KR102064714B1 - Full repair system and construction method for non-bending of sewer pipes using reverse curing method - Google Patents

Abstract

The present invention relates to a water and sewage non-excavation total repair apparatus and method using a reverse curing method. A reinforcement tube is initially hardened by repeating a process of recovering waste steam inside the reinforcement tube to a steam recovery line connected to a condensate circulation device for an hour while supplying steam by connecting a first steam line connected to a boiler to a steam hose installed inside the reinforcement tube. The steam supplied to the steam hose is converted and then condensate inside the reinforcement tube is stored in a condensate circulator through a condensate recovery line through the steam hose. A second steam line is formed between the steam recovery line connected to an inverter and the first steam line so that the steam is secondly supplied to the inside of the inverter for an hour so that the reinforcement tube can be quickly cured.

Description

Full repair system and construction method for non-bending of sewer pipes using reverse curing method}

The present invention relates to a total repair and construction method for water and sewage non-excavation using a reverse curing method, and more particularly, to supply steam by connecting a first steam line connected to a boiler to a steam hose installed inside a reinforcement tube. The process of recovering the internal waste steam to the steam recovery line connected to the condensate circulator is repeated for 1 hour to harden the reinforcement tube first, cut off the steam supplied to the steam hose, and then condensate inside the reinforcement tube through the steam hose. Is stored in the condensate circulator through the condensate return line, and a second steam line is formed between the steam recovery line connected to the inverter and the first steam line to supply steam to the inside of the inverter for 1 hour for reinforcement. The present invention relates to a water and sewage non-excavation overall repair apparatus and a method using a reverse curing method that can quickly cure a tube.

As urbanization progressed, various pipes including water and sewage pipes were buried underground, and as time passed, aging and poor pipelines gradually occurred.

As a result, leakage of water and sewage, pollution of drinking water, and gas leakage have become an important issue for maintenance of aged pipes.

During the renovation, the entire non-excavated water and sewage system repairing water and sewage pipes has been developed as an alternative to the increase in the cost of social losses such as heavy construction costs, traffic jams, safety accidents, and environmental problems. It is designated as a new technology and has been actively applied to the Han River water and sewage maintenance project, and the water and sewage maintenance lease-type private sector project (BTL).

Non-excavation water and sewage whole repair method impregnates the cured resin in the tube cut according to the length of the repair pipe and the allowable length for each method, inserts the tube into the repair pipe, and hardens it by applying heat to finish and connect the both ends. The drilling ends the process.

Patent Registration No. 10-1354120 of Patent Literature 1 and the non-excavation repairing device and its repair method have no countermeasures against the bent pipe at all, and particularly enter the inside of the repair tube 10 that is moved into the pipeline. The steam is supplied from the inlet of the repair tube 10 introduced into the start manhole 2 by supplying steam to the steam supply hose 32 to supply steam from the inlet of the repair tube 10 to the last moved portion of the repair tube 10. 10) to cure, and in order to discharge the steam flowing into the water supply tube 10 to the outside, the steam discharge pipe 36 is inserted into the end of the water supply tube 10, and a person enters the arrival manhole 3 Therefore, a lot of manpower is put into the process of inserting the steam discharge pipe 36 and a lot of work time is required, resulting in excessive construction costs due to the delay of construction, and a process of inserting the steam discharge pipe 36 into the process. There is a problem that the waste material occurs as a problem that the repair tube 10 is broken.

In the case of Patent Literature 1, a device for supplying steam to the inside of the maintenance tube is located at the start manhole, and the steam discharge pipe located at the end of the maintenance tube is located at the arrival manhole to maintain pressure while two workers communicate with each other. Therefore, it is difficult to maintain a constant pressure, and when the steam discharged to the steam discharge pipe is reused by using the boiler, the length between the start manhole and the arrival manhole is 50 m, so a 50 m hose is used to circulate the steam from the steam discharge pipe to the boiler. In order to use a 50m hose, it is necessary to cross a sidewalk and a driveway, a large place is required, and there are many structural difficulties in connecting a hose to a boiler.

In the process of supplying steam heat from the inlet of the tube to the end of the tube, as in Patent Literature 1, if the temperature of the end of the tube is 100 ° C, the temperature of the inlet tube is 60 ° C, which causes a temperature deviation. As the heat of the steam is in contact with the air and the heat is cooled, condensate is generated inside the tube, and thus the adhesive strength of the pipe wall due to uncuring is reduced, thereby causing the tube to be lifted in some sections.

If the conventional tube is lifted up with the pipe wall, the trouble of repeating the additional repair work and the traffic congestion due to the delay of the whole construction, and especially the steam heat supplied to the inside of the tube cools down. The condensate is concentrated, and the heat of the tube heated by the hardening operation cools down due to the condensate accumulated in the tube, and the tube and pipe wall are lifted up, and a separate drain hole for discharging the accumulated condensate to the outside in a short time. There are difficulties in installing laws and drainage.

Republic of Korea Patent Publication No. 10-1354120

The present invention is to solve the above-mentioned problems, an object of the present invention is to connect the first steam line connected to the boiler to the steam hose connected to the end of the reinforcement tube to supply steam to cure the reinforcement tube at the same time Repeat the process of recovering steam through the steam recovery line connected to the condensate circulator for 1 hour to harden the reinforcement tube first, cut off the steam supplied to the steam hose, and then reinforce it through the steam hose. Condensate inside the tube is stored in the condensate circulator through the condensate return line, and a second steam line is formed between the steam recovery line connected to the inverter and the first steam line to supply steam to the inside of the inverter for 1 hour. By using the reverse curing method to recover the condensate while reducing the reinforcing tube curing time, It is to provide water and sewage non-excavation total repair device.

Another object of the present invention is to connect the inside of the end of the reinforcing tube in the process of curing the reinforcing tube stretches 4 to 5m in the process of moving along the reinforcing tube while the problem of uncured end of the reinforcing tube occurs Water and sewage ratio using reverse hardening method to prevent unhardening of the end of the reinforcing tube by installing the spray nozzle in the connecting line to dissolve and spraying steam through the plurality of spray holes formed in the front of the spray nozzle. It is to provide a complete repair device for the excavation.

Still another object of the present invention is to supply steam to the steam hose connected to the first steam line in a state in which the valves of the second steam line and the condensate return line are blocked, and the reinforcing tube is first cured for 1 hour, and the steam recovery line The steam inside the reinforcement tube is recovered through the inverter connected to the condenser and the steam is transferred to the condensate circulator. The condensate is connected to the condensate return line while the valves of the first steam line and the steam recovery line are blocked. Collect and transfer to condensate circulation device, supply steam through the inverter connected to the second steam line, and harden the reinforcement tube for 2 hours for 2 hours to uniformly harden the entire reinforcement tube and carry out separate maintenance work. It is to provide a water and sewage non-excavation total repair device using no reverse curing method.

Still another object of the present invention is to move the steam and condensate inside the reinforcement tube to the third storage tank through the first and second storage tanks of the condensate circulator, and heat the water stored in the second storage tank to transfer the boiler to the boiler. To reduce the time required to heat the water of the water, and to reuse the condensate to prevent secondary environmental pollution, to provide a total maintenance device for unexcavated water and sewage using a reverse curing method.

Another object of the present invention is to quickly recover and reuse the waste steam generated in the process of curing the reinforcement tube and at the same time to quickly recover the condensate inside the reinforcement tube to prevent the hardening of the bottom surface of the reinforcement tube due to the condensate, It is to provide a water and sewage non-excavation total repair device using a reverse curing method by supplying steam into the reinforcement tube to maintain a constant temperature inside the reinforcement tube.

In order to achieve the object of the present invention as described above, the water and sewage non-excavation whole repair device using the reverse curing method according to the present invention enters and expands the reinforcing tube installed in the inverter into the old pipeline, the inner end of the reinforcing tube Reinforcing tube inverting means for coupling the ring of the injection nozzle to the fixed ring of the connection cord installed in the installation, and a steam hose on the rear of the injection nozzle; A condensate circulator and a boiler are connected to a steam supply vehicle for supplying steam to the steam hose, and a first steam line connected to the boiler is connected to a steam hose to supply steam to a reinforcement tube, and the condensate circulator First reinforcing tube curing means for recovering steam in the reinforcing tube by connecting a steam recovery line connected with the inverter; By forming a condensate recovery line between the steam recovery line and the first steam line connected to the condensate circulation device to recover the condensate accumulated on the bottom surface of the reinforcement tube through the steam hose while blocking the steam supplied to the steam hose Second reinforcing tube curing means for storing in the condensate circulator, forming a second steam line between the steam recovery line connected to the inverter and the first steam line to supply steam to the inside of the inverter to cure the reinforcement tube. ; And a plurality of valves installed in the first and second steam lines, the steam recovery line, and the condensate return line, and the steam hose connected to the first steam line while the valves of the second steam line and the condensate return line are blocked. Steam is supplied to the reinforcement tube to cure the reinforcement tube primarily for 1 hour, and recovers the steam inside the reinforcement tube through the inverter connected to the steam recovery line to transfer the steam to the condensate circulator, steam and the first steam line The condensate is recovered through the steam hose connected to the condensate return line while the valve of the return line is shut off, and is transferred to the condensate circulator. The steam is supplied through the inverter connected to the second steam line. And control means for curing for 1 hour.

The present invention is characterized in that to form a plurality of injection holes in the front circumferential surface of the injection nozzle to inject steam by a distance from the end of the reinforcement tube to the connection line to cure the reinforcement tube.

According to the present invention as described above, the present invention is to supply steam to the inside of the reinforcement tube and at the same time the process of recovering the waste steam to the condensate circulator for 1 hour to cure the reinforcement tube first, supply to the steam hose After converting the steam to secondary, the condensate inside the reinforcement tube is stored in the condensate circulation through the condensate return line connected to the steam hose, and the steam is supplied to the converted inverter for 1 hour to supply the reinforcement tube to the secondary. By improving the curing process, there is an effect that can shorten the curing time of the reinforcing tube.

The present invention connects the first steam line connected to the boiler to the steam hose connected to the end of the reinforcement tube to supply steam to the steam hose, the steam recovery line connecting the waste steam in the reinforcement tube to the inverter condensate circulation device To store steam, cut off the steam supplied to the steam hose, and store the condensate inside the reinforcement tube through the condensate return line through the condensate return line through the steam hose, and connect the steam recovery line and the first Forming a second steam line between the steam lines and supplying steam to the inside of the inverter in two stages continuously through a control means to quickly recover and reuse waste steam and condensate; The temperature inside the reinforcement tube is kept constant, thereby preventing the reinforcement tube from being hardened.

The present invention is connected to the connection line that is connected to the inner end of the reinforcing tube stretches 4 ~ 5m in the process of moving along the reinforcing tube, so that the steam does not reach the end of the reinforcing tube to eliminate the problem that the uncuring occurs There is an effect that can be installed in the injection nozzle to prevent the uncured portion of the end of the reinforcing tube by injecting steam through a plurality of injection holes formed in the front of the injection nozzle.

The present invention by supplying steam to the steam hose connected to the first steam line in a state in which the valves of the second steam line and the condensate return line is blocked, the reinforcing tube is first cured for 1 hour, and connected to the steam recovery line Recovers the steam inside the reinforcement tube and transfers the steam to the condensate circulator, recovers the condensate through the steam hose connected to the condensate return line while blocking the valves of the first steam line and the steam recovery line. The transfer to the device, and supplying steam through the inverter connected to the second steam line to cure the reinforcement tube secondary for 1 hour to uniformly cure the entire reinforcement tube to reduce the maintenance cost.

The present invention is to move the steam and condensate in the reinforcement tube to the third storage tank through the first and second storage tanks of the condensate circulation device to heat the water stored in the second storage tank to transfer to the boiler to heat the water in the boiler It is possible to reduce the time required for heating, to save the oil consumed to heat the water stored in the boiler, and to reduce the amount of water used for curing the reinforcing tube and to reuse the condensate at the same time. It is effective to prevent contamination.

The present invention is to quickly recover and reuse the waste steam generated in the process of curing the reinforcement tube and at the same time to quickly recover the condensate inside the reinforcement tube to prevent the bottom surface of the reinforcement tube due to the condensed water to prevent uncured, By supplying steam, the temperature inside the reinforcing tube is maintained at a constant temperature, thereby preventing the reinforcing tube uncured.

1 is a use state showing a state of entering the reinforcing tube wound into the pipeline.
Figure 2 is a use state showing a state connecting the steam hose to the end of the reinforcement tube.
Figure 3 is a use state showing the reinforcing tube curing process using the repair device of the present invention.
Figure 4 is a use state showing the state of use of the first reinforcing tube curing means of the present invention.
Figure 5 is a use state showing the state of use of the second reinforcing tube curing means of the present invention.
6 is a use state showing a state of recovering the condensate inside the reinforcing tube.
Figure 7 is a block diagram showing a state of use of the present condensate circulator.

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

1 to 7, the present invention transfers and expands the reinforcement tube 12 wound around the inverter 11 into the conduit, and a steam hose connected to an end of the reinforcement tube 11. 14 to supply steam through the inverting means 10 for moving together and the first steam line 24 of the boiler 22 connected to the steam hose 14, the waste inside the reinforcement tube 12 The first reinforcing tube curing means 20 for storing steam to the condensate circulating device 23 and the condensate circulates through the steam hose 14 while the steam supplied to the steam hose 14 is blocked. Second reinforcing tube curing means 30 for storing steam in the apparatus 23 and supplying steam to the inside of the inverter 11, and the first and second steam lines 24 and 32 and the steam recovery line. A plurality of valves 41, 42, 43 and 44 are installed in the 25 and the condensate return line 31 to control the first and second reinforcing tube curing means 20 and 30 so that the reinforcing tube 12 is provided. God It is largely composed of control means 40 for curing.

The reversing means 10 which inverts and expands the reinforcing tube 12 inside the pipeline in a state where the inverter 11 mounted on the inverting vehicle (not shown) is moved to near the pipeline, the inverter 11. When the reinforcing tube (12) wound on the transfer to the inside of the pipeline, half of the reinforcing tube (12) is passed through the front of the inverter 11 in a state where a portion of the reinforcing tube (12) enters the pipeline. As shown in the see-through window of the electricity 11, when the ring 16 of the spray nozzle 15 is coupled to the fixing ring 13a of the connecting line 13 installed at the end of the reinforcement tube 12, the reinforcement tube 12 The injection nozzle 15 and the steam hose 14 move together, supply compressed air to the inside of the reinforcement tube 12, and expand the reinforcement tube 12 to be in close contact with the wall surface of the conduit.

The first reinforcing tube curing means 20 for curing the reinforcing tube 12 is a condensate circulating device 23 in a steam supply vehicle 21 equipped with a boiler 22 for supplying steam to the steam hose 14. ) Is connected to the boiler 22 and the condensed water supply line 29, and the steam hose 14 is connected to the first steam line 24 connected to the boiler 22 by supplying the steam hose 14. And steam is injected through the injection holes 14a and 15a of the injection nozzle 15 to cure the reinforcement tube 12. The steam injected into the injection hole 15a of the injection nozzle 15 is a reinforcement tube ( 12) the steam is sprayed up to a distance of 4 ~ 5m between the end portion and the connecting line 13 to cure to the inside of the end portion of the reinforcement tube 12, and the steam recovery line connected to the condensate circulation device 23 ( 25) is connected to the inverter 11 to recover the remaining waste steam supplied to the steam hose 14 and stored in the condensate circulator 23 for 1 hour The reinforcement tube 12 is repeatedly cured for the first time, and the first reinforcement tube curing means 20 supplies steam to the reinforcement tube 12 and at the same time recovers waste steam to recover the temperature inside the reinforcement tube 12. Maintaining a constant at all times to prevent the phenomenon that the reinforcement tube 12 is not cured at the same time minimizes the phenomenon of condensation due to the waste steam is characterized in that the fastening of the reinforcement tube 12 can proceed quickly.

The second reinforcing tube curing means 30 which performs the hardening work of the reinforcing tube 12 secondly is performed by the steam recovery line 25 and the first steam line 24 connected to the condensate circulating device 23. As shown in FIG. 6, a condensate recovery line 31 is formed between the bottoms of the reinforcement tube 12 through the injection hole 14a of the steam hose 14 in a state in which the steam supplied to the steam hose 14 is blocked. The condensate collected on the surface is collected and stored in the condensate circulation device 23, and the second steam line 32 is disposed between the steam recovery line 25 and the first steam line 24 connected to the inverter 11. ) To supply steam to the inside of the inverter 11 to perform the process of curing the reinforcement tube 12 at the same time has a feature that can quickly perform the secondary curing operation of the reinforcement tube (12).

The condensate circulator 23 of the present invention includes a first storage tank 26 to which the steam recovery line 25 is connected, and a second storage tank 27 to the side of the first storage tank 26. A third storage tank 28 is installed, but a steam circulation coil 27a is formed at an inner upper portion of the second storage tank 27, and first connection lines 27b are formed at both sides of the steam circulation coil 27a. Is formed to be connected to the upper portion of the first storage tank 26 and the third storage tank 28 so that the steam introduced into the first storage tank 26 moves to the third storage tank 28 while the second storage tank is formed. (27) Heats the water stored therein, the steam circulation coil (27a) can be installed in various forms such as a heating coil, the second connecting line (27c) on both sides of the lower side of the second storage tank (27) Is connected to the lower portion of the first storage tank 26 and the third storage tank 28 to transfer the condensate into the second storage tank 27, and the second storage tank 27 is connected to the boiler 22. It is connected to the condensate supply line 29 to supply the heated condensate to the boiler 22 to shorten the time for heating the water stored in the boiler 22, and generally the water supplied to the boiler is 18 ℃ Although maintaining, but the water supplied from the second storage tank 27 is heated to 50 ~ 60 ℃ characterized in that it can save the oil consumed to heat the water, and used to cure the reinforcement tube 12 There is a feature that can save the amount of water used.

In the first and third storage tanks 26 and 28 of the present invention, the motors 26a and 28a and the pumps 26b and 28b are installed to rapidly discharge steam and condensed water into the first and third storage tanks 26 and 28. ) And high water level detectors 26c and 28c and low water level detectors 26d and 28d at the upper and lower portions of the first and third storage tanks 26 and 28, respectively. 3 When the level of the condensate stored in the storage tanks 26 and 28 increases, the condensate is transferred to the second storage tank 27.

The control means 40 for supplying steam to the reinforcement tube 12 and recovering the condensed water blocks the valves 43 and 44 of the second steam line 32 and the condensate recovery line 31. In the steam supply 14 to the steam hose 14 connected to the first steam line 24 to harden the reinforcing tube 12 for 1 hour, the inverter 11 connected to the steam recovery line 25 The steam inside the reinforcement tube 12 is recovered to transfer steam to the condensate circulator 23, and the valves 41 and 42 of the first steam line 24 and the steam recovery line 25 The condensate is recovered through the steam hose 14 connected to the condensate return line 31 in the blocked state and transferred to the condensate circulator 23, and the inverter 11 connected to the second steam line 32. By supplying steam through the hardening of the reinforcing tube (12) for a second time by curing the reinforcing tube 12 is quickly performed by reducing the curing time and, To quickly reuse the waste steam and condensate inside the tube 12 has a feature that prevents the phenomenon of the uncured reinforcement tube (12).

Water and sewage non-excavation whole repair method using the reverse curing method according to the present invention configured as described above is operated as follows.

In the reinforcing tube installation step of reversing and expanding the reinforcement tube 12 into the pipeline, the reversal vehicle is moved to the beginning of the pipeline, and the reinforcement tube 12 wound on the inverter 11 enters the pipeline. When moving to make the connection line 13 connected to the end of the reinforcing tube 12 is exposed to the outside through the see-through window of the inverter 11, the operator as shown in Figure 2 fixed ring of the connection line 13 When the ring 16 of the spray nozzle 15 is coupled to the 13a, the spray nozzle 15 and the steam hose 14 move together along the reinforcement tube 12 moving into the pipeline, and the reinforcement tube ( When 12) is located at the end of the conduit, the compressed air is supplied into the reinforcing tube 12 so that the circumferential surface of the reinforcing tube 12 can be in close contact with the conduit wall.

In the first reinforcing tube curing step of supplying steam to the reinforcing tube 12, the first steam line 24 connected to the steam hose 14 is connected to the boiler 22 installed in the steam supply vehicle 21. When the steam is supplied to the reinforcing tube 12, steam is supplied through the plurality of injection holes 14a formed in the steam hose 14 and the injection holes 15a formed on the front surface of the injection nozzle 15, as shown in FIG. 4. The reinforcing tube 12 is sprayed to cure for 1 hour, and one end of the steam recovery line 25 is connected to the condensate circulator 23 connected to the boiler 22, and the other part of the steam recovery line 25 is connected. A stage may be connected to the inverter 11 to simultaneously recover the steam inside the reinforcement tube 12 to minimize condensate generated by the waste steam, and to increase the internal temperature of the reinforcement tube 12. Maintain constant at all times to shorten the curing time.

The secondary reinforcing tube curing step and the control step of curing the reinforcing tube 12, the steam recovery of the condensate circulator 23 as shown in Figure 5 when the first curing operation of the reinforcing tube 12 is completed By operating the condensate recovery line 31 formed between the line 25 and the first steam line 24 to cut off the steam supplied to the steam hose 14, the valve of the first steam line 24 ( 41 and the valve 42 of the steam recovery line 25, the steam hose 14 in the state in which the valves 43 and 44 of the second steam line 32 and the condensate return line 31 are opened. The condensate collected on the bottom surface of the reinforcement tube 12 is collected and stored in the condensate circulating device 23, between the steam recovery line 25 of the inverter 11 and the first steam line 24. To operate the second steam line 32 formed thereon to supply steam to the inside of the inverter 11 to repeat the operation of curing the reinforcing tube 12 for 1 hour. Probe 12 is capable of re-use at the same time characterized in that the condensate inside the quick recovery.

The condensate circulator 23 includes a first storage tank 26 to which the steam recovery line 25 is connected, and a second storage tank 27 and a third storage side to the side of the first storage tank 26. The storage tank 28 is installed, but a steam circulation coil 27a is formed at an inner upper portion of the second storage tank 27, and first connection lines 27b are formed at both sides of the steam circulation coil 27a. Formed and connected to the upper portion of the first storage tank 26 and the third storage tank 28, the steam introduced into the first storage tank 26 is moved to the third storage tank 28, the second storage tank 27 Heat the water stored in the inside, and connecting the second connecting line (27c) and the lower portion of the first storage tank 26 and the third storage tank 28 on both sides of the lower side of the second storage tank (27) Condensate is transferred into the second storage tank 27, and the second storage tank 27 is connected to the boiler 22 and the condensate supply line 29 to supply heated condensate and stored in the boiler 22. It has a feature capable of shortening the time for heating the water.

In the present invention, the process of recovering the waste steam while supplying steam into the reinforcement tube 12 is repeated for 1 hour to cure the reinforcement tube 12 and block the steam supplied to the reinforcement tube 12. At the same time to recover the condensed water in the reinforcement tube 12 using the steam hose 14 at the same time to continuously supply the steam through the inverter 11 for 1 hour continuously to shorten the curing time of the reinforcement tube One feature, and to prevent the uncured of the reinforcement tube 12 has a feature that can reduce the maintenance cost of the additional maintenance work of the reinforcement tube.

In general, the steam supplied to the reinforcement tube 12 is used to recover the steam at the end of the reinforcement tube 12, this method is to adjust the pressure and the steam recovery amount of the end of the reinforcement tube 12 Workers who are working at the beginning and end of the pipeline are required to communicate with each other. Therefore, the cost of construction will increase, and additional repair work should be carried out if the workers cannot communicate with each other. Although the present invention has a problem in that the present invention recovers the condensed water using the steam hose 14 while recovering steam through the inverter 11, there is a feature that does not require a lot of work force.

In addition, the conventional steam and condensate of the present invention is characterized by eliminating the complicated process of using a 50m hose in order to recover and reuse at the end of the reinforcing tube.

Water and sewage non-excavation overall repair device and method using the reverse curing method according to the present invention described above is not limited to the above embodiment, the present invention belongs without departing from the gist of the invention claimed in the claims below Anyone with ordinary knowledge in the field has the technical spirit to the extent that various modifications can be made.

10: reversal means 11: reversing machine
12: reinforcement tube 13: connecting line
13a: retaining ring 14: steam hose
15: injection nozzle 14a, 15a: injection hole
16: ring 20: first reinforcing tube curing means
21: steam supply vehicle 22: boiler
23: condensate circulator 24: first steam line
25: steam recovery line 26: the first storage tank
27: second storage tank 28: third storage tank
29: condensate supply line 30: second reinforcing tube curing means
31: condensate return line 32: second steam line
40: control means 41, 42, 43, 44: valve

Claims (10)

The reinforcing tube (12) installed in the inverter (11) enters and expands into the aging pipeline, and the injection nozzle (13) in the fixing ring (13a) of the connecting line (13) installed inside the end of the reinforcing tube (12). Reinforcing tube inverting means (10) for coupling the ring (16) of the 15 and installing a steam hose (14) on the back of the injection nozzle (15);
The first steam line 24 connected to the condensate circulating device 23 and the boiler 22 is installed in the steam supply vehicle 21 for supplying steam to the steam hose 14, and connected to the boiler 22. To the steam hose 14 to supply steam to the reinforcement tube 12, and the reinforcement tube 12 by connecting the steam recovery line 25 connected to the condensate circulating device 23 with the inverter (11). First reinforcing tube curing means 20 for recovering the steam therein;
The condensate recovery line 31 is formed between the steam recovery line 25 and the first steam line 24 connected to the condensate circulation device 23 to block the steam supplied to the steam hose 14. The steam hose 14 recovers condensate accumulated in the bottom surface of the reinforcement tube 12 and stores the condensed water in the condensate circulating device 23 and connects the steam recovery line 25 and the first steam connected to the inverter 11. A second reinforcing tube curing means 30 forming a second steam line 32 between the lines 24 to supply steam to the inside of the inverter 11 to cure the reinforcing tube 12; And
A plurality of valves 41, 42, 43, 44 are installed in the first and second steam lines 24, 32, the steam recovery line 25, and the condensate return line 31. Reinforcing tube 12 by supplying steam to the steam hose 14 connected to the first steam line 24 in a state in which the valves 43 and 44 of the steam line 32 and the condensate recovery line 31 are blocked. ) Is primarily cured for 1 hour, and recovers the steam in the reinforcing tube 12 through the inverter 11 connected with the steam recovery line 25 to transfer steam to the condensate circulation device 23, The condensate is circulated by recovering the condensate through the steam hose 14 connected to the condensate return line 31 while the valves 41 and 42 of the first steam line 24 and the steam recovery line 25 are blocked. Control means (40) for transferring to the apparatus (23) and supplying steam through the inverter (11) connected to the second steam line (32) to cure the reinforcing tube (12) for a second time;
Water and sewage non-excavation total repair device using a reverse curing method comprising a. The method of claim 1,
A plurality of injection holes 15a are formed on the front circumferential surface of the injection nozzle 15 to inject steam by a distance from the end of the reinforcement tube 12 by the connecting line 13 to the reinforcement tube 12. Water and sewage non-excavation total repair device using a reverse curing method characterized in that to harden. The method of claim 1,
The condensate circulator 23 includes a first storage tank 26 to which the steam recovery line 25 is connected, and a second storage tank 27 and a third storage side to the side of the first storage tank 26. Install storage tank 28,
A steam circulation coil 27a is formed at an inner upper portion of the second storage tank 27, and first connection lines 27b are formed at both sides of the steam circulation coil 27a to form a first storage tank 26. And connected to the upper portion of the third storage tank 28, the steam introduced into the first storage tank 26 is moved to the third storage tank 28 to heat the water stored in the second storage tank 27, The second connection line 27c is connected to the lower sides of the first storage tank 26 and the third storage tank 28 on both lower sides of the second storage tank 27 to the inside of the second storage tank 27. Water and sewage non-excavation overall repair device using a reverse curing method, characterized in that to transfer the condensed water, and to connect the second storage tank 27 to the boiler 22 and the condensate supply line 29 to supply the heated condensate. The method of claim 3, wherein
The first and third storage tanks 26 and 28 are provided with motors 26a and 28a and pumps 26b and 28b, respectively, in the upper and lower portions of the first and third storage tanks 26 and 28. A high water level sensor (26c) (28c) and low water level sensor (26d) (28d) by installing the water and non-excavation total repair device using the reverse curing method characterized in that for transferring the condensate to the second storage tank (27). delete The reinforcing tube 12 installed in the inverter 11 enters and expands into the aging pipeline, and the fixing ring 13a of the connecting line 13 installed inside the end of the reinforcing tube 12 is an inverter ( 11 is located on the front of the steam hose 14, the ring 16 of the spray nozzle 15 formed on the front of the coupling ring 13a by coupling the steam hose 14 to the inside of the reinforcement tube 12 Reinforcing tube installation step of moving;
The first steam line 24 connected to the steam hose 14 is connected to the boiler 22 installed in the steam supply vehicle 21 to supply steam to the reinforcement tube 12, and formed in the steam hose 14. Steam is injected through the plurality of injection holes 14a and the injection holes 15a formed on the front surface of the injection nozzle 15 to cure the reinforcing tube 12 for 1 hour, and the condensed water circulation connected to the boiler 22 is circulated. A first reinforcement for connecting the end of the steam recovery line 25 to the device 23, the other end of the steam recovery line 25 is connected to the inverter 11 to recover the steam inside the reinforcement tube 12 Tube curing step;
When the primary curing of the reinforcing tube 12 is completed, the condensate recovery line 31 formed between the steam recovery line 25 and the first steam line 24 of the condensate circulation device 23 operates to steam The condensate collected on the bottom surface of the reinforcing tube 12 is recovered through the steam hose 14 while the steam supplied to the hose 14 is blocked, and stored in the condensate circulator 23, and the inverter 11 The second steam line 32 formed between the steam recovery line 25 and the first steam line 24 to operate the valve to supply steam to the inside of the inverter 11 to reinforce the tube 12. A second reinforcing tube curing step of curing for 1 hour; And
The control means 40 controls a plurality of valves 41, 42, 43, 44 formed in the first and second steam lines 24, 32, the steam recovery line 25, and the condensate return line 31. By controlling by) to quickly cure the reinforcement tube 12,
The control means 40 is a steam hose connected to the first steam line 24 in a state in which the valves 43 and 44 of the second steam line 32 and the condensate return line 31 are blocked. 14) by supplying steam to harden the reinforcement tube (12) for 1 hour primarily, and recovers the steam inside the reinforcement tube (12) through the inverter (11) connected to the steam recovery line (25) to condensate Steam hose connected to the condensate return line 31 while the steam is transferred to the circulator 23 and the valves 41 and 42 of the first steam line 24 and the steam recovery line 25 are blocked. The condensate is recovered through 14 and transferred to the condensate circulator 23, and steam is supplied through the inverter 11 connected to the second steam line 32 so that the reinforcing tube 12 is secondary. A control step of curing for a time;
Water and sewage unexcavated whole repair method using a reverse curing method comprising a. The method of claim 6,
A plurality of injection holes 15a are formed on the front circumferential surface of the injection nozzle 15 to inject steam by a distance from the end of the reinforcement tube 12 by the connecting line 13 to the reinforcement tube 12. Water and sewage unexcavated whole repair method using the reverse curing method characterized in that the hardening. The method of claim 6,
The condensate circulator 23 includes a first storage tank 26 to which the steam recovery line 25 is connected, and a second storage tank 27 and a third storage side to the side of the first storage tank 26. Install storage tank 28,
A steam circulation coil 27a is formed at an inner upper portion of the second storage tank 27, and first connection lines 27b are formed at both sides of the steam circulation coil 27a to form a first storage tank 26. And connected to the upper portion of the third storage tank 28, the steam introduced into the first storage tank 26 is moved to the third storage tank 28 to heat the water stored in the second storage tank 27, The second connection line 27c is connected to the lower sides of the first storage tank 26 and the third storage tank 28 on both lower sides of the second storage tank 27 to the inside of the second storage tank 27. Water and sewage non-excavation overall repair method using a reverse curing method, characterized in that to transfer the condensate, and to connect the second storage tank 27 to the boiler 22 and the condensate supply line 29 to supply the heated condensate. The method of claim 8,
The first and third storage tanks 26 and 28 are provided with motors 26a and 28a and pumps 26b and 28b, respectively, in the upper and lower portions of the first and third storage tanks 26 and 28. A high water level sensor (26c) (28c) and a low water level sensor (26d) (28d) is installed, characterized in that to transfer the condensate water to the second storage tank 27, water and sewage non-excavation overall repair method using the reverse curing method. delete

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