KR200497222Y1 - Double structure air inhaler - Google Patents

Abstract

The present invention relates to a dual structure air intake.
To this end, when detecting gas in a sealed container according to the present invention, the double structure air inhaler for blocking inflow of moisture includes an outer container having a closed lower part and an open upper part, and at least one perforation formed in the lower part; Disposed and coupled inside the outer container in the opposite direction to the outer container, and having at least one perforated inner container, a cover having a predetermined length on the inside of the outer container and coupled to the top of the outer container to maintain airtightness It may include a gas pipe that is tightly fixed, and the cover that is tightly fixed to an upper portion of the gas pipe and has an insertion hole formed at an inner center thereof to maintain airtightness.

Description

Double structure air inhaler {DOUBLE STRUCTURE AIR INHALER}

The present invention relates to a dual structure air intake.

In general, noxious gases that threaten the life and safety of workers may exist inside a closed container such as a reactor, column, tank, etc. with insufficient ventilation due to the nature of the closed container. As such, when a worker works in an airtight container, there is a risk of life threatening due to lack of oxygen or harmful gas, or a risk of fire or explosion due to flammable gas.

In order to prevent this, there is a related law that requires workers to measure the gas inside the confined space before entering, and to proceed only when the measured gas meets the standard.

However, even when the concentration of the measured gas is at a workable level, the concentration of the gas measured the previous day may be higher on the next day. In this case, the worker may leak into danger, and there is a problem in that it is difficult to immediately recognize and deal with it from the outside.

Therefore, after measuring the gas concentration inside the sealed container, there is a need to enhance the safety management of workers by transmitting the measured data to the outside in real time to monitor the state inside the sealed container in real time.

In addition, when measuring the gas inside the sealed container, there is a need for an air inhaler that more accurately measures the gas by blocking the inflow of moisture remaining inside the sealed container.

Therefore, the present invention is to provide a dual structure air intake.

In addition, the present invention is to provide a dual structure air intake that blocks the inflow of moisture by tightly and securely coupling the inner container to the inside of the outer container so as to maintain airtightness.

In addition, the present invention is to provide a dual structure air inhaler which perforates the lower part of the outer container and perforates the outer circumferential surface of the inner container to facilitate the flow of gas and at the same time block the inflow of moisture.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention not mentioned above can be understood by the following description and will be more clearly understood by the embodiments of the present invention. It will also be readily apparent that the objects and advantages of the present invention may be realized by means of the instrumentalities and combinations thereof set forth in the claims.

In order to achieve this object, the double-structured air inhaler for blocking inflow of moisture when gas is detected in a sealed container according to the present invention has a closed lower part and an open upper part, and has at least one perforated outer surface formed in the lower part. A container, an inner container disposed inside and coupled to the outer container in the opposite direction to the outer container, and having at least one perforation formed therein, a lid having a predetermined length inside the outer container and coupled to the top of the outer container, and airtight It may include a gas movement tube closely fixed to maintain airtightness, and the cover tightly fixed to an upper portion of the gas movement tube to maintain airtightness and having an insertion hole formed at an inner center thereof.

According to the present invention, the concentration of the gas can be more accurately measured by tightly and securely coupling the inner container to the inside of the outer container so as to maintain airtightness and blocking the inflow of moisture.

In addition, the present invention can measure the concentration of gas by puncturing the lower part of the outer container and puncturing the outer circumferential surface of the inner container to facilitate the flow of gas.

In addition, the present invention is closely fixed so that the inner container is airtight with the inner bottom of the outer container in a direction opposite to the direction of the outer container so that the upper part faces the inner bottom of the outer container and the lower part faces the upper part of the outer container. By doing so, it is possible to fundamentally block the inflow of moisture.

In addition, in the present invention, the diameter of the lower part of the inner container is smaller than the diameter of the upper part of the inner container, so that the water in the inner container can fall along the inner circumferential surface.

In addition, in the present invention, one end of the gas transfer pipe is connected to the gas detection device, and the other end passes through the cover and is arranged to extend in the lower direction of the inner container, so that the gas existing between the outer container and the inner container is detected by the gas detection device. can be passed on to.

In addition, the present invention can block the inflow of moisture present on the outer circumferential surface of the outer container by making the lower portion of the outer container in a skirt shape to block the inflow of moisture flowing along the outer circumferential surface of the outer container.

In addition to the above effects, specific effects of the present invention will be described together while explaining specific details for implementing the present invention.

In addition, the present invention can facilitate the inflow of gas in the sealed container by perforating the outer container and the inner container, respectively.

1 is an exemplary view showing a system for detecting gas in a sealed container according to the present invention.
2 is a perspective view of a dual structure air intake 120 according to the present invention.
3 is a front view of a dual structure air intake 120 according to the present invention.
Figure 4 is an exemplary view showing the bottom surface of the outer container according to the present invention.
5 is a front view of a dual structure air intake according to the present invention.
6 is an exemplary view showing a cover and an inner container of a dual structure air intake according to the present invention.
Figure 7 is an exemplary view showing that the inner container according to the present invention is disposed in the outer container.
8 is an exemplary view showing the lower surface of the outer container according to the present invention.
9 is an exemplary view of a dual structure air intake according to the present invention.

Throughout the specification, when "A and/or B" is used, this means A, B or A and B unless otherwise specified, and when used as "C to D", this means unless otherwise specified Unless otherwise specified, means greater than or equal to C and less than or equal to D

Hereinafter, a double-structured air inhaler for blocking inflow of moisture when gas is detected in an airtight container according to some embodiments of the present invention will be described.

1 is an exemplary view showing a system for detecting gas in a sealed container according to the present invention.

Referring to FIG. 1, a system 100 for detecting gas in an enclosed space according to the present invention includes a double structure air intake 120 disposed in a sealed container 110, and the inside of the double structure air intake 120 A gas transfer pipe 121 for delivering the gas of the gas to the gas detection device 130 disposed outside the sealed container 110, a support 111 for supporting the attachment of the gas transfer pipe 121, and the gas detection Device 130 may be included.

The gas detection device 130 detects the gas introduced through the gas pipe 121, and wirelessly communicates the detected result (eg, WiFi, Bluetooth, Long Term Evolution (LTE), etc.) can be transmitted externally.

The closed vessel 110 may include a reactor, column, tank, etc. with insufficient ventilation. For example, oxygen deficiency or harmful gas may be generated inside the sealed container 110 when a worker works. In the presence of these harmful gases or lack of oxygen, there may be a risk to the safety of workers. It is used to check the presence of gas for

The dual structure air inhaler 120 of the present invention not only can detect gas or measure oxygen inside the sealed container 110, but also can double structure air even when a large amount of moisture is generated in the sealed container 110. Moisture entering the inhaler 120 may be blocked.

2 is a perspective view of a dual structure air intake 120 according to the present invention. 3 is a front view of a dual structure air intake 120 according to the present invention.

Referring to Figures 2 and 3, the dual structure air intake 120 according to the present invention can detect the gas in the sealed container 110, and also, moisture introduced due to the characteristics of the closed space when gas is detected block

The double structure air intake 120 is disposed inside the outer container 210 in the opposite direction to the outer container 210, the lower portion of which is closed and the upper portion of which is open, the outer container 210, the outer container 210 ) It may include an inner container 220 coupled with the lower surface. At least one hole is formed on the lower surface of the outer container 210 and the outer circumferential surface of the inner container 220 . Gas is passed through the perforations. For example, at least one perforation 221 is formed on the outer circumferential surface of the inner container 220 .

In addition, the outer circumferential diameter 211 of the outer container 210 is greater than the diameter 222 of the inner container 220 . Also, the diameter 211 of the outer circumferential surface of the outer container 210 is smaller than the diameter 212 of the protrusion 302 in the form of a skirt formed on the lower part of the outer container 210 .

In addition, the upper portion 311 of the outer container 210 is formed with a spiral protrusion 311 that can be tightly fixed to the lid to maintain airtightness. Also, the cover is tightly fixed to the top of the gas transfer pipe disposed inside the external container 210 to maintain airtightness, and an insertion hole is formed in the inner center.

The vertical length 301 of the outer container 210 is longer than the horizontal length 212 . In addition, the vertical length 301 of the outer container 210 is longer than the vertical length 303 of the inner container 220 .

The upper part of the inner container 220 is tightly fixed to the inner lower surface of the outer container 210 so that airtightness is maintained (ie, gas or air does not pass).

In addition, the inner container 220 is formed so that the upper part of the inner container 220 is tightly fixed to the lower surface of the outer container 210 (ie, the upper part of the inner container 220 is attached to the outer container 210). in close contact with the lower surface of For example, the inner air 220 has an upper diameter greater than a lower diameter.

In this way, the upper part of the inner container 220 is closely fixed to the inner lower surface of the outer container 210 so that airtightness is maintained, so that the gas of the sealed container 110 is formed on the lower surface of the outer container 210. The gas flows into the inner space 305 of the inner container 220 through at least one hole, and the gas flowing into the inner space 305 of the inner container 220 passes through the hole formed on the outer circumferential surface of the inner container 220. Through (221) it may flow out of the inner container (220).

And, the gas leaked out of the inner container 220 exists inside the outer container 210, and eventually, the gas detection device 130 through the gas transfer pipe disposed inside the inner container 220. ) is transmitted to

Figure 4 is an exemplary view showing the bottom surface of the outer container according to the present invention.

At least one perforation 411 is formed on the lower surface of the outer container 210 . For example, when a plurality of perforations are formed on the lower surface of the outer container 210, the intervals between the perforations may be uniform. The perforation 411 may be formed within the diameter 222 of the top of the inner container 220 fixed inside the outer container 210 .

5 is a front view of a dual structure air intake according to the present invention. 6 is an exemplary view showing a cover and an inner container of a dual structure air intake according to the present invention.

Referring to FIGS. 5 and 6 , the dual structure air intake 120 according to the present invention may include an outer container 210, an inner container 220, and a cover 510.

The outer container 210 has a closed bottom and an open top, and at least one hole 411 is formed in the bottom. And, the inner container 220 is disposed and coupled to the inside of the outer container 210 in the opposite direction to the outer container 210, and at least one hole 221 is formed.

The outer vessel 210 has a predetermined diameter 211 , and the inner vessel 220 has a diameter 222 that is less than the predetermined diameter 211 of the outer vessel 210 . And, at least one perforation 411 is formed on the lower surface of the outer container 210 .

The lower part of the outer container 210 is a skirt to block moisture (eg, water) flowing down along the outer circumferential surface (ie, outer surface) of the outer container 210 from entering the perforation 411 formed on the lower surface ( skirt) shape.

The inner container 220 has an upper portion facing the inner bottom of the outer container 210 and a lower portion facing the upper portion of the outer container 210 in a direction opposite to the direction of the outer container 210 . It is fixed in close contact with the bottom of the inside of the container 210 so that airtightness is maintained.

The diameter 306 of the bottom of the inner vessel 220 is less than the diameter 222 of the top of the inner vessel 220 . And, at least one perforation 221 is formed on the outer circumferential surface of the inner container 220 .

One end of the gas pipe 121 is connected to the gas detection device 130 and the other end passes through the cover 510 and extends downward of the inner container 210 . In addition, the gas transfer pipe 121 may be spaced apart from the lower part of the inner container 220 by a predetermined distance to discharge the gas existing in the space 304 between the outer container 210 and the inner container 220. there is.

The cover 510 is tightly fixed to the top of the gas pipe 121 so as to maintain airtightness, and an insertion hole is formed in the center of the inner side. One end of the gas transfer pipe 121 is coupled to the gas detection device 130 so that gas inside the inner container 210 is transferred to the gas detection device 130 through the insertion hole, and the other end is coupled to the gas detection device 130. It is disposed facing the inside of the outer container 210.

In addition, the bolt 521 penetrates the cover 51 so that the dual structure air intake 120 according to the present invention is mounted on the structure of the sealed container 110, and the gas pipe 121 is connected to the bolt 521. ) can penetrate the interior of the Also, the bolt 521 and the cover 510 are coupled through nuts 522 and 523. In addition, the gas pipe 121 is fixed so as not to be separated from the bolt 521 through a nut 524 .

Figure 7 is an exemplary view showing that the inner container according to the present invention is disposed in the outer container. 8 is an exemplary view showing the lower surface of the outer container according to the present invention.

7 and 8, the inner container 220 according to the present invention is disposed upside down so that the lower part faces up inside the outer container 210, so that the outer container 210 and the lower surface of the inside are airtight. tightly fixed And, at least one perforation 411 (eg, four perforations) is formed on the lower surface of the outer container 210 . Also, at least one such perforation 411 (eg, four perforations) is formed within the diameter of the top of the inner vessel 220 to direct gas into the interior of the inner vessel 220 .

9 is an exemplary view of a dual structure air intake according to the present invention.

The double-structured air inhaler 910 according to the present invention transfers the gas in the sealed container 110 to the external gas detection device 130, and can block the inflow of moisture into the sealed container 110.

To this end, the dual structure air inhaler 910 is formed of a double structure in which an outer container 210 and an inner container 220 are closely coupled to the inside of the outer container, and moisture falling from the sealed container 110 penetrates the inner wall. In order to prevent reverse inflow by burning, the lower part of the outer container has a skirt shape.

As described above, the present invention has been described with reference to the drawings illustrated, but the present invention is not limited by the embodiments and drawings disclosed in this specification, and various modifications are made by those skilled in the art within the scope of the technical idea of the present invention. It is obvious that variations can be made. In addition, even if the operational effects according to the configuration of the present invention are not explicitly described and described while describing the embodiments of the present invention, it is natural that the predictable effects of the configuration should also be recognized.

121: gas transfer pipe 210: outer container
220: inner container 510: cover
525: gas transfer pipe

Claims (7)

In the double structure air inhaler that blocks inflow of moisture when gas is detected in a sealed container,
An outer container having a closed lower part and an open upper part, and having at least one perforation formed in the lower part;
an inner container disposed inside and coupled to the outer container in a direction opposite to the outer container, and having at least one perforation formed thereon;
a gas transfer pipe having a predetermined length inside the external container and tightly fixed to a cover coupled to an upper portion of the external container to maintain airtightness; and
The cover is tightly fixed to the top of the gas transfer pipe to maintain airtightness and has an insertion hole formed in the center of the inner side,
The inner container is disposed upside down so that the lower part faces upward inside the outer container,
The upper part of the inner container is fixed in close contact with the inner bottom of the outer container so that airtightness is maintained with the inner bottom of the outer container,
The lower part of the inner container faces the upper part of the outer container,
The diameter of the lower part of the inner container is smaller than the diameter of the upper part of the inner container,
The double structure air inhaler, characterized in that at least one perforation is formed on the outer circumferential surface of the inner container so that the gas flowing into the inner space of the inner container flows out of the inner container.
According to claim 1,
The double structure air inhaler, characterized in that the outer container has a predetermined diameter, and the inner container has a smaller diameter than the predetermined diameter of the outer container.
delete delete According to claim 1,
One end of the gas transfer pipe is connected to a gas detection device, and the other end passes through the lid and extends downward of the inner container to discharge gas between the outer container and the inner container. A dual structure air intake, characterized in that spaced apart by a certain distance.
delete According to claim 1,
The double structure air intaker, characterized in that the perforation formed in the outer container is formed on the lower surface of the outer container.