KR101393038B1 - Detection apparatus and method for leakaging water of tap water pipe - Google Patents

Abstract

The present invention relates to an apparatus and a method for detecting water leak from a water pipe, which can accurately and rapidly detect water leak from a water pipe. The apparatus for detecting water leak from a water pipe through checking gauges, which are formed at several places along the water pipe buried under the ground to expose some of the water pipe to the outside, comprises a sensor module disposed at one side of the water pipe exposed to the outside through the checking gauge in order to sense leakage and vibration of the water pipe and a terminal receiving information on leakage and vibration measured through the sensor module and grasping a location where water leak occurs in the water pipe, thereby minimizing use of a battery of a leakage sensor and rapidly and accurately grasping the location of water leak by detecting the water leak in real time.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a leak detection device for a water supply pipe,

The present invention relates to a water pipe leak detector, and more particularly, to a water pipe leak detector capable of quickly and accurately detecting a leak of a water pipe and a leak detection method using the same.

Generally, tap water is treated in a water purification plant and then supplied through a large pipe in each case in the case of city. In each case, tap water is classified into small blocks and small blocks.

A flow meter is installed between each dispensing point to measure the flow rate of the tap water supplied to the dispensing area. Large-scale facilities such as apartment complexes are also equipped with water pipes to supply tap water at the same time through a large pipe.

In addition, in the case of general households and densely populated areas, a small pipe is connected to a large pipe buried under the road to supply tap water to the end use place. At this time, when a small pipe is referred to as a "branch," most leaks occur in the branch line. In other words, the branch wire has a large pressure due to a small tube, and in a dense housing area, it is connected by a joint or the like so that leakage is easily generated at the joint and the connection part.

It is known that about 20% or more of tap water as a whole is wasted due to leaking water when the leakage amount generated from each branch line is counted as a whole. As a result of such a large amount of tap water leaking, foreign substances, bacteria, heavy metals, etc. are introduced into the water pipe due to a change in pressure at the water leakage position as well as a waste of cost.

Therefore, it is necessary to precisely and quickly grasp the leaking position to replace or repair the old or damaged water pipe. However, the conventional leak detection technology has a limitation in detecting a small amount of leaking water and accurately detects the branch line connected to each household There is a problem that it is not easy.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a water supply system capable of minimizing the use of a battery of a leak detection sensor and detecting the leakage of tap water in real time, And to provide a leakage detection device and a leak detection method using the same.

In order to solve the above problems, the present invention provides a water supply pipe for detecting a leak of the water supply pipe through a check port formed in a ground on which a water supply pipe is buried and a part of the water supply pipe is exposed to the outside at a plurality of locations along the water supply pipe A leak detection device comprising: a sensor module provided at a side of the water pipe exposed to the outside through the check port to detect leakage vibration in the water pipe; And a terminal for receiving information on leakage vibration measured by the sensor module and determining a location where leakage of water occurs in the water pipe; The present invention provides a water pipe leak detection apparatus which is characterized in that

Here, the check port may include a check rod whose one end is in contact with the water pipe exposed to the outside through the check port and the other end is extended to the upper side of the ground, and the sensor module may be installed on one side of the check rod.

The sensor module may include a conversion unit for sensing leakage vibration of the water supply pipe, and a detection unit for measuring and storing leakage vibration sensed by the conversion unit and transmitting the measured leakage vibration to the terminal.

Also, the detecting unit may include a signal adjusting unit for receiving a signal of the leakage vibration sensed by the converting unit, a band pass filter for rectifying the signal received by the signal adjusting unit, A root mean square inverter for converting the passed signal, and a microprocessor for receiving the converted signal from the effective value converter and transmitting the signal to the terminal.

In addition, the detecting unit may transmit the leakage vibration sensed by wireless communication to the terminal.

In order to solve the above-described problems, the present invention provides a method for controlling a tap water dispenser, comprising: a first step of setting a reference level to be a degree of vibration generated when tap water flows in a steady state through a tap water pipe; A second step of measuring a measurement level that is a degree of vibration generated when actual tap water flows through the water pipe; Comparing the reference level with a measurement level to periodically measure the measurement level when the measurement level is less than the reference level; A fourth step of designating a minimum value among the measurement level values periodically measured; A fifth step of comparing the measured value with a multiple value obtained by multiplying the minimum value by a predetermined constant; If the drainage value is smaller than the measurement level, determining that leakage of water occurs in the water supply pipe and confirming occurrence of leakage; The present invention has been made in view of the above problems.

If the drainage value is greater than the measurement level, it may be determined that no leakage occurs in the water supply pipe and the measurement level is continuously measured.

The method may further include a step of detecting a point at which leakage occurs after the leakage of water is confirmed in the water supply pipe.

The present invention minimizes the use of the battery of the leak detection sensor and detects the leakage of tap water in real time so that the position of the leakage point can be accurately and quickly grasped.

FIG. 1 is a plan view showing a structure of a water supply pipe leakage detection apparatus according to an embodiment of the present invention,
FIG. 2 is a plan view schematically showing the structure of a sensor module of a water supply pipe leak detection device according to an embodiment of the present invention,
FIG. 3 is a flowchart illustrating a process of detecting leakage of a water supply pipe using a water supply pipe leakage detection device according to an embodiment of the present invention.
FIG. 4 is a flowchart illustrating a water pipe leak detection method according to an embodiment of the present invention.

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

FIG. 1 is a plan view showing a structure of a water supply pipe leakage detection device according to an embodiment of the present invention, FIG. 2 is a schematic view of a structure of a sensor module of a water supply pipe leakage detection device according to an embodiment of the present invention FIG. 3 is a flowchart illustrating a process of detecting leakage of a water supply pipe using a water supply pipe leakage detection apparatus according to an embodiment of the present invention. FIG. 4 is a flow chart illustrating a process of detecting a water supply pipe leakage according to an embodiment of the present invention. Fig. 8 is a flowchart showing a sequential description of leakage detection methods. Fig.

As shown in these drawings, the water supply pipe leakage detection apparatus and the leakage detection method using the same according to the present invention are characterized in that a water supply pipe (1) is provided at a plurality of locations along a water supply pipe (1) (1) through a check port (2) formed in such a manner that a part of the water pipe (1) is exposed to the outside, characterized in that the water pipe The sensor module 10 receives information on the leakage vibration measured by the sensor module 10 and determines the position where the leakage occurs in the water pipe 1, And a terminal 20 for allowing the user to access the terminal.

The water supply pipe (1) is a pipe for supplying tap water to each household so that the purified tap water is buried in the ground and the tap water is supplied.

The inspection port 2 is formed by perforating the ground toward the water supply pipe 1 from the ground so as to detect whether the water supply pipe 1 buried in the ground is leaked. And may be disposed at a plurality of locations spaced apart from each other at regular intervals along the longitudinal direction.

The inspection port 2 is provided with a check rod 2a whose one end is in contact with the water supply pipe 1 exposed to the outside through the inspection port 2 and the other end is extended to the upper side of the ground, And can be installed on one side of the check bar 2a.

The sensor module 10 includes a conversion unit 11 for sensing the leakage vibration of the water supply pipe 1, a detection unit 12 for measuring and storing the leakage vibration sensed by the conversion unit 11, .

The detecting unit 12 includes a signal adjusting unit 12a for receiving a signal of the leakage vibration sensed by the converting unit 11 and a bandpass filter for rectifying the signal received by the signal adjusting unit 12a. A root mean square inverter 12c for converting a signal having passed through the bandpass filter 12b and a root mean square inverter 12c for receiving the signal converted from the effective value converter 12c and transmitting the signal to the terminal 20 And may include a microprocessor 12d.

The leakage vibration sensed by the detecting unit 12 may be transmitted to the terminal 20 by the wire communication method but may be transmitted by the wireless communication method regardless of the distance between the sensor module 10 and the terminal 20. [ To the terminal 20 side.

A method of detecting the leakage of the upper catheter using the apparatus for detecting leakage of water in a water supply pipe according to an embodiment of the present invention having the above-described configuration is as follows.

First, after setting the reference level which is the degree of vibration occurring when the tap water flows through the water pipe in a steady state in which no leakage occurs, the actual degree of vibration generated when the tap water flows through the water pipe (1) Is measured.

In the case of the reference level, it is a value for determining whether or not water leakage can be judged to occur in the water supply pipe, and is set to an average value after repeatedly measuring at various points of the water supply pipe (1) .

The measurement level value is a direct measurement of the vibration occurring when the tap water passes through the water pipe at the point where the actual measurement is made and determines whether or not to leak the water pipe. Therefore, accurate measurement should be performed.

For this purpose, it is preferable that measurements are made at the early morning hours when the traffic of the vehicle or the pedestrian is frequent and the traffic of the vehicle or the pedestrian is small and the amount of the tap water is small, rather than the weektime time in which the tap water is used.

When the reference level and the measurement level are set, the reference level and the measurement level are compared. If the measurement level is equal to or higher than the reference level, the abnormal situation occurs irrespective of whether or not the water is leaked in the water line. It is necessary to repeat the measurement until initial stabilization is achieved.

Here, the abnormal condition refers to a situation in which the measurement level measured by the sensor module 10 due to the passage of a vehicle or a pedestrian, or the use of tap water, includes not only vibration due to tap water leakage but also noise due to the above factors.

When the measurement level is smaller than the reference level, the measurement level is measured repeatedly with a predetermined period, and then the smallest value among the measured measurement levels is designated.

The amount of data to be transmitted to the terminal 20 can be reduced because the amount of the battery used in the sensor module 10 can be minimized and the frequency of measurement is small. The life of the battery can be increased.

Thereafter, when the multiple value obtained by multiplying the minimum value by a certain constant is compared with the measurement level, and if the multiple value is smaller than the measurement level, it is determined that leakage occurs in the water pipe (1), and leakage occurrence is confirmed.

On the contrary, if the drainage value is larger than the measurement level, it is determined that no leakage occurs in the water supply pipe, and the measurement level is continuously measured to detect whether the water supply pipe 1 leaks in real time.

When the water level is less than the measurement level and the occurrence of the water leakage is confirmed, a point where the water leakage occurs in the water pipe (1) through the terminal (20) receiving the signal is detected to perform maintenance work The leakage can be accurately and quickly detected in real time.

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.

1: Water supply pipe 2: Check port
2a: check rod 10: sensor module
11: conversion section 12: detection section
12a: Signal conditioning section 12b: Bandpass filter
12c: rms value converter 12d: central processing unit
20:

Claims (8)

The water pipe is detected through a check port 2 formed in the ground on which the water pipe 1 is buried to expose a part of the water pipe 1 to a plurality of places along the water pipe 1 A sensor module (10) provided at one side of the water pipe (1) exposed to the outside through the inspection hole (2) and detecting leakage vibration in the water pipe (1); A terminal (20) for receiving information on leakage vibration measured by the sensor module (10) and detecting a position where leakage of water is generated in the water pipe (1); The leakage detection method according to claim 1,
A first step of setting a reference level at which the degree of vibration occurring when tap water flows in the water pipe (1) in a steady state;
A second step of measuring a measurement level that is a degree of vibration generated when actual tap water flows through the water pipe (1);
Comparing the reference level with a measurement level to periodically measure the measurement level when the measurement level is less than the reference level;
A fourth step of designating a minimum value among the measurement level values periodically measured;
A fifth step of comparing the measured value with a multiple value obtained by multiplying the minimum value by a predetermined constant;
And a sixth step of determining that leakage of water occurs in the water pipe (1) when the drainage value is smaller than the measurement level and confirming occurrence of leakage;
Wherein the water leakage detection method is a water leakage detection method using a water supply pipe leakage detection device. The method according to claim 1,
And if the drainage value is greater than the measurement level, determining that no leakage has occurred in the water supply pipe, and continuously measuring the measurement level. The method according to claim 1,
Further comprising the step of detecting a point at which leakage occurs after the occurrence of leakage in the water pipe is detected. The method according to claim 1,
The inspection port (2) is provided with a check rod (2a) whose one end is in contact with the water pipe (1) exposed to the outside through the inspection port (2) and the other end is extended to the upper side of the ground, (10) is installed on one side of the check bar (2a). The method according to claim 1,
The sensor module 10 includes a conversion unit 11 for sensing leakage vibration of the water supply pipe 1 and a sensor 11 for measuring and storing leakage vibration sensed by the conversion unit 11, And a detection unit (12) for detecting leakage of the water. 6. The method of claim 5,
The detecting unit 12 includes a signal adjusting unit 12a for receiving a signal of the leakage vibration sensed by the converting unit 11 and a bandpass filter 12b for rectifying the signal received by the signal adjusting unit 12a a root mean square inverter 12c for converting a signal passed through the bandpass filter 12b and a bandpass filter 12b for receiving the converted signal from the effective value converter 12c, And a microprocessor (12d) for transmitting the leaked water to the water tank (20). 6. The method of claim 5,
Wherein the detection unit (12) transmits the leakage vibration sensed by wireless communication to the terminal (20) side. delete

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