KR20080079488A - Portable gas detector - Google Patents

Abstract

The present invention relates to a portable gas detector, and more particularly, to a portable gas detector, comprising: a gas sensor which is formed by contact combustion and measures heat generated when a gas is exploded; A cable for transmitting a value measured by the gas sensor to a detector main body; A connector formed between the cable and the detector main body and configured to wind the cable to adjust a length of the cable, and to connect the cable to the detector main body; A sensor main body configured to process the measured value measured by the gas sensor and to operate or stop at a desired setting when the user needs to sense gas, a display screen for displaying the concentration of gas, and an audio output unit; It relates to a portable gas detection device comprising a.

Description

Portable gas sensing equipment

1 is a block diagram of a portable gas detection apparatus according to the present invention,

2 is a cross-sectional view of a gas sensor detecting element of a portable gas detecting device according to an embodiment of the present invention in the form of MEMS;

3 is a cross-sectional view of a gas sensor detecting element of a portable gas detecting apparatus according to an embodiment of the present invention having a thick film type;

Figure 4 is a cross-sectional view of the gas sensor sensing element of the portable gas detection apparatus according to an embodiment of the present invention in the form of a membrane,

5 is a cross-sectional view of the gas sensor detecting element of the portable gas detection device according to an embodiment of the present invention in the form of beads;

Figure 6 is a plan view of the gas sensor of the portable gas detection apparatus according to an embodiment of the present invention configured as a Wheatstone bridge circuit.

<Explanation of symbols for the main parts of the drawings>

1: detector body 2: connector

3: gas sensor 4a, 4b: sensing element, compensating element

5: Display Screen 6: Operation Button

7: sound output unit 8: cable

The present invention relates to a portable gas detector, and more particularly, to a portable gas detector, comprising: a gas sensor which is formed by contact combustion and measures heat generated when a gas is exploded; A cable for transmitting a value measured by the gas sensor to a detector main body; A connector formed between the cable and the detector main body and configured to wind the cable to adjust a length of the cable, and to connect the cable to the detector main body; A sensor main body configured to process the measured value measured by the gas sensor and to operate or stop at a desired setting when the user needs to sense gas, a display screen for displaying the concentration of gas, and an audio output unit; It relates to a portable gas detection device comprising a.

In general, a portable gas detector for detecting a gas such as a narrow place and a contaminated area that is difficult for workers to access uses a structure equipped with a tube and an inhaler, that is, a forced flow type.

In other words, the gas is sucked into the tube to burn the gas with the gas sensor installed in the tube, and the resistance change according to the temperature is read and displayed by the detector.

However, this forced inflow type has a problem in that expensive components such as an inhaler and a gas sensor are installed in a tube, thereby increasing manufacturing cost and increasing volume, and inhaling harmful gas to the user. .

The present invention has been made to solve the above problems, the gas sensor is formed by the contact combustion formula to measure the heat generated when the gas explosion; A cable for transmitting a value measured by the gas sensor to a detector main body; A connector formed between the cable and the detector main body and configured to wind the cable to adjust a length of the cable, and to connect the cable to the detector main body; A sensor main body configured to process the measured value measured by the gas sensor and to operate or stop at a desired setting when the user needs to sense gas, a display screen for displaying the concentration of gas, and an audio output unit; Its purpose is to provide a portable gas detection device characterized in that it comprises a.

The present invention has the following features to achieve the above object.

The present invention provides a portable gas detector comprising: a gas sensor formed by contact combustion and measuring heat generated when an explosion of a gas occurs; A cable for transmitting a value measured by the gas sensor to a detector main body; A connector formed between the cable and the detector main body and configured to wind the cable to adjust a length of the cable, and to connect the cable to the detector main body; A sensor main body configured to process the measured value measured by the gas sensor and to operate or stop at a desired setting when the user needs to sense gas, a display screen for displaying the concentration of gas, and an audio output unit; It is configured to include.

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

1 is a configuration cross-sectional view of a portable gas detection device according to the present invention, Figure 2 is a configuration cross-sectional view of the gas sensor detection device of the portable gas detection device according to the embodiment of the present invention in the form of MEMS, Figure 3 is 4 is a cross-sectional view of a gas sensor detecting device of a portable gas detecting device according to an embodiment of the present invention. FIG. 4 is a cross-sectional view of a gas sensor detecting device of a portable gas detecting device according to an embodiment of the present invention. 5 is a cross-sectional view of a gas sensor detecting element of the portable gas detecting apparatus according to an embodiment of the present invention in the form of a bead, and FIG. 6 is a Wheatstone bridge circuit of the gas sensor of the portable gas detecting apparatus according to the embodiment of the present invention. It is a configuration plan composed of.

The present invention provides a portable gas sensor comprising: a gas sensor (3) formed by contact combustion and measuring heat generated when an explosion of a gas occurs; A cable 8 for transmitting the value measured by the gas sensor 3 to the detector main body 1; A connector (2) formed between the cable (8) and the detector body (1) and configured to be wound around the cable (8) to adjust the length of the cable (8), and to connect the cable (8) and the detector body (1). )Wow; Processes the measured value measured by the gas sensor 3, a plurality of operation buttons (6) for operating or stopping to the desired setting when the user should sense the gas, and a display screen for displaying the concentration of the gas (5) And a detector main body (1) consisting of a sound output unit (7).

In this case, the gas sensor 3 is divided into a plurality of sensing elements (4a) and the compensation element (4b), the plurality of sensing elements (4a) and the compensation element (4b) is composed of one Wheatstone bridge circuit It may be composed of a plurality of Wheatstone bridge circuits on one substrate, and the sensing element 4a and the compensating element 4b are symmetrically diagonally between the same elements and constitute one circuit.

At this time, the gas sensor 3 can be used by selecting any one of various forms such as bead type, thick film type, MEMS type, membrane type.

In addition, the thermistors 20, 120, 210, and 330 are coupled to the sensing element 4a and the compensation element 4b included in the gas sensor 3 at the bottom of the contact combustion sensing layer 10, 110, 220, and 320. Any type of device of the general form without a predetermined form or thermistor (20, 120, 210, 330) is selected and used.

In addition, the connector 2 connects the cable 8 and the detector main body 1, and the cable 8 is wound and configured, and the detector main body 1 has a desired setting when the user needs to detect gas. A plurality of operation buttons 6 for operating or stopping, a display screen 5 for displaying the concentration of gas and the like and a sound output unit 7 are provided.

In this case, the sensing device 4a and the compensation device 4b will be described with reference to one embodiment.

The sensing element 4a and the compensating element 4b are formed with a groove 40 having a predetermined space in the center of the substrate 50, and the contact combustion portion 10 is formed at a predetermined height in the center of the groove 40. And a heater 30 formed at a lower side of the contact combustion unit 10, and inserted into a groove formed in a flat zigzag form at a lower side of the thermistor 20, and the heater ( The sensing electrode 60 is inserted into a groove formed in the lower side of the thermistor 20 so as to be engaged with 30).

In addition, the sensing element 4a and the compensating element 4b have the thermistor 120 bonded to the upper side of the substrate 140, and the contact combustion unit 110 bonded to the upper side of the thermistor 20. The sensing electrode 130 is interposed between the thermistor 120 and the substrate 140 at a predetermined range to the outer side of the substrate 140, and has a thick film shape in which a heater 150 is formed below the substrate 140.

In addition, the sensing device 4a and the compensation device 4b are formed with a heater 240 having a predetermined range on an upper side of the membrane substrate 250, and an insulating layer 260 covering and insulating the heater 240. Is bonded, and a sensing electrode 230 for sensing a resistance of the thermistor is bonded to the upper side of the insulating layer 260 so as to be spaced apart at a predetermined interval by a predetermined range, and the sensing electrode 230 is disposed on the upper side of the sensing electrode 230. The thermistor 210 covering a portion of the sensing electrode 230 and the spaced apart intervals are bonded to each other, and the contact combustion unit 220 is bonded to the upper side of the thermistor 210 to form a membrane.

In addition, the sensing element 4a and the compensating element 4b surround the sensing electrode 340 for sensing the resistance of the thermistor and are bonded to the thermistor 330, and the contact combustion part 320 is disposed on the thermistor 330. Is wrapped around the thermistor 330 and bonded to each other, and a bead type is formed between the thermistor 330 and the contact combustion unit 320 with a coil heater 310 interposed therebetween.

That is, the gas sensor 3 is used to select any one of the embodiments, or to use any one of the forms that the thermistor is not interposed as the gas sensor (3).

That is, the present invention will be described in more detail as follows.

A gas sensor 3 formed by contact combustion and measuring heat generated when the gas is exploded; A cable 8 for transmitting the value measured by the gas sensor 3 to the detector main body 1; A connector (2) formed between the cable (8) and the detector body (1) and configured to be wound around the cable (8) to adjust the length of the cable (8), and to connect the cable (8) and the detector body (1). )Wow; Processes the measured value measured by the gas sensor 3, a plurality of operation buttons (6) for operating or stopping to the desired setting when the user should sense the gas, and a display screen for displaying the concentration of the gas (5) And a detector main body (1) consisting of a sound output unit (7).

In this case, the gas sensor 3 is composed of a plurality of sensing elements 4a and a compensating element 4b, and is composed of a Wheatstone bridge circuit, and a plurality of Wheatstone bridge circuits are connected to one gas sensor 3. It consists of.

The sensing element 4a and the compensating element 4b have the same structure.

In addition, the gas sensor 3 is made of various forms such as bead type, thick film type, MEMS type, membrane type, etc., and any one of them may be selected and used.

In addition, the thermistors 20, 120, 210, and 330 are coupled to the sensing element 4a and the compensation element 4b included in the gas sensor 3 at the bottom of the contact combustion sensing layer 10, 110, 220, and 320. It is used to select one of the devices of the general form without the form or thermistor (20, 120, 210, 330), it is also possible to use other types of gas sensor.

The sensing element 4a and the compensating element 4b have various kinds, and some of the various kinds are described as an embodiment as follows.

First, the sensing device 4a and the compensation device 4b are formed with a groove 40 having a predetermined space in the center of the substrate 50, and the contact combustion portion 10 at a predetermined height in the center of the groove 40 is formed. ) Is formed, the thermistor 20 is formed below the contact combustion portion 10, the heater 30 is inserted into the groove formed in a flat zigzag form on the lower side of the thermistor 20, The sensing electrode 60 is inserted into a groove formed at the lower side of the thermistor 20 so as to be engaged with the heater 30.

Second, the thermistor 120 is bonded to the sensing element 4a and the compensation element 4b on the upper side of the substrate 140, and the contact combustion unit 110 is bonded to the upper side of the thermistor 20. The sensing electrode 130 is interposed between the thermistor 120 and the substrate 140 at a predetermined range to the outer side of the substrate 140, and has a thick film shape in which a heater 150 is formed below the substrate 140.

Third, the sensing element 4a and the compensating element 4b are formed on the upper side of the membrane substrate 250 with a heater 240 having a predetermined range, and an insulating layer 260 covering and insulating the heater 240. ) Is bonded to each other, and a sensing electrode 230 for sensing a resistance of the thermistor is bonded on the upper side of the insulating layer 260 so as to be spaced at a predetermined interval by a predetermined range, and the sensing electrode 230 on the upper side of the sensing electrode 230. The thermistor 210 covering a part of the sensing electrode 230 and the spaced apart between the junction is bonded, the contact combustion unit 220 is bonded to the upper side of the thermistor 210 is formed in the form of a membrane.

Fourth, the sensing element 4a and the compensating element 4b surround the sensing electrode 340 for sensing the resistance of the thermistor and are bonded to the thermistor 330, and the contact combustion part 320 is disposed above the thermistor 330. ) Is wrapped around the thermistor 330 and bonded to each other, and is formed in a bead type with a coil heater 310 interposed between the thermistor 330 and the contact combustion unit 320.

The thermistors 20, 120, 210, and 330 formed between the contact combustion sensing layers 10, 110, 220, and 320 of the gas sensors 3 and the heating electrodes 60, 150, 240, and 310 are formed. Gas sensors 3 or general gas sensors 3 in which the thermistors 20, 120, 210, and 330 are not formed may also be selected and used.

As described above, the present invention includes a gas sensor which is formed by contact combustion and measures heat generated when the gas is exploded; A cable for transmitting a value measured by the gas sensor to a detector main body; A connector formed between the cable and the detector main body and configured to wind the cable to adjust a length of the cable, and to connect the cable to the detector main body; A sensor main body configured to process the measured value measured by the gas sensor and to operate or stop at a desired setting when the user needs to sense gas, a display screen for displaying the concentration of gas, and an audio output unit; It is configured to include and eliminate the difficulty of accidents and design caused by harmful gases to the body has the effect of gaining time and economic benefits.

Claims (4)

In the portable gas detector, A gas sensor 3 formed by contact combustion and measuring heat generated when the gas is exploded; A cable 8 for transmitting the value measured by the gas sensor 3 to the detector main body 1; A connector (2) formed between the cable (8) and the detector body (1) and configured to be wound around the cable (8) to adjust the length of the cable (8), and to connect the cable (8) and the detector body (1). )Wow; Processes the measured value measured by the gas sensor 3, a plurality of operation buttons (6) for operating or stopping to the desired setting when the user should sense the gas, and a display screen for displaying the concentration of the gas (5) And a detector body 1 composed of a sound output unit 7; Portable gas detection device comprising a. The method of claim 1, The gas sensor 3 is divided into a sensing element 4a and a compensating element 4b, and the sensing element 4a and the compensating element 4b are composed of one Wheatstone bridge circuit, and one substrate And a plurality of Wheatstone bridge circuits, wherein the sensing element (4a) and the compensating element (4b) are formed symmetrically diagonally between the same element, respectively. The method of claim 1, The connector (2) connects the cable (8) and the detector body (1), characterized in that the cable (8) is configured by winding the portable gas detection device. The method of claim 1, The detector body 1 includes a plurality of operation buttons 6 for operating or stopping at a desired setting when a user needs to sense gas, a display screen 5 for displaying the concentration of gas, and an audio output unit 7. Portable gas detection device, characterized in that consisting of.

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