KR20120019047A - Installation apparatus of plug for stopping gas flowing in gas pipe - Google Patents

Abstract

PURPOSE: An installation structure of a fitting plug for blocking a pipe is provided to reduce the abrasion of a seal ring since a segment connecting shaft is separated from a segment controlling screw, so the moving length of the segment controlling screw is minimized. CONSTITUTION: An installation structure of a fitting plug for blocking a pipe comprises a segment controlling screw(120) and a stopper. After the plug is pushed in the fitting flange, the segment controlling screw is rotated by wrench outside the flange, and a segment(81) is gradually protruded inwardly and is inserted into the coupling groove of the plug. The segment is guided by both stoppers and both protrusions(82) of the segment are caught by the stopper, so the segment is not completely pulled out of a space. If six segments are inserted into the coupling groove of the plug, the plug is firmly coupled into the flange.

Description

Installation apparatus of plug for stopping gas flowing in gas pipe}

The present invention relates to an installation structure of a pipe blocking plug, and more particularly, a plug which is installed on an upper part of a fitting after maintenance work of a pipe to block gas leakage and is easily and firmly installed on a flange of the fitting. The present invention also relates to an installation structure of a pipe blocking plug that prevents gas leakage even after a long period of work.

Most homes, factories, and shops use city gas as fuel, so underground gas pipelines in cities or towns are laid out like spider webs. In addition, underground pipes are provided for transporting various fluids such as oil transportation pipes, hot water pipes, and water supply pipes. Hereinafter, the gas piping will be described with an example.

These pipes need to shut off certain parts of the pipes to prevent gas flow or install branch pipes to bypass them for valve maintenance work such as valve replacement, pipe relocation, new pipes, and old pipe replacements.

In order to block or branch the main pipe, as shown in FIGS. 1 and 2, the coupling part 21 welded to the outer circumferential surface of the pipe 10 and the coupling part 21 are vertically formed. A fitting 20 made of a vertical pipe 22 having a flange 23 at an upper end thereof is welded to the pipe 10, and an intermediate blocking valve 30 is installed on the upper surface of the fitting 20. The reinforcing plate 21a is welded to the lower portion of the pipe 10.

In this state, a perforator (not shown) for perforating the pipe 10 is installed in the intermediate cutoff valve 30, the intermediate cutoff valve 30 is opened, and the perforator 10 is perforated by driving the perforator. At this time, the drive shaft 40 of the perforator is coupled to the drilling saw blade (not shown). After drilling, the drilling saw blade and the perforated portion of the pipe is pulled up above the intermediate blocking valve 30 and the intermediate blocking valve 30 is closed.

In order to shut off the pipe 10 for maintenance, a plugging machine (not shown) is installed in the intermediate shut-off valve 30 to open the intermediate shut-off valve 30 to install a plugging head through the perforated hole in the pipe. Shut off 10) to prevent gas from flowing and maintain the downstream part of the pipe (10).

In case of installing branch piping, it can also be installed in the intermediate shut-off valve (30).

When the maintenance work of such a pipe is completed, the plugging machine or the branch pipe is removed from the intermediate shut-off valve 30. When permanently installing branch piping, the branch piping may be left as it is installed in the intermediate shut-off valve 30.

When the maintenance work of the pipe is finished and the intermediate shutoff valve 30 is to be recovered, the plug adapter 54 is installed on the drive shaft 40 of the punching machine, and the plug 50 is inserted into the plug adapter 54 to interrupt the punching machine again. It is installed on the valve (30). Thereafter, the intermediate shut-off valve 30 is opened and the drive shaft 40 is lowered to press the fixing pin 60 mounted on the flange 23 to fix the plug 50 to the flange 23. At this time, the fixing pin 60 is coupled to the through-hole 24 formed in the flange 23 by a screw coupling method, the end of the fixing pin 60 is a coupling groove 51 formed horizontally on the peripheral surface of the plug 50 ) Is combined.

After that, the drive shaft 40 is lifted up again and the intermediate shutoff valve 30 is closed, and then the perforator is removed from the intermediate shutoff valve 30. Finally, all maintenance work is completed by removing the intermediate shut-off valve 30 from the flange 23 and coupling the cover plate 70 to the flange 23.

However, pressure is applied to the plug 50 due to the high pressure gas or fluid passing through the pipe 10, and the fixing pin 60 fixing the plug 50 to the flange 23 has a relatively cross-sectional area. It's so small that it's not easy to withstand these pressures. Gas may leak into the through hole 24 when the fixing pin 60 which is buried in the ground for a long time corrodes.

In order to solve this problem, a structure for fixing a plug using a plurality of segments has been disclosed as Utility Model Registration No. 0420990. As shown in Figs. 3 to 5, the plug mounting structure forms a plurality of through holes 24 in which the threads 25 are formed in the radial direction in the flange 23 of the fitting 20, and the through holes ( And a segment 81 having a coupling pin 85 that is screwed to 24, and an arc-shaped front portion which is coupled to the distal end of the coupling pin 85 and advanced back and forth as the coupling pin 85 rotates. The plug 50 is inserted into the coupling groove 51 through which the segment 81 is inserted into and removed from the outer circumferential surface of the plug 50, and the tip of the segment 81 is inserted into the coupling groove 51 of the plug 50. It is structure to install.

The segment 81 has a circular arc shape, the front portion of which extends horizontally, as shown in FIG. 5, and both sides of the rear end portion are provided with a locking protrusion 82, and a connection groove 83 is formed at the center portion of the rear end portion. The connecting groove 83 is widened toward the front end portion or is formed with a protrusion 84 protruding inward at the entrance.

The flange 23 is formed at the upper end of the fitting 20 welded to the periphery of the pipe 10, the mounting space 26 is formed horizontally along the circumferential direction on the inner peripheral surface, the mounting space 26 is It is made of groove shape. In addition, in the mounting space 26, a pair of pin-shaped locking pieces 28 are vertically spaced apart from each other. In addition, a plurality of through holes 24 communicating with the outer circumferential surface of the flange 23 in the mounting space 26 are formed in the radial direction of the flange 23, and the thread 25 is formed inside the through holes 24. Is formed.

Coupling pin 85 is formed at the front end of the rotating portion 86 is caught by the inlet or protrusion 84 of the connection groove 83 of the segment 81 so that the coupling pin 85 is rotatable. The outer circumferential surface is formed with a thread 25 that is screwed into the through hole 24. In addition, the ring-shaped U-packing 89 having a U-shaped cross section is fixed to the position by the metal ring 88. The U-packing 89 is disposed so that both ends thereof face in the forward direction of the coupling pin 85, and both ends of the U-packing 89 move upward and downward as the coupling pin 85 moves forward in the through hole 24. By opening, the through hole 24 is more tightly sealed to prevent gas or the like from leaking through the through hole 24.

The plug 50 is inserted in close contact with the inner circumferential surface of the flange 23 and the vertical pipe 22 as in the prior art. At this time, when the coupling pin 85 inserted into the through hole 24 of the flange 23 is rotated by a tool such as a wrench from the outside of the flange 23, the segment 81 is advanced, and the tip portion of the plug 50 is rotated. Inserted into the coupling groove 51, the front surface of the segment 81 is in surface contact with the coupling groove 51.

Therefore, the plug 50 may be firmly installed, and the U packing 89 may be installed at the coupling pin 85 to prevent leakage of gas through the through hole 25.

However, in the conventional plug mounting structure, the coupling pin 85 is screwed into the through hole 24 of the flange 23 to protrude the pivoting portion 86 at its tip to the inner surface of the flange 23, and then the pivoting portion thereof. The connecting groove 83 of the segment 81 is connected to the 86. Then, by turning the coupling pin 85 again to allow the segment 81 to enter the mounting space 26 of the flange 23, the locking piece 28 is driven into the flange 23.

In this state, the plug 50 is positioned on the inner surface of the flange 23 as in the prior art, and the coupling pin 85 is rotated in the initial direction to insert the tip of the segment 81 into the coupling groove 51 of the plug 50. Make sure to stick tightly.

In this way, the conventional plug installation structure, the forward and backward coupling pin 85, and must be advanced again, this process is not only cumbersome, but also U-packing (89) in this process also forward, backward, forward movement, so that through holes ( There is a problem that wear occurs due to friction with the surface of 24). Wear of the U packing 89 may cause gas leakage.

In addition, since the rust occurs when the catching piece 28 elapses for a long time, gas leakage may occur through the installation hole.

The present invention is to solve the problems of the conventional installation structure for the plug blocking pipe, facilitate the installation work of the plug and installation of the plug for the pipe blocking which can completely prevent the leakage of gas even if time passes. Its purpose is to provide a structure.

Pipe plug installation structure of the present invention for achieving the above object is to form a coupling groove on the outer peripheral surface of the plug for blocking the upper portion of the flange of the fitting installed for the maintenance of the pipe to form a mounting space on the inner peripheral surface of the fitting flange In a plug installation structure in which a plug is installed in a fitting flange by closely fitting a coupling groove of a plug such that the segment protrudes from the mounting space of the flange, the connection inserted into the connecting groove of the segment by protruding the tip of the segment from the inner peripheral surface of the flange. The protrusion and the engaging groove which is engaged with the protrusion of the segment is formed, the segment connecting shaft having a female threaded groove formed in the rear inner portion, the screw portion screwed to the segment connecting shaft and the rear of the screw portion and is larger than the screw portion It has a diameter and a sealing is installed on the outer circumferential surface Segment adjustment screw formed at the rear end of the intermediate cylindrical portion, the intermediate cylinder portion, and having a diameter smaller than that of the intermediate cylinder portion and formed by a rear cylinder portion having a hexagonal groove formed at the rear end, and a rear cylinder of the segment adjustment screw. The bearing is installed around the part and contacts the side of the middle cylindrical part. The bearing is fixed to the side of the middle cylindrical part of the segment adjusting screw to fix the segment adjusting screw so that the hollow is formed. A fixed screw having a thread formed therein, and a hollow membrane screw which is screwed into the fixed screw to prevent the hollow of the fixed screw; The fitting flange has a plurality of through holes communicating with the mounting space in the radial direction. The through holes are small diameter through holes through which the segment connecting shaft penetrates, and are formed behind the small diameter through holes. An intermediate diameter through hole into which the adjustment screw's intermediate cylinder is inserted, and a large diameter through hole in which a female screw to which the fixing screw is screwed is formed at the rear of the intermediate diameter through hole.

The installation structure of the pipe blocking plug of the present invention is further characterized by welding the hollow membrane screw to completely seal the through hole after the installation of the plug is completed.

The installation structure of the pipe blocking plug of the present invention is also characterized in that the stop wave is welded to the mounting space of the fitting flange to prevent a phenomenon in which the segment is separated from the mounting space by catching both protrusions of the segment.

Pipe plug installation structure of the present invention is provided with a separate segment connecting shaft and segment adjustment screw to be connected to the segment separately to minimize the front and rear movement distance of the segment adjustment screw with a seal and to reduce the wear of the sealing At the same time, it is an object of the present invention to provide an installation structure of a pipe blocking plug which can simplify the installation work of the segment and can completely prevent the leakage of gas even with time.

1 is an exploded perspective view showing an installation state of a fitting and a plug installed in a conventional pipe
2 is a partial cutaway front view showing a state of one embodiment of installing a plug in a fitting installed in a conventional pipe,
3 is a partial cutaway front view showing another embodiment of a coupling structure of a conventional fitting and plug,
4 is a plan view of the embodiment shown in FIG.
5 is a perspective view of a segment and a coupling pin which are main components, which are main parts of the embodiment shown in FIG. 3;
Figure 6 is an exploded perspective view showing a plug blocking structure for installing the pipe according to the present invention,
Figure 7 is an exploded plan view of the components of the pipe blocking plug installation structure according to the present invention,
8 is an exploded cross-sectional view illustrating a state in which components of the plug block for installing a pipe block according to the present invention are coupled to a flange of a fitting;
9 is a partially enlarged cross-sectional view showing a state in which the components of the plug installation structure for blocking pipes according to the present invention are coupled to a flange of a fitting;
Figure 10a is a perspective view showing the relationship between the segment and the stop wave which is a component of the plug installation structure for pipe cutting according to the present invention;
10B is a perspective view of the stop wave of FIG. 10A;
Figure 11a is a partial cutaway front view of the segment connecting shaft which is a component of the plug installation structure for blocking pipes according to the present invention,
11B is a cross-sectional view taken along the line AA of the segment connecting shaft of FIG. 11A;
12A is a longitudinal cross-sectional view of a segment adjustment screw that is a component of a pipe installation plug mounting structure according to the present invention;
12B is a right side view of the segment adjusting screw of FIG. 12A.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

As shown in FIG. 6, in the pipe blocking plug installation structure of the present invention, the coupling groove 51 is formed on the outer circumferential surface of the plug 50 to block the upper portion of the flange 23 of the fitting 20 installed for the pipe maintenance. And a mounting space 26 is formed on the inner circumferential surface of the fitting flange 23 so that the segments 81 protrude from the mounting space of the flange 23, thereby closely fitting the coupling groove 51 of the plug 50. The plug 50 is attached to the flange 23. An O-ring 52 is provided on the outer circumferential surface of the plug 50 to seal the gap between the plug 50 and the fitting 20.

As shown in Figures 7 to 9, the plug installation structure of the present invention as its component parts, segment connecting shaft 110, segment adjusting screw 120, bearing 130, fixing screw 140, and hollow A film screw 150 is included.

As shown in FIGS. 11A and 11B, the segment connecting shaft 110 protrudes from the inner circumferential surface of the flange 23 as the front end of the segment 81 is inserted into the connecting groove 83 of the segment 81. The protrusion 111 and the engaging groove 112 to be engaged with the protrusion 84 of the segment 81 are formed, and the female thread groove 113 is formed inside the rear portion.

12A and 12B, the segment adjusting screw 120 is formed at the rear of the screw portion 121 and the screw portion 121 screwed to the segment connecting shaft 110 and is formed from the screw portion 121. It is formed at the rear end of the intermediate cylindrical portion 122, the intermediate cylindrical portion 122 having a large diameter and the sealing ring 124 is installed on the outer circumferential surface and has a smaller diameter than the intermediate cylindrical portion 122 and the rear end. It is formed by the rear cylindrical part 123 in which the hexagon groove 123a is formed.

The bearing 130 is a thrust bearing, and as shown in FIGS. 7 to 9, the bearing 130 is installed around the rear cylindrical portion 123 of the segment adjusting screw 120. Touch the sides.

In addition, the fixing screw 140 is in close contact with the bearing 130 to the side of the middle cylindrical portion 122 of the segment adjusting screw 120, the hollow 141 is formed as rotatably fixing the segment adjusting screw 120. And threads are formed on the outer surface and the inner surface, respectively, the hollow membrane screw 150 is screwed into the inside of the fixing screw 140 to block the hollow 141 of the fixing screw 140. After the installation of the plug 50 is completed, the hollow membrane screw 150 is welded to completely seal the through hole 160.

8 and 9, a plurality of through holes 160 communicating with the mounting space 26 are formed in the flange 23 of the fitting 20 in the radial direction, and the through holes 160 ) Is formed at the rear of the small diameter through hole 161 through which the segment connecting shaft 110 passes, and the middle cylindrical portion 122 of the segment adjusting screw 120 is inserted therein. The medium diameter through hole 162 and the rear of the middle diameter through hole 162 consists of a large diameter through hole 163 in which a female screw to which the fixing screw 140 is screwed is formed.

As shown in FIG. 6, both side protrusions 84 of the segment 81 are caught in the mounting space 26 of the fitting flange 23 to prevent the segment 81 from being separated from the mounting space 26. The stop wave 170 of Figure 10b is welded.

The plug installation structure of the present invention configured as described above is installed as follows.

As shown in FIG. 6, the segment 81 is inserted into the mounting space 26 of the flange 23 of the fitting 20 and the components are coupled to the through hole 160 of the flange 23.

First, the connecting protrusion 111 of the segment connecting shaft 110 is inserted into the connecting groove 83 of the segment 81, and then a small amount of the through hole 160 is formed through the mounting space 26 in the flange 23. Insert into the diameter through-hole (61). Then, while inserting the segment adjusting screw (9) into the through hole 160 from the outside of the flange 23, the screw portion 121 is coupled to the female screw groove 113 of the segment connecting shaft (110). At this time, the central cylindrical portion 122 and the sealing ring 124 of the segment adjusting screw 120 is located in the middle diameter through hole 162 of the through hole 160.

Next, the bearing 130 is installed in the rear cylindrical portion 123 of the segment adjustment screw 120, and then the fixing screw 140 is coupled to the large diameter through hole 163 in which the female thread is formed.

Six segments 81 are arranged in the mounting space 26 of the flange 23 at intervals of 60 degrees, and between the segments 81, the stop wave 170 of FIG. 10B is shown in FIGS. 6 and 10A. Positioned together, the stop wave 170 is welded to the mounting space 170 after the segment 81 is installed in the mounting space (26).

In this state, the fitting 20 is installed in the pipe 10 and when the maintenance or branching of the pipe 10 is finished, the upper part of the fitting 20 should be blocked to prevent the leakage of gas.

To this end, the plug 50 is pushed into the flange 23 of the fitting 20 in a conventional manner, and the segment 81 is turned by turning the segment adjusting screw 120 using a wrench from the outside of the flange 23. It protrudes inward little by little and inserts the front end into the coupling groove 51 of the plug 50. At this time, the segment 81 is guided by the stop waves 170 on both sides, and since the engaging projections 82 on both sides thereof are caught by the stop wave 170, the segments 81 are completely removed from the mounting space 26. Do not fall.

When all six segments 81 are inserted into the coupling groove 51 of the plug 50, the plug 50 is firmly coupled to the inside of the flange 23, and the plug 50 is strongly applied even if a strong gas pressure is applied from the pipe 10. 50) maintain a solid assembly. And since the O-ring 52 is provided in the clearance gap between the plug 50 and the fitting 20, gas is sealed.

In this state, the hollow membrane screw 170 is coupled to the hollow of the fixing screw 140 and then welded.

Pipe plug installation structure of the present invention is to separate the segment connecting shaft 110 and the segment adjusting screw 120 to be connected to the segment 81 so that they are screwed together, the segment adjusting screw with a sealing (124) ( Since the front and rear movement of the 120 is minimized, wear of the sealing ring 124 may be prevented, and leakage of gas may be prevented. Moreover, since the hollow membrane screw 150 is welded to the flange 23, the through hole 160 may be elapsed even after a long time. It is possible to completely prevent the leakage of gas through the. In addition, since the segment connecting shaft 110 and the segment adjusting screw 120 are separated, the installation work of the segment 81 can be easily performed.

Since the stop wave 170 is welded to the mounting space 26, there is no gas leakage through the installation hole of the locking piece 28 as in the conventional case.

While the invention has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

10: main piping 20: fitting
21: coupling portion 21a: reinforcement plate
22: vertical pipe 23: flange
24 through hole 25 thread
26: mounting space 28: hanging piece
30: intermediate cutoff valve 40: drive shaft
50: plug 51: coupling groove
52: O-ring 54: plug adapter
60: fixed pin 81: segment
82: locking projection 83: connecting groove
84: protrusion 85: coupling pin
86: rotating part 88: metal ring
89: U packing
110: locking projection 111: connection protrusion
112: coupling groove 113: female thread groove
120: segment adjustment screw 121: screw portion
122: middle cylindrical portion 123: rear cylindrical portion
123a: hexagonal groove 124: seal ring
130: bearing 140: set screw
141: hollow 150: hollow membrane screw
160: through hole 161: small diameter through hole
162: middle diameter through hole 163: large diameter through hole
170: stop wave

Claims (3)

The coupling groove 51 is formed on the outer circumferential surface of the plug 50 for blocking the upper portion of the flange 23 of the fitting 20 installed for the maintenance of the pipe, and the mounting space 26 is formed on the inner circumferential surface of the fitting flange 23. In the plug installation structure for installing the plug 50 in the fitting flange 23 by forming a close contact with the coupling groove 51 of the plug 50 to form a segment 81 protrudes in the mounting space of the flange 23 ,
Engaging with the connecting protrusion 111 inserted into the connecting groove 83 of the segment 81 and the protrusion 84 of the segment 81 by protruding the tip portion of the segment 81 from the inner circumferential surface of the flange 23. Segment connecting shaft 110, the coupling groove 112 is formed, the female thread groove 113 is formed inside the rear,
An intermediate cylindrical portion having a screw portion 121 screwed to the segment connecting shaft 110 and a rear portion of the screw portion 121 and having a diameter larger than that of the screw portion 121 and having a sealing ring 124 installed on an outer circumferential surface thereof. (122), which is formed at the rear end of the intermediate cylindrical portion 122, has a smaller diameter than the intermediate cylindrical portion 122, and is formed of a rear cylindrical portion 123 having a hexagonal groove 123a formed at the rear end thereof. Segment adjusting screw (120),
A bearing 130 installed around the rear cylindrical portion 123 of the segment adjusting screw 120 and in contact with the side surface of the intermediate cylindrical portion 122;
The bearing 130 is in close contact with the side of the middle cylindrical portion 122 of the segment adjusting screw 120 to fix the segment adjusting screw 120 to be rotatable, and a hollow 141 is formed on the outer surface and the inner surface. Fixing screw 140, each thread is formed, and
A hollow membrane screw 150 which is screwed into the fixing screw 140 to block the hollow 141 of the fixing screw 140;
The flange 23 of the fitting 20 has a plurality of through holes 160 in communication with the mounting space 26 in the radial direction,
The through hole 160 is formed at the rear of the small diameter through hole 161 through which the segment connecting shaft 110 passes, and the small diameter through hole 161. The intermediate cylindrical portion of the segment adjusting screw 120 ( A medium diameter through hole 162 into which the 122 is inserted and a large diameter through hole 163 formed with a female thread to which the fixing screw 140 is screwed to the rear of the middle diameter through hole 162 is formed. Installation structure of the plug for pipe shutoff. According to claim 1, After the installation of the plug 50 is completed, the installation structure of the plug for blocking pipes, characterized in that the through-hole 160 is completely sealed by welding the hollow membrane screw 150. The method of claim 1, wherein both protrusions 84 of the segment 81 are caught in the mounting space 26 of the fitting flange 23 to prevent the segment 81 from being separated from the mounting space 26. An installation structure of a pipe blocking plug, wherein the stop wave 170 is welded.

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