KR102064606B1 - Leak detector for less conductive liquid - Google Patents

Abstract

The present invention is a base layer made of a non-conductive material containing a general resin or a fluorine resin; A first sensor line formed in a straight line shape on the base layer and a second sensor line formed in a shape bent to have a predetermined area on the base layer and whose resistance is changed by contact with the leaked liquid; A sensor unit; And separating means for electrochemically separating the first sensor line and the second sensor line such that the first sensor line and the second sensor line are not shorted by the liquid leaked from the first sensor line and the second sensor line. Relates to a sensor.

Description

Leak detector for less conductive liquid

The present invention relates to a low conductivity liquid leak detection sensor capable of detecting the leakage of a low conductivity liquid in oil or chemicals.

In general, many chemicals are used in the semiconductor manufacturing process. For example, the cleaning liquid used for the cleaning process after cutting and polishing the wafer, the photosensitive liquid used for the photosensitive process of the wafer, the developing solution used for the developing process of the wafer, the etching liquid used for the wafer etching process, and the like are used in the semiconductor manufacturing process. .

Meanwhile, industrial facilities for general chemical or petrochemical and steel manufacturing are installed and operated outdoors with various kinds of acid and basic chemical storage facilities such as sulfuric acid, hydrofluoric acid, nitric acid and caustic soda, which are necessary for the production and processing of various kinds of products. .

These chemicals may leak to the outside due to unpredictable situations such as failure of transfer pipes or storage tanks, deterioration, overpressure or operation mistakes. Leaky chemicals can lead to explosions, fires, and adversely affect humans as well as other devices and components on the manufacturing floor, so it is necessary to detect leaks and take action quickly.

Leakage detection in chemicals generally detects a change in the overall resistance value due to shorting caused by the contact of a conductive solution between the two conductor wires, with the positive (+) conductor wires and the negative (-) conductor wires side by side or intersecting. .

A leak detection sensor using a change in resistance value due to a short of such conductor wires is disclosed in Korean Unexamined Patent Publication No. 10-2007-0005234 and Japanese Unexamined Patent Application Publication No. 01-171340.

By the way, these leak detection sensors can detect the leakage of the conductive liquid due to the short contact between the conductor wires and the leaking liquid, but it is impossible to detect the leakage of the low conductivity liquid having a relatively low conductivity in oil or chemicals.

The present invention has been invented to solve the above problems, and an object of the present invention is to provide a low conductivity liquid leakage detection sensor capable of detecting the leakage of a low conductivity liquid having a relatively low conductivity in oil or chemicals.

In order to achieve the above object, a low conductivity liquid leak detection sensor according to a first embodiment of the present invention, the base layer made of a non-conductive material containing a general resin or a fluorine resin; A first sensor line formed in a straight line shape on the base layer and a second sensor line formed in a shape bent to have a predetermined area on the base layer and whose resistance is changed by contact with the leaked liquid; A sensor unit; And separating means for electrochemically separating the first sensor line and the second sensor line such that the first sensor line and the second sensor line do not generate a short due to a liquid leaked from the first sensor line. Preferably, the separating means may be an insulating layer laminated or coated on top of the first sensor line. More preferably, the first sensor line may be formed on a different layer or surface than the second sensor line.

The low conductivity liquid leakage sensor according to the second embodiment of the present invention, the base layer made of a non-conductive material containing a general resin or a fluorine resin; And a sensor unit formed in one line on the base layer to surround the structure containing the liquid to be detected, and having a sensor line whose resistance is changed by contact with the leaked liquid.

A low conductivity liquid leak detection sensor according to a third embodiment of the present invention includes a base layer made of a non-conductive material including a general resin or a fluorine resin; The base formed in the base layer to surround at least a portion of the structure containing the liquid to be sensed, and the base in parallel with the first sensor line and the first sensor line whose resistance is changed by contact with the leaked liquid. And a sensor unit having a second sensor line formed on the layer and whose resistance value is changed by contact with the leaked liquid, wherein the first sensor line and the second sensor line are each different from each other. It is made of a material that reacts and changes its resistance.

A low conductivity liquid leak detection sensor according to a fourth embodiment of the present invention includes a base layer made of a non-conductive material including a general resin or a fluorine resin; A sensor unit formed on the base layer in a straight line shape and having a first sensor line having a resistance value changed by contact with a leaked liquid, and a second sensor line connected to the first sensor line; And a termination resistor connecting the first sensor line and the second sensor line to configure a closed circuit.

According to another aspect of the present invention, a low conductivity liquid leak detection sensor may include: a base layer made of a non-conductive material containing a general resin or a fluorine resin; A sensor unit formed on the base layer in a straight line and having a first sensor line and a second sensor line whose resistance values change due to contact with the leaked liquid; And a termination resistor connecting the first sensor line and the second sensor line to configure a closed circuit.

Preferably, the base layer is made of a common resin containing at least one of PP, PE, PVC, POM, PC, PU, or a fluorine resin-based material containing at least one of PFA, PCTFE, ETFE, and FEP. It is done.

Preferably, the sensor unit is a general resin containing at least one of PP, PE, PVC, POM, PC, PU, or a fluororesin component containing at least one of PFA, PCTFE, ETFE, and FEP and dissolving the resin component. It is characterized by being formed by high frequency welding after applying or printing the conductive ink mixed with the components on the base layer.

Preferably, the sensor unit is characterized in that it comprises a plurality of sensor lines made of a material that reacts with different kinds of liquids, the resistance value thereof changes.

Preferably, the sensor unit further includes an additional sensor line made of a material that reacts with another liquid and changes its resistance in addition to the liquid reacting with the first sensor line and the second sensor line. It is done.

Additionally, the sensor unit may add a sensor line whose resistance value is changed by contact with the leaked liquid.

The low conductivity liquid leak detection sensor according to the present invention may detect leakage of the low conductivity liquid by a change in the resistance value of the sensor line itself.

In addition, the low conductivity liquid leakage sensor according to the present invention can detect the leakage of various types of low conductivity liquid, such as acidic drugs, basic drugs, organic drugs or oil.

1 is a view schematically showing a low conductivity liquid leak detection sensor according to a first embodiment of the present invention;
2 is a view schematically showing a low conductivity liquid leak detection sensor according to a second embodiment of the present invention;
3 is a view schematically showing a low conductivity liquid leak detection sensor according to a third embodiment of the present invention;
4 is a schematic view of a low conductivity liquid leak detection sensor according to a fourth embodiment of the present invention;
5 is a diagram illustrating a circuit configuration of a low conductivity liquid leak detection sensor according to a fourth exemplary embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of a low conductivity liquid leakage detection sensor according to the present invention. For reference, in the following description of the present invention, terms referring to the components of the present invention are named in consideration of the function of each component, and should not be understood as a meaning of limiting the technical components of the present invention. Will be.

Referring to FIG. 1, a low conductivity liquid leak detection sensor according to a first exemplary embodiment of the present invention may include a base layer 100 made of a non-conductive material and a sensor part 200 formed on the base layer 100 and made of a conductive material. ) And a separation means 300 for electrochemically separating a part of the sensor unit 200.

The base layer 100 is made of a non-conductive material including a general resin such as PP, PE, PVC, POM, PC, PU, or a fluorine resin-based material such as PFA, PCTFE, ETFE, or FEP.

The sensor unit 200 includes a first sensor line 210 and a second sensor line 220 formed to have a predetermined pattern on the base layer 100, and apply or apply a conductive material on the base layer 100. It is formed by printing. The first sensor line 210 is formed in a straight shape on the base layer 100. The second sensor line 220 extends from the first sensor line 210 and is bent to have a predetermined area on the base layer 100. In this case, the sensor unit 200 forms a closed circuit by the first sensor line 210 and the second sensor line 220 without using a termination resistor. In addition, the second sensor line 220 is configured to change its resistance value in contact with the leaked liquid.

Here, the sensor unit 200 is a conductive ink in which a general resin such as PP, PE, PVC, POM, PC, PU, or a fluororesin component such as PFA, PCTFE, ETFE, FEP, and a component for dissolving the resin component are mixed. It is formed by applying or printing on the base layer 100. In addition, the conductive ink applied or printed on the base layer 100 is firmly bonded on the base layer 100 through high frequency welding.

The separating means electrochemically separates the first sensor line 210 and the second sensor line 220. By this separating means, the first sensor line 210 and the second sensor line 220 are prevented from contacting the leaked liquid at the same time. Accordingly, the first sensor line 210 and the second sensor line 220 are prevented from being shorted by the leaked liquid.

Here, the separating means may be an insulating layer 300 that is laminated or coated on the first sensor line 210. The insulating layer 300 is made of a non-conductive material and is stacked on the first sensor line 210 on the base layer 100 to protect the first sensor line 210. That is, the insulating layer 300 prevents the first sensor line 210 and the second sensor line 220 from contacting the leaked liquid at the same time by preventing the first sensor line 210 from being exposed to the outside. Accordingly, the first sensor line 210 and the second sensor line 220 are prevented from being shorted by the leaked liquid.

In addition, although not illustrated, the first sensor line 210 may be formed on a different layer or surface than the second sensor line 22. For example, the base layer 100 is composed of two layers, the first sensor line 210 is formed between the two layers, the second sensor line 220 is formed on the two layers, and then the first And a second sensor line. In addition, the first sensor line 210 is formed on the front surface of the base layer 100, the second sensor line 220 is formed on the rear surface of the base layer 100, and then connected to the first and second sensor lines Can be configured. As such, since the first sensor line 210 and the second sensor line 220 are formed on different layers or other surfaces, the first sensor line 210 and the second sensor line 220 are in contact with the leaked liquid at the same time. Is prevented. Accordingly, the first sensor line 210 and the second sensor line 220 are prevented from being shorted by the leaked liquid.

By such a configuration, when the low conductivity liquid leaks on the base layer 100, the leaked liquid does not contact the first sensor line 210 by the insulating layer 300 and does not contact the second sensor line 220. And the resistance value of the second sensor line 220 itself is changed. Therefore, the low conductivity liquid leak detection sensor according to the first embodiment of the present invention may detect the leakage of the low conductivity liquid based on the change in the resistance value of the second sensor line 220.

At this time, the closed circuit is configured by connecting the terminating resistor for checking the disconnection of the first sensor line and the second sensor line and setting the reference resistance value required for the operation of the controller.

Referring to FIG. 2, the low conductivity liquid leak detection sensor according to the second embodiment of the present invention is configured as a line sensor such as a film or a tape, not an area sensor like the first embodiment. Specifically, the low conductivity liquid leak detection sensor according to the second embodiment of the present invention includes a base layer 100 made of a non-conductive material and a sensor part 200 formed on the base layer 100 and made of a conductive material. do.

The base layer 100 is made of a non-conductive material including a general resin such as PP, PE, PVC, POM, PC, PU, or a fluorine resin-based material such as PFA, PCTFE, ETFE, or FEP.

The sensor unit 200 is formed of one sensor line on the base layer 100, and the sensor line 200 is formed by applying or printing a conductive material on the base layer 100. In addition, the sensor line 200 is configured to change its resistance value in contact with the leaked liquid.

Here, the sensor line of the sensor unit 200 is a mixture of general resins such as PP, PE, PVC, POM, PC, PU, or fluororesin components such as PFA, PCTFE, ETFE, FEP, and components for dissolving the resin components. It is formed by applying or printing conductive ink on the base layer 100. In addition, the conductive ink applied or printed on the base layer 100 is firmly bonded on the base layer 100 through high frequency welding.

The sensor line 200 is formed in a row on the base layer 100 to surround the structure 400 for receiving the liquid to be detected, such as a sump well and a chemical storage tank, so that the low conductivity liquid flows into the structure 400. Can be detected.

At this time, in order to check the disconnection of the sensor line and to set the reference resistance value necessary for the operation of the controller, the terminal resistor is connected to form a closed circuit.

Preferably, the sensor unit 200 may include a plurality of sensor lines (not shown) made of a material that reacts with different kinds of liquids to change their resistance values. For example, the sensor lines may each be made of an acidic drug, a basic drug, an organic drug, or a substance dissolved by oil.

By such a configuration, when a leaked liquid such as an acidic medicine, a basic medicine, an organic medicine, or an oil contacts the sensor unit 200, one of the sensor lines of the sensor unit 200 and the leaked liquid reacts with the sensor line. The resistance value of itself changes, and accordingly the leakage of the liquid is detected.

In this case, the plurality of sensor lines may be configured in a manner of tying each or all together, and a closed circuit is formed by connecting a terminating resistor for checking whether the circuit is disconnected and setting a reference resistance value required for the operation of the controller.

Referring to FIG. 3, the low conductivity liquid leak detection sensor according to the third exemplary embodiment of the present invention includes a base layer 100 made of a non-conductive material and a sensor part 200 formed on the base layer 100 and made of a conductive material. ).

The base layer 100 is made of a non-conductive material including a general resin such as PP, PE, PVC, POM, PC, PU, or a fluorine resin-based material such as PFA, PCTFE, ETFE, or FEP.

The sensor unit 200 includes a first sensor line 210 and a second sensor line 220 disposed adjacent to each other on the base layer 100 in parallel with each other, and the sensor lines 210 and 220 are conductive. It is formed by applying or printing a material on the base layer 100. In addition, the sensor lines 210 and 220 are configured to change their resistance in response to contact with the leaked liquid.

The sensor lines 210 and 220 of the sensor unit 200 may dissolve the resin component and a fluorine resin component such as PFA, PCTFE, ETFE, FEP, or general resin such as PP, PE, PVC, POM, PC, and PU. The conductive ink in which the components are mixed is formed by applying or printing on the base layer 100. In addition, the conductive ink applied or printed on the base layer 100 is firmly bonded on the base layer 100 through high frequency welding.

In addition, the first sensor line 210 and the second sensor line 220 are coated or printed on the base layer 100 so as to surround at least a part of the structure 400 containing the liquid to be detected, and then high frequency welding. In FIG. 3, although the first sensor line 210 and the second sensor line 220 are arranged around two side surfaces, the sensor lines 210 and 220 have a shape and field installation of the structure 400. Depending on the circumstances, it may be arranged around one side or three or more sides.

Here, the first sensor line 210 and the second sensor line 220 of the sensor unit 200 are each made of a material whose resistance value changes in response to different kinds of liquids. For example, the sensor lines 210 and 220 may be made of a material that is dissolved by an acidic medicine, a basic medicine, an organic medicine, or an oil, respectively.

By such a configuration, when a leaked liquid such as an acidic medicine, a basic medicine, an organic medicine, or an oil contacts the sensor unit 200, one of the sensor lines 210 and 220 of the leaked liquid and the sensor unit 200 is exposed. In response, the resistance value of the sensor line itself changes, and accordingly, leakage of liquid is detected.

Preferably, the sensor unit 200 is made of at least one additional sensor made of a material that reacts with a different type of liquid from the first sensor line 210 and the second sensor line 220 to change its resistance value. It may further include a line (not shown). With these additional sensor lines, one sensor can detect leaks in different types of liquids.

At this time, each of the sensor lines can be configured in a way to tie each or all together, a closed circuit by connecting the terminating resistor for checking the disconnection of the circuit and setting the reference resistance value required for the operation of the controller.

4 to 5, the low conductivity liquid leak detection sensor according to the fourth exemplary embodiment of the present invention includes a base layer 100 made of a non-conductive material and a sensor part formed on the base layer 100 and made of a conductive material. And a termination resistor 500 for closing the sensor lines 210 and 220 of the sensor unit 200.

The base layer 100 is made of a non-conductive material including a general resin such as PP, PE, PVC, POM, PC, PU, or a fluorine resin-based material such as PFA, PCTFE, ETFE, or FEP.

The sensor unit 200 includes a first sensor line 210 and a second sensor line 220 disposed in parallel with each other on the base layer 100, and the sensor lines 210 and 220 may be formed of a conductive material. It is formed by applying or printing on the base layer 100. Here, the first sensor line 210 of the sensor lines (210, 220) serves as a detection line configured to change its resistance value in contact with the leaked liquid, the second sensor line 220 The first sensor line 210 and the controller 600 are connected to serve as a return line for transmitting a detection signal.

In addition, although not shown, the sensor unit 200 includes a plurality of sensor lines disposed in parallel with each other on the base layer 100, and the sensor lines are coated or printed with a conductive material on the base layer 100. Is formed. Here, the plurality of sensor lines are formed of a material having a change in resistance value thereof by contact with various kinds of low conductivity leaking liquids. In this case, the plurality of sensor lines may be configured in a manner of tying each or all together, and a closed circuit is formed by connecting a terminating resistor for checking whether the circuit is disconnected and setting a reference resistance value required for the operation of the controller.

The embodiments of the present invention described above are merely illustrative of the technical idea of the present invention, and the protection scope of the present invention should be interpreted by the following claims. In addition, one of ordinary skill in the art to which the present invention pertains will be capable of various modifications and variations without departing from the essential characteristics of the present invention, all technical ideas within the scope equivalent to the present invention of the present invention It should be interpreted as being included in the scope of rights.

Claims (12)

A base layer made of a non-conductive material containing a general resin or a fluororesin;
A first sensor line formed in a straight line shape on the base layer and a second sensor line formed in a shape bent to have a predetermined area on the base layer and whose resistance is changed by contact with the leaked liquid; A sensor unit; And
And separating means for electrochemically separating the first sensor line and the second sensor line such that the first sensor line and the second sensor line do not generate a short due to the liquid leaked from the first sensor line.
The separating means is an insulating layer laminated or coated on top of the first sensor line, the insulating layer is made of a non-conductive material and the first sensor line and the second so that the first sensor line is not exposed to the outside. A low conductivity liquid leak detection sensor characterized by preventing the sensor line from contacting the leaking liquid at the same time.
The method of claim 1,
The base layer is composed of two layers, the first sensor line is formed between two base layers, and the second sensor line is formed on two of the base layers. sensor.
The method according to claim 1 or 2,
The base layer is made of a low-conductivity, characterized in that the general resin containing at least one of PP, PE, PVC, POM, PC, PU or a fluorine resin-based material containing at least one of PFA, PCTFE, ETFE, FEP Liquid leak detection sensor.
The method according to claim 1 or 2,
The sensor unit may be a mixture of a general resin including at least one of PP, PE, PVC, POM, PC, and PU, or a fluororesin component including at least one of PFA, PCTFE, ETFE, and FEP, and a component for dissolving the resin component. A low conductivity liquid leakage sensor, characterized in that formed by applying high frequency welding after applying or printing a conductive ink on the base layer.
The method according to claim 1 or 2,
The first sensor line and the second sensor line of the sensor unit, each of the low conductivity liquid leakage detection sensor, characterized in that made of a material that reacts with different types of liquid to change its resistance value.
The method according to claim 1 or 2,
The sensor unit may further include an additional sensor line made of a material that reacts with another kind of liquid and changes its resistance in addition to the liquid reacting with the first sensor line and the second sensor line. Liquid leak detection sensor. delete delete delete delete delete delete

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