KR101185368B1 - Leak detection apparatus - Google Patents

Abstract

PURPOSE: A leak detecting apparatus for checking the directions of leak noise and leak points is provided to increase precision and to obtain accurate results in a short time by removing unnecessary frequencies except for frequencies for grasping leak points through a filter unit in advance. CONSTITUTION: A leak detecting apparatus for checking the directions of leak noise and leak points comprises a sensor unit(10), a frequency conversion unit, and a processing unit(30). The sensor unit detects sound from objects. The frequency conversion unit converts the detected sound to frequencies. The processing unit analyzes converted frequencies to grasp points where the sound is occurred, and comprises a monitor(31) for displaying image information about the grasped points. The sensor unit comprises multiple sensors.

Description

Leakage detection device that can check leakage sound and direction of occurrence point {LEAK DETECTION APPARATUS}

The present invention relates to a leak detection device,

More specifically, a sound leakage detection method using sound waves among various leak detection methods is applied, and a filter unit for screening only sound waves necessary for leak detection among various sound waves detected by a sensor is provided, and a plurality of predecessors having the same sensitivity are used to increase accuracy. The present invention relates to a leak detection apparatus capable of precisely generating leak sound and checking the direction of a generation point.

Water supply and sewage pipelines of underground facilities are buried in the vicinity of the corresponding destination, and the raw water is supplied from the water supply source by connecting the final buildings or houses through the pipes of each required branch or classification.

Such water and sewage pipes may be ruptured by corrosion as they age, or may be ruptured by temperature or large external shocks. However, if the building is destroyed, it will be followed by leaks. The visible leaks can be repaired immediately, but minor minor leaks are not easily noticeable.

In case of water leakage due to breakage of water and sewage pipes, aging, etc., the importance of water leak detection and maintenance of water and sewage pipes is very important because of the economic loss due to the disruption of industrial expansion, the inconvenience of life due to the interruption of drinking water supply and the waste of tap water. The situation is strongly recognized.

In addition, from the environmental point of view, such leakage causes soil fluctuation and contaminants in the soil to cause soil and groundwater contamination, and provides ground subsidence and tributary changes.

Above all, various environmental problems derived from leaks occur below the surface of the earth, so they are not easily understood, so there is a serious difficulty in recognizing their importance.

According to the statistics, as of the end of December 2003, almost 52% of the old pipes over 11 years have passed, out of the total extension of 120,405 km, and the annual leakage of tap water output of 5.72.27 million tons is 78.106 million tons, accounting for 13.6% of the total output. This results in significant social, environmental and economic losses.

For this reason, the proper management of water supply and sewage pipe networks through leak detection has been studied for a long time. The direct measurement method for measuring leakage directly over a certain section, acoustic leak detection method using sound waves, night minimum flow rate method using flow rate measurement, and effective rate Water supply network modeling method using estimation method, flow measurement value and mathematical analysis has been developed and used.

Among them, the direct measurement method has to stop using a certain section of the water supply and sewage pipe network and measure the amount of leakage directly.

The night minimum flow method is a method of measuring the flow rate at night time when the amount of tap water is low and using the minimum flow value to measure leaks intermittently.However, the amount of leakage and the leak point are accurately identified due to errors in measurement error, night use, and background leakage. Difficult to do

Next, the leak estimating method based on the effective rate is a method of estimating the difference between the drainage amount and the water supply amount for a certain period of time, and it is possible to grasp the entire drainage area, but when the range is large, it is difficult to identify the leak point.

The water supply network modeling method using mathematical analysis estimates the flow rate in the water supply network through mathematical modeling for the whole water supply network, compares the actual measured flow rate, and estimates the leak point and leakage amount. Since it is constantly required, there is a problem that the initial investment for installing the instrument takes a lot of money.

In addition, there is an acoustic leak detection method based on the present invention, which can be estimated within a certain radius of the leak point, but the radius is 150 ~ 300m, the search point is relatively large, there was a limit to indirectly estimate the leakage degree, Sensitive to ambient noise, the search conditions are difficult.

Due to the advantages and disadvantages of the above-described leak detection, in the art, a steel bar (probe) is inserted into the ground and directly contacts the pipe, so that the ear on the top of the steel bar listens to the leak sound.

However, the above method is a method of dependence of skilled workers who track one day and measure the next day by measuring the sound change, which is a highly dependent method of individual skilled workers. Even if we measure, we have the shortest point that we can predict different results.

Accordingly, an object of the present invention is to provide a device capable of accurately detecting a leak in a simpler manner by basically using an acoustic leak detection method using sound waves as a complement to the above-mentioned conventional technology.

In other words, to solve the problem that the results vary depending on the ability of each skilled worker, to install a number of sensors for measuring the sound and to accurately check the leak sound only through this triangulation method to provide a leak detection device that can pinpoint the leak point It aims to do it.

In addition, it is an object of the present invention to provide a leak detection apparatus that can be installed in a variety of angular environment in case the object on which the sensor is installed is a curved surface.

Leak detection apparatus according to the present invention for achieving the above object was made to focus on the fact that the sound waves caused by the leak is continuously generated in a constant size

A sensor unit for detecting sound from the ground where water pipes or pipes are installed,

A frequency converter converting the detected sound into a frequency;

A processor configured to determine a sound generation point by analyzing the converted frequency;

The sensor unit is composed of a plurality of sensors,

The leak detection device further comprises a filter for filtering out frequencies other than the desired frequency among the frequencies detected from each sensor,

The processing unit has a technical feature of identifying a leak occurrence position by analyzing a frequency passing through the filter unit.

In addition, the sensor unit according to the invention is characterized in that it is provided with a vibrator for equally adjusting the sensitivity of the sensors provided in the sensor unit.

In addition, the intended frequency mentioned in the leak detection device of the present invention is a frequency generated continuously and the same magnitude, the filter unit is characterized in that the transmission to the control unit to check only the desired frequency.

Next, according to the present invention, the FMS sensor unit

A housing having a plurality of through holes formed around the periphery, a plurality of moving shafts moving up and down through each of the through holes, height adjusting means for positioning the moving shaft at a specific point of the through hole, and a joint provided at the bottom of the moving shaft. And, and made of a sensor provided inside the junction,

The joint portion is characterized in that the rotatable structure with respect to the movable shaft.

According to the leak detection apparatus of the present invention having the above configuration,

The result is that the results vary depending on the skills of the existing skilled workers, and in particular, by installing a plurality of sensors with the same sensitivity, it has the effect that it is possible to accurately identify the leak point.

In particular, unnecessary frequencies other than the frequency for identifying the leak point can be removed in advance through the filter unit, which can also increase the precision in identifying the leak point and have the effect of expecting accurate results in a short time.

Furthermore, even if the object on which the sensor is installed has an irregular surface, it is possible to install the sensor irrespective of this, thereby improving the usability as well as the accuracy of the result.

1 is a view showing a leak detection apparatus according to the present invention,
Figure 2 is a chart briefly showing the detection process of the leak detection apparatus according to the present invention.
3 is a view showing another embodiment of a leak detection apparatus according to the present invention.
4 is a view showing the configuration and use of the leak detection apparatus disclosed in FIG.
Figure 5 is a view for explaining the screen orientation displayed on the sensor unit and the monitor according to the present invention.

Hereinafter, a leak detection apparatus according to the present invention will be described in more detail with reference to the accompanying drawings.

Leak detection device according to the present invention is designed with the idea that the sound wave leaked through the pipe is continuously generated in a constant size,

In particular, it is characterized in that the device is provided with a plurality of sensors in the sensor unit and the filter unit for filtering only the required frequency among the various frequencies detected by each sensor to be able to check the leak point more precisely in a short time.

That is, when the sensor unit is mounted around the ground where the leaking pipe is buried, sound waves generated within a predetermined radius of the point where the sensor unit is mounted are detected.

The sound waves detected through this can appear in various ways, and sound waves generated by leaks are generated in the same size as sound waves generated by the surrounding construction, and are continuously generated unless the leak stops. Is constantly detected.

Therefore, if there are sound waves that are continuously generated among the sound waves detected from the sensors and are generated with the same size, the sound waves are leaks, and the sound waves can accurately check the leak occurrence point.

Thus, the leak detection apparatus of the present invention,

Sensor unit I0 is provided with a plurality of sensors for detecting sound,

A frequency converter for converting the detected sound into a frequency;

Filter unit 20 for filtering out frequencies other than the desired frequency of the frequencies detected from each sensor,

The processor 30 is configured to analyze a frequency transmitted from the filter unit and determine a sound generation point.

Of course, the method of identifying the leak occurrence point in the processing unit is a conventional method possible by triangulation using several acoustic sensors, a detailed description thereof will be omitted.

In addition, a frequency converter is included in the processor.

The sensor unit 10 of the present invention is provided with a plurality of sensors 11, the figure shows a sensor unit having four sensors.

By placing several sensors, the deviation can be reduced, so that accurate sound wave detection and accurate positioning can be achieved.

In addition, the sensors may be different in sensitivity from each other, in the present invention, the sensitivity of each sensor is pre-adjusted through a vibrator (not shown) so that the same response may occur when the same vibration occurs.

Next, if the object to which the sensor unit is attached (such as the ground on which the pipe is buried or the pipe itself) is flat, the sensor unit structure illustrated in FIG. 1 may sufficiently contact the object.

However, when the object is not flat and has an irregular surface, in particular, in the case where the leak is detected by attaching the sensor unit to the pipe of the cylinder, the present invention introduces a leak detector as shown in FIG. 3.

That is, the sensor unit 10 according to the present invention,

A housing 12 having a plurality of through-holes 12a formed around the outside thereof,

A plurality of moving shafts 13 through which each of the through holes moves up and down;

A height adjusting means 14 for stopping the moving shaft with respect to the through hole at a specific point;

A joint 15 provided at the bottom of the movable shaft, and

It consists of a sensor 11 provided inside the junction.

The through holes 12a formed in the housing are formed as the number of sensors installed in the sensor unit. As shown in FIG. 3, four through holes are formed in the housing of the present invention having four sensors.

In addition, the through shaft 12a moves up and down while the moving shaft 13 penetrates. A thread 141 protruding inward is formed on an inner circumferential surface of the through hole, and an outer circumferential surface of the moving shaft in contact therewith is engaged with the screw thread. Corresponding screw thread 142 is formed.

Therefore, when the moving shaft is inserted into the thread formed in the through hole and rotated, the corresponding screw thread 142 moves up and down by setting the desired height of the moving shaft 13. As a result, the screw thread 141 and the corresponding screw thread 142 constitute the height adjusting means 14.

Of course, the height adjustment means is not limited to the configuration shown in the drawings, but can be modified in various ways, such as the configuration of the tooth portion and the corresponding tooth portion engaging.

And the junction portion is made of a dome-shaped receiving portion 151, the sensor is accommodated, and the suction portion 152 is formed in the lower end of the receiving portion in contact with the object such as the ground,

When contacting the sensor unit of the present invention to the ground can be inserted into the ground to the adsorption unit 152 to prevent the sensor unit from being moved by an external force,

When the sensor unit of the present invention contacts the pipe outer circumferential surface, the sensor unit is attached so as not to fall on the pipe by using the suction unit 152.

And although the coupling of the receiving portion and the moving shaft may be configured integrally, in consideration of the structure that can be used on an irregular surface, it is preferable that the receiving portion is made of a pin coupling rotatable 360 degrees to the moving shaft.

In addition, in the processing unit 30 of the present invention, the location information on the identified leak occurrence point is displayed on the monitor 31. The location information shown in the monitor is a point where the sensor unit 10 is fixed to an object such as the ground. Geographic information on how deep or at which distance leaks are occurring.

By the way, the information shown in the monitor of the present invention is not merely information consisting of numbers / letters, but the information is visualized as the map is shown with the effect of helping the industry to quickly understand the leak point.

At this time, the image information is set so that the direction indicated by the reference point A marked on the housing 12 of the sensor unit 10 is set upward from the monitor, and the up / down / left / right directions are determined based on this. You'll get geographic information about the leak point.

In the present invention, even if the operator holding the processing unit moves and the direction indicated by the reference point marked on the housing and the direction of the monitor of the processing unit is changed (the monitor orientation is changed as shown in B of FIG. 5A), the image that appears on the monitor does not change. It is designed to keep the image intact (called the gyroscope off function).

That is, as shown in Figure 5, the direction toward which the reference point (A) is directed to the upper portion in the monitor, the information is displayed, even if the operator changes the direction counterclockwise from A to B in Figure 5 does not change the sensor direction The video information shown on the monitor does not change. That is, the upper direction of the monitor is the direction toward the reference point of the sensor.

This is because, if the reference direction of the image shown on the monitor is changed according to the moving direction of the operator and the image data is changed accordingly, and this is not the same as the direction of the sensor unit, it may be difficult to grasp the geographic information.

The reference point (A) indicating the reference direction is displayed on the sensor unit, that is, the housing 12 of the present invention, in the monitor 31, the portion facing the reference point (A) is the upper side, the opposite direction is lower, and The left and right are determined so that the monitor displays geographic information about the leak point.

In the above description with reference to the accompanying drawings, the present invention has been described with reference to a specific shape and direction, the present invention, various modifications and changes can be made by those skilled in the art, such modifications and changes are the scope of the present invention Should be interpreted as being included in.

Explanation of symbols on the main parts of the drawing
10: sensor unit 20: filter unit 30: processing unit
11: sensor 12: housing 13; Moving shaft
14: height adjustment means 15: junction

Claims (4)

A sensor unit detecting sound from an object;
A frequency converting unit converting the detected sound into a frequency; And
In the leak detection device made by analyzing the converted frequency to determine the sound generation point, comprising a processing unit having a monitor showing the image information on the identified point,
The sensor unit is composed of a plurality of sensors,
The leak detection device further comprises a filter for filtering out frequencies other than the desired frequency among the frequencies detected from each sensor,
The desired frequency is a frequency generated continuously and the same magnitude, the filter unit checks only the desired frequency and transmits it to the processing unit,
The processing unit is characterized in that to identify the leakage occurs by analyzing the frequency passed through the filter unit,
The sensor unit
A housing having a plurality of through holes formed around the periphery, a plurality of moving shafts moving up and down through each of the through holes, height adjusting means for positioning the moving shaft at a specific position of the through hole, and a joint portion provided at the bottom of the moving shaft. And, and made of a sensor provided inside the junction,
The joining portion is characterized in that the rotatable structure with respect to the movable shaft,
The reference point is marked on the housing of the sensor unit,
The image information shown in the monitor is shown by using the direction reference as the reference point,
The direction of the reference point is set to the upper direction in the monitor is determined based on this, the up / down / left / right direction is determined, the leak detection device capable of checking the leakage point location direction characterized in that the image information is shown on the monitor . The method of claim 1,
The sensor unit is a leak detection device capable of checking the location of the leakage generation point, characterized in that provided with a vibrator for adjusting the sensitivity of the sensors provided in the sensor unit. delete delete

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