KR20120126744A - A repairing device of water pipe by non-digging using turning inside out of reinforce tube - Google Patents

Abstract

PURPOSE: A repairing device of a non-digging water pipe through reversal of a reinforcement tube and a repairing method thereof are provided to supply steam to the reinforcement tube by a nozzle, thereby evenly applying the steam to the reinforcement tube. CONSTITUTION: A hardening unit includes an electric reel(22), a steam supplying unit(23), and a spraying nozzle(24). A steam line is wound on the electric reel. The steam supplying unit is connected to a back end of the steam line. The steam supplying unit supplies steam through the steam line. The spraying nozzle is mounted to a fleet of the steam line. The spraying nozzle radiates the supplied steam to a back side. The spraying nozzle advances by pressure of the steam.

Description

Repair device for non-excavated water and sewage pipe by reversing reinforcement tube and its repair method {A REPAIRING DEVICE OF WATER PIPE BY NON-DIGGING USING TURNING INSIDE OUT OF REINFORCE TUBE}

The present invention relates to a repair apparatus for a non-excavated water and sewage pipe line through reversal of a reinforcement tube, and more particularly, to a reinforcement tube because steam is supplied adjacent to the reinforcement tube by a nozzle which can be propelled by steam. The present invention relates to a repair apparatus for a non-excavated water and sewage pipe and a method of repairing the same, by reversing a reinforcing tube that can be applied with steam evenly and discharge water generated by steam to the outside to prevent water from accumulating on the bottom of the pipe.

Various water supply and sewage pipes buried in the ground gradually deteriorate with time, and in the case of water supply pipes, there is a problem in that a large amount of water leaks due to corrosion, and drinking water is contaminated by the rust that flows into the pipes. In this case, cracks are generated, and sewage flows out of the pipes and contaminates the living environment such as soil and groundwater.

In repairing the old buried pipelines in which the damage such as cracks occurred, the non-excavated pipeline repairing device and method do not dig the ground, and insert a reinforcement tube into the old buried pipeline where the cracks are generated to form a new composite pipe in the sewer pipe. As a road construction method, there is no need for road repair construction, and thus, it is a construction method having many advantages in terms of workability, reliability, and economics.

In general, the unexcavated pipeline repairing and construction method is a method of inserting and fixing a reinforcing tube formed of a waterproof coating layer or a film layer and an adhesive resin impregnated felt layer into an old buried pipe. The reinforcement tube is inverted and inserted into the buried pipe in the surface state, and the inner surface of the buried pipe is overlaid with the adhesive resin impregnated felt layer reversed to the surface to be bonded to the inner wall of the buried pipe.

Above all, the method of hardening the reinforcement tube by hot water heat after inserting the hydraulic reversal, which takes a long time to cure, may cause the flooding of domestic sewage, and the extension of the tube on the end portion of the inclined pipe increases, so that the reinforcement tube is small and reinforced. The problem of tube thickness unevenness arises.

In addition, the method of hardening by steam heat after reversal of pneumatic pressure has no self-weight compared with water pressure, which reduces the ability to exclude sewage in the pipeline, which leads to uncured occurrence at the lower end of the pipe. There was a problem that occurred.

On the other hand, the two curing methods described above are not applicable to the water and sewage pipes of the narrow space because the size of the inverting device becomes large, and the manufacturing process and assembly process for manufacturing the inverting device are complicated, and most of the inversion is also in use. In the process of reversing the reinforcing tube wound inside the device, a large amount of air pressure must be continuously supplied for a long time, and the disadvantages that the hardening work takes a long time and cost even in the process of curing after reversing the reinforcing tube; There was a problem that the product is not widely used because it is expensive.

In addition, the vehicle equipped with the reversal device for the repair work on the narrow alleys or roads of the water supply and drainage pipes cannot be moved until the reinforcement and reinforcement of the reinforcement tube are completed. Due to this, there are many difficulties in the movement of a pedestrian or a vehicle, and in the case of a vehicle equipped with a reversing device, since equipment is expensive, it is impossible to own a large number of vehicles, which results in only having to perform maintenance work in one place.

In order to solve the problems, the patent application No. 10-2009-0006208 was filed on January 23, 2009 and registered as a patent registration No. 10-0920794. Patent registration No. 10-0920794 relates to a "non-excavated water and sewage pipe to the whole repair reinforcement tube reversing support device and repair method" (hereinafter referred to as "prior art"), as shown in Figure 1, the reinforcing tube to the water and sewage pipe Reversing device for reinforcement and check curing device for hardening reinforcement tube can be easily combined and separated. The present invention relates to a non-excavated water and sewage pipe reversal supporting device and a repairing method to reduce the construction cost by reducing the working time and to reduce the reinforcing tube by limiting the reversal length of the reinforcing tube reversed to the water and sewage pipe.

That is, the prior art forms a connection member between the inverting device for inverting the reinforcement tube and the check hardening device for curing the reinforcement tube, thereby easily separating and combining the inversion device and the check hardening device, and reversing the hardening of the reinforcing tube. By separating the device from the check hardening device, the reversing device and the vehicle can be moved to another place, which can shorten the occupancy time of the road, and the construction cost can be reduced by shortening the working time by hardening the reinforcement tube directly in the check hardening device. The invention is characterized in that it is possible to reduce the reinforcement tube by controlling the reversing length of the reinforcement tube reversed in the interior of the water supply and sewage pipe by installing an inverting support device at the rear end of the water and sewage pipe.

When compressed air and steam are supplied to the main body to cure the reversed reinforcement tube, the door check is kept in close contact with the check rubber sheet by the pressure of the compressed air to prevent leakage of airtight inside the main body to the outside. Compressed air supplied to the inside of the main body is supplied together so that steam can quickly cure the reinforcing tube.

On the other hand, the steam supplied to the inside of the reinforcement tube is supplied directly to the inside of the main body to quickly cure the adhesive resin layer of the reinforcement tube on the inner wall of the water and sewage pipe, and at the same time, the steam through the steam discharge pipe inserted into the end of the reinforcement tube By discharging to the outside while controlling the pressure and temperature inside the reinforcement tube to increase the adhesion between the inner wall surface and the reinforcement tube to the water and sewage pipes, while reducing the curing time of the reinforcement tube.

However, in this prior art, the steam reaches the end of the pipe in the process of curing by the steam after the reversal, so the water is accumulated in the branch pipe and the water pipe is pushed by the water pressure or the water pipe and the water pipe There is a problem invading between the bottom surface is not cured or the boat is called to harm the tube gradient.

In addition, since the bottom surface of the pipe is heated by steam, the water is accumulated and the portion where the water is accumulated is not properly cured.

The present invention is to solve the above problems, the object of the present invention is to supply the steam adjacent to the maintenance pipe by a nozzle that can be propelled by steam, so that the reversal of the reinforcement tube that can be applied steam evenly to the reinforcement tube The present invention provides a repair device for a non-excavated water and sewage pipe and a repair method thereof.

Another object of the present invention is to provide an apparatus for repairing an unexcavated water and sewage pipe and a method for repairing the unexcavated water and sewage pipe by reversing the reinforcing tube to discharge water generated by steam to the outside so that water does not collect on the bottom of the pipe.

According to a feature of the present invention for achieving the above object, the present invention relates to a repair apparatus for a non-excavated water and sewage pipe through the reversal of the reinforcing tube, mounted on one side of the inverter of the inverter and compressed air into the inside A connection part having a compressed air inlet which can be applied to the connector and having a reinforcing tube wound in the inverter passing through the inside to fix the end of the reinforcing tube to the outer periphery of the other side in an inverted state; And a hardening part configured to cure the reinforcing tube extending in the conduit through the steam to a steam line inserted through the connection part when the reinforcing tube extends into the conduit in an inverted state according to the application of the compressed air through the compressed air inlet. It includes; wherein the hardening portion, the steam line is wound and the electric reel is installed on the outside of the connecting portion to wind the steam line by rotation, and the central portion of the electric reel is connected to the rear end of the steam line wound A steam supply unit for supplying steam through the steam line, and a spray nozzle having a steam discharge path inclined to the rear side to radiate the supplied steam mounted at the tip of the steam line to the rear side and to be advanced at the pressure applied from the steam; It includes.

In addition, at an outer circumference of the jet nozzle, a suction path capable of sucking water generated by the discharged steam is provided, and the suction path is connected to a tip of a water drainage line extending to the outside of the connection part. The rear end of the water drainage line is exposed to atmospheric pressure.

Alternatively, a suction pump may be installed at a rear end of the water drainage line to generate a suction force capable of sucking water from the suction path.

In addition, the steam line and the water drainage line is wound together by the electric reel is wound together by the operation of the electric reel, and extends to the outside through the central portion of the electric reel.

At this time, the steam line is preferably disposed in the water drainage line.

In addition, the jet nozzle is connected to the steam line and the main body is formed with a steam passage for introducing the steam therein, and a connecting passage rotatably connected to the body portion and connecting the steam passage and the steam discharge passage The inner side of the connection passage may include a rotating part which is provided with a rotary inductor capable of generating a rotational force due to the flow of the steam.

On the other hand, the present invention for achieving the above object can be achieved by the repair method of the non-excavated water and sewage pipe through the reversal of the reinforcement tube, the repair chamber according to the present invention, mounted on one side of the inverter of the inverter Extending the reinforcing tube wound on the inverter so as to pass through the inside of the connecting part, and fixing the reinforcing tube in the inverted state to the outer circumference of the other side of the connecting part; Injecting compressed air into the compressed air inlet installed in the connection part to enter the water and sewage pipe to be repaired while expanding the reinforcing tube; Maintaining the constant pressure inside the reinforcing tube by reducing the injection amount of the compressed air when the reinforcing tube is exposed to the end of the water supply and drainage pipe; The jet nozzle is operated while supplying steam to supply steam to the steam line inserted through the connection part, and discharging steam into the steam discharge path inclined backward from the end of the steam passage of the jet nozzle mounted at the tip of the steam line. Advancing along the inside of the reinforcing tube; And retracting the jet nozzle while ejecting steam from the jet nozzle by winding the steam line by operating the winding reel in which the steam line is wound when the jet nozzle reaches the end of the extended reinforcement tube. Include.

At this time, in the forward and backward steps of the jet nozzle, the reinforcement tube is generated by the steam by the pressure difference between the suction end of the jet nozzle and the rear end of the water drainage line is connected to the suction path and the rear end is exposed to the atmospheric pressure state Each of the steps of draining water that has accumulated in the bed.

According to the repairing apparatus of the non-excavated water and sewage pipe through the reversal of the reinforcing tube according to the present invention and the method for repairing the same, steam can be evenly applied to the reinforcing tube because the steam is supplied adjacent to the reinforcing tube by a nozzle which can be propelled by steam. Therefore, the curing work of the reinforcing tube is shortened and there is an advantage to improve the maturity of curing.

And according to the present invention, by discharging the water generated by the steam to the outside so that water does not accumulate in the bottom of the pipeline, all the problems that the reinforcement tube is pushed or damaged the tube gradient or the curing is not properly in place. It can work.

1 is a cross-sectional view showing the configuration of a repair apparatus for an unexcavated water and sewage pipe through the reversal of the reinforcing tube according to the present invention;
2 is a cross-sectional view showing a reinforcement tube in an inverted state in a pipeline according to the present invention;
3 is a cross-sectional view showing the steam ejecting action in the ejecting nozzle for the reinforcing tube inverted according to the present invention,
4 is a cross-sectional view showing the action of the ejection nozzle when the reverse;
5 is a cross-sectional view showing the action of the jet nozzle for discharging water from the reinforcement tube inverted in accordance with the present invention,
6 is a cross-sectional view showing an example of a steam line and a water discharge line;
7 is a flow chart showing a repair method of the unexcavated water and sewage pipe through the reversal of the reinforcing tube according to the present invention,
8 is a cross-sectional view showing another embodiment of the jet nozzle according to the present invention;
9 and 10 are views showing a configuration for supporting the water drainage line according to the present invention.

Hereinafter, with reference to the accompanying drawings, a repair device and a method for repairing a non-excavated water and sewage pipe through the reversal of the reinforcement tube according to the present invention will be described.

1 is a cross-sectional view showing the configuration of a repair apparatus for a non-excavated water and sewage pipe through the reversal of the reinforcing tube according to the present invention, Figure 2 is a cross-sectional view showing a reinforcing tube inverted in the pipeline in accordance with the present invention, 3 is a cross-sectional view showing the steam ejecting action of the ejection nozzle for the reinforcing tube inverted according to the present invention, Figure 4 is a cross-sectional view showing the action of the ejection nozzle in the reverse direction. 5 is a cross-sectional view showing the action of the jet nozzle for discharging water from the reinforcement tube inverted according to the present invention, Figure 6 is a cross-sectional view showing an example of the steam line and the water discharge line.

As shown, the repair apparatus of the non-excavated water and sewage pipe 60 through the reversal of the reinforcement tube 50 according to the present invention is largely composed of a connecting portion 10 and a hardening portion 20.

The connecting portion 10 is mounted on one side of the inverter 41 of the inverter 40 and is provided with a compressed air inlet 11 for applying compressed air therein and wound in the inverter 41 through the inside. The reinforcing tube 50 is passed through the other end of the reinforcement tube 50 is fixed in an inverted state on the outer periphery.

The compressed air inlet 11 may be used for discharging the compressed air after the reinforcing tube 50 is cured in the water and sewage pipe 60, but the compressed air outlet 13 is provided separately as in the present embodiment. ) May be configured to discharge the compressed air.

In addition, the inverter 41 is wound around the reinforcement tube 50 corresponding to the length of the water supply and drainage pipe 60 to be repaired.

On the other hand, the curing unit 20 is inserted through the connecting portion 10 when the reinforcing tube 50 extends into the conduit 60 in an inverted state according to the application of the compressed air through the compressed air inlet (11). The steam line 21 serves to cure the reinforcement tube 50 extending in the pipeline 60 through the steam. At this time, the steam line 21 may be inserted into the through hole provided in the connecting portion 10, but it is natural that the through hole can be inserted into the inverter 41.

The curing unit 20 includes a steam line 21 and an electric reel 22, a steam supply unit 23, and a spray nozzle 24. In more detail, the electric reel 22 is installed outside the connection part 10 so that the steam line 21 is wound and the steam line 21 is wound by rotation. In addition, a central passage of the electric reel 22 is formed with a through passage (not shown), and a through hole (not shown) is formed laterally at the interruption of the passage so that the steam line 21 passes through the passage to the through hole. It will be wound on the motorized reel 22 with me.

The steam supply unit 23 is connected to the rear end of the steam line 21 exposed through the passage of the electric reel 22 to supply steam through the steam line 21.

In addition, the jet nozzle 24 is mounted on the tip of the steam line 21 and radiates the steam supplied through the steam line 21 to the rear side so that the jet nozzle 24 can be advanced by the pressure applied from the steam. A steam passage 25 connected to the steam line 21 and a steam discharge passage 26 inclined backward from the end of the steam passage 25 are formed.

At this time, the steam discharged to the steam discharge path 26 helps heat the reinforcement tube 50 by transferring heat to the reinforcement tube 50. However, the discharged steam transfers heat to the reinforcement tube 50 and, as a result, the temperature drops by outside air, and liquefies and collects as water at the bottom of the reinforcement tube 50. Accordingly, in the present invention, in order to prevent the heat transfer to the reinforcing tube 50 by the accumulated water by discharging the water thus accumulated, the suction passage capable of sucking the accumulated water on the outer periphery of the jet nozzle 24 ( 27) is provided.

The suction passage 27 is connected to the front end of the water drainage line 28 extending to the outside of the connecting portion 10, and the rear end of the water drainage line 28 is exposed to atmospheric pressure. At this time, since the compressed air is injected into the conduit 60 to expand the reinforcement tube 50, the pressure in the conduit 60 is significantly higher than atmospheric pressure. Therefore, when the rear end of the water drainage line 28 is exposed to atmospheric pressure, a pressure difference occurs between the suction end 27 and the rear end of the water drainage line 28, and water is introduced into the suction path 27 by the pressure difference. A stream is discharged through the water drain line 28.

The suction passage 27 is preferably provided in plurality around the outer periphery of the jet nozzle 24 so as to be in contact with the accumulated water irrespective of the rotation or movement of the jet nozzle 24.

If the drainage of the stagnant water is not smooth despite the pressure difference between the suction passage 27 and the water drainage line 28, a suction pump (not shown) may be installed at the rear end of the water drainage line 28 to increase suction force. You can also create

By this configuration, the spray nozzle 24 is connected to the steam line 21 and the water drainage line 28 at the same time. At this time, since the steam line 21 and the water drainage line 28 are preferably released or wound at the same time as the jet nozzle 24 moves, the steam line 21 and the water drainage line 28 are wound and pulled together by the operation of the electric reel 22. It extends to the outside through the central passage of the electric reel (22).

And although the steam line 21 and the water drainage line 28 may be made of a separate hose, a hose with a small diameter is inserted into one hose, one of the hose to the steam line 21, the other water It may also be used as the drain line (28). In this case, the rear end of the water drainage line 28 may be exposed to an atmospheric pressure state, and the rear end of the steam line 21 may be connected to the steam supply unit 23 so that the steam line 21 may be connected to the water drainage line 28. It is preferable that the shape is inserted therein.

As shown in FIG. 8, the jet nozzle 24 may be provided in a structure that can be rotated for even steam transmission to the reinforcement tube 50. At this time, the rotation of the jet nozzle 24 may be made by an additional power or device, but it is preferably achieved by the pressing force by the flow of steam in order to simplify the structure and save energy.

For this function, the jet nozzle 24 is connected to the steam line 21, the main body portion 30 is formed with a steam passage 25 for introducing steam therein, bearing the body portion 30 (32) is rotatably connected and provided with a connection passage 33 for connecting the steam passage 25 and the steam discharge passage 26, the inside of the connection passage 33 due to the flow of steam It may be configured to include a rotating part 31 is installed a rotational conductor 34 that can generate a rotational force.

In this case, the rotary conductor 34 may be configured to protrude in a helical shape, and may extend inwardly of the connection passage 33 and may have a shape such as an impeller.

As such, when the rotary part 31 rotates to inject steam, not only can the steam be evenly sprayed on the reinforcement tube 50, but also the reinforcement tube 50 in which the water is accumulated while the rotary part 31 hits the accumulated water. ) Can also deliver hot steam.

In addition, in the present invention, as shown in Figure 9 and 10, the support plate 29 is installed to ensure the space of the water drain line 28 for the steam discharge path (26). The support plate 29 is formed in the form of a leaf spring is possible to stretch, one end is mounted to the electric reel 22 and the other end is mounted to the ejection nozzle 24.

In addition, an incision hole 29a is formed at an outer side of the support plate 29 to secure a moving path of water discharged to the water drainage line 28. In this case, since the cutting hole 29a is continuously formed along the outer side of the support plate 29 at a predetermined interval, the water path may be constantly secured.

Next, a method according to the present invention will be described with reference to FIG. 7.

First, the reinforcing tube 50 wound on the inverter 41 is extended so as to pass through the inside of the connection part 10 mounted on one side of the inverter 41 of the inversion device 40. Fix the reinforcement tube 50 in the inverted state on the periphery (step S10).

Then, compressed air is injected into the compressed air inlet 11 installed in the connecting portion 10 to enter the water and sewage pipe 60 to be repaired while expanding the reinforcement tube 50 (step S20).

When compressed air is inflated and the expanded reinforcement tube 50 is exposed to the end of the water supply and drainage pipe 60, and the predetermined reinforcement tube 50 is fully inflated, the injection amount of the compressed air is reduced to the inside of the reinforcement tube 50. Maintain a constant pressure (step S30).

In order to supply steam to the steam line 21 inserted through the connecting portion 10 to operate the steam supply unit 23 and the steam passage 25 of the jet nozzle 24 mounted to the tip of the steam line 21 The jet nozzle 24 is advanced along the inside of the reinforcing tube 50 while discharging steam to the steam discharging passage 26 inclined backward from the end of the step (S40).

On the other hand, when the jet nozzle 24 reaches the end of the extended reinforcing tube 50, the steam line 21 is wound by operating the electric reel 22 is wound around the steam line 21 by winding the jet The jet nozzle 24 is reversed while ejecting steam from the nozzle 24, and the reinforcing tube 50 is cured while repeating the above process (step S50).

At this time, in the forward and backward steps of the jet nozzle 24, the water drainage line 28 of the water discharge line 28 is connected to the suction passage 27 and the suction passage 27 of the jet nozzle 24 exposed to the atmospheric pressure state The steam generated by the pressure difference between the rear end discharges the accumulated water on the reinforcing tube 50 (steps S41 and S51).

Next, a description will be given of the action of the repair device for the unexcavated water and sewage pipe through the reversal of the reinforcing tube according to the present invention.

Move the vehicle to a position close to the water supply and drainage pipe 60 to be repaired, and then extend the reinforcement tube 50 wound around the inverter 41 of the inverter 40 so that the vehicle is turned upside down. Fix to the lead. When the installation of the reinforcing tube 50 is completed, the compressed air is introduced into the inverting device 40 through the compressed air inlet 11.

When the compressed air is introduced, the reinforcing tube 50 is expanded and the reinforcing tube 50 slowly enters the inside of the water and sewage pipe 60 by air pressure and finally is exposed to the end of the water and sewage pipe 60. The inflow is reduced so that air pressure can be maintained inside the fully expanded reinforcement tube 50.

In this state, the steam supply unit 23 is operated to supply steam through the steam line 21 of the curing unit 20, and the supplied steam is delivered to the spray nozzle 24 through the steam line 21 to be steam. It is discharged to the reinforcement tube 50 through the discharge path (26). At this time, the spray nozzle 24 is disposed so as to be on the reinforcement tube 50 extending into the water supply and drainage pipe (60).

Since the steam discharge path 26 is formed to be inclined toward the rear of the jet nozzle 24, the steam entering the jet nozzle 24 rapidly changes the path from the steam passage 25 to the steam discharge path 26. The tip of the passage 25 is pressed. Due to this pressure, the steam is ejected to the steam discharge path 26 and the jet nozzle 24 is advanced along the elongated reinforcement tube 50.

At this time, the spouted steam is liquefied while the temperature decreases while heating and curing the reinforcing tube 50, and is accumulated as water at the bottom of the reinforcing tube 50. If steam is continuously ejected while the water is left as it is, the reinforcement tube 50, which is water, is not cured because heat transfer is not performed smoothly, and the amount of water accumulated by the steam is gradually increased. In order to prevent this phenomenon, in the present invention, a suction passage 27 is provided at an outer circumference of the jet nozzle 24, and a rear end of the water drainage line 28 connected to the suction passage 27 is exposed to atmospheric pressure.

Therefore, the water accumulated by the pressure difference between the suction path 27 and the rear end of the water drainage line 28 flows into the suction path 27 and is discharged to the outside via the water drainage line 28.

As the steam is ejected and the ejection nozzle 24 is advanced to the end of the reinforcement tube 50 extended, the electric reel 22 is operated to wind the steam line 21 and the water drainage line 28, and the steam line ( 21 and the water drain line 28 is pulled back as the spray nozzle 24 is reversed.

When the reverse reaches the inlet of the water and sewage pipe 60, the operation of the electric reel 22 is stopped. Then, as above, the steam is discharged to the jet nozzle 24, the jet nozzle 24 is advanced again.

The reinforcement tube 50 extended into the water and sewage pipe line 60 through the above process is cured evenly by the steam as a whole, and discharges the stagnant water while curing, so that the reinforcement tube 50 is partially cured as the water pools. The phenomenon that does not work can be solved.

In addition, in the present invention to increase the efficiency of the steam delivery to the reinforcement tube 50, and to cause the wave to the water standing by the rotation and to deliver the steam to the reinforcement tube (50) under the water, the spray nozzle ( 24 may be configured to be rotatable. Accordingly, as the supplied steam passes through the rotary inductor 34, a change in the steam flow is generated, and the rotation part 31 rotates with respect to the main body part 30 by this change.

And the steam passing through the rotary inductor 34 is changed in the path in the state hit the end of the connecting passage 33 for connecting the steam passage 25 and the steam discharge path 26 of the main body portion 30 It is discharged to the steam outlet (26). Therefore, the blowing nozzle 24 discharges steam while advancing by the pressing force of steam.

When curing of the reinforcing tube 50 is completed by supplying steam, the supply of steam is stopped, and compressed air is discharged through the compressed air discharge port 13. And by cutting the reinforcement tube 50 exposed to the outside of the water and sewer pipe 60, the reinforcement work of the water and sewage pipe 60 is completed.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

10: connection portion 11: compressed air inlet
13: compressed air outlet 20: hardened part
21: steam line 22: electric reel
23: steam supply unit 24: jet nozzle
25: steam passage 26: steam discharge passage
27: suction passage 28: water drainage line
29 support plate 29a incision hole
30: main body 31: rotating part
32: bearing 33: connecting passage
34: rotating conductor 40: inverting device
41: Inverter 50: Reinforcement tube
60: water and sewage pipe

Claims (8)

A compressed air inlet is installed on one side of the inverter 41 of the inverter and is configured to apply compressed air to the inside of the inverter. A reinforcing tube 50 wound in the inverter 41 passes through the outside and the outside of the other side. Connection portion 10 is fixed to the end of the reinforcement tube 50 is inverted in the peripheral state; And
When the reinforcing tube 50 extends into the conduit 60 in an inverted state according to the application of the compressed air through the compressed air inlet, the steam line 21 is inserted through the connection part 10 through the steam. And a curing unit 20 for curing the reinforcing tube 50 extending in the pipeline 60.
The hardening part 20 includes a motorized reel 22 installed outside the connection part 10 such that the steam line 21 is wound and wound around the steam line 21 by rotation, and the motorized reel ( 22, a steam supply unit 23 connected to a rear end of the wound steam line 21 to supply steam through the steam line 21, and steam mounted and supplied to a tip of the steam line 21. To a non-excavated water and sewage pipe through the reversal of the reinforcing tube, characterized in that it comprises a spray nozzle (24) is formed to the steam discharge path 26 inclined to the rear side to radiate to the rear side to advance to the pressure applied from the steam Repair device. The method of claim 1,
On the outer circumference of the jet nozzle 24, a suction passage 27 for sucking water generated by the discharged steam is provided,
The suction passage 27 is connected to the tip of the water drainage line 28 extending to the outside of the connecting portion 10,
The rear end of the water drainage line 28 is a repair device for an unexcavated water and sewage pipe through the reversal of the reinforcement tube, characterized in that exposed to atmospheric pressure. The method of claim 2,
At the rear end of the water drainage line 28, a suction pump for generating a suction force capable of sucking water from the suction passage 27 is installed. The method according to claim 2 or 3,
The steam line 21 and the water drainage line 28 are wound together by the electric reel 22 so that they are wound together by the operation of the electric reel 22 and extend to the outside through the central portion of the electric reel 22. Repair device for unexcavated water and sewage pipe through the reversal of the reinforcing tube. 5. The method of claim 4,
The steam line 21 is a repair apparatus for an unexcavated water and sewage pipe through the reversal of the reinforcement tube, characterized in that disposed in the water drainage line (28). 4. The method according to any one of claims 1 to 3,
The jet nozzle 24 is connected to the steam line 21, the main body portion 30 is formed with a steam passage 25 for introducing steam therein, and is rotatably connected to the main body portion 30 Rotating conductor 34 is provided with a connecting passage 33 for connecting the steam passage 25 and the steam discharge passage 26 and the inside of the connection passage 33 can generate a rotational force due to the flow of steam. The apparatus for repairing unexcavated water and sewage pipe through the reversal of the reinforcement tube, characterized in that it comprises a rotating portion 31 is installed. The outer periphery of the other side of the connecting portion 10 by extending the reinforcing tube 50 wound around the connecting portion 10 so as to pass through the inside of the connecting portion 10 mounted on one side of the inverter 41 of the inverting device 40. Fixing the reinforcement tube 50 to the inverted state in the inverted state;
Injecting compressed air into the compressed air inlet installed in the connection portion 10 to enter the water and sewage pipe line 60 to be repaired while expanding the reinforcing tube 50;
Maintaining a constant pressure inside the reinforcing tube 50 by reducing the injection amount of the compressed air when the reinforcing tube 50 is exposed to the end of the water supply and drainage pipe 60;
In order to supply steam to the steam line 21 inserted through the connecting portion 10 to operate the steam supply unit 23 and the steam passage 25 of the jet nozzle 24 mounted to the tip of the steam line 21 Advancing the ejection nozzle 24 along the inside of the reinforcing tube 50 while discharging steam to the steam discharging passage 26 inclined rearward from the end of the reinforcing tube 50; And
When the jet nozzle 24 reaches the end of the extended reinforcement tube 50, the steam nozzle 21 is wound to operate the winding reel is wound around the steam line 21 by pulling the jet nozzle 24 A method of repairing a non-excavated water and sewage pipe through the reversal of the reinforcing tube, comprising the steps of: retracting the jet nozzle 24 while ejecting steam. The method of claim 7, wherein
In the forward and backward steps of the jet nozzle 24, the rear end of the water drainage line 28 connected to the suction path 27 and the suction path 27 of the jet nozzle 24 is exposed to the atmospheric pressure state. The method of repairing a non-excavated water and sewage pipe through the reversal of the reinforcement tube, characterized in that it comprises the step of discharging the accumulated water on the reinforcement tube 50 by the steam by the pressure difference between.

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