KR101855162B1 - Pipe connect structure and pipe water leak sensing method for watertightness check - Google Patents

Abstract

The present invention relates to a pipe connection structure capable of inspecting water tightness in real time by using external pressure and a method of inspecting water leakage in real time by using the same for rapidly and easily inspecting the water tightness at a connection portion of pipes in a construction field of sewer pipes and sewage pipes. According to the present invention, an expansion portion (21) is formed at an end of a second pipe (20) such that one end of a first pipe (10) is inserted into the second pipe (10). A first rubber ring mount portion (22) is formed on an inner peripheral surface of the expansion portion (21) such that a first rubber ring (30) is fitted to the first rubber ring mount portion (22). A press ring (60) is fitted around the first pipe (10) to transfer pressing force to the first rubber ring (30). A fastening bolt (70) is fastened to the press ring (60). A second rubber ring mount portion (61) is provided on the press ring (60) at a position symmetrical to the position of the first rubber ring (30) such that a second rubber ring (40) can be mounted on the second rubber ring mount portion (61). A compression ring (50) is fitted between the first rubber ring (30) and the second rubber ring (40) to transfer compression force. A water tightness inspection hole (120) is formed at one side of the press ring (60) and a water tightness inspection unit is connected to the water tightness inspection hole (120) to inspect the internal water tightness state.

Description

TECHNICAL FIELD [0001] The present invention relates to a pipe connection structure capable of real-time watertightness checking using external pressure, and a real-time leak detection check method using the pipe connection structure.

The present invention relates to a pipe connection structure capable of real-time watertightness checking and a method of checking leakage of pipe connection. More particularly, the present invention relates to a pipe connection structure capable of easily checking water tightness by using pressure supplied from the outside, So that leak detection can be performed more quickly and easily.

Generally, pipelines used for water, agricultural, industrial sewage, etc. are connected by fitting devices and other exponential structures at regular intervals.

As a conventional example of such an exponential structure, Patent Registration No. 995105 has proposed a technique relating to a connection pipe for connection to a sewer pipe.

In the above-described prior art, the watertightness can be maintained by changing the structure of the packing pressed in the joint pipe.

In Patent Application No. 2006-129545, a technology related to leak detection has been proposed. In actual construction, the length of the sensing line can not be applied at regular intervals, so that the position of the leakage point is detected using the sensing line to determine the location of the damage point However, there is a problem that the error range is large.

In addition, there is a problem in that a separate cover member for installing only the detection sensor is installed, which raises the material cost and the construction cost.

The present invention has been proposed in order to solve the problems in the prior art described above, and it is an object of the present invention to provide a technology capable of easily performing construction and capable of real- So that it can be improved.

Also, it is aimed to be able to exhibit a strong effect against earthquake.

To achieve the above object, according to the present invention, an expansion part is formed at an end of a second tube so that one end of the first tube can be inserted; A first rubber ring seating portion is formed on the inner circumferential surface of the expansion portion to enable insertion of the first rubber ring; And a pressure ring for transmitting a pressing force to the first rubber ring is fitted on the outside of the first tube; A tightening bolt is fastened to the press ring; The pressure ring is provided with a second rubber ring seat so that the second rubber ring can be inserted into a position symmetrical with the first rubber ring; A compression ring for transmitting a pressing force is inserted between the first rubber ring and the second rubber ring; A watertight check hole is formed in the presser ring stop portion; Wherein the watertight check hole is connected to a pressure supply device for supplying pressure from the outside, a pressure measuring device for measuring a pressure change inside the pressure ring, and a leakage detection sensor for detecting leakage of water; And the sensing signal from the leakage sensor is transmitted to the manager via the transmitter in a wireless manner.

The present invention can quickly and easily check the watertightness of a pipe connection site at an installation site of an upper and a sewer pipe using an external pressure, thereby improving the quality of construction.

Especially, in case of damage of the connection part, the location information (GPS coordinate value, depth, construction date, etc.) is transmitted to the manager in real time, so that the GIS construction business is solved and at the same time, Even if road repair work is carried out immediately after pipeline construction without separate water pressure test, construction quality can be confirmed, and national economic effect and civil incidence can be reduced.

In addition, since the double exponential function is performed at the connection part of the water pipe, it is resistant to the earthquake, and it is possible to prevent the leakage of the connection part in advance and recognize the first leakage when it occurs.

Particularly, it is possible to predict stepwise whether the first leak or the second leak due to the second leak has occurred, and it is possible to respond appropriately according to the situation of the site.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a pipe connecting part according to an embodiment of the present invention. FIG.
FIG. 2 is a cross-sectional view of the pipe connection portion in the present invention in a cutaway state. FIG.
3 is a cross-sectional view of the pipe connecting portion in the present invention.
4 is an exploded perspective view of a pipe connection part in the present invention.
5 is a front structural view of a pressurizing ring part in the present invention.
6 is an exploded view of the water tightness check part using pressure supply in the present invention.
7 is a detail view of the end cap fastening section in the present invention.
8 is an overall exploded cross-sectional view of the pipe connecting portion of the present invention.
9 is an exploded cross-sectional view of a pipe connection according to a modified embodiment of the present invention;
FIG. 10 is a block diagram of an internal construction of a leakage detection sensor according to the present invention. FIG.
11 is an exploded perspective view of a steel pipe connection part according to another embodiment of the present invention.
12 is a water mill supporting structure according to another embodiment of the present invention;

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

First, a pipe connection structure capable of always checking water tightness according to an embodiment of the present invention will be described with reference to FIGS. 1 to 10.

An expansion portion 21 is formed at the end of the second pipe 20 so that one end of the first pipe 10 can be inserted into the connection portion between the first pipe 10 and the second pipe 20 constituting the water pipe A first rubber ring seating portion 22 is formed on the inner circumferential surface of the tube portion 21 so that the first rubber ring 30 can be inserted therein and a first rubber ring 30 , And a tightening bolt (70) is fastened to the presser ring (60).

A second rubber ring seating part 61 is provided on the pressurizing ring 60 so that the second rubber ring 40 can be inserted into a position symmetrical with the first rubber ring 30, 30 and the second rubber ring 40 are sandwiched by a compression ring 50 for transmitting a pressing force.

A bolt hole 90 'is formed in the pressing ring 60 so that a pressing bolt 90 for pressing the water milling 85 can be inserted through the bolt hole 90. The tip of the pressing bolt 90 is provided with a water mill 85 The washer 91 is constructed so that the pressing force for the pressing member 91 can be uniformly transmitted.

In the present invention, a water-tight check hole 120 is formed at one side of the pressurizing ring 60, and a water-tight check means for checking an inner water-tight state is connected as needed. A pressure feeder 100 for supplying a pressure from the outside and a pressure meter 110 for measuring a change in pressure inside the pressure ring 60.

After the watertightness check is completed, a leakage detection sensor 123 for detecting leakage is connected. The detection signal from the leakage detection sensor 123 is transmitted to the administrator via wired or wireless communication through the transmission unit 200 do.

In particular, as shown in FIG. 10, the water leakage sensor 123 of the present invention includes a pressure sensor 123a for sensing a pressure change, a position storage unit 123b for storing GPS coordinates of a current position, A depth storage unit 123c for storing the depth value of the current position from the ground, a date storage unit 123d for storing the installation date, and a control unit 123e for transmitting the respective data signals to the transmission unit 200 ). ≪ / RTI >

In the drawing, reference numeral 124 denotes a one-touch connector connected to one end of the watertight check means so as to enable one-touch attachment and detachment with the watertight check hole 120, and 125 denotes an end cap for finishing the watertight check hole 120.

Hereinafter, a pipe leakage detection process of the pipe connection structure according to the present invention will be described.

The connecting portion between the first tube 10 and the second tube 20 is joined by the tightening bolts 70 and a water tightness check device is attached to the water tightness check hole 120 of the pressure ring 60 And the watertightness of the joint portion is confirmed.

That is, at this time, as shown in FIG. 6, the pressure supplier 121 and the pressure meter 122 are connected to each other by using the one-touch connector 124, and the pressure supplier 121 is operated to supply the fluid or the gas onto the junction do.

If the pressure is maintained constant, it is determined that there is no problem in the watertightness of the pipe connection portion. If the measurement graduation is gradually decreased, it is determined that internal leakage occurs, .

For example, if it is ascertained that the watertightness of the joint is reduced, the watertightness can be further improved by further pressing the water mill 85 using the press bolt 90 without re-welding the joint.

The first rubber ring 30 and the second rubber ring 40 come into close contact with each other at the side of the tube portion 21. The second rubber ring 40 contacts the outer wall surface of the first tube 10 Even if leakage occurs due to a decrease in the water tightness of the first rubber ring 30, the second rubber ring 40 and the water milling 85 (i.e., the second rubber ring 40) are in close contact with the inner wall surface of the pressure ring 60, So that the effect of preventing the leakage of water is maximized in the pipe connecting portion.

Accordingly, the present invention can quickly and easily check the watertightness of the steel pipe connecting portion at the construction site of the steel pipe for water supply, using the external pressure, thereby improving the construction quality.

When the water tightness check is completed in the above manner, the connection between the pressure feeder 121 and the pressure measuring device 122 is removed, and the water leakage sensor 123 is installed at the corresponding position, The pipeline information can be detected and transmitted in real time, thereby facilitating maintenance of the pipeline.

In particular, in the leak detection sensor 123, the pressure sensing unit 123a senses a change in the pressure inside the pipe connection unit, calculates a pressure change value by a GPS coordinate value of the current position, a depth value of the current position from the ground, And the like, and thus the manager shows an advantage of being able to perform the repair work of the correct position quickly.

11 shows a pipe connection structure according to another embodiment of the present invention. In order to insert one end of the first pipe 10, an expanding portion 21 is formed at the end of the second pipe 20 A first rubber ring seating portion 22 is formed on the inner circumferential surface of the tube portion 21 so that the first rubber ring 30 can be inserted therein and the first rubber ring 30 is provided with a pressing force A tightening bolt 70 is fastened to the presser ring 60 and a fastening bolt 70 is fastened to the outer circumferential surface of the expanding portion 21 so that the end of the tightening bolt 70 can be supported A second rubber ring 40 is inserted into the pressing ring 60 at a position symmetrical to the first rubber ring 30 and the first rubber ring 30 and the second rubber ring 40 are inserted into the pressing ring 60, A water tightness hole 120 is formed on one side of the pressure ring 60 and a water tightness hole 120 is formed in the water tightness hole 120 so as to check the inner water tightness Watertight inspection means are be connected.

Accordingly, the present invention can quickly and easily check the watertightness of pipe connection sites at various construction sites such as steel pipes and cast iron pipes using external pressure, thereby improving the quality of construction.

12 shows a structure according to another embodiment of the present invention. The distal end of the water mill 85 has a curved shape of a predetermined curvature, and at one end of the corresponding second tube 20, (23) is formed.

When the distal end of the water mill 85 is seated and supported in the curved groove 23 as described above, it is possible to prevent the water mill 85 from being pushed upward due to the internal water pressure.

Although specific embodiments of the present invention have been illustrated and described above, it should be apparent that the watertightness checker installation structure of the present invention can be installed on steel or steel tube joints of various structures.

Therefore, it should be understood that such modified embodiments should not be understood individually from the technical spirit and scope of the present invention, and such modified embodiments should be included in the appended claims of the present invention.

10: first pipe 20: second pipe
21: expansion part 22: first rubber ring seat part
30: first rubber ring 40: second rubber ring
50: compression ring 60: pressure ring
61: second rubber ring seating part 70: tightening bolt
70 ', 90': Bolt hole 85: Water milling
90: Press bolt 91: Washer
100: pressure feeder 110: pressure meter
120: watertight check hole 121: pressure feeder
122: Pressure gauge 123: Leak detection sensor
124: one-touch connector 125: end cap

Claims (10)

An expanding portion 21 is formed at the end of the second tube 20 so that one end of the first tube 10 can be inserted;
A first rubber ring seating part (22) is formed on the inner circumferential surface of the expansion part (21) so that the first rubber ring (30) can be inserted;
A pressing ring (60) for transmitting a pressing force to the first rubber ring (30) is fitted on the outside of the first tube (10);
A tightening bolt (70) is fastened to the pressure ring (60);
A second rubber ring seating portion (61) is provided on the pressing ring (60) so that the second rubber ring (40) can be inserted at a position symmetrical to the first rubber ring (30);
A compression ring 50 for transmitting a pressing force is interposed between the first rubber ring 30 and the second rubber ring 40;
A watertight check hole 120 is formed at one side of the pressure ring 60;
The watertight check hole 120 is connected to a watertight check means for checking an internal watertight condition;
A water milling 85 is formed inside the pressurizing ring 60;
A pressing bolt (90) is inserted through the pressing ring (60);
Wherein a washer (91) is provided at the tip of the pressing bolt (90) so that a pressing force against the water milling (85) can be uniformly transmitted. delete The method according to claim 1,
The watertightness check means includes a pressure supply device 121 for supplying pressure from the outside and a pressure measuring device 122 for measuring a change in pressure inside the pressure ring 60. Pipe connection structure. The method according to claim 1,
The watertightness checking means is connected to a leakage detection sensor 123 for detecting the leakage of water due to the pressure change inside the pressure ring 60. The detection signal from the leakage detection sensor 123 is transmitted through the transmission unit 200 The pipe connection structure is capable of real-time water tightness checking using an external pressure, which is transmitted to a manager by wire or wirelessly. The method of claim 4,
The water leakage sensor 123 includes a pressure sensor 123a for detecting a pressure change, a position storage unit 123b for storing GPS coordinate values of the current position, And a control unit 123e for transmitting the respective data signals to the transmission unit 200. The control unit 123e controls the external storage unit 123a to store the installation date, Pipe connection structure that can check real time water tightness by using. delete The method according to claim 1,
Wherein a front end portion of the water milling ring 85 has a curved surface shape having a predetermined curvature and a curved groove 23 is formed at one end of the corresponding second tube 20, Pipe connection structure. In the state that the pipe connection structure according to any one of claims 1 to 7 is installed, the pressure supply device (121) and the pressure measuring device (122) are connected to the watertight check hole (120) The water pressure sensor 122 is supplied with water from the feeder 121 and then the pressure change is detected by the pressure meter 122. Thereafter, the water supply sensor 121 is inserted into the watertightness check hole 120 after removing the pressure feeder 121 and the pressure meter 122, It is confirmed that the numerical change of the internal pressure is detected in real time. If it is confirmed that the water tightness of the pipe connecting portion is reduced through the pressure change, the water milling 85 is further pressurized by using the press bolt 90 without re- And the state is improved.
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