KR100915425B1 - Method for standing water in branch pipe - Google Patents

Abstract

The present invention relates to a method of ordering that can reliably block the leakage of the effluent and the effluent passing through the branch pipe by semi-permanently sealing the cracks and leaks between the branch pipe and the main pipe.

The outflow and inflow water ordering method of the branch pipe according to the present invention, the first step of connecting the branch pipe to one side of the main pipe; Inserting a packer into the main tube and inserting an air bag into the branch tube; A third step of inflating each of the packer and the airbag in a state where the packer and the airbag are adjacent to each other to expel the connecting portion of the main pipe and the branch pipe; A fourth step of forming an order layer in the connection portion between the main tube and the branch tube by injecting and curing the order material through the nozzle of the packer to the connection portion between the main tube and the branch tube; And a fifth step of detaching the packer and the airbag from the main pipe and the branch pipe, respectively, after shrinking the packer and the airbag.

Description

Effluent and influent water extraction method of branch pipe {METHOD FOR STANDING WATER IN BRANCH PIPE}

The present invention relates to a branch pipe connected to the main pipe, such as existing sewer pipes, culverts and other pipelines, and more specifically, through the branch pipe by semi-permanently sealing the cracks and leaks between the branch pipe and the main pipe The present invention relates to an order method that can reliably block leakage of effluent and effluent.

In general, sewage pipes such as concrete fume pipes and vinyl chloride pipes, culverts, and other pipelines are flooded with light due to structural aging and subsidence of underground soil, ground pressure fluctuations, cracks and breakages caused by external loads, etc. Wastewater has penetrated underground through these cracks and broken parts to contaminate the soil or cause ground erosion.

As a method for repairing such a sewer pipe, there is a non-excavation method, an excavation method, and the like, and may be appropriately selected and used according to the damage site characteristics and surrounding conditions of the sewer pipe.

In particular, in the case of sewage pipes having a small diameter, a non-excavation method using a repair device such as a camera or a packer may be adopted, and, above all, when a branch pipe is connected to the sewer pipe from the ground, Since a crack or a leak gap is formed in the connection portion between the sewer pipes, it is necessary to order the connection portion between the branch pipe and the sewer pipe.

In addition, one end of the branch pipe may protrude a predetermined length into the sewer pipe while being connected to the sewer pipe side, and when one end of the branch pipe protrudes, serious cracking or breakage of the sewer pipe may occur at the protruding portion thereof.

The present invention has been made in view of the above, and by semi-permanently sealing the cracks and leaks between the branch pipe and the main pipe of the branch pipe that can reliably block the leakage of the effluent and the effluent flowing through the branch pipe. The objective is to provide effluent and influent drafting methods.

The outflow and inflow water ordering method of the branch pipe according to the present invention for achieving the above object,

A first step of connecting the branch pipe to one side of the main pipe;

Inserting a packer into the main tube and inserting an air bag into the branch tube;

A third step of inflating each of the packer and the airbag in a state where the packer and the airbag are adjacent to each other to expel the connecting portion of the main pipe and the branch pipe;

A fourth step of forming an order layer in the connection portion between the main tube and the branch tube by injecting and curing the order material through the nozzle of the packer to the connection portion between the main tube and the branch tube; And

And a fifth step of separating the packer and the airbag from the main tube and the branch pipe, respectively, after the packer and the airbag are contracted.

In the first step, the branch pipe is inserted into one side of the main pipe, and when the inner end of the branch pipe protrudes into the main pipe, cutting the protruding portion of the branch pipe by a cutting unit. It may further include.

In the first step, the branch pipe and the main pipe are connected by an adapter, and the adapter is disposed on the inner liner pipe disposed on the inner surfaces of the main pipe and the branch pipe, and the outer surfaces of the main pipe and the branch pipe. Has an outer liner pipe, the coupling ring for screwing the connection portion of the main pipe and the branch pipe.

In the second step, the airbag may be inserted from an outer end of the branch pipe and adjacent to the inside of the main pipe.

The order layer is characterized in that the order layer of the sand gel form.

After the fourth step, the method may further include forming a sealing layer by applying and curing a sealing material on the inner surface of the order layer.

The present invention as described above has the effect that the leakage of the effluent and the effluent passing through the branch pipe can be more reliably blocked by semi-permanently ordering or sealing the crack and the leaked portion between the branch pipe and the main pipe.

1 is a process chart showing the outflow and inflow water ordering method of the branch pipe according to an embodiment of the present invention,

2 to 7 is a cross-sectional view showing each step of the effluent and influent water method of the branch pipe according to an embodiment of the present invention,

8 to 12 are cross-sectional views showing the outflow and inflow water ordering method of the branch pipe according to another embodiment of the present invention in each step.

Brief description of symbols for the main parts of the drawings

10: Main Building 11: Branch Building

20: Packer 30: Airbag

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

1 is a process chart showing the outflow and inflow water ordering method of the branch pipe according to an embodiment of the present invention.

As shown in Figure 2, after forming the through-holes on one side of the main pipe 10, such as sewage pipes, culverts and other pipes, such as concrete fume pipe, vinyl chloride pipe, etc., insert the branch pipe (11) to connect (S1) .

Then check the cracks 12 formed in the connected portion of the main tube 10 and the branch pipe 11 using a CCTV robot, and in particular of the branch pipe 11 as illustrated in FIGS. When the inner end 11a protrudes into the main tube 10, the crack portion 12 may become larger, so that the branch pipe 11 protrudes by a separate cutting machine 40 as shown in FIG. 3. The part 11a can also be cut (S1-1).

Next, as shown in FIG. 4, the packer 20 is inserted into the main tube 10, and the air bag 30 is inserted into the branch tube 11 (S2). In particular, the airbag 30 may be inserted at an outer end of the branch pipe 11 and positioned at a portion adjacent to the inside of the main pipe 10, and thus, the airbag 30 may not only be easily inserted into the airbag 30. And the arrangement relationship between the packer 20 can be made closer. Here, the packer 20 has a plurality of wheels 23 and the elastic expansion cylinder 21, the elastic expansion cylinder 21 is expanded by the air injected through the air hose 22, the elastic expansion cylinder ( One side of the 21 is formed with one or more nozzles 24 for spraying the order material, etc., the packer 20 is movable in the main pipe 10 by a plurality of wheels (23). An air hose 31 is connected to the upper side of the air bag 30, and the air bag 30 is inflated by the air injected through the air hose 31.

As shown in FIG. 5, by inflating the packer 20 and the airbag 30 in a state where the packer 20 and the airbag 30 are adjacent to each other at the connection portion of the main tube 10 and the branch pipe 11. The elastic expansion cylinder 21 and the airbag 30 of the packer 20 index the connecting portion of the branch pipe 11 and the main pipe 10 (S3).

Then, as shown in FIG. 6, the cracks of the main pipe 10 and the branch pipe 11 are passed through the nozzle 24 of the packer 20 through the water supply and curing supplied through the water supply supply pipe 26. Injected into (12), and the injecting agent and the curing agent thus injected is cured after a predetermined time to form the order layer 15 in the form of sand gel (S4). Here, the MS-6 type injection agent may be used as the water repellent, and the water repellent layer 15 formed in the sand gel (SEND GEL) type formed by the water repellent is self-healing to fundamentally block leakage, and to the adjacent soil. Very good permeability can form an integrated order layer, by absorbing and expanding the moisture, the order performance is very high, it has an environmentally friendly feature.

As shown in FIG. 7, the packer 20 and the airbag 30 are retracted and then separated from the main tube 10 and the branch tube 11 (S5).

In addition, the present invention may be cured by applying a sealing material such as an epoxy resin to the inside of the order layer 15 through the nozzle 24 of the packer 20, as shown in FIG. 6, to form a sealing layer 16. have.

8 to 12 show the outflow and inflow water blocking method of the branch pipe according to another embodiment of the present invention.

As shown in FIG. 8, the branch pipe 11 according to another embodiment of the present invention is connected to the through hole side of the main pipe 10 through the adapter 50, and the adapter 50 is connected to the main pipe 10. And an inner liner pipe 51 disposed on an inner surface of the branch pipe 11, an outer liner pipe 52 disposed on an outer surface of the main pipe 10, and a branch pipe 11, the main pipe 10, and Coupling ring 53 and the like for screwing the connecting portion of the branch pipe 11 is provided (S1). On the other hand, even if the branch pipe 11 is connected to the main pipe 10 by the adapter 50, there is still a gap between the inner liner pipe 51, the outer liner pipe 52, the coupling ring 53 of the adapter 50. Is present, the maintenance work must be performed as in the first embodiment.

Then check the connected part of the main tube 10 and the branch tube 11 using a CCTV robot, and insert the packer 20 into the inside of the main tube 10 as shown in Figure 9, The airbag 30 is inserted into the engine 11. Air bag 30 is inserted from the other end of the branch pipe 11, that is, the outer end may be located in a portion adjacent to the main pipe 10, whereby the air bag 30 can be inserted very easily (S2 ). Here, the packer 20 has a plurality of wheels 23 and the elastic expansion cylinder 21, the elastic expansion cylinder 21 is expanded by the air injected through the air hose 22, the elastic expansion cylinder ( One side of the 21 is formed with one or more nozzles 24 for spraying the order material, etc., the packer 20 is movable in the main pipe 10 by a plurality of wheels (23). An air hose 31 is connected to the upper side of the air bag 30, and the air bag 30 is inflated by the air injected through the air hose 31.

As shown in FIG. 10, by inflating the packer 20 and the airbag 30 in a state where the packer 20 and the airbag 30 are adjacent to each other at a connection portion of the main tube 10 and the branch pipe 11. The elastic expansion cylinder 21 and the airbag 30 of the packer 20 index the connecting portion of the branch pipe 11 and the main pipe 10 (S3).

Then, as shown in Figure 11 through the nozzle 24 of the packer 20 through the nozzle and the connection portion of the main tube 10 and the branch pipe 11 injecting the water-repellent agent and the curing agent and then hardened in the form of sand gel The order layer 15 is formed (S4). Here, the MS-6 type injection agent may be used as the water repellent, and the water repellent layer 15 formed in the sand gel (SEND GEL) type formed by the water repellent is self-healing to fundamentally block leakage, and to the adjacent soil. Very good permeability can form an integrated order layer, by absorbing and expanding the moisture, the order performance is very high, it has an environmentally friendly feature.

As shown in FIG. 12, the packer 20 and the airbag 30 are contracted again and then separated from the main tube 10 and the branch tube 11 (S5).

Claims (6)

The outflow and inflow of the branch pipes, A first step of connecting the branch pipe to one side of the main pipe; Inserting a packer into the main tube and inserting an air bag into the branch tube; A third step of inflating each of the packer and the airbag in a state where the packer and the airbag are adjacent to each other to expel the connecting portion of the main pipe and the branch pipe; A fourth step of forming an order layer in the connection portion between the main tube and the branch tube by injecting and curing the order material through the nozzle of the packer to the connection portion between the main tube and the branch tube; And And a fifth step of detaching the packer and the airbag from the main pipe and the branch pipe, respectively, after the shrinking of the packer and the airbag. The method of claim 1, In the first step, the branch pipe is inserted into one side of the main pipe, and when the inner end of the branch pipe protrudes into the main pipe, cutting the protruding portion of the branch pipe by a cutting unit. Effluent and influent water order method of the branch pipe further comprising a. The method of claim 1, In the first step, the branch pipe and the main pipe are connected by an adapter, and the adapter is disposed on the inner liner pipe disposed on the inner surfaces of the main pipe and the branch pipe, and the outer surfaces of the main pipe and the branch pipe. Outflow and inflow of the branch pipe, characterized in that it has an outer liner pipe, the coupling ring for screwing the connecting portion of the main pipe and the branch pipe. The method of claim 1, In the second step, the air bag is inserted from the outer end of the branch pipe is inserted so as to be adjacent to the inside of the main pipe, the outflow and inflow water order method of the branch pipe. The method of claim 1, The order layer is an outflow and inflow water ordering method of the branch pipe, characterized in that the order layer of sand gel form. The method of claim 1, After the fourth step, the method for the outflow and inflow water of the branch pipe further comprising the step of forming a sealing layer by applying and curing the sealing material on the inner surface of the order layer.