KR101045111B1 - Pipeline's inside cleansing apparatus for water system conversion and water service pipeline changing construction method thereby - Google Patents

Abstract

PURPOSE: An apparatus for cleaning and inspecting a pipe for changing a water system and a method for exchanging a water supply pipeline using the same are provided to improve work efficiency by eliminating foreign substances and scales from the inner wall of a pipeline when pig passes through the pipeline. CONSTITUTION: A method for exchanging a water supply pipeline using an apparatus(A) for cleaning and inspecting a pipe for changing a water system is as follows. An old pipeline(100) is selected. The buried position of the old pipeline is excavated. Obstacles around the old pipeline are moved to the other place. The flow of water is stopped by cutting of front and rear valves(V1,V2) of the old pipeline. The oil pipeline between the front and rear valves is separated from each other. The apparatus is connected to the front and rear valves. A new pipeline(200) is installed to connect the apparatus to the other apparatus.

Description

Pipeline's Inside Cleansing Apparatus for Water System Conversion and Water Service Pipeline Changing Construction Method

The present invention relates to a tubular water check system for water conversion and a construction method for replacing the water supply pipe using the same, and more specifically, to replace the old water supply pipe in some sections, the existing water pipe can be connected to the new water pipe to bypass the water supply pipe. In addition, the internal pipe chucking work can be performed in parallel, and the present invention relates to a water conversion pipe, and a water supply pipe replacement construction method using the same to facilitate the demolition work of the old aging pipe.

In general, water pipes and sewage pipes are connected under the roads of the city center like spider webs like human blood vessels.

This network is being expanded and newly replaced as time goes by. As such, the old pipeline remains underground.

In principle, these pipelines should be dug up and removed.

However, it is the reality of water management that has been neglected until now because of underground burial or because of the high cost.

In addition, due to the lack of records and management of pipelines, large-scale leaks and flooding accidents have been followed, and they are emerging as a cause of problems such as flooding and leaking accidents.

In particular, the water supply pipe has been aging over a long time to form a scale therein to hinder the water pollution and the flow of water, there was a problem that the water leakage occurs by the perforation of some parts.

As a result, local governments are gradually removing old pipelines from old waterworks and replacing them with new pipelines.

This replacement work is carried out by section in the existing pipeline, and after closing the valves in front of the valves and the valves in the rear of each section, and cut off the pipelines at the rear end of each valve with only a few.

After that, the elbows are connected to the pipes left in each valve in consideration of the proper detour angle so as to avoid the deteriorated pipes to be removed, and the new pipes are connected to the two elbows thus connected. In addition, a number of incoming ships that were connected to the decommissioned pipeline, which is to be demolished, are separated and transferred to a new pipeline.

After completing the construction of the new pipeline, the old pipeline to be demolished is removed.

However, in the past, due to the burden of demolition costs, the removal of the old pipeline was not properly made, and there was a problem that the previous installation of the incoming line was not properly made.

Meanwhile, a pipeline washing device is installed to remove foreign substances accumulated in the water supply pipeline.

As shown in FIG. 1, the pipe washing apparatus includes a pipe body 10 having a flange connected to the pipe at both ends and an inlet 20 or an outlet 21 formed at one side thereof, and a pig introduced through the inlet 20. It consists of (2), the inlet 20 and the outlet 21, the lid 23 is coupled.

The action of the pipeline washing device 1 is as follows.

First, after inserting the pig 5 in the form of a shell into the inlet 20 provided on one side, by blowing the compressed air or pressurized water of high pressure through the pipeline 100, by pushing the pig 5, It is to be discharged to the outlet 22 of the other washing apparatus 1 spaced a predetermined distance, so that the foreign matter or scale deposited on the inner wall while the pig 5 passes through the conduit 100 is removed.

 However, the old aging pipeline is not equipped with the above-described pipeline washing apparatus, it is reasonable to install the pipeline washing apparatus when installing a new pipeline.

However, as described above, since the elbow is installed and a separate pipe washing apparatus must be installed again, a cost burden occurs due to an increase in installation cost, and also a lot of time is required for installation work, thereby resulting in cost and work efficiency aspects. All had irrational problems.

The present invention has been made in order to solve the above problems of the prior art, it is possible to ensure a proper bypass angle when installing a new pipeline by bypassing the existing pipeline, and also to allow the parallel washing of the pipeline to reduce costs and work efficiency The purpose of the present invention is to provide a tubing inspection device for water conversion and a method of replacing a water pipe using the same.

The object of the present invention is connected between the existing pipeline and the new pipeline, the pipe for cleaning the pig is put, one end of the first body is formed with a first connector connected to the existing pipeline; A second body connected to one side of the first body and having an inlet for inserting pigs therein; A direction changer connected to the second body and changing a direction; It can be achieved by a water changeover tubing washing device comprising a third connector connected to the redirection port and connected to the new pipe.

On the other hand, the object of the present invention, in the water supply pipe replacement construction method using the above-mentioned water conversion pipe cleaning system, the first step of selecting the replacement aging pipeline by performing a pipe survey; Excavating the buried position of the old pipeline; Three steps of transferring obstacles buried around the aging pipe; 4 steps to stop the flow of water by blocking the front and rear valves of the front and rear ends of the replacement aging pipe; 5 steps of releasing or cutting the fastening of the rear end of the front valve and the front of the rear valve; Connecting the first and second end pipes to each of the water pipe switching inspection apparatus; A seventh step of installing a new conduit so as to interconnect the connected water washing inspection devices each connected; The water supply pipe replacement construction method using a water conversion conversion tariff inspection apparatus comprising an eight steps for transferring the incoming line connected to the replacement aging pipeline to the new pipeline.

According to the present invention it is possible to secure an appropriate bypass angle when installing a new pipeline, and also to be able to parallelly clean the pipeline to reduce costs and improve work efficiency.

1 is a view showing a pipeline washing apparatus according to the prior art.
Figure 2 is a process flow diagram showing a water supply pipe replacement construction method using a water conversion conversion inspection system according to the present invention.
Figure 3 is a piping diagram showing an example of the construction of the replacement of water supply pipes using the water pipe switching pipe washing inspection apparatus according to the present invention.
Figure 4 is a perspective view showing a water cleaning system for switching the water according to the invention.
Figure 5 is a plan view showing a water pipe switching system for checking according to the present invention.
Figure 6 and Figure 7 is a plan view and a perspective view showing another embodiment of the system for converting water washing according to the present invention.

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

Figure 2 is a process flow diagram showing a construction method for replacing the water supply pipe using the water conversion switching system according to the present invention, Figure 3 is a water supply pipe replacement using the water conversion conversion system according to the present invention example sequentially 4 is a perspective view showing a water system conversion pipe washing inspection apparatus according to the present invention, Figure 5 is a plan view showing a water system conversion pipe washing inspection apparatus according to the present invention, Figures 6 and 7 according to the present invention A plan view and a perspective view showing another embodiment of the water-system changeover tubular inspection device.

Referring to Figures 2 and 3, when explaining the water pipe replacement construction method using a water conversion switching system according to the present invention,

Performing a pipeline investigation to select an old pipeline 100 to be replaced (S1);

Digging a buried position of the aging pipe 100 (S2);

Three steps (S3) for transferring obstacles buried in the vicinity of the aging pipeline (100);

Four steps (S4) for stopping the flow of the constant water by blocking the front and rear valves (V1, V2) of the front and rear ends of the old pipe 100 to be replaced;

5 steps (S5) of separating the old pipe (100) between the front valve (V1) and the rear valve (V2);

A sixth step (S6) of connecting each of the water system switching pipe washing inspection apparatus (A) to the front valve (V1) and the rear valve (V2);

Step 7 (S7) of installing a new conduit 200 to interconnect the respective water conversion switch for customs washing inspection (A);

Eight steps (S8) for performing a water test on the new pipe (200).

The sixth step (S6) further includes the step of transferring the incoming line 300 that was connected to the old aging pipeline 100 to be replaced to connect to the new pipeline (200).

In addition, the sixth step (S6) further comprises the step of blocking the flow of water to the pipe pipe (M) to the old pipeline 100 by installing a pipe stopper (A) for water conversion.

In addition, further comprising the step of completely dismantling the old pipeline (100).

Each step will be described in more detail.

The first step (S1) and the second step (S2) is a process of selecting and excavating the old pipeline 100 to be replaced.

The third step (S3) is to facilitate the demolition of the pipeline and the old pipeline 100 to be described later by removing obstacles in the ground.

The obstacle refers to obstacles such as sewer pipes and bridges buried in the ground, and the obstacles must be removed to facilitate the dismantling of the old aging pipe 100 in the future.

In step S5, as illustrated in FIG. 3, the old pipe line 100 is cut while leaving a part connected to the front valve V1.

Similarly, the old pipe 100 is cut off while leaving a portion connected to the rear valve V2.

When the cutting method is coupled by flange joints, the bolts fastened to the flange are separated or cut using an oxygen welding machine.

The six steps (S6) to eight steps (S8) are subdivided into steps (a) to (d) as shown in FIG.

(a) process

One side of the front valve V1 is connected to the first connector 11 of the water-system switching tubular washing inspection device A, and the first valve V3 is mounted to the second connector 12.

In addition, the second connector 12 of the other system for switching the water washing inspection (A ') to one side of the rear valve (V2) is connected, and the second valve (V4) is mounted on the first connector (11).

 The first valve V3 and the second valve V4 are opened to allow water to pass through.

(b) process

While gradually connecting the new conduit 200 to the third connector 13 of the water conversion switch (A) of one side of the water system, the incoming lines 300 connected to the old aging conduit 100 are connected to the new conduit. After relocating to 200, it is checked whether the water is passed through to the incoming line 300.

The incoming line refers to a small water pipe connected to the generation from the main pipe buried underground.

That is, after connecting the first new pipe passage 200a to the third connector 13, any one of the lead wires 300 is moved.

Thereafter, after connecting the second new pipe line 200b to the first new pipe line 200a, another drop wire 300 is moved.

In this manner, the new pipe 200 is sequentially connected to the second connector 12 of the water cleaning switch A 'of the other side.

(c) process

After the first valve V3 and the second valve V4 are blocked, the old pipe 100 is removed.

(d) process

After the front valve V1 and the rear valve V2 are shut off, the first valve V3 and the second valve V4 are removed, and a stopper pipe M (aka 'blind flange') is installed to install the old pipe ( Do not allow water to flow to 100).

The tube stopper (M) is in the shape of a disk and formed with a plurality of fastening holes for fastening bolts, which will be described later, but the first connector (11) and the second connector (12) of the water-system switching pipe washing inspection device (A, A ') It is mounted on the flange fitting (P) provided to be a sealing function.

Meanwhile, as shown in FIG. 3 to FIG. 5, the water system conversion pipe washing inspection apparatus A is connected between the old aging pipe 100 and the new pipe 200 and the pigs for pipe washing (not shown) are introduced. To, one end of the first body (1) formed with a first connector (11) connected to the existing pipeline (L); A second body 2 connected to one side of the first body 1 and having an inlet 22 for introducing a pig; It is connected to the second body 2 and the direction change port 14 for changing the direction; The third connector 13 is connected to the redirection port 14 and connected to the new conduit 200.

The first body 1 has a cylindrical tubular shape having a first connector 11 formed at one end thereof, and a second connector 12 is further formed to allow the pipe or valve to be coupled to the other end thereof.

The first connector 11 or the second connector 12 and the other pipe or valve coupling method employs a conventional welding or flange joint method.

That is, the first connector 11 and the second connector 12 is formed with a flange fitting hole (P) is fastened to the bolt so that it can be connected to the other pipe (L) and the flange joint.

The flange fitting (P) is a ring-shaped and formed with a plurality of bolt fastening holes, it is mainly used for coupling the tube and the tube or tube and accessories, so anyone skilled in the art can easily understand the detailed description.

Alternatively, as shown in FIG. 6, either one of the first connector 11 or the second connector 12 is formed with a flange fitting hole P so that the other pipe can be connected by bolting, and the other is a welded joint. It is tubular in shape to be connected.

On the other hand, as shown in Fig. 7, by cutting a part of the first body 1 in the form of a semi-circular plate portion 9, by cutting off a portion of the old pipeline 100, the plate portion 9 ) Can also be directly connected by welding.

On the other hand, the third connector 13 is formed with a flange fitting hole (P) connected to the new pipe line 200 by fastening the bolt is connected in a flanged manner or directly connected to the new pipe line 200 by a welded joint.

The second body 2 has a cylindrical shape connected in a direction perpendicular to one side of the first body 1, the inlet 22 for introducing a pig (not shown) is formed at the top.

The inlet 22 is a place where the pig is injected, cylindrical and is installed on the upper portion of the second body 2, preferably the inclined portion 23 to be inclinedly connected to the second body 2 on one side It is formed of a coupling structure formed on both sides or.

After the piglets are introduced by the inclined portion 23, the pigs may be guided to be accurately positioned in the conduit by riding the inner surface of the inclined portion 23. The discharge operation is also induced to discharge toward (22).

The sealing plate 24 is coupled to the upper opening of the inlet 22 so that the sealing plate 24 is detachably attached.

The sealing plate 24 is further provided with a detection port 25 for the hydraulic pressure measurement and detection. The detection port 25 is a cylindrical tube having a very small diameter compared to the inlet 22, the cover 252 is attached to the upper portion, when not in use to close the cover 252 to close, to use the cover Opening (252), it is possible to insert a variety of detection equipment to measure.

The lower one side of the second body (2) is further formed with a drain (3) to draw out the accumulated water therein.

The turning port 14 is connected to the second body 2 and a conventional 90 ° elbow is employed as a connecting part for changing the direction.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, It is obvious that the claims fall within the scope of the claims.

1: first body 2: second body
3; Drain 9; Plate
11: first connector 13: third connector
14: direction switch 22: inlet
23: inclined portion 25: detection hole

Claims (10)

The present invention relates to a pair of water conversion inspection apparatus installed at a predetermined interval on the front and rear sides of the old pipeline 100 to be replaced,
A first body (1) having a first connector (11) connected to the aging pipe (100);
A second body 2 connected to one side of the first body 1 and having an inlet 22 for injecting a pig therein, and having an inclined portion 23 formed at at least one side of the inlet 22;
It is connected to the second body 2 and the direction change port 14 for changing the direction; And
And a third connector 13 connected to the redirection port 14 and connected to the new conduit 200.
Each of the first connector 11 of the pair of tassel cleaning checker is connected to the front and rear valves (V1, V2) provided in the front and rear sides of the aging conduit 100,
A second connector 12 is formed at each other end of the first body 1 of the pair of tassel cleaning devices so that the first and second valves V3 and V4 can be coupled thereto.
The inlet 22 is closed by the closing plate 24, the detection plate 25 is formed in the closing plate 24, the detection opening 25 is characterized in that the cover 252 is closed. Customs check system for water conversion. delete The method of claim 1,
Any one of the first connector (11) or the second connector (12) is a flange fitting (P) is formed so that it can be connected to the other pipe, the other one of the pipe for water conversion, characterized in that the connection to the welding joint Cleaning check device. The method of claim 1,
The first connector (11) and the second connector (12) is a water pipe switching pipe washing check device, characterized in that the flange is connected to the bolt (P) is fastened so as to be connected to the other pipe and the flange joint. The method of claim 1,
The third connector 13 is a flange fitting hole (P) is formed to be connected to the new pipe line 200 by fastening the bolt is connected to the flange pipe method or directly connected to the new pipe line 200 by a welding joint. A water system changeover tubing inspection device characterized in that. The method of claim 1,
The lower one side of the second body (2) is a water system conversion pipe washing inspection device, characterized in that the drain hole (3) is further formed to drain the water inside. The method of claim 1,
The direction change port 14 is connected to the second body (2) and the water changeover pipe inspection system, characterized in that 90 ° elbow as a connecting part for changing the direction. It is connected between the aging pipe 100 and the new pipe 200 and the pipe for cleaning pigs are input, one end is formed with a first connector 11 connected to the old pipe 100, the other end of the first, A first body 1 having a second connector 12 formed thereon so that the two valves V3 and V4 can be coupled; A second body (2) connected to one side of the first body (1) and having an inlet (22) for introducing a pig and an inclined portion (24) formed on at least one side of the inlet (22); It is connected to the second body 2 and the direction change port 14 for changing the direction; It is connected to the redirection port 14 and by using a pair of water conversion pipe washing check device consisting of a third connector 13 is connected to the new pipe 200, the inlet 22 is a closed plate ( 24 is closed, the closing plate 24 is formed with a detection hole 25, the detection hole 25 is replaced by a water supply pipe using a water system conversion tubing inspection device closed by a cover 252 In the construction method,
Performing a pipeline investigation to select an old pipeline 100 to be replaced (S1);
Digging a buried position of the aging pipe 100 (S2);
Three steps (S3) for transferring obstacles buried in the vicinity of the aging pipeline (100);
Four steps (S4) for stopping the flow of the constant water by blocking the front and rear valves (V1, V2) provided in the front and rear ends of the obsolete pipeline 100 to be replaced;
5 steps (S5) of separating the old pipe (100) between the front valve (V1) and the rear valve (V2);
A water-system switching tubular washing inspection device (A) is connected to the front valve (V1) and the rear valve (V2), respectively, and the first valve (V3) and the second valve (V4) to each of the second connector (12). 6) after each connection, demolishing the old pipe 100 for washing the water conversion system (S6);
Step 7 (S7) of installing a new conduit 200 to interconnect the respective water conversion switch for customs washing inspection (A);
Eight steps (S8) to conduct a water test on the new pipe (200)
Water supply pipe replacement construction method using a water conversion conversion pipe washing check device comprising a. The method of claim 8,
The sixth step (S6)
Installation of a water pipe replacement using a water pipe conversion pipe cleaning check system characterized in that the water pipe is installed to prevent the flow of water to the side of the demolition pipe 100 is removed by installing a pipe stopper (M) to the water conversion system Way. The method of claim 8,
Step 7 (S7) is
While gradually connecting the new pipe line 200, the process of checking whether the lead wires 300 connected to the old pipe line 100 to the new pipe line 200 after passing through the lead line 300 Water supply pipe replacement construction method using a water pipe switching system for cleaning check, comprising a.

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