KR20230093633A - Gas sampling bag - Google Patents

Abstract

The present invention discloses a gas sampling bag for collecting sample gas. The gas sampling bag of the present invention includes a donut-shaped surround chamber inflated by injection of pressure fluid, and a central chamber disposed in the center of the surround chamber to be separated from the surround chamber and expanded together with the surround chamber to allow sample gas to flow in. It consists of According to the present invention, the central chamber expands along with the expansion of the surround chamber by the injection of pressure fluid, so that the sample gas can be easily and conveniently supplied without using a hard container by a self-expanding structure in which the sample gas can be introduced into the central chamber. can be picked up smoothly.

Description

Gas sampling bag {GAS SAMPLING BAG}

The present invention relates to a gas sampling bag, and more particularly, to a self-inflating structure in which a surround chamber and a central chamber expand together as pressure fluid is injected into the surround chamber. ) to a gas sampling bag capable of collecting sample gas.

Gas sampling bags are commonly used to collect sample gases such as air, gas, and odor, and are also called air sampling bags and air/gas sampler bags. The gas sampling bag is configured to retain the impermeability and inertness of the sample gas to reduce loss and increase storage time so that it can be easily carried and used. In addition, the gas sampling bag is configured to prevent adsorption and permeation of the sample.

Gas sampling bags are disclosed in US Pat. No. 7,380,476 and US Pat. No. 6,578,440. In the gas sampling bag of these patent documents, sample gas is collected by connecting an inlet to a gas sample line connected to a pump. If the pump, the gas sample line, etc. are contaminated with foreign substances, the sample gas collected by the gas sampling bag is highly likely to be contaminated with foreign substances, which may interfere with accurate analysis of the sample.

In order to prevent contamination of the sample, it is required to directly collect the sample into the gas sampling bag without connecting the gas sampling bag to the gas sample line. A so-called lung sampler, vacuum air sampling box, or vacuum chamber is used to directly collect a sample by means of a gas sampling bag.

As an example of a waste sampler, US Patent No. 3,866,474 gas sample collecting device includes a vacuum pump, a container, and a fully sealed flexible sample bag. A vacuum pump is connected to the container to create a vacuum inside the container. The sample bag is arranged to allow introduction of the sample gas into the container. When air is discharged from the container by the operation of the vacuum pump, the sample bag is expanded and the sample gas flows into the sample bag due to a pressure difference and is collected. The contents disclosed in the above patent documents are incorporated herein by reference.

As described above, the gas sampling device is composed of a hard case in which the container is sealed, and it is very cumbersome and difficult for a worker to carry and carry sample gas in a high place or a narrow place such as an industrial chimney. . In particular, when a vacuum pump or an air pump is embedded in a hard container, the weight and size of the container increase, resulting in poor portability.

In addition, a hard container with a sealed structure for creating a vacuum is not only relatively expensive, but also has a problem in that the cost of sampling increases due to the use of pipe fittings such as pipe fittings for connecting the vacuum pump and the hard container. .

The present invention is to solve various problems of the gas sampling bag as described above, and an object of the present invention is a self-expanding structure in which a surround chamber and a central chamber are expanded together to collect sample gas by injecting a pressure fluid. of new gas sampling bags.

Another object of the present invention is to provide a gas sampling bag in which a central chamber for injection of a sample gas is partitioned in the center of a surround chamber for injection of a pressure fluid, and the surround chamber and the central chamber are inflated together to facilitate the inflow of the sample gas. is to provide

Another object of the present invention is to provide a gas sampling bag that can be manufactured lightly and inexpensively by a simple structure.

According to one aspect of the present invention, a gas sampling bag is provided. A gas sampling bag according to the present invention is inflated by injection of a pressure fluid, and includes a donut-shaped surround chamber; A central chamber is disposed in the center of the surround chamber to be separated from the surround chamber and expands together with the surround chamber to allow sample gas to flow in.

In addition, the gas sampling bag according to the present invention, the surround chamber is formed, a donut-shaped surround balloon having flexibility; a central balloon that is disposed in the center of the surround balloon, is bonded to the surround balloon, has a central chamber, and has flexibility; a first valve connected to the surround balloon for injection of pressure fluid; In order to inject the sample gas, a second valve connected to the central balloon is provided.

The gas sampling bag according to the present invention has a self-expanding structure in which the central chamber expands along with the expansion of the surround chamber by the injection of pressure fluid to introduce the sample gas into the central chamber without using a hard container. It has the effect of being able to collect simply and smoothly. In addition, since the gas sampling bag according to the present invention can be manufactured lightly and inexpensively by a simple structure, there is a useful effect of reducing the cost required for sampling work. Therefore, the gas sampling bag according to the present invention has a useful effect of efficiently collecting sample gas while carrying it conveniently in a high or narrow place such as an industrial chimney.

1 is a perspective view showing a partially cut away gas sampling bag of a first embodiment according to the present invention.
2 is a plan view showing a gas sampling bag of a first embodiment according to the present invention.
3 is a cross-sectional view showing a gas sampling bag of a first embodiment according to the present invention.
4 is a cross-sectional view showing an inflated state of the gas sampling bag according to the first embodiment of the present invention.
5 is a cross-sectional view showing a gas sampling bag of a second embodiment according to the present invention.
6 is a cross-sectional view showing an inflated state of a gas sampling bag according to a second embodiment of the present invention.
7 is a cross-sectional view showing a gas sampling bag according to a third embodiment of the present invention.
8 is a cross-sectional view showing an inflated state of a gas sampling bag according to a third embodiment of the present invention.

Other objects, particular advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments taken in conjunction with the accompanying drawings. In describing the present invention, the size or shape of components shown in the drawings may be exaggerated or simplified for clarity and convenience of explanation. In addition, terms specifically defined in consideration of the configuration and operation of the present invention may vary according to the intentions or customs of users and operators. These terms should be interpreted as meanings and concepts corresponding to the technical spirit of the present invention based on the contents throughout this specification.

Hereinafter, preferred embodiments of the gas sampling bag according to the present invention will be described in detail based on the accompanying drawings.

First, FIGS. 1 to 4 show a gas sampling bag according to a first embodiment of the present invention. 1 to 3, the gas sampling bag 10A of the first embodiment according to the present invention includes a surround chamber 20 and a central chamber 30. The surround chamber 20 is inflated by injection of pressure fluid and is formed in a donut shape. The central chamber 30 is disposed in the center of the surround chamber 20 to be separated from the surround chamber 20, and expands together with the surround chamber 20 so that sample gas is introduced.

The surround chamber 20 is formed by a donut-shaped surround balloon 22 having flexibility. The cross section of the surround balloon 22 is formed in a substantially Korean "c" shape or an English "U" shape laid sideways. 2, the surround balloon 22 or tube is shown to be formed in a rectangular donut shape, but this is exemplary and the surround balloon 22 may be formed in a circular shape, a rectangular shape, or the like.

The central chamber 30 is formed by a flexible central balloon 32 or a central bag. The edge of the central balloon 32 is entered into the surround balloon 22 . The inner edge of the surround balloon 22 is along the edge of the central balloon 32 to maintain airtightness by the joints 40 and 42 or the sealing portion, and the upper and lower surfaces adjacent to the edge of the central balloon 32. connected to each. The surround balloon 22 and the central balloon 32 may be bonded by high frequency fusion or ultrasonic fusion. Also, the surround balloon 22 may be adhered to the central balloon 32 to maintain airtightness by means of an adhesive.

Each of the surround balloon 22 and the central balloon 32 is a flexible plastic film having characteristics of impermeability and inertness to the sample gas, such as polyvinylfluoride (PVF) film, polytetra It can be made of Polytetrafluoroethylene (PTFE, Teflon (trade name)) film, polyester film. The heat resistance temperature of PVF film is 150 ~ 170 ℃. Therefore, PVF film is used as a material. The gas sampling bag 10A of the first embodiment being manufactured is useful for gas sampling and analysis of high-temperature industrial chimneys In some embodiments, each of the surround balloon 22 and the central balloon 32 is made of aluminum foil ( Aluminum foil) can be manufactured as a material.

The gas sampling bag 10A of the first embodiment according to the present invention includes a first valve 50 for injecting a pressure fluid and a second valve 52 for introducing a sample gas. The first valve 50 is connected to one side of the surround balloon 22 . The second valve 52 is connected to the center of the central balloon 32 . Each of the first and second valves 50 and 52 may be configured as a check valve capable of preventing reverse flow of the pressure fluid and the sample gas. Each of the first and second valves 50 and 52 may be made of plastic, for example PTFE. In some embodiments, each of the first and second valves 50 and 52 may be composed of a cook, a cock valve, or a pipe fitting.

The gas sampling bag 10A of the first embodiment according to the present invention having such a configuration uses a pipeline of a fluid injection device such as a vacuum pump, an air pump, or an air compressor to inject a pressure fluid. It is connected to the first valve 50. When compressed air is injected into the surround chamber 20 through the first valve 50 by the operation of the fluid injection device, the surround balloon 22 is inflated.

As shown in FIG. 4, as the surround balloon 22 is inflated by the injection of compressed air, the central balloon 32 expands together, and the sample gas enters the central chamber 30 through the second valve 52. is introduced into That is, when the surround and central chambers 20 and 30 are simultaneously inflated by the injection of compressed air, the inside of the expanded central chamber 30 becomes low-pressure and the sample gas flows into the central chamber 30 through the second valve 52. Since it flows smoothly, sample gas can be easily collected. In addition, since there is no need to use a hard container due to the self-expanding structure of the surround and central chambers 20 and 30, the efficiency of the sampling operation can be improved and the cost of the sampling operation can be reduced.

On the other hand, when the surround chamber 20 is inflated by injection of compressed air while the second valve 52 is closed, the inside of the central chamber 30 expanded together with the surround chamber 20 becomes low pressure. After the expansion of the surround chamber 20 and the central chamber 30 is completed, when the second valve 52 is opened, the sample gas smoothly flows into the central chamber 30 through the second valve 52 and is sampled. As described above, the gas sampling bag 10A of the first embodiment according to the present invention can be carried around in a pre-inflated state and then open the second valve 52 to collect sample gas. Therefore, since there is no need to carry a fluid injection device for injecting pressure fluid into the surround chamber 20 in a high or narrow place such as an industrial chimney, the convenience and efficiency of the sampling operation can be increased.

5 and 6 a second embodiment of a gas sampling bag according to the present invention is shown. Referring to FIGS. 5 and 6 , the same components of the gas sampling bag 10B of the second embodiment and the gas sampling bag 10A of the first embodiment described above are given the same reference numerals and detailed descriptions are omitted. The difference between the gas sampling bag 10B of the second embodiment and the gas sampling bag 10A of the first embodiment described above is that the surround balloon 22 is configured to increase the volume of the surround chamber 20.

The gas sampling bag 10C of the second embodiment has pleats 60 formed on the edge of the surround balloon 22 . The pleats 60 are formed in an approximate English "M" shape laid sideways. The valleys 62 of the pleats 60 are attached to the edge of the central balloon 32 . The valley 62 may be attached to the center of the edge of the central balloon 32 to maintain airtightness by high-frequency welding, ultrasonic welding, or adhesive bonding. By attaching the valley 62 of the pleats 60 to the central balloon 32, the surround chamber 20 is partitioned into an upper chamber: 20-1 and a lower chamber: 20-2, The volume of the surround chamber 20 is increased.

As shown in FIG. 6, when compressed air is injected into the upper and lower chambers 20a and 20b through the first valve 50, the surround balloon 22 is inflated. At this time, the volume of the surround chamber 20, that is, the expansion amount of the surround balloon 22 is increased while the pleats 60 are unfolded. As the surround balloon 22 is inflated by the injection of compressed air and the central balloon 32 is inflated, gas flows into the central chamber 30 through the second valve 52 . As such, while the surround and central chambers 20 and 30 simultaneously expand, gas can be easily collected. In addition, the volumes of the surround and central chambers 20 and 30 are increased by the development of the pleats 60, so that the collection amount of gas can be increased.

7 and 8 a third embodiment of a gas sampling bag according to the present invention is shown. 7 and 8, the same components of the gas sampling bag 10C of the third embodiment and the gas sampling bags 10A and 10B of the first and second embodiments described above are given the same reference numerals and detailed descriptions are omitted. do. The gas sampling bag 10C of the third embodiment is configured such that the surround balloon 22 can increase the volume of the surround chamber 20, similarly to the gas sampling bag 10B of the second embodiment described above.

The gas sampling bag 10C of the third embodiment has pleats 70 formed on the edge of the surround balloon 22 . The pleats 70 are formed in a substantially English "V" shape laid sideways. The corrugation 70 has a pair of bent portions 72 and 74 in contact with the edge of the central balloon 32 . Each of the bent portions 72 and 74 is joined to the edge of the central balloon 32 by joint portions 76 and 78 .

By bonding the bent parts 72 and 74 of the pleats 70 to the edge of the central balloon 32, the surround chamber 20 has an upper chamber 20c, a lower chamber 20d and a middle chamber 20e ) to increase the volume of the surround chamber 20. In a state where the gas sampling bag 10C of the third embodiment is contracted, the upper chamber 20c is disposed above the edge of the central balloon 32, and the lower chamber 20d is disposed below the edge of the central balloon 32. will be placed on Also, the middle chamber 20e is disposed outside the edge of the central balloon 32 .

As shown in FIG. 8 , when compressed air is injected into the upper, lower, and middle chambers 20c, 20d, and 20e through the first valve 50, the surround balloon 22 is inflated. At this time, the volume of the surround chamber 20, that is, the expansion amount of the surround balloon 22 is increased while the pleats 70 are unfolded. As the surround balloon 22 is inflated by the injection of compressed air and the central balloon 32 is inflated, gas flows into the central chamber 30 through the second valve 52 . As such, while the surround and central chambers 20 and 30 simultaneously expand, gas can be easily collected. In addition, the volumes of the surround and central chambers 20 and 30 are increased by the development of the pleats 70, so that the collection amount of gas can be increased.

The embodiments described above are merely those of the preferred embodiments of the present invention, and the scope of the present invention is not limited to the described embodiments, and within the technical spirit and claims of the present invention, those skilled in the art Various changes, modifications or substitutions will be possible by, and it should be understood that such embodiments fall within the scope of the present invention.

10A, 10B, 10C: gas sampling bag 20: surround chamber
22: surround balloon 30: central chamber
32: central balloon 40, 42: junction
50: first valve 52: second valve
60, 70: creases 62: troughs
72, 74: bent part

Claims (5)

a donut-shaped surround chamber expanded by injection of pressure fluid;
A gas sampling bag including a central chamber disposed in the center of the surround chamber to be separated from the surround chamber and expanded together with the surround chamber to allow a sample gas to flow in. According to claim 1,
a donut-shaped surround balloon in which the surround chamber is formed and having flexibility;
a central balloon disposed in the center of the surround balloon, bonded to the surround balloon, formed with the central chamber, and having flexibility;
a first valve connected to the surround balloon to inject the pressure fluid;
A gas sampling bag having a second valve connected to the central balloon to inject the sample gas. According to claim 1,
An edge of the central balloon is entered into the surround chamber, and an inner edge of the surround balloon is bonded to an edge of the central balloon and adjacent upper and lower surfaces, respectively. According to any one of claims 1 to 3,
The gas sampling bag of claim 1 , wherein corrugations having valleys are formed on an edge of the surround balloon, and the valleys are bonded to an edge of the central balloon to partition the surround chamber into an upper chamber and a lower chamber. According to any one of claims 1 to 3,
A pair of folds having a pair of bends are formed on an edge of the surround balloon, and the pair of bends are located above and below the edge of the central balloon to divide the surround chamber into an upper chamber, a lower chamber, and a middle chamber, respectively. A gas sampling bag bonded to

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