KR101254464B1 - Non-digging sewerage mending apparatus and its manufacturing method - Google Patents

Abstract

PURPOSE: A water supply and drainage non-excavating pipeline repairing apparatus and a method are provided to externally inject air into an air tube formed inside a reversing unit in order to seal the inside of the reversing unit, thereby separating a vehicle from the reversing unit when hardening a reinforcing tube. CONSTITUTION: A water supply and drainage non-excavating pipeline repairing apparatus includes a reversing unit(10). The reversing unit includes a housing(11), a tube fixing unit(13), and a sealing member(20). The housing is coupled to and de-coupled from a connecting member connected to a vehicle on which a reinforcing tube(2) is mounted. A connecting flange is formed at the upper side of the housing. The tube fixing unit is formed at the lower side of the reversing unit, and the reversed reinforcing tube is fixed to the tube fixing unit. Outside air is injected into an air tube(21) inside the housing, and the air tube is expanded so that the sealing member can seal the inside of the housing.

Description

Non-digging Sewerage Mending Apparatus and its manufacturing method

The present invention relates to a water supply and sewage non-drilling pipeline repairing and construction method, and more particularly, to improve the structure of the reversing device to move the vehicle in the reversing device in the reinforcing tube curing operation using the reversing device to completely harden the reinforcing tube. The present invention relates to a water supply and sewage non-drilling pipeline repair and construction method that can shorten the time that vehicles occupy roads and alleys until now.

Various water supply and sewage pipes buried in the ground gradually age over time. In the case of water supply pipes, corrosion occurs, enormous amounts of water leaks, drinking water is contaminated by inflow of green water, and cracks occur in sewage pipes. As a result, sewage flows out of the pipeline and contaminates the living environment such as soil and groundwater.

As described above, in repairing an old buried pipeline in which cracks are damaged, a non-excavated pipeline repair method does not dig a ground, and inserts a reinforcement tube into an old buried pipeline in which cracks are generated to form a new composite pipe in a sewer pipe. As a construction method, road repair work is unnecessary, and thus, it is a repair device and construction method having many advantages in terms of workability, reliability, and economy.

In general, a non-excavated pipeline repair device is a method of inserting and fixing a reinforcement tube formed of a waterproof coating layer or a film layer and an adhesive resin impregnated felt layer into an old buried pipe. The adhesive resin impregnated felt layer is placed inside and the waterproof coating layer is placed on the surface. In one state, the reinforcing tube is inverted into the buried pipe so that the adhesive resin impregnated felt layer, which was the inner surface, is inverted to the surface and adhered to the inner wall of the buried pipe, and the reinforcing tube is coated on the inner wall of the buried pipe.

The non-excavated pipeline repair device uses hydraulic pressure inversion to reverse the reinforcement tube using hydraulic pressure, and air pressure reversal using air pressure, and hydraulic and pneumatic reversal device using water pressure and air pressure. In general, the reinforcement tube is reversed using water pressure and air pressure. In the manner of entering and fixing to the buried pipe,

Conventional apparatus for reversing the reinforcement tube by installing a water supply tower in which the inlet of the reinforcement tube is fixed to a predetermined height above the manhole for the head to apply the reverse hydraulic pressure to the reinforcement tube, and installs a tower structure of a substantial height for maintaining the sour The water pressure generated by the weight of the water is increased by raising the position of the water drop, that is, the position of the head, to invert the reinforcement tube. To this end, the water supply tower is supported, and the water supply pipe, the discharge pipe, etc. It is using a device to install a large scale of the tower structure, which is the ladder of workers for drainage and work progress.

On the other hand, the inverting device combined with the inverting tank installed in the cargo compartment of the vehicle also inverts the reinforcement tube using a variety of devices and techniques, looking at the example, the reinforcement tube formed inside the inversion tank to the inside of the water and sewage pipe and To harden, install a separate inverter on the back of the inversion tank to adjust the angle of the inverter or move the inverter to invert the reinforcement tube, and insert the reinforcement tube directly into the water supply and drainage pipe from the inversion tank. Among the methods of reversing the reinforcement tube, and the method of forming a connecting tube in the reversing tank to invert the reinforcing tube into the inside of the connecting tube has been variously constructed according to the working conditions.

Conventionally, in the case of the inverting device using the tower structure, the tower structure reaches a height of 7 to 8 m and requires excessive material and manpower for installation and withdrawal work, and it is inferior in workability. There is a dangerous situation, and since the structure can be dismantled after reversing and hardening of the reinforcing tube is completed, there is a serious problem with traffic obstacles due to the occupying the installation space and difficulty in moving equipment.

In addition, there is a problem in that a large amount of water is required because the reinforcing tube has to be inverted at the same time to fill the water for maintaining the head of the 7 ~ 8m height.

In the case of an inverting device using a reversing tank, the reinforcing tube is inverted by supplying compressed air to the inside of the reinforcing tube. If the internal air pressure of the reinforcing tube cannot be maintained even after the reinforcing tube is inverted, the reinforcing tube is hit As the cause of defect occurs, it is impossible to separate the vehicle from the reversing device until the hardening work is completed, and the barrier tank is formed by supplying water inside the reinforcing tube by the existing method of separating the reversing tank. Maintains proportional pressure and separates and hardens the reversing vehicle. It takes a separate water wheel for water supply and the time and expense of putting water in and out, and it does not block the pressure inside the reinforcement tube. Compressor operation rate is increased by exiting and it takes more noise and time than necessary. There is a problem in that the construction cost as a whole.

Moreover, because the vehicle cannot be moved until the hardening of the reinforcing tube is completed, the longer the vehicle occupies the roads and alleys, the more damage is caused to pedestrians, and if the alleys are narrow, the work is completed. There is a problem that must block the passage of passers-by.

The present invention is to solve the above-mentioned conventional problems, an object of the present invention is to improve the structure to simplify the movement and handling of the reversing device for inverting and curing the reinforcement tube with water and sewage pipes, and the external Air inflating air tube expands to form airtight member to seal the inside of the reversing device so that the air pressure inside the reinforcing tube can be prevented from leaking to the outside during hardening of the reinforcing tube. To provide.

Another object of the present invention is to connect and disconnect the connecting member connected to the vehicle equipped with the reinforcement tube on the connection flange formed on the upper portion of the reversal apparatus when injecting air into the air tube during the curing operation of the reversing apparatus As the inside of the housing is sealed, the connecting member can be separated from the connecting flange to harden the reinforcing tube while moving the vehicle equipped with the reinforcing tube, thereby reducing the time the vehicle occupied the roads and alleys. It is to provide a water and sewage non-excavated pipeline repair device.

Still another object of the present invention is to maintain a constant internal air pressure of the reinforcing tube by injecting air into the air inlet of the housing to maintain a constant pressure inside the reinforcing tube during the operation of sealing the inside of the housing of the inverter with an air tube It is to provide a water and sewage non-excavated pipeline repair device to prevent the bad factors that the reinforcing tube is struck in advance.

Still another object of the present invention is to omit the work to be filled with air from the vehicle to the inverter in the prior art to prevent the operation is interrupted by overloading the compressor installed in the vehicle, and further to fill the air pressure from the vehicle to the inverter In order to solve the problem of delayed hardening work of reinforcement tube and increase of construction cost, it is necessary to supplement air pressure continuously as air pressure leaks to the outside. To provide.

In order to achieve the object of the present invention as described above, the water and sewage non-excavation pipe repair apparatus according to the present invention is inserted into the interior of the water reinforcement tube in the water and sewage pipe, and then the water and sewage non-excavated pipe repair to invert and cure the reinforcement tube In the apparatus, the inside of the housing is hollow so that one end of the reinforcing tube can be inserted therein, forming a tube fixture on the bottom of the housing to turn the end of the reinforcing tube upside down to fix the air tube inside the housing. Inverting device is formed to face to form an airtight member for sealing the inside of the housing as the air tube is expanded by the external air injection, the air inlet is formed on the lower side of the housing to maintain the internal air pressure of the housing Characterized in that it comprises a.

According to the present invention as described above, it is possible to combine and disconnect the connecting member and the inverting device connected to the vehicle equipped with the reinforcement tube, the air tube formed inside the inverting device is the inside of the inverting device by external air injection It is an invention that has the effect of separating the vehicle from the inversion device during the hardening of the reinforcement tube by sealing the.

The present invention is an invention that has the effect of reducing the construction cost by reducing the overall work time by omitting the operation to maintain a constant state of the internal air pressure of the reinforcing tube in the conventional continuous supply of air from the vehicle to the inverting device.

The present invention is to reduce the time the vehicle occupied the road and alleys in the reversing device during the hardening of the reinforcement tube to solve the problem of causing damage to pedestrians, and work in narrow alleys It is an invention that can solve the problem of blocking the passage of passers-by until the city work is completed.

The inverting apparatus of the present invention has an effect that the air tube of the airtight member to tightly seal the inside of the housing by injecting air into the air valve, and in the case of some air leak in the process of inflating the air tube in the lower part of the housing By supplying air to the formed air inlet, the internal pressure of the reinforcement tube is always maintained at a constant state, thereby preventing the defect that the reinforcement tube is struck when the reinforcing tube is hardened.

The inverting device of the present invention is an invention that has an effect of reducing the cost of the product by minimizing the overall size and easy to move and handle, in particular to improve the productivity by standardizing the inverting device.

1 is a partial cross-sectional view showing a construction state using the inverting device of the present invention.
Figure 2 is a partial cross-sectional view showing a state in which the connection member and the vehicle separated from the reverse device of the present invention.
3 is a cross-sectional view of the inverting device of the present invention.
Figure 4 is a cross-sectional view showing a state in which air is injected into the air tube formed inside the inverting device of the present invention.

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

1 to 4, a connection flange 12 is formed on an upper portion of the housing 11 that is coupled to the connection member 30 connected to the vehicle 1 on which the reinforcement tube 1 is mounted. The lower part of the tube fixture 13 is formed so that the reinforcement tube 2 is fixed upside down, and the air tube 21 is expanded by the external air injection into the inside of the housing 11 to open the inside of the housing 11. It consists largely of the reversing apparatus 10 in which the airtight member 20 which seals is formed.

The reversing device 10 into which the reinforcing tube 2 is inserted and fixed is provided with a connecting flange (top) while the inside of the housing 11 is hollow so that the reinforcing tube 2 can penetrate the inside of the housing 11. 12 is formed, the lower part of the tube fixture 13 is integrally formed so that the end of the reinforcing tube 2 is fixed upside down to the tube fixture 13, the connection flange 12 is connected to the vehicle (1) The connecting member 30 is coupled so that the reinforcement tube 2 is smoothly inverted along the inside of the reversing apparatus 10.

The housing 11 is located above the water and sewage pipe so that the air supplied from the vehicle 1 is supplied into the housing 11 along the connection member 30 and the reinforcement tube 2 is along the inside of the water and sewage pipe. When the reversal operation is made and the reversal operation of the reinforcement tube 2 is completed, the structure of the reversal apparatus 10 is improved to separate the connection member 30 and the vehicle 1 from the upper portion of the housing 11. The protrusion 14 is formed to protrude outward from the middle portion of the housing 11, and an air injection space 15 is formed inside the protrusion 14, and the air injection space portion ( An airtight member 20 is formed in the interior of the housing 11 so that the front surface of the airtight is sealed. The airtight member 20 is expanded by external air injection and air is sealed to seal the inside of the housing 11. One end of the air tube 21 is disposed at both inner ends of the injection space 15. The air valve 16 is formed on one side of the protrusion 14 so as to inject air into the air tube 21, and the gauge 14 is provided on the opposite side of the air valve 16. 17 is formed to check the air pressure injected into the air tube (21).

The air tube 21 is a hot water hose connected to the end of the reinforcing tube (2) while gradually inflating the air tube 21 as the air injected into the air valve 16 is first filled with the air injection space (15) (3) sealing the inside of the housing 11 to enable the hardening of the reinforcing tube (2) while the hardening work of the reinforcing tube (2) in the connection flange 12 of the housing 11 in the connecting member ( When the 30 is separated, the connecting member 30 and the vehicle can be moved, thereby improving the inconvenience of causing damage to pedestrians because the vehicle 1 cannot move until the hardening of the reinforcing tube 2 is completed. can do.

The air tube 21 is formed on the lower side of the housing 11, that is, the upper part of the tube fixture 13 when the air pressure inside the reinforcement tube 2 partially leaks to the outside in the process of sealing the inside of the housing 11. By injecting air into the air inlet 18, the internal pressures of the housing 11 and the reinforcement tube 2 are always maintained at a constant state, thereby preventing construction failures in which the reinforcement tube 2 is struck.

Water and sewage non-excavation pipe repair and construction method according to the present invention configured as described above is constructed as follows.

The vehicle 1 is moved to the water and sewage pipe, and then one end of the connection member 30 is connected to the vehicle 1, and the other end is coupled to the connection flange 12 of the housing 11, and then the reinforcement tube of the vehicle 1 ( The end of 2) is fixed upside down to the tube fixture 13 of the housing 11, and when air is supplied to the inside of the housing 11 installed at the upper portion of the water and sewage pipe, the reinforcing tube 2 moves along the water and sewage pipe and is reinforced. An inversion step in which the hot water hose 3 connected to the end of the tube 2 also moves together;

When the reversal of the reinforcing tube (2) is completed, when the air is injected into the air valve 16 formed in the protrusion 14 of the housing 11, the air tube 21 is expanded and hot water located inside the housing 11 By enclosing the inside of the housing 11 while surrounding the hose 3 to prevent the internal air pressure of the reinforcement tube 2 from leaking to the outside, the connecting member coupled to the connection flange 12 of the housing 11 ( 30 to remove the hot water lake (3) connected to the reinforcement tube (2) in the state of moving the connecting member 30 and the vehicle (1) out of the connecting flange 12 of the housing 11 to connect with the hot water tank When the air is injected into the air inlet 18 formed at the bottom of the housing 11 so that the pressure inside the housing 11 and the reinforcement tube 2 is maintained at a constant state, the pressure inside the reinforcement tube 2 is constant. By maintaining the state, it prevents bad factors that the reinforcing tube (2) is struck in advance to prevent Hardening of the steel tube (2) can be performed, the curing step of curing the reinforcing tube (2) by maintaining the internal air pressure of the reinforcing tube (2) in a constant state and then supplying hot water to the hot water hose (3) Wow,

Here, a hardening cover (not shown) may be installed on the upper portion of the housing 11 in a state in which the internal air pressure of the reinforcing tube 2 is maintained in a constant state, and then hardening may be performed.

When the hardening of the reinforcing tube 2 is completed, the reinforcing tube 2 is cut and then the housing 11 is mounted on the vehicle 1, and the finishing step of moving the equipment.

The reversing apparatus of the present invention minimizes the volume to facilitate movement and handling, and forms an air tube to seal the inside of the housing during curing of the reinforcement tube, thereby separating the connection member from the vehicle and the vehicle to the reinforcement tube. Occupies the alleys until the hardening work is completed to eliminate the inconvenience of passing by the passersby, and to maintain the internal pressure of the reinforcing tubes in a constant state during the hardening of the reinforcing tubes The invention is characterized in that it can solve various disadvantages generated in the process of supplying air.

The above-described water and sewage non-excavation pipe repair and construction method according to the present invention is not limited to the above-described embodiment, and the general knowledge in the field of the present invention without departing from the gist of the present invention as claimed in the following claims. Anyone who has a technical spirit has the technical spirit to the extent that various changes can be made.

1: vehicle 2: reinforcement tube
3: hot water hose 10: inverter
11: housing 12: connecting flange
13: tube fixture 14: protrusion
15: air injection space 16: air valve
17: gauge 18: air inlet
20: airtight member 21: air tube
30: connecting member

Claims (4)

In the water and sewage non-excavated pipeline repair apparatus for inserting the reinforcement tube mounted on the vehicle into the interior of the water supply and sewage pipe, and then inverts and hardens the reinforcement tube,
The inside of the housing 11 is hollow so that one end of the reinforcing tube 2 can be inserted therein, and a connecting flange 12 is formed on the upper portion of the housing 11, and a tube fixture 13 is disposed on the lower portion of the housing 11. Formed by inverting the end of the reinforcing tube (2), and fixed, the middle portion of the housing (11) protrudes to the outside to form an integrally formed protrusion 14, the air injection space 15 formed therein, The air tube 21 is formed to face the front surface of the air injection space 15 so that the air tube 21 is expanded by the external air injection, thereby sealing the inside of the housing 11. Is formed, the air valve 16 and the gauge 17 is formed on one side of the protrusion 14, respectively, to expand and contract the air tube 21, the housing 11 in the upper part of the tube fixture (13) ) And the air inlet 18 to maintain the internal air pressure of the reinforcing tube (2). Water and Wastewater trenchless pipe repair apparatus comprising: a tripping device (10). delete The water and sewage ratio according to claim 1, further comprising a connection member 30 at an upper portion of the connection flange 12 of the housing 11 so as to be connected to the vehicle 1 on which the reinforcement tube 2 is mounted. Excavation pipeline repair device. In the water and sewage non-excavated pipeline repair method of inserting the reinforcement tube mounted on the vehicle into the interior of the water and sewage pipe, and then inverting and hardening the reinforcement tube,
The connecting member 30 is installed between the vehicle 1 on which the reinforcing tube 2 is mounted and the housing 11, and the end of the reinforcing tube 2 is turned over to the tube fixture 13 of the housing 11. Inverting step of fixing and supplying air to the interior of the housing installed on the upper and the sewer pipe, the reinforcing tube is moved along the water and sewage pipe while the hot water hose connected to the end of the reinforcing tube is also moved together;
When the reversal of the reinforcing tube (2) is completed, when the air is injected into the air valve 16 formed in the protrusion 14 of the housing 11, the air tube 21 is expanded and hot water located inside the housing 11 By enclosing the inside of the housing 11 while surrounding the hose 3 to prevent the internal air pressure of the reinforcement tube 2 from leaking to the outside, the connecting member coupled to the connection flange 12 of the housing 11 ( 30 to remove the hot water lake (3) connected to the reinforcement tube (2) in the state of moving the connecting member 30 and the vehicle (1) out of the connecting flange 12 of the housing 11 to connect with the hot water tank When the air is injected into the air inlet 18 formed at the bottom of the housing 11 so that the pressure inside the housing 11 and the reinforcement tube 2 is maintained at a constant state, the pressure inside the reinforcement tube 2 is constant. By maintaining the state to prevent the bad factors that the reinforcement tube (2) is struck in advance, the reinforcement tub Was maintained at a constant internal pressure in the (2) The curing step by supplying hot water to the hot water hose (3) curing the reinforcing tube (2); And
When the hardening of the reinforcing tube (2) is completed, cutting the reinforcing tube (2) and then mounting the housing 11 to the vehicle (1) finishing step of moving the equipment; water and sewage non-excavation, characterized in that consisting of Pipeline Repair Method.

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