KR101432453B1 - Leak detection device using a diagnostic procedure - Google Patents

Abstract

The present invention relates to a dam cut-off wall diagnosis method by constructing a water leak detection device. According to the dam cut-off wall diagnosis method by constructing a water leak detection device of the present invention, a water leak position with respect to a large-area cut-off wall area can be detected with respect to water leak flowing into a dam cut-off wall. The present invention includes a step in which a dam structure is formed through concrete placement after positioning of a detection unit to be arranged at a predetermined distance from the entire area of a cut-off wall, wherein a plurality of electrically conductive electrodes are prepared at regular intervals on a single substrate by being buried in the concrete placement process for constructing a cut-off wall, real-time power supply is applied to the electrodes, and the electric conductivity of the electrodes due to water leakage through the cut-off wall by the detection unit; a step in which a signal stands by from the detection unit buried in the dam structure through an output unit which includes position information corresponding to the positions of the electrodes provided in the detection unit so that the signal detected by the detection unit is transferred for an external operator to monitor and detect water leakage and the position of the water leakage; and a step in which the position information corresponding to the positions of the electrodes is detected by a control unit through signal detection and is output through the output unit when the electrodes of the detection unit becomes conductive due to water penetrating the cut-off wall.

Description

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

More particularly, the present invention relates to a method of diagnosing a dam by using an electric signal to detect a leakage position of a large-sized water wall, thereby securing the safety of the facility, And a method of constructing the same.

Dams are designed to artificially drain streams in order to regulate the amount of water in the streams. Water is stored when there is room to spare and discharged when the flow is insufficient. These dams are classified as single purpose dams and multipurpose dams according to the purpose of function, and classified as concrete dams and fill dams depending on the type of construction material.

In many countries, such as Korea, where there is a large difference in precipitation depending on the dry season and the rainy season, many types of dams have been constructed for the efficient use of water. Furthermore, due to the nature of the climate in Korea, heavy rainfall is poured in a short period between June and August, which is the summer flood season, and construction of dams is urgently required to minimize flood damage.

Generally, when constructing a dam, soil and gravel are used to solidify the embankment soils, and carvings are built thereon to construct the dam wall construction. However, it takes a lot of cost to construct the dam in the narrow river, and it is difficult to disassemble the dam when the dam is removed. Most of the dams built in recent rivers are constructed by concrete casting.

In order to construct the dam by pouring the concrete, the curing period is prolonged because the amount of concrete is large, so that not only the dam construction period is long, but also the water penetrates into the cured concrete and the strength of the concrete is lowered.

Particularly, the most important point of construction of concrete dam is that the overall strength is lowered due to the infiltrated water, so that the life of the dam may be lost or even the structure may be broken and serious problems may occur. In recent years, a separate water wall has been constructed so as to prevent water from penetrating. However, since the water wall structure itself can not secure perfect reliability, it is necessary to develop a technique capable of coping with a serious problem of strength drop due to penetration of water to be.

KR 10-1214438 KR 10-2002-0065942 KR 10-2013-0026174

In order to solve the above-mentioned problems, the present invention provides a detecting device for securing the long-term stability of a dam facility by real-time monitoring of leakage and leaking position in order to reliably solve the leakage problem of the dam wall, and a construction method therefor I want to provide it.

To this end, the present invention aims to provide a measuring device capable of easily measuring leakage and leakage positions in real time.

According to an aspect of the present invention, there is provided a method for diagnosing a leakage of a dam through a dam-water-wall detecting apparatus, the method comprising: A plurality of electrodes of an electrically conductive structure are provided on a single substrate at predetermined intervals and a real time power source is applied to the electrodes to detect whether the electrodes are electrically energized by water leakage from the water walls. A dam structure is formed through concrete pouring after arranging the dam structure at a predetermined interval with respect to the entire area of the water wall, and a signal detected by the detector is received and monitored by an operator from the outside, The position of the electrode provided in the detection unit A step of waiting for a signal from a detection unit buried in the dam structure through an output unit including position information corresponding to the position of the electrode, and a step of detecting the position information corresponding to the position of the electrode when the corresponding electrode of the detection unit is energized by the penetration water, And the control unit detects and outputs the signal through the output unit.

When the electric signal is applied to the electrodes corresponding to the pair of electrodes formed on the substrate constituting the detection unit, information corresponding to the positional information is outputted to the electrode, so that the dam leakage position And when power is generated in the plurality of electrodes, all the position information corresponding to each electrode is outputted from the output unit.

The outputting step outputs the image information corresponding to the actual shape of the dam and outputs the position information of the detection device together with the image information. And controlling the damper to output position information and dam point information by matching with the actual shape information of the dam when the dam is detected.

The outputting step may include detecting an energization priority for each of the electrodes constituting the detection unit, storing the energization priority, and determining a diffusion direction and a diffusion area with respect to the penetration area, And calculating and outputting the estimated diffusion time.

The detection unit may be configured such that a plurality of electrodes are arranged side by side on a surface of a flexible substrate, the electrode is provided as a pair of electrodes, one electrode is composed of a common electrode and the other electrode is provided as an individual electrode, When an arbitrary electrode is energized at the corresponding position, the leakage of the water is monitored through the signal.

In addition, the detecting unit may be constructed such that the concrete is placed after being positioned at a width of 50 to 80% from the center of the entire width of the dam in the accumulating direction toward the accumulating direction in the concrete casting process for constructing the dam.

The detection unit may be attached to the entire surface of the substrate on which the electrode is formed or may be attached to a surface of the detection unit which faces the storage side to delay the infiltration of infiltration water. do.

The detection unit may include a flow channel for preventing the flow of infiltration water to the surface of the substrate along a pair of electrodes formed on the substrate. The flow channel may have a groove or a through hole with a predetermined depth, And are formed on four surfaces of the pair of electrodes in the up / down and left / right directions, respectively.

According to the present invention constructed and operative as described above, a plurality of electrodes are arranged side by side so that a detection unit that generates an output signal upon electrical energization is buried at the time of constructing a dam wall and electrically connected to a control room, The stability of the dam can be secured.

In addition, the present invention can accurately grasp position leaking position information by the electrode part of the detection part which is configured relatively densely, and it is possible to perform accurate diagnosis, which is advantageous in maintenance of the dam facility.

FIG. 1 is a view showing the shape of a general dam structure,
FIG. 2 is a schematic diagram of a leakage detection device (detection part) of a dam water wall according to the present invention,
FIG. 3A is an exploded view of a leakage detection device according to the present invention,
3B is an exploded view showing another embodiment of the leakage detection device according to the present invention,
FIG. 3C is a front view showing another embodiment of the leakage detection device according to the present invention, FIG.
FIG. 4 is a graph showing the permeability of the dam water wall of the dam wall according to the present invention,
Fig. 5 is a front view of Fig. 4,
FIG. 6 is a sectional view showing a state in which a leakage detection device for a dam water wall according to the present invention is installed;
FIG. 7 is a diagram showing the whole structure of a dam control provided with a leakage detection device according to the present invention.
8 is a diagram showing an example of diagnostic information output to the output unit through the diagnostic method according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of a diagnostic method through construction of a leakage detection device for dam walls according to the present invention will be described in detail with reference to the accompanying drawings.

A diagnostic method based on the construction of a dam detection wall of a dam water wall according to the present invention is characterized by a method of diagnosing a leakage of a leaked water to a dam water wall, A plurality of electrodes having an electrically conductive structure are provided on a single substrate and real time power is applied to the electrodes so that the electrodes are electrically energized by leakage of the water wall, A dam structure is formed through concrete pouring by positioning a detection unit for detecting whether or not the dam structure is arranged at a predetermined interval with respect to the entire area of a car wall, a signal detected by the detection unit is received, And to detect the water leakage position A step of waiting for a signal from a detection unit embedded in the dam structure through an output unit including positional information corresponding to a position of the exposed electrode, and a step of, when the corresponding electrode of the detection unit is energized by the penetration water, And the control unit detects the position information through signal detection and outputs the detected position information through the output unit.

The present invention provides a diagnostic method through the construction of a leakage detection device for dam walls, which comprises a plurality of electrodes provided on the surface of a substrate, and a detection unit for detecting and monitoring a corresponding signal when electrical conduction occurs due to penetration water It is the main technical feature that it is possible to maintain stable maintenance of the dam by filling the concrete dam installation with detection and position of leakage.

2 is a schematic block diagram of an apparatus for detecting leakage of a dam water wall according to the present invention. 2, a pair of electrodes are arranged side by side at a predetermined interval on one substrate, and one electrode of the pair of electrodes is connected to all of the other electrodes Extending through the electrode line pattern. The other one of the electrodes is connected to each other and extends through the electrode line pattern to sense the electrode when the corresponding electrode is electrically connected.

A pair of electrodes 220 are patterned by a single flexible substrate 210. The electrodes are covered with a fiber-based absorbent sheet 240. The fiber-based film is a film for protecting the electrode after the dam concrete is placed and the concrete is completely cured, and the film is energized when the surface of the film is completely flooded due to leakage.

Therefore, the electrode surface is protected in an optimized state through the film, and the electrode is energized when the water penetrates completely into the detection part. Real-time power is supplied to the ground electrode. When the electrode is energized due to infiltration water, the position of the corresponding electrode in the detection area can be determined and the infiltration area of the dam can be confirmed.

At this time, since the electrodes provided in the detection unit have positional information, when the arbitrary electrode is energized, the corresponding position can be grasped. As shown in the figure, IDs (A-1-1, A-1-2, A-1-3, A-1-4 ...) having unique position information are displayed on each electrode , And this information is reflected in the dam construction. Therefore, when an energizing signal is generated at an arbitrary electrode, it is possible to confirm to which area the dam area is leaked.

FIG. 3A is an exploded view of the leakage detection device according to the present invention, FIG. 3B is an exploded view showing another embodiment of the leakage detection device according to the present invention, and FIG. 3C is a front view showing another embodiment of the leakage detection device according to the present invention.

In the detecting apparatus according to the present invention, the absorbing sheet 240 is disposed on the front surface of the detecting apparatus, thereby protecting the electrode during the concrete pouring process, and when the penetrating water penetrates, the electrode is passed through the absorbing sheet.

In addition, in the present invention, in order to solve the problem of signal error due to diffusion of infiltration water in addition to the functional reliability of the detection part constituting the electrode during the concrete installation process in the dam construction process, The structure was optimized. 3A, the surface of the electrode is protected by the absorbing sheet 240 attached to the entire surface of the detecting part. When the permeating water is generated later, the absorbing sheet is completely absorbed by the infiltrating water and energized.

In the case of Fig. 3B, the absorbing sheet is not collectively reflected in the entire area, and the absorbing property is maintained individually for each pair of electrodes, thereby preventing the penetration of excess water into the other electrode, thereby improving detection accuracy . In other words, the accuracy of the energization signal can be improved by separately applying the absorbing sheet to each pair of electrodes so that the approaching electrode can be approached when continuous penetration of the water wall proceeds after sufficient infiltration to one point.

Accordingly, the absorbent sheet functions to protect the electrodes and to absorb the infiltration water, thereby enhancing detection accuracy.

On the other hand, in the case of FIG. 3C, a flow restricting zone 221 is provided on the substrate surface of the detection unit. The flow stopper is formed in four surfaces, that is, upward / downward and leftward / rightward, with respect to a pair of electrodes in the form of a groove or a hole so as to delay an excessive flow of infiltration water.

The flow blocking member may be formed on the substrate constituting the detection unit. In another embodiment, the flow blocking member may protrude not only from the groove or the hole, but also from the overflow of the permeating water.

5 is a front view of FIG. 4, and FIG. 6 is a sectional view showing a state in which a leakage detection device for a dam water wall according to the present invention is installed. FIG. 4 is a view showing a state in which a leakage detection device of a dam water wall according to the present invention is installed . As shown in the drawing, the detector 200 is embedded in the concrete when the dam is installed, and then poured into the concrete. Although only six detection portions are shown in the drawings to illustrate one example, the number of detection portions can be appropriately designed according to the area of the dam.

5, each of the detection devices corresponding to the areas of 1-A and 1-A has respective positional information with respect to the dam area, and the leakage signals are detected in A-1-1 and A-1-2 It is possible to confirm the leakage position precisely.

The detecting unit 200 includes a plurality of electrodes arranged in parallel on the surface of the flexible substrate. The electrodes are formed as a pair of electrodes, one electrode is formed as a common electrode, and the other electrode is provided as a separate electrode, When an arbitrary electrode is energized at the corresponding position, the leakage of the water is monitored through the signal.

In addition, the detection unit may be constructed by placing the concrete after placing the dam at a width of 50 to 80% from the center of the entire width of the dam in the direction of the water storage direction in the concrete placing process for constructing the dam.

The output unit outputs information corresponding to the position information to the electrode when an electrical signal is applied to the electrode corresponding to the pair of electrodes formed on the substrate constituting the detection unit, thereby confirming the dam leakage position, When energization is generated in a plurality of electrodes, all position information corresponding to each electrode is output from the output unit.

FIG. 7 is an overall block diagram of a dam control provided with a leakage detection device according to the present invention. The detection unit embedded in the concrete dam is electrically connected to the control unit 320 provided in the external control room 310 and displays leakage position information through the output unit 300. The output unit 311 may correspond to a terminal, and may be connected to a detection unit through an interface to identify an electrical signal, and the position information is displayed by a current-carrying electrode.

The output unit basically outputs the image of the dam in a modeled form, and displays the positions of the detectors installed in the dam and the positions of the electrodes formed in the detectors by point. When an arbitrary electrode is energized by the infiltration water, the image of the dam is matched with the position information corresponding to the actual scale by the information. Dimensional shape information of the dam if necessary, and outputs position information corresponding to the signal detected by the detection device.

In addition, the output unit is configured to output various visual information through software such as a warning sound output or a warning message, thereby facilitating monitoring by the operator. The area of the penetration is confirmed through the energizing area in the proximity area according to the signal of the energizing electrode It is possible.

8 is a diagram illustrating an example of diagnostic information output to the output unit through the diagnostic method according to the present invention. As shown in the figure, in the outputting step, through the signal obtained through the detection unit, the technical information corresponding to the penetration expected area, the penetration time, the penetration warning, the penetration time, etc., Therefore, the dam manager has the advantage of being able to quickly respond to the safety management of the dam by using the information.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. On the contrary, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

100:
200:
210: substrate
220: electrode
221: Flow room earth
230: Signal line
240: absorbent sheet
311: Output section
310: Control room
320:

Claims (8)

A method for diagnosing a leak detection system of a dam wall by detecting leakage of a leaked water to a dam wall,
A plurality of electrodes having an electrically conductive structure are provided on a single substrate, and real-time power is applied to the electrodes, so that the electrodes are electrically energized by leakage of water from the water walls. Forming a dam structure through concrete pouring by positioning a detection part for sensing to be arranged at a predetermined interval with respect to the entire area of a water wall;
And an output unit including position information corresponding to a position of the electrode provided in the detection unit so that the operator can monitor the leak and receive the signal detected by the detection unit, Waiting for a signal from the detected detection unit; And
And detecting the position information corresponding to the position of the electrode when the corresponding electrode of the detection unit is energized by the penetrating water on the water wall,
Wherein the outputting step comprises:
And the diffusion priorities are stored for each of the electrodes constituted in the detection section, and the diffusion diffusion direction and the diffusion area for the water receiving wall are detected, and the diffusion time next energized from each energized electrode is detected to calculate the expected diffusion time And outputting the detected water level to the water level detector. delete delete delete The apparatus according to claim 1,
A plurality of electrodes are arranged side by side on a surface of a flexible substrate, the electrodes are provided as a pair of electrodes, one electrode is composed of a common electrode and the other electrode is provided as an individual electrode, And the leakage of the water is monitored through the signal. delete The apparatus as claimed in claim 5,
Wherein the electrode is attached to an entire surface of the substrate on which the electrode is formed or is attached to a surface of a detection portion which is attached to a pair of electrodes and is positioned to face the storage water side in order to delay infiltration of infiltration water. Diagnostic method through device construction. The apparatus as claimed in claim 5,
A flow stopper for preventing a flow of infiltration water to the substrate surface is formed along a periphery of a pair of electrodes formed on a substrate, wherein the flow stopper is formed with grooves or through holes of a predetermined depth, And / or the bottom / left / back sides of the dam wall, respectively.

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