KR102223530B1 - 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 non-excavation full repair apparatus for water and sewage using a ring bit vacuum suction device and a repair method thereof and, more specifically, to a non-excavation full repair apparatus for water and sewage using a ring bit vacuum suction device and a repair method thereof which shorten tube hardening time. While waterproof arm warmers made of a wear-resistant rubber material are fixed in a connection member formed on a reversing machine to seal the inside of the connection member, the arms and hands of a worker are inserted into the waterproof arm warmers to couple a connection ring of a first steam hose to a fixing ring positioned on the end of a tube to move to the end of a pipe and supply steam of a boiler to a second steam hose to perform tube hardening work. At the same time, a ring bit vacuum suction device and a condensate water recovery device are connected to the first steam hose to vacuum-suck waste steam and condensate water in the tube to effectively circulate the steam to shorten the tube hardening time.

Description

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

The present invention relates to a whole water and sewage repair system and a repair method using a ring bit vacuum suction device, and more particularly, to seal the inside of the connection member by fixing a waterproof shell made of abrasion-resistant rubber material inside the connection member formed in the inverter. In this state, the operator's arm and hand are inserted into the waterproof tank, and the connection ring of the first steam hose is coupled to the fixing ring located at the end of the tube, and it moves to the end of the pipe, and the steam from the boiler is supplied to the second steam hose. A ring bit that facilitates steam circulation by connecting the ring bit vacuum suction device and the condensed water recovery device to the first steam hose and vacuuming the waste steam and condensed water inside the tube to facilitate steam circulation and promote tube curing time. It relates to a total repair system and repair method for non-drilling water and sewage using a vacuum suction device.

As urbanization progressed, various pipes including water and sewage pipes were buried underground, and gradually aging and defective pipes occurred over time.

As a result, water and sewage leaks and drinking water pollution occur, and gas leaks have made it an important issue to repair old pipes.

As an alternative to increasing social loss costs such as enormous construction costs and traffic congestion, the occurrence of safety accidents, and environmental problems during repair, the entire non-excavation water and sewage system repair method was developed to repair water and sewage pipes, so there are many construction methods in Korea. Designated as this new technology, it has been actively applied to the Han River water system water supply and sewage maintenance project and the water and sewage maintenance rental type private investment project (BTL).

Non-drilling water and sewage system and repair method are used to impregnate the cut tube with curable resin in accordance with the length of the repair pipe and the allowance for each construction method, and insert the tube invertedly while pushing water into the pipe while maintaining the pressure of the tube using an inverter. After that, heat is applied to harden it, and the process is terminated by finishing both ends and perforating the connecting pipe.

Patent Registration No. 10-2064714 of Patent Document 1 The whole water and sewage non-drilling maintenance device and construction method using the reverse hardening method is to maintain the pressure by reversing the reinforcing tube 12 installed in the inverter 11 into the inside of the old pipe. It enters and expands into the inside of the pipe, and couples the ring 16 of the injection nozzle 15 to the fixing ring 13a of the connection string 13 installed inside the end of the reinforcing tube 12, and the injection nozzle 15 ) Reinforcing tube reversing means (10) having a second steam hose (28) installed at the rear of the; The first steam line connected to the condensed water recovery device 23 and the boiler 22 is installed in a steam supply vehicle 21 that supplies steam to the second steam hose 28, and connected to the boiler 22 ( 24) is connected to the second steam hose (28) to supply steam to the reinforcing tube (12), and the steam recovery line (25) connected to the condensed water recovery device (23) is connected to the inverter (11) for reinforcement. A first reinforcing tube hardening means 20 for recovering steam inside the tube 12; A condensed water recovery line 31 is formed between the steam recovery line 25 connected to the condensed water recovery device 23 and the first steam line 24 to block the steam supplied to the second steam hose 28. In the state, the condensed water accumulated on the bottom of the reinforcing tube 12 is recovered through the second steam hose 28 and stored in the condensed water recovery device 23, and the steam recovery line 25 connected to the inverter 11 A second reinforcing tube hardening means 30 for hardening the reinforcing tube 12 by forming a second steam line 32 between the first steam line 24 and supplying steam to the inside of the inverter 11 ; And a plurality of valves 41, 42, 43 and 44 installed in the first and second steam lines 24 and 32, the steam recovery line 25, and the condensed water recovery line 31, 2Reinforced by supplying steam to the second steam hose 28 connected to the first steam line 24 with the valves 43 and 44 of the steam line 32 and the condensate recovery line 31 blocked. The tube 12 is firstly cured for 1 hour, and the steam inside the reinforcing tube 12 is recovered through the inverter 11 connected to the steam recovery line 25, and the steam is transferred to the condensate recovery device 23. Condensed water is transferred through the second steam hose 28 connected to the condensate recovery line 31 in a state where the valves 41 and 42 of the first steam line 24 and the steam recovery line 25 are blocked. A control means that recovers and transfers it to the condensate recovery device 23, and supplies steam through the inverter 11 connected to the second steam line 32 to cure the reinforcing tube 12 for one hour. (40); consists of.

Patent Document 1 shows the configuration and drawing of moving the steam hose into the inside of the inverter and coupling the ring formed in the steam hose to the fixing ring coupled between the connecting string and the reinforcing tube to move the steam hose into the inside of the pipe. , Due to the difficulty of fixing the loop of the steam hose while maintaining the pressure in the limited internal space of the fixing ring, most of the internal air of the inverter is removed and the flange connected to the inverter is separated, so that the operator enters the inside of the inverter and the steam hose ring There is a cumbersome problem that must be fixed to the fixing ring.

In the process of separating the flange of the inverter in order to couple the ring of Patent Document 1 and the conventional steam hose to the fixing ring, when air inside the inverter is removed, water enters the water supply and sewage pipes and a water pocket occurs. There is a problem in that air pockets are created inside the tube when the air inside the electricity is removed and air is injected again.

The work of fixing the conventional steam hose ring to the fixing ring is a problem that the operator must manually install inside the inverter, which takes a long time to work, and the steam hose ring is fixed to the fixing ring after removing the internal pressure of the inverter. After that, there is a cumbersome problem in that the flange must be recombined and air inside the inverter must be supplied.

Patent Document 1 describes the problem of taking a long working time due to the overload of the motor because the condensed water accumulated on the bottom of the reinforcing tube is sucked using a motor. There is a problem in that the overall working time is long since the work of hardening the reinforcing tube and the work of suctioning and reusing the condensate cannot be performed at the same time.

Republic of Korea Registered Gazette No. 10-2064714

The present invention is to solve the above-described conventional problem, and an object of the present invention is to insert the first and second steam hoses into the steam hose supply unit installed at the top of the inverter, so that the first steam hose is waterproof of the connecting member installed in the inverter. The operator's arm and hand are inserted into the torso, and the connection ring of the first steam hose is easily coupled to the fixing ring located at the end of the tube and moves to the end of the pipe, and the second steam hose is inserted into the inside of the pipe to insert the tube. At the same time, a ring bit vacuum suction device that accelerates the tube curing time by connecting a ring bit vacuum suction device and a condensed water recovery device to the first steam hose while curing and reusing the waste steam and condensate inside the tube to smoothly discharge the waste steam and condensate water is provided. It is to provide a total repair device for non-drilling water and sewage used.

Another object of the present invention is to fix the rim of the waterproof tosh between the flange of the connecting member installed in the inverter and the fixing flange to keep the inside of the connecting member sealed, and to half the forearm and finger parts formed integrally with the waterproof tosh. It is inserted into the electrical interior so that the operator can use it.When the waterproof tosh is not in use, it uses a ring bit vacuum suction device to make the use and storage of the waterproof tosh easy by pulling the finger to keep it over the outer side of the fixing flange. It is to provide a whole repair system for water and sewage.

Another object of the present invention is to form the steam hose supply unit installed in the inverter to quickly insert the first and second steam hoses into the inside of the inverter, and to maintain the airtight state of the steam hose supply unit by the first and second airtight frames. The airtight plate is installed inside the first and second airtight frames, and the handle combined with the connecting rod is moved so that the airtight plate seals or opens the inside of the steam hose supply unit to prevent the internal air and steam of the inverter from escaping to the outside. It is to provide a total repair device for non-drilling water and sewage using a ring bit vacuum suction device to prevent.

Another object of the present invention is to form internal confirmation windows on both sides of the inverter, and the operator visually confirms that the reversing rope connected to the end of the tube and the fixing ring move into the inside of the inverter. It is to provide a water and sewage non-drilling total repair device using a ring bit vacuum suction device that allows the connection ring to be connected to the fixed ring.

Another object of the present invention is to cure the tube by steam supplied from the second steam hose inserted in the inlet direction of the tube, and at the same time, close the tube through the holes of the first steam hose that have moved to the end of the tube. Water and sewage using a ringbit vacuum suction device that vacuum suctions steam and condensate using a ringbit vacuum suction device and sends it to the condensate recovery device, and reuses the waste steam and condensate passed through the condensate recovery device to shorten the tube hardening time. It is to provide repair equipment for the entire excavation.

Another object of the present invention is to rapidly suck waste steam and condensate by vacuum suction using a ringbit vacuum suction device to prevent accidents in which work is frequently interrupted in the process of suctioning condensate water using a conventional motor pump. It is to provide a whole water and sewage non-excavation repair device using a ring bit vacuum suction device that can be recovered easily.

Another object of the present invention is a condensate recovery device is a ring-bit vacuum capable of reducing carbon dioxide generation and energy fuel by reducing boiler operation time by heating and reusing water in a second tank using waste steam heat having thermal energy. It is to provide a whole repair method for non-drilling water and sewage using a suction device.

In order to achieve the object of the present invention as described above, the whole water and sewage repair apparatus using the ring bit vacuum suction device according to the present invention forms internal confirmation windows on both sides of the inverter, and is formed at the top of the internal confirmation window. A waterproof sleeve is installed inside the connecting member to seal the inside of the connecting member, and the first and second steam hoses are inserted into the steam hose supply unit formed on the side of the connecting member to be transferred to the inside of the pipeline, and the inside of the inverter Tube reversing means for entering and expanding the tube installed in the inside of the pipeline; A steam hose that inserts the operator's hand and arm into the waterproof torso and connects the connection ring of the first steam hose to the fixing ring of the inverting rope installed at the end of the tube, and transfers the tube and the second steam hose to the end of the pipe. Transfer means; And connecting the second steam hose with a boiler installed in the steam supply vehicle to supply steam to the second steam hose to cure the tube, and connecting the ring bit vacuum suction device connected to the first steam hose with the condensate water recovery device. Tube hardening means for accelerating the tube hardening time by suctioning and circulating waste steam and condensed water inside the tube; It characterized in that it comprises a.

The connection member of the present invention forms a connection pipe on the side of the inverter, integrally forms a flange at the end of the connection pipe, and bolts a fixing flange to the flange, between the flange and the fixing flange. It is characterized in that the inside of the connecting member is sealed by intimate contact with the edge of the waterproof toshi, and the waterproof toshi is inserted into the inside of the inverter by integrally forming the forearm and the finger.

The steam hose supply unit of the present invention installs a first connection pipe on the side of the connection member, integrally forms a first flange on the upper end of the first connection pipe, and includes a plurality of second flanges on the upper end of the first flange. A plurality of bolts by fixing with bolts of, extending a second connection pipe to the upper end of the second flange to form a third flange, and installing first and second airtight frames formed in a plate shape at the center of the second connection pipe. And the first and second airtight frames extend long in one direction so that the airtight plate installed therein slides forward/rearward, but the airtight plate slides inside the first and second airtight frames Assembly in which the inside of the second connecting pipe is sealed or opened, the connecting rod and handle are installed on the front surface of the airtight plate to move the airtight plate, and the first and second steam hose supply pipes are integrally formed at the upper end of the third flange The flange is fixed with a plurality of bolts, and the first and second steam hoses are inserted into the first and second steam hose supply pipes.

In the first and second steam hose supply pipes of the present invention, first and second steam supply pipes are formed at the upper end of the assembly flange, and the first and second steam hoses are inserted therein, and a plurality of heat-resistant elasticity is provided in the first and second steam supply pipes. The packing and washers are inserted to press-fit the circumferential surfaces of the first and second steam hoses, and the first and second steam hoses inserted into the first and second steam hoses are inserted into the first and second steam hoses by installing tightening nuts on the upper ends of the first and second steam supply pipes. It is characterized in that it is fixed to the supply pipe.

The tube curing means of the present invention installs a boiler, a ring bit vacuum suction device, and a condensed water recovery device in the steam supply vehicle, supplies steam to a second steam hose connected to the boiler to cure the tube, and the first steam hose A first tank is installed on the side of the condensate recovery device connected to and transports steam to the first tank through the first connection line, and a second connection line is formed at the top of the first tank to be installed inside the second tank. The steam circulation coil is connected to the steam circulation coil, and the steam circulation coil is bent in a zigzag manner and the end is connected to the second tank to heat water using waste steam, and the first solenoid valve is operated at the bottom of the first tank. By forming a condensate tank for storing condensed water, and forming a second solenoid valve and a compressed air supply pipe on the side of the condensate tank to reuse condensed water, and the second tank is connected to a third connection line to heat the boiler. It is characterized in that to supply.

Since the solenoid valve of the first tank of the present invention is normally open, when waste steam and condensed water are transferred to the first tank, the condensed water having a large specific gravity goes down and is stored in the condensate tank, and the condensate stored in the condensate tank is the first solenoid valve. When closed and the second solenoid valve is opened, condensed water is reused by compressed air supplied to the compressed air supply pipe.

The ring bit vacuum suction device of the present invention vacuum-suctions waste steam and condensate by connecting to a first steam hose to a suction pipe formed at the bottom, and the waste steam and condensate sucked into the inside of the ring bit vacuum suction device is a suction pipe. It is characterized in that it is transferred to the condensate recovery device by compressed air supplied from the compressed air injection nozzle installed on the upper side of the.

According to the present invention as described above, the present invention inserts the first and second steam hoses into the steam hose supply unit installed in the reversing unit, and is provided to the steam hose supply unit to prevent leakage of internal air and steam from the inverter to the outside. 1,2 Airtight frames are installed, and the effect of sealing or opening the inside of the steam hose supply unit by the operation of the airtight plate that slides inside the first and second airtight frames, and the first steam inserted into the inside of the inverter. The effect of being able to easily couple the connection ring of the hose to the fixing ring located at the end of the tube using the waterproof sleeve installed on the connection member, and the condensate can be reused by using the first and second steam hoses and the condensate recovery device. There is an effect that can shorten the hardening work time.

The present invention is effective in preventing leakage of internal air of the inverter to the outside by fixing an edge portion of the waterproofing torso between the flange of the connecting member installed in the inverter and the fixing flange to seal the interior of the connecting member.

The waterproof toshi of the present invention is made of abrasion-resistant rubber material and integrally forms the forearm and the hand so that the arm and hand of the operator can be inserted, and the waterproof toshi is inserted into the inside of the reversing machine or drawn out to the outside of the fixed flange. It has the effect of simplifying the use and storage of waterproof toshi.

The present invention has an effect of forming a steam hose supply unit at the upper end of the inverter to quickly insert the first and second steam hoses into the interior of the inverter while maintaining pressure.

In the present invention, the first and second airtight frames are installed in the center of the steam hose supply unit, and before inserting the first and second steam hoses, the airtight plates that slide inside the first and second airtight frames are moved to reduce the internal air of the inverter. When the inside of the steam hose supply part is opened by moving the airtight plate, the heat-resistant elastic packing coupled to the first and second steam hose supply pipes that fix the first and second steam hoses, and the operation of washers and tightening nuts This has the effect of blocking the leakage of air and steam from the inverter to the 1st and 2nd steam hose supply pipes.

In the present invention, a boiler, a condensate recovery device, and a ring-bit vacuum suction device are installed in the steam supply vehicle to facilitate movement, and the tube is cured by the steam supplied to the second steam hose, and the ring-bit vacuum suction device is operated. By vacuum suction of waste steam and condensed water through the holes of the first steam hose, the condensed water is reused through the condensed water recovery device, and heated water is supplied to the boiler, thereby shortening the tube hardening work time. .

In the present invention, by forming internal confirmation windows on both sides of the reversing machine, the operator visually confirms that the fixing ring connected to the tube and the reversing rope move, thereby simplifying the operation of coupling the connection ring of the first steam hose to the fixing ring. There is an effect that can be performed quickly.

The present invention has the effect of improving the structure of coupling the connection ring of the first steam hose to the fixing ring, and reusing condensed water by using the first and second steam hoses and the condensed water recovery device for curing the tube, and simultaneously recovering heated water. By sending it to the boiler, the boiler operation time can be shortened, thereby reducing carbon dioxide generation and energy fuel.

1 is a front configuration diagram showing the entire combined state of the maintenance apparatus of the present invention.
Figure 2 is a partially enlarged cross-sectional view showing a state of use of the present invention maintenance gloves.
Figure 3 is a partially enlarged cross-sectional view showing a state of use of the present invention steam hose transfer means.
Figure 4 is a front cross-sectional view showing an operating state of the present invention tube curing means.
Figure 5 is a partial enlarged cross-sectional view of the present invention condensate recovery device and ring bit vacuum suction device.
Figure 6 is a cross-sectional view showing a working state of curing the tube of the present invention maintenance apparatus.

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

1 to 6, the present invention connects the inverter 11 to the front of the inversion tank in which the tube 12 is wound, and transfers the tube 12 to the inside of the pipe to proceed with the hardening operation. For this purpose, a connecting member 14 and a waterproof sleeve 15 are installed on the inverter 11, and a steam hose supply unit 21 is formed on the upper end of the inverter 11 to form the first and second steam hoses 27 ( 28) to insert the tube reversing means 10 and the connecting ring 27a of the first steam hose 27 to the fixing ring 12b of the reversing rope 12a moving along the tube 12 For this purpose, a connection member 14 is installed on the inverter 11, and the operator's hand and arm are inserted into the waterproof torso 15 coupled to the inside of the connection member 14, and the first steam hose ( The steam hose transfer means (20) for holding the connection ring (27a) and transferring it to the inside of the pipe by fixing the connection ring (27a) to the fixing ring (12b), and supplying the steam from the boiler (32) to the second steam hose (28). Tube curing means (30) for reusing condensed water by vacuum suction of waste steam and condensed water through a ring bit vacuum suction device 33 and a condensate recovery device 34 connected to the first steam hose 27 while curing the tube 12 ).

Tube reversing means 10 for entering and expanding the tube 12 into the inside of the pipe, by forming internal confirmation windows 13 on both sides of the inverter 11 at the ends of the tube 12 to be described later. It is confirmed that the located reversing rope 12a and the fixing ring 12b pass through the internal confirmation window 13 so that the connecting ring 27a of the first steam hose 27 can be coupled, and the internal confirmation window ( 13), a connection member 14 is formed at the upper end of the connection member 14, the connection member 14 forms a connection pipe 14a on the side of the inverter 11, and a flange ( 14b) is integrally formed, and the rim portion 16 of the waterproof toshi 15 is in close contact with the upper end of the flange 14b, and then a fixing flange 14c is installed and fixed with a plurality of bolts (B). The connection member 14 is kept in a sealed state by 15, and the waterproof torso 15 is made of a wear-resistant rubber material, and the forearm 17 and the finger 18 are integrally formed to form a connecting member. (14) The inside is sealed to prevent leakage of air and steam inside the inverter 11 to the outside, and a steam hose supply unit 21 is formed on the side of the connecting member 14, and the steam hose supply unit ( 21) installs a first connector 21a on the side of the connection member 14, integrally forms a first flange 21b on the upper end of the first connector 21a, and the first flange The second flange 21c is fixed to the upper end of (21b) with a plurality of bolts (B), and the third flange 21e is extended by extending the second connector 21d to the upper end of the second flange 21c. Formed, and fixed with a plurality of bolts (B) by installing the first and second airtight frames 26 and 26a formed in a plate shape in the center of the second connection pipe 21d, and fixing the first and second airtight frames ( 26) (26a) is extended in one side direction so that the airtight plate (26b) installed therein slides in the front/rear direction, and the airtight plate (26b) includes the first and second airtight frames (26) (26a). ) By sliding the inside of the second connector (21d) Sealed or open, and a connecting rod (26c) and a handle (26d) are installed on the front surface of the airtight plate (26b) to move the airtight plate (26b), and the first and second steam at the top of the third flange (21e). The assembly flange 22 in which the hose supply pipes 23 and 24 are integrally formed is fixed with a plurality of bolts B, and the first and second steam hose supply pipes 23 and 24 are the assembly flange 22 The first and second steam hoses 27 and 28 are protruded from the top of the top and inserted into the inside, and a plurality of heat-resistant elastic packings 25 and washers are inserted into the first and second steam hose supply pipes 23 and 24. 25a) is inserted to press-fit the circumferential surfaces of the first and second steam hoses 27 and 28, and a tightening nut 25b is installed at the upper end of the first and second steam hose supply pipes 23 and 24. The circumferential surfaces of the first and second steam hoses (27, 28) inserted in the heat-resistant elastic packing (25) are in close contact with the inner wall surface, and the pressure is c-regulated and fixed to the 1,2 steam hose supply pipes (23, 24). And transfer the tube 12 installed in the inverter 11 into the inside of the pipeline.

Tube curing means 30 for supplying steam to the tube 12 to perform curing work, a boiler 32, a ring beat vacuum suction device 33, and a condensed water recovery device 34 to the steam supply vehicle 31. ) Is installed, and the tube 12 is cured by using the steam supplied from the boiler 32 to the second steam hose 28 inserted into the inlet of the pipe, and the first steam hose 27 has a ring bit. By connecting to a suction pipe 33a formed at the bottom of the vacuum suction device 33, the waste steam and condensate are vacuum sucked with a strong suction force, and the waste steam and condensed water sucked into the inside of the ring bit vacuum suction device 33 is a suction pipe. A strong suction force is generated by the compressed air supplied from the compressed air injection nozzle (33b) installed on the upper side of (33a) and transferred to the condensate recovery device (34), and the first tank is located on the side of the condensate recovery device (34). (35) is installed to transfer steam to the first tank 35 through the first connection line 35a, and a second connection line 35b is formed at the upper end of the first tank 35 to form a second tank. (37) The steam circulation coil 36 is connected to the internally installed steam circulation coil 36, and the steam circulation coil 36 is bent in a zigzag manner and the end is connected to the second tank 37 to heat water using waste steam. And, a part of the waste steam is stored in the second tank 37, a first solenoid valve 35c is installed at the lower end of the first tank 35, and the first solenoid valve 35c is normally opened. When the waste steam and condensed water are transferred to the first tank 35, the condensate with a large specific gravity descends and is stored in the condensate tank 38, and the condensate stored in the condensate tank 38 closes the first solenoid valve 35c. When the second solenoid valve (35d) is opened, the condensed water is reused by the compressed air supplied to the compressed air supply pipe (35e), and the second tank (37) is connected to the third connection line (39) and the boiler (32) Heated water is supplied to the tube to accelerate the curing time of the tube.

The entire water and sewage non-drilling maintenance device and the maintenance method using the ring bit vacuum suction device according to the present invention configured as described above operates as follows.

A tube 12 and a reversing rope 12a are wound inside the reversing tank, and the reversing machine 11 installed in the front of the reversing tank is a tube 12 so that the tube 12 can be transferred to the inside of the pipeline. If air is supplied from the reversing tank while the end of) is turned over and fixed, the tube 12, the fixing ring 12b, and the reversing rope 12a move together along the pipeline, and are coupled to the end of the tube 12. A reversing rope (12a) is connected to the fixing ring (12b) to support the tube (12) so that the tube (12) can stably move along the pipeline, and the reversing rope (12a) and the fixing ring (12b) In order to confirm that) passes through the inside of the inverter 11, internal confirmation windows 13 are formed on both sides of the inverter 11, and through the internal confirmation window 13, the inversion rope 12a and the When the fixing ring 12b is visually confirmed, the fixing ring confirmation step of temporarily stopping the moving operation of the tube 12 proceeds.

In the steam hose coupling step of coupling the first steam hose 27 inserted into the inside of the inverter 11 to the fixing ring 12b, the fixing ring 12b and the reversing rope 12a have an internal confirmation window ( 13), the operator inserts the first and second steam hoses 27 and 28 into the first and second steam hose supply pipes 23 and 24 of the steam hose supply unit 21 installed at the top of the inverter 11. However, when the handle (26d) formed in the steam hose supply pipe (21) is pulled, the airtight plate (26b) connected to the connecting rod (26c) slides inside the first and second airtight frames (26) (26a), and the steam hose The inside of the supply pipe 21 is opened to move the first and second steam hoses 27 and 28 into the inside of the pipe, and the connecting ring 27a of the first steam hose 27 inserted into the inside of the inverter 11 ) Is moved to be visible in the internal confirmation window 13, and the operator's hand and arm are inserted into the waterproof tosh 15 of the connecting member 14 installed on one side of the inverter 11, as shown in FIG. When the first steam hose 27 is held using the part 18, the connecting ring 27a is coupled to the fixing ring 12b, and then the tube 12 is transferred, the first steam hose 27 becomes the tube 12 It moves to the end of the pipeline along the line.

In the tube hardening step of hardening the tube 12 by supplying steam to the second steam hose 28, steam is supplied to the second steam hose 28 connected to the boiler 32 as shown in FIGS. When the tube 12 is hardened by supplying it, the hot steam hardens the tube 12, and the lowered steam accumulates on the bottom surface of the tube 12 to form condensate, and this waste steam and condensate are removed. 1 Suction pipe (33a) of the ring bit vacuum suction device (33) connected to the first steam hose (27) is sucked through the holes (27b) formed in the steam hose (27) and moved to the condensed water recovery device (34). When the waste steam and condensate are vacuum sucked, a strong suction force is generated by the compressed air supplied from the compressed air injection nozzle (33b) installed on the side of the ring bit vacuum suction device (33), and the waste steam and condensate are collected in a condensate water recovery device ( 34), and when the waste steam and condensate are transferred to the first tank 35 through the first connection line 35a, the condensate tank 38 through the first solenoid valve 35c formed in the first tank 35 ), and the condensed water stored in the condensate tank 38 is condensed water by compressed air supplied to the compressed air supply pipe 35e when the first solenoid valve 35c is closed and the second solenoid valve 35d is opened. Is reused, and the waste steam sucked into the first tank 35 is removed by heating the water stored in the second tank 37 while moving along the second connection line 35b and the steam circulation coil 36. 2 There is a feature of shortening the operation time of the boiler 32 by supplying heated water to the third connection line 39 connected to the tank 37 and the boiler 32.

The boiler 32 supplies heated steam to the second steam hose 28 so that the tube hardening work and the work of reusing waste steam and condensed water are simultaneously performed, thereby reducing overall working time and construction cost. .

The entire water and sewage non-drilling system and repair method using the ring bit vacuum suction device according to the present invention described above are not limited to the above-described embodiment, and the present invention without departing from the gist of the present invention claimed in the following claims. Anyone with ordinary knowledge in the field to which the invention belongs has the technical spirit to the extent that it can be implemented in various ways.

10: tube inversion means 11: inverter
12: tube 12a: reverse rope
12b: retaining ring 13: internal confirmation window
14: connection member 14a: connector
14b: flange 14c: fixed flange
15: waterproof sleeve 16: rim portion
17: forearm part 18: finger part
20: steam hose transfer means 21: steam hose supply unit
21a: first connector 21b: first flange
21c: second flange 21d: second connector
21e: third flange 22: assembly flange
23: first steam hose supply pipe 24: second steam hose supply pipe
25: heat-resistant elastic packing 25a: washer
25b: tightening nut 26: first airtight frame
26a: second hermetic frame 26b: hermetic plate
26c: connecting rod 26d: handle
27: first steam hose 27a: connecting ring
28: second steam hose 30: tube hardening means
31: steam supply vehicle 32: boiler
33: ring bit vacuum suction device 33a: suction pipe
33b: compressed air injection nozzle 34: condensate recovery device
35: first tank 35a: first connection line
35b: second connection line 35c: first solenoid valve
35d: second solenoid valve 35e: compressed air supply pipe
36: steam circulation coil 37: second tank
38: condensate tank 39: third connection line

Claims (14)

Internal confirmation windows 13 are formed on both sides of the inverter 11, and a connection member 14 is formed on the upper end of the internal confirmation window 13, and the connection member 14 is the inverter 11 A connection pipe (14a) is formed on the side of the connector, a flange (14b) is integrally formed at the end of the connection pipe (14a), and a waterproof tosh (15) is formed between the flange (14b) and the fixed flange (14c). ) Of the rim portion 16 in close contact and coupled with a bolt (B), and the waterproof tosh 15 is inserted into the inside of the inverter 11 to seal the inside of the connecting member 14, and the connecting member 14 ), the first and second steam hoses 27 and 28 are inserted into the steam hose supply unit 21 formed on the side of the pipe and transferred to the inside of the pipe, and the tube 12 installed inside the inverter 11 is transferred to the inside of the pipe. Tube reversing means 10 for entering and expanding the inside of the pipeline;
A fixing ring (12b) of a reversing rope (12a) in which the hand and arm of the operator are inserted into the waterproof tosh (15) and the connecting ring (27a) of the first steam hose (27) is installed at the end of the tube (12) Steam hose transfer means 20 for transferring the tube 12 and the first steam hose 27 to the end of the pipe by being coupled to the tube; And
The second steam hose 28 is connected to the boiler 32 installed in the steam supply vehicle 31 to supply steam to the second steam hose 28 to cure the tube 12, and the first steam hose Tube hardening means 30 for accelerating tube hardening time by vacuum suction and circulation of waste steam and condensed water inside the tube 12 by connecting the ring bit vacuum suction device 33 connected to 27 to the condensed water recovery device 34 ); Water and sewage non-drilling overall repair device using a ring bit vacuum suction device comprising a. The method of claim 1, wherein the waterproof toshi (15) is inserted into the inside of the inverter (11) by integrally forming the forearm (17) and the finger (18). Water and sewage non-drilling overall repair system. The method of claim 1, wherein the steam hose supply unit (21) is provided with a first connection pipe (21a) on a side surface of the connection member (14), and a first flange (21b) on an upper end of the first connection pipe (21a). ) Is formed integrally, and a second flange (21c) is fixed to the upper end of the first flange (21b) with a plurality of bolts (B), and a second connector (21d) is formed at the upper end of the second flange (21c). ) To form a third flange (21e), and install the first and second airtight frames (26) (26a) made of a plate shape in the center of the second connection pipe (21d) to use a plurality of bolts (B). And the first and second airtight frames 26 and 26a extend long in one lateral direction so that the airtight plate 26b installed therein slides in the front/rear direction,
The airtight plate (26b) slides inside the first and second airtight frames (26) (26a) to seal or open the inside of the second connection pipe (21d), and a connection rod on the front surface of the airtight plate (26b) An assembly flange in which the first and second steam hose supply pipes 23 and 24 are integrally formed on the upper end of the third flange 21e by moving the airtight plate 26b by installing the 26c and the handle 26d. (22) is fixed with a plurality of bolts (B), and the first and second steam hoses 27 and 28 are inserted into the first and second steam hose supply pipes 23 and 24. Total repair system for water and sewage non-drilling using ring bit vacuum suction device. The method of claim 3, wherein the first and second steam hose supply pipes (23) (24) are formed with first and second steam hose supply pipes (23) (24) at the upper end of the assembly flange (22). ,2 Steam hoses (27) (28) are inserted, and a plurality of heat-resistant elastic packings (25) and washers (25a) are inserted into the first and second steam hose supply pipes (23, 24) to The circumferential surfaces of the hoses 27 and 28 are press-fitted, and a tightening nut 25b is installed on the upper end of the first and second steam hose supply pipes 23 and 24 to be inserted into the first and second steam hoses ( 27) (28) is fixed to the first and second steam hose supply pipes (23, 24), characterized in that the water and sewage non-drilling whole repair device using a ring bit vacuum suction device. The method of claim 1, wherein the tube curing means (30) is provided with a boiler (32), a ring bit vacuum suction device (33), and a condensed water recovery device (34) in the steam supply vehicle (31), and the second steam The hose 28 is inserted into the pipe to cure the tube 12 using steam supplied from the boiler 32, and the first steam hose 27 is connected to the side of the condensate recovery device 34. A tank 35 is installed to transfer steam to the first tank 35 through the first connection line 35a, and a second connection line 35b is formed at the upper end of the first tank 35 to form a second The steam circulation coil 36 is connected to the steam circulation coil 36 installed inside the tank 37, and the steam circulation coil 36 is bent in a zigzag manner and the end thereof is connected to the second tank 37 to obtain water using waste steam. A condensate tank 38 is formed at the lower end of the first tank 35 to store condensed water by the operation of the first solenoid valve 35c, and a second solenoid valve on the side of the condensate tank 38 (35d) and a compressed air supply pipe (35e) are formed to reuse condensed water, and the second tank (37) is connected to a third connection line (39) to supply heated water to the boiler (32). Total repair system for water and sewage using a ring bit vacuum suction device that does not excavate water and sewage. The method of claim 5, wherein the first solenoid valve (35c) of the first tank (35) is normally open so that when waste steam and condensed water are transferred to the first tank (35), the condensed water having a large specific gravity descends to the bottom of the condensate water. Condensed water stored in the tank 38 and stored in the condensate tank 38 is condensed by compressed air supplied to the compressed air supply pipe 35e when the first solenoid valve 35c is closed and the second solenoid valve 35d is opened. Water and sewage non-drilling overall repair device using a ring bit vacuum suction device, characterized in that to reuse. The ring bit vacuum suction device according to claim 1, wherein the ring bit vacuum suction device (33) is connected to a first steam hose (27) to a suction pipe (33a) formed at the lower end to vacuum suction the waste steam and condensed water, and the ring bit vacuum suction device A ring characterized in that the waste steam and condensed water sucked into the inside of (33) are transferred to the condensed water recovery device (34) by compressed air supplied from the compressed air injection nozzle (33b) installed on the upper side of the suction pipe (33a). Whole water and sewage repair system using bit vacuum suction device. Inverter 11 is installed on the front of the reversing tank in which the tube 12 is wound inside to move the tube 12 into the pipeline, and the tube 12 is moved to the inside of the pipeline through the inverter 11 During the process, if the fixing ring 12b coupled between the tube 12 and the reversing rope 12a enters the inside of the reversing machine 11, the operator checks the fixing ring visually checked through the internal confirmation window 13 step;
When the fixing ring 12b and the reversing rope 12a are visible in the internal confirmation window 13, the first and second steam hoses 27 and 28 are connected to the steam hose supply unit 21 installed at the top of the reversing machine 11. The first steam hose 27 using the finger part 18 by inserting the operator's hand and arm into the waterproof torso 15 of the connecting member 14 installed on one side of the inverter 11 A steam hose coupling step of moving the tube 12 and the first steam hose 27 into the pipe by coupling the holding connection ring 27a to the fixing ring 12b; And
When the second steam hose 28 is connected to the boiler 32 installed in the steam supply vehicle 31 and inserted into the pipe, the tube 12 is cured using the steam supplied from the boiler 32, and the tube Waste steam and condensed water accumulated on the bottom surface of the tube 12 during the curing process are sucked through a plurality of holes 27b formed in the first steam hose 27,
The first steam hose 27 is connected to the ring bit vacuum suction device 33 to vacuum suction waste steam and condensed water, and the compressed air injection nozzle 33b installed on the side of the ring bit vacuum suction device 33 Tube hardening step of supplying steam to the second steam hose 28 by passing the waste steam and condensed water to the condensed water recovery device 34 by the supplied compressed air, the condensed water heated by the waste steam passing through the boiler 32;
Non-drilling whole water and sewage repair method using a ring bit vacuum suction device comprising a. The method according to claim 8, wherein the connection member (14) forms a connection pipe (14a) on the side of the inverter (11), and integrally forms a flange (14b) at the end of the connection pipe (14a), The fixing flange (14c) is coupled to the flange (14b) with a bolt (B), but the rim portion (16) of the waterproof tosh (15) is in close contact between the flange (14b) and the fixing flange (14c) to connect a member (14) A ring bit vacuum suction device, characterized in that the inside is sealed, and the waterproof tosh 15 is inserted into the inverter 11 by integrally forming the forearm 17 and the finger 18 Water and sewage non-drilling whole repair method using using. The method of claim 8, wherein the steam hose supply unit (21) is provided with a first connection pipe (21a) on a side surface of the connection member (14), and a first flange (21b) on an upper end of the first connection pipe (21a). ) Is formed integrally, and a second flange (21c) is fixed to the upper end of the first flange (21b) with a plurality of bolts (B), and a second connector (21d) is formed at the upper end of the second flange (21c). ) To form a third flange (21e), and install the first and second airtight frames (26) (26a) made of a plate shape in the center of the second connection pipe (21d) to use a plurality of bolts (B). And the first and second airtight frames 26 and 26a extend long in one lateral direction so that the airtight plate 26b installed therein slides in the front/rear direction,
The airtight plate (26b) slides inside the first and second airtight frames (26) (26a) to seal or open the inside of the second connection pipe (21d), and a connection rod on the front surface of the airtight plate (26b) An assembly flange in which the airtight plate 26b is moved by installing 26c and the handle 26d, and the first and second steam hose supply pipes 23 and 24 are integrally formed at the upper end of the third flange 21e. (22) is fixed with a plurality of bolts (B), and the first and second steam hoses 27 and 28 are inserted into the first and second steam hose supply pipes 23 and 24. Total repair method for water and sewage non-excavation using a ring bit vacuum suction device. The method of claim 10, wherein the first and second steam hose supply pipes (23) (24) are formed with first and second steam hose supply pipes (23) (24) at the upper end of the assembly flange (22). ,2 Steam hoses (27) (28) are inserted, and a plurality of heat-resistant elastic packings (25) and washers (25a) are inserted into the first and second steam hose supply pipes (23, 24) to The circumferential surfaces of the hoses 27 and 28 are press-fitted, and a tightening nut 25b is installed on the upper end of the first and second steam hose supply pipes 23 and 24 to be inserted into the first and second steam hoses ( 27) (28) is fixed to the first and second steam hose supply pipes (23, 24), characterized in that the water and sewage non-drilling whole repair method using a ring bit vacuum suction device. The method according to claim 8, wherein a boiler (32), a ring bit vacuum suction device (33), and a condensed water recovery device (34) are installed in the steam supply vehicle (31), and the second steam hose (28) is routed into the pipe. The tube 12 is cured using steam supplied from the boiler 32 by inserting, and a first tank 35 is installed on the side of the condensate recovery device 34 connected to the first steam hose 27 to provide steam. Is transferred to the first tank 35 through the first connection line 35a, and a second connection line 35b is formed at the upper end of the first tank 35 to be installed inside the second tank 37 The steam circulation coil 36 is connected to the steam circulation coil 36, and the steam circulation coil 36 is bent in a zigzag manner and the end thereof is connected to the second tank 37 to heat water using waste steam, and the first tank ( A condensed water tank 38 for storing condensed water is formed at the lower end of the first solenoid valve 35c, and a second solenoid valve 35d and a compressed air supply pipe ( 35e) to reuse condensed water, and the second tank 37 is connected to the third connection line 39 to supply heated water to the boiler 32. Water and sewage non-drilling overall repair method. The method of claim 12, wherein the first solenoid valve (35c) of the first tank (35) is normally open so that when the waste steam and condensed water are transferred to the first tank (35), the condensed water having a large specific gravity descends to the bottom of the condensate water. Condensed water stored in the tank 38 and stored in the condensate tank 38 is condensed by compressed air supplied to the compressed air supply pipe 35e when the first solenoid valve 35c is closed and the second solenoid valve 35d is opened. The whole repair method for water and sewage non-drilling using a ring bit vacuum suction device that reuses. The ring bit vacuum suction device according to claim 8, wherein the ring bit vacuum suction device (33) is connected to a first steam hose (27) to a suction pipe (33a) formed at the lower end to vacuum suction the waste steam and condensed water, and the ring bit vacuum suction device A ring characterized in that the waste steam and condensed water sucked into the inside of (33) are transferred to the condensed water recovery device (34) by compressed air supplied from the compressed air injection nozzle (33b) installed on the upper side of the suction pipe (33a). Non-drilling whole repair method for water and sewage using bit vacuum suction device.

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