KR101455611B1 - Non-digging Sewerage Mending Apparatus and its manufacturing method - Google Patents

Abstract

The present invention relates to a non-digging construction method and apparatus for hardening water supply and drainage pipe lines, and more specifically, to a non-digging construction method and apparatus for hardening water supply and drainage pipe lines, which are safely fixed on the inside of a tube towing apparatus in which a front part of a tube inserted to the inside of an old and worn pipe is in a hopper shape, in which the tube is internally folded and stacked for being towed toward an exit of the pipe lines, a hole is perforated so that a fixing bolt can be inserted into the inside of the tube and the fixing bolt is fixed using a fixing frame and a nut, thereby preventing the damage caused by foreign substances remaining in an inner wall of the pipe lines. Also, the apparatus has a dry heat apparatus providing dry heat which heats air in which condensed water is not generated inside the tube after completing a towing work, thereby minimizing generation of the condensed water and completing a curing work early.

Description

Technical Field [0001] The present invention relates to a non-digging sewage mending apparatus and its manufacturing method,

More particularly, the present invention relates to a method for curing and unhardening a pipe for water supply and drainage, and more particularly, to a method for curing and hardening a water pipe of a pipe, which is securely fixed in a hopper- The tube is folded inward and laminated. Then, a hole is drilled in the tube to insert a fixing bolt, and the fixing bolt is fixed by using a fixing frame and a nut so that the tube is damaged by the foreign matter remaining on the inner wall of the channel And a dry heat device for supplying only the dry heat by heating the air which does not generate condensed water to the inside of the tube after completion of the drawing operation with steam, so that the hardening operation can be completed in an early time while minimizing the generation of condensed water And more particularly, to a non-drilling hardening method and a hardening apparatus.

As the urbanization progressed, various pipes such as water and sewage pipes were buried in the basement, and as time went by, aging and poor piping occurred.

This leads to leakage of water and wastewater, contamination of drinking water, and maintenance of old pipes due to gas leakage is an important issue.

As a result of the huge amount of construction cost due to the existing excavation works, the increase of traffic congestion, the occurrence of safety accidents, environmental problems, and the social loss cost, Water sewer maintenance business, sewer maintenance and leasehold private business (BTL).

In the unreinforced full repair method, the cured resin is impregnated into the cut tube in accordance with the length of the repair pipe and the clearance length according to the method, and the impregnated tube is inserted into the repair pipe, and then heat is applied to harden the pipe. Thereby completing the process.

In the above methods, in the method of inserting the impregnated tube into the repair pipe, the impregnated tube is loaded in a reversing tank of a large capacity, and the air pressure (half voltage) A water pressure inversion method using a hydraulic pressure (half voltage) instead of air pressure using an inversion method and a reversing table, and a reversing tank and a reversing table are excluded, and one end of the impregnated tube is bundled using a traction device on the opposite side of the impregnated tube insertion portion There is a pulling method in which the air is blown into the maintenance pipe at the same time to expand the air.

Each of the insertion methods has advantages and disadvantages. In the case of the pneumatic reversal method, the reversal speed is relatively fast, and the amount of heat and time required for generating the steam at the time of curing is advantageous in comparison with the pressure reversal. However, there is a disadvantage in that a large capacity inverting tank is required and the occupied area becomes large. In the case of the water pressure reversal method, there is no need for a large-capacity reversing tank, and the adhesion of the tube to the tube is increased due to the weight of the water. However, since the half voltage at the end portion is increased to cause breakage of the tube, And the time is larger than the pneumatic reversal, and safety problems of workers and pedestrians working on the reverse side can occur.

In addition, the pulling method is advantageous in that it does not require a large capacity reversing tank and occupies a small area. However, when inserting the impregnated tube, one end of the impregnated tube is bundled so that a person or other conveying object passes through the inside of the repairing pipe. It is pulled along the maintenance pipe and transferred to the inside of the maintenance pipe. The maintenance pipe first removes the foreign matter through the cleaning operation, but the foreign matter that has not been completely removed remains. The impregnated tube is damaged during the process of being transported to the inside of the repair pipe due to the foreign matter thus remaining, which may cause a trouble to the operation, and that the impregnated tube contains resin and the weight is relatively heavy, , The operation of pulling the impregnated tube from the inside of the maintenance tube is a work requiring a heavy work force, the work time is increased, and the traction force is rapidly increased, so that the tube must be reinforced with high tension.

When there are many narrow roads like Korea and there are many traffic and obstacles, there is no large capacity reversing tank, that is, it is easy to utilize a pulling method having a small occupied area and a relatively long construction time. However, Its application is bound to be limited. Therefore, new impregnated tube insertion methods are needed to overcome the disadvantages of the inversion method and the draw method.

In Korean Patent Registration No. 0785832, the moving direction of the pipe is aligned by the guide mechanism mounted on the body when the pulling roller with the tube is moved, minimizing mutual engagement between the pipe and the body, There has been described a pulling roller for minimizing friction between a pipe and a body and for repairing piping which can easily move a curved pipe or a curved pipe. However, it is difficult to apply the pulling roller to both the pipe and the pipe depending on the diameter of the pipe. The tube located at the distal end can be prevented from being torn or broken. However, in the case of the tube located at the middle portion, the tube is attracted by the wall surface and is easily broken.

When the impregnated tube is pulled, the tube is cured. In the conventional tube hardening method, the tube is cured by the steam heat supplied from the boiler. The heat of the steam supplied from the boiler is transferred to the tube A large amount of air is continuously supplied for a long time in order to move to the end portion of the tube and the heat loss is frequently generated in the process of going to the end of the tube because the steam heat is cooled by the contact with the air, Condensation water is generated in the tube due to the heat of the steam, so that the adhesive force of the tube wall due to the uncured tube is lowered.

Patent Registration No. 10-0785832

SUMMARY OF THE INVENTION It is an object of the present invention to provide a traction rope of a traction device connected to a connection ring of a hopper device having a hopper shape, In order to insert the fixing bolt into the inside of the tube while being folded inward, a hole is drilled to fix the fixing bolt using the fixing frame and the nut, and the tube is fixed to the connecting rope formed inside the tube pulling device, It is possible to prevent the surface of the tube from being dragged or broken by the wall surface of the pipe when the apparatus moves along the pipeline and to prevent the breakage of the tube due to the heat generated by heating the air which does not generate condensed water during the curing operation of the tube, And the dry heat is supplied to the tube while the dry heat and the steam are mixed together. Thereby minimizing the condensation water and shortening the hardening operation time.

It is a further object of the present invention to provide a method and apparatus for cutting a front and a back surface of a tube pulled into the inside of a pipe, inserting a cylindrical jig in the inside of the tube, The dry heat connection line of the cylindrical jig located on the back side is supplied with the heated dry heat to quickly perform the hardening operation of the tube. When the tube hardening operation is completed, the remaining dry heat is discharged to the dry heat discharge line of the cylindrical jig To thereby provide a non-excavated curing method for a water and sewage pipe.

It is another object of the present invention to provide a method for manufacturing a tube which is capable of completely curing a tube by transferring 100% heat to a small amount of dry heat by dry heat from which condensed water has been removed. In particular, And to reduce the maintenance cost by omitting the unnecessary work of discharging the condensed water accumulated in the curved pipeline to the outside, thereby providing a non-excavated curing method.

It is a further object of the present invention to provide a method and a device for installing a tube that is pulled up inside a small and large water supply and sewage pipe and simplify the installation work of the tube, It is possible to solve the disadvantage that entrance and exit of passengers are not smooth and the cost can be saved by cutting the both ends of the tube and then inserting a cylindrical jig inside the tube to minimize the use of the tube, And to provide a non-excavated curing method and apparatus for a water and sewage pipe.

In order to accomplish the object of the present invention as described above, the unhardened curing method of a water supply and drainage pipe according to the present invention is characterized in that a tube in which a thermosetting resin is impregnated in an old water supply pipe is pulled into a pipe, In the pipe unladen hardening method, a tube conveying vehicle and a traction device are installed at the entrance and exit of the water supply and sewage pipe, and the end portion of the traction rope wound on the drum of the traction device is connected to a coupling ring of a hopper- A hole is inserted into the hole to insert a fixing bolt and a fixing frame is inserted into the upper and lower parts of the fixing bolt, One end of the nut-tightened tube is fixed to the inside of the tube-pulling device and the pulling rope A plurality of wheels formed on the rear circumferential surface of the tube pulling device move along the pipe while pulling the tube to prevent the tube from being torn or broken due to contact with the bottom surface of the pipe; Wherein when the tube pulling operation is completed, a cylindrical jig is inserted into the tube while cutting the front and rear surfaces of the tube, a dry heat discharge line and a dry heat connection line are formed inside the cylindrical jig, A tube fixing step of withdrawing the traction device and the tube conveying vehicle while the tube is fixed by winding a fixing band on the surface; And a dry heat supply device is installed at the inlet of the waste heat pipe, a dry heat supply line and a spray nozzle are formed on the entire surface of the dry heat storage device, one end of the spray nozzle is connected to the dry heat connection line of the cylindrical jig, And a heat exchanger connected to the boiler is installed on one side of the body, and the steam of the heat exchanger and the compressed air flows into the air supply line formed on the front surface of the body, The heated compressed air is heated while passing through the formed coil and a condensed water outlet is formed on the bottom surface of the body so that condensed water generated during the heating of the heated compressed air is discharged to the outside through the condensed water outlet, The heat supply line is formed so that the dry heat generated inside the body flows through the spray nozzle connected to the heat supply line It is introduced into the connection tube line curing step to promote the hardening of the tube; .

According to the present invention as described above, it is possible to provide a tube pulling device having a hopper shape so that the pulling operation of the tube pulled in the inside of the water supply and sewage pipe can be performed safely and quickly, And a plurality of wheels are formed in the circumferential direction on the rear surface of the tube pulling device so that the inner diameter of the inner wall of the pipe can be reduced, It is possible to keep the wheels in close contact with each other and to move quickly.

In the present invention, a tube is folded inward and a tube accommodated in the tube pulling apparatus is folded inward, and the tube is fixed to the connecting rope formed inside the tube pulling apparatus while fixing the tube using the fixing bolt, the fixing frame and the nut, There is an effect that it is possible to prevent the tube from being damaged by the foreign matter remaining on the inner wall of the duct when the tube traction device moves along the duct.

The present invention is characterized in that both ends of a tube are cut after a tube pulling operation is completed so that a cylindrical jig is inserted into the tube to firmly fix the tube by using a fixing band so that the dry heat flowing into the tube is discharged to the outside The heat loss can be minimized and the curing operation of the tube can be completed in an early time.

The tube traction device of the present invention is a tube retractor of the present invention in which the diameter of a duct is changed in connection with a pipe line and a pipe line, There is an effect that it is possible to prevent an accident that the tube traction device is turned upside down by keeping its center on the inner wall.

The present invention minimizes the size of the tube traction device and the traction device, thereby simplifying the movement and handling of the tube traction device and the traction device, and the effect that the center of gravity of the traction rope and the tube traction device of the traction device always moves horizontally So that the pulling operation of the tube can be performed promptly.

The present invention has a dry heat device for supplying only dry heat heated by steam, in which condensation water does not occur during the curing operation of the tube. The dry heat and the steam are mixed together and the heated dry heat is supplied to the tubes to minimize the condensed water, It is an invention having an effect that it is possible to prevent the tube from being flooded because the condensed water does not float inside.

The present invention has the effect of cutting the both ends of the tube pulled into the inside of the pipe and then inserting the cylindrical jig on the front and back sides of the tube so as to minimize the loss of the material that is blown away from the tube entering from the outside to the pipe inlet A dry heat connection line is formed in the cylindrical jig installed on the rear side and a dry heat discharge line is formed in the cylindrical jig on the front side so that the hardening operation of the tube can be performed quickly and the dry heat is discharged to the dry heat discharge line It is an invention that has the effect of making it possible.

The present invention can be applied variously according to working conditions, and in particular, it is an invention that is capable of quickly performing a curing operation of a tube by connecting a dry heat device to the inside of a conventional inverter.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a general view showing the installation state of a traction device and a tube transfer vehicle according to the present invention; Fig.
Fig. 2 is an enlarged cross-sectional view of a tube-inserting apparatus incorporating a tube therein.
FIG. 3 is a front view showing a state where the tube of the present invention is folded and fixed. FIG.
4 is an overall schematic view showing the curing step of the inventive tube.
5 is a sectional view showing a state in which the cylindrical jig of the present invention is installed in a tube.
6 is a schematic view showing another embodiment of the curing operation of the tube of the present invention.
7 is a sectional structural view of another embodiment of the cylindrical jig of the present invention.

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

Referring to Figs. 1 to 7, the present invention relates to a method for pulling a tube 13 to a pipe by using a tube transfer vehicle 12 and a traction device 10 and a tube traction device 14 at an inlet and an outlet of a water supply / A tube fixing step for fixing the tube 13 by inserting the cylindrical jigs 17 and 170 by cutting both ends of the tube 13 pulled into the inside of the tube to fix the tube 13, And a tube curing step of curing the tube 13 by supplying dry heat to the tube 13.

The tube pulling step of moving the tube 13 to the inside of the pipeline is performed by installing a tube transporting vehicle 12 and a pulling device 10 at the entrance and the exit of the water supply and sewage pipe, The tube traction device 14 can be moved along the traction rope 11a by connecting the end of the traction rope 11a wound on the traction rope 11a to the connection ring 15 of the hopper- And a front portion of a tube 13 to be described later is opened to be accommodated in a rear portion of the tube pulling device 14. A plurality of wheels 14b are provided along the rear circumferential direction of the tube pulling device 14 So that the tube traction device 14 can be moved quickly along the pipeline irrespective of the inner size of the small and large ducts and the tube 13 is connected to the tube 13 mounted on the tube transfer vehicle 12 ) Is folded inward and laminated, and the lamination And then the fixing bolt 16 is inserted in a state in which the fixing frame 16a is in close contact with the upper and lower portions of the tube 13 and the tube 13 Is pulled by pulling the pulling rope 11a of the pulling device 10 so that the pulling rope 11a and the tube pulling device 14 The tube 13 can be quickly pulled and reversed while preventing the outer side of the tube 13 from being torn or damaged by foreign matter or protruding protrusions remaining on the wall surface of the tube in the process of moving along the pipeline .

The tube fixing step may be performed by inserting the cylindrical jigs 17 and 170 into the tube 13 while cutting the both ends of the tube 13 when the tube pulling operation is completed, The protrusions 17b and 170b protruding from the circumferential surface of the tube 13 are kept in close contact with the inside of the tube 13 and the protrusions 17b and 170b protrude from the circumferential surface of the tube 13 in which the protrusions 17b and 170b are located. When the fixing band 18 is wrapped around the fixing band 18, the heat of the heat supplied to the inside of the tube 13 can be prevented from escaping to the outside while the tube 13 is firmly fixed, A dry heat discharge line 17a is formed inside the cylindrical jig 17 located at the front side of the tube 13, After the curing operation of the tube 13 is completed, the dry heat is discharged to the outside through the dry heat discharge line 17a And a condensate water discharge line may be further provided at an inner lower end of the cylindrical jig 17 to discharge a part of the remaining condensed water to the outside after the curing operation of the tube 13 is completed. When the fixing operation of the tube 13 is completed, the tube traction device 14, the traction device 10, and the tube transportation vehicle 12 are withdrawn so that passengers can pass smoothly on a narrow road or an alleyway.

When the tube fixing step is completed, the tube hardening step is performed so that the spray nozzle 27 connected to the dry heat supply line 26 of the dry heat generator 20 is coupled to the dry heat connection line 170a of the cylindrical jig 170 The dry heat exchanger 20 is provided with an air supply line 22 protruded from the upper part of the front surface of the body 21 and supplied with steam from a heat exchanger 23 connected to a boiler formed on one side of the body 21. [ The condensed water generated as the compressed air and the steam are heated and circulated along the coil 24 formed in the body 21 while the steam of the heat exchanger 23 is supplied to the body 21, The condensed water discharged to the condensed water discharge port 25 is connected to a water tank (not shown) and reused through the heat exchanger 13 of the boiler. (Not shown) formed inside the body 21 The heat of the dry heat is generated by the heat of the air heated by the steam and the heat of the dry air is circulated through the front side of the body 21 through the heating heat supply line 26 protruding downward and the spray nozzle 27, 170 to the dry heat connecting line 170a of the tube 13 to accelerate the curing operation of the tube 13 at an early time.

Here, the dry heat from which the condensed water has been removed is uniformly hardened even with a small amount of the dry heat, so that a quality state is maintained to such an extent that additional maintenance work is unnecessary.

6 is a block diagram of another embodiment in which a curing apparatus is connected to a conventional reversing machine to perform a tube pulling step, a tube fixing step, and a tube curing step, and description of the same components as those described above will be omitted, The tube conveying vehicle 12 is mounted with the tube 13 while the tube conveying vehicle 120 is mounted with the transducer 120a or the tube 13 is mounted on the tube conveying vehicle 12 as shown in FIG. The rotating drum 120b is wound around the rotary drum 120b so that the tubes 13 are wound around the rotary drum 120b. The tube 13 is inserted into the pipe in a state of being fixed at the end portion of the inverter 120a according to the conditions of the work site or inserted directly into the pipe from the inside of the inverter 120a, Folded The tube 13 is fixed by using the fixing bolt 16, the fixing frame 16a and the nut 16b to the connecting rope 14a of the tube pulling device 14 to operate the pulling device 10 The operation of pulling the tube 13 performs the same operations as those described above.

When the tube jig 17 is inserted into the inside of the tube 13 in the state where the end portion of the tube 13 is cut at the tube fixing step when the pulling operation of the tube 13 is completed, When the projection 17b protruding from the circumferential surface at regular intervals is kept in close contact with the inside of the tube 13 and the fixing band 18 is wound around the circumferential surface of the tube 13 in which the projection 17b is located The dry heat discharge line 17a is formed inside the cylindrical jig 17 so that the dry heat and the steam supplied to the inside of the tube 13 can not escape to the outside while the tube 13 is firmly fixed. So that after the curing operation of the tube 13 is completed, the dry heat can be discharged to the outside through the dry heat discharge line 17a, and after the curing operation of the tube 13 is completed at the inner lower end of the cylindrical jig 17, There is a condensate discharge line to discharge the remaining condensate to the outside. If the ratio, and the fixing operation of the tube 13 is completed, thereby withdrawing the tube traction device 14 and the traction device 10.

When the tube fixing step is completed, a tube curing step is performed to cure the tube. The tubing is injected into the hose inserting hole 120c of the inverter 120a to the heat supply line 26 protruding from the front surface of the dry heat generator 20 The nozzle 27 is engaged and the injection nozzle 270 is engaged with the hose insertion hole 120c to advance the curing operation of the tube 13.

The invention of FIG. 6 is one embodiment of the present invention in which pulling, fixing, and hardening of the tube 13 wound on the conventional inverter 120a can be performed so that the operation can be rapidly performed according to the conditions of the work site.

The tube conveying vehicle 12 and the traction device 10 and the tube traction device 14 are operated such that the tube 13 moves quickly along the pipeline (B) for installing cylindrical jigs (17) and (170) at both ends of a tube (13) inverted to the inside of the tube, a tube fixing means The tube transporting vehicle 12 is provided at the entrance of the channel and the tube 13 of the tube transporting vehicle 12 is provided with the towing device 10 installed at the outlet thereof. In a state where one end of the tube 13 fixed by using the fixing bolt 16, the fixing frame 16a and the nut 16b is fixed inside the tube traction device 14 When the pulling device 10 is operated, the wheel 14b of the tube pulling device 14 is brought into contact with the inner wall of the pipe It is held in the pipe line along the moving smoothly in the horizontal direction may be performed by the tube pulling operation.

The ends of the tube 13 pulled to the inside of the pipe are cut and then the cylindrical jigs 17 and 170 are inserted to complete the fixing operation of the tube 13 using the fixing band 18, When the injection nozzle 27 connected to the dry heat supply line 26 of the heat exchanger 20 is connected to the dry heat connection line 170a of the cylindrical jig 170, the dry heat from which condensed water has been removed by the minimum heat is supplied to the inside of the tube 13, The steam is supplied to the air supply line 22 by the operation of the heat exchanger 23 connected to the boiler while the compressed air flows into the air supply line 22 of the body 21, And the heating and circulation process is repeated along the coil 24. [

On the other hand, the compressed air supplied to the inside of the body 21 is heated to 100 ° C or higher by the steam and the coil 24, and the condensed water is discharged to the condensed water discharge port 25. The dry heat from which the condensed water is removed is supplied to the dry heat supply line 26 Since the dry heat and the steam sprayed to the spray nozzle 27 are sprayed at a ratio of 8: 2, the inlet portion of the tube 13 is not damaged by the high temperature There is a feature that can be prevented.

The steam jetted to the injection nozzle 27 can compensate for the disadvantage that the tube 13 may be damaged due to the sudden discharge of high-temperature dry heat. The amount of dry heat discharged to the tube 13 is small The tube 13 can be uniformly cured even in a short period of time. Particularly, even when the dry heat moves to the end of the tube 13 inverted in the inside of the pipe, dry heat is not generated or condensed water is not generated It is possible to prevent the tube 13 from being lifted due to uncured curing, so that there is no need to perform additional maintenance work.

A tube pulling means A and a tube fixing means B each consisting of the tube conveying vehicle 12 of the present invention and the tube pulling device 14 and the dry heat exchanger 20 of the pulling device 10 and the tube hardening means C ) Can be easily combined and separated and can minimize the overall volume. Therefore, it is easy to move and handle, and it prevents the generation of condensed water by using steam heat, so a separate device for removing condensed water and construction work are omitted Which can reduce construction costs and maintenance costs.

The above-described water / sewage pipe un-drilling hardening method and hardening apparatus according to the present invention are not limited to the above-described embodiments, There is a technical spirit to the extent that anyone with knowledge can make various changes.

10: towing device 11: drum
11a: Towing rope 12,120: Tube transport vehicle
13: tube 14: tube pulling device
14a: connecting rope 14b: wheel
15: Link ring 16: Fixing bolt
16a: fixed frame 16b: nut
17,170: Cylindrical jig 17a: Dry heat discharge line
17b, 170b: projecting portion 18: fixed band
20: dry heat device 21: body
22: air supply line 23: heat exchanger
24: Coil 25: Condensate outlet
26: drying heat supply line 27: spray nozzle
120a: Inverter 120b: Rotary drum
120c: Hose insertion hole 170a: Dry heat connection line
A: tube pulling means B: tube fixing means
C: Tube hardening means

Claims (8)

In a non-excavated curing method for a water and sewage pipeline in which a tube impregnated with a thermosetting resin is pulled into a pipeline and then the pipe is cured,
A tube transfer vehicle 12 and a traction device 10 are installed at the entrance and exit of the sewer pipe and the end of the traction rope 11a wound on the drum 11 of the traction device 10 is formed into a hopper shape The tube 13 is inserted into the pipe and the end of the tube 13 inserted into the pipe is folded inwardly and the hole is punctured into the fixing ring 16 And the fixing frame 16a is inserted into the upper and lower portions of the fixing bolt 16 and then one end of the tube 13 fastened with the nut 16b is fixed inside the tube pulling device 14 When the pulling rope 11a is pulled out from the pulling device 10, a plurality of wheels 14b formed on the rear peripheral surface of the tube pulling device 14 move along the pipe, so that the tube 13 contacts the bottom face of the pipe A tube pulling step to prevent tearing or breakage;
When the tube pulling operation is completed, the cylindrical jig 17 is inserted into the inside of the tube 13 while the front and rear surfaces of the tube 13 are cut off, and the inside of the cylindrical jig 17 And a heat transfer line 170a are formed in the cylindrical heat exchanger 17a and the tube 13 is fixed by winding a fixing band 18 around the circumferential surface of the cylindrical jig 17, (10) and a tube transport vehicle (12); And
A dry heat generator 20 is installed at the inlet of the waste pipe and a drying heat supply line 26 and a spray nozzle 27 are formed on the entire surface of the dry heat generator 20 so that one end of the spray nozzle 27 is connected to the cylindrical jig 170, And the dry heat exchanger 20 is connected to the dry heat connecting line 170a of the body 21. The dry heat supplied from the dry heat exchanger 20 is supplied to the inside of the tube 13 to cure the tube 13, And the steam of the heat exchanger 23 flows into the air supply line 22 formed on the front surface of the body 21 so that the inside of the body 21 The condensed water generated in the process of heating the heated compressed air is discharged to the condensed water discharge port 25 through the condensed water discharge port 25 formed on the bottom surface of the body 21, And a body heat release line 26 is formed on the front surface of the body 21, The dry heat generated inside the case is introduced into the dry heat connection line (170a) through the injection nozzle 27 is connected to the heat supply line 26. Tube curing step to promote the hardening of the tube 13;
And the unloading and curing method. The cylindrical jig (17) according to claim 1, wherein the cylindrical jig (17) (170) has a plurality of projections (17b) (170b) The tube 13 is fixed to the tube 13 at the position where the protrusions 17b and 170b of the tube 170 are located and the tube 13 is tightly fixed to the inside of the cylindrical jig 17 Wherein the supplied dry heat is discharged to the outside through the dry heat discharge line (17a) of the cylindrical jig (17) after the hardening work of the tube (13) is completed. delete delete A water / wastewater curing apparatus for pulling a tube impregnated with a thermosetting resin inside a pipe of an old water and sewage pipe into a pipe and curing the pipe,
The tube transfer vehicle 12 and the traction device 10 are installed at the entrance and the exit of the water supply and sewage pipe and the end of the traction rope 11a wound on the drum 11 of the traction device 10 is connected to the connection loop 15 And a plurality of wheels 14b are provided on the rear circumferential surface of the tube pulling device 14 so as to be connected to the tube pulling device 14 And a fastening bolt 16 is inserted into the tube 13 by piercing the hole in the state where the end of the tube 13 inserted into the tube is folded inward and laminated, And one end of the tube 13 fastened with the nut 16b is fixed to the inside of the tube pulling device 14 so that the pulling rope 11a , A plurality of wheels 14b formed on the rear peripheral surface of the tube pulling device 14 A tube pulling means (A) for preventing the tube (13) from coming into contact with the bottom surface of the channel and being torn or broken while moving along the channel;
When the tube pulling operation is completed, the cylindrical jig 17 is inserted into the inside of the tube 13 while the front and rear surfaces of the tube 13 are cut off, and the inside of the cylindrical jig 17 A tube fixing means 173 for fixing the tube 13 by winding a fixing band 18 around the circumferential surface of the cylindrical jigs 17 and 170 and a dry heat discharge line 17a and a dry heat connection line 170a, (B); And
A plurality of coils (24) are formed in the dry heat generator (20), and the steam supplied from the heat exchanger (23) connected to the boiler and the compressed air Flows into the air supply line 22 formed on the front surface of the body 21 and is heated by the coil 24 formed inside the body 21 and the condensed water is discharged from the bottom surface of the body 21, The condensed water generated in the process of heating the heated compressed air is discharged to the outside through the condensed water outlet 25 and the drying heat supply line 26 is formed on the front surface of the body 21 to form the body 21 (C) that flows into the dry heat connecting line (170a) through the spray nozzle (27) connected to the dry heating supply line (26) and promotes the hardening operation of the tube (13) A water and sewage pipe unloading curing Device. 6. The apparatus according to claim 5, wherein the cylindrical jig (17) (170) has a plurality of projections (17b) (170b) The tube 13 is fixed to the tube 13 at the position where the protrusions 17b and 170b of the tube 170 are located and the tube 13 is tightly fixed to the inside of the cylindrical jig 17 Wherein the supplied dry heat is discharged to the outside through the dry heat discharge line (17a) of the cylindrical jig (17) after the hardening work of the tube (13) is completed. The method of claim 5, wherein the tube hardening means (C) comprises an air supply line (22) and a dry heat supply line (26) on the front surface of the body (21) The steam is supplied to the air supply line 22 and the steam is supplied to the air supply line 22 and the coil 24 formed in the body 21 together with the compressed air The heated compressed air is heated and a condensed water outlet 25 is formed on the bottom surface of the body 21 so that condensed water generated during the heating of the heated compressed air is discharged to the outside through the condensed water outlet 25, A dry heat supply line 26 is formed on the front surface of the body 21 so that the dry heat generated inside the body 21 flows into the dry heat connection line 170a through the spray nozzle 27 connected to the dry heat supply line 26 Thereby promoting the hardening work of the tube (13) Curing the excavation device. delete

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