KR20160008333A - a gas leak of mid infrared optical sensor for vehicle mounted - Google Patents

Abstract

The present invention relates to a vehicle-mounted gas leak detection device, more specifically, which can accurately detect gas leaked in a gas pipe to find a position of the leaked gas, and effectively detect a leakage of gas while moving in a wide range of an area. According to the present invention, the vehicle-mounted gas leak detection device comprises: a gas detector (10) having a light-transmitting unit (12), a light-receiving unit (13), and a signal analysis unit (14); a display unit (20) displaying comparative analysis information in the signal analysis unit (14) to a picture and a graph; and a variable support (30) mounted in a vehicle (1).

Description

[0001] The present invention relates to a gas leak detector for a vehicle,

The present invention relates to an on-vehicle gas leakage detecting device, and more particularly, to a gas leakage detecting device for on-vehicle use, which comprises a sensing device for measuring a concentration of a gas using a medium infrared LED light source, The present invention relates to an apparatus for detecting a gas by accurately detecting the position of the gas and detecting gas leakage efficiently while moving over a wide area.

In recent years, due to the increase in gas consumption, facility investment for gas equipment, piping technology, and gas accident prevention technology is increasing. In order to develop a sensing device due to leakage of gas, the physical and chemical quantity of leaked gas is detected by electric signal The sensor technology has been actively developed.

In the prior art, Patent No. 10-0237162 entitled " Gas Leakage Detection Apparatus for Embedded Gas Pipe "(Prior Art 1) and Patent No. 10-1311322" Infrared Gas Detector and Infrared Gas Measurement Apparatus " .

The prior art 1 is a sensing device for sensing a gas leak in a buried gas pipe, comprising: a body having a hole for introducing a leaked gas; A house consisting of an inclined roof which is installed for blocking rainwater infiltrated into the ground at the upper part of the body; A gas sensor installed inside the house; A protective tube connected to the gas sensor and exposed to the ground; And a control box connected to the protection tube 210 to receive a detection signal, wherein the house is installed on an upper part of a gas pipe embedded in the underground to detect gas leakage. Device.

However, in the prior art 1, a house is installed on the upper part of a gas pipe buried in the ground to protect the sensor and to detect gas leakage, so that there is a problem that the area for detecting gas leakage is limited , There has not been found a technique for efficiently detecting gas leakage while moving in a wide area as in the present invention.

The prior art 2 includes an infrared light-receiving unit having a thermal type infrared-ray detecting element for detecting infrared rays using heat; A package having a window hole for allowing infrared rays to enter the infrared ray receiving portion; An optical filter which is bonded to the package and has a plurality of filter element portions (element portions) respectively corresponding to thermal infrared detection elements; Wherein the filter element portion comprises: a filter substrate which is a material for transmitting infrared rays; a transmission filter configured to selectively transmit infrared rays; And a blocking filter configured to absorb an infrared ray longer than a selected wavelength of the transmission filter.

However, in the case of using a heated infrared light source having a filter as in the prior art 2, a complicated optical device has to be designed in a circuit configuration, and sufficient spectral efficiency can not be obtained due to high heat loss. And the detection range of the sensor could not be widened.

Accordingly, the infrared gas detector of the prior art 2 not only remarkably degraded the detection efficiency of the sensor but also could not detect the gas leakage by being mounted on the vehicle as in the present invention.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and its object is to quickly and accurately detect (leak) gas of a gas pipe buried underground by mounting a highly efficient sensing device using a medium infrared LED light source in a vehicle The present invention provides a gas leak detecting apparatus for a vehicle, which can detect a position of a gas leaked from a vehicle, and can detect gas leakage efficiently while moving over a wide area.

A feature of the present invention to achieve the above object is to provide a light emitting diode (LED) having a first LED 12a and a second LED 12b mounted on the rear side of a lens 11a mounted on a front surface of a case 10, A light receiving unit 13 for receiving the light reflected by the leaked gas through a lens 11a and converting the received light into an electric signal by the photodiode 13a; And a signal analyzer (14) for analyzing the gas sensor (10); A display unit 20 for displaying the information analyzed and analyzed by the signal analyzer 14 in the form of a graphic and a graph; And a variable supporter 30 mounted on the vehicle 1 for mounting and fixing the gas sensor 10 and adjusting the angle of the installed position. The first and second LEDs 12a and 12b are driven, Determines whether the wavelength range irradiated by the first LED 12a is steam or gas, measures the sensitivity of the irradiated light source of the second LED 12b when the gas is a gas, calculates a value of reduced reception sensitivity, And the gas leakage sensor is configured to detect the leakage of the gas.

As described above, the present invention continues to move while determining whether the wavelength range irradiated by the first LED 12a of the gas sensor 10 mounted on the vehicle 1 is water vapor or gas, 2LED 12b to identify the leaking point of the gas by analyzing the intrinsic absorption wavelength region of the light source irradiated from the LED 12b and the operator can confirm the leaking point of the gas by the information displayed in the graph through the display unit 20 provided inside the vehicle 1 Since it is possible to accurately grasp the degree of leakage of the gas, efficient detection can be performed, and the leakage of the gas is detected while moving in a wide area. Therefore, the detection ability of the leaked gas is excellent and the detection speed is improved, It is possible not only to prevent an accident such as a fire in advance but also to efficiently detect gas As being able to detect leaks there is an advantage such as to provide a gas leakage for a vehicle of high efficiency and high functionality of the external competitive excellent sensors.

1 is a front view illustrating a use state of the present invention,
2 is a schematic diagram illustrating an embodiment of the present invention,
3 is a perspective view of a gas sensor according to the present invention,
4 is a schematic device diagram illustrating another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figs. 1 and 3, the on-vehicle gas leakage detection device according to the present invention comprises a variable support 30 mounted on the upper part of the vehicle 1, a gas sensor 10 mounted thereon, And a display unit 20 for displaying the image in a graph.

The gas sensor 10 includes a light projecting unit 12 for irradiating a medium infrared ray, a light receiving unit 13 for receiving intermediate infrared rays reflected by the leak gas, and a signal analyzing unit 14 for comparing and analyzing the received signal values have.

The transparent portion 12 is provided with a lens 11a on the front face of the case 10 of the gas sensor 10 and a first LED 12a and a second LED 12b on the rear side of the lens 11a, Infrared light can be irradiated through the light-receiving element 11a.

The light receiving unit 13 condenses the light source through the lens 11a mounted on the front side of the case 10 and transmits the light to the photodiode 13a when the infrared ray emitted from the light projecting unit 12 is reflected by the leak gas. So that the light energy can be converted into an electric signal.

The electrical signal received and converted by the photodiode 13a is configured to be analyzed and compared with a reference value in the signal analyzer 14.

The display unit 20 is constituted by an LCD monitor or the like so that the information analyzed and analyzed by the signal analyzer 14 is displayed in a picture and a graph to determine whether the gas is leaked or not.

A variable support 30 is mounted on the upper portion of the vehicle 1 and a hinge portion 31 having a pivotal configuration rotates about an axis for adjusting the inclination angle is mounted on the variable support 30, So that the installed angle of the detector 10 can be freely adjusted.

When the gas detector 10 drives the first and second LEDs 12a and 12b of the light projecting unit 12 and the middle infrared ray is irradiated, the wavelength region irradiated by the first LED 12a in the signal analyzing unit 14 becomes water vapor and / And when the gas is a gas, the sensitivity of the irradiated light source of the second LED 12b is measured to calculate a calculated value of the reduced sensitivity and to calculate the leakage of the gas.

In order to detect the leakage of the gas piping buried in the underground, the present invention having the above-described structure is configured to detect whether the wavelength region irradiated by the first LED 12a is water vapor or gas while moving through a gas sensor mounted on the vehicle 1 And when the gas is a gas, it is possible to analyze the intrinsic absorption wavelength region of the light source irradiated by the second LED 12b to check and report the gas leaking point. Since the gas leakage can be precisely detected by the information displayed on the graph through the display unit 20, it is possible to efficiently detect the gas, and at the same time, Which is superior in external competitiveness and has high efficiency and high functionality. It is capable of providing.

Furthermore, by applying the principle of gas absorption spectroscopy that detects absorption of carbon dioxide gas in the middle and lower infrared wavelength range irradiated by the first and second LEDs 12a and 12b, methane gas concentration is detected even at a distance of about 30 m or less And it has an accuracy of about 5 pp units. Therefore, it is possible to detect whether or not the gas pipeline buried in a large area is mounted on a vehicle and detect the gas leakage. Therefore, the detection ability of the leaked gas is excellent and the detection speed is improved. There is an advantage that it is possible to prevent an accident such as a fire in advance by sensing the gas leakage of the facility early, and to easily detect gas leakage in a rectangular area which is difficult to access.

4, the camera 40 can be mounted on the gas sensor 10 mounted on the vehicle 1, so that the gas leakage portion can be photographed as an image, A monitor (41) on which a photographed image is displayed is installed inside and can move while observing a part where a gas pipe is buried while moving on a vehicle while visually observing a gas leak part irradiated with the infrared ray. It can be grasped.

A laser diode is mounted on the camera 40. When a light source irradiated by the laser diode 50 indicates a portion where the gas piping is buried, a portion photographed by the camera 40 is indicated by a laser point So that the gas leakage area can be visually confirmed through the monitor 41. The gas leakage can be recognized by the laser pointer and the monitor 41 indicated by the laser light source, It can detect.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the scope of the invention. It will be understood by those skilled in the art that various changes may be made and equivalents may be resorted to without departing from the scope of the appended claims.

1: vehicle 10: gas detector
11: Case 11a: Lens
12: transparent portion 12a: first LED
12b: second LED 13: light receiving portion
13a: Photodiode 14: Signal analysis section
20: display part 30: adjustable support
31: hinge portion 40: camera
41: monitor 50: laser diode

Claims (3)

A light projecting part 12 composed of a first LED 12a and a second LED 12b mounted on the rear side of the lens 11a mounted on the front face of the case 10 and irradiating a medium infrared ray, A photodiode 13a which receives light through a lens 11a and converts it into an electric signal and a signal analyzer 14 which compares and analyzes the converted electric signal, (10);
A display unit 20 for displaying the information analyzed and analyzed by the signal analyzer 14 in the form of a graphic and a graph;
A variable supporter 30 mounted on the vehicle 1 for mounting and fixing the gas sensor 10 and adjusting the angle of the installed position,
The first and second LEDs 12a and 12b are driven to irradiate the middle infrared ray to determine whether the wavelength range irradiated by the first LED 12a is steam or gas. When the gas is a gas, the irradiated light source of the second LED 12b Wherein the sensor is configured to detect a leakage of gas by calculating and calculating a reduced sensitivity value of the gas.
The method according to claim 1,
The camera 40 is mounted on the gas sensor 10 mounted on the vehicle 1 so that the gas leakage portion is photographed as an image and the laser diode 50 is mounted on the camera 40 to irradiate the laser light source, (41) for displaying a photographed image is installed in the interior of the vehicle (1), and is movable while observing a part where the gas piping is buried while visually moving while moving on the vehicle .
The method according to claim 1,
And a hinge portion (31) having a pivot configuration which rotates about an axis for adjusting the tilt angle is mounted on the variable support base (30) to adjust the installation angle of the gas sensor (10) Gas leak detector.

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