KR20230115462A - Tube guide apparatus for water and sewage pipe repair and repair method using the same - Google Patents

Abstract

Disclosed is a tube guide device for repairing water and sewage pipes capable of guiding a repair tube so that the repair tube can be supplied to the sewer pipe in an appropriate state and shape, and a repair method using the same. Tube guide device for repairing water and sewage pipes according to the present invention includes a frame supported on the upper part of the ground; It is fixedly installed so that it can be supported on the upper part of the frame, and a slot is formed in the rear panel that seals the rear side so that the repair tube can pass through, and the front end of the repair tube is fixed to the front so that the repair tube is hydraulically controlled. A guide body opened to be discharged while being reversed by; and a pressure providing unit that is connected to the rear of the guide body and provides hydraulic pressure so that the repair tube can be discharged forward while being inverted.

Description

Tube guide apparatus for water and sewage pipe repair and repair method using the same {Tube guide apparatus for water and sewage pipe repair and repair method using the same}

The present invention relates to a device for repairing water and sewage pipes using a repair tube, and more specifically, for repairing water and sewage pipes capable of guiding a repair tube so that the repair tube can be supplied to the sewer pipe in an appropriate state and shape. It relates to a tube guide device and a repair method using the same.

In general, sewage pipes are connected to each home or factory to transport sewage to a sewage treatment plant, and these water and sewage pipes are installed throughout the city. Since the sewer pipe carries sewage and wastewater, it deteriorates over time and is corroded by things such as oxides, so that sewage flows out of the sewer pipe. When such sewage is discharged to the outside through old sewer pipes, soil contamination and groundwater contamination are caused.

In order to prevent such contamination of soil and groundwater, the old sewer pipe is replaced. In order to replace the sewer pipe, the place where the sewer pipe is buried is excavated, and then the old sewer pipe is separated and a new sewer pipe is buried. When this excavation method is used, since the sewer pipe is replaced with a new one, the fundamental problem can be solved and only excavation costs are incurred. However, the excavation method has a problem in that it takes a lot of time because the sewer pipe must be replaced after excavating the place where the sewer pipe is buried. There is a problem of excessive social indirect costs.

In order to solve the problem of the excavation method, the Cured-in-Placed Pipe (CIPP) method was developed to prevent sewage from leaking out of the pipe by installing a liner inside the sewer pipe without excavating the pipe. It became.

This method is a method of inserting a tube impregnated with a thermosetting resin into the sewer pipe and then curing the tube by irradiating steam or UV lamps to prevent the outflow of sewage. In Korea, the traction method and the inversion method are used. there is. The traction method was developed in Korea. A tube with a coating layer formed on the inner surface and a surface impregnated with resin on the outer surface is pulled to the sewer pipe, and then air pressure or hydrostatic pressure is supplied to the inside to expand it so that the outer surface is the inner surface of the sewer pipe. It is to make the tube harden by supplying heat at the same time so that it adheres to the tube. This traction method has a disadvantage that the thickness of the finished lining pipe is somewhat inconsistent in some cases.

In the reverse method, a tube with a resin impregnated surface on the inner surface and a coating on the outer surface is installed inside the sewer pipe, then inverted and heated, so that the coated surface becomes the inner surface and the resin impregnated surface becomes the outer surface. It is a method that is hardened in close contact with the inside. Compared to the traction method, the completed form is more dense and is widely used. There is a problem that the thickness of the thicker is not easy to reverse.

In addition, referring to FIG. 1, in the prior art reversal method, hot air is supplied to the repair tube 12 from the inside of the flexible tube 11 to invert it, and the repair tube 12 has a plastic coating on one side. Since it is made of a non-woven fabric and is impregnated with resin, it is not easy to invert in a non-flexible state.

In addition, in the prior art reversal method, the repair tube is supplied at an appropriate speed and shape from the inside of the flexible tube, and then the reversal is performed by hydraulic pressure. There was a problem with the tube not being able to control its behavior.

Korean Patent Registration No. 10-1967098

According to the present invention, it is intended to provide a tube guide device for repairing water and sewage pipes and a repair method using the same, which guides the repair tube to be reversed while maintaining an appropriate supply speed and shape in the portion where the repair tube is supplied and reversed. .

A tube guide device for repairing water and sewage pipes according to an aspect of the present invention includes a frame supported on an upper part of the ground; It is fixedly installed so that it can be supported on the upper part of the frame, and a slot is formed in the rear panel that seals the rear side so that the repair tube can pass through, and the front end of the repair tube is fixed to the front so that the repair tube is hydraulically controlled. A guide body opened to be discharged while being reversed by; and a pressure providing unit that is connected to the rear of the guide body and provides hydraulic pressure so that the repair tube can be discharged forward while being inverted.

At this time, a pair of guide rollers may be installed in the slot of the guide body to adjust the tension of the repair tube.

At this time, the guide roller may be rotated in the opposite direction to the direction in which the repair tube is supplied.

At this time, the guide body may be formed in a tapered shape in which the diameter decreases from the rear to the front.

At this time, a cylindrical fixing part having a constant diameter may be formed in front of the guide body to fix the front end of the repair tube.

At this time, the guide body can adjust the inclination of the body to adjust the distance to the manhole.

At this time, the pressure providing unit is installed to communicate with the inside of the guide body through the rear panel, and high-pressure air may be pressurized into the guide body by a compressor.

In this case, a lubricant supply unit for supplying lubricant into the guide body together with the high-temperature and high-pressure air provided by the pressure providing unit may be further included.

The lubricating oil supply unit may have a discharge port through which lubricating oil is discharged at an end of a nozzle having a reduced diameter at an end of a passage through which high-pressure air is supplied to the pressure providing unit.

In this case, the lubricating oil supply unit may further include a pump providing pressure to the lubricating oil in response to the pressure inside the guide body.

At this time, a stopper member may be installed at the rear end of the repair tube to seal the slot.

At this time, a cable may be connected to the stopper member so as to adjust the stopper member.

The repair method using the tube guide device for water and sewage pipe repair according to one aspect of the present invention includes the steps of installing the water and sewage pipe repair tube guide device; Connecting a tube to the tube guide device for repairing the water supply and sewage pipes; Inverting the tube into the manhole by high-pressure hydraulic pressure; and curing the tube after the tube is completely inverted.

According to the above configuration, the tube guide device for repairing water and sewage pipes according to the present invention and the repair method using the same, inverts the repair tube in a state in which tension is maintained and provides it to the repair position, so that it is completely in close contact with the repair pipe compensation can be made.

1 is a configuration diagram showing an example of a water and sewage pipe repair method according to the prior art.
2 is a side view of a state in which a tube guide device for repairing water and sewage pipes according to an embodiment of the present invention is applied.
3 is a side view of a tube guide device for repairing water and sewage pipes according to an embodiment of the present invention.
4 is a rear view of a tube guide device for repairing water and sewage pipes according to an embodiment of the present invention.
5 is a perspective view of a tube guide device for repairing water and sewage pipes according to an embodiment of the present invention.
6 is a perspective view of the operation of the tube guide device for repairing water and sewage pipes according to an embodiment of the present invention.
7 is a perspective view after operation of the tube guide device for repairing water and sewage pipes according to an embodiment of the present invention.
8 is a cross-sectional view at the start of operation of the tube guide device for repairing water and sewage pipes according to an embodiment of the present invention.
9 is a cross-sectional view of a tube guide device for repairing water and sewage pipes according to an embodiment of the present invention during operation.
10 is a schematic diagram showing an example of operation of a pair of guide rollers, which are some components of a tube guide device for repairing water and sewage pipes according to an embodiment of the present invention.
11 is a cross-sectional view of an example of a lubricant supply unit, which is a part of a tube guide device for repairing water and sewage pipes according to an embodiment of the present invention.
12 is a cross-sectional view of a tube guide device for repairing water and sewage pipes according to another embodiment of the present invention.
13 is a cross-sectional view of a tube guide device for repairing water and sewage pipes according to another embodiment of the present invention.
14 is a flowchart of a water and sewage pipe repair method using a tube guide device for water and sewage pipe repair according to an embodiment of the present invention.

Words and terms used in this specification and claims are not construed as limited in their ordinary or dictionary meanings, but in accordance with the principle that the inventors can define terms and concepts in order to best describe their inventions. It should be interpreted as a meaning and concept that corresponds to the technical idea.

Therefore, the embodiments described in this specification and the configurations shown in the drawings correspond to a preferred embodiment of the present invention, and do not represent all the technical ideas of the present invention, so that the corresponding configurations are various to replace them at the time of filing of the present invention. There may be equivalents and variations.

In this specification, terms such as "include" or "have" are intended to describe the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

A component being in the "front", "rear", "above" or "below" of another component means that it is in direct contact with another component, unless there are special circumstances, and is "in front", "rear", "above" or "below". It includes not only those disposed at the lower part, but also cases in which another component is disposed in the middle. In addition, the fact that certain components are “connected” to other components includes cases where they are not only directly connected to each other but also indirectly connected to each other unless there are special circumstances.

Hereinafter, a tube guide device for repairing water and sewage pipes according to the present invention will be described with reference to the drawings.

Referring to FIGS. 2 to 11, the tube guide device 100 for repairing water and sewage pipes according to an embodiment of the present invention includes a frame 140, a guide body 110, a pressure providing unit, and a pair of guide rollers 112 ), a stopper member 150, and a lubricant supply unit.

Referring to FIGS. 2 to 9 , the frame 140 is a structure supported on the upper part of the ground.

At this time, the frame 140 may be prefabricated so that it can be replaced with another frame according to circumstances.

Referring to FIGS. 2 to 11 , the guide body 110 is fixedly installed to be supported on the top of the frame 140, and the repair tube 12 passes through the rear panel 113 sealing the rear. A slot 110a is formed so as to be able to be opened, and the front end of the repair tube 12 is fixed at the front so that the repair tube 12 can be opened to be discharged while being reversed by hydraulic pressure.

At this time, the guide body 110 may be formed in a tapered shape in which the diameter decreases from the rear to the front.

At this time, a cylindrical fixing part 120 having a constant diameter may be formed in front of the guide body 110 to fix the front end of the repair tube 12 .

At this time, referring to FIG. 3, the guide body 110 may have a tapered body in the center and a fixing unit 120 integrally cooked with a flange at the front thereof. Of course, the fixing part has a front and rear open form. At the rear of the tapered body in the center of the guide body 110, a rear panel 113 is assembled in the form of a flange so that the inside is sealed, and the repair tube 12 is folded in the center of the rear panel 113 A slot 110a is formed so that it can pass through. Therefore, the guide body 110 has an open front side and a rear side sealed by the rear panel 113, but only has a slot 110a formed therein.

At this time, a through hole 110b is formed at a lower position of the slot 110a in the rear panel 113 of the guide body 110, and a high-temperature and high-pressure air supply pipe 131 of the pressure providing unit passes through the through hole 110b. ) can be installed.

At this time, the front end of the repair tube 12 and the rear end of the flexible tube 11 may be firmly fixed to the front fixing part 120 of the guide body 110 by a binding cable 121 or the like.

Referring to FIGS. 2 to 9 , the pressure providing unit may be connected to the rear of the guide body 110 to provide hydraulic pressure so that the repair tube 12 is discharged forward while being reversed.

At this time, the pressure supply unit supplies high-temperature and high-pressure air to the inside of the guide body 110 by hydraulic pressure.

At this time, the pressure providing unit is installed to communicate with the inside of the guide body 110 through the rear panel 113, and high-pressure air can be pressurized into the guide body 110 by a compressor.

At this time, the pressure providing unit connects a compressor for supplying high pressure, a reservoir 130 connected to the compressor to adjust pressure and air amount, and a reservoir 130 connected to the inside of the guide body 110 to supply air A supply pipe 131 may be included.

At this time, the compressor provides pressure to the air heated to a high temperature by a heater, boiler, etc. and supplies it to the reservoir 130 . In the reservoir 130, the pressure and temperature of the supplied air can be checked and adjusted. That is, by supplying all or excluding some of the supplied air using the branch pipe 132, the temperature and pressure of the supplied air can be adjusted.

Referring to FIGS. 2 to 6 , the pair of guide rollers 112 may be installed in the slot 110a of the guide body 110 to adjust the tension of the repair tube 12 . That is, the outer surface of the repair tube 12 in a folded state supplied to the slot 110a can be guided so as not to be tilted to one side, and the tension can be adjusted by frictional force if the shape is maintained. Meanwhile, without rotating the pair of guide rollers 112 in opposite directions, the outer surface may be made of a material that provides frictional force, such as rubber, while simply maintaining a fixed state. When the distance between these fixed pair of guide rollers is adjusted, the tension can be adjusted to some extent.

At this time, in order to adjust the tension, the guide roller 112 may be rotated in the opposite direction to the direction in which the repair tube 12 is supplied. The rotation of the guide roller 112 can be performed manually or automatically, and the tension can be adjusted by engaging a step motor or the like to the rotating shaft of the guide roller 112 and rotating the step motor in the opposite direction as shown in FIG. there is. Of course, if you increase the rotation speed, the tension will increase, and if you decrease the rotation speed, the tension will decrease.

Referring to FIG. 7 , the stopper member 150 may be installed at the rear end of the repair tube 12 to seal the slot 110a.

At this time, a cable 180 is connected to the center of the stopper member 150 so that the stopper member 150 can be adjusted, and the operator adjusts the stopper member 150 using the cable 180. can

At this time, the cable 180 may pass through the stopper member 150 and be connected to the end of the repair tube 12 .

Referring to FIG. 11 , the lubricating oil supply unit may supply lubricating oil into the guide body 110 together with the high-pressure air provided by the pressure providing unit. When the maintenance tube 12 is inverted, the lubricating oil can attenuate, to some extent, interference with the maintenance tube 12 itself or other substances or the like due to friction.

At this time, the lubricating oil supply unit may have a discharge port through which lubricating oil is discharged at an end of a nozzle unit 131a having a reduced diameter at an end of a passage through which high-pressure air is supplied to the pressure providing unit. In this way, by providing the end of the supply pipe 131 in a nozzle type, a pressure drop appears at that portion according to Bernoulli's theorem, and the lubricating oil around it is transported together. Therefore, there is no need to provide a separate nozzle equipment to spray the lubricating oil.

At this time, the lubricating oil supply unit may further include a pump 170 providing pressure to the lubricating oil in response to the pressure inside the guide body 110 . Since the pressure inside the guide body 110 is high, the lubricating oil must be supplied at a corresponding pressure.

Referring to FIG. 2 , a state in which the maintenance tube 12 is provided to the water supply and sewage is shown. The tubes 10 may pass through the manhole 1 and be supplied by extending to the water and sewage pipes. At this time, the tube 10 has a flexible tube 11 on the outside, and a repair tube 12 inverted inside is located. As the reversal takes place, the impregnated resin hardens and repairs the water and sewer pipes firmly. The ends of the tubes 10 are all bound to the fixing part 120 of the guide body 110 by the binding cable 121, and the guide body 110 is supported by the frame 140 as a whole, so that the work is performed. will be done stably. At this time, the repair tube 12 passes through the slot 110a of the rear panel 113 in a flatly folded state, and at this time, the guide roller 112 supplies the inside of the guide body 110 in a state where the tension is adjusted. do. The supplied repair tube 12 is inverted internally by the supply of high-temperature and high-pressure air, so that the water supply and sewage pipes can be repaired.

3 to 5, a tube guide device 100 for repairing water and sewage pipes according to an embodiment of the present invention is shown. The guide body 110 is fixedly installed to the frame 140 with the front slightly inclined downward. Therefore, since the tubes 10 are also fixed at one end to the fixing part 120, they are inclined in the direction of the manhole 1. Through this, it is possible to adjust the distance between the tube guide device and the manhole. At this time, the guide body 110 is doedoe fixed to the frame 140, it may be installed to adjust the inclined angle. High-pressure air is supplied from the compressor to the reservoir 130, and air whose temperature and pressure are controlled by the reservoir 130 is supplied into the guide body 110 through the supply pipe 131. The pressure inside the guide body 110 is measured by the pressure gauge 111 and can be observed from the outside. Based on this, the guide body ( 110) The temperature and pressure of the air supplied to the inside can be adjusted.

Referring to FIGS. 6 and 7 , a state in which work is being performed in the tube guide device 100 for repairing water and sewage pipes is shown. As high-temperature and high-pressure air is supplied to the guide body 110, the repair tube 12 inside the tubes 10 is inverted and repaired while passing through the manhole 1 and extending to the water supply and sewage pipes. When the repair tube 12 is completely supplied, the operator can make the plug member 150 block the slot 110a while adjusting the cable 180 . In this state, when air is continuously supplied, repair is performed as the impregnated resin of the repair tube 12 adhered to the wall of the water supply and drainage pipes is cured.

Referring to FIGS. 8 and 9 , a state in which the repair tube 12 is supplied and inverted can be confirmed in cross section. Ends of the tubes 10, that is, the flexible tube 11 and the repair tube 12 are bound and fixed to the fixing part 120 by a binding cable 121. When air is supplied through the supply pipe 131 in the state shown in FIG. 8, the repair tube 12 is reversed to the water supply and sewage pipes along the guide of the flexible tube 11 as shown in FIG. 9 by the pressure, and the air pressure is supplied. It maintains a state of close contact with the wall surface of the water supply and sewer pipe, and the hardened repair tube 12 maintains a state in close contact with the wall surface of the water supply and sewage pipe even when the pressure is removed by curing the synthetic resin impregnated by the high temperature in the close state. Doing so will result in compensation. At this time, since the repair tube 12 passing through the slot 110a is provided with a pulling force, that is, tension, from the guide roller 112 in the opposite direction to the moving direction, it is reversed in a taut state and moves toward the water and sewage pipes. . It is a very important technical matter that the repair tube 12 reverses and advances in this tensioned state. If not, a problem may occur in that the repair tube 12 may harden inside the water supply and sewage pipes in a folded or distorted state. The tension-maintained repair tube 12 is inverted while maintaining a taut state, and can be completely adhered to the wall surface of the water supply and drainage pipe.

Referring to FIG. 10 , a principle in which tension is applied to the repair tube 12 by the guide roller 112 is illustrated. At this time, when the guide roller 112 is rotated in the direction opposite to the moving direction of the repair tube 12 as shown in FIG. 10 , the repair tube 12 can be supplied into the guide body 110 while being pulled tight. Of course, as described above, the tension different from the frictional force may be adjusted by fixing the pair of guide rollers 112 so as not to rotate and adjusting the distance therebetween.

Referring to FIG. 11 , an embodiment for supplying lubricating oil to the maintenance tube 12 is shown. The lubricating oil supply pipe 131 may be simply installed inside the guide body 110 and configured to be sprayed. Here, since the internal pressure of the guide body 110 is higher than the atmospheric pressure, the end of the high-temperature and high-pressure air supply pipe 131 is reduced in diameter in the form of a nozzle 131a instead of a lubricant supply method such as spraying or spraying, and the lower part thereof The lubricating oil tank 161 can be provided with a supply hole 161a so that the lubricating oil can be sucked into the guide body 110 by the pressure drop when the high-temperature and high-pressure air flows. Of course, the sucked lubricating oil may be supplied to the repair tube 12 to assist the repair tube 12 to be flexibly reversed. In addition, by dividing the lubricating oil tank into a primary tank 160 having a communication passage 160a and a secondary tank 161, pressure changes inside the guide body 110 may not be sensitively reflected. A pump 170 is connected to the tank to provide a certain pressure, and accordingly, it is possible to prevent the lubricating oil from entering the guide body 110 due to the pressure inside the guide body 110 .

On the other hand, referring to FIG. 12, an example in which upper and lower guide panels 212a and 212b are applied instead of a pair of rollers to a guide member, which is a part of a tube guide device for repairing water and sewage pipes according to another embodiment of the present invention, is shown. . The upper and lower guide panels 212a and 212b may guide the tube 12 entering the slot 110a of the rear panel 113 . The lower guide panel 212a is fixed to the rear panel 113 through a bracket 213, and the upper guide panel 212b is supported by a bracket 214 having one end fixed to the rear panel 113, and moves up and down. It is assembled to the bracket 214 with a bolt 215 and a nut 216 for height adjustment so that the height can be adjusted while doing so. Therefore, the operator can adjust the speed and tension of the tube 12 by adjusting the distance between the upper and lower guide panels 212a and 212b, so that stable work can be performed.

On the other hand, referring to FIG. 13, an example in which a pair of crawler members 312 are applied instead of a pair of rollers to a guide member, which is a part of a tube guide device for repairing water and sewage pipes according to another embodiment of the present invention is shown A pair of crawler members 312 are installed near the slot 110a of the rear panel 113 to guide the tube 12 entering the slot 110a. Of course, the rotation direction of the crawler member 312 may rotate in the opposite direction to the transport direction of the tube 12 . In addition, the caterpillar member 312 has a general shape in which a pair of gear wheels are installed at both ends and a belt is installed on the outer surface thereof, and power is connected to one gear wheel to provide driving force.

On the other hand, referring to FIG. 14, a flow chart of a repair method using a tube guide device for repairing water and sewage pipes according to the present invention is shown.

Referring to FIG. 14, the repair method using the tube guide device for water and sewage pipe repair according to an embodiment of the present invention includes the steps of installing the water and sewage pipe repair tube guide device (S1), and the water and sewage pipe repair tube. Connecting the tube to the guide device (S2), inverting the tube into the manhole by high pressure hydraulic pressure (S3), and curing the tube after the tube is completely inverted (S4); A step of completing the repair (S5) may be included.

Although the embodiments of the present invention have been described, the spirit of the present invention is not limited by the embodiments presented herein, and those skilled in the art who understand the spirit of the present invention may add or change components within the scope of the same spirit. Other embodiments can be easily proposed by adding, deleting, adding, etc., but this will also be said to be within the scope of the present invention.

1 : Manhole
10: tubes 11: flexible tube
12: repair tube
100: Tube guide device for water and sewage pipe repair
110: guide body 110a: slot
111: pressure gauge 112: a pair of guide rollers
113: rear panel 120: fixing part
121: binding cable 130: reservoir
131: supply pipe 132: branch pipe
140: frame 150: stopper member
160: cable 160: primary tank
161: secondary tank 161a: supply hole
170: pump 180: cable
212a, 212b: guide member 312: caterpillar member

Claims (13)

A frame supported on the upper part of the ground;
It is fixedly installed so that it can be supported on the upper part of the frame, and a slot is formed in the rear panel that seals the rear side so that the repair tube can pass through, and the front end of the repair tube is fixed to the front so that the repair tube is hydraulically controlled. A guide body opened to be discharged while being reversed by;
A tube guide device for repairing water and sewage pipes comprising a; pressure providing unit connected to the rear of the guide body and providing hydraulic pressure so that the repair tube is discharged forward while being reversed. According to claim 1,
A pair of guide rollers are installed in the slot of the guide body to adjust the tension of the repair tube, the tube guide device for water and sewage pipe repair. According to claim 2,
The guide roller is rotated in the opposite direction to the direction in which the repair tube is supplied, the tube guide device for water and sewage pipe repair. According to claim 1,
The guide body is made of a tapered shape that decreases in diameter from the rear to the front, the tube guide device for water and sewage pipe repair. According to claim 4,
A tube guide device for repairing water and sewage pipes, in which a cylindrical fixing part having a constant diameter is formed in front of the guide body to fix the front end of the repair tube. According to claim 1,
The guide body adjusts the inclination of the body so that the distance to the manhole can be adjusted. According to claim 1,
The pressure providing unit is installed to communicate with the inside of the guide body through the rear panel, and presses high-pressure air into the guide body by a compressor. According to claim 1,
Tube guide device for repairing water and sewage pipes further comprising a lubricant supply unit for supplying lubricant into the guide body together with the high-pressure air provided by the pressure providing unit. According to claim 8,
The lubricating oil supply unit is a tube guide device for repairing water and sewage pipes, in which a discharge port through which lubricating oil is discharged is located at an end of a nozzle portion having a reduced diameter at an end of a passage through which high-pressure air of the pressure providing unit is supplied. According to claim 9,
The lubricating oil supply unit further comprises a pump for providing pressure to the lubricating oil in response to the pressure inside the guide body, the tube guide device for water and sewage pipe repair. According to claim 1,
A stopper member is installed at the rear end of the repair tube to seal the slot, a tube guide device for water and sewage pipe repair. According to claim 11,
A tube guide device for repairing water and sewer pipes, in which a cable is connected to the stopper member so as to adjust the stopper member. A repair method using the tube guide device for repairing water and sewage pipes according to any one of claims 1 to 12,
Installing a tube guide device for repairing the water supply and sewage pipes;
Connecting a tube to the tube guide device for repairing the water supply and sewage pipes;
Inverting the tube into the manhole by high-pressure hydraulic pressure; and
A repair method using a tube guide device for repairing water and sewage pipes, comprising: curing the tube after the tube is completely inverted.

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