KR101162475B1 - Device for detecting oil leak - Google Patents

Abstract

PURPOSE: An oil leakage sensing device is provided to manage an oil leakage by rapidly sensing the oil leakage since oil is leaked before soil is contaminated. CONSTITUTION: An oil leakage sensing device comprises a casing(100), a catalyst(200), a piston(300), and a micron switch. The catalyst is installed inside of the casing so that volume of the catalyst is reacted to the oil. The piston is connected to the catalyst by contacting to. The micro switch comprises an actuator connected by contacting to a leading end of the piston. The casing is joined to a body and a rear part of the body. The catalyst is installed inside the casing and comprises an end cap having a plurality of through-holes where the oil flows in.

Description

Oil leak detection device {DEVICE FOR DETECTING OIL LEAK}

The present invention relates to an oil leakage detecting device, and more particularly, oil leakage detection which can prevent oil leakage by quickly and accurately detecting oil leakage by operating a micro switch due to a volume change phenomenon caused by a chemical reaction of a catalyst. Relates to a device.

In general, oil storage facilities are very bulky, and due to various safety reasons, landfilling and buried underground rather than external exposure compensate for the two disadvantages of installation area and safety.

Also, in Korea, oil pipelines, called underground highways, are buried in the ground about 1300 km long to supply oil products of each refinery to major oil reservoirs and airport military facilities.

However, the amount of leakage is increasing every year due to the aging of underground buried materials and damage caused by human error.However, since it is an underground facility, even if an oil leak occurs, it cannot be checked with the naked eye. It causes subsequent accidents such as pollution.

Currently, the Soil Environment Conservation Act mandates the installation of leak detection facilities such as automatic leakage measuring devices or external leakage measuring devices for oil storage facilities, but the equipment installation cost is high and it is ineffective for most facilities and equipment due to lack of legal mandate. The situation is not harvested.

On the other hand, due to the use of artificial detection through the leak detection tube mainly due to rainwater infiltration and management problems caused by groundwater, there are many cases in which the leak detection tube hole is embedded in the tank chamber.

In particular, there was no regulation for environmental improvement of oil storage facilities installed in accordance with past facility standards, and management was not properly performed, and the only improvement to date was to reduce the periodic soil pollution inspection cycle for old tanks.

On the other hand, there are leak detection systems that are used to solve these problems. Indirect methods using a pressurized method for storage tanks and direct methods are carried out openly. Pressurized types have a large economic loss burden because they have to empty all contents and inspect the facility. Inspection is cumbersome, and the direct law has a large burden of opening the buried facility, and a large economic loss burden.

The present invention has been made in order to solve the problems of the prior art as described above, it is easy and economical to install and detect while maintaining the facility as it is, simple and economical from the time of occurrence of a small amount of leakage before soil pollution for the facility The purpose is to provide an efficient leak detection device for first responders.

Leakage detecting apparatus of the present invention configured as described above is a casing; A catalyst installed inside the casing to volume react with oil; A piston in contact with and interlocked with the catalyst; And it is characterized in that it comprises a micro switch is provided with an actuator for contacting and interlocking with the front end of the piston.

Here, the casing is characterized in that it comprises a main body and an end cap coupled to the rear of the main body and provided with a plurality of through holes through which the catalyst is installed and the oil is introduced.

Preferably, the catalyst is characterized in that titanium oxide is used.

The piston may include a rear piston part in contact with the catalyst; And a spring coupled to the rear piston part and contacting the actuator, and a spring suppressing the rear piston part.

Preferably, the casing is provided with a stopper for limiting the rear movement of the front piston.

In addition, the front cap of the casing is coupled to the front cap in contact with the actuator, the front cap is characterized in that the coupling hole is provided with a communication line extending from the actuator in communication.

Preferably, a sealing ring is interposed between the casing and the front cap.

Preferably, a sealing ring is interposed between the casing and the piston.

The oil leakage detecting apparatus of the present invention configured as described above can be installed and detected while maintaining the existing facilities in a simple configuration, thereby reducing the burden of economic loss, and secondly, promptly detecting a small amount of oil leakage before the soil pollution to provide first responders. Effective and effective effect.

1 is a partially cutaway perspective view showing a leak detection apparatus according to the present invention;
2 is a partially cutaway perspective view showing the leak detection apparatus according to the present invention;
3 is a cross-sectional view showing an oil leak detecting apparatus according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present embodiment, the same designations and the same reference numerals are used for the same components, and further description thereof will be omitted.

1 is a partially cutaway perspective view showing a leaking oil detecting apparatus according to the present invention, FIG. 2 is a partially cutaway perspective view showing a leaking oil detecting apparatus according to the present invention, and FIG. 3 is a cross-sectional view showing a leaking oil detecting apparatus according to the present invention.

As shown in FIG. 1 to FIG. 3, the leak detection apparatus of the present invention includes a casing 100, a catalyst 200, a piston 300, and a micro switch (not shown).

Casing (100) is a tubular screw-shaped body 110 and the back of the main body 110 and a plurality of porous through-holes 121 through which oil is introduced so that direct contact with the oil can be made, perforated, provided It is configured to include an end cap (End Cap) (120).

Catalyst 200 is installed inside the casing (specifically inside the end cap 120) and the titanium oxide (which may be added to the catalyst) may be used as the volume is changed by the oil (volume reduction by the chemical reaction). have.

In this case, the catalyst 200 may be transformed into different shapes depending on the intended use, and the operating time may be adjusted by adjusting the volume.

The piston 300 includes a rear piston part 310, a front piston part 320, and a spring 330. The piston 300 comes in contact with the catalyst 200 through an end cap 120. It is interlocked with the catalyst 200 that changes in volume depending on the oil introduced.

Between the casing body 110 and the rear piston portion 310 of the piston, it is preferable to interpose a sealing ring R1 to prevent internal oil penetration (sealing) when performing the underwater detection function.

Microswitch (not shown in the figure) is configured to include (equipment) the actuator (Actuator 400), the actuator 400 is in contact with the tip of the piston 300, in conjunction with the catalyst 200 Detect volume changes

Specifically, the rear piston 310 is in contact with the catalyst 200, the front piston 320 is screwed into the rear piston 310 and in contact with the actuator 400, the spring 330 is The rear piston 310 is pressed against the catalyst 200.

The spring 330 assists the smooth operation of the piston 300 and the micro switch. The spring 330 transmits a constant tension to the piston 300 to apply an additional force to detect the chemical reaction caused by oil as quickly and sensitively as possible. .

In addition, the front piston 320 is provided with a flange 321 extended to the front end in contact with the actuator 400, the stopper for limiting the rear movement of the front piston 320 inside the casing body 110. (Stopper) 111 protrudes and is provided.

In addition, the front cap 500 is screwed to the front of the casing 100 in contact with the actuator 400, the electrical signal sensing line 410 extending from the actuator 400 to the front cap 500. This communicating hole 510 is drilled and provided.

Between the casing body 110 and the front cap 500, it is preferable to interpose a sealing ring (R2) to prevent internal oil penetration (sealing) when performing the underwater detection function.

Looking at the operation process of the oil leakage detecting apparatus of the present invention configured as described above, when the oil is introduced through a plurality of porous through holes 121 provided in the end cap (120) of the casing (Casing) (100) Catalyst 200 is changed (reduced) in volume by a chemical reaction.

In this case, the front piston 320 of the piston 300 in contact with the catalyst 200 transmits the volume change of the catalyst 200 to the actuator 400 through the flange 321 of the tip portion, and delivers the delivered catalyst ( The volume change of 200 is converted into an electrical signal by a micro switch.

The precise detection of leaks (leakage of oil) is then displayed on the central control unit (central detector), allowing administrators to quickly operate safety management devices and other first-hand actions.

According to the present invention, the sealing rings R1 and R2 are interposed between the casing main body 110 and the rear piston part 310 of the piston and between the casing main body 110 and the front cap 500, respectively. It can be used in any environment within the depth of 50M by providing the optimal conditions and can prevent malfunctions caused by groundwater or rainwater.

Operation of the micro switch by the actuator 400 is a matter that can be easily understood by those skilled in the art, the detailed description is omitted, and the oil used in the present invention encompasses some chemicals (toluene, naphtha, solvent, etc.) It is a name to say.

As described above, a preferred embodiment according to the present invention has been described, and the fact that the present invention can be embodied in other specific forms in addition to the above-described embodiments without departing from the spirit or scope thereof is known to those skilled in the art. It is obvious to those who have it.

Therefore, the above-described embodiments should be regarded as illustrative rather than restrictive, and thus, the present invention is not limited to the above description but may be modified within the scope of the appended claims and their equivalents.

100: casing 110: main body
111: stopper 120: end cap
121: through-air 200: catalyst
300: piston 310: rear piston part
320: front piston portion 321: flange
330: spring 400: actuator
410: detection line 500: front cap
510: coupling hole R1, R2: sealing ring

Claims (8)

Casing;
A catalyst installed inside the casing to volume react with oil;
A piston in contact with and interlocked with the catalyst; And
It is configured to include a micro switch is provided with an actuator which is in contact with, interlocked with the front end of the piston,
The casing is leaking oil detection device characterized in that it comprises a main body and an end cap coupled to the rear of the main body is provided with a catalyst therein and a plurality of through holes through which oil is introduced. delete The method of claim 1,
The catalyst for leaking oil, characterized in that the titanium oxide is used. The method of claim 1,
The piston includes a rear piston portion in contact with the catalyst; And a spring for engaging with the rear piston part and contacting the actuator and a spring suppressing the rear piston part. The method of claim 4, wherein
Leak detection device is characterized in that the stopper is provided inside the casing to limit the rear movement of the front piston. The method of claim 1,
The front cap of the casing is coupled to the front cap is in contact with the actuator, the front cap is leaking detection device characterized in that provided with a coupling hole in communication with the sensing line extending from the actuator. The method according to claim 6,
Leakage detection device, characterized in that the sealing ring is interposed between the casing and the front cap. The method of claim 1,
Leakage detection device, characterized in that the sealing ring is interposed between the casing and the piston.

Images