KR101791953B1 - Leak sensing system and leak sensing method using the same - Google Patents

Abstract

The present invention relates to a leakage detection system for detecting leakage of water in a water supply pipe in an acoustic method, which is configured to allow leakage sound to be more clearly heard by injecting signal sound waves having predetermined frequencies in water flowing inside the buried water supply pipe in order to solve a problem that the leakage sound is not clearly heard due to the coating of the water supply pipe by corrosion prevention and other reasons, and accordingly, which is capable of improving the leakage detection accuracy, and also enabling easy and accurate detection of the water leakage even if a user is not skilled in the leakage sound, and further minimizing impacts on urban noises, a buried environment, etc.

Description

TECHNICAL FIELD [0001] The present invention relates to a leakage detection system using sound injection with a specific frequency and a leak detection method using the leakage detection system.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a leak detection system through acoustical injection with a specific frequency and a leakage detection method using the same,

More particularly, the present invention relates to a leak detection system for detecting a leakage of a water line in a water line, in order to solve the problem that a leak sound is not clearly heard by coating a water line by corrosion prevention and other reasons, By injecting a sound wave with a specific frequency into the flowing water in the pipeline, the leak sound can be heard more clearly, thereby improving the leak detection accuracy, and it is possible to detect leakage easily and accurately even if it is not an expert And moreover, to a leakage detection system and a leakage detection method which minimizes the influence on the urban noise, the buried environment, and the like.

Since the aged water pipeline has problems such as loss of tap water due to leakage of water and contamination due to inflow of foreign matter, it is necessary to detect and replace or repair the leakage and leakage position at an appropriate time.

The leakage and leakage position detection is performed by listening to the sound emitted from the inside of the water pipe from the ground. The water pipe is supposed to be buried at a depth of 1.2 m or less on the ground. And it is difficult to accurately detect the leak point, and problems such as ambient noise and buried environment are difficult to detect.

Especially, recently, the water pipe line is used by coating the tube body due to corrosion prevention and other reasons. Also, there is a problem that the leakage sound is not clearly heard due to the leakage of the leakage sound due to the coating part.

[Background Art] [0002] Conventional techniques relating to leak detection of a water supply pipe line are disclosed in Japanese Patent Application Laid-Open No. 10-2010-0014046 (Feb. 10, 2010) [Detector System for Water Supply Leakage Suspension Suspension and Detection of Leak Suspect Zone] In the prior art, the leaked sound is extracted by using an independent leak detector section by advancing the existing method of listening to the leakage sound by exploring leaked portions of the leaked channel directly by the leaked explorers, A system is provided to notify the manager and repair the leak, thereby detecting the leak early, thereby preventing the loss due to leakage early and reducing the loss of property.

However, the conventional art has also improved the method of listening to the leak sound more precisely, and does not provide a solution to the problem that the conductivity of the leak sound is poor due to the coating of the water pipe.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems,

A signal sound wave having a specific frequency is injected into the running water flowing in the water pipe buried through the sound injecting unit and the sound wave generated by the flowing water flows through the sound sensing unit so that the leakage sound can be heard more clearly, The present invention aims to improve the accuracy of leak detection through the use of a leak detector and to easily and accurately detect a leak even if the leaker is not skilled in the leak sound and further to minimize influence on the urban noise and the buried environment.

More specifically, a reference sound wave is generated through an oscillator, the sound wave is injected into a running water in a water pipe through a vibrator, the measured sound wave generated in the running water injected with the reference sound wave is collected through an attenuator, (Frequency) based on the frequency of the reference sound wave generated by the oscillator among the entire frequency bands of the entire frequency band of the oscillator, and outputs the sound wave by acoustically outputting the sound wave through the speaker to achieve the above object.

In order to prevent the deterioration of the conductivity of the leak sound in the water pipe coated with the inner and outer coatings due to corrosion prevention and other reasons, a non-coated portion is formed on one side of the water supply pipe, It is an object of the present invention to further improve the sensing characteristics of a sound wave to be measured, that is, leakage sound, by providing conduction enhancing means for enhancing conductivity.

The leakage detection system according to the present invention having the above-

An acoustic injection unit for injecting a signal sound wave (reference sound wave) having a specific frequency into the running water flowing in the buried water pipe, an acoustic sensor for sensing a sound wave (measurement sound wave) generated by the flowing water, And an acoustic output unit for outputting sound waves.

The sound receiving unit may include an oscillator for generating the reference sound wave and a vibrator for injecting the reference sound wave into the running water in the water supply pipe. The sound sensing unit may include an amplifier for collecting the measured sound wave, And a receiver for determining a listening range (frequency) based on the frequency of the reference sound wave generated by the oscillator among the frequency bands.

The water pipe is formed by interconnecting a plurality of tubes. The tubes each include an inner coating portion surrounding the inner surface of the tube, an outer coating portion surrounding the outer surface of the tube, a connection portion connected to the adjacent tube, And a non-coating portion provided at an end of the connection portion, and conduction enhancing means for connecting the non-coated portions of the first and second tubes, which are two mutually adjacent tubes among the tubes.

The leakage detection method according to the present invention having the above-

(S1) injecting a sound wave (reference sound wave) having a specific frequency into the water flowing inside the water supply pipe of the sound injecting unit (S2), and injecting sound waves (sound wave) generated by the flow of the water, And (S3) outputting the measured sound wave so that the sound output and the leakage position of the water supply pipe can be detected through comparison between the reference sound wave and the measured sound wave .

The present invention comprising the above-described constitution, features and steps

By injecting a signal sound wave having a specific frequency into the running water flowing in the buried water pipe, it is possible to clearly hear the leak sound, thereby improving the leak detection accuracy, and it is easy It is possible to precisely detect leaks and further minimize the influence on the urban noise and the buried environment and also to enhance the sound conductivity by connecting the non-coated portions in order to prevent the conductivity of the leakage sound from being lowered by the coating By providing the conduction enhancing means, it is possible to further improve the sensing characteristics of the sound wave to be measured, that is, the leakage sound.

1 is a configuration diagram of the present invention;
2 is a first embodiment of the present invention.
3 is a second embodiment of the present invention.

While the present invention has been described in connection with certain embodiments, it is obvious that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the term " comprising " or " consisting of ", or the like, refers to the presence of a feature, a number, a step, an operation, an element, a component, But do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

It is to be understood that the first to second aspects described in the present specification are merely referred to in order to distinguish between different components and are not limited to the order in which they are manufactured, It may not match.

The present invention relates to a water leakage detecting system for detecting water leakage of a water supply pipe by a sounding method, and a water supply pipe for preventing leakage of water from the water supply pipe, By injecting a sound wave with a specific frequency into the flowing water in the inside, the leak sound can be heard more clearly, thereby improving the leak detection accuracy, and it is possible to easily and accurately detect the leakage even if it is not an expert And further relates to a leakage detection system and a leakage detection method which minimizes the influence on the urban noise, the buried environment, and the like.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a leak detection system (hereinafter referred to as the present system L) and a leak detection method using the same will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram showing each configuration of the present invention.

The present system L is a leak detection system for detecting leakage of a water pipe P in an audible manner and is largely constituted by an acoustic injection unit 1, an acoustic sensing unit 2 and an acoustic output unit 3.

More specifically, the sound injecting unit 1 injects a signal sound wave (reference sound wave) having a specific frequency into the running water flowing in the embedded water supply duct P, The water flowing along the water line P can have a specific sound through the injection of the reference sound wave.

1, the sound injector 1 includes an oscillator 11 for generating a reference sound wave and a vibrator 12 for injecting a reference sound wave into the water in the water pipe P, A reference sound wave is injected into the sound pipe inlet 10 at a point on the water supply pipe P, more preferably a point where the sound pipe can be exposed to the outside, such as a fire hydrant.

Accordingly, the flowing water flowing in the water line P not only generates the simple pipe sound but also the reference sound wave is reinforced to the pipe sound to be leaked through the sound detection unit 2 and the sound output unit 3, Ensure that the leak sound is heard more clearly when detecting the leak location.

Next, the sound sensing unit 2 is configured to sense a sound wave (measurement sound wave) generated by the flow of the water, and detects the sound of the fricative sound generated by the friction between the water and the inner wall of the water pipe P, And detects the occurrence of the change of the sound wave at the position where the leakage occurs, so that the leakage and the leakage position can be detected.

1, the acoustic sensing unit 2 includes an amplifier 21 for collecting a sound wave to be measured, a receiver 21 for determining a listening range (frequency) in a sound wave to be measured, (22).

Herein, the listening range means a frequency band in which a detector (a person who performs leak detection through sound) can hear the frequency of the reference sound wave generated by the oscillator 11 in the entire frequency band of the measured sound wave .

For example, the oscillator 11 of the sound injection unit 1 generates reference sound waves having five frequency bands in the frequency range of 50 Hz to 5 kHz, and the reference sound waves of the receiver 22 of the sound sensing unit 2 (The reference sound wave and the listening range) can be determined in consideration of the surrounding environment, the noise state, and the like by allowing the user to select five ranges of the same range.

In addition, the sound sensing portion 2 may further comprise a switch 23 for supplying power to the damper 21. [

Next, the sound output unit 3 is configured to output a measured sound wave. The sound output unit 3 receives a measured sound wave signaled from the receiver 22, converts the sound wave into a sound or sound of which the detector can hear, And outputs a sound wave.

As shown in FIG. 1, the sound output unit 3 preferably includes a speaker 31 that is provided to detect the leakage of water by a wearer.

According to the present invention having the above-described features and features, it is possible to improve the problem that a leak sound is not clearly heard by coating a water pipe line (P) due to corrosion prevention and other reasons, This makes it possible to improve the accuracy of leak detection, and to easily and accurately detect the leakage even if it is not an expert of the leak sound, and to minimize the influence on the urban noise and the buried environment.

2 and 3 relate to the first and second embodiments of the present invention. As described above, the uncoated portion is formed on the water pipe (P) coated on the inner and outer sides by corrosion prevention and other reasons And a conduction enhancing means 4 for enhancing the sound conductivity by connecting the non-coated portions to thereby improve the sensing sound wave, that is, the sensing characteristic of the leakage sound.

More specifically, in the present system L according to the first embodiment, as shown in FIG. 2, the water pipe P is formed by connecting a plurality of pipes P10. Each of the tubes P10 includes an inner coating portion P101 surrounding the inner surface of the tube P10, an outer coating portion P102 surrounding the outer surface of the tube P10, And an uncoated portion P104 provided at an end portion of the connection portion P103. The system L includes conduction enhancing means 4 for connecting the uncoated portions P104 of the first and second tubes P11 and P12 which are two adjacent tubes P10 among the tubes P10 And further comprising:

More specifically, the inner coating portion P101 and the outer coating portion P102 are configured to cover the inner and outer surfaces of the tube P10 to provide effects such as corrosion prevention, The coating portion P102 interferes with the conduction of the sound, so that a problem occurs in that the sound-sensing portion 2 can not detect the sound wave generated from the water in which the reference sound wave is injected.

The connecting portion P103 is a connecting portion between the first tube P11 and the second tube P12 which are mutually adjacent two tubes P10. As shown in FIGS. 2 and 3, It is preferable that the non-coated portion P104 is bent outward so that connection of the non-coated portion P104 can be smoothly performed.

The separation part P103 is formed between the connection part P103 of the first tube body P11 and the connection part P103 of the second tube body P12 by the bending of the connection part P103, It is preferable that a sealing member 5 is interposed between the connection portion P103 of the first tube P11 and the connection portion P103 of the second tube P12 to seal the separation portion P105. Particularly, the sealing member 5 is preferably made of a material such as rubber, which has high hermeticity and self-elasticity and rigidity.

Particularly, according to the first embodiment, the conduction enhancing means 4 (the first conduction enhancing means 41) is in contact with both the uncoated portions P104 of the first and second pipes P11 and P12 And is a magnetic body to be attached.

The first conduction enhancing means 41 is attached to the non-coated portion P104 to enhance the sound conductivity. The first conduction enhancing means 41 facilitates adhesion and separation through a point made of a magnetic material, thereby providing ease of installation.

In another embodiment, the conduction enhancing means 4 (second conduction enhancing means 42) of the present system L according to the second embodiment comprises a first through hole and the outer surface of the first tube P11 A second clamper 422 having a second through hole and coupled to the outer surface of the second tube P12, a second clamper 422 coupled to the first through hole and the second through hole through the first clamper 421, And a bolt member 423 contacting both the uncoated portions P104 of the first and second pipes P11 and P12.

The second conduction enhancing means 42 further preferably includes a nut member 424 for holding the bolt member 423 in the engaged state.

The first clamper 421 and the second clamper 422 are connected to the first pipe body P11 and the second pipe body P12 respectively by the second conduction enhancing means 42. [ And a bolt member 423 is inserted to penetrate both the first through hole and the second through hole and the nut member 424 is fixed to the bolt member 423.

Although the second conduction enhancing means 42 has a disadvantage in that the construction is complicated as compared with the first conduction enhancing means 41, the second conduction enhancing means 42 is advantageous in that a stronger durability is ensured because of strong binding retention force.

The method includes a reference sound wave injection step S1, a sound wave sensing step S2, and a measurement sound wave output step S3. The leak sound detection method (method) .

The characteristics and effects of the present method can be known from the description of the present system L, and therefore, the present invention will be briefly summarized.

First, the reference sound wave injection step S1 is a step of injecting a reference sound wave into the running water flowing into the water supply pipe P by the sound injector 1, generating a reference sound wave in the oscillator 11, And injecting the water into the water in the water pipe (P) through the vibrator (12).

The next measurement sound wave sensing step S2 is a step in which the sound sensing unit 2 senses the sound wave to be measured. The demultiplexer 21 collects the sound wave to be measured and the receiver 22 acquires the sound wave of the entire frequency band of the collected sound wave, And determining the listening range based on the frequency of the reference sound wave generated by the sound source 11.

The next measured sound wave output step S3 is a step of outputting the measured sound wave by the sound output unit 3 and outputting the measured sound wave through the speaker 31 so that the detected sound wave is outputted to the water pipe P and the leakage position of the leaked water.

In particular, in this step S3, the leakage of the water pipe P can be judged by the sound of the output sound wave, and the detection of the leakage position can be carried out by a separate detection technique such as a correlated leakproofing method have.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

L: This system
1: Acoustic injector 11: Oscillator
12: vibrator
2: sound detection unit 21:
22: Receiver
3: sound output unit 4: conduction enhancing means
P: Water pipe P10: Tubular body
P11: First tube P12: Second tube
P101: Inner coating part P102: Outer coating part
P103: Connection P104: Uncoated portion

Claims (4)

A leak detection system for detecting a leakage of a water in a water supply pipe by a sound type,
An acoustic injector for injecting a signal sound wave (reference sound wave) having a specific frequency into the running water flowing in the buried water pipe;
An acoustic sensing unit for sensing sound waves (measured sound waves) generated by the flowing water; And
And an acoustic output unit for outputting the measured sound wave,

Wherein the sound injection unit includes an oscillator for generating the reference sound wave and a vibrator for injecting the reference sound wave into the water in the water supply pipe,
And a receiver for determining a listening range (frequency) based on a frequency of a reference sound wave generated by the oscillator among the entire frequency bands of the measured sound wave, wherein the sound sensing unit comprises:

The water pipe is composed of a plurality of pipes P10 connected to each other,
Each of the tubes P10 includes an inner coating part surrounding the inner surface of the tube body, an outer coating part surrounding the outer surface of the tube body, a connection part connected to the adjacent tube body provided at both ends, and a non-coating part provided at the end part of the connection part In addition,
And conduction enhancing means for enhancing acoustic conductivity by connecting uncoated portions P104 of the first and second tubes P11 and P12, which are mutually adjacent tubes of the tubes,
The conduction enhancing means includes:
A magnetic body that is brought into contact with and adheres to both of the uncoated portions P104 of the first and second tubes P11 and P12,
A first clamper 421 having a first through hole and coupled to an outer surface of the first tube P11 and a second clamper 422 having a second through hole and coupled to an outer surface of the second tube P12 And a bolt member 423 inserted through both the first through hole and the second through hole and contacting both the uncoated portions P104 of the first and second pipes P11 and P12 Wherein the water leakage detection system comprises:
delete delete A leakage detection method using the leakage detection system according to claim 1,
(S1) injecting a sound wave (reference sound wave) having a specific frequency into the running water flowing in the sound pipe;
(S2) detecting the sound wave (measured sound wave) generated by the flow of the flowing water by the sound sensing unit; And
(S3) the acoustic output unit outputs the measured sound wave so as to detect whether the water supply pipe is leaked or leaked through comparison between the reference sound wave and the measured sound wave,

The reference sound wave injection step S1 of the step (S1) is a step of injecting a reference sound wave into the running water flowing in the water pipe (P) by the sound injector 1, generating a reference sound wave in the oscillator 11, And injecting the generated reference sound wave into the water in the water pipe (P) through the vibrator (12)
In step S2, the sound wave sensing step S2 is a step of the sound sensing unit 2 sensing the sound wave to be measured. The demultiplexer 21 collects the sound wave to be measured, and the receiver 22 measures the sound wave Determining a listening range based on a frequency of a reference sound wave generated by the oscillator 11 in the entire frequency band,
The step S3 of outputting the measured sound wave in the step S3 is a step of outputting the measured sound wave by the sound output unit 3 and outputs the measured sound wave through the speaker 31 to compare the measured sound wave with the reference sound wave Wherein the water leakage detection unit detects the leakage of the water supply pipe (P) and the leakage position.

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