KR100551665B1 - A drain pipe reinforcement and repair method - Google Patents

Abstract

The present invention relates to a sewer pipe reinforcement repair method, and more specifically, by configuring so that the risk of deformation and fracture due to external impact or ground subsidence does not occur, to ensure the safety and durability of the reinforcement and repair, Simple, re-repairing work is unnecessary, and independent work is possible to secure simplicity, efficiency, and economic efficiency, and sewage pipes can be repaired and reinforcement for damaged stepped pipes regardless of the diameter of sewage pipes. A reinforcing repair method, comprising: a first step of inserting a flexible, flexible material into a repair pipe; A second step of hermetically sealing the expansion pipe and the water conduit with a water expansion index agent; The third step of inserting the pair of corrosion-resistant metal tube and the same intermediate tube of the same material inside the stretch tube to the metal tube to be positioned to both sides of the intermediate tube to ensure the safety and durability of reinforcement and repair In addition, simple work, no need for maintenance work, and independent work can ensure the simplicity, efficiency, and economic efficiency of the work, and can also repair and reinforce the damaged pipe which has a high level of step regardless of the diameter of the sewage pipe. It has an effect.

Description

A drain pipe reinforcement and repair method

1 to 3 show a method for reinforcing and repairing sewage pipes according to an embodiment of the present invention,

1 is a cross-sectional view showing a first process of the present invention.

2 is a cross-sectional view showing a second process of the present invention.

Figure 3 is a cross-sectional view showing a third process of the present invention.

Figure 4 is a longitudinal cross-sectional view showing a close contact state of the metal plate of the present invention.

Figure 5 is a cross-sectional view showing another embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

1: Stretch pipe 2: Water expansion index agent

3,3A: Metal tube 4: Intermediate tube

5: Mesh pipe 100,100A: Repair pipe

200: expander

  210: cylinder 220: pad

  230: support arm

The present invention relates to a sewer pipe reinforcement repair method, and more specifically, by configuring so that the risk of deformation and fracture due to external impact or ground subsidence does not occur, to ensure the safety and durability of the reinforcement and repair, Simple, re-repairing work is unnecessary, and independent work is possible to secure simplicity, efficiency, and economic efficiency, and sewage pipes can be repaired and reinforcement for damaged stepped pipes regardless of the diameter of sewage pipes. It relates to a reinforcement repair method.

In general, partial repairs or frontal repairs, such as cracks in pipe joints, pipe breakage, pipe cracks, etc., should be filled with mortar using epoxy or quickener in case of pipe breakage, and then finished with pipe reinforcement FRP or water repellent. .

However, since the conventional repair method uses cement mortar between the gaps of the joints as described above, there is a risk of deformation or fracture such as re-opening by external impact or ground subsidence. As well as falling, there was a problem that the economic feasibility due to the input of a large number of people due to such renovation.

In addition, in the case of the cement mortar site and FRP or indexing agent, the temperature and the drastic temperature difference due to the sudden drop and drop of the pipe and the resin is not completely adhered to the separation of the work due to the renovation There was a problem of causing inconvenience and inefficiency.

In addition, when the metal plate is used instead of the cement mortar or resin as described above, there is a problem in that it is difficult to reinforce and repair because the stepped pipe is not applicable.

Accordingly, the present invention has been made to solve the conventional problems as described above, the object is to ensure that the risk of deformation and damage due to external impact or ground subsidence does not occur so that the safety and durability of reinforcement and repair It can be secured, simple operation, re-repairing work is unnecessary, and independent work can be secured, and it is possible to secure the simplicity, efficiency and economic efficiency of the work. Reinforcement is to be made together.

In addition, an object of the present invention is to increase the adhesion of the inner metal tube to the flexible tube to ensure the firmness and air tightness of repair and reinforcement.

In order to achieve the object of the present invention, the first step of inserting a flexible tube of flexible material into the repair pipe; A second step of hermetically sealing the expansion pipe and the water conduit with a water expansion index agent; There is provided a sewer pipe repairing method comprising a third step of inserting a pair of corrosion resistant metal tubes and an intermediate tube of the same material so as to position the metal tubes to both sides of the intermediate tube.

In addition, the metal tube and the intermediate tube of the third step is made by rolling the plate body roundly inserted, and the fourth step of expanding the inserted metal tube to the maintenance pipe side inside to be tightly fixed to the stretch tube It is characterized by.

The method may further include inserting a mesh tube having a length corresponding to the stretch tube between the second process and the third process into the stretch tube.

Hereinafter, a repair method according to the present invention will be described in detail with reference to the accompanying drawings.

The present invention is made by the process as shown in Figures 1 to 3, Figure 1 is a cross-sectional view showing a first process of the present invention.

As shown in the present invention, first, the flexible tube 1 formed of a flexible material having flexibility is inserted into a broken portion of a pipeline, and the flexible tube 1 is usually made of a rubber material, It is possible to apply irrespective of the diameter of the repair conduit and has a thickness suitable for reinforcement.

At this time, the insertion of the expansion and contraction tube 1 into the repair conduit is performed by inserting it in a compressed state due to the characteristics of the expansion and contraction tube 1, and then decompressing it again at the damaged position. Both ends of (1) form the form inserted in both repair pipes 100 and 100A of the damage site | part.

2 is a cross-sectional view showing a second process of the present invention.

The second process of the present invention is a process of airtight so that no leakage occurs in the gap between the expansion pipe (1) and the two maintenance pipes (100, 100A) inserted into the damaged repair pipe as in the first process, The water expansion index agent (2) having a property of expanding by absorbed water is to be used, and the water expansion index agent (2) is formed into a ring body along the shape of the stretchable tubular body (1), and this ring body form The water-expandable index agent (2) forming a plurality of grooves is formed along the circumference of the stretchable tubular body (1) by inserting the stretchable tubular body (1) inside the water conduit in a state of being fitted in the groove.

3 is a cross-sectional view showing a third process of the present invention.

The third step of the present invention is a step of inserting and fixing a metal tube capable of supporting the inside of the flexible tube 1 inside the flexible tube 1 sealed by the water expansion index agent 2, wherein the metal tube is an intermediate tube body. It is divided into (4) and a pair of metal tubes (3) (3A), and formed of a corrosion-resistant material, usually stainless steel, and the intermediate tube (4) is a metal tube (3) (3A) of the same width Have a smaller width.

The metal tube (3) (3A) and the intermediate tube (4) is inserted into the expansion tube (1) in a state in which the stainless steel plate is rolled round, it is in close contact with the inside of the expansion tube (1) by its elastic force In order to provide a tighter adhesion, the expander to be described below is used, and after sufficient adhesion, the boundary surface of the rounded stainless plate is fixed to maintain the expanded state.

In this case, the fixing of the boundary surface may be a welding or mechanical locking structure, but is not limited thereto.

Figure 4 is a longitudinal cross-sectional view showing a metal plate in close contact with the present invention.

As shown therein, the expander 200 used in the third process is made by mechanical coupling of the support arm 230 by the hydraulic or pneumatic cylinder 210, and the end side of the support arm 230. As the pad 220 exerts a direct pressure on the metal tube 3 and 3A, the expander 200 is not limited thereto, and thus the detailed configuration and operation thereof will be omitted.

Figure 5 is a cross-sectional view showing another embodiment of the present invention.

As shown therein, the present invention includes a step of inserting a mesh tube 5 having a length corresponding to the stretch tube 1 into the stretch tube 1 between the second process and the third process. By the insertion of the mesh pipe (5) has the advantage of further improving the safety against the risk of deformation and damage due to external impact or ground subsidence.

As described above, by using the construction method so that the risk of deformation and damage due to external impact or ground subsidence is not generated, it is possible to secure safety and continuity of reinforcement and repair. Operation is possible to ensure the simplicity, efficiency, and economics of the work, and there is an effect that can be repaired and reinforcement for the breakage pipeline with a step difference irrespective of the diameter of the sewer pipe.

In addition, the present invention also has the effect of ensuring the tightness and airtightness of the repair and reinforcement by increasing the adhesion of the inner metal tube to the flexible tube.

Claims (3)

A first step of inserting a flexible, flexible material into the repair pipe; A second step of hermetically sealing the expansion pipe and the water conduit with a water expansion index agent; A third step of inserting the pair of corrosion resistant metal tubes and the same intermediate tube of the same material into both sides of the intermediate tube such that the metal tubes are positioned inside the stretch tube; The metal tube and the intermediate tube of the third step is made by rolling the plate round and inserted, and the fourth step of expanding the inserted metal tube to the maintenance pipe side in close contact with the expansion and contraction; How to repair a sewer pipe. delete The method of claim 1, And a step of inserting a mesh tube having a length corresponding to the stretch tube between the second process and the third process into the stretch tube.

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