KR20140073110A - Oil leakage detecting sensor for explosion-proof area - Google Patents

Abstract

The present invention relates to an oil leakage detecting sensor for an explosion district and, more particularly, to an oil leakage detecting sensor for an explosion district, which is buried underground or is installed on the ground of a facility where explosion can easily occur, in order to sense the leakage of oil. In the oil leakage detecting sensor, a pair of conductive lines is formed in parallel in a longitudinal direction on the top surface of a base film layer formed of a film material. A lower adhesive layer is formed on the bottom surface of the base film layer in order to attach the base film layer to the bottom surface. An upper protective layer formed of a film material is stacked on the top surface of the base film layer. Sensing holes are formed on the upper protective layer at regular intervals in order to expose the conductive lines of the base film layer upward. A protective cover which has a wider width than the upper protective layer and is formed of a synthetic resin material or a metal plate material is stacked on the top surface of the upper protective layer. Fixating units are placed at both edges in the width direction of the protective cover in order to be fixated to the floor. Exposing holes are formed on the protective cover at positions corresponding to the sensing holes respectively. In addition, the size of the exposing hole is the same as or larger than the size of the sensing hole.

Description

[0001] The present invention relates to an oil leak detecting sensor for an explosion-

The present invention relates to a leakage detection sensor in an explosion-proof area, and more particularly, to a leakage detection device in an explosion-proof area that detects leakage of oil by being embedded in the ground of an explosive- will be.

Oil tanks installed on the ground or buried underground contain highly flammable oil, so the oil storage area where the oil tank is installed is set as an explosion-proof area.

It is necessary to monitor the leak condition of the oil tank at all times because oil tank leaks due to cracks, corrosion, external impact, etc., may cause explosion and serious pollution of surrounding soil and groundwater.

In order to check whether the soil is leaking, a method of collecting a sample of the surrounding soil is often used. However, this is a method that is not easily done except for a special case because the soil is sampled at a certain depth from the surface.

In addition, since it is impossible to check immediately when leakage occurs, soil and groundwater contamination has already occurred. In particular, the risk of explosion is greatly increased due to the considerable dampening of leakage.

To this end, the present applicant has proposed a leakage detection device in an explosion-proof area in Application No. 10-2011-0046461 (filed on May 17, 2011).

However, the leak detection device of the explosion-proof area has a structure in which the pipe 200 is vertically buried in the ground and the tape-type leak detection sensor assembly 300 is inserted into the embedded pipe 200, Has a very complicated shape, so that the construction is difficult and the cost is increased accordingly.

In addition, this structure is a structure buried in the ground. It is a structure that does not penetrate into the ground and leaks to the upper surface of the ground and can not detect leakage.

In order to solve such a conventional problem, the present invention proposes a leak detection sensor in an explosion-proof area that detects oil leaking to the ground or the ground surface of an explosion-proof area and also has a simple installation structure, There is a purpose.

According to an aspect of the present invention, there is provided a leak detection sensor for an explosion-

A pair of conductive lines are formed in the longitudinal direction on the upper surface of the base film layer made of a film material and a lower adhesive layer for bonding the base film layer to the bottom surface is formed on the lower surface of the base film layer, A leak detection sensor comprising: a top layer of a film material laminated on a top surface of a film layer; and a sensing hole for exposing a conductive line of the base film layer to the top,

A protection cover made of a synthetic resin material or a metal plate is laminated on the upper surface of the upper protective layer so as to be wider than the upper protective layer, The protection cover is formed with an exposure hole corresponding to the sensing hole, and the size of the exposure hole is equal to or larger than the sensing hole.

The film-type leak detection sensor of the present invention has a simple structure, and can be easily installed by being buried in the ground of an explosion-proof area, thereby reducing manufacturing cost and installation cost. Moreover, since it can be easily installed on the ground and the ground surface, And the leak that flows on the surface of the earth.

FIG. 1 is a view showing the structure of a conventional explosion-proof area leak detection device.
2 is a view showing a structure of a film type leakage detection sensor applied to the present invention.
3 is a view showing a laminated structure of a leakage detection sensor according to the present invention.
4 is a view showing a structure to which a protective cover is applied;
FIG. 5 is a front sectional view of a form in which the present invention is installed. FIG.
6 is a view showing another form of the protective cover;
7 is a front cross-sectional view of the installed form with the protective cover of Fig. 6 applied;
8 is a view showing the shape of an exposure hole formed in a protective cover;
Figures 9 to 12 are cross-sectional views of other embodiments of the present invention.

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

2 and 3, the leak detecting sensor 100 according to the present invention includes a lower adhesive layer 120, a base film layer 110, and an upper protective layer 130 sequentially stacked on a bottom surface .

The base film layer 110 is a layer on which the conductive lines 111 and 112 are formed on the upper side and the upper and lower surfaces of the conductive lines 111 and 112 It is made of PET, PE, PTFE, PVC or other Teflon material to form the pattern in the 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 printed with a conductive ink or silver compound.

The upper protective 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 layer 130 may be made of PET, And a sensing hole 131 penetrating through the conductive lines 111 and 112 at regular intervals.

Accordingly, when the sensor is installed on the ground surface of the explosion-proof area, the leakage flowing through the ground surface flows through the sensing hole 131 to conduct the two conductive lines 111 and 112, So that it is possible to detect the leakage.

However, when the film-type leak detecting sensor 100 is installed on the floor where leakage can occur, a lot of damage such as insufficient sensing and cutting is caused by movement of people, vehicles, and other working tools.

For example, when a person tries to walk and tears his or her foot, or if a sharp or heavy work tool is dragged and cut, the leakage sensor 100 is exposed to the outside, such as abrasion caused by frequent passengers or vehicles Causing a lot of damage, and there was a problem in stability and reliability of leak detection.

4, the protective cover 200 is wider than the leakage detection sensor 100 and has a length equal to the length of the leakage detection sensor 100, A hard synthetic resin material, or a metal material or a thicker film material, which is the same material as the base film layer 110, and may be formed, for example, as a synthetic resin material sheet made of PC material or a thin sheet material made of stainless steel.

This material is resistant to external impact and does not cause corrosion, so that it is suitable for protecting the leak detection sensor 100.

The protection cover 200 is formed with an exposure hole 210 at a position corresponding to the sensing hole 131 of the leak sensor 100 so that oil flows into the sensing hole 100 through the exposure hole 210, 131), so that the remote controller senses the presence of the nuny.

That is, an exposure hole 210 is formed to expose the sensing hole 131 to the outside of the protective cover 200. The size of the exposure hole 210 is at least equal to or larger than the size of the sensing hole 131 .

5 is a side view showing a state where the present invention is installed on the floor. First, the leak detection sensor 100 is attached to the floor by a lower adhesive layer 120, (100).

At this time, adhesive materials 220 and 230 such as a double-sided tape or an adhesive are formed on the lower surfaces of the side edges of the protective cover 200 and are attached to the floor so that the protective cover 200 is fixed without being detached from the leak sensor 100.

Therefore, the leakage detection sensor 100 is protected from an external force because the external force by the human foot or the external force by the work tool, the vehicle, etc., is applied only to the protection cover 200 as in the prior art.

6 shows a state in which the bolt holes 240 and 250 are formed at regular intervals along the both side edges of the protective cover 200 and the protective cover 200 is formed on the upper surface of the leakage detection sensor 100 as shown in FIG. The bolts 260 and 270 are fastened and fixed to the floor through the bolt holes 240 and 250 so that the leakage sensor 100 can be easily protected while the detachment does not occur.

At this time, the protective cover 200 is first fixed to the floor by the adhesive materials 220 and 230, and then is firmly fixed by the bolts 260 and 270.

8 is a view showing the shape of the exposure hole 210 formed in the protective cover 200 and is formed so as to correspond 1: 1 with the sensing hole 131 as shown in (a) Or may have the form of an exposure hole 280 in the form of an elongated ellipse in the width direction to simultaneously expose two sensing holes 131 formed side by side as in (b).

Although it is a structure for detecting the leakage of oil on the surface of the explosion-proof area of the leak detection sensor 100 described above, it is difficult to install it in the ground.

Therefore, in FIGS. 9 to 12, the leaked oil is leaked when the oil leaking into the ground is buried in the ground.

9 is a cross-sectional view of a structure in which the mesh 300 surrounds the outer periphery of the leak detection sensor 100 of the present invention. The mesh 300 is wrapped up to the upper surface, the lower surface and the side portions, I lay it up or lay it down.

Accordingly, it is possible to prevent the mesh 300 from directly contacting the leak sensor 100 with foreign matter such as soil, and to allow the leaked oil to flow through the sensing hole 131.

10 shows a state in which the leakage detection sensor 100 is attached to the inner bottom flat portion of the support bar 400 having a long cross-sectional shape, and then the upper surface exposed by the protective cover 200 is protected, And has a structure in which the mesh 410 is put on the upper portions of the side walls 403 and 404 extending upward from both sides of the portion.

At this time, the protective cover 200 and the mesh 410 have an interval of about 10 mm.

That is, the side walls 403 and 404 are positioned at a height of about 10 mm higher than the thickness of the leak detection sensor 100 including the protective cover 200, and the upper portion of the support bar 400 is covered with the mesh 410.

Therefore, when buried in the ground or buried in the ground, foreign matter such as soil is not directly contacted to the leak sensor 100 by the mesh 410, but only leaked oil flows through the mesh 410 to detect leakage You can.

11 shows a structure in which the supporting bar 401 has a semicircular cross section and a flat portion 402 is formed across the inside thereof to attach the leak detecting sensor 100 to the flat portion 402, (410)).

12 also shows the structure of the support bar 405 having a 'H' cross section.

100: leak detecting sensor 110: base film
112, 112: conductive line 120: lower adhesive layer
130: upper protective layer 131: sensing hole
200: Protective cover 210, 280: Exposure opening
220,230: Adhesive material 240,250: Bolt hole
260,270: Bolt 300: Mesh
400: Support bar 410: Mesh

Claims (5)

A pair of conductive lines are formed in the longitudinal direction on the upper surface of the base film layer made of a film material and a lower adhesive layer for bonding the base film layer to the bottom surface is formed on the lower surface of the base film layer, A leak detection sensor comprising: a top layer of a film material laminated on a top surface of a film layer; and a sensing hole for exposing a conductive line of the base film layer to the top,
A protection cover made of a synthetic resin material or a metal plate is laminated on the upper surface of the upper protective layer so as to be wider than the upper protective layer, Wherein the protective cover is formed with an exposure hole at a position corresponding to the sensing hole, and the size of the exposure hole is equal to or larger than the sensing hole.
The leaking sensor according to claim 1, wherein the protective cover is made of a plate made of a PC material or a stainless steel plate.
The leak detection sensor according to claim 1, wherein the fixing means is an adhesive tape or a bolt.
A pair of conductive lines are formed in the longitudinal direction on the upper surface of the base film layer made of a film material and a lower adhesive layer for bonding the base film layer to the bottom surface is formed on the lower surface of the base film layer, A leak detection sensor comprising: a top layer of a film material laminated on a top surface of a film layer; and a sensing hole for exposing a conductive line of the base film layer to the top,
The leakage detection sensor is attached to the flat portion of the support bar having a flat flat portion in the longitudinal direction in the longitudinal direction. The support bar is formed on both sides of the flat portion with a wall higher than the thickness of the leak detection sensor, Wherein the sensor is configured to cover the mesh while maintaining an interval with the leakage detection sensor.
A pair of conductive lines are formed in the longitudinal direction on the upper surface of the base film layer made of a film material and a lower adhesive layer for bonding the base film layer to the bottom surface is formed on the lower surface of the base film layer, A leak detection sensor comprising: a top layer of a film material laminated on a top surface of a film layer; and a sensing hole for exposing a conductive line of the base film layer to the top,
And the mesh surrounds the outside of the leak detection sensor.

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