KR102452383B1 - Gas leakage prevention sensor and its manufacturing method - Google Patents

Abstract

According to the present invention, the housing is formed with an inner space; a gas filter installed in the housing to pass the target gas into the inner space of the housing; a filter holder positioned above the gas filter, the inner side forming a sensing space for the gas that has passed through the gas filter, and the protrusion protruding from the outer surface to the outside is formed to fix the gas filter as it is press-fitted into the housing; a circuit board positioned above the filter holder and positioned above the sensing space to provide a gas sensing unit for sensing gas flowing into the sensing space, and converting the gas detected by the gas sensing unit into an electrical signal; An elastic body positioned between the housing and the circuit board and pressed downward when the circuit board is coupled to fix the circuit board and seal the filter holder is introduced.

Description

Gas leak detection sensor and manufacturing method thereof

The present invention relates to a gas leak detection sensor, and more particularly, to a technology for detecting that a target gas has leaked through a gas filter that allows the target gas to pass therethrough.

In general, hydrogen gas is used in various fields from semiconductor thin film processing to automobile fuel cells, rocket fuels in the aerospace industry as well as hydrogen engines, and the range of its use is gradually expanding due to technological development.

Hydrogen gas has a high risk of explosion due to leakage when used due to its combustible properties.

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

On the other hand, the hydrogen gas leakage sensor includes a hydrogen detection unit that detects the leakage of hydrogen gas using various hydrogen gas detection methods, such as a catalytic combustion type using a catalyst, a semiconductor type using a semiconductor oxide, and an electrolyte sensor using an electrolyte that reacts with hydrogen. contains

The conventional hydrogen gas leak sensor has a structure in which the hydrogen sensing unit is mounted in a sensor mounting unit protruding from the upper part of the casing, the hydrogen sensing unit is connected to a printed circuit board mounted inside the casing, and the printed circuit board is connected to a connector through an electric wire have

The conventional hydrogen gas leak sensor has a problem in that, since the detecting element is a bead type, the space occupied by the hydrogen detecting unit inside the case is wide and thus the space volume is widened, thereby slowing the reaction rate of the hydrogen gas leak. In addition, the conventional hydrogen gas leak sensor has a complicated assembly process by soldering power and signal lines to wires, and there is a risk of malfunction due to contact failure.

The matters described as the background art above are only for improving the understanding of the background of the present invention, and should not be taken as an acknowledgment that they correspond to the prior art already known to those of ordinary skill in the art.

KR 10-2011-0053560 A

The present invention has been proposed to solve this problem, the target gas is transmitted through a gas filter mounted on the lower surface of the housing, and the inner wall of the filter holder located above the gas filter forms a sensing space through which the target gas is introduced, The circuit board on which the gas sensing part is formed is assembled on the upper side of the filter holder, and the sensing space is sealed by an elastic body when assembling the circuit board, thereby reducing the detection response time of the target gas present in the sensing space.

A gas leak detection sensor according to the present invention includes a housing having an inner space; a gas filter installed in the housing to pass the target gas into the inner space of the housing; a filter holder positioned above the gas filter, the inner side forming a sensing space for the gas that has passed through the gas filter, and the protrusion protruding from the outer surface to the outside is formed to fix the gas filter as it is press-fitted into the housing; a circuit board positioned above the filter holder and positioned above the sensing space to provide a gas sensing unit for sensing gas flowing into the sensing space, and converting the gas detected by the gas sensing unit into an electrical signal; It is located between the housing and the circuit board, is pressed downward when the circuit board is coupled to fix the circuit board, the elastic body for sealing the filter holder; may include.

A bottom surface is formed in a lower portion of the inner space of the housing, an inlet hole formed to allow gas to flow therein is formed in the bottom surface, and the gas filter may be coupled to an upper side of the inlet hole in the inner space of the housing.

The housing includes a protrusion protruding upward from the bottom to surround the outside of the inlet hole, and the gas filter and the filter holder may be inserted into the protrusion protrusion and laterally supported by the protrusion protrusion.

The diameter of the inlet hole may be the same as the inner diameter of the filter holder, and the inner surface of the filter holder may constitute a side wall of the sensing space.

An elastic body insertion groove extending upwardly from the bottom surface of the housing is formed, and the elastic body may be inserted and fixed into the elastic body insertion groove.

The elastic body is formed to have a height greater than the depth of the elastic body insertion groove, and when the circuit board is coupled to the housing, the lower surface is supported by contacting the upper end of the filter holder. The filter holder can be pressurized.

The elastic body may be formed in an O-ring shape and inserted into the elastic body insertion groove.

The inner space of the housing has an open upper end, and a filter, a filter holder, a first elastic body, and a circuit board may be assembled in this order through the open upper end.

It may further include; a sensor cover that covers the upper end of the open housing inner space and protects the circuit board from the outside.

A method of manufacturing a gas leak detection sensor according to the present invention includes the steps of forming a gas filter at the bottom of an inner space of a housing and fusion-bonding a gas filter to an upper side of an inlet hole through which gas is injected; Assembling the filter holder by press-fitting the gas filter; inserting the elastic body into the elastic body insertion groove formed in the housing; and assembling the circuit board while pressing the elastic body from the upper side of the elastic body.

The gas leak detection sensor according to the present invention has an effect that the gas filter located on the bottom surface of the inner space of the housing is press-fitted by the protrusion from above and fixed by the combined filter holder.

In addition, when assembling the circuit board coupled to the upper side of the filter holder, the elastic body is deformed between the housing and the circuit board and pressed downward to seal the sensing space.

1 is a perspective view of a gas leak detection sensor according to an embodiment of the present invention;
Figure 2 is a cross-sectional view AA of Figure 1,
Figure 3 is an enlarged front view of Figure 2,
4 is a perspective view of a filter holder of a gas leak detection sensor according to an embodiment of the present invention;
5 is a flowchart of a method of manufacturing a gas leak detection sensor according to an embodiment of the present invention.

Specific structural or functional descriptions of the embodiments of the present invention disclosed in the present specification or application are only exemplified for the purpose of describing the embodiments according to the present invention, and the embodiments according to the present invention are implemented in various forms. and should not be construed as being limited to the embodiments described in the present specification or application.

Since the embodiment according to the present invention may have various changes and may have various forms, specific embodiments will be illustrated in the drawings and described in detail in the present specification or application. However, this is not intended to limit the embodiment according to the concept of the present invention with respect to a specific disclosed form, and should be understood to include all changes, equivalents or substitutes included in the spirit and scope of the present invention.

Terms such as first and/or second may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one element from another element, for example, without departing from the scope of the present invention, a first element may be called a second element, and similarly The second component may also be referred to as the first component.

When a component is referred to as being “connected” or “connected” to another component, it may be directly connected or connected to the other component, but it is understood that other components may exist in between. it should be On the other hand, when it is said that a certain element is "directly connected" or "directly connected" to another element, it should be understood that the other element does not exist in the middle. Other expressions describing the relationship between elements, such as "between" and "immediately between" or "neighboring to" and "directly adjacent to", etc., should be interpreted similarly.

The terms used herein are used only to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. As used herein, terms such as “comprise” or “have” are intended to designate that an embodied feature, number, step, action, component, part, or combination thereof exists, and is intended to indicate that one or more other features or numbers are present. , it should be understood that it does not preclude the existence or addition of steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as meanings consistent with the context of the related art, and unless explicitly defined in the present specification, they are not to be interpreted in an ideal or excessively formal meaning. .

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings. Like reference numerals in each figure indicate like elements.

1 is a perspective view of a gas leak detection sensor according to an embodiment of the present invention, FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1, FIG. 3 is an enlarged front view of FIG. 2, and FIG. 4 is a gas according to an embodiment of the present invention. It is a perspective view of the filter holder 300 of the leak detection sensor.

With reference to FIGS. 1 to 4, a preferred embodiment of the gas leak detection sensor according to the present invention will be described.

The gas leak detection sensor according to the present invention was developed for the purpose of detecting hydrogen gas leakage by being mounted on a hydrogen battery vehicle, and the filter and the gas detection unit 410 are changed and mounted to detect a gas other than hydrogen gas can be

The gas leak detection sensor according to the present invention includes a housing 100 having an internal space; a gas filter 200 installed in the housing 100 to pass the target gas into the inner space of the housing 100; It is located above the gas filter 200, the inner side forms a sensing space 130 of the gas that has passed through the gas filter 200, and the protrusion 310 protruding from the outer surface to the outside is formed to form the housing 100. a filter holder 300 for fixing the gas filter 200 as it is press-fitted into the; A gas sensing unit 410 positioned above the filter holder 300 and located above the sensing space 130 to detect gas flowing into the sensing space 130 is provided, and the gas is a circuit board 400 that converts the sensed into an electrical signal; An elastic body 500 positioned between the housing 100 and the circuit board 400 and pressed downward when the circuit board 400 is coupled to fix the circuit board 400 and sealing the filter holder 300; may include

The housing 100 has an inner space, and a gas filter 200 through which a target gas located outside the housing 100 can pass is located on the bottom surface of the inner space, and a gas filter ( A filter holder 300 capable of fixing 200) is located. The target gas of the gas filter 200 may be various gases, and in the present invention, hydrogen gas may be the target.

On the upper side of the gas filter 200 , a filter holder 300 for fixing the gas filter 200 is coupled to the inner space of the housing 100 , and a protrusion 310 protruding outwardly on the outer surface of the filter holder 300 . ) is formed to be press-fitted into the inner space of the housing 100 and may be coupled.

Through this, there is an effect that the gas filter 200 can be fixed inside the housing 100 .

A circuit board 400 is coupled to the upper side of the gas filter 200 , and a gas detection unit 410 for detecting the target gas transmitted from the gas filter 200 corresponds to the filter holder 300 . The elastic body 500 is positioned between the circuit board 400 and the housing 100, and the circuit board 400 presses the elastic body 500 downward and can be coupled to the housing 100. .

Through this, the elastic body 500 has an effect of sealing the sensing space 130 formed by the filter holder 300 . In addition, as the elastic body 500 seals the sensing space 130 , the gas sensing unit 410 has an effect of reducing the detection response time for the target gas.

A bottom surface is formed in the lower portion of the inner space of the housing 100 , and an inlet hole 110 is formed in the bottom surface to allow gas to flow therein, and the gas filter 200 is an inlet hole in the inner space of the housing 100 . It may be coupled to the upper side of 110 .

An inlet hole 110 through which gas flows into the inner space of the housing 100 is formed on the bottom surface of the inner space formed in the housing 100 , and the gas filter 200 may be coupled to the upper side of the inlet hole 110 . .

The gas flowing into the inlet hole 110 through this is filtered through the gas filter 200 so that the target gas flows into the sensing space 130 formed in the inner space of the housing 100, and gases other than the target gas are filtered through the housing ( 100) to stay in the external space.

The housing 100 includes a protruding jaw 120 extending upward from the bottom to surround the outside of the inlet hole 110 , and the gas filter 200 and the filter holder 300 are inside the protruding jaw 120 . It may be inserted into and supported on the protruding jaw 120 laterally.

The protrusion 120 extends upward from the bottom surface of the inner space of the housing 100 , and the gas filter 200 may be inserted into the protrusion 120 , and the protrusion 120 is the gas filter 200 . can support the side of

In addition, the filter holder 300 assembled upwardly of the gas filter 200 is coupled to the protruding jaw 120 , and the protrusion 310 formed on the filter holder 300 is press-fitted into the protruding jaw 120 to lower the gas filter. 200 can be fixed, and the protrusion 120 can support the filter holder 300 laterally.

Through this, the protrusion 120 has an effect of preventing the gas filter 200 and the filter holder 300 from being moved laterally by an external impact inside the housing 100 .

The diameter of the inlet hole 110 may be the same as the inner diameter of the filter holder 300 , and the inner surface of the filter holder 300 may constitute a side wall of the sensing space 130 .

The target gas filtered through the gas filter 200 in the inlet hole 110 may be introduced into the sensing space 130 formed by the inner wall of the filter holder 300 .

In addition, since the diameter of the inlet hole 110 and the inner diameter of the filter holder 300 are formed to be the same, the gas transmitted from the inlet hole 110 to the gas filter 200 does not leak from the inner space of the housing 100 and is immediately There is an effect that can be introduced into the sensing space (130).

An elastic body insertion groove 140 is formed extending upwardly from the bottom surface of the housing 100 , and the elastic body 500 may be inserted and fixed in the elastic body insertion groove 140 .

The elastic body insertion groove 140 is formed to extend upward from the bottom surface of the inner space from the outside of the protruding jaw 120 , and the elastic body 500 can be inserted therein.

Thereafter, when the circuit board 400 is assembled, the elastic body 500 and the circuit board 400 come into contact with each other, and the upper portion of the filter holder 300 positioned inside may be sealed.

Through this, it is possible to prevent the target gas flowing into the filter holder 300 from leaking to the lower side of the circuit board 400 .

The elastic body 500 is formed to have a height greater than the depth of the elastic body insertion groove 140, and when the circuit board 400 is coupled to the housing 100, the lower surface is in contact with the upper end of the filter holder 300 and is supported and supported by the elastic body ( 500 is deformed inside the elastic body insertion groove 140 so that the height after assembling is lower than before assembling, and can press the filter holder 300 .

When the circuit board 400 is assembled by pressing the elastic body 500 on the lower side, the elastic body 500 may be deformed in appearance as the circuit board 400 is pressed. As shown in FIG. 3 , the cross-section of the elastic body 500 may be deformed while in contact with the circuit board 400 according to the pressure applied downward from the circular shape.

Through this, the elastic body 500 seals the circuit board 400 from the upper portion of the filter holder 300 and has an effect of preventing the target gas from leaking from the inside of the housing 100 .

The elastic body 500 may be formed in an O-ring shape and inserted into the elastic body insertion groove 140 .

The elastic body 500 formed in an O-ring shape is positioned while surrounding the filter holder 300 and seals between the housing 100 and the circuit board 400 to prevent the target gas from leaking to the upper side of the filter holder 300. can have an effect.

In addition, the O-ring-shaped elastic body 500 has an effect that the filter holder 300 can be applied to various shapes.

The inner space of the housing 100 has an open upper end, and the filter, the filter holder 300, the first elastic body 500, and the circuit board 400 may be assembled in this order through the open upper end.

The inner space of the housing 100 is opened from above, so that assembly can be improved when assembling the filter, the filter holder 300 , the first elastic body 500 , and the circuit board 400 therein.

A sensor cover 600 covering the upper end of the open housing 100 inner space and protecting the circuit board 400 from the outside; may further include.

In order to protect the filter assembled in the open housing 100, the filter holder 300, the first elastic body 500, and the circuit board 400, the upper portion of the housing 100 is covered by the sensor cover 600, and the housing ( 100) can be assembled.

5 is a flowchart of a method of manufacturing a gas leak detection sensor according to an embodiment of the present invention.

A preferred embodiment of a method of manufacturing a gas leak detection sensor according to the present invention will be described with reference to FIG. 5 .

The manufacturing method of the gas leak detection sensor according to the present invention comprises the steps of forming the housing 100 at the bottom of the inner space and fusion-bonding the gas filter 200 to the upper side of the inlet hole 110 through which the gas is injected (S100); Assembling the gas filter 200 by press-fitting the filter holder 300 to the upper side (S200); Inserting the elastic body 500 into the elastic body insertion groove 140 formed in the housing 100 (S300): and assembling the circuit board 400 while pressing the elastic body 500 from the upper side of the elastic body 500 ( S400); may include.

Although shown and described in relation to specific embodiments of the invention, it is common in the art that the present invention can be variously improved and changed without departing from the spirit of the present invention provided by the following claims. It will be self-evident to those who have the knowledge of

100: housing
110: inlet hole
120: protruding jaw
130: sensing space
140: elastic body insertion groove
200: gas filter
300: filter holder
310: protrusion
400: circuit board
410: gas detection unit
500: elastic body
600 ; sensor cover

Claims (10)

a housing having an inner space;
a gas filter installed in the housing to pass the target gas into the inner space of the housing;
a filter holder positioned above the gas filter, the inner side forming a sensing space for the gas that has passed through the gas filter, and the protrusion protruding from the outer surface to the outside is formed to fix the gas filter as it is press-fitted into the housing;
a circuit board positioned above the filter holder and positioned above the sensing space to provide a gas sensing unit for sensing gas flowing into the sensing space, and converting the gas detected by the gas sensing unit into an electrical signal; and
It is located between the housing and the circuit board, is pressed downward when the circuit board is coupled to fix the circuit board, and an elastic body for sealing the filter holder;
An elastic body insertion groove extending upward from the bottom surface of the housing is formed, the elastic body is inserted into the elastic body insertion groove and fixed, and the elastic body is formed to have a height greater than the depth of the elastic body insertion groove, and when the circuit board is coupled to the housing Gas leak detection sensor, characterized in that the lower surface is supported by being in contact with the upper end of the filter holder, and the elastic body is deformed inside the elastic body insertion groove so that the height after assembly is lower than before assembly and pressurizes the filter holder. The method according to claim 1,
A gas leak detection sensor, characterized in that a bottom surface is formed in the lower portion of the inner space of the housing, an inflow hole formed to allow gas to flow into the bottom surface is formed, and a gas filter is coupled to an upper side of the inflow hole in the inner space of the housing. . 3. The method according to claim 2,
A gas leak detection sensor, characterized in that the housing includes a protruding jaw extending upward from the bottom to surround the outside of the inlet hole, and the gas filter and the filter holder are inserted into the protruding jaw and laterally supported by the protruding jaw. 3. The method according to claim 2,
A gas leak detection sensor, characterized in that the diameter of the inlet hole is the same as the inner diameter of the filter holder, and the inner surface of the filter holder constitutes a side wall of the sensing space. delete delete The method according to claim 1,
The gas leak detection sensor, characterized in that the elastic body is formed in an O-ring shape and inserted into the elastic body insertion groove. The method according to claim 1,
The housing inner space has an open top, and a filter, a filter holder, a first elastic body, and a circuit board are assembled in this order through the open top. 9. The method of claim 8,
The gas leak detection sensor further comprising a; a sensor cover that covers the upper end of the open housing inner space and protects the circuit board from the outside. A method of manufacturing the gas leak detection sensor of claim 1, comprising:
forming a bottom of the housing inner space and fusion-bonding a gas filter to an upper side of an inlet hole through which gas is injected;
Assembling the filter holder by press-fitting the gas filter;
A step of forming an elastic body insertion groove extending upward from the bottom surface of the housing, and inserting an elastic body into the formed elastic body insertion groove to be fixed; And
Assembling the circuit board by pressing the elastic body from the upper side of the elastic body;
The elastic body is formed to have a height greater than the depth of the elastic body insertion groove, and when the circuit board is coupled to the housing, the lower surface is in contact with and supported on the upper end of the filter holder. A method of manufacturing a gas leak detection sensor, characterized in that pressurizing the filter holder.

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