KR101435658B1 - Dilution Device for Sample Gas - Google Patents

Abstract

The apparatus for diluting a gas sample according to the present invention comprises a gas inlet tube into which a gas sample is introduced, at least one orifice tube installed in the gas inlet tube, a first three-way cock connected to the orifice tube, A second three-way cock installed on the other side of the odorless air inlet pipe, a second three-way cock connected to one side of the second three-way cock, and the other side connected to a storage bag, A tubular test exhaust pipe connected to the second three-way cock, a vacuum chamber having a predetermined space for the inner side of the storage bag, and a vacuum pump connected to the vacuum chamber.

Description

Dilution Device for Sample Gas "

The present invention relates to a gas sample dilution device, and more particularly to a device for diluting a gas sample at a desired dilution drainage concentration with a simple operation.

As the standard of living improves, interest and complaints about odor, which is a sensory pollution, are increasing, and a malodor concentration calculation method for grasping the odor status is becoming an important concern. However, it is difficult to quantitatively measure odor and odor because odor and odor are present as a complex component in which one or more components are mixed rather than as a single component, and it is difficult to quantitatively measure the concentration of components such as ppm, ppb There is a limitation that it can not be expressed in the absolute amount of.

Therefore, in the US EPA and other domestic "Odor Control Law", the "air dilution sensory method", which is a method of evaluating odor as a composite component rather than a regulation of a single component in the method of calculating odor concentration, is defined as a method of calculating the odor concentration And is used as a measure of odor control / regulation.

The air dilution sensory test method prescribed in the "Test Method for the Odor Control" of the Prevention of the Bad Odor Control Method is to dilute the sample air with the odorless air (3 times, 10 times, 30 times, 100 times) And the judging source is evaluated. In the above test method, the process of preparing the dilution gas by using the odorless air is the most important repetition process.

Conventionally, most of the 3L odorless bags are used to dilute the sample air and odorless air by hand by using a syringe for sample gas sampling. Experimental procedure and management are complicated, In the laboratory.

In order to minimize such inconvenience, automatic dilution devices using mass flow control (MFC) or flow rate regulator are also used, but dilution magnification (3 times, 10 times, 30 times, 100 times Etc.) is difficult to accurately reproduce, and in particular, the size of the apparatus is so large that it is impossible to apply it in the field.

In the conventional method using the sample gas sampling syringe or the method using the automatic dilution device, it is necessary to move the sample collected from the field to the laboratory as soon as possible and conduct the analysis in the laboratory (within 48 hours).

However, most of the odor / odor samples may be easily deteriorated during sampling or moving. Therefore, it is necessary to establish a method of analyzing the sample in the field, or a method of preparing the odorless air In particular, the process of diluting with a sample gas sampling syringe requires a manual process by a malodor analyzer, and the limitation of the reliability of the dilution scale at the stepwise dilution ratio is an issue to be improved.

Korea Patent Publication No. 2010-0021681

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a gas sample dilution device capable of easily producing a desired dilution factor in diluting a gas sample.

The apparatus for diluting a gas sample according to the present invention comprises a gas inlet tube into which a gas sample is introduced, at least one orifice tube installed in the gas inlet tube, a first three-way cock connected to the orifice tube, A second three-way cock installed on the other side of the odorless air inlet pipe, a second three-way cock connected to one side of the second three-way cock, and the other side connected to a storage bag, A tubular test exhaust pipe connected to the second three-way cock, a vacuum chamber having a predetermined space for the inner side of the storage bag, and a vacuum pump connected to the vacuum chamber.

The orifice tube may include a first orifice tube and a second orifice tube, wherein the first orifice tube and the orifice tube are different in size.

In addition, the gas sample diluting device may include an air suction pipe connected to one side of an air suction pipe for sucking fluid in the vacuum chamber, the other side connected to the vacuum pump, and an air suction pipe connected to one side of the vacuum pump, And an air outlet pipe.

The gas sample diluting device may further include a fourth three-way cock installed in the air suction pipe, an external air inflow pipe having one side connected to the fourth three-way cock and the other side communicating with the outside, And a purified air inflow pipe having one side connected to the fifth three-way cock and the other side communicating with the vacuum chamber.

Also, an activated carbon filter is installed in the purified air inlet pipe.

In addition, an activated carbon filter is installed at an end of the odorless air inlet pipe.

According to the present invention, a gas sample can be easily manufactured at a desired dilution ratio using an orifice tube, and a gas inlet tube and a tubular test outlet tube can be easily cleaned using a vacuum pump.

1 is a layout diagram of a gas sample dilution device according to an embodiment of the present invention;
2 is a schematic view of the operation of a gas sample dilution device according to an embodiment of the present invention;
3 is a schematic diagram of cleaning of a gas sample dilution device according to an embodiment of the invention.

Hereinafter, a gas sample dilution device according to the present invention having the above-described configuration will be described in detail with reference to the accompanying drawings.

FIG. 1 is a layout diagram of a gas sample dilution device 10 according to an embodiment of the present invention, and FIG. 2 is a configuration diagram of a gas sample dilution device 10 according to an embodiment of the present invention.

1 and 2, a gas sample dilution device 10 according to an embodiment of the present invention will be described.

The gas sample dilution apparatus 10 according to an embodiment of the present invention includes a gas inlet pipe 100, an odorless air inlet pipe 300, a tubular test outlet pipe 320, a vacuum chamber 400, a vacuum pump 500 .

The gas inlet tube 100 is a tube through which a gas sample is injected. At least one orifice tube 200 and a first three-way cock 230 are installed in the gas inlet tube 100.

The orifice tube 200 includes a first orifice tube 210 and a second orifice tube 220 wherein the first orifice tube 210 and the second orifice tube 220 are connected to each other according to the dilution ratio of the gas sample Select and dilute the gas sample. The first three-way cock 230 is connected to the orifice tube 200 to open the channel of the first orifice tube 210 when the gas sample passes through the first orifice tube 210, The conduit of the first orifice tube 220 is closed and the conduit of the second orifice tube 220 is opened when the gas sample passes through the second orifice tube 220 .

More specifically, when the inner diameter of the gas inlet tube 100 is 6 mm, the first orifice tube 210 is 1 mm, and the second orifice tube 220 is 0.4 mm, In order to increase the dilution factor of the gas sample by a factor of 10, a gas sample diluted by 10 times can be obtained by passing the gas sample once through the first orifice tube 210. In order to make the dilution ratio of the gas sample 30 times, When the gas sample is passed through the orifice tube 220 once, a gas sample diluted 30 times can be obtained.

When the first orifice tube 210 is passed through the second orifice tube 210 twice, a gas sample diluted 100 times can be obtained. After passing through the first orifice tube 210 once, the second orifice tube 220 ) Is passed once to obtain a gas sample diluted 300 times.

In this way, dilution magnification can be obtained at various dilutions such as 10 times, 30 times, 100 times, 300 times, 1000 times, 3000 times, the dilution magnification of the gas sample.

A desired gas sample is connected to the odorless air inlet pipe 300 through the orifice tube 200 installed in the gas inlet pipe 100 to mix the odorless air and the gas sample. To this end, the end of the gas inlet pipe 100 is connected to the odorless air inlet pipe 300 to mix the gas sample with the odorless air. At this time, the activated carbon filter 310 is installed on one side of the odor-free air inlet pipe 300 to inject purified air.

The mixed gas inlet pipe 240 is a pipe through which the gas introduced through the odorless air inlet pipe 300 and the gas inlet pipe 100 moves and is connected to the second three-way cock 241 at one side, And is connected to a storage bag 410 capable of storing gas.

The mixed gas inlet pipe 240 and the tubular test outlet pipe 320 are connected to the second three-way cock 241. The second three-way cock 241 opens the channel of the mixed gas inflow pipe and closes the pipeline of the tubular test exhaust pipe 320 to mix the gas Thereby allowing the gas to flow into the storage bag 410. In order to determine whether or not the mixed gas stored in the storage bag 410 is odor-free, the duct of the tubular test discharge pipe 320 is opened and the duct of the odor- The mixed gas stored in the storage bag 410 may be leaked through the tubular test discharge pipe 320 by closing the duct so that the judge can smell it.

The storage bag 410 is formed with a predetermined space in the vacuum chamber 400 and the vacuum chamber 400 is vacuumed to form a negative pressure to flow the mixed gas into the storage bag 410 . For this purpose, it is preferable that a vacuum pump 500 is connected to the vacuum chamber 400 so that the inside of the vacuum chamber 400 is evacuated to form a negative pressure.

To this end, an air suction pipe 510, one side of which is connected to the vacuum chamber 400 to communicate with the vacuum pump 500, and the other side of which is connected to the vacuum pump 500, And an air discharge pipe 520 connected to the outside.

The apparatus for diluting a gas sample 10 of the present invention is provided with a device for cleaning the gas inlet pipe 100, the mixed gas inlet pipe 240 and the tubular test outlet pipe 320. To this end, the gas sample dilution device 10 further includes an external air inlet pipe 530, a purified air inlet pipe 540, a fourth three-way cock 511, and a fifth three-way cock 521.

The fourth three-way cock 511 is installed in the air suction pipe 510. One side of the external air inflow pipe 530 is connected to the fourth three-way cock 511 and the other side is connected to the outside.

The fifth three-way cock 521 is installed in the air discharge pipe 520. The purified air inflow pipe 540 has one side connected to the fifth three-way cock 521 and the other side connected to the vacuum chamber 400 .

An operation method for washing the gas sample dilution device 10 will be described later.

The operation principle of the gas sample dilution device 10 according to the embodiment of the present invention will be described in detail with reference to Fig.

In order to dilute the gas sample, if the dilution magnification is input first in the control unit, the first three-way cock 230 selects one of the orifice tubes 200 to open the one orifice tube 200, The gas sample is introduced into the odorized air inlet pipe 300 and the odorless air and the gas sample are mixed and stored in the storage bag 410 through the mixed gas inlet pipe 240 through the second three- .

At this time, it is preferable that the second three-way cock 241 opens the ducts of the odorless air inlet pipe 300 and the mixed gas inlet pipe 240, and closes the tubular test exhaust pipe 320.

The vacuum pump 500 is operated to form a negative pressure in the vacuum chamber 400 in order to introduce the mixed gas into the storage bag 410. [

At this time, the fourth three-way cock 511 opens the air suction pipe 510 and closes the external air inflow pipe 530 to blow air into the vacuum chamber 400 by the vacuum pump 500 Let it inhale.

The fifth three-way cock 521 opens the air discharge pipe 520 and closes the pipe of the purified air inflow pipe 540 to discharge the air inside the vacuum chamber 400 to the outside.

Referring to FIG. 3, the operation principle of the gas sample dilution device 10 according to the embodiment of the present invention will be described in detail.

The gas sample dilution device 10 of the present invention can not obtain accurate data when the gas sample remains in the gas inlet pipe 100, the mixed gas inlet pipe 240, and the tubular test outlet pipe 320 , It is preferable to wash it after the test.

After the storage bag 410 is removed, the control unit of the gas sample dilution apparatus 10 issues a cleaning command to operate the vacuum pump 500, and the fourth three-way cock 511 operates to cool the air The suction pipe 510 is closed and the external air inflow pipe 530 is opened and the fifth three-way cock 521 closes the air discharge pipe 520 and the channel of the purified air inflow pipe 540 is closed The outside air is introduced into the external air inlet pipe 530 and air flows into the inside of the vacuum chamber 400 through the purified air inlet pipe 540. At this time, an activated carbon filter 541 is installed in the purified air inflow pipe 540, and purified air flows into the vacuum chamber 400.

The purified air introduced into the vacuum chamber 400 flows into the mixed gas inlet pipe 240 to wash the mixed gas inlet pipe 240 and the second three- And the third three-way cock 330 of the odor-free air inlet pipe 300 is closed so that the air is introduced into the tubular test outlet pipe 320, It is preferable to flow into the gas inlet pipe 100 for washing. At this time, it is natural that the first three-way cock 230 is opened.

Therefore, according to the present invention, the gas sample can be easily manufactured at a desired dilution ratio using the orifice tube 200, and the gas inlet pipe 100 and the tubular test outlet pipe 320 can be easily It is easy to wash.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

10: Gas sample dilution device
100: gas inlet tube 200: orifice tube
210: first orifice tube 220: second orifice tube
230: first three-way cock 240: mixture gas inlet pipe
241: second three-way cock
300: Odorless air inlet pipe 310: Activated carbon filter
320: tubular test discharge pipe 330: third three-way cock
400: vacuum chamber 420: storage bag
500: Vacuum pump 510: Air suction pipe
511: fourth four-way cock 520: air outlet pipe
521: the fifth three-way cock
530: External air inflow pipe 540: Purified air inflow pipe
541: Activated carbon filter

Claims (6)

A gas inlet pipe (100) into which a gas sample is injected;
At least one orifice tube (200) installed in the gas inlet tube (100);
A first three-way cock 230 connected to the orifice tube 200;
An odorless air inlet pipe 300 connected to an end of the gas inlet pipe 100 and having an activated carbon filter 310 installed therein;
A second three-way cock (241) installed on the other side of the odorless air inlet pipe (300);
A mixed gas inflow pipe 240 having one side connected to the second three-way cock 241 and the other side connected to the storage bag 410;
A tubular test discharge pipe 320 connected to the second three-way cock 241;
A vacuum chamber 400 having a predetermined space for the storage bag 410 to be positioned inside; And
And a vacuum pump (500) connected to the vacuum chamber (400).
3. The apparatus of claim 1, wherein the orifice tube (200)
Wherein the first orifice tube (210) and the second orifice tube (220) are different in size from the first orifice tube (210) and the orifice tube (200).
The apparatus according to claim 1, wherein the gas sample dilution device (10)
The other end of the air suction pipe 510 is connected to the vacuum pump 500. The other end of the air suction pipe 510 is connected to the vacuum pump 500 and the other side of the vacuum pump 500 is connected to the outside And an air outlet pipe (520) connected to the gas outlet.
4. The gas sample dilution device (10) according to claim 3, wherein the gas sample dilution device
A fourth three-way cock 511 installed at the air suction pipe 510;
An external air inlet pipe 530 having one side connected to the fourth three-way cock 511 and the other side communicating with the outside;
A fifth three-way cock 521 installed in the air discharge pipe 520; And
A purified air inflow pipe 540 having one side connected to the fifth three-way cock 521 and the other side connected to the vacuum chamber 400; Further comprising a gas sample dilution device.
5. The method of claim 4,
And an activated carbon filter (310) is installed in the purified air inflow pipe (540).
The method according to claim 1,
And an activated carbon filter (310) is installed at an end of the odorless air inlet pipe (300).

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