is cumbersome and takes a lot of opening and closing time. Furthermore, since the opening and closing work of the intermediate shutoff valve 70 must be repeatedly performed several times even during the installation of one branching tee 5, the hassle of opening and closing work greatly affects the workability of the whole branching tee installation process. There is a problem.

In addition, since the intermediate shut-off valve 70 is opened and closed while the opening and closing plate 74 is transferred to any one side along the screw shaft 76 located inside the bodies 71 and 72, the opening and closing degree of the valve Is difficult to check with the naked eye from the outside, and if the handle 77 is not rotated to some extent, it is judged whether the intermediate shut-off valve 70 is opened or closed by the feeling, so a gas leakage accident is caused by inaccurate judgment. There is a problem such as occurring.

On the other hand, although not shown in the drawing, when a valve is newly installed in an existing pipeline or a section of the pipeline is corroded and only this section is replaced with a new pipeline, the socket is welded to both sides of the working section of the pipeline. After drilling the insertion hole communicating with the airbag, the airbag is pushed into the pipeline and the gas is inflated by inflation, thereby sealing both sides of the pre-installed pipeline by the airbag, and then replacing the pipeline or installing the valve. Was done. Subsequently, after the operation was completed, the airbag was taken out, and the socket was closed by coupling a sealing plug to the socket. However, such a work method has a problem in that fluid such as gas supplied to the pipeline is continuously leaked while the insertion hole is drilled in the pipeline and the airbag is inserted and expanded therethrough.

The present invention is to solve the problems as described above, the purpose of the present invention is to open and close quickly by one-touch method when branch pipe work or partial pipe replacement work to improve the work efficiency, to prevent gas leakage, etc. It is to provide a valve for the pipeline operation of the new structure made possible.

1 is a cross-sectional view at the time of drilling by the conventional fluid blocking device for pipeline operation

Figure 2 is a cross-sectional view at the time of finishing work by the fluid blocking device for conventional pipe work

3 is a cross-sectional view at the time of drilling by the fluid blocking device according to the present invention

4 is a cross-sectional view at the time of finishing work by the fluid blocking device according to the present invention

Figure 5 is an exploded perspective view of the intermediate shut-off valve constituting the subject innovation

6 is a cross-sectional view of the airbag insertion by the fluid blocking device according to the present invention

<Description of the symbols for the main parts of the drawings>

1: Main tube 5,6: Single tube

10: intermediate blocking valve 14: opening and closing plate

17: handle 20: housing

30 shaft 31 drilling head

33: plug 40: guide tube

43: opening 50: airbag

60: gas injector

According to the present invention, the communication pipe (2) is formed in the main pipe (1) through the end pipes (5,6) connected to the main pipe (1), and the plug 33 for sealing in the short pipes (5,6). In the fluid shut-off device for the pipeline operation to be mounted, the opening and closing hole 15 is formed through the intermediate shut-off valve 10 which is installed in communication with the front end of the end pipe (5, 6) through the opening and closing hole (15) And a housing 20 connected to the intermediate shut-off valve 10, a shaft 30 penetrating through the central portion of the housing 20, and a perforation head selectively installed at the lower end of the shaft 30. 31 or a plug holder 32, wherein the intermediate shut-off valve 10 has a body (11, 12) having a sliding space 13 in the direction crossing the opening and closing hole 15 therein; Opening and closing plate 14, which is rotatably mounted on the sliding space 13 of the body (11, 12) to open and close the opening and closing hole 15, and integral with the opening and closing plate 14 through the short axis (16) Times The bodies 11 and 12, characterized in that the fluid duct work is configured by a handle 17 is installed exposed to the outside so that the blocking device is provided.

According to another feature of the present invention, after the shaft 30 is removed, the front end portion is inserted into the main tube 1 through the housing 20 and the intermediate shut-off valve 10 and the main tube 1 at the front end thereof. A guide tube 40 having an opening 43 communicating with an inner side thereof, and an air bag 50 connected to the distal end of the hose 53 and inserted into the main tube 1 through the guide tube 40. In addition, the gas injector 60 is injected to the airbag 50, the main pipe 1 is provided with a gas injector 60 to be blocked by the airbag 50 is provided, characterized in that it is provided with a fluid blocking device for the pipe work.

Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows.

3 and 4 are cross-sectional views at the time of drilling and finishing work by the fluid shutoff device according to the present invention, respectively, Figure 5 is an exploded perspective view of the intermediate shut-off valve constituting the present invention. Referring to this, the fluid shutoff device for the pipeline operation is to mount a short pipe (hereinafter referred to as a branch tee 5) connecting the main pipe 1 and the branch pipe 3, the upper end of the branch tee (5) An intermediate shut-off valve 10 connected to the intermediate shut-off valve 10, a housing 20 connected to the intermediate shut-off valve 10, and a central portion of the housing 20, and a perforated head 31 or a plug holder at the tip end thereof. 32 is configured to include a shaft 30 to which it is selectively mounted.

The short pipe 5 is applied to the branch tee 5 for connecting the main pipe 1 and the branch pipe 3, the screw portion coupled to the intermediate shut-off valve 10 on the outer peripheral surface of the upper end of the branch tee (5) (7) is formed, the thread groove (8) to which the sealing plug 33 is coupled is formed on the inner circumferential surface of the branch tee (5). In this case, when the size of the branch tee 5 is small, the branch tee 5 may not be directly screwed to the intermediate shut-off valve 10 but is screwed by a connection ring 9 having various diameters.

The intermediate shut-off valve 10 has a vertically opening and closing hole 15 communicates with the branch tee 5 on one surface thereof, and a horizontal sliding space 13 perpendicular to the opening and closing hole 15 is formed therein. Body 11 and 12 provided, the opening and closing plate 14 and the short axis 16 to be rotatably installed in the sliding space 13 of the body (11, 12) to open and close the opening and closing hole 15, It consists of a handle 17 installed to be exposed to the outside of the body (11, 12) to rotate integrally with the opening and closing plate (14). In addition, a spiral groove is formed in the opening and closing hole 15 of the bodies 11 and 12 so that a branch tee 5 or a connection ring 9 is spirally coupled to the lower side thereof, and a housing 0 is spirally coupled to the upper side thereof. do. Therefore, when the intermediate shutoff valve 10 rotates the handle 17 exposed to the outside at a predetermined angle, the opening and closing plate 14 is rotated to one side of the sliding space 13 to open and close the opening and closing hole 15. When the handle 17 is rotated by a predetermined angle to the other side, the opening and closing plate 14 closes the opening and closing hole 15.

The housings 11 and 12 are helically coupled to the opening and closing hole 15 of the intermediate shut-off valve 10, and a lifting hole 23 is formed at the center thereof, and the drilling head 31 or the lifting hole 23 is formed therein. The shaft 30 on which the plug holder 32 is mounted is vertically installed. The shaft 30 is vertically installed through the lifting hole 23 of the housing 20, and a handle or a motor is installed and driven at an upper end thereof, and a drilling head 31 or a plug holder 32 is selectively selected at a lower end thereof. Is formed into a communication hole (2) in the main pipe (1) through the punching head 31, through the plug holder 32 after the pipe work sealing plug 33 on the top of the branch tee (5) ) Can be mounted.

Therefore, the fluid shutoff device for the pipeline operation is to open and close the intermediate shut-off valve 10 when the handle 17 of the intermediate shut-off valve 10 exposed to the outside only one predetermined angle, the intermediate shut-off valve 10 is easily opened and closed. The work is done very quickly. In addition, the handle 17 is exposed to the outside, the operator can determine whether the intermediate shut-off valve 10 at a glance can reduce the gas leakage accident due to the opening and closing failure of the intermediate shut-off valve 10.

In addition, the fluid shutoff device for the pipeline operation is because the tee (5) and the housing (20) is helically coupled directly to the intermediate shut-off valve (10), as in the prior art, in the way that a number of bolts are tightened or loosened one by one through the flange Compared to the removal work is easy.

On the other hand, Figure 6 is a cross-sectional view at the time of airbag insertion by the fluid blocking device according to the present invention. Referring to this, the fluid shutoff device shown in FIG. 1 shows a main valve on both sides of the work section when installing a new valve on the main pipe 1 to which fluid such as gas is supplied or replacing a damaged part of the pre-installed main pipe 1 with a new pipe. It is to be able to block the pipe (1) by the air bag (50). The fluid shutoff device for implementing this is an intermediate shut-off valve 10 installed at the front end of a short pipe (hereinafter referred to as a socket 6), a housing 20 connected to the intermediate shut-off valve 10, and It is installed at the center of the housing 20, and at the tip thereof, the shaft 30 to which the punching head 31 or the plug holder 32 is selectively mounted, and the shaft 30 are separated, and then the housing 20 and the intermediate cutoff. It includes a guide tube 40, the tip end of which is inserted into the main tube (1) through the valve 10, and through the guide tube 40, the air bag 50 connected to the tip of the hose 53 through the main tube (1) is inserted into the inside, and connected to the gas injector 60 to the hose 53 is configured to inject nitrogen gas into the air bag 50 to block both sides of the work section of the main pipe (1).

At this time, the socket 6 and the intermediate shut-off valve 10, the housing 20, the shaft 30, etc. are similar to the first embodiment described above, the guide tube 40 is intermediate with the housing 20 The front end is inserted into the main pipe (1) through the shut-off valve 10, the lower end is formed with an opening 43 which communicates with one side of the main pipe (1), the opening 43 The inclined portion 44 which is inclined downward toward the side is formed so that the airbag 50 into which the inlet is inserted is easily discharged into the opening 43 along the inclined portion 44 to be inserted into the main pipe 1. .

The airbag 50 is connected to the gas injector 60 through a hose 53 of a predetermined length, and the gas injector 60 includes a pressure gauge 63 for displaying the pressure of the gas injected into the airbag 50 and the like. On-off valve 65 and the like are provided.

Therefore, the above fluid shutoff device welds the socket 6 to both sides of the work section of the main pipe 1, and the intermediate shutoff valve 10, the housing 20, and the puncturing head 31 on the upper end of the socket 6. After installing the shaft 30 and the like provided in sequence, the intermediate shut-off valve 10 is opened and the punching head 31 is rotated to form a communication hole 2 in the main pipe 1.

Subsequently, the intermediate shut-off valve 10 is closed, the shaft 30 is separated from the housing 20, and the guide tube 40 is inserted through the housing 20 and the intermediate shut-off valve 10 so that the tip thereof is closed. Insert into the main pipe (1). Subsequently, when the airbag 50 is pushed through the guide tube 40, the airbag 50 is inserted into the main tube 1, and nitrogen gas is introduced into the airbag 50 through the gas injector 60. Inject to block both sides of the work section of the main pipe (1). As such, when both sides of the work section of the main pipe 1 are blocked, the work section of the main pipe 1 is cut, and a new valve or pipe line is connected to the cut section.

After the above operation is completed, the gas injector 60 connected to the air bag 50 is removed, and a vacuum suction device (not shown) is connected to the hose 53 connected to the air bag 50 to the air bag 50. After removing the filled gas, the airbag 50 is separated from the main pipe 1. Subsequently, the shaft 30 is inserted into the housing 20 to couple the sealing plug 33 to the socket 6 to seal the socket 6.

Therefore, the above-described fluid shutoff device further includes a simple auxiliary tool such as a guide pipe 40 or the like in the aforementioned branch tee mounting fluid shutoff device, and installs a new valve in the existing main pipe 1 to which the fluid is supplied. It is possible to easily prevent the leakage of fluid, such as gas supplied through the pipe, to the outside during the work of connecting the pipe.

According to the present invention as described above, the fluid blocking device for the pipeline operation can easily open and close the intermediate shut-off valve 10 to be opened and closed several times during the operation in one-touch manner, the efficiency of the pipeline operation is improved, as well as exposed to the outside By the handle 17, it is possible to check whether the intermediate shutoff valve 10 is opened or closed, thereby preventing gas leakage due to the failure of the intermediate shutoff valve 10.

In addition, if the fluid blocking device for the pipeline operation further includes only a simple auxiliary tool such as a guide tube 40, the fluid such as gas leaks to the outside during the operation of installing a new valve or connecting a new pipeline to the existing pipeline; Can be prevented.

Claims (2)

Through the end pipes 5 and 6 connected to the main pipe 1, a communication hole 2 is formed in the main pipe 1, and the sealing plug 33 can be mounted on the single pipes 5 and 6, respectively. In the fluid shut-off device for the pipeline operation, the opening and closing hole 15 is formed through the intermediate shut-off valve 10 which is installed in communication with the front end portion of the end pipes (5, 6) through the opening and closing hole 15, and the intermediate blocking A housing 20 connected to the valve 10, a shaft 30 penetrating the central portion of the housing 20, and a drilling head 31 or plug holder selectively installed at the lower end of the shaft 30. The intermediate shut-off valve 10 includes a body 11 and 12 having a sliding space 13 in a direction crossing the opening and closing hole 15 therein, and the body 11, Opening and closing plate 14 is rotatably mounted to the sliding space 13 of the 12 to open and close the opening and closing hole 15, and the body to rotate integrally with the opening and closing plate 14 through the short axis (16) ( 11,12) A fluid shutoff device for pipe work, characterized in that it comprises a handle (17) installed to be exposed to the outside. According to claim 1, after removing the shaft 30 through the housing 20 and the intermediate shut-off valve 10, the front end is inserted into the main pipe (1), the front end of the main pipe (1) inside A guide tube 40 having an opening 43 communicating with one side, and an air bag 50 connected to the distal end of the hose 53 and inserted into the main tube 1 through the guide tube 40; Injecting gas into the airbag (50), the main pipe (1) is characterized in that it further comprises a gas injector (60) that can be blocked by the airbag (50).