KR101762614B1 - Monitoring Equipment for water supply pipe - Google Patents

Abstract

According to the present invention, the present invention provides a safety monitoring device for a waterworks pipe for detecting a leakage and a location change of the waterworks pipe (1) which comprises: a leakage signal detecting part (100) for detecting a leakage signal (a) due to the leakage; a location change detecting part (200) for detecting the location change of the waterworks pipe (1); and an angle change detecting part (300) for detecting a slope change of the waterworks pipe (2). According to the present invention, the safety monitoring device for a waterworks pipe can measure the leakage occurred from the waterworks pipe as well as can detect the leakage and the location change of the waterworks pipe which can detect the slope or the location change of the waterworks pipe.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a safety monitoring apparatus for a water pipe,

More particularly, the present invention relates to a safety monitoring apparatus for a water pipe which detects leakage and position change of a water pipe, and more particularly relates to a safety monitoring apparatus for a water pipe which detects a leakage signal due to leakage of a water pipe by using a piezoelectric element A safety monitoring device for monitoring the presence or the position of a water line of a water line and monitoring the safety of the water line by monitoring the inclination and position change of the water line. ≪ / RTI >

Generally, pipes (pipes) for supplying fluid to remote places such as water pipes, oil pipelines, and gas pipes are installed underground or exposed to the ground, extending from several hundred meters to several tens of kilometers long.

These ducts are subject to cracking due to contraction and expansion due to external environment such as corrosion, external shock, temperature, etc., resulting in problems such as leakage of the fluid flowing in the pipeline to the outside or severance of pipeline do.

If the pipeline is exposed to the outside when the pipeline leaks from the pipeline due to such damage or aging of the pipeline or other causes, it is possible to easily grasp the leakage point of the fluid or the degree of leakage, so that the maintenance of the pipeline can be performed relatively quickly have.

However, when the conduit is embedded in the underground or the wall and is visually blocked from the outside, the occurrence of the conduit abnormality is often not recognized early, and when the internal fluid leaks due to the breakage of the conduit, It is impossible to detect the abnormality of the pipeline only after a lot of economic loss occurs and the point where the fluid leaks can not be accurately known. Thus, it takes a lot of time and cost to repair the pipeline.

Although a method of measuring the resistance (leakage) point of the pipeline by measuring the resistance of the pipeline in order to grasp the leakage point of the buried pipeline is widely used, the conventional pipeline for measuring the resistance has a problem in that a metal sensor wire is inserted It is difficult to manufacture a pipe line.

Patent Document No. 10-1167264 discloses an antenna unit 12 and a plurality of sensor nodes 13 installed in a main body 11 of a pipeline 10 to detect leaks, And transmits the data to the management unit at the remote site through the antenna unit 12.

However, since the channel 10 is buried in the ground, data transmission using wireless communication has a problem that transmission is difficult due to the influence of the surrounding environment.

In addition, there is a problem in that the pipeline according to the related art is difficult to perform maintenance such as repairing the location of the sensor node 13 after being buried in the ground and repairing the sensor node 13 when the sensor node 13 is malfunctioned or damaged .

In addition, if leakage of the surrounding soil is continued due to the leakage of the pipeline, the slope or position of the pipeline may be changed, which may interfere with the structural safety of the structure and cause serious leakage or ground collapse.

However, in the conventional pipe leakage monitoring system, it is difficult to measure the structural risk due to the change of the tilt of the pipe or the change of the position because the pipe leakage detection only detects the leakage sound in the pipe.

An object of the present invention is to provide a water leakage measuring apparatus and method which can measure a leakage occurring in a water pipe and can detect a slope and a change in position of a water pipe, And to provide a safety monitoring method for a water pipe using the same.

It is another object of the present invention to provide a water pipe capable of detecting leakage and position change of a water pipe for sensing and monitoring a meaningful leaking phenomenon, a tilt, and a positional change that may hinder the structural safety of a water pipe in real time, And a safety monitoring method for a water pipe using the same.

According to an aspect of the present invention, there is provided a safety monitoring apparatus for a water pipe for detecting a leakage and a change in position of a water pipe (1), comprising: a leakage signal sensing unit (100) for sensing a leakage signal ); A position change sensing unit 200 for sensing a change in the position of the water line 1; And an angle change sensing unit (300) for sensing a change in the slope of the water line (1).

The present invention further includes a coupling unit 400 coupling the leakage signal sensing unit 100, the position change sensing unit 200, and the angle change sensing unit 300 to the water line 1 A safety monitoring device for a water pipe.

The leakage signal sensing unit 100 includes: a piezoelectric element 110 generating an electric signal by pressure; And a piezoelectric element weight (120) receiving wave energy according to the leakage and converting the wave energy into pressure energy to provide pressure to the piezoelectric element (110) It can be a monitoring device.

The position change sensing unit 200 includes an accelerometer sensor 200a for measuring a change in acceleration applied to the position change sensing unit 200 according to a change in the position of the water line 1 Which may be a safety monitoring device for a water line.

The gyro sensor 300a measures changes in x, y, and z-axis angular velocity applied to the angle change sensing unit 300 according to a change in the slope of the water line 1, And a safety monitoring device for a water pipe.

And a control unit (500) for controlling the leakage signal sensing unit (100), the position change sensing unit (200) and the angle change sensing unit (300) Lt; / RTI >

The leakage detection unit 100, the position change detection unit 200, and the angle change detection unit 300 are connected to the housing 600 through wired or wireless communication, And a communication cable (700) connected to the control unit.

According to another aspect of the present invention, there is provided a safety monitoring method for a water pipe using a safety monitoring device for a water pipe, comprising the steps of: detecting the occurrence of the leakage signal (a) A first step S100 of determining a leaked suspicious area by measuring using the first step A second step S200 of installing the water safety monitoring device on both sides of the leaked water sensing area, and a third step S300 of installing the water leakage monitoring device 100 for the water safety monitoring device, A third step (S300) of analyzing a time difference of the signal (a) to determine a leak point, and a third step (S300) of a water pipe safety monitoring method.

According to another aspect of the present invention, there is provided a safety monitoring method for a water pipe using a safety monitoring apparatus for a water pipe, comprising the steps of sensing a change in the position of the water pipe 1 using the position change sensing unit 200, And a step of selecting a suspected change area.

According to another aspect of the present invention, there is provided a safety monitoring method for a water pipe using a safety monitoring device for a water pipe, wherein a change in the inclination of the water pipe (1) is sensed using the angle change sensing part (300) And a step of selecting a suspected change area.

According to the present invention, it is possible to detect leakage or position change of a water pipe, which can detect a leaking water generated in a water pipe and a change in a slope or a position of the water pipe.

According to the present invention, it is possible to detect and monitor meaningful leaking phenomena, tilts, and position changes that can hinder the structural safety of a water line in real time.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a structural view of a safety monitor for a water line according to an embodiment of the present invention; FIG.

2 is a view for explaining a method of detecting leakage by using a safety monitoring apparatus for a water pipe according to an embodiment of the present invention.
3 is a view for explaining a method for detecting a change in the position of a water line using a safety monitor for a water line according to an embodiment of the present invention.
4 is a view for explaining a method for detecting whether a gradient of a water line is changed by using a safety monitoring apparatus for a water line according to an embodiment of the present invention.

A safety monitoring apparatus for a water line and a safety monitoring method for a water line using the same according to the present invention will be described in detail with reference to the accompanying drawings, In the following description, the same or corresponding components are denoted by the same reference numerals, and redundant description thereof will be omitted.

It is also to be understood that the terms first, second, etc. used hereinafter are merely reference numerals for distinguishing between identical or corresponding components, and the same or corresponding components are defined by terms such as first, second, no.

In addition, the term " coupled " is used not only in the case of direct physical contact between the respective constituent elements in the contact relation between the constituent elements, but also means that other constituent elements are interposed between the constituent elements, Use them as a concept to cover each contact.

The present invention relates to a safety monitoring apparatus for a water supply pipe equipped with a composite sensor capable of detecting a change in inclination and a change in position of the water pipe 1 in combination.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

The safety monitoring apparatus for a water pipe according to an embodiment of the present invention includes a leakage signal sensing unit 100 for sensing a leakage signal a due to leakage, a position change sensing unit 110 for sensing a change in position of the water pipe 1, And an angle change sensing unit 300 for sensing a change in the inclination of the water channel 200 and the water channel 1 (FIG. 1).

The apparatus may further include a coupling unit 400 coupling the leakage signal sensing unit 100, the position change sensing unit 200, and the angle change sensing unit 300 to the water conduit 1 (FIG. 1).

Since the structural safety of the water line 1 is caused by leakage, inclination or positional change, it is necessary to detect such a change and to make it possible to efficiently maintain and maintain the water line 1.

The leakage signal sensing unit 100 senses the leakage signal a generated by the leakage. The leakage signal (a) may be vibration due to piping vibration caused by leakage or leakage sound. In order to detect such a wave, the leakage signal sensing unit 100 receives a piezoelectric element 110 that generates an electric signal by pressure, and a piezoelectric element 110 that receives wave energy due to leakage and converts wave energy to pressure energy, (See Fig. 1).

The leakage signal sensing unit 100 includes an external cap 130 for transmitting external wave energy to the piezoelectric element weight 120 and an elastic member 140 disposed between the piezoelectric element weight 120 and the external cap 130. [ ) (Fig. 1).

When this structure is taken, when the wave energy generated by the leakage water is transmitted to the piezoelectric element 110 through the external cap 130 and the piezoelectric element weight 120, a current is generated in the piezoelectric element 110, It is possible to detect whether or not the leakage signal a is generated.

However, since the water line includes noises generated due to the use of the water or the surrounding vehicles, in addition to the water leakage signal (a), the water leakage signal (b) based on the noise reference signal (a) is generated.

It is preferable that the predetermined reference leak signal b is measured at the time of the dawn etc. in which the aforementioned noise is minimized.

It is possible to measure whether or not the noise signal a is generated by measuring a signal added in the same time zone based on a predetermined reference leak signal b.

When the occurrence of the leakage signal (a) exceeding the predetermined reference leakage signal (b) is detected, the corresponding region is selected as the leakage suspected region, and two or more safety monitoring apparatuses for the water pipe according to the present invention are installed on both sides of the leakage suspected region , It is possible to determine the position of the leak point located in the leaked suspicious area by analyzing the time difference of the leak signal (a) reaching each device.

The position change sensing unit 200 senses a change in the position of the water conduit 1 using the accelerometer sensor 200a.

When the position change sensing unit 200 is coupled to the water conduit 1 and the position of the water conduit 1 is changed, the accelerometer sensor 200a senses a change value of the acceleration from the center of the sensor, 1) can be measured.

For this purpose, the position change information sensing unit 200 is assumed to be attached to the water conduit 1 by the coupling unit 400. When the water conduit 1 is formed of iron, the coupling portion 400 may be made of a magnet material.

The angle change sensing unit 300 senses the gradient change of the water line 1 by the gyro sensor 300a. The gyro sensor 300a is capable of sensing the change in tilt by measuring changes in angular velocity in the x, y, and z axes applied to the water conduit 1 and integrating the change values.

The safety monitoring apparatus for a water pipe according to an embodiment of the present invention may further include a controller 500 for controlling the leakage signal sensing unit 100, the position change sensing unit 200, and the angle change sensing unit 300 have.

In addition, the safety monitoring apparatus for a water pipe according to an embodiment of the present invention includes a housing 600 housing the leakage signal sensing unit 100, the position change sensing unit 200, and the angle change information sensing unit 300, Or a power communication cable 700 that is connected to the wireless communication and provides power (FIG. 1).

The control unit 500 transmits the sensed values measured by the leakage signal sensing unit 100, the position change sensing unit 200 and the angle change sensing unit 300 to the outside using the power communication cable 700.

Also, the transmitted sensing values can be monitored in real time in a separate monitoring system.

It is possible for the user to specify a predetermined sensing value to limit the performance of the sensing report when an invalid sensing value is sensed.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: leak signal detection unit
200: Position change detection unit
300: Angle change sensing unit
400:
500:
600: housing
700: Power communication cable

Claims (10)

A method for monitoring safety of a water line using a safety monitor for a water line,
The safety monitoring apparatus for a water channel includes:
A leakage signal detection unit (100) for detecting a leakage signal (a) due to leakage;
A position change sensing unit 200 for sensing a change in the position of the water conduit 1;
An angle change sensing unit 300 sensing a change in the slope of the water line 1;
A coupling unit 400 coupling the leakage signal sensing unit 100, the position change sensing unit 200, and the angle change sensing unit 300 to the water line 1;
A controller 500 for controlling the leakage signal sensing unit 100, the position change sensing unit 200, and the angle change sensing unit 300;
A housing 600 housing the leakage signal sensing unit 100, the position change sensing unit 200, and the angle change sensing unit 300; And
And a power communication cable (700) connected to the wired or wireless communication and providing power,
The leak signal detection unit 100 detects the leakage signal,
A piezoelectric element 110 for generating an electric signal by pressure;
A piezoelectric element weight 120 receiving wave energy according to a leakage and converting the wave energy into pressure energy to provide pressure to the piezoelectric element 110;
An outer cap 130 for transmitting the wave energy;
And an elastic member (140) disposed between the piezoelectric element weight (120) and the outer cap (130)
The position change sensing unit 200 includes an accelerometer sensor 200a for measuring a change in acceleration applied to the position change sensing unit 200 according to a change in the position of the water line 1,
The angular change sensing unit 300 includes a gyro sensor 300a for measuring a change in angular velocity of the x, y, and z axes applied to the angle change sensing unit 300 according to a change in the slope of the water conduit 1, ,
A first step (SlOO) for selecting a leaked suspicious area, a suspected location change area, or a suspected angle change area;
A second step (S200) of installing the water safety monitoring device on both sides of the leakage suspected region, the suspected position change region, or the suspected angle change region; And
A third step (S300) of analyzing a time difference of the leakage signal (a) reaching the leakage signal sensing unit (100) of the safety monitoring apparatus for water supply installed in the second step (S200) ≪ / RTI >
In the first step S100,
Selecting the area where the safety monitoring device for the water conduit is installed as the leakage suspicious area when the control part 500 determines that the leakage signal (a) is equal to or greater than the reference leakage signal (b);
The control unit 500 senses a change in the position of the water line 1 by using the position change sensing unit 200 and selects an area where the safety monitoring device for the water line is installed as the suspected location change area. And
The control unit 500 senses a change in the slope of the water line 1 using the angle change sensing unit 300 and selects an area where the safety monitor for the water line is installed as the suspected angle change area ≪ / RTI >
The leak signal (a) and the reference leak signal (b) are measured at a predetermined time after noise due to use of water and noise due to passage of nearby vehicles is removed,
The control unit 500 transmits the sensed values measured by the leakage signal sensing unit 100, the position change sensing unit 200 and the angle change sensing unit 300 to the outside using the power communication cable 700 In addition,
Wherein the sensing value is monitored in real time through a monitoring system.
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