KR20160010932A - Chemical solution leak detection sensor - Google Patents

Abstract

Provided is a chemical solution leak detection sensor having a structure of forming a pair of conductive lines side by side on an upper surface of a base film layer in a strip shape and a coated layer which dissolves or decomposes by reacting with a chemical solution on the upper surface of the base film layer and an another pair of conductive lines and coated layer at a lower surface of the base film layer like the upper surface. Furthermore, the sensor has a structure of forming a second coated layer comprising a compound of non-conductive carbon and a high polymer on an upper surface of the coated layer of the upper surface so as to improve the durability of the coated layer. As such, the present invention enables to sense an acidic, a neutral, and an alkaline solution by a single tape type sensor such that maintenance costs, as well as installation costs, can be reduced.

Description

Chemical solution leak detection sensor [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a chemical solution leakage detecting apparatus, and more particularly, to a chemical solution leakage detecting apparatus capable of detecting leakage of various chemical solutions such as an acidic solution, a neutral solution and an alkaline solution.

The applicant of the present invention has already proposed a tape-like leak detection sensor that can easily detect the occurrence of leakage by providing a tape-like shape in a number of registered patents (10-0909242, 10-0827385, etc.) have.

1 and 2, the leak sensor 100 includes a lower adhesive layer 120, a base film layer 110, and an upper protective film layer 130 sequentially stacked on the bottom surface.

The base film layer 110 is a layer in which the conductive lines 111 and 112 are formed on the upper part and the upper part of the conductive lines 111 and 112 It is formed of a film made of PET, PE, PTFE, PVC or other Teflon series to form a pattern in a printing method.

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

The upper protective film layer 130 is a layer for protecting the conductive lines 111 and 112 from external stimuli by being laminated on the base film layer 110. The upper protective film layer 130 may be made of PET, Or other Teflon-based materials. The sensing holes 131 are formed at predetermined intervals in positions corresponding to the conductive lines 111 and 112, respectively.

Therefore, when water leakage occurs, water is introduced through the sensing hole 131 at the position where the water leakage occurs, so that the two conductive lines 111 and 112 are energized by moisture, and the state of the remote controller in the energized state So that it is possible to detect the leakage and generate an alarm accordingly.

However, such a conventional film type leak detecting sensor 100 can detect leakage of water, but can not detect various chemical solutions such as an acidic solution, a neutral solution, and an alkaline solution, thereby preventing the detection of a toxic or harmful solution There are disadvantages.

That is, in order to detect the acidic, neutral, and alkaline solutions, all of the separate sensors must be installed. Therefore, the installation cost and the operation cost increase, and since they are not installed in a narrow place, Can not be accurately detected.

In order to solve the conventional problems, the present invention has been made to solve the above-mentioned problems in the prior art by applying a coating layer which is dissolved or decomposed only in a chemical solution to a film type leak detection sensor, And to provide a sensing device.

In order to accomplish the above object, the present invention provides a chemical solution leakage detecting device comprising: a pair of conductive line strips formed on a top surface of a base film layer in parallel and having a coating layer, which is dissolved or decomposed in reaction with a chemical solution, And a pair of conductive lines and a coating layer are formed on the lower surface of the base film layer like the upper surface.

Further, on the upper surface of the coating layer on the upper surface, a secondary coating layer of a mixture of non-conductive carbon and a polymer compound is formed to increase the durability of the coating layer.

The present invention can detect acidic, neutral, and alkaline solutions by means of a single tape-type sensor, thereby reducing the installation cost as well as the maintenance cost.

1 and 2 are views showing a decomposition structure of a conventional leak detection sensor.
3 is a cross-sectional structural view of a chemical solution leakage sensor according to the present invention.
4 is a sectional view showing another structure of a chemical solution leakage sensor.
5 is a plan view of a leakage detection sensor for explaining intervals of sensing holes;
6 is a bottom view of the leak branch sensor.
7 is a view showing 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 leakage sensor 200 of the present invention is the same as that described above with reference to FIGS. 1 and 2, a structure in which the coating layer 140 is formed as shown in FIG. 3 will be mainly described.

First, the chemical solution, which is a toxic substance, is leaked to the soil or the atmosphere, water quality pollution, soil pollution, air pollution, etc.

Therefore, it is necessary to detect the leakage of the chemical solution quickly and inexpensively. To this end, the present invention is characterized in that a pair of conductive lines 111 and 112 are formed on a top surface of a base film layer 110, The coating layer 140 is made of enamel as a main material and is composed of 40 to 70% by weight of enamel, 5 to 20% by weight of carbon and 20 to 40% by weight of diluent Lt; / RTI >

The conductive lines 111 and 112 are formed of various materials such as a conductive metal thin plate, 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 and the coating layer 140 is dissolved or decomposed when the chemical solution flows into the sensing hole 131, The resistance value between the electrodes 111 and 112 is changed.

The change in the resistance value is input to the controller 300 of FIG. 7 to determine the type of the chemical solution.

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

The DC power supply 310 is supplied to the conductive line 111 in the form of a sinusoidal wave of 5 Hz to 100 KHz through the frequency oscillator 320. When the resistance value is changed by shorting the conductive lines 111 and 112 due to leakage of the chemical solution, Level converter 330 and converts it to a DC level.

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

8 is a graph showing the relationship between the resistances of the conductive lines 111 and 112 and the resistances of the conductive lines 111 and 112 in order to determine the type of the chemical solution leaked from the MCU 370. FIG. The pH value is 1 to 6, so that if the voltage value between the conductive lines 111 and 112 is between 100 and 350 mV, the acid value It is determined that the solution is leaked and an alarm is generated.

When a neutral solution of pH 6 to 8 is leaked, the voltage value is 100 to -100 mV as a theoretical value, and a negative voltage is output for a period of pH 7 to 8. However, the MCU 370 outputs a negative voltage To be detected.

That is, theoretically, since the voltage value of the neutral solution is located in a region continuously decreasing from the (+) region to the (-) region, the voltage value of the (-) region is reversed to the (+ .

Likewise, even when the alkali solution having pH of 8 to 14 is leaked, the MCU 370 has a voltage value of -100 to -400 mV as a theoretical value, but the MCU 370 inverts this to the (+) voltage region.

Therefore, as shown in FIG. 4, the voltage value changes according to the change of the electric conductivity, and therefore the pH changes. Accordingly, the change of the pH value is calculated according to the change of the voltage value to determine leakage of the intensive solution.

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

4 is a view showing another form of the chemical solution leakage sensor 200. A second coating layer 150 made of non-conductive carbon and a polymer composite material is coated on the upper surface of the coating layer 140, And the upper protective film layer 130 are stacked.

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

In other words, if damage such as hardening or cracking of the coating layer 140 occurs due to light or heat, the reaction sensitivity to the chemical solution changes and an error in leakage detection occurs. Therefore, the second coating layer 150 prevents the coating layer 140 from being damaged.

The second coating layer 150 is swelled by the chemical solution to generate a crack, and the chemical solution penetrates through the gap to reach the coating layer 140.

On the other hand, a pair of conductive lines 115 and 116 are formed in a strip shape on the lower surface of the base film layer 110, and the upper surface of the base film layer 110 on which the conductive lines 115 and 116 are formed is covered with a chemical solution A third coating layer 160 is formed by applying and dissolving or decomposing.

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

Therefore, when the chemical-solution leakage sensor 200 according to the present invention is installed on the floor in a tunnel form, or when it is attached to the floor only in the middle of the floor so that the lower surface may float slightly from the floor, Even if it flows into the upper surface or the lower surface of the chemical solution leakage sensor 200, it can accurately detect it.

5A and 5B are diagrams for explaining the sensing sensitivity according to the pitch of the sensing hole 131. In the case of FIG. 5A, the sensor sensitivity is adjusted to be 28 mm, (C), the sensing sensitivity is enhanced by forming the sensing holes 131 in a densely spaced distance of 7 mm.

The sensing hole 131 may be formed in various shapes such as a circle, a rectangle, an ellipse, and a hemisphere.

6 further includes conductive lines 117 and 118 on both sides of the conductive lines 111 and 112 and forms a cut portion 119 such that the conductive lines 117 and 118 can be cut in the middle.

This is because when the coating layer 140 is formed in a liquid phase, the coating liquid flows to both sides of the conductive lines 111 and 112 and the conductive lines 117 and 118 are used as dams to prevent the thickness of the coating layer 140 from being uneven To receive the coating liquid between the conductive lines 117 and 118.

At this time, when the chemical solution leaks and the coating layer 140 is dissolved or decomposed, a change in resistance value between the conductive line 111 and the conductive line 117 or between the conductive line 112 and the conductive line 118 A sensing error occurs. Therefore, the signal of the resistance value generated in the conductive lines 117 and 118 is cut off by the cut portion 119.

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 (5)

Wherein a coating layer is formed on the upper surface of the base film layer in the form of a pair of conductive line strips and on the upper surface thereof to be dissolved or decomposed in reaction with the chemical solution.
The chemical solution leakage detecting apparatus according to claim 1, wherein a pair of conductive lines and a coating layer are formed on a lower surface of the base film layer.
The coating layer according to any one of claims 1 to 3, wherein the coating layer is made of enamel as a main material, and is characterized by comprising 40 to 70% by weight of enamel, 5 to 20% by weight of carbon, and 20 to 40% A chemical solution leak detector.
The chemical solution leakage detecting apparatus according to claim 1, wherein a second coating layer made of a non-conductive carbon and a polymer composite material is applied to an upper surface of the coating layer.
The chemical solution leakage detecting apparatus according to claim 1, wherein a conductive line is further formed on both sides of the conductive line, and a cut portion is formed so that the conductive line can be cut in the middle.

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