KR20230171150A - Connecting Joint of Waterworks Pipe and Leaking Water Detection System using the same - Google Patents

Abstract

The present invention relates to a water pipe connection joint that can block water leaks by fixing a plurality of water pipes by welding and a water leak measurement system using the same. Specifically, it is formed on a plurality of pipes arranged adjacent to each other and at the ends of the pipes, It is provided with a plurality of flanges formed to face each other, a plurality of flanges being fixed, a connection clamp that adjusts the position of the pipe, and a connection joint fastened to the outside of the flange fixed by the connection clamp.

Description

Water pipe connection joint and leakage measurement system using the same {Connecting Joint of Waterworks Pipe and Leaking Water Detection System using the same}

The present invention relates to a water pipe connection joint that can block water leaks by fixing a plurality of water pipes by welding and a water leak measurement system utilizing the same.

Patent document 001 refers to a first water pipe located at the upper side of two water pipes connected by a steel pipe overlap weld joint; a second water pipe located lower among the two water pipes; an external welding portion formed by welding an upper surface of the second water pipe and one end surface of the first water pipe; and an internal welded portion formed by welding the other end surface of the second water pipe and the lower surface of the first water pipe. In the quality inspection device for the internal welded portion of the water pipe, the length can be adjusted by being controlled by a control device, A pair of pillars spaced apart from each other by a predetermined distance and installed in close contact with the inner peripheral surface of the internal welded portion; a first rod connecting the pair of pillars and rotatable at a constant speed by a first motor; a main body that surrounds the outer surface of the first rod and is movable to one side or the other along the longitudinal direction of the first rod; A second rod equipped with a scanning device at one end and installed on one side of the main body, the length of which is adjustable; And, an angle adjustment device that adjusts the angle at which the scanning device is in close contact with the outer surface of the inner welding portion so that the scanning device can be in close vertical contact with the outer surface of the inner welding portion.

Patent Document 002 relates to an automatic welding device for butt jointing continuously arranged steel pipes; The automatic welding device includes an a curved movement unit in which a transport roller is fixedly installed on the motor body of the X-axis movement unit and coupled to a joint body having a curved rail to move the motor in a curved manner; a Z-axis movement unit configured to move up and down by having one end of the body of the joint body and the support plate fixed, and the other end being axially coupled to a screw shaft driven by the operation of a motor; A Y-axis movement unit configured to move the base on which the Z-axis movement unit is fixed to the body with a screw shaft driven by operation of a motor to move left and right; A body that has a box shape and operates a traveling roller coupled to a drive shaft outside the box by the operation of a drive motor inside the body, and is constructed by fastening and fixing the body of the Y-axis movement unit to the upper part of the box; The upper base that slides along the screw axis supported in the Y direction at the top of the body and the lower base combined with the magnet are connected by a link piece, and the magnet controls the adhesion force by rotating the upper base with a handle coupled to one end of the screw shaft. A technology including a generator is presented.

Patent Document 003 includes a traveling unit capable of moving along the inside of a steel pipe arranged in a row for welding a joint; A root gap maintenance unit that is installed in each of the traveling units and maintains the root gap when approaching the two steel pipes so that the two steel pipes to be connected by welding face each other among the arrayed steel pipes, and an alignment unit that aligns and shapes the ends of the two steel pipes. - Formal units; It includes a holding unit that fixes the position of the traveling unit with respect to the steel pipe, wherein the traveling unit includes a center frame on which the root gap holding unit and the alignment-straightening unit are respectively installed; Each is mounted on the front and rear of the center frame and is spaced apart from each other in the anteroposterior direction, and has three or more front wheels and three or more rear wheels arranged at equal intervals along the circumferential direction centered on the center line in the anteroposterior direction, respectively. It includes a front wheel assembly and a rear wheel assembly in which the front wheels and the three or more rear wheels have the same size, and the front wheel assembly includes a front wheel moving means that moves the three or more front wheels in the same direction in a direction that is spaced apart and approaching the center line. And, the rear wheel assembly includes rear wheel moving means for moving the three or more rear wheels to be positioned on the same radius as the three or more front wheels in a direction spaced apart and approaching the center line, so that the two steel pipes are connected to the three or more front wheels. And when three or more of the rear wheels are spaced apart from the center line and located on the same radius and come into close contact with each other, the centers are aligned with each other, and the front wheel assembly or the rear wheel assembly is a drive that rotates the front wheel or the rear wheel. It presents a technique that includes more means.

Patented invention 004 is a small pipe located along the longitudinal direction of the water pipe on the outer peripheral surface of the water pipe; A connecting strip connecting the outer peripheral surface of the water pipe and the small pipe, the width of which is less than or equal to the diameter of the small pipe; And a conductor inserted into the small pipe; It presents a technology that includes.

KR 10-2359624 B1 (February 3, 2022) KR 10-2013-0078349 A (July 10, 2013) KR 10-2085264 B1 (February 25, 2020) KR 10-1088064 B1 (November 23, 2011)

The present invention relates to a water pipe connection joint that can block water leaks by fixing a plurality of water pipes by welding and a water leak measurement system utilizing the same.

It is intended to solve the problems of prior inventions, and the present invention relates to a water pipe connection joint, including a plurality of pipes 100 arranged adjacent to each other; A flange (200) is formed at the end of the pipe (100) and is formed so that a plurality of flanges (200) face each other; A connection clamp 300 that secures the plurality of flanges 200 and adjusts the position of the pipe 100; It consists of a configuration including a connection joint 400 fastened to the outside of the flange 200 fixed by the connection clamp 300.

The present invention relates to a water pipe connection joint, and includes the pipe 100; Flange (200); Connection clamp (300); The invention consists of a connecting joint (400); a first pipe (110) formed in the pipe (100) and fixed to the ground; A second pipe 120 is installed to face the first pipe 110.

The present invention relates to a water pipe connection joint, and includes the pipe 100; Flange (200); Connection clamp (300); The invention consists of a connection joint (400); a first clamp (301) formed on the connection clamp (300) and seated on the lower part of the pipe (100); A second clamp 302 is formed to face the first clamp 301 and is seated on the upper part of the pipe 100.

The present invention relates to a water pipe connection joint, and includes the pipe 100; Flange (200); Connection clamp (300); The invention consists of a connection joint (400), which is formed on the connection clamp (300) and includes a receiving portion (310) in which the flange (200) is accommodated; A welding portion 320 is formed to be recessed in the center of the receiving portion 310 and fixes the plurality of flanges 200 by welding.

The present invention relates to a water pipe connection joint, and includes the pipe 100; Flange (200); Connection clamp (300); The invention consists of a connecting joint 400; an adjusting device 311 formed in the receiving portion 310 and adjusting the position of the second pipe 120; A cylinder 313 is formed on the control device 311 and moves the second pipe 120 using hydraulic and pneumatic pressure.

The present invention relates to a water pipe connection joint, and includes the pipe 100; Flange (200); Connection clamp (300); The invention consists of a connection joint (400); a welding device (330) formed on the weld portion (320) and combining the plurality of flanges (200) by welding; A moving device 340 is formed in the welding portion 320 and moves the welding device 330 outward.

The present invention relates to a water pipe connection joint, and includes the pipe 100; Flange (200); Connection clamp (300); The invention consists of a connection joint (400); a removal device (331) formed on the welding device (330) and removing a weld bead protruding to the outside; A coating device 332 is formed to be spaced apart from the removal device 331 and coats the welded portion 320.

The present invention relates to a water pipe connection joint, and includes the pipe 100; Flange (200); Connection clamp (300); The invention consists of a connection joint (400); a moving member (341) formed on the moving device (340) and inside the connecting clamp (300); The moving member 341 is seated, and a moving gear 342 that rotates by power is added.

The present invention relates to a water leak measurement system using a water pipe connection joint, and includes the pipe 100; Flange (200); Connection clamp (300); In the invention consisting of a connection joint (400), a water pipe leak measurement system utilizing the water pipe connection joint of any one of claims 1 to 8 is formed in the connection joint (400) and is located inside the pipe (100). A measurement sensor 410 that measures the flow rate or flow rate of; A communication device 420 formed on the measurement sensor 410 and communicating the flow rate or flow rate inside the pipe 100; A control server 500 that communicates with each of the plurality of communication devices 420 and is formed on the outside of the pipe 100 to measure water leakage is added.

The present invention relates to a water leak measurement system using a water pipe connection joint, and includes the pipe 100; Flange (200); Connection clamp (300); The invention consists of a connection joint (400); a prediction unit (510) formed in the control server (500) and predicting water leakage by calculating information measured by the plurality of measurement sensors (410); A control unit 520 that adjusts the flow rate and flow rate of the pipe 100 is added.

The present invention can block water leakage by fixing a plurality of pipes by welding.

The present invention allows welding to proceed automatically by fastening connection clamps to the outside of a plurality of flanges.

The present invention allows controlling the position of the pipe in the connection clamp.

In the present invention, after welding a plurality of flanges, the beads can be removed and coated at the same time to effectively fix the flanges.

In the present invention, a measuring sensor is formed in the connection joint, so that water leakage can be measured from the control server.

The present invention can effectively block water leakage by fastening the connection joint after fixing the flange with a connection clamp.

Figure 1 is a perspective view showing a water pipe connection joint of the present invention.
Figure 2 is a cross-sectional view of the water pipe connection joint of the present invention.
Figures 3 and 4 are cross-sectional views of the connection clamp shown in Figure 2.
Figure 5 is a conceptual diagram showing a pipe in which the connection joint of the present invention is installed.
Figure 6 is a conceptual diagram of a water leak measurement system using the water pipe connection joint of the present invention.

Hereinafter, the most preferred embodiments of the present invention will be described in detail in order to enable those skilled in the art to easily practice the present invention.

Numbers cited in the examples below are not limited to the objects of citation and can be applied to all examples. An object that has the same purpose and effect as the configuration presented in the examples is an equivalent replacement object. The high-level concept presented in the examples includes low-level concept objects that are not described.

Figure 1 is a perspective view showing the water pipe connection joint of the present invention, and Figure 2 is a cross-sectional view of the water pipe connection joint of the present invention.

As shown in Figures 1 and 2, the water pipe connection joint according to an embodiment of the present invention is used for water pipes, but can be used for various purposes such as water supply, drainage, hot water supply, cooling, heating, and gas, and has various lengths and Connecting a plurality of pipes 100 formed in different diameters. At this time, the water pipe connection joint of the present invention fixes a plurality of water pipes by welding to solve the problem of difficulty in replacement and repair when water leaks occur at a location where a plurality of pipes 100 are joined.

This water pipe connection joint is formed at the end of the plurality of pipes 100 and the pipes 100 arranged adjacent to each other, and secures the plurality of flanges 200 and the plurality of flanges 200 formed to face each other, It is provided with a connection clamp 300 that adjusts the position of the pipe 100 and a connection joint 400 fastened to the outside of the flange 200 fixed by the connection clamp 300.

The plurality of pipes 100 includes a first pipe 110 that is first fixed in the ground, and a second pipe 120 that is installed so that one end of the first pipe 110 faces each other. At this time, flanges 200 are formed at the ends of the first pipe 110 and the second pipe 120, respectively. The flanges 200 are generally fixed with bolts, but if they are formed with bolts, water leakage may occur due to water pressure. You can. The flange 200 is formed to protrude to the outside of the pipe 100, but has the disadvantage of widening its diameter because a fastening hole into which the bolt is fastened must be formed. On the other hand, in the present invention, since a plurality of flanges 200 are joined by welding, the diameter of the flange 200 is not widened, and the size of the joint can be reduced.

In this way, a connection clamp 300 is formed to couple the flange 200 so that the first pipe 110 and the second pipe 120 are adjacent to each other, and the connection clamp 300 is a first pipe fixed in the ground ( After adjusting the position of the second pipe 120 so that it butts against 110) and simultaneously performing welding, it can be removed from the pipe 100.

The connection clamp 300 is formed with a first clamp 301 that is seated on the lower part of the first pipe 110 and the second pipe 120, and a second clamp 302 is provided on the upper part of the first clamp 301. They are formed so that they butt against each other. And the connection clamp 300 is formed with a receiving portion 310 that is recessed inward to accommodate the plurality of flanges 200 therein, and the receiving portion 310 is formed to be the same or larger than the size of the flange 200. is formed

The receiving part 310 is formed with an adjusting device 311 for adjusting the position of the second pipe 120, and the adjusting device 311 is a flange formed on the first pipe 110 and the second pipe 120. An adjusting plate 312 in contact with one surface of 200 and a cylinder 313 that changes the position of the adjusting plate 312 are formed. At this time, the control plate 312 can be omitted, and pressure is applied to the second pipe 120 by the cylinder 313 to change the position of the first pipe 110 and the second pipe 120 so that they face each other. And the cylinder 313 is formed inside the connection clamp 300, and changes the position of the second pipe 120 using pneumatic pressure from the outside.

In this way, when the position of the second pipe 120 is adjusted so that it is accurately brought into contact with the first pipe 110, a weld portion 320 that secures the plurality of flanges 200 by welding is formed. Referring to FIGS. 3 and 4, the welding portion 320 is formed by a welding device 330 that combines a plurality of flanges 200 by welding, and the welding device 330 is connected by a moving device 340 with a connection clamp ( 300) moves according to the shape of the flange 200. The welding device 330 fixes the flange 200 using various welding methods. The welding device 330 supplies a plurality of flanges 200 using current supplied from the outside. At this time, the welding device 330 may protrude toward the flange 200 by a separate cylinder formed by hydraulic and pneumatic pressure, and when the plurality of flanges 200 are welded by the welding device 330, the flange 200 ) A removal device 331 is formed to remove the weld bead protruding from the weld bead. This is to prevent a gap from occurring between the connection joint 400 and the flange 200, which are joined to the outside of the plurality of flanges 200 by the protruding weld beads.

And when the welding device 330 is moved by the moving device 340, the welding bead is removed by the removing device 331, and when the welding bead is removed to match the flange 200, the welding portion ( 320) Proceed with coating and waterproofing treatment. At this time, the coating device 332 can spray the coating material through a nozzle or apply the coating material to the weld bead.

In addition, the moving device 340 is formed with a moving member 341 formed of a wire or chain inside the connection clamp 300, and the moving member 341 rotates to a curved surface by a plurality of moving gears 342, thereby welding. The flange 200 can be welded while moving the device 330. And the welding device 330, which moves by the moving device 340, moves in a moving space formed by being recessed further inward than the receiving portion 310, and a guide rail is formed in the moving space to allow the welding device 330 to move. guide.

In this way, when the connection clamp 300 is fastened to surround the plurality of flanges 200, the plurality of flanges 200 can be fixed as the welding device 330 inside the connection clamp 300 moves to a curved surface.

When the pipe 100 is exposed to the outside, the connection clamp 300 is mounted after welding a plurality of flanges 200, but when the pipe 100 is buried in the ground, the connection clamp 300 is removed. And the plurality of flanges 200 are coupled by a connection joint 400. Referring to FIG. 5, a plurality of connection joints 400 are formed to surround a plurality of flanges 200, and the plurality of connection joints 400 are fastened with bolts or the like. In addition, the connection joint 400 can prevent water leakage by forming a sealing member inside.

Hereinafter, in describing a water leakage measurement system using a water pipe connection joint according to another embodiment of the present invention, the same reference numbers are used for the same configuration as the water pipe connection joint according to the above-described embodiment, and a detailed description thereof is provided. is omitted.

Figure 6 is a conceptual diagram of a water leak measurement system using the water pipe connection joint of the present invention.

As shown in Figure 6, the water leak measurement system utilizing a water pipe connection joint according to an embodiment of the present invention measures the flow rate or flow rate inside the pipe 100 at the connection joint 400 connecting a plurality of pipes 100. By measuring and communicating with the control server 500 outside the pipe 100, water leakage in the pipe 100 can be measured at all times.

The water leakage measurement system utilizing these water pipe connection joints is formed on the connection joint 400, and on the measurement sensor 410 and a measurement sensor 410 that measures the flow rate or flow rate inside the pipe 100, and the pipe ( 100) It is provided with a communication device 420 that communicates the internal flow rate or flow rate and a control server 500 that communicates with a plurality of communication devices 420 and is formed on the outside of the pipe 100 to measure water leakage.

The measurement sensor 410 is formed in the connection joint 400 and utilizes an electric and magnetic field signal to measure the flow rate or flow rate inside the pipe 100, or protrudes inward from the connection joint 400 to enter the inside of the pipe 100. The flow rate or flow rate is measured using an inserted measuring rod.

And the communication device 420 is formed to protrude inside or outside the connection joint 400 together with the measurement sensor 410, and communicates with the control server 500 formed on the ground or in an external building. At this time, when the control server 500 receives the information measured by the measurement sensor 410 through the communication device 420, the control server 500 calculates oil pressure, flow rate, flow rate, etc. using the information and predicts water leakage. (510) is formed. In addition, it is possible to determine whether the flow rate and flow rate inside the pipe 100 are temporarily changed by adjusting the flow rate and flow rate of the pipe 100 according to the water leak predicted by the prediction unit 510. After adjusting the flow rate and flow rate of the pipe 100 in the control unit 520, if the prediction unit 510 determines that there is a water leak, the pipe 100 is repaired.

In this way, the control server 500 can reduce damage caused by water leakage by constantly measuring the plurality of pipes 100 to determine water leakage.

In the above, a water pipe connection joint and a water leak measurement system utilizing the same according to an embodiment of the present invention have been described, but the spirit of the present invention is not limited to the embodiments presented in this specification. Additionally, a person skilled in the art who understands the spirit of the present invention will be able to easily suggest other embodiments by adding, changing, deleting, or adding components within the scope of the same spirit, but this is also within the scope of the present invention. They will say it costs money.

100: Pipe 110: First pipe
120: 2nd pipe 200: Flange
300: Connection clamp 301: First clamp
302: second clamp 310: receiving portion
311: control device 312: control panel
313: cylinder 320: welding portion
330: welding device 331: removal device
332: coating device 340: moving device
341: moving member 342: moving gear
400: connection joint 410: measurement sensor
420: Communication device 500: Control server
510: prediction unit 520: control unit

Claims (10)

A plurality of pipes 100 arranged adjacent to each other;
A plurality of flanges 200 are formed at the end of the pipe 100 to face each other;
A connection clamp 300 that secures the plurality of flanges 200 and adjusts the position of the pipe 100;
A water pipe connection joint comprising a connection joint (400) fastened to the outside of the flange (200) fixed by the connection clamp (300).
In claim 1,
A first pipe 110 formed in the pipe 100 and fixed to the ground;
A water pipe connection joint including a second pipe (120) installed to face the first pipe (110).
In claim 2,
A first clamp 301 formed on the connection clamp 300 and seated on the lower part of the pipe 100;
A water pipe connection joint comprising a second clamp (302) formed to face the first clamp (301) and seated on an upper part of the pipe (100).
In claim 2,
A receiving portion 310 formed on the connection clamp 300 and receiving the flange 200;
A water pipe connection joint comprising a welding portion 320 that is formed to be depressed in the center of the receiving portion 310 and fixes the plurality of flanges 200 by welding.
In claim 4,
An adjusting device 311 formed in the receiving portion 310 and controlling the position of the second pipe 120;
A water pipe connection joint including a cylinder 313 formed on the control device 311 and moving the second pipe 120 by hydraulic and pneumatic pressure.
In claim 4,
A welding device 330 formed on the welding portion 320 and combining the plurality of flanges 200 by welding;
A water pipe connection joint comprising a moving device 340 formed at the welding portion 320 and moving the welding device 330 outward.
In claim 6,
A removal device 331 formed on the welding device 330 to remove weld beads protruding outward;
A water pipe connection joint including a coating device 332 that is formed to be spaced apart from the removal device 331 and coats the welded portion 320.
In claim 6,
A moving member 341 formed on the moving device 340 and inside the connection clamp 300;
A water pipe connection joint including a moving gear 342 on which the moving member 341 is seated and rotated by power.
In the water pipe leak measurement system using the water pipe connection joint of any one of claims 1 to 8,
A measurement sensor 410 formed on the connection joint 400 and measuring the flow rate or flow rate inside the pipe 100;
A communication device 420 formed on the measurement sensor 410 and communicating the flow rate or flow rate inside the pipe 100;
A water leakage measurement system utilizing a water pipe connection joint, including a control server 500 that communicates with each of the plurality of communication devices 420 and is formed on the outside of the pipe 100 to measure water leakage.
In claim 9,
A prediction unit 510 formed in the control server 500 and predicting water leakage by calculating information measured by the plurality of measurement sensors 410;
A water leak measurement system using a water pipe connection joint including a control unit 520 that controls the flow rate and flow rate of the pipe 100.