KR102082296B1 - Chemical solution leak detection sensor - Google Patents

Abstract

The chemical solution leak detection apparatus of the present invention is formed side by side in the form of a pair of conductive line strips on the top surface of the base film layer, and on the top surface to form a coating layer that dissolves or decomposes in response to the chemical solution, The lower surface of the layer, like the upper surface, has a structure for forming a pair of conductive lines and a coating layer.
In addition, the upper surface of the coating layer has a structure to form a secondary coating layer of a compound of a non-conductive carbon and a polymer compound in order to increase the durability of the coating layer.
Such a present invention is possible to sense the acid, neutral, alkali solution by one tape-type sensor, bringing the effect of saving the installation cost as well as maintenance costs.

Description

Chemical solution leak detection sensor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a chemical solution leak detection device, and more particularly, to a chemical solution leak detection device capable of detecting leakage of various chemical solutions such as an acid solution, a neutral solution, and an alkaline solution by one sensor.

Applicant has already proposed a tape-type leak detection sensor in a number of registered patents (10-0909242, 10-0827385, etc.) in the form of a tape and installed at a position where a leak is likely to occur, so that a leak can be easily detected. have.

As shown in FIGS. 1 and 2, the leak detection sensor 100 is formed by sequentially stacking the lower adhesive layer 120, the base film layer 110, and the upper protective film layer 130 upward from the bottom surface.

The lower adhesive layer 120 is to be attached to the leak occurs, it is formed in the form of an adhesive tape, the base film layer 110 is a layer for forming the conductive lines (111, 112) on the upper, of the conductive lines (111, 112) The pattern is formed of PET, PE, PTFE, PVC or other Teflon-based films to form the pattern in the printing method.

The conductive lines 111 and 112 are spaced apart from each other on the upper surface of the base film layer 110 and are disposed in a strip shape in parallel in the longitudinal direction, and are formed of a conductive ink or a silver compound.

The upper protective film layer 130 is stacked on top of the base film layer 110 to protect the conductive lines 111 and 112 from external stimuli. Like the base film layer 110, PET, PE, PTFE, and PVC Or formed of other Teflon-based material, it is configured to penetrate the sensing hole 131 at a predetermined interval at a position corresponding to the conductive lines (111, 112).

Therefore, when a leak occurs, water is introduced through the sensing hole 131 at the location where the leak occurs, so that the two conductive lines 111 and 112 are energized by the moisture, and the remote controller is in the energized state, that is, the closed circuit is formed. By detecting the leak can be detected and the alarm accordingly.

By the way, the conventional film type leak detection sensor 100 can detect the leakage of water, but can not detect a variety of chemical solutions, such as acidic solution, neutral solution, alkaline solution, etc. There are disadvantages.

In other words, in order to detect acidic, neutral, and alkaline solutions, separate sensors must be installed. Therefore, installation costs and operating costs increase, and in a narrow place, all of these solutions cannot be installed. There is a disadvantage that does not detect exactly.

The present invention is to solve the problems of the prior art, by applying a coating layer that dissolves or decomposes in response to the chemical solution to the film-type leak sensor only chemical solution leakage to determine the type of chemical solution according to the change in pH value The purpose is to provide a sensing device.

The chemical solution leak detection apparatus of the present invention for achieving the above object is formed side by side in the form of a pair of conductive line strips on the upper surface of the base film layer, and the coating layer is dissolved or decomposed in response to the chemical solution on the upper surface In addition, the lower surface of the base film layer has a structure of forming a pair of conductive lines and a coating layer similarly to the upper surface.

In addition, the upper surface of the coating layer has a structure to form a secondary coating layer of a mixture of non-conductive carbon and a polymer compound in order to increase the durability of the coating layer.

Such a present invention is possible to sense the acid, neutral, alkali solution by one tape-type sensor, bringing the effect of saving the installation cost as well as maintenance costs.

1 and 2 is a view showing an exploded structure of a conventional leak detection sensor.
Figure 3 is a cross-sectional structure of the chemical solution leak detection sensor according to the present invention.
Figure 4 is a cross-sectional view showing another structure of the chemical solution leak detection sensor.
5 is a plan view of the leak detection sensor for explaining the interval of the sensing hole.
Figure 6 is a bottom view of the leak detection sensor.
7 shows the structure of a controller.

The present invention will be described in detail with reference to the accompanying drawings.

Since the basic structure of the chemical solution leak detection sensor 200 of the present invention is the same as the shape already mentioned in FIGS. 1 and 2, the structure of the coating layer 140 will be described with reference to FIG. 3.

First, when a chemical solution, which is a toxic substance, leaks into the soil or the air, water pollution, soil pollution, air pollution, and the like, seriously damage physical damage as well as physical damage.

Therefore, the leakage of the chemical solution should be able to be detected quickly and at low cost. To this end, the present invention provides a pair of conductive lines 111 and 112 by the chemical solution on the upper surface of the base film layer 110 formed side by side in the form of a strip. The coating layer 140 that is dissolved or decomposed is formed by coating. The coating layer 140 is made of enamel as a main material, and is made of 40 to 70 wt% of enamel, 5 to 20 wt% of carbon, and 20 to 40 wt% of diluent. Can be configured.

In addition, the conductive lines 111 and 112 may be formed of various materials, such as a conductive metal sheet, a conductive wire, a conductive ink, or a silver compound.

The upper protective film layer 130 is formed on the upper surface of the base film layer 110 on which the coating layer 140 is formed. When the chemical solution flows through the sensing hole 131, the coating layer 140 is dissolved or decomposed, and the conductive line The resistance value between (111, 112) changes.

The resistance value is inputted from the controller 300 of FIG. 7 to determine the type of chemical solution.

The controller 300 is connected to the pair of conductive lines 111 and 112 through the connector 400, wherein the ends of the conductive lines 111 and 112 are connected through the capacitor C.

When the DC power supply 310 is supplied to the conductive line 111 in the form of a sine wave of 5 Hz to 100 KHz through the frequency oscillator 320, and the resistance value is shorted due to the leakage of the chemical solution, the conductive line 111 is shorted. The level converter 330 receives the input and converts it to a DC level.

The resistance value converted to the DC level is amplified by the amplifier 340, and then the noise is removed by the band pass filter 350, and converted into a digital signal through the A / D converter 360.

The change of the resistance value converted into the digital signal is applied by the MCU 370 to determine the type of chemical solution. FIG. 8 illustrates conductive lines 111 and 112 to determine the type of chemical solution leaked from the MCU 370. As a graph showing the change in pH value according to the change in voltage value between, if the voltage value between the conductive lines (111, 112) is located between 100 ~ 350mV, the pH value has a value of 1 ~ 6, An alarm is generated by judging the leakage of the solution.

In addition, when the neutral solution of pH 6-8 leaks, it has a voltage value of 100--100 mV as a theoretical value, and a negative voltage is output in the pH 7-8 period, but the MCU 370 has a positive voltage range. Inverted to detect.

That is, in the case of the neutral solution, since the voltage value is located in the section where the voltage value continuously decreases from the (+) region to the (-) region, the voltage value of the (-) region is inverted to the (+) region to facilitate detection. It is.

Similarly, when the alkaline solution of pH 8-14 leaks, it has a voltage value of -100 to -400 mV as a theoretical value, but the MCU 370 inverts the positive voltage to detect the positive voltage.

Therefore, as shown in FIG. 8, since the voltage value changes according to the change in the electrical conductivity, and thus the pH changes, the leakage of the chemical solution is determined by estimating the change of the pH value according to the change of the voltage value.

As a result, in the present invention, the leakage of the acid solution, the neutral solution, and the alkaline solution can be detected according to the change in the electrical conductivity through one leak detection sensor 100.

4 is a view showing another form of the chemical solution leak detection sensor 200, a second coating layer 150 made of a non-conductive carbon and a polymer composite is coated on the upper surface of the coating layer 140, the upper surface The upper protective film layer 130 is laminated.

This is to prevent the coating layer 140 from being damaged by light or heat.

That is, when the coating layer 140 is hardened or cracked due to light or heat, the reaction sensitivity to the chemical solution is changed, so that an error of leakage detection occurs, thereby causing the coating layer ( 140) to prevent damage.

The second coating layer 150 is inflated by the chemical solution and cracks are generated, so that the chemical solution penetrates through the voids and reaches the coating layer 140.

Meanwhile, a pair of conductive lines 115 and 116 are formed side by side in a strip form on the lower surface of the base film layer 110, and the chemical solution is formed so as to cover the lower surface of the base film layer 110 on which the conductive lines 115 and 116 are formed. A third coating layer 160 that is reacted to dissolve or decompose is applied and formed.

The lower protective film layer 170 having the sensing hole 171 is stacked on the lower surface of the third coating layer 160.

Therefore, the chemical solution leak detection sensor 200 according to the present invention is inserted into the tunnel-shaped mash is installed on the floor, or the chemical solution leaked when only the middle attached to the floor so that the lower surface is slightly floating from the floor Even if the chemical solution leaks into the upper surface or the lower surface of the leak detection sensor 200, it can be accurately detected.

5 is to adjust the sensing sensitivity according to the pitch of the sensing hole 131, in the case of (a) has a space of 28mm in order to bring the sensing sensitivity low, (b) has a space of 14mm sensing Sensitivity is better, and (c) increases the sensing sensitivity by forming the sensing holes 131 densely at intervals of 7 mm.

The sensing hole 131 may be formed in various shapes, such as a circle, a square, an ellipse, and a hemispherical shape.

6, conductive lines 117 and 118 are further formed on both sides of the conductive lines 111 and 112, and cut portions 119 are formed such that the conductive lines 117 and 118 may be cut in the middle.

When the coating layer 140 is formed in the liquid state, the coating liquid flows to both sides of the conductive lines 111 and 112 so that the thickness of the coating layer 140 is not uniform to use the conductive lines 117 and 118 as dams. The coating liquid is intended to be accommodated between the conductive lines 117 and 118.

In this case, when the leakage of the chemical solution occurs and the coating layer 140 is dissolved or decomposed, the resistance value is changed between the conductive line 111 and the conductive line 117 or between the conductive line 112 and the conductive line 118. When the error occurs, the sensing error occurs, the signal of the resistance value generated in the conductive lines (117,118) by the cutting portion 119 is to be cut off.

110: base film layer 111,112: conductive line
120: lower adhesive layer 130: upper protective film layer
131: sensing hole 140, 150, 160: coating layer
300: controller 400: connector

Claims (16)

A chemical solution leak detection device comprising a solution leakage detection sensor including a pair of conductive lines, and a controller connected to the conductive line,
The controller
A frequency oscillator for generating a power supply voltage having a waveform supplied to the conductive line;
A level converter which receives a signal output from the conductive line and converts the signal into a DC level;
An amplifier for amplifying the signal output from the level converter;
A bandpass filter for removing noise of a signal output from the amplifier;
An A / D converter converting the signal output from the band pass filter into a digital signal; And
A MCU which receives the digital signal output from the A / D converter and determines a pH of the leaked solution;
Including,
The digital signal input to the MCU is a voltage value,
If the voltage value is 100 ~ 350mV pH value is 1 ~ 6 (acidic), 100 ~ -100mV pH 7 ~ 8 (neutral), -100 ~ -400mV pH of the solution leaked to pH 8 ~ 14 (alkali) Chemical solution leak detection device to determine. The method of claim 1,
The solution leak detection sensor
A base film layer on which the pair of conductive lines are formed;
An upper protective film layer laminated on the base film layer to protect the conductive line; And
A plurality of sensing holes formed on the upper protective film layer and penetrating through the conductive lines at predetermined intervals at corresponding positions;
Chemical solution leak detection device comprising a. The method of claim 2,
Coating layer dissolving or decomposing in response to a chemical solution on the upper surface of the pair of conductive lines between the base film layer and the upper protective film layer
Chemical solution leak detection device further comprising. The method according to claim 1 or 2,
The pair of conductive lines is a chemical solution leak detection device in the form of a strip. The method of claim 4, wherein
Further forming second conductive lines on both sides of the pair of conductive lines,
Chemical solution leakage detection device, characterized in that for forming the cutting portion so that the second conductive line is cut in the middle. The method of claim 3,
The coating layer is based on enamel, chemical solution leakage detection device, characterized in that composed of 40 to 70% by weight of enamel, 5 to 20% by weight of carbon, 20 to 40% by weight of diluent. delete The method of claim 1,
One end of the pair of conductive lines is a chemical solution leakage detection device connected to the capacitor. A base film layer;
A pair of conductive lines formed on the base film layer;
An upper protective film layer laminated on the base film layer to protect the conductive line;
A sensing hole formed on the upper protective film layer and penetrating through the conductive line at predetermined intervals at a corresponding position;
A capacitor connected to one end of the pair of conductive lines; And
A controller connected to the other end of the pair of conductive lines
Including,
The controller applies a power having a waveform generated through a frequency oscillator to the conductive line, and when the electrical conductivity of the conductive line changes due to the leakage of chemical solution, receives the voltage value according to the changed electrical conductivity level. Change, amplify and convert into digital signals to determine the pH of the leaked solution,
The converted digital signal is a voltage value,
If the voltage value is 100 ~ 350mV pH value is 1 ~ 6 (acidic), 100 ~ -100mV pH 7 ~ 8 (neutral), -100 ~ -400mV pH of the solution leaked to pH 8 ~ 14 (alkali) Chemical solution leak detection device to determine. delete The method of claim 9,
Coating layer dissolving or decomposing in response to a chemical solution on the upper surface of the pair of conductive lines between the base film layer and the upper protective film layer
Chemical solution leak detection device further comprising. The method of claim 11,
The coating layer is based on enamel, chemical solution leakage detection device, characterized in that composed of 40 to 70% by weight of enamel, 5 to 20% by weight of carbon, 20 to 40% by weight of diluent. A solution leakage detection sensor including a pair of conductive lines, a connector connected to one end of the pair of conductive lines, and a controller connected through the connector and the pair of conductive lines, In the device for detecting the leakage of a chemical solution containing an alkaline solution,
The controller
A frequency oscillator for generating a power supply voltage having a waveform applied to the conductive line;
An amplifier for converting the level of the signal returned from the conductive line and for amplifying the magnitude;
A bandpass filter for removing noise of the amplified signal;
An A / D converter for converting the signal passing through the filter into a digital signal; And
MCU for determining the pH value of the leaked solution by the electrical conductivity according to the digital signal output from the A / D converter;
Including,
The digital signal is a voltage value,
If the voltage value is 100 ~ 350mV pH value is 1 ~ 6 (acidic), 100 ~ -100mV pH 7 ~ 8 (neutral), -100 ~ -400mV pH of the solution leaked to pH 8 ~ 14 (alkali) Chemical solution leak detection device to determine. The method of claim 13,
The pair of conductive lines are formed on the base film layer
A chemical solution leakage detection device on which the upper protective film layer is laminated on the base film layer to protect the conductive line. The method of claim 13,
The other end of the pair of conductive lines is a chemical solution leakage detection device connected via a capacitor. delete

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