KR102031735B1 - Waterproofing tank and sewage bypass method - Google Patents

Abstract

The present invention comprises: a coupling body unit connected to a water supply side intercepting pipe to communicate and be constructed, and provided with an opening portion; a plurality of bypass pipes of which one end is inserted into a water intake side intercepting pipe to enable sewage to be bypassed to the ground, and connected for the other end thereof to communicate with the coupling body unit; a supply hole unit provided in the coupling body unit, and connected to the bypass pipes; and an opening protrusion unit extending from an opening, and maintaining a predetermined height to prevent a falling accident.

Description

Freshwater tank and sewage bypass method using the same {WATERPROOFING TANK AND SEWAGE BYPASS METHOD}

The present invention relates to a freshwater tank and a sewage bypass method using the same, and more particularly, when sewage is bypassed to the ground when the sewage is bypassed for the internal wall diagnosis and repair work of the sewage pipe, the sewage that is bypassed to the ground is collected and collected in the sewer pipe. It relates to a freshwater tank that can guide the supply smoothly to reduce the time and cost required to install the bypass pipe and the sewage bypass method using the same.

In general, the sewer pipe is provided with a tea house conduit leading to the sewage treatment plant to purify the incoming sewage.

The conduit is mainly used for concrete, and its cross section is often round, rectangular or oval. In case of leaking underground due to deterioration over time, cracks caused by impact, and expansion of fastening site, underground conduit is newly constructed by drilling conduit buried area or repaired internal leak directly.

However, in the former method, the construction time and cost increase, and ground subsidence due to excavation work has been raised. To solve this problem, a method of repairing the ground in a dry state without digging a ground or damaged conduit is used. .

Due to the large size of the conduit, it is very dangerous for people to carry out repair work after maintaining a certain section of the conduit simply by using a temporary barrier, and the barrier is able to withstand the water pressure caused by the large inflow of sewage. Even though it is assumed, the deterioration of the debris is expected due to the severe stress concentration at the conduit site where the clam is installed, so the ordering device or method of conduit that has secured stability as a pretreatment step for maintenance of such conduit This should be developed urgently.

There is Patent Document 1 (registered patent No. 10-0886787) patented by the present applicant in accordance with this reality.

Patent Literature 1 has a feature of providing a water level part at a predetermined distance (between manholes) inside a conduit and bypassing water drawn by the water level part to another manhole through the pipe.

Background art of the present invention is disclosed in Republic of Korea Patent Publication No. 10-0886787 (announced on March 04, 2009, the name of the invention: sewage culvert method and apparatus).

In the conventional method, the bypass pipe is discharged to the ground from the collecting pipe where the water is collected, and the bypass pipe is extended into the collecting pipe where the water is supplied. There is a problem that the sewage may be lost to the ground while being discharged from the house.

In addition, according to the prior art method, the bypass pipe is inserted directly into the house conduit so that the bypass pipe is installed, so that the hydraulic pressure of the sewage pipe is provided at the end of the bypass pipe which is disposed at the free end at the initial stage of the sewage bypass work. Since a separate fixing device is to be installed to prevent the end from being separated from the collector, the installation of the bypass tube is not easy, and it is difficult to reduce the time and cost required for installing the bypass tube.

Therefore, there is a need for improvement.

The present invention guides the sewage that is bypassed to the ground when the sewage is bypassed for the repair of the inner wall of the sewage pipe, so that the sewage that is bypassed to the ground can be collected and collected into the sewage pipe and supplied into the sewage pipe, and the time and cost required for the installation of the bypass pipe can be reduced. The purpose is to provide a freshwater tank and a sewage bypass method using the same.

The present invention is connected to the water supply side collecting pipe is constructed so as to pass through, the coupling body portion having an opening; A plurality of bypass pipes, one end of which is inserted into the intake side collecting pipe, bypasses the sewage to the ground, and the other end is connected to the coupling main body; A supply hole portion provided at the coupling body portion and to which the bypass pipe is connected; And extending from the opening, characterized in that it comprises an open projection for maintaining a height or more than a predetermined value to prevent the fall accident.

In addition, the supply hole of the present invention, the extending portion extending in the lateral direction from the main body to form a pipe; And a first planar portion that is bent and extended from an end of the extension portion and to which an end of the bypass pipe is connected.

In addition, the end of the open projection of the present invention is characterized in that the cover member is installed to prevent the inflow of foreign matter, and prevent the fall accident.

In addition, the present invention is characterized in that it further comprises a guide member for preventing the plurality of the bypass pipe disposed on the ground flow by the supply pressure of the sewage.

In addition, the present invention, (a) the step of installing a water treatment device on one side of the sewage pipe that is the subject of maintenance work; (b) inserting one end of the plurality of bypass pipes into the intake side collecting pipe and installing a pump in the bypass pipe; (c) constructing a freshwater tank having a coupling body part in which a plurality of supply holes are formed at the water supply side; (d) connecting the other end of the bypass pipe to the supply hole; And (e) driving the pump to bypass the sewage blocked by the water collecting device to the ground from the water collection side to the water collection side.

Desalination tank and sewage bypass method using the same according to the present invention, the plurality of bypass pipes are connected, and the coupling main body is provided in the conduit, so the process of inserting the plurality of bypass pipes in the conduit, respectively, a plurality of Since the dog bypass can be kept connected to the dwelling house, there is an advantage of preventing the accident that the sewage being bypassed is not supplied to the dwelling house for the water supply but is lost and drained to the ground.

In addition, the desalination tank and sewage bypass method using the same according to the present invention, by connecting a plurality of bypass pipes to the desalination tank at the same time, so that the process of inserting and fixing each bypass pipe in the demolition pipe, a plurality of This has the advantage of reducing the time and cost of bypass installation.

1 is a perspective view showing a fresh water tank according to the first embodiment of the present invention.
2 is a photograph installed a freshwater tank according to the first embodiment of the present invention.
3 is a photograph showing a water supply state inside the freshwater tank according to the first embodiment of the present invention.
4 is a photograph showing a construction state of a plurality of bypass tubes installed in the freshwater tank according to the first embodiment of the present invention.
5 is a photograph showing a support state of a plurality of bypass tubes installed in the freshwater tank according to the first embodiment of the present invention.
6 is a perspective view showing a fresh water tank according to a second embodiment of the present invention.
7 is a perspective view showing a fresh water tank according to a third embodiment of the present invention.

Hereinafter, an embodiment of a freshwater tank and a sewage bypass method using the same according to the present invention will be described with reference to the accompanying drawings.

In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or custom.

Therefore, the definitions of these terms should be made based on the contents throughout the specification.

1 is a perspective view showing a freshwater tank according to a first embodiment of the present invention, Figure 2 is a photograph installed a freshwater tank according to a first embodiment of the present invention, Figure 3 is a first embodiment of the present invention Pictured is a water supply state inside the freshwater tank according to the example.

4 is a photograph showing a construction state of a plurality of bypass tubes installed in a freshwater tank according to a first embodiment of the present invention, and FIG. 5 is installed in a freshwater tank according to a first embodiment of the present invention. The picture shows a state of support of a plurality of bypass tubes.

1 to 5, the freshwater tank according to an embodiment of the present invention is connected to the water supply side collecting conduit, it is constructed to pass through, the coupling body portion 10 having an opening and the water intake side collecting once The insertion is to bypass the sewage to the ground, the plurality of bypass pipes 50 connected to the other end through the coupling body portion 10, the coupling body portion 10 is provided, the bypass tube 50 is connected It includes a supply hole 12 and an open protrusion 30 extending from the opening of the coupling body portion 10 and maintaining a height or more above a predetermined value to prevent the fall accident.

Therefore, after the sewage pipe is blocked by the drainage device, a plurality of bypass pipes 50 are inserted into the drainage pipes connected to the sewage pipe of the area where the sewage is not blocked, and the pump is installed in the bypass pipe 50 to drive the pump. Blocked sewage can be taken up to the ground and supplied to the drain on the water supply side.

As described above, the worker is put into the section in which the sewage bypassed to the ground does not flow, so that the repair work on the inner wall of the sewage pipe can be performed.

At this time, since the fresh water tank of the present embodiment is constructed in the water supply side drainage pipe, the plurality of bypass pipes 50 are connected to the fresh water tank and connected to the water supply side drainage pipe, so that the plurality of bypass pipes 50 are connected to the water supply side by the sewage supply pressure. It is possible to prevent safety accidents that are separated from the house.

Coupling body portion 10 of the present embodiment may be made of steel, steel plate, iron, stainless steal (STS), sheet molding compound (SMC), FRP, PE, wood or concrete structure, the upper surface portion is open, the bottom surface It is made up of a drive that is open in its entirety, and a plurality of supply holes 12 are formed on the side of the four sides to maintain a constant interval.

The supply hole portion 12 extends laterally from the main body and forms a pipe shape, and a first portion which is bent and extended from an end portion of the extension portion 14 and to which an end portion of the bypass pipe 50 is connected. By including the plan portion, the bypass pipe 50 made of synthetic resin material in the coupling body portion 10 consisting of steel, steel plate, iron, stainless steal (STS), sheet molding compound (SMC), FRP, PE, wood or concrete structure It can be easily combined.

In addition, since the second flange portion 52 having the same shape as the first flange portion 16 is formed at the end of the bypass tube 50, the first flange portion 16 and the second flange portion 52 face each other. Arranged so that the fastening members to be in close contact with each other is connected to the end of the supply hole 12 and the bypass pipe (50).

On the open upper surface of the coupling body portion 10 is formed an open protrusion 30 extending in an upward direction, the open protrusion 30 is formed to a height that is difficult to climb the operator because the worker or pedestrian accidentally inside the open portion This will prevent accidents that fall.

In addition, since the cover member 32 is installed at the end of the open protrusion part 30 to prevent the inflow of foreign matters and prevents the fall accident, the foreign matter is prevented from flowing along the upper surface of the open protrusion part 30 and the fall accident is prevented. It can be prevented more effectively.

This embodiment further includes a guide member 70 which prevents the plurality of bypass tubes 50 disposed on the ground from being flowed by the supply pressure of the sewage, so that the plurality of bypass tubes 50 are disposed on the ground. While the guide member 70 simultaneously restrains the plurality of bypass pipes 50, the bypass pipe 50 flows due to the movement of sewage to prevent safety accidents from colliding with the surrounding facilities or pedestrians.

Guide member 70 of the present embodiment, the horizontal stage 72 is seated on the ground so that the plurality of bypass tube 50 is seated, and is bent and extended in a vertical direction from both ends of the horizontal stage 72, the bypass tube ( And a plurality of vertical bars 74 for constraining one side and the other side of 50.

Accordingly, when the plurality of bypass tubes 50 are seated on the upper surface of the horizontal stage 72, a pair of vertical stages 74 extending in the vertical direction from both ends of the horizontal stage 72 are separated from one side of the plurality of bypass tubes 50. While constraining the side portion, the bypass tube 50 is prevented from flowing.

Looking at the sewage bypass method using a freshwater tank according to an embodiment of the present invention configured as described above are as follows.

In the sewage bypass method using the freshwater tank according to the first embodiment of the present invention, the step of installing a water treatment device on one side of the sewage pipe that is the subject of maintenance work, and the plurality of bypass pipes 50 And inserting the pump into the bypass pipe (50), constructing a freshwater tank having a coupling body portion (10) in which a plurality of supply holes (12) are formed in the water supply side collecting pipe, and And connecting the other end of the bypass pipe 50 to the hole 12, and driving the pump to bypass the sewage blocked by the water extraction device to the ground from the intake side collecting conduit to the water supply side collecting conduit.

First of all, a plurality of collectors are connected to the sewer pipe, and a plurality of collectors are arranged at regular intervals. Proceed through the water barrier work.

Afterwards, a plurality of bypass pipes 50 are installed between one end of the conduit and the other end of the conduit to bypass the sewage to the ground, and the residual water of the sewage from the sewage conduits between the pair of conduits, that is, the reconstruction section. After the removal of the sewage pipes, the repair work will proceed.

When installing the bypass pipe 50, a pump is installed at one end of the bypass pipe 50 and inserted into the sewage pipe, and the other end of the bypass pipe 50 is connected to a fresh water tank constructed in a conduit to install the bypass pipe 50. On the ground on which the plurality of bypass tubes 50 are disposed, the guide member 70 is installed to arrange the bypass tubes 50 side by side, and the bypass tube 50 flows due to vibration generated by the movement of sewage. To prevent it.

In the supply hole 12 which does not perform the bypass operation as described above, a blocking member 54 formed in a disc shape is installed to close the supply hole 12.

In addition, the discharge hole is formed on the bottom surface of the coupling main body 10 of the present embodiment is provided with a discharge guide (10a) is formed to be inclined in the inner direction of the collecting conduit on the inner wall of the sewage discharged to the inside of the collecting main body 10 It is guided so that it can be discharged into the sewage pipe without crashing.

6 is a perspective view showing a freshwater tank according to a second embodiment of the present invention, Figure 7 is a perspective view showing a freshwater tank according to a third embodiment of the present invention.

6 and 7, in the freshwater tank according to the second embodiment of the present invention, the curved surface portion 18 is formed at the end of the coupling body portion 10 in which the open protrusion portion 30 is not formed. The sewage discharged into the main body 10 may be offset by the impact generated by the inner wall of the coupling main body 10.

In addition, the open projection 30 of the freshwater tank according to the third embodiment is formed in a cylindrical shape, the curved portion 18 is formed at the end of the coupling body portion 10 in which the open projection 30 is not formed The shock generated when the sewage discharged into the coupling body part 10 collides can be more effectively offset.

As a result, when the sewage is bypassed for the repair of the inner wall of the sewage pipe, the sewage bypassed to the ground is not lost, but is collected in the collecting pipe and supplied to the sewage pipe, and the time and cost required to install the bypass pipe can be reduced. It is possible to provide a freshwater tank and a sewage bypass method using the same.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible to those skilled in the art. Will understand.

In addition, the freshwater tank and the sewage bypass method using the same have been described as an example, but this is merely exemplary, and the water tank of the present invention and the bypass method using the same may be used for other products other than the freshwater tank and the sewage bypass method using the same. have.

Therefore, the true technical protection scope of the present invention will be defined by the claims below.

10: coupling body portion 12: supply hole portion
14 extension portion 16: first flange portion
18: curved portion 30: open projection
32: cover member 50: bypass tube
52: second flange portion 70: guide member
72: horizontal stand 74: vertical stand

Claims (5)

A coupling main body connected to the water supply side collecting pipe and constructed to be connected to the water supply side;
A plurality of bypass pipes, one end of which is inserted into the intake side collecting pipe, bypasses the sewage to the ground, and the other end is connected to the coupling main body;
A supply hole portion provided at the coupling body portion and to which the bypass pipe is connected; And
Extending from the opening of the coupling body portion, and includes an open projection for maintaining a height or more to a predetermined value to prevent the fall accident,
At the end of the open projection is provided with a cover member to prevent the inflow of foreign matter, and prevent the fall accident,
Further comprising a guide member for preventing the plurality of the bypass pipe disposed on the ground flow by the transport pressure of the sewage,
After the sewer is blocked by the sewer, a plurality of the bypass pipes are inserted into the sewer pipe connected to the sewer pipe of the area where the sewage is not blocked, and the pump installed in the bypass pipe is driven to ground the sewage blocked by the sewer. To the water supply side drainage
In the section where the sewage is diverted to the ground and the sewage does not flow, the worker can put in and repair the inner wall of the sewage pipe.
Since the coupling main body is constructed in the water supply side collecting pipe, when the plurality of the bypass pipes are connected to the water supply side collecting pipe, the plurality of the bypass pipes can be prevented from being separated from the water supply side collecting pipe by the sewage supply pressure. Freshwater tank, characterized in that there is.
The method of claim 1, wherein the supply hole,
An extension part extending in a lateral direction from the coupling body part and forming a pipe shape; And
And a first planar portion which is bent and extended from an end portion of the extension portion and to which an end portion of the bypass pipe is connected.
delete delete (a) installing a water level device on one side of the sewage pipe that is the subject of repair work;
(b) inserting one end of the plurality of bypass pipes into the intake side collecting pipe and installing a pump in the bypass pipe;
(c) constructing a freshwater tank having a coupling body part in which a plurality of supply holes are formed at the water supply side;
(d) connecting the other end of the bypass pipe to the supply hole;
(e) driving the pump to divert the sewage blocked by the water collection device to the ground from the water intake side drain to the water supply side;
The coupling body portion is provided with an open protrusion extending from the opening of the coupling body portion to maintain a predetermined value or more to prevent the fall accident,
At the end of the open projection is provided with a cover member to prevent the inflow of foreign matter, and prevent the fall accident,
Further comprising a guide member for preventing the plurality of the bypass pipe disposed on the ground flow by the transport pressure of the sewage,
After the sewage pipe is blocked by the water drainage device, a plurality of the bypass pipes are inserted into the water collecting pipes connected to the sewage pipes in the area where the sewage is not blocked, and the sewage blocked by the water drainage device is driven by driving a pump installed in the bypass pipe. To the ground and feed it to the water supply side drain,
In the section where the sewage is diverted to the ground and the sewage does not flow, the worker can put in and repair the inner wall of the sewage pipe.
Since the coupling main body is constructed in a water supply side drainage pipe, when the plurality of the bypass pipes are connected to the coupling main body and connected to the water supply side drainage pipe, the plurality of the bypass pipes can be prevented from being separated from the water supply side drainage pipe by the sewage supply pressure. Sewage bypass method using a fresh water tank, characterized in that.

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