KR102205501B1 - Tape type gas detecting sensor - Google Patents

Abstract

The present invention relates to a gas detection sensor, in particular, by configuring a gas sensor for detecting LNG, LPG gas in the form of a tape, wrapped around a connection part of a pipeline or attached directly to a welding part such as a tank lorry, or gas leakage is expected. An object thereof is to provide a tape-type gas detection sensor capable of immediately detecting leaked LNG and LPG gases by being attached to an indoor or outdoor wall or floor.
The tape-type gas detection sensor of the present invention for achieving the above object comprises: a base film layer made of a film material; And a pair of conductive lines formed parallel to each other in the longitudinal direction on the upper surface of the base film layer, and one of the conductive lines is made of a ceramic composite paste.

Description

Tape type gas detecting sensor

The present invention relates to a gas detection sensor, and more particularly to a tape-type gas detection sensor for detecting LNG, LPG gas.

Since LNG or LPG can be burned, fuels such as households and industries are often used, and they exist in a liquefied state due to high pressure during transportation or storage.

However, if the container is damaged during transportation or storage, there is a very high risk of large-scale accidents such as explosion accidents and fire accidents in which high pressure gas is ejected.

Particularly, a pipe line in which a number of pipes are connected is used during long-distance transport, and the most gas leakage occurs at the connecting portion of the pipes.

In order to prevent such a large-scale accident in advance, when gas is leaked by a gas sensor, it is immediately alerted and measures are taken. Such a conventional gas sensor is shown in Korean Patent Publication No. 1998-050398, and FIGS. 1 and 2 Is a diagram showing the structure of such a gas sensor.

As shown in Figs. 1 and 2, in the conventional gas sensor, a support bar 2 is formed under the body 1. A temperature compensating part 3 made of a platinum coil and a support 5 supporting the active part 4 are provided on the upper part of the body 1.

At this time, the alumina carrier 7 into which the catalyst containing chlorine has penetrated is integrally wrapped in the coil of the temperature compensation unit 3 and the active unit 4.

In addition, the catalyst is formulated by mixing PdO and Pt black obtained using [Pd(NH3)b](NO3)a and [Pt(NH3)b](NO3)a, and the alumina support 7 is cylindrical. A through hole 8 is formed inside, and it is configured to apply an applied voltage of 3V (±10%).

Therefore, it is possible to detect the gas by catalytic combustion.

However, since such a conventional gas sensor is in the form of a single element, it is a structure that is installed only in a very limited room, and cannot be applied to a connection part of a pipeline or a welding part of a gas transport vehicle such as a tank lorry, and it is expensive. .

In order to solve such a problem in the prior art, the present invention configures a gas sensor for detecting LNG and LPG gas in the form of a tape, and wraps the connection part of the pipeline or directly attaches it to a welding part such as a tank lorry, or gas leakage is expected An object thereof is to provide a tape-type gas detection sensor capable of immediately detecting leaked LNG and LPG gases by being attached to an indoor or outdoor wall or floor.

Tape-type gas detection sensor of the present invention for achieving the above object,

A base film layer made of a film material;

Consists of; a pair of conductive lines formed parallel to the length direction on the upper surface of the base film layer,

One of the conductive lines is formed of a ceramic composite paste.

In the present invention, since the coating layer reacts to gases such as LNG and LPG and the resistance value changes, the conductive line is energized by the changed resistance value, so that leakage of gas can be accurately detected. It is easy to install by attaching directly to the welding part such as the connection part or the tank and attaching it to the wall or floor indoors or outdoors.

In addition, since it is manufactured by chemical treatment, it has an advantage of excellent price competitiveness due to low manufacturing cost.

1 and 2 are diagrams showing the structure of a conventional gas detection sensor.
3 is a diagram showing an exploded structure of a gas detection sensor according to the present invention.
Figure 4 is a diagram showing a stacked state of the present invention.

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

3 is a diagram showing an exploded structure of the present invention, and FIG. 4 is a stacked state diagram of the present invention. The gas detection sensor 100 of the present invention includes a base film layer 110, conductive lines 111 and 112, and an upper protective film. It consists of a layer 120.

The base film layer 110 is a layer for forming the conductive lines 111 and 112 on the upper side, and PET, PE, PI, PC, PTFE, PVC or other Teflon series to form the pattern of the conductive lines 111 and 112 in a printing method. It is formed of a film of the material of.

In addition, the conductive lines 111 and 112 are spaced apart from each other on the upper surface of the base film layer 110 and are arranged in a strip shape in parallel in the longitudinal direction, and one conductive line 111 is a ceramic composite paste having conductivity (Ceramic Composite Paste), and another conductive line 112 is formed by printing with conductive ink or a silver compound.

At this time, one end of the two conductive lines 111 and 112 is electrically connected to each other.

In addition, the upper protective film layer 120 is laminated on top of the base film layer 110 by lamination to protect the conductive lines 111 and 112 from external stimulation. Like the base film layer 110, PET, PE, It is formed of PI, PC, PTFE, PVC, or other Teflon-based material, and is configured to pass through the sensing hole 121 at a predetermined interval at a position corresponding to the conductive line 111.

In particular, it is recommended that the upper protective film layer 120 is laminated in order to protect the conductive lines 111 and 112 outdoors, which are greatly affected by the external environment, and indoors, the upper protective film layer 120 may be selectively laminated or May not be stacked.

The sensing process of the gas detection sensor 100 will be described by taking the state in which the upper protective film layer 120 is stacked as an example.

Since the gas detection sensor 100 of the present invention is in the form of a tape, it may be wound or attached to a connection part of a pipe through which LNG or LPG moves, or a welding part of a storage tank such as a storage tank or a tank lorry, or an indoor where LNG or LPG leakage is expected. B It can be installed by attaching it to an outdoor wall or floor.

Therefore, when the gas leaks and flows into the sensing hole 121 of the upper protective film layer 120, the leaked gas comes into contact with the conductive line 111 made of a ceramic composite paste, and at this time, the conductive line 111 is conductive. Since the line 112 has a closed circuit, the conductive line 111 is conductive, and then the resistance value changes due to the contact of LPG or LNG.

That is, the conductive line 111 exists in a state having a certain resistance value before contacting LPG or LNG, but a change in resistance value occurs due to contact of LPG or LNG.

Therefore, the change in the resistance value is notified to a remote device through the conductive line 112, so that the gas leakage state can be confirmed.

100: gas detection sensor
110: base film layer 111,112: conductive line
120: upper protective film layer 121: sensing hole

Claims (2)

A film-shaped base film layer extending in the longitudinal direction; And
Including; a pair of first and second conductive lines formed parallel to the length direction on the upper surface of the base film layer,
The first conductive line is composed of a ceramic composite paste,
The first conductive line is electrically connected to each other at an end of the second conductive line,
When gas leaks, the leaked gas changes a resistance value of a first conductive line made of a ceramic composite paste to detect gas leakage.
The method of claim 1, wherein an upper protective film layer is stacked on an upper surface of the base film layer to cover the first and second conductive lines, and the upper protective film layer is at a position corresponding to the first conductive line. Tape-type gas detection sensor, characterized in that the sensing holes are formed at regular intervals.

Images