KR20220159579A - Apparatus and Method for Detecting Position of Water Leakage - Google Patents

Abstract

A leak location device according to an embodiment of the present invention includes a first detector for detecting a leak sound at a first location, a second detector for detecting a leak sound at a second location, and a detection body for receiving leak sound signals detected by the first detector and the second detector, and displaying magnitudes of the detected leak sound signals. A leak location is determined by comparing the magnitude of the leak sound signal detected by the first detector and the magnitude of the leak sound signal detected by the second detector. The detection body may comprise: a first detector connection port for connection with the first detector; a second detector connection port for connection with the second detector; a first detector sound meter for indicating the magnitude of the leak sound signal detected by the first detector; and a second detector sound meter for indicating the magnitude of the leak sound signal detected by the second detector. According to the leak location device of the present invention, more accurate leak location can achieved by using two leak sound detectors simultaneously.

Description

Leak location detection device and method {Apparatus and Method for Detecting Position of Water Leakage}

The present invention relates to an apparatus and method for detecting a water leak location, and more particularly, to an apparatus and method for detecting a water leak location using two sound leak detectors at the same time to more quickly and accurately detect a water leak location.

A water leak detector is a machine that detects where water is leaking from a pipe, which is a passage through which water moves.

In general, most of the water supply pipes are buried underground, and leaks are likely to occur in the case of old pipes that have passed more than 10 years. When water leaks occur in water supply pipelines, soil fluctuations as well as contaminants in the soil join together to cause soil and groundwater contamination, and provide causes such as subsidence of the ground and changes in tributaries. There are problems that cannot be easily identified because environmental problems occur below the surface of the earth.

In addition, when water leaks from heating pipes or water supply pipes in individual homes such as apartments, it directly damages the residents of the lower floors, so there is a need to quickly and accurately identify and repair the leak location.

Korean Utility Model Registration No. 20-0487548 discloses a body portion having a display panel formed on an outer circumferential surface, one end having an extension part protruding in a bar shape, connected to one side of the extension part, an outer circumferential surface surrounded by silicon, and a gas inside. A sensor part with a built-in sensor for determining the leak sound, a listening rod extending in the longitudinal direction and spirally coupled to the sensor part to amplify the gas leak sound, a connector connected to a connection hole formed on the other side of the body part at one end, and leakage at the other end. A gas detection member equipped with a gas sensor for measuring the gas being detected, a controller unit embedded in the body unit and electrically connected to the connection port, and a plurality of gas leakage sounds determined by the sensor unit and disposed inside the body unit. and a wireless unit with a built-in Bluetooth chip that wirelessly outputs to the user, and the controller unit selects one of the acoustic measurement mode and the gas measurement mode to determine whether a gas leak is detected. are posting

In the case of using a hearing aid leak detector, portable equipment is used to tour the site and detect leaks. It is counterproductive and ineffective because it has to be carried and moved along the pipe to detect one by one, and it is very difficult to accurately determine the location of the leak.

That is, in the case of using a water leak detector, more accurate determination of the location of water leakage is required, and a more improved listening device is required for more accurate determination of the location of water leakage.

Korean Utility Model Registration No. 20-0487548

An object of the present invention to solve the above problems relates to a leak location detection device capable of more quickly and accurately detecting a leak location using two leak sound detectors at the same time.

Another object of the present invention to solve the above problems relates to a leak location detection method capable of more quickly and accurately detecting a leak location using two leak sound detectors at the same time.

A leak location detection device according to an embodiment of the present invention for solving the above problems includes a first detector for detecting a leak sound at a first location; a second detector for detecting a leak sound at a second location; and a detection body configured to receive the leak sound signal detected by the first detector and the second detector and display the magnitude of the detected sound leak signal, wherein the magnitude of the leak sound signal detected by the first detector is included. and comparing the magnitude of the leak sound signal detected by the second detector to determine the location of the leak, wherein the detection main body includes a first detector connector for connection with the first detector; a second detector connector for connection with the second detector; a first detector sound meter for indicating the magnitude of the leak sound signal detected by the first detector; and a second detector sound meter for indicating the magnitude of the leak sound signal detected by the second detector.

Here, the leak location detection device further includes a stereo headset for listening by separating the leak sound signal detected by the first detector and the leak sound signal detected by the second detector from the detection main body into left and right signals, respectively. The detection body may further include a stereo headset connector for connection with the stereo headset.

Here, in the stereo headset, the leak sound signal of the first detector and the leak sound signal of the second detector may be compared using the difference in volume between the left and right volumes.

Here, the first detector and the second detector include a contact portion for contacting the detection position in order to detect a leak sound; a ceramic sensor for converting sound into a signal by coming into close contact with the contact part; and a sealing part for isolating the ceramic sensor from the outside.

Here, the ceramic sensor may be in close contact with the contact portion using an adhesive.

A leak location detection method according to an embodiment of the present invention for solving the above problems is a leak location detection method using the leak location detection device of claim 1, wherein the first detector and the second detector are located at different locations. A first detection step of arranging and detecting each leak sound; and determining the leak location by comparing the magnitudes of the first detected leak sound signal of the first detector and the leak sound signal of the second detector to determine the leak location.

Here, the magnitude of the first detected leak sound signal of the first detector and the leak sound signal of the second detector are compared, and a detector having a small magnitude of the detected leak sound signal is selected as the magnitude of the detected leak sound signal. A second detection step of moving in the direction of a large detector and detecting a leak sound; further comprising, comparing the magnitude of the first detected leak sound signal of the first detector and the leak sound signal of the second detector, The leak location may be determined by comparing the magnitude of the second detected leak sound signal of the first detector and the leak sound signal of the second detector.

Here, the step of arranging the first detector and the second detector at different locations and repeatedly detecting a leak sound while changing the positions of the first detector and the second detector; further comprising the repetitive The leak location may be determined by comparing the magnitude of the leak sound signal of the first detector and the leak sound signal of the second detector.

According to the leak location detection device and method according to an embodiment of the present invention, since two leak sound detectors are used at the same time, there is an effect of detecting the leak location more quickly and accurately.

In addition, as the ceramic sensor is placed in close contact with the contact part, there is an advantage in that only the leak sound can be accurately detected by minimizing the influence of noise other than the leak sound.

1 is a view for explaining a leak location detection device according to an embodiment of the present invention.
Figure 2 is a view for explaining the detection body in the leak location detection device according to an embodiment of the present invention.
3 is a view for explaining the first detector and the second detector in the leak location detection device according to an embodiment of the present invention.
4 is an exemplary diagram for explaining a ceramic sensor in a water leak location detection device according to an embodiment of the present invention.
5 is an exemplary view for explaining the operating principle of the ceramic sensor in the leak location detection device according to an embodiment of the present invention.
6 is an exemplary view for explaining a leak location 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 so that those skilled in the art can easily carry out the present invention. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

In order to clearly describe the present invention, parts irrelevant to the description are omitted, and the same reference numerals are assigned to the same or similar components throughout the specification.

Throughout the specification, when a part is said to be "connected" to another part, this includes not only the case of being "directly connected" but also the case of being "electrically connected" with another element in between. . In addition, when a certain component is said to "include", this means that it may further include other components without excluding other components unless otherwise stated.

When a part is referred to as being “on” another part, it may be directly on top of the other part or may have other parts in between. In contrast, when a part is said to be “directly on” another part, there are no other parts in between.

Terms such as first, second and third are used to describe, but are not limited to, various parts, components, regions, layers and/or sections. These terms are only used to distinguish one part, component, region, layer or section from another part, component, region, layer or section. Accordingly, a part, component, region, layer or section described below may be referred to as a second part, component, region, layer or section without departing from the scope of the present invention.

The terminology used herein is only for referring to specific embodiments and is not intended to limit the present invention. As used herein, the singular forms also include the plural forms unless the phrases clearly indicate the opposite. The meaning of "comprising" as used herein specifies particular characteristics, regions, integers, steps, operations, elements and/or components, and the presence or absence of other characteristics, regions, integers, steps, operations, elements and/or components. Additions are not excluded.

Terms indicating relative space, such as “below” and “above,” may be used to more easily describe the relationship of one part to another shown in the drawings. These terms are intended to include other meanings or operations of the device in use with the meaning intended in the drawings. For example, if the device in the figures is turned over, certain parts described as being “below” other parts will be described as being “above” the other parts. Thus, the exemplary term "below" includes both directions above and below. The device may be rotated 90 degrees or other angles, and terms denoting relative space are interpreted accordingly.

Although not defined differently, all terms including technical terms and scientific terms used herein have the same meaning as commonly understood by those of ordinary skill in the art to which the present invention belongs. Terms defined in commonly used dictionaries are additionally interpreted as having meanings consistent with related technical literature and currently disclosed content, and are not interpreted in ideal or very formal meanings unless defined.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein.

1 is a view for explaining a leak location detection device according to an embodiment of the present invention. Figure 2 is a view for explaining the detection body in the leak location detection device according to an embodiment of the present invention. 3 is a view for explaining the first detector and the second detector in the leak location detection device according to an embodiment of the present invention. 4 is an exemplary diagram for explaining a ceramic sensor in a water leak location detection device according to an embodiment of the present invention. 5 is an exemplary view for explaining the operating principle of the ceramic sensor in the leak location detection device according to an embodiment of the present invention. 6 is an exemplary view for explaining a leak location detection method according to an embodiment of the present invention.

1 to 5 together, a water leak location detection device 100 according to an embodiment of the present invention includes a first detector 120 for detecting a leak sound at a first location; a second detector 130 for detecting a leak sound at a second location; and a detection main body 110 for receiving the leak sound signals detected by the first detector and the second detector and displaying the magnitude of the detected leak sound signal, wherein the leak sound detected by the first detector is included. A leak location is determined by comparing the magnitude of the signal and the magnitude of the leak sound signal detected by the second detector, but the detection main body 110 includes a first detector connector 112 for connection with the first detector; a second detector connector 113 for connection with the second detector; a first detector sound meter 115 for indicating the level of the leak sound signal detected by the first detector; And a second detector sound meter 116 for indicating the magnitude of the leak sound signal detected by the second detector; may include.

The first detector 120 is for detecting a leak sound at a first location, and may be for detecting a leak sound generated at a leak location at the first location and transmitting it as a signal.

The second detector 130 is for detecting a leak sound at a second position, which is a different position from the first position of the first detector 120, and detects a leak sound generated at the leak position at the second position. It may be for transmitting as a signal.

The detection body 110 may receive the leak sound signal detected by the first detector 120 and the second detector 130, and display the magnitude of the detected leak sound signal. The detection main body 110 may compare the magnitude of the leak sound signal detected by the first detector 120 and the magnitude of the leak sound signal detected by the second detector 130 to determine the location of the leak.

The detection body 110 includes a first detector connector 112 for connection with the first detector 120; a second detector connector 113 for connection with the second detector 130; A first detector sound meter 115 for indicating the level of the leak sound signal detected by the first detector 120; And a second detector sound meter 116 for indicating the magnitude of the leak sound signal detected by the second detector 130; may include.

The first detector sound meter 115 and the second detector sound meter 116 may each display the volume of sound in an analog manner.

Referring to FIG. 2, FIG. 2 shows the detection main body 110, a first detector connector 112 for connection with the first detector 120 and a first detector connector for connection with the second detector 130. 2 detector connectors 113 are shown, and the first detector sound meter 115 and the second detector sound meter 116 are installed on the top of the first detector connector 112 and the second detector connector 113, respectively. indicates

On the other hand, in the leak location detection device 100 according to an embodiment of the present invention, the leak sound signal detected by the first detector 120 from the detection body 110 and the leak detected by the second detector 130 It may further include a stereo headset 140 for listening by separating the sound signal into left and right signals.

In addition, the detection body 110 may further include a stereo headset connector 114 for connection with the stereo headset 140 .

That is, the stereo headset 140 receives the leak sound signal detected by the first detector 120 and the leak sound signal detected by the second detector 130 from the detection body 110, and receives left and right signals, respectively. It can be separated and listened to, and it may be to provide basic data that can be used as information for determining the location of water leakage by directly listening to the size of the left and right signals to the user.

In particular, in the stereo headset 140, using the difference in volume between the left and right volumes, comparing the leak sound signal of the first detector and the leak sound signal of the second detector to determine the location of the leak It may be to provide basic data.

Referring to FIG. 2 again, the detection body 110 further includes a stereo headset connection port 114 for connection with the stereo headset 140, and it can be seen that the stereo headset connection port 114 is shown at the lower left corner. You will be able to.

The first detector 120 and the second detector 130 include contact parts 122 and 132 for contacting the detection position in order to detect a leak sound; ceramic sensors (124, 134) that come into close contact with the contact portion and convert sound into a signal; and sealing parts 126 and 136 for isolating the ceramic sensor from the outside.

The contact parts 122 and 132 are for bringing the first detector 120 and the second detector 130 into contact with the detection position in order to detect water leakage. , and the other surfaces of the contact portions 122 and 132 may be in close contact with the ceramic sensors 124 and 134 . Meanwhile, the contact portions 122 and 132 may be made of metal, or may be made of a material that transmits well the sound of the detection position.

The ceramic sensors 124 and 134 may be in close contact with the contact parts 122 and 132 to convert sound into signals, and the ceramic sensors 124 and 134 may be attached to the upper portions 124-1 and 134-1 of the ceramic sensors. ) and ceramic sensor lower portions 124-2 and 134-2.

In particular, the ceramic sensors 124 and 134 may be in close contact with the contact portions 122 and 132 using an adhesive. A general ceramic sensor is formed to be spaced apart from the contact part, which is an advantage in that it can sensitively measure with a small sound, but on the other hand, a device for detecting only a leak sound acts as a disadvantage in that noise other than the leak sound is detected.

As a result, unlike typical ceramic sensors formed at a distance of several mm from the contact part, in the leak location detection device 100 according to an embodiment of the present invention, the ceramic sensors 124 and 134 are connected to the contact part 122 and 132 Since it is formed in close contact with and using an adhesive, noise other than the leak sound is hardly detected, and it has the advantage that only the leak sound can be easily detected.

The sealing parts 126 and 136 are for isolating the contact parts 122 and 132 and the ceramic sensors 124 and 134 from the outside, and the sealing parts 126 and 136 prevent the ceramic sensor from being affected by external noise. can be minimized.

Referring again to FIGS. 3 to 5, as shown in FIG. 3, the contact portions 122 and 132 are formed at the lowermost end to detect the contact position, and the ceramic sensor 124 and 134) is formed, and the upper portions 124-1 and 134-1 and the lower portions 124-2 and 134-2 of the ceramic sensor are connected to the detection body 110 through independent signal lines. In addition, since the contact parts 122 and 132 and the ceramic sensors 124 and 134 are sealed by the sealing parts 126 and 136, the ceramic sensors 124 and 134 are free from external noise other than leak sound. impact can be minimized.

FIG. 4(a) shows a picture of a general ceramic sensor, and FIG. 4(b) shows the ceramic sensors 124 and 134 so that they can be compared with the picture of the ceramic sensor.

Referring to FIG. 5, the upper portions 124-1 and 134-1 of the ceramic sensors 124 and 134 repeat expansion and contraction in response to external sound stimuli, and sound signals are formed by such expansion and contraction. will do The sound signal formed in this process is transmitted to the detection body 110 along the signal line.

1 to 6 together, the leak location detection method according to an embodiment of the present invention is a leak location detection method using the leak location detection device of claim 1, wherein the first detector and the second detector are connected to each other. A first detection step of detecting leak sound by arranging them at different locations; and determining the leak location by comparing the magnitudes of the first detected leak sound signal of the first detector and the leak sound signal of the second detector to determine the leak location.

In the first detection step of detecting a leak sound by arranging the first detector and the second detector at different locations, the first detector and the second detector are disposed at different detection locations, and at each detection location. It may be to detect an incoming leak sound.

In addition, the step of determining the leak location is to compare the magnitude of the first detected leak sound signal of the first detector and the leak sound signal of the second detector, so that the magnitude of the leak sound signal of the first detector is the second detector. If the magnitude of the leak sound signal is smaller than the leak sound signal, the distance from the leak location is determined to be farther than the detection location of the second detector, and the leak location may be proportionally estimated.

On the other hand, in the leak location detection method according to an embodiment of the present invention, the magnitude of the first detected leak sound signal of the first detector and the leak sound signal of the second detector are compared, and the magnitude of the detected leak sound signal A second detection step of detecting a leak sound by moving the detector having a small value in the direction of the detector having a large magnitude of the detected leak sound signal; may further include.

In this case, the magnitude of the first detected leak sound signal of the first detector and the leak sound signal of the second detector are compared, and the second detected leak sound signal of the first detector and the second detector The leak location may be determined by comparing the magnitude of the leak sound signal.

In the leak location detection method according to an embodiment of the present invention, the first detector and the second detector are disposed at different locations, and the leak sound is repeatedly detected while changing the positions of the first detector and the second detector. It may further include, and the leak location may be determined by comparing the repeatedly detected magnitudes of the leak sound signal of the first detector and the leak sound signal of the second detector.

Referring to FIG. 6 (a), assuming that the leak location is at point 11, the first detector may detect at location 02 and the second detector may detect at location 12, in this case Since the sound signal detected by the second detector is greater than the sound signal detected by the first detector, the position of the first detector may be moved to the position of 07 close to the leak location to detect it.

Meanwhile, since the sound signal of the first detector detected at the position of 07 is still smaller than the sound signal detected by the frame 2 detector at the position of 12, the first detector can be moved to the position of 10 and detected again. There will be.

Finally, since the sound signals detected by the first detector at position 10 and the second detector at position 12 are equal in magnitude, the middle position can be determined as the leak location.

Referring to FIG. 6 (b), assuming that the leak location is at point 11, the first detector may detect at 02 and the second detector may detect at 15, in this case Since the sound signal detected by the second detector is greater than the sound signal detected by the first detector, the position of the first detector may be moved to a position of 10 close to the water leak location and detected.

On the other hand, since the sound signal of the first detector detected at the position of 10 is greater than the sound signal of the second detector detected at the position of 15, this time the second detector can be moved to the position of 12 for detection. Since the sound signal of the first detector detected at the position of 10 and the sound signal of the second detector detected at the position of 12 are equal in magnitude, the leak location can be determined as the position of 11, which is the intermediate point. You will be able to.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art can realize that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. you will be able to understand For example, those skilled in the art may change the material, size, etc. of each component according to the field of application, or combine or substitute the disclosed embodiments to practice in a form not clearly disclosed in the embodiments of the present invention, but this is also the present invention. It does not go beyond the scope of the invention. Therefore, the embodiments described above should not be understood as illustrative in all respects and limiting, and these modified embodiments should be included in the technical idea described in the claims of the present invention.

100 Water leak location detection device
110 detection body
112 1st detector connection port 113 2nd detector connection port
114 stereo headset connector
115 1st detector sound meter 116 2nd detector sound meter
120 First detector 130 Second detector
122, 132 contact
124, 134 ceramic sensor
124-1, 134-1 Upper ceramic sensor 124-2, 134-2 Lower ceramic sensor
126, 136 sealing part 140 stereo headset

Claims (8)

a first detector for detecting a leak sound at a first location;
a second detector for detecting a leak sound at a second location; and
A detection body for receiving the leak sound signal detected by the first detector and the second detector and displaying the magnitude of the detected sound leak signal;
The leak location is determined by comparing the magnitude of the leak sound signal detected by the first detector with the magnitude of the leak sound signal detected by the second detector,
The detecting body
a first detector connector for connection with the first detector;
a second detector connector for connection with the second detector;
a first detector sound meter for indicating the magnitude of the leak sound signal detected by the first detector; and
A leak location detection device comprising a second detector sound meter for indicating the magnitude of the leak sound signal detected by the second detector. According to claim 1,
The leak location detection device
A stereo headset for listening by separating the leak sound signal detected by the first detector and the leak sound signal detected by the second detector from the detection body into left and right signals, respectively,
The detecting body
Leak location detection device characterized in that it further comprises; a stereo headset connector for connection with the stereo headset. According to claim 2,
Wherein the stereo headset compares the leak sound signal of the first detector and the leak sound signal of the second detector using the difference between the left and right volume levels. According to claim 1,
The first detector and the second detector
A contact part for contacting the detection position in order to detect leak sound;
a ceramic sensor for converting sound into a signal by coming into close contact with the contact part; and
Water leak location detection device comprising a; sealing unit for isolating the ceramic sensor from the outside. According to claim 4,
The leak location detection device, characterized in that the ceramic sensor is in close contact with the contact portion using an adhesive. In the leak location detection method using the leak location detection device of claim 1,
A first detection step of arranging the first detector and the second detector at different locations to detect leak sound, respectively; and
and determining the leak location by comparing the magnitudes of the first detected leak sound signal of the first detector and the leak sound signal of the second detector to determine the leak location. According to claim 6,
By comparing the magnitudes of the first detected leak signal of the first detector and the leak signal of the second detector, a detector having a small magnitude of the detected leak sound signal is selected as a detector having a large magnitude of the detected leak sound signal. A second detection step of moving in the direction and detecting the leak sound; further comprising,
The first detected leak sound signal of the first detector and the magnitude of the leak sound signal of the second detector are compared, and the second detected leak sound signal of the first detector and the leak sound signal of the second detector A leak location detection method characterized in that for determining the leak location by comparing the size of. According to claim 7,
Disposing the first detector and the second detector at different locations and repeatedly detecting a leak while changing the positions of the first detector and the second detector; Further comprising,
Wherein the leakage location detection method is characterized in that the leakage location is determined by comparing the magnitude of the repeatedly detected leak sound signal of the first detector and the leak sound signal of the second detector.

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