KR20190026361A - Gas Induction Device for Hazardous Gas Detector - Google Patents

Abstract

The present invention relates to a gas induction device for a hazardous gas detector, which is installed between a plurality of sensors embedded in a housing of a hazardous gas detector to detect components of each of different hazardous gas to induce hazardous gas that is stagnant around the hazardous gas detector to each of the sensors when a fan is operated. Therefore, a detection effect of the sensors that are quick and accurate can be increased.

Description

[0001] The present invention relates to a gas induction device for a harmful gas detector,

The present invention relates to a gas guiding apparatus for a harmful gas detector, and more particularly, to a gas guiding apparatus for a harmful gas detector, which is installed between a plurality of sensors installed in a housing of a harmful gas detecting apparatus so as to detect components of different harmful gases, The present invention relates to a gas guiding device for a harmful gas detector capable of increasing the detection effect of swift and accurate sensors by allowing noxious gas stagnated around the device to be guided to a plurality of sensors.

Recently, in construction of a specific underground space such as a manhole or a pumping station, an accident that a worker is poisoned by harmful gas frequently occurs frequently.

This is because there was no safety preparation process according to the detection of harmful gas to the internal space in advance when the worker at the construction site was input.

Accordingly, in order to solve such a problem, a gas sensor for detecting noxious gas in the manhole or underground space has been developed.

Such gas sensors are bulk type, tube type, and thick type. However, in order to be inserted into an integrated sensor package, a flat type thick film gas Sensor or PECVD equipment to develop nanometer-scale thin-film gas sensors.

A conventional gas sensor in the related art includes a lid member having a filter net formed on its inner side and a lid on its upper side, a support body member being a body bonded to a lower end of the lid member, And a gas sensor chip connected to the connection pin member and the connection epoxy unit to sense the gas, the connection pin member being connected to the plurality of connection pin members, have.

However, since such a gas sensor is connected by a plurality of connection wires connected to the gas sensor chip, it is not only difficult to weld, but also has a problem in that when the external impact occurs during use, the gas sensor is shaken and the connection portion is detached.

In addition, since the humidity sensor and the temperature sensor including the conventional gas sensor are separately formed to perform their respective functions, for example, a temperature sensor must be installed to detect the room temperature of the automobile, In order to detect a humidity, a gas sensor must be installed, and a humidity sensor must be installed. Therefore, the sensor is not only inconvenient to install, but also occupies a large space and raises manufacturing cost.

In order to solve such a problem, a composite sensor having a multifunctionality is disclosed in Patent Application No. 10-2003-0068658.

The multi-function composite sensor includes a cover member having a filter cover formed on its inner side and a cover body on an upper side thereof; a support body member that is a body coupled to a lower end of the cover member; A plurality of connection pin members respectively inserted between a plurality of insulating glass members formed in a plurality of insulating glass members and a plurality of connection pin members each having a plurality of chips for detecting temperature, As shown in Fig.

However, as described above, the conventional composite multifunctional multifunctional sensor having the above-described structure has the gas sensing means for detecting temperature, humidity and gas, the humidity sensing means and the temperature sensing means on the upper surface of the supporting body member, And it is possible to reduce the manufacturing cost, but it is also possible to detect the temperature, humidity and gas when detecting the gas, humidity and temperature through the filter network provided on the upper surface of the cover member The air flows into the space between the temperature sensing means, the humidity sensing means and the gas sensing means, but flows into the space between the temperature sensing means and the gas sensing means, The detection effect is inevitably lowered.

Patent Application No. 10-2003-0068658, filing date: October 02, 2003

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a noxious gas detection device which is installed between a plurality of sensors installed in a housing of a noxious gas detection device, Which can detect the noxious gas stagnated in the gas sensor, can be guided to a plurality of sensor sides, thereby increasing the detection effect of the sensors quickly and accurately.

Other objects of the present invention will become apparent as the description proceeds.

According to an aspect of the present invention, there is provided a plasma display panel comprising: a housing having an inlet formed on one side of a top surface of the housing to allow introduction of noxious gas; a substrate horizontally disposed in the housing, A suction fan disposed below the inflow hole formed in the substrate by being installed on the inner side of the housing and adapted to be driven in response to the application of power to suck noxious gas toward the inflow port side; And a plurality of sensors (not shown) provided in the upper portion of the suction fan to detect noxious gases together with temperature and humidity, and to detect noxious gases introduced together with air through an inlet by driving the suction fan, And a sensing unit for sensing the noxious gas detected by the noxious gas detector, Wherein the noxious gas introduced into the noxious gas detector is introduced into the inlet holes formed in the substrate while guiding the noxious gas introduced to the upper surface of the plurality of sensor units, Wherein the outer circumferential surface of the noxious gas guiding column body is formed with a flat surface portion and a curved surface portion corresponding to the outer circumferential surface of the plurality of sensing sensor portions and has a curved surface portion that is not in contact with the outer circumferential surface of the plurality of sensing sensor portions And the outer circumferential surface is formed as a vertical surface so as to cut off the noxious gas flowing and guide the sensing sensor to the upper surface side of the plurality of sensing sensors.

The through hole formed at the center of the noxious gas guiding column may be formed as an inclined portion so that the noxious gas can be sucked into the nozzle without inducing eddy when the noxious gas flows around the nozzle, And a vertical portion.

As described above, according to the gas induction apparatus for a noxious gas detector according to the present invention, since the noxious gas is caused to flow on the upper surfaces of the plurality of sensor portions due to the noxious gas guiding column, It is possible to increase the detection effect of the sensor.

1 is a perspective view showing a noxious gas detector incorporating a gas guiding device for a noxious gas detector according to the present invention.
2 is a view showing a state in which a gas guiding device for a harmful gas detector according to the present invention is installed.
3 is a perspective view showing a gas guiding device for a harmful gas detector according to the present invention.
4 is a view showing the flow of noxious gas according to the suction fan driving by the gas induction apparatus for a noxious gas detector according to the present invention.

Hereinafter, an embodiment of a gas guiding device for a harmful gas detector according to the present invention will be described in detail.

First, it should be noted that, in the drawings, the same components or parts have the same reference numerals as much as possible. In describing the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as not to obscure the gist of the invention.

As shown in the drawing, the gas guiding device for a noxious gas detector according to the present invention is configured to be able to guide noxious gas stagnant around a noxious gas detecting device installed between a plurality of sensors when a fan is driven to a plurality of sensors .

That is, the gas guiding device 100 for a harmful gas detector according to the present invention includes a housing 11 having an inlet 11a formed at one side of the upper surface thereof so as to allow introduction of noxious gas, A substrate 12 (see FIG. 2) provided horizontally in the inside of the housing 11 and having an inlet hole (not shown) formed at one side thereof, A suction fan 13 (see FIG. 4) disposed below the formed inlet hole and adapted to drive correspondingly to a power source to suck noxious gas toward the inlet side; And is disposed at an upper portion of the suction fan 13 so as to be spaced apart from the suction fan 13 so that the noxious gas introduced together with the air through the inlet by driving the suction fan 13 can detect the noxious gas together with the temperature and humidity A plurality of detection sensor units (13) of the noxious gas detectors (10) including the noxious gas detector (14), and the noxious gas introduced by the driving of the suction fan (13) And the outer circumferential surface of the noxious gas guiding column body is formed of a plurality of the plurality of the plurality of noxious gas guiding cylinders, And the outer circumferential surface of the sensing sensor unit 14 which does not contact the outer circumferential surface of the sensing sensor unit 14 is formed as a flow And the vertical surface 140 is formed so that the noxious gas is guided to the upper surface side of the plurality of detection sensor portions 14 by cutting off the noxious gas.

The through hole 110 formed in the center of the noxious gas guiding column has an inclined upper portion so as to be sucked in without any eddy phenomenon when the surrounding noxious gas flows in correspondence to the driving of the suction fan 13, And a lower portion thereof is formed in a cross-sectional shape of a "Y"

The depth of the inclined portion 111 of the through hole 110 is 2 to 3.5 times the depth of the vertical portion 112.

Hereinafter, the gas induction device for a harmful gas detector according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view illustrating a noxious gas detector incorporating a gas guiding device for a noxious gas detector according to the present invention.

As shown in the figure, the noxious gas detector 10 incorporating the gas induction device for a noxious gas detector according to the present invention

A housing 11 formed to be able to be gripped by one hand and an inlet 11a formed at one side of the upper surface of the housing 11 so that noxious gas can be introduced thereinto, The display unit 15 is provided.

2, a substrate 12 having an inlet hole formed at the same position as the inlet is provided in the housing 11, and at the lower portion of the substrate 12 having the inlet hole formed therein, As shown in FIG. 4, a suction fan 13 for sucking harmful gas is drivably provided.

In the vicinity of the inflow hole formed in the substrate 12, the components of the noxious gas introduced through the inlet port by the driving of the suction fan 13, namely, the temperature and the humidity, the volatile organic compound, the carbon monoxide (CO) A volatile organic compound detection sensor 14b, a carbon monoxide (CO) detection sensor 14c, and a formaldehyde detection sensor 14b, which are rectangular in shape, so that aldehyde can be detected. 14d are spaced apart from each other and radially provided with respect to the inlet.

Here, the temperature and humidity sensor portion 14a, the volatile organic compound sensor portion 14b, the carbon monoxide (CO) sensor portion 14c, and the carbon monoxide sensor portion 14c, which are provided around the inflow hole formed in the substrate 12, The formaldehyde detection sensor unit 14d is configured to be replaceable in accordance with the working environment, that is, the detection component of the noxious gas.

Meanwhile, the gas guiding device 100 for a harmful gas detector according to the present invention comprises a temperature and humidity sensor part 14a, a volatile organic compound detection sensor part 14b, a carbon monoxide CO sensor ) Detection sensor unit 14c and the formaldehyde detection sensor unit 14d so that the noxious gas introduced by the driving of the suction fan 13 is directed to the upper surface side of the plurality of detection sensor units 14 And introduced into the inlet hole formed in the substrate 12 while being guided.

That is, as shown in FIGS. 2 and 3, the gas guiding apparatus 100 for a noxious gas detector according to the present invention includes the rectangular temperature and humidity sensor portion 14a, a columnar volatile organic compound The outer circumferential surface is formed to have a sectional shape corresponding to the temperature and humidity sensor portion 14a so as to be insertable between the detection sensor portion 14b, the carbon monoxide (CO) detection sensor portion 14c, and the formaldehyde detection sensor portion 14d. A CO sensor detecting unit 14c and a CO sensor detecting sensor unit 14b in a radial direction and spaced apart from each other with respect to the plane unit 120, And a curved surface portion 130 having first, second, and third curved surface portions 131, 132, and 133 having a sectional shape corresponding to the formaldehyde detection sensor portion 14d. In the center portion, It is possible to introduce harmful gas Through-hole 110 is provided is formed.

Here, the height of the noxious gas guiding column is set to be equal to the height of the plurality of sensor portions 14, that is, the upper surface of the noxious gas guiding column and the upper surfaces of the plurality of sensor portions 14 So as to be able to flow to the upper surface of the plurality of detection sensor portions 14 when the noxious gas flows.

The through hole 110 formed in the noxious gas guiding column body is formed so as to be sucked by the venturi effect when the surrounding noxious gas flows in correspondence to the driving of the suction fan 13, The inclined surface 111 is formed in a shape of a Y-letter shape formed by a vertical surface 112 and the depth of the inclined surface of the through hole 110 is formed to be 2 to 3.5 times the vertical surface .

If the depth of the inclined surface 111 is twice or more the depth of the vertical surface 112, the venturi effect can not be obtained when the suction fan 13 provided at the lower portion of the substrate 12 is driven It is preferable that the depth of the inclined surface of the through hole 110 is 2 to 3.5 times as much as the vertical surface because the noxious gas can not be sucked easily.

When the gas induction apparatus 100 for a noxious gas detector according to the present invention is installed in the noxious gas detector 10 and the noxious gas detector 10 is used, The suction fan 13 provided at the lower side of the substrate 12 is driven.

When the suction fan 130 is driven, harmful gas flows inward through the inlet 11a formed in the housing 11. [

The noxious gas introduced into the inlet port 11a flows through the through hole 110 of the noxious gas guide column formed of the inclined surface 111 and the vertical surface 112 which are three times deeper than the vertical surface 112, Lt; / RTI >

In addition, the noxious gas around the temperature and humidity sensor part 14a, the volatile organic compound sensor part 14b, the carbon monoxide (CO) sensor part 14c, and the formaldehyde sensor part 14d, The harmful gas introduced into the space between the temperature and humidity sensing part 14a, the volatile organic compound sensing part 14b, the carbon monoxide sensing part 14c and the formaldehyde sensing part 14d, Humidity sensor portion 14a, the volatile organic compound detection sensor portion 14b, and the carbon monoxide (CO) sensor portion 14b without being directly introduced into the inlet hole formed in the substrate 12, (CO) detection sensor unit 14c, and the formaldehyde detection sensor unit 14d to the through hole 110 side.

Therefore, the temperature and humidity detection sensor unit 14a, the volatile organic compound detection sensor unit 14b, the carbon monoxide (CO) detection sensor unit 14c, and the formaldehyde detection sensor unit 14d are fast So that it can be detected accurately.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10; A harmful gas detector 11; housing
12; A substrate 13; Suction fan
14; Detection sensor unit 100; Gas induction device for harmful gas detector
110; Through hole 120; Plane portion
130; A curved surface portion 140; Vertical plane

Claims (5)

A housing 11 having an inlet port 11a formed at one side of the upper surface so as to allow the inflow of harmful gas thereinto; a substrate 12 horizontally installed in the housing 11, And a suction fan (not shown) disposed at a lower portion of the inlet hole formed in the substrate 12 by being installed at one side of the housing 11 so as to be driven in response to application of power and to suck noxious gas toward the inlet port (13), which is located on the upper surface of the substrate (12) so as to be spaced apart from each other, and is positioned above the suction fan (13) (13) of the noxious gas detector (10) including a plurality of detection sensors (14) provided to detect a noxious gas together with temperature and humidity of the gas, This phrase The gas induction device for a harmful gas detector capable of introducing the noxious gas introduced toward the upper surface side of the plurality of detection sensor portions 14 into the inlet hole formed in the substrate 12,
And a through hole (110) formed at a central portion thereof,
Wherein the outer circumferential surface of the noxious gas guiding column body is formed with a flat surface portion 120 and a curved surface portion 130 having a sectional shape corresponding to the outer circumferential surface of the plurality of detection sensor portions 14. [ A gas induction device for a gas detector.
In paragraph 1,
The outer circumferential surface of the noxious gas guiding column which is not in contact with the outer circumferential surface of the plurality of sensor portions 14 may be formed into a vertical surface 140). ≪ RTI ID = 0.0 > 8. < / RTI >
3. The method according to claim 1 or 2,
The through hole 110 formed at the center of the noxious gas guiding column body is provided with an inclined portion 111 so that the noxious gas is sucked into the noxious gas- , And the lower part is formed as a vertical part (112).
The method of claim 3,
Wherein the depth of the inclined portion (111) of the through hole (110) is 2 to 3.5 times the depth of the vertical portion (112).
3. The method according to claim 1 or 2,
Wherein the height of the noxious gas guiding column is equal to a height of the plurality of sensor units.

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