KR101124823B1 - Hydrogen sensor - Google Patents

Abstract

The present invention relates to a hydrogen gas leak sensor is provided with a connector unit which is connected to another external device on one side of the casing member.

Or a filter member mounted on a side of a passage in which gas flows from the casing member to the hydrogen gas sensing unit to block gas and foreign substances other than hydrogen gas, spaced above the hydrogen sensing unit and serving as a support; And a second filter body stacked on top of the first filter body and adsorbing and removing gas other than hydrogen gas, and a third filter body stacked on top of the second filter body and blocking moisture and maintaining watertightness. will be.

The present invention has an effect that the connector is integrally provided to facilitate the connection to the external device, as well as to prevent malfunction due to poor contact between the circuit board and the connection terminal, as well as to simplify the manufacturing process, thereby reducing the manufacturing cost.

The present invention effectively removes foreign substances other than hydrogen gas, thereby increasing selectivity with respect to hydrogen gas and enabling quick and accurate detection of leakage of hydrogen gas.

Description

Hydrogen Gas Leakage Sensor {HYDROGEN SENSOR}

The present invention relates to a hydrogen gas leak sensor, and more particularly, to simplify the assembly and to accurately detect the leakage of hydrogen gas.

 In general, hydrogen gas is used in various fields, from semiconductor thin film processing to automotive fuel cells, rocket fuels in aerospace, as well as hydrogen engines.

Hydrogen gas has a high risk of explosion accident due to leakage when used as a flammable property.

Therefore, in the technology of using hydrogen gas, a technique for detecting hydrogen leakage is essential to prevent an accident due to leakage of hydrogen gas.

On the other hand, the hydrogen gas leak sensor is a hydrogen detection unit for detecting the leakage of hydrogen gas using a variety of hydrogen gas detection methods such as a catalytic combustion using a catalyst, a semiconductor using a semiconductor oxide, an electrolyte sensor using an electrolyte reacting with hydrogen. It is included.

The conventional hydrogen gas leak sensor has a structure in which the hydrogen detection unit is mounted in a sensor mounting portion protruding from the casing, the hydrogen detection unit is connected to a printed circuit board mounted inside the casing, and the printed circuit board is connected to a connector through a wire. Has

The conventional hydrogen gas leak sensor has a problem that the accurate detection of the hydrogen gas is not made when other gas than the hydrogen gas flows into the hydrogen gas inlet.

In addition, the conventional hydrogen gas leak sensor has a complex assembly process by connecting the power supply and the signal line with a wire, there is a fear that a malfunction due to a poor contact.

The present invention provides a hydrogen gas leak sensor that is manufactured in a compact size and can be mounted in a narrow place, is simple to connect and assemble with an external device, and prevents malfunction due to a short circuit with the external device.

The present invention provides a hydrogen gas leak sensor that improves detection accuracy by blocking gas other than hydrogen gas and foreign substances.

The object of the present invention is a hydrogen detection unit for detecting a hydrogen gas;

A circuit board member connected to the hydrogen detector and outputting a detection signal to a hydrogen detector;

A casing member in which the hydrogen sensing unit and the circuit board member are mounted and provided with a passage through which hydrogen gas is introduced into the hydrogen sensing unit;

A filter member mounted on a side of a passage through which gas flows from the casing member to the hydrogen gas sensing unit to block gas and foreign substances other than hydrogen gas,

The casing member is solved by providing a hydrogen gas leakage sensor having one end integrally formed with a connector portion having a plurality of connection terminals connected to the circuit board member by protruding into the casing member.

The plurality of connection terminals may include a substrate connection end bent downward at an end protruding into the casing member, and a plurality of connection holes through which the substrate connection end of the connection terminal penetrates and is connected to one side of the circuit board member. Is formed.

In addition, an object of the present invention and the hydrogen detection unit for detecting a hydrogen gas;

A circuit board member connected to the hydrogen detector and outputting a detection signal to a hydrogen detector;

A casing member in which the hydrogen sensing unit and the circuit board member are mounted and provided with a passage through which hydrogen gas is introduced into the hydrogen sensing unit;

A filter member mounted on a side of a passage through which gas flows from the casing member to the hydrogen gas sensing unit to block gas and foreign substances other than hydrogen gas,

The filter member may include: a first filter body spaced apart from the upper portion of the hydrogen sensing unit and serving as a support;

A second filter body stacked above the first filter body and adsorbing and removing gas other than hydrogen gas;

It is solved by providing a hydrogen gas leakage sensor including a third filter body stacked on top of the second filter body and blocking moisture and maintaining water tightness.

The upper part of the passage through which the hydrogen gas flows from the casing member communicates with the passage and protrudes a hollow protrusion in which the filter member is mounted.

The filter member includes an upper surface portion having a ring shape, a rib portion at both ends fixed to an inner circumferential surface of the upper surface portion to reinforce the rigidity of the upper surface portion, and a side portion protruding downward from the outer circumference of the upper surface portion. The filter cap member for pressing the upper portion of the coupling,

The upper surface of the hollow protrusions is formed with a fitting groove that is inserted into the side portion of the filter cap member is coupled by interference fit.

According to the present invention, a connector is integrally provided, so that an intermediate connector is unnecessary when connecting to an external device, thereby preventing malfunction due to a poor contact between a circuit board and a connection terminal, and of course, the assembly process is simple, thereby reducing manufacturing costs.

The present invention has the effect of effectively removing foreign matters other than hydrogen gas, increasing selectivity for hydrogen gas, and quickly and accurately detecting hydrogen gas leakage.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

1 is a cross-sectional view of the present invention, showing in detail the internal structure of the casing member of the present invention.

Fig. 2 is an enlarged exploded perspective view showing main parts of an example of the present invention, and shows a connection example between a circuit board and a connection terminal of a connector.

Hereinafter, as shown in FIG. 1, the casing member 20 of the hydrogen gas leak sensor according to the present invention has a space portion 20a in which a circuit board member 30 to be described later is mounted. A sensor mounting space 21 in which a hydrogen sensing unit 10 to be described later is mounted is formed as a space partitioned with 20a.

The sensor mounting space 21 is a space in which the hydrogen gas introduced into the space having the space partitioned from the space 20a is not leaked into the space 20a.

The sensor mounting space 21 is provided with a blocking bottom portion 21b partitioned from the space portion 20a on a lower surface in a groove shape recessed from an upper surface of the casing member 10. It is desirable to enable the casing member 10 to be designed in a small size.

In addition, although not shown, the sensor mounting space 21 is protruded to the lower side of the upper surface of the casing member 10, and the lower surface is formed in an open shape, and the lower surface of the circuit board member 30 to be described later is in close contact with the It may have a space partitioned with the space portion (20a).

On the blocking bottom portion 21b of the sensor mounting space 21, a hydrogen detection unit 10 for detecting hydrogen gas is seated.

The hydrogen detecting unit 10 is an example in which a detection element 11 for detecting a hydrogen gas by outputting a resistance change according to the hydrogen concentration is mounted on the substrate 12. For example, modifications may be made to a well-known technique, and thus a detailed description thereof will be omitted.

The hydrogen detecting unit 10 has a plurality of terminals 13 connected to the circuit board member 30 to be described later on a lower surface thereof, and the plurality of terminals 13 at the blocking bottom portion 21b of the sensor mounting space 21. The through hole 21a through which the terminal 13 penetrates is formed.

The hydrogen detecting unit 10 is connected to a circuit board member 30 mounted on the inside of the casing part 20 through the through hole 21a and the terminal 13 is connected to the space of the sensor mounting space 21. It is mounted on the floor.

The hydrogen detecting unit 10 is sealed in the lower portion of the blocking bottom portion 21b, and is mounted in the sensor mounting space 21 in which the volume space is minimized, and the hydrogen gas introduced into the sensor mounting space 21. You can quickly react to and detect.

The circuit board member 30 is connected to the hydrogen detecting unit 10 and the terminal 13 as described above to serve to output the signal detected by the hydrogen detecting unit 10 to the outside.

The casing member 20 is integrally provided with a connector portion 22 connected to another external device such as a control device on one side.

The connector portion 22 has a coupling space in which a connector of an external device to which the present invention is connected is coupled, and one end of the connector portion 22 protrudes into the space portion 20a of the casing member 20 in the coupling space. A plurality of connection terminals 23 connected to the member are provided.

The circuit board member 30 is connected to the connector unit 22 integrally provided at one side of the casing member 20 and connected to another external device such as a control device.

The plurality of connection terminals 23 may include a board connection end 23a bent downward at an end protruding into the casing member 20, and at one side of the circuit board member 30, the connection terminal ( A plurality of connection holes 31 through which the substrate connection end 23a of 23 penetrates and is connected are formed.

The connection terminal 23 and the circuit board member 30 are simply connected by joining the board connection end 23a through the plurality of connection holes 31.

The circuit board member 30 is simply connected to and separated from the connection terminal 23, that is, the connector unit 22.

In addition, the circuit board member 30 is simply mounted by fastening the bolt 32 inside the casing member 20 to enable a consistent assembly, and improve the assemblability and simply detachable.

The circuit board member 30 is simple to assemble and separate, and if there is an error, it can be separated, maintained, repaired or replaced.

On the other hand, the filter member 40 for filtering foreign matter other than hydrogen gas is mounted in the passage in which the hydrogen gas flows from the casing member 20, that is, the sensor mounting space 21.

An upper portion of the sensor mounting space 21 communicates with the sensor mounting space 21, the filter member 40 is mounted therein, and the hollow protrusion 24 protrudes.

A filter seating jaw in which the filter member 40 is seated is formed on an inner circumferential surface of the hollow protrusion 24.

The filter member 40 is disposed on top of the hydrogen detection unit 10 and the first filter body 41 and serves to block the role of the support and various dust;

A second filter body (42) stacked on top of the first filter body (41) to adsorb and remove gases and organic matter other than hydrogen gas;

A third filter body 43 is stacked on top of the second filter body 42 to block moisture and maintain watertightness.

The third filter body 43 serves to block moisture, maintain watertightness, and block dust.

In addition, the second filter element 42 serves to block inflow of other gases such as methane, carbon monoxide and carbon dioxide, and to adsorb and remove contaminants such as benzene, phenol, and ABS.

The third filter element 41 serves as a support for the filter and prevents fine particles of the second filter element 42 from falling into the detection element 11 of the hydrogen detection unit 10.

The filter member 40 is a laminated structure of the third filter body 43, the second filter body 42, and the third filter body 41 to block gas and foreign substances other than hydrogen gas, thereby detecting the accuracy of hydrogen gas and It is to shorten the detection response time.

In addition, a gas hole through which hydrogen gas passes is formed in an upper portion of the hollow protrusion part 24, and a filter cap member 50 for covering and fixing the upper portion of the filter member 40 is coupled.

The filter cap member 50 is a ring-shaped upper surface portion 51, both ends are fixed to the inner peripheral surface of the upper surface portion 51 rib portion 52 to reinforce the rigidity of the upper surface portion 51, It includes a side portion 53 protruding downward from the outer periphery of the upper surface portion 51.

In addition, the upper surface of the hollow protrusion part 24 is formed with a fitting groove 24a is inserted into the side portion 53 of the filter cap member 50 to be coupled by interference fit.

The filter cap member 50 is a side portion 53 is inserted into the fitting groove (24a) forcibly fitted and firmly coupled, as well as free to remove.

The filter cap member 50 is firmly fixed and prevented from being separated or flowed by an external impact during use, and the separation of the filter cap member 50 is easy to replace and maintain the filter member 40.

As described above, the connector unit 22 is integrally provided as described above, so that assembly and connection with an external device are easy.

The present invention blocks the inflow of fine dust, foreign matter, and other gases other than hydrogen into the sensor mounting space 21 into the filter member 40, thereby improving the detection accuracy and response speed of the hydrogen detecting unit 10. will be.

In addition, the present invention improves the reaction speed of the hydrogen detection unit 10 by minimizing the volume of the internal space in which the hydrogen detection unit 10 is mounted.

The present invention is not limited to the above-described embodiments, and various changes can be made without departing from the gist of the present invention, which is understood to be included in the configuration of the present invention.

1 is a cross-sectional view of the present invention

Figure 2 is an enlarged exploded perspective view of the main portion showing an example of the present invention

* Description of the major symbols in the drawings *

10: hydrogen detection unit 11: detection element

12 substrate 13 terminal

20: casing member 21: sensor mounting space

22: connector portion 23: connection terminal

24: hollow projection portion 30: circuit board member

31 connection hole 40 filter member

41: first filter body 42: second filter body

43: third filter body 50: filter cap member

Claims (4)

A hydrogen detector for detecting hydrogen gas; A circuit board member connected to the hydrogen detector and outputting a detection signal to a hydrogen detector; A casing member in which the hydrogen sensing unit and the circuit board member are mounted and provided with a passage through which hydrogen gas is introduced into the hydrogen sensing unit; A filter member mounted on a side of a passage through which gas flows from the casing member to the hydrogen gas sensing unit to block gas and foreign substances other than hydrogen gas, The casing member is integrally formed with a connector portion having a plurality of connection terminals, one end of which protrudes into the casing member and connected to the circuit board member. The upper part of the passage through which the hydrogen gas flows from the casing member communicates with the passage and protrudes a hollow protrusion in which the filter member is mounted. The filter member includes an upper surface portion having a ring shape, a rib portion at both ends fixed to an inner circumferential surface of the upper surface portion to reinforce the rigidity of the upper surface portion, and a side portion protruding downward from the outer circumference of the upper surface portion. The filter cap member for pressing the upper portion of the coupling, Hydrogen gas leakage sensor, characterized in that the upper surface of the hollow projection portion is formed with a fitting groove is inserted into the side portion of the filter cap member is coupled by interference fit. The method according to claim 1, The plurality of connection terminals may include a board connection end bent downward at an end protruding into the casing member, and a plurality of connection holes through which the board connection end of the connection terminal is connected to one side of the circuit board member. Hydrogen gas leak sensor, characterized in that formed. A hydrogen detector for detecting hydrogen gas; A circuit board member connected to the hydrogen detector and outputting a detection signal to a hydrogen detector; A casing member in which the hydrogen sensing unit and the circuit board member are mounted and provided with a passage through which hydrogen gas is introduced into the hydrogen sensing unit; A filter member mounted on a side of a passage through which gas flows from the casing member to the hydrogen gas sensing unit to block gas and foreign substances other than hydrogen gas, The filter member may include: a first filter body spaced apart from the upper portion of the hydrogen sensing unit and serving as a support; A second filter body stacked above the first filter body and adsorbing and removing gas other than hydrogen gas; A third filter body stacked on top of the second filter body and blocking moisture and maintaining watertightness, The upper part of the passage through which the hydrogen gas flows from the casing member communicates with the passage and protrudes a hollow protrusion in which the filter member is mounted. The filter member includes an upper surface portion having a ring shape, a rib portion at both ends fixed to an inner circumferential surface of the upper surface portion to reinforce the rigidity of the upper surface portion, and a side portion protruding downward from the outer circumference of the upper surface portion. The filter cap member for pressing the upper portion of the coupling, Hydrogen gas leakage sensor, characterized in that the upper surface of the hollow projection portion is formed with a fitting groove is inserted into the side portion of the filter cap member is coupled by interference fit. delete

Images