KR102249136B1 - Tube guiding apparatus for pipe repairing - Google Patents

Abstract

In accordance with the present invention, a tube guide device for repairing a whole pipe, which is a guide device connecting first and second pipelines connected to one single manhole, includes: a ring-shaped first flange mounted at an end of a side connected to the manhole, of the first pipeline; a ring-shaped second flange mounted at an end of a side connected to the manhole, of the second pipeline; and a plurality of guide arms connecting the first and second flanges. In accordance with the present invention, the tube guide device is used to insert reversal tubes consecutively into two pipelines even when positions of two buried pipes connected to one single manhole are stepped, thereby reducing costs and periods for construction, and wrinkles appearing on the reversal tubes are minimized to improve pipeline repair quality.

Description

Tube guiding apparatus for pipe repairing

The present invention relates to a device for guiding an entry path of a reversing tube for repairing a pipeline, and more particularly, guiding the entry path of the reversing tube so that the reversing tube can be inserted successively into two pipelines arranged to form a step difference. It relates to a guide device.

In general, underground buried pipes such as water supply pipes, sewage pipes, gas pipes, communication pipes, etc. are structurally deteriorated, subsidence of the ground, earth pressure fluctuations on the ground, cracks and damage caused by external loads, etc. Since wastewater in the soil seeps into the basement through cracks and damaged parts, contaminates the soil or causes erosion of the ground, maintenance of underground buried pipes is frequently required.

As a method of repairing underground buried pipes, recently, a non-drilling pipe repair device for repairing a pipe by inverting a reversing tube inside a pipe without drilling around the pipe has been widely used. In general, a non-drilling pipe repairing device is a cured-in-place-pipe on the inner wall of the pipe by supplying high-temperature steam to the inner wall of the pipe and thermally curing it by supplying high-temperature steam to the inner wall of the pipe by using pneumatic pressure. , CIPP). At this time, since the reversing tube is impregnated with resin therein, the reinforcing layer is hardened to the inner wall surface of the pipe and is configured to adhere or adhere.

At this time, the pipe buried underground is usually connected to the manhole. As shown in FIG. 1, when the first pipe 20 and the second pipe 30 are connected to one manhole 10, the two The height of the pipes 20 and 30 may not match and a step may occur.

In this way, when a step is generated in the two pipes 20 and 30, there is a problem that the reversing tube 40 inserted to pass through the first pipe 20 does not smoothly enter the second pipe 30 side. . Therefore, when the heights of the two pipes 20 and 30 are different as described above, the first pipe 20 and the second pipe 30 are respectively inserted along the reversing tube 40 to be repaired, or the first pipe 20 The passed inversion tube 40 must be bent or bent and inserted into the second conduit 30. However, when the two pipes 20 and 30 are separately repaired, there is a problem that it takes a lot of cost and construction time, and the second pipe ( In the case of inserting into 30), there is a problem that wrinkles are generated in the reversing tube 40, resulting in a decrease in quality.

KR 10-1354120 B1

The present invention has been proposed to solve the above problems, and even if a step occurs in the positions of two buried pipes connected to one manhole, the inverting tube can be inserted in succession into two pipes, thereby reducing cost and construction period. It is an object of the present invention to provide an inverting tube guide device capable of preventing quality deterioration by minimizing wrinkles generated in the inverting tube.

The tube guide device for total maintenance of a pipe according to the present invention for achieving the above object is a guide device connecting a first pipe and a second pipe connected to one manhole, and the side connected to the manhole of the first pipe. A ring-shaped first flange mounted at the end of the; A ring-shaped second flange mounted on an end of the second conduit connected to the manhole; And a plurality of guide arms connecting the first flange and the second flange.

The first flange and the second flange are composed of a plurality of flange links that are bent in an arc shape and arranged to form one circle, and two adjacent flange links are connected in a rotatable structure.

The guide arm includes a first fixing link having one end connected to the first flange, a second fixing link having one end connected to the second flange, and both ends of the first fixing link in a longitudinal direction and a second fixing of the other end of the first fixing link. It consists of a connecting link that is connected to the other end of the link in a rotatable structure.

The connection link is configured in a structure that can be adjusted in length.

The lower end is connected to the guide arm and the upper end further includes an upper fixing rack mounted to the upper entrance of the manhole.

The upper fixing rack includes a fastening link having a lower end fastened to a plurality of guide arms, a vertical pipe having a lower end connected to the upper end of the fastening link and extending upward, and a lower end of the manhole coupled to the upper end of the vertical tube. It consists of a hook hanging over the inlet.

The fastening link has a lower end branched so that it can be fastened to a plurality of guide arms at once.

The vertical pipe is configured in a structure that can be adjusted in length.

A first lower support seated on the bottom of the manhole to support the lower side of the first flange, and a second lower support seated on the bottom of the manhole to support the lower side of the second flange.

The first lower support and the second lower support have a structure in which length can be adjusted.

Using the reversing tube guide device according to the present invention, even if a step occurs in the positions of two buried pipes connected to one manhole, the reversing tube can be inserted in succession into two pipes, thereby reducing cost and construction period, and There is an advantage in that it is possible to improve the quality of pipe repair by minimizing the wrinkles generated in the tube.

1 is a cross-sectional view showing a process of inserting a reversing tube into a pipeline having a step difference.
Figure 2 is a state diagram of the use of the reverse tube guide device according to the present invention.
3 is a perspective view of a reverse tube guide device according to the present invention.
4 and 5 are perspective views of a first flange included in the reverse tube guide device according to the present invention.
6 is an exploded perspective view of a guide arm included in the inverting tube guide device according to the present invention.
7 is a perspective view of a first upper fixing rack included in the reverse tube guide device according to the present invention.
8 to 11 is a state diagram of the use of the reverse tube guide device according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the tube guide device for overall maintenance of the pipe according to the present invention.

Figure 2 is a state diagram of the tube guide device according to the present invention in use, Figure 3 is a perspective view of the tube guide device according to the present invention.

In the tube guide device for total maintenance of a pipe according to the present invention, even if the two pipes 20 and 30 connected to one manhole 10 are arranged to have a step difference, one inverting tube 40 is the two pipes 20 and 30. The biggest feature is that it guides the insertion path of the inversion tube 40 so that it can be inserted smoothly.

That is, the reversing tube 40 for conduit repair according to the present invention is a guide device connecting the first conduit 20 and the second conduit 30 connected to one manhole 10, the first conduit 20 Of the first ring-shaped flange 100a mounted on the end of the side connected to the manhole 10, and a ring-shaped first flange mounted on the end of the second pipe 30 connected to the manhole 10 It is configured to include a two flange (100b), and a plurality of guide arms 200 connecting the first flange (100a) and the second flange (100b). The first flange (100a) and the second flange (100b) are manufactured to have the same diameter as the first pipe (20) and the second pipe (30), respectively, and each pipe passage by separate fixing means such as anchors or fastening bolts. It can be joined to the end of (20, 30).

In addition, the plurality of guide arms 200 connect the two flanges 100a and 100b, and are arranged to form a tunnel shape of a standard through which the reversing tube 40 can pass. Therefore, as shown in FIG. 2, when the inversion tube 40 flows into the first conduit 20 while the inverting tube guide device according to the present invention is mounted between the two conduit 20 and 30, the first The inversion tube 40 passing through the conduit 20 may enter along the space between the plurality of guide arms 200 and be smoothly introduced into the second conduit 30.

That is, if the tube guide device according to the present invention is used, even if the two pipelines 20 and 30 are arranged to have a step difference, the reversing tube 40 can be inserted and compressed at once, so the construction period required for the pipeline maintenance There is an advantage of being able to significantly reduce the cost and cost. In addition, the plurality of guide arms 200 connecting the two flanges 100a and 100b are smoothly curved without the reversing tube 40 passing through the first flange 100a being rapidly bent or bent. Since the entrance path of the reversing tube 40 is guided so that it can be inserted into the (100b), wrinkles or overlapping phenomenon in the reversing tube 40 can be prevented as much as possible, and accordingly, the quality of the maintenance pipe can be remarkably improved. There is an advantage of being able to do it.

On the other hand, the plurality of guide arms 200 connecting the two flanges 100a and 100b are not horizontally extended along the longitudinal direction of the first pipe 20 and the second pipe 30 but are arranged obliquely inclined in one direction. Therefore, the inversion tube 40 passing through the first conduit 20 presses the plurality of guide arms 200. When the force of the reversing tube 40 that presses the guide arm 200 is greater than the reference value, the guide arm 200 and the flanges 100a and 100b connected thereto are pushed by the reversing tube 40 and are positioned. can be changed. In addition, the reversing tube guide device according to the present invention may be made of metal so as to have rigidity above the reference value. When the reversing tube guide device according to the present invention is made of metal, the pressing force of the reversing tube 40 Even if this is not applied, a downward sag phenomenon may occur due to its own weight.

The tube guide device according to the present invention has the guide arm 200 at the lower end so that the position of the flanges 100a and 100b and the guide arm 200 can be stably fixed to solve such a problem. It is connected to and the upper end may further include an upper fixing rack mounted to the upper entrance of the manhole (10). At this time, the upper fixing rack includes a first upper fixing rack 300a for fixing a portion of the guide arm 200 connected to the first flange 100a, and a portion connected to the second flange 100b of the guide arm 200 It can be divided into a second upper fixing rack (300b) fixing the.

In this way, when the first upper fixing rack 300a and the second upper fixing rack 300b are provided, the guide arm 200 and the first flange 100a and the second flange 100b coupled thereto are reverse tube 40 Since the initial position can be maintained without changing the mounting position by the pressing force or self weight of ), there is an advantage that the entry path of the reversing tube 40 can be guided more stably.

In addition, the tube guide device according to the present invention is seated on the bottom of the manhole 10 so as to prevent sagging of the first flange 100a and the second flange 100b. A first lower support 400a for supporting and a second lower support 400b which is seated on the bottom of the manhole 10 and supports the lower side of the second flange 100b may be additionally provided. In general, the height of the pipe connected to the manhole 10 is variously changed according to field conditions, and the heights of the first flange 100a and the second flange 100b coupled to the pipe may also be variously changed. It is preferable that the first lower support 400a and the second lower support 400b have a length adjustable structure. At this time, the first lower support (400a) and the second lower support (400b) may be composed of a double tube structure that can be adjusted in length as shown in this embodiment, such a double tube structure is commercially available for fishing rods or hanger rods. Since there is a detailed description thereof will be omitted.

4 and 5 are perspective views of a first flange 100a included in the tube guide device according to the present invention.

The flanges (100a, 100b) are manufactured in a ring shape having the same diameter as the pipes (20, 30), and in general, the upper entrance of the manhole (10) is made smaller than the diameter of the pipes (20, 30), so the flange ( When 100a, 100b) are manufactured to have a ring structure of a single member, there is a problem that they cannot be inserted into the upper inlet of the manhole 10.

Therefore, it is preferable that the flanges 100a and 100b are manufactured in a structure that can be changed in shape. For example, the first flange (100a) and the second flange (100b) is composed of a plurality of flange links 110 that are bent in an arc shape and arranged to form one circle, as shown in FIG. The two flange links 110 may be configured to be connected in a rotatable structure by a hinge shaft 120.

If the flanges (100a, 100b) are made of a plurality of flange links 110 connected in a rotatable structure, as shown in FIG. 5, it is possible to change one side diameter (in this embodiment, the left and right diameter) to be narrower. Therefore, there is an advantage of being able to smoothly pass through the upper entrance of the small-sized vanhole.

At this time, in this embodiment, only a configuration in which two adjacent flange links 110 are connected in a rotatable structure by a hinge shaft 120 is shown, but the coupling structure of the flange links 110 may be rotatably connected. If so, it can be replaced with any structure.

6 is an exploded perspective view of the guide arm 200 included in the tube guide device according to the present invention.

The guide arm 200 integrally connects the two flanges 100a and 100b, and is a component for securing an entry path of the reversing tube 40 between the two flanges 100a and 100b. At this time, when the guide arm 200 is manufactured in a single bar structure, the entrance direction of the reversing tube 40 passing through the first flange 100a is rapidly changed, and the reversing tube 40 is bent or Crease may occur.

Therefore, it is preferable that the guide arm 200 is configured in a multi-link structure so that the entrance path of the inversion tube 40 can be gradually changed. For example, the guide arm 200 includes a first fixing link 210 having one end connected to the first flange 100a, and a second fixing link 220 having one end connected to the second flange 100b. ), and both ends of the first fixed link 210 and the other end of the second fixed link 220 in a rotatable structure, respectively. At this time, in this embodiment, only the case where both ends of the connection link 230 are connected in a rotatable structure by separate fastening pins 240 is shown, but both ends of the connecting link 230 are rotatable. If it can be connected to the fixed link 210 and the second fixed link 220, it may be replaced with any coupling structure.

In this way, when the guide arm 200 is configured in a multiple link structure, even if the step between the first pipe 20 and the second pipe 30 is large, the inverting tube 40 passing through the first pipe 20 Since the entry path can be divided and changed several times, there is an advantage in that it is possible to prevent the phenomenon of rapid bending of the inversion tube 40 and folding accordingly.

In addition, since the first pipe 20 and the second pipe 30 are usually connected to face each other with the manhole 10, one side wall and the other side wall, the separation distance between each other according to the diameter standard of the manhole 10 It can be different. In this case, if the guide arm 200 is manufactured to have a constant length, the guide arm 200 must be individually manufactured in accordance with the standard of each manhole 10, so there is a disadvantage in that the usability is inferior.

The tube guide device according to the present invention is preferably configured in a structure in which the length can be adjusted so that the connection link 230 can be commonly applied even if the distance between the first pipe 20 and the second pipe 30 is changed. . At this time, in this embodiment, only the case where the connection link 230 is composed of a double tube structure commercially available for fishing rods or hanger rods is shown, but the connection link 230 may be replaced with any structure if the length can be adjusted. I can.

When the guide arm 200 is configured such that the length of the guide arm 200 is adjustable, it may be commonly used for the manhole 10 of various standards, and examples of such application will be described in detail with reference to FIGS. 8 to 11 below.

7 is a perspective view of a first upper fixing rack 300a included in the tube guide device according to the present invention.

The upper fixing rack is a component for fixing the positions of the guide arm 200 and the first flange 100a and the second flange 100b connected thereto, and a fastening link having a lower end fastened to a plurality of guide arms 200 (310), the lower end is connected to the upper end of the fastening link (310) and the vertical pipe (320) extending upward, and the lower end is coupled to the upper end of the vertical pipe (320), the upper entrance of the manhole (10) It is configured to include a locking hook 330 that spans.

At this time, the fastening link 310 may be configured in a straight bar shape so as to be fastened only to one guide arm 200, or to be fastened to a plurality of guide arms 200 at once as shown in this embodiment. The bottom may be configured in a branched form.

In addition, the vertical pipe 320 may be configured in a structure capable of adjusting the length so that it can be commonly applied regardless of the height of the entrance of the manhole 10. When the length of the vertical pipe 320 is configured to be changeable as described above, the first upper fixing rack 300a connecting the first fixing link 210 at a relatively high position and the second fixing link at a relatively low position Since the second upper fixing rack 300b connecting 220 can be used in common, there is an advantage in that the usability is very high. At this time, since the length of the vertical pipe 320 can be changed is substantially the same as the length change structure of the connection link 230, a detailed description thereof will be omitted.

8 to 11 is a state diagram of use of the tube guide device according to the present invention.

The reversing tube 40 according to the present invention is a feature of the construction in that it can be used commonly even if the height difference between the first pipe 20 and the second pipe 30 and the standard of the manhole 10 are changed. There is this.

For example, as shown in Fig. 8, it is basically applied when the level difference of the pipes 20 and 30 is normal to the manhole 10 of the general standard, but as shown in Fig. 9, the manhole 10 of the general standard In the case where the step difference between the conduits 20 and 30 is large, the length of the connecting link 230 is increased while reducing the angle between the connecting link 230 and the fixed links 210 and 220.

In addition, as shown in FIG. 10, when the size of the manhole 10 increases and the distance between the first pipe 20 and the second pipe 30 is increased, the length of the connection link 230 is increased while the connection link is If the mounting is possible by increasing the angle between 230 and the fixed links 210, 220, and as shown in FIG. 11, when the manhole 10 increases in size, the step difference of the pipes 20 and 30 increases. As the length of the connecting link 230 is increased, the angle between the connecting link 230 and the fixed links 210 and 220 is decreased, thereby enabling mounting.

At this time, when the level difference of the pipes 20 and 30 is changed, the distance from the bottom of the manhole 10 to the respective pipes 20 and 30 is changed, and the first lower support 400a supporting each of the flanges 100a and 100b ) And the second lower support (400b) will have to be configured in a structure that can be adjusted in length. In addition, when the level difference of the pipes 20 and 30 is changed, the distance from the upper entrance of the manhole 10 to the respective pipes 20 and 30 is changed, and the vertical pipe 320 of the upper fixing racks 300a and 300b The length of will also need to be adjusted.

As mentioned above, the tube guide device according to the present invention is the bending angle and length of the guide arm 200 even if the height difference between the first pipe 20 and the second pipe 30 and the size of the manhole 10 are changed. , Since it can be mounted by adjusting the length of the upper fixing rack (300a, 300b) and the length of the lower support (400a, 400b), there is an advantage that the usability is very excellent.

As described above, the present invention has been described in detail using preferred embodiments, but the scope of the present invention is not limited to specific embodiments, and should be interpreted by the appended claims. In addition, those who have acquired ordinary knowledge in this technical field should understand that many modifications and variations are possible without departing from the scope of the present invention.

10: manhole 20: first pipe
30: second conduit 40: reverse tube
100a: first flange 100b: first flange
110: flange link 120: hinge shaft
200: guide arm 210: first fixed link
220: second fixed link 230: connecting link
240: fastening pin 300a: first upper fixing rack
300b: second upper fixing rack 310: fastening link
320: vertical pipe 330: hooking hook
400a: first lower support 400b: second lower support

Claims (10)

As a guide device connecting the first pipe and the second pipe connected to one manhole,
A ring-shaped first flange mounted on an end of the first conduit connected to the manhole;
A ring-shaped second flange mounted on an end of the second conduit connected to the manhole;
A plurality of guide arms connecting the first flange and the second flange; Consisting of including,
The first flange and the second flange,
Consisting of a plurality of flange links that are bent in an arc shape and arranged to form one circle, two adjacent flange links are connected in a rotatable structure. delete The method according to claim 1,
The guide arm,
A first fixing link having one end connected to the first flange, a second fixing link having one end connected to the second flange, and both ends in the longitudinal direction at the other end of the first fixing link and the other end of the second fixing link, respectively. Tube guide device for overall maintenance of a pipeline, characterized in that consisting of a connecting link connected in a rotatable structure. The method of claim 3,
The connecting link is a tube guide device for overall maintenance of a pipeline, characterized in that configured in a structure that can be adjusted in length. The method according to claim 1,
Tube guide device for overall maintenance of the pipeline, characterized in that the lower end is connected to the guide arm and the upper end further comprises an upper fixing rack mounted to the upper entrance of the manhole. The method of claim 5,
The upper fixed rack,
A fastening link whose lower end is fastened to a plurality of guide arms, a vertical pipe whose lower end is connected to the upper end of the fastening link and extends upward, and a lower end is coupled to the upper end of the vertical tube to hang over the upper entrance of the manhole Tube guide device for overall maintenance of the pipeline, characterized in that configured to include a hook. The method of claim 6,
The fastening link is a tube guide device for repairing the entire pipeline, characterized in that the lower end branch to be fastened to a plurality of guide arms at once. The method of claim 6,
The vertical pipe is a tube guide device for overall maintenance of a pipe, characterized in that configured in a structure that can be adjusted in length. The method according to claim 1,
It characterized in that it further comprises a first lower support seated on the bottom of the manhole to support the lower side of the first flange, and a second lower support seated on the bottom of the manhole to support the lower side of the second flange Tube guide device for maintenance of the entire pipeline. The method of claim 9,
The first lower support and the second lower support, the tube guide device for repairing the entire pipeline, characterized in that configured in a structure that can be adjusted in length.

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