KR101390175B1 - Temporarily water supply method for rehabilitation section in water pipe - Google Patents

Abstract

The present invention includes: a step of stopping water supply when a worn-out pipe is discovered among water supply lines to which multiple water pipes are connected; a step of boring a supply hole unit on a water pipe that is placed adjacent to the worn-out pipe among water pipes; a step of connecting a water supply pipe to the supply hole unit; a step of connecting the water supply pipe and a meter installed in a house or a workplace; a step of separating the worn-out pipe from the water pipe and mounting a stopper at the end of the water pipe; a step of supplying water through the water pipe and the water supply pipe; a step of separating and removing the worn-out pipe from the water pipe; a step of installing a new water pipe at the place of the worn-out pipe; a step of stopping water supply to the water supply line and connecting the new water pipe by removing a stopper; a step of closing in which the water pipe is removed and a finishing member is combined to the supply hole unit; and a step of connecting the water pipe and the meter and starting water supply.

Description

{TEMPORARILY WATER SUPPLY METHOD FOR REHABILITATION SECTION IN WATER PIPE}

The present invention relates to a temporary water supply method within a water supply pipe regeneration section, and more particularly, to a water supply pipe that can reduce water supply cutoff time when a water supply pipe for supplying water to a home or business is replaced, The present invention relates to a temporary water supply method in a water supply pipe regeneration section to prevent the operation of the water supply pipe from being interrupted.

Generally, in order to repair an old sewage pipe or an existing sewer pipe for gas, electricity, or communication buried in the ground, it is necessary to excavate the ground where the pipe is buried, remove the old pipe, remove it, replace it with a new pipe, and then cover the soil again.

However, the replacement of bureaucrats by conventional ground excavation methods causes traffic congestion and dust in congested urban areas, resulting in the generation of waste due to cutting of pavement surfaces, Difficulty in maintaining flatness, and inconvenience to citizens.

Thus, in recent years, non-drilling methods have been attempted to repair or replace pipelines without excavating ground or roads.

Patent No. 756932 (Registered Mar. 3, 2007) discloses a method for repairing joints or joints in which an underground channel is broken or a stepped joint, in which the upper surface and the lower surface of the stiffener, A step of enclosing a reinforcing material laminated on the outer circumferential surface of a cylindrical repairing mechanism configured to inflate and inflate air, a step of inserting an expandable material on both sides of the reinforcing material, And a step of injecting air into the maintenance mechanism to adhere and cure the damaged portion of the pipeline or the inner wall of the joint portion.

In addition, the first step of installing the first gauges in the construction period of the patent No. 701885 (registered on Mar. 26, 2007, 2007) and the second step of performing the ground stabilization process for preventing the ground slope in the first gauging gate A third step of installing a hydraulic device such as a hydraulic jack and a tilting device in the first tilting mouth, a fourth step of installing a pipe between the hydraulic jack and the tilting gear and starting a tilting operation, If the construction is impossible due to the section, the chemical solution injection method and the pile method are applied to the point, and then the first step to the fourth step is repeated. A fifth step of performing a reclamation operation after installation, and a fifth step of repeating the same method as the fifth step when there is another obstacle part during the reclamation work, A sixth step of forming a reaching opening in a last section of the construction and recovering the excavating equipment required for the excavation in each of the opening and closing parts when the paving operation is completed within the crossing section, And a seventh step of constructing the structure.

In addition, Japanese Unexamined Patent Application Publication No. 10-2006-0035455 (published on Mar. 26, 2006) discloses a sewing machine comprising a tearing step of excavating a waste tube buried in the ground in a sewing machine replacement interval so as to be spaced apart from each other by a predetermined distance, A step of forming a water leakage portion in each of the separated fallen tubes to connect the inner space of the fallen tube to the ground, and a step of forming a leakage reducing agent in the ground through the water leakage portion, A first frictional force reducing step of reducing the frictional force between the surface of the throat pipe and the earth and the earth by leaking, and a step of removing the throat pipe by repeating a process of moving the throat pipe in the longitudinal direction, do.

This method has a complicated work of forming a plurality of leakage portions in a buried wastewater pipe, and there is a possibility that the pipe itself may be broken when forming a leakage portion depending on the material of the wastewater pipe. In the first reduction of the friction force, In this process, the friction reducing agent is injected into the soil at high pressure, which may affect the stability of the nearby soil, and the soil may settle.

The background art of the present invention is disclosed in Korean Patent Registration No. 10-1186482 (published on Sep. 27, 2012, entitled " Underground Underground Excavation Replacement Method ").

In general, when replacement of the water pipe is required, the supply of water to the home or business should be stopped and the work should be carried out. There is a problem that the user of the water in the home or business can not use the water during the maintenance work or the replacement work.

Therefore, there is a need for improvement.

The present invention can reduce the water supply cutoff time when replacing a water supply pipe supplying water to a home or a workplace and prevent the interruption of the operation of the water meter while replacing the water supply pipe. The purpose is to provide.

According to the present invention, there is provided a method of controlling a water supply system, comprising: stopping supply of water when a sewer pipe is found in a water supply line connected with a plurality of water pipes; A drilling step of drilling a supply hole portion in the water pipe disposed adjacent to the waste pipe in the water pipe; Connecting a supply pipe to the supply hole; Connecting the water supply pipe to a meter installed in a home or workplace; Separating the waste pipe from the water pipe and installing a plug at the end of the water pipe; Supplying water through the water pipe and the water pipe; Separating and removing the wastewater from the water pipe; Installing a new water pipe at a location of the waste pipe; Interrupting the supply of water to the water line and removing the plug to connect the new water line; A closing step of removing the water supply pipe and coupling a finishing member to the supply hole portion; Connecting the water pipe to the meter, and starting supply of water.

Further, the water supply pipe of the present invention comprises: a connection pipe extending laterally from the supply hole portion; A bending tube connected to the connection pipe and bent in a curved shape; And a supply pipe connected to the bending pipe and having a plurality of extension pipes connected to the meter of the home or workplace.

The closing member of the present invention is characterized by including a bolt member provided with a second screw thread to be engaged with the first screw thread of the supply hole portion and fastened to the supply hole portion.

Further, the water supply pipe of the present invention includes: a connection pipe extending upward from the supply hole portion; A first bend tube connected to the connection tube and bent in a curved shape and extending along the ground; A second bending tube connected to the first bending tube and bent in a curved shape and bent in an extending direction of the water pipe; And a supply pipe connected to the second bending pipe and having a plurality of extension pipes connected to the meter of the home or workplace.

Further, the water supply pipe of the present invention is characterized in that the extension pipe or the installation groove portion into which the supply pipe is inserted is further formed, and the protection pipe is seated on the ground.

Further, the water supply pipe of the present invention may include: a connection pipe installed in the supply hole portion; And a corrugated pipe connected to the connection pipe and having a plurality of extension pipes connected to the meter of the home or workplace.

According to the present invention, since the supply of water to the home or the business site is continued through the water supply pipe during the operation of replacing the waste water pipe, it is possible to prevent the inconvenience There is an advantage that it can reduce.

In addition, since the water supplied through the water supply pipe is supplied to the home or business through the water meter during the process of replacing the waste water pipe in the water supply pipe rehabilitation section according to the present invention, the accurate supply amount of water supplied through the water supply pipe Can be detected.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing a drilling step of a temporary water supply method within a water supply pipe regeneration section according to a first embodiment of the present invention; FIG.
FIG. 2 is a block diagram illustrating a water supply connection step of a temporary water supply method within a water supply pipe regeneration section according to the first embodiment of the present invention.
FIG. 3 is a block diagram illustrating a bypassing step of a temporary water supply method within a water supply pipe regeneration section according to the first embodiment of the present invention.
4 is a block diagram showing a finishing step of the temporary water supply method in the water supply pipe regeneration section according to the first embodiment of the present invention.
5 is an exploded perspective view illustrating a finishing step of the temporary water supply method in the water supply pipe regeneration section according to the first embodiment of the present invention.
6 is a perspective view illustrating a water supply pipe installation structure of a temporary water supply method within a water supply pipe regeneration section according to a second embodiment of the present invention.
7 is a cross-sectional view illustrating a water supply pipe installation structure of a temporary water supply method within a water supply pipe regeneration section according to a second embodiment of the present invention.
FIG. 8 is a view illustrating a water supply pipe installation structure used in a temporary water supply method within a water supply pipe regeneration section according to a third embodiment of the present invention.

Hereinafter, an embodiment of a temporary water supply method within a water supply pipe regeneration section according to the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

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

FIG. 1 is a schematic view showing a drilling step of a temporary water supply method within a water supply pipe regeneration section according to a first embodiment of the present invention. FIG. 2 is a schematic view of a water supply method in a water supply pipe regeneration section according to the first embodiment of the present invention. FIG. 3 is a block diagram illustrating a bypass step of the temporary water supply method in the water supply pipe regeneration section according to the first embodiment of the present invention.

4 is a block diagram showing the finishing step of the temporary water supply method in the water supply pipe regeneration section according to the first embodiment of the present invention. FIG. 3 is an exploded perspective view showing a finishing step of the water supply method.

1 to 5, a temporary water supply method in a water supply pipe regeneration section according to an embodiment of the present invention includes stopping supply of water when a water pipe is found in a water supply line to which a plurality of water pipes 10 are connected A step of drilling the supply hole portion 12 into the water pipe 10 disposed adjacent to the waste pipe in the water pipe 10, a step of connecting the water supply pipe 30 to the supply hole portion 12, And connecting the meter 16 installed in the home or workplace to the water pipe 10 and separating the waste pipe from the water pipe 10 and installing a stopper 50 at the end of the water pipe 10, Supplying water through the water line 30, separating and removing the old tube from the water pipe 10, installing a new water pipe 10 at the position of the old tube, stopping the supply of water to the water line , The cap 50 is removed and a new water pipe ( A closing step of removing the water supply pipe 30 and joining the closing member 70 to the supply hole 12 and a connecting step of connecting the water pipe 10 and the meter 16, .

If the wastewater is found in the water line and water is found to be lost from the water line, the area where the water line is buried is drilled to expose the water line.

Thereafter, the supply of water is stopped, the supply hole portion 12 is drilled on one side of the circumferential surface of the water pipe 10 arranged adjacent to the waste pipe, and the supply pipe portion 12 generated by the piercing step is supplied with the water supply pipe 30 Install it.

When the installation of the water supply pipe 30 is completed in the supply hole portion 12, a plurality of extension pipes 36a provided in the water supply pipe 30 are connected to the meter 16 provided in the home or business, After removing the wastewater, a stopper (50) is provided at the end of the water pipe (10) where the supply hole (12) is perforated to restart the supply of water.

Therefore, the water supplied along the water pipe 10 while the old pipe is completely removed to the ground and the new water pipe 10 is buried in the underground is passed through the water pipe 30 along the water pipe 30, It can be supplied to the workplace.

The most time-consuming work for replacing the worn-out pipe is to separate the worn-out pipe into the ground and the new water-pipe 10 to be laid on the ground. Therefore, during the time-consuming work, To supply water to homes and businesses.

Accordingly, it is possible to reduce the time for stopping the water supply to the home or business site while the water pipe 10 is being replaced.

Here, the water supply pipe 30 includes a connection pipe 32 extending laterally from the supply hole portion 12, a bending pipe 34 connected to the connection pipe 32 and bent in a curved shape, And a supply pipe 36 connected to the branch pipe 34 and to which a plurality of extension pipes 36a connected to the home and business meters 16 are connected.

The connection pipe extends laterally from the supply hole portion 12 and the bending pipe 34 is connected to the end of the connection pipe 32 and is formed of a curved pipe bent by 90 degrees. 10 so as to be spaced in the same direction as the water pipe 10 on one side of the water pipe 10.

The water supplied through the supply hole 12 is supplied to the supply pipe 36 along the connection pipe 32 and the bending pipe 34 to supply water to a plurality of homes and businesses.

The supply pipe 36 is provided with a plurality of extension pipes 36a so that a plurality of extension pipes 36a can be connected to the respective meters 16 of the home or business.

When the supply of water is resumed, the operator separates the waste pipe into the ground, places a new water pipe 10 between the water pipe 10 and the water pipe 10, and then places the new water pipe 10 in the water pipe 10 to a new water pipe (10).

Thereafter, the water supply is interrupted again, and the plug 50 is removed, so that the new water pipe 10 and the supply hole 12 connect the perforated water pipe 10.

At this time, a part of a plurality of workers removes the stopper 50 and connects the water pipe 10 and the new water pipe 10 while the other worker removes the water pipe 30 from the supply hole 12, The water pipe 10 and the meter 16 can be connected simultaneously.

Therefore, the time during which the supply of water is stopped during the replacement operation of the water pipe 10 can be more effectively reduced.

When the installation of the new water pipe 10 is completed and the water pipe 30 is removed, the closing member 70 is fastened to the supply hole portion 12 to close the supply hole portion 12, ) The replacement operation is terminated.

The closing member 70 includes a bolt member provided with a second thread 70a to be engaged with the first thread 12a of the supply hole 12 and fastened to the supply hole 12.

Therefore, after removing the water supply pipe 30 from the supply hole 12, the closing member 70 is coupled to the supply hole portion 12 so that the first screw thread 12a and the second screw thread 70a are engaged, It is possible to prevent the water from being lost along the interval between the supply hole portion 12 and the closing member 70 through the O-ring 72 on the peripheral surface of the thread 70a.

The water supply pipe 30 may be made of a synthetic resin material or a metal material, and may be made of various materials other than a synthetic resin material or a metal material.

Reference numeral 14 denotes a branch pipe 14 branching from the water pipe 10 and connected to the meter 16.

FIG. 6 is a perspective view illustrating a water supply pipe installation structure of a temporary water supply method within a water supply pipe regeneration section according to a second embodiment of the present invention, FIG. 7 is a perspective view of a water supply pipe construction method in a water supply pipe regeneration section according to a second embodiment of the present invention, Sectional view showing the water supply pipe installation structure of the water supply pipe.

6 and 7, the water supply pipe 130 used in the temporary water supply method in the water supply pipe regeneration section according to the present embodiment includes a connection pipe 132 extending upward from the supply hole portion 112, A first bending pipe 134a connected to the pipe 132 and bent in a curved shape and extending along the paper surface, an auxiliary connecting pipe 134c connected to the first bending pipe 134a, A second bending pipe 134b connected to the pipe 134c and bent in a curved shape and bent in the extending direction of the water pipe 110 and a second bending pipe 134b connected to the second bending pipe 134b, And a supply pipe 136 having a plurality of extension pipes 136a connected to the supply pipes 136.

The first bending pipe 134a and the second bending pipe 134b are connected to the connection pipe 132 extending upward from the water pipe 110 so that the supply pipe 136 is seated on the ground, And a supply pipe 136 is disposed along the road on the ground of the road on which it is located.

The supply pipe 136 is provided with a plurality of extension pipes 136a so that the water supplied along the water pipe 110 while the extension pipe 136a is connected to the meter 116 of the home or workplace to replace the waste pipe is connected to the connection pipe The first bending pipe 134a, the second bending pipe 134b, the supply pipe 136, and the extension pipe 136a to temporarily supply water to the home or business.

The water supply pipe 130 of the present embodiment further includes a protection member 180 formed with an installation groove portion 182 into which the extension pipe 136a or the supply pipe 136 is inserted and is seated on the ground, It is possible to prevent the pedestrian passing through the road by inserting the installation groove portion 136 or the extension pipe 136a into the installation groove portion 182 to prevent the extension pipe 136a or the supply pipe 136 from being damaged by the vehicle.

The protective member 180 is formed in a rectangular shape and includes an elastic material and is provided with an installation groove portion 182 at a central portion thereof and an inclined surface extending from the upper end of the installation groove portion 182 toward both ends of the protection member 180 The load of the vehicle is prevented from being transmitted to the supply pipe 136 or the extension pipe 136a when the wheels of the vehicle passing through the road press the supply pipe 136 or the extension pipe 136a.

Of course, the first bending tube 134a or the second bending tube 134b, which is seated on the ground, may be installed with the protection member 180, which is easily changed by those skilled in the art, So that specific drawings and descriptions of other embodiments will be omitted.

The supply hole portion 112 formed by drilling the water pipe 110 to connect the water pipe 130 can be individually machined to the water pipe 110 disposed at both ends of the waste pipe, The water pipe 110 connected to the one end of the waste pipe and the water pipe 110 connected to the other end of the waste pipe may be connected to the water pipe 130.

When connecting the water pipes 110 disposed at the one end and the other end of the waste pipe as described above, the supply hole 112 is formed in each water pipe 110 and the supply pipe 112 is connected to the pair of supply holes 112 A first bending pipe 134a and a second bending pipe 134b are provided at both ends of the first and second bending pipes 136 and 136 so that the pair of supply holes 112 are connected to each other and the water supply pipe 130 is installed do.

Therefore, the water supplied along the water pipe 110 connected to the one end of the wastewater can be supplied to the water pipe 110 connected to the other end of the wastewater by bypassing the wastewater pipe along the water supply pipe 130.

The protection member 180 can be changed in various shapes and can be installed continuously with the plurality of protection members 180. The first flexible tube 134a, The second bending pipe 134b, the supply pipe 136 and the extension pipe 136a may be inserted at the same time.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

FIG. 8 is a view illustrating a water supply pipe installation structure used in a temporary water supply method within a water supply pipe regeneration section according to a third embodiment of the present invention.

Referring to FIG. 8, the water supply pipe 230 of the present embodiment includes a connection pipe 232 installed in the supply hole 212 and a connection pipe 232 connected to the meter 216 of the home or workplace And a corrugated pipe 234 provided with a plurality of extension pipes 236.

Since the bending tube 234 is bent in various directions in this embodiment, the bending tube 234 is bent in various directions without providing a separate bending tube, and the extension tube 236 ) Can be easily connected.

This provides a provisional water supply method within the water service area that can reduce the water supply cut-off time when replacing the water supply pipe supplying water to the home or workplace and prevents the operation of the meter from being interrupted while replacing the water supply pipe .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

Also, although the water pipe replacement method has been described as an example, the water pipe replacement method of the present invention can also be applied to products other than the water pipe replacement method.

Accordingly, the true scope of the present invention should be determined by the following claims.

10: water pipe 12: supply hole portion
12a; First thread 14: Branch tube
16: meter 30: water supply pipe
32: Connector 34: Flexure tube
36: Supply pipe 36a: Branch pipe
50: stopper 70: closing member
70a: second thread 72: o-ring
180: protective member 182: installation groove

Claims (6)

Stopping the supply of water when a sewer pipe is found in a water line connected to a plurality of water pipes;
A drilling step of drilling a supply hole portion in the water pipe disposed adjacent to the waste pipe in the water pipe;
Connecting a supply pipe to the supply hole;
Connecting the water supply pipe to a meter installed in a home or workplace;
Separating the waste pipe from the water pipe and installing a plug at the end of the water pipe;
Supplying water through the water pipe and the water pipe;
Separating and removing the wastewater from the water pipe;
Installing a new water pipe at a location of the waste pipe;
Interrupting the supply of water to the water line and removing the plug to connect the new water line;
A closing step of removing the water supply pipe and coupling a finishing member to the supply hole portion;
And connecting the water pipe and the meter to start water supply, wherein the water supply method in the water supply pipe regeneration section is performed.
The water treatment system according to claim 1,
A connection pipe extending laterally from the supply hole portion;
A bending tube connected to the connection pipe and bent in a curved shape; And
And a supply pipe connected to the bending pipe and having a plurality of extension pipes connected to the meter of the home or workplace.
The apparatus according to claim 1,
And a bolt member having a second screw thread to be engaged with the first screw thread of the supply hole portion and fastened to the supply hole portion.
The water treatment system according to claim 1,
A connection pipe extending upward from the supply hole portion;
A first bend tube connected to the connection tube and bent in a curved shape and extending along the ground;
A second bending tube connected to the first bending tube and bent in a curved shape and bent in an extending direction of the water pipe; And
And a supply pipe connected to the second bending pipe and having a plurality of extension pipes connected to the meter of the home or workplace.
The method according to claim 2 or 4,
Wherein the water supply pipe further comprises a protection member formed on the ground, wherein the extension pipe or the installation groove portion into which the supply pipe is inserted is provided.
The water treatment system according to claim 1,
A connection pipe installed in the supply hole portion; And
And a corrugated pipe connected to the connection pipe and having a plurality of extension pipes connected to the meter of the home or workplace.

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