KR20110044574A - Gas sampling chamber system - Google Patents

Abstract

PURPOSE: A gas collection chamber system is provided to collect pollutant gas after sealing the entire area of a substance generating the pollutant gas, for accurately measuring the concentration of the pollutant gas. CONSTITUTION: A gas collection chamber system comprises a chamber(10), an airflow volume regulator(20), a gas transfer pipe(30), a gas mixing unit(40), a gas controlling valve(50), and an inhalation pump(60). The chamber includes an outer air inhalation hole(11), and an exhausting hole(12) on the upper side. The airflow volume regulator includes an outlet(23), and an airflow volume controlling fan for discharging polluted gas inhaled through an inlet(22). The gas transfer pipe connects the exhausting hole of the chamber and the outlet of the airflow volume regulator.

Description

Gas sampling chamber system

The present invention relates to a gas collection chamber system, and more particularly, to seal the entire area of the material generating the polluting gas, and to suck the polluted gas in the space enclosed by the air volume control fan to the gas mixer, and in the gas mixer It relates to a gas collection chamber system for mixing so that the transported polluted gas is mixed.

Among the greenhouse gases that cause the greenhouse effect, carbon dioxide is mainly generated from energy use and industrial processes, methane is mainly generated from waste, agriculture and livestock, nitrous oxide is mainly generated from industrial processes and fertilizer use, and CFCs and PFCs. , SF6, etc., are discharged from the use of refrigerants and cleaning applications.

In addition, the polluting gas causing the odor is polluted gas that smells odor due to the air is contaminated through various paths such as waste pile, polluted water, soot.

Thus, in order to measure the concentration of polluting gas of the substances generating greenhouse gas and odor gas, the chamber apparatus is installed close to a part of the polluting gas generating substance to inhale the polluting gas generated from the substance, and During the discharge process, the polluted gas is collected and a separate device is used to measure the polluted gas.

However, as described above, the chamber device installed in a part of the material to collect the polluted gas is not contaminated with the polluted gas discharged inhomogeneously according to the characteristics of the region, so that the concentration value of the polluted gas cannot be obtained, and the state close to the polluting gas generating material. The pollutant gas with different numerical values was collected every time, and the pollutant gas mixed with the pollutant gas in the space can be collected because the pollutant gas is collected directly while the inhaled pollutant gas is discharged. It was not possible to obtain the polluted gas, and in order to measure the concentration of the polluted gas accurately, the pollutant gas was collected several times using the chamber apparatus in the surrounding area of the same area.

The present invention is to solve the above problems, an object of the present invention is to seal the entire area of the material generating the polluted gas into the chamber, and to suck the polluted gas inside the chamber with a flow rate control fan to transfer to the gas mixer In addition, the purpose is to collect the polluted gas (mixed) in the gas mixer through the detection port to measure the exact concentration of the polluted gas with a separate device.

In order to achieve the object of the present invention as described above, the gas collection chamber system according to the present invention is a tent-shaped seated on the ground and the front is sealed, the outside air inlet is formed on the lower end of any one side, the discharge port on the upper surface A chamber formed; An air inlet is formed on one side of the housing, and an outlet is formed on the other side of the housing, and an air volume regulator configured to accommodate a air volume control fan for discharging the polluted gas sucked into the inlet to the outlet; A gas transfer pipe connecting between an outlet of the chamber and an outlet of the airflow regulator; The first connector is formed on the outer peripheral side of the hollow cylindrical housing is connected to the connector inserted into the outlet of the air flow regulator, the second connector is formed on the other side facing the first connector, the gas on the upper surface A gas mixer having a gas detector for detecting the protrusion, the gas mixer having a mixing fan for mixing the polluted gas sucked through the first connector; Inlet is formed on one side of the housing is connected to the second connector and the connection pipe of the gas mixer is protruding, the outlet is formed on the other side, the front side is a control knob for adjusting the amount of gas sucked from the second connector Gas regulator is formed; And a suction pump formed at one side of the housing and connected to the outlet of the gas regulator through a connection pipe, and an outlet configured to discharge the outside air sucked at the other side.

 The gas collection chamber system according to the present invention is characterized in that the chamber is formed to form a windshield at the outside air inlet to suck or block outside air.

The gas collection chamber system according to the present invention is characterized in that the airflow regulator is adjustable to operate at least 5 to 15 times the air volume per minute through the control unit formed on the front surface.

In the gas collection chamber system according to the present invention, the gas regulator is characterized in that the amount of suction per minute sucked into the gas mixer is adjustable to be 0.1 to 5 times the volume of the gas mixer.

According to the present invention, it is possible to collect the polluted gas in a state in which the entire area of the substance generating the polluted gas is sealed, so that the accurate concentration of the polluted gas can be measured, and the process of collecting the polluted gas is automatically performed. It's easy to use.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a perspective view showing a gas collection chamber system according to the present invention, Figure 2 is a view showing an operating state of the gas collection chamber system according to the present invention.

The chamber 10 is a tent-shaped seated on the ground and the front surface is sealed, and the outside air inlet 11 is formed at the lower end of any one side, and the outlet 12 is formed on the upper surface.

The chamber 10 is formed to inhale or block external air by forming a windshield 11a at the outside air inlet 11, and in the present invention, as shown in FIG. Although illustrated as, the tent may be rolled up on the side if necessary to allow the outside air to be sucked.

The airflow regulator 20 has an inlet 22 formed on one side of the housing 21, and an outlet 23 formed on the other side thereof. The air outlet 23 receives the polluted gas sucked into the inlet 22. It is formed to accommodate the air volume control fan 24 discharged to).

The airflow regulator 20 may be adjusted to operate at least 5 to 15 times the air volume per minute through the control unit 25 formed on the front surface than the volume of the chamber 10.

The gas transfer pipe 30 is formed to connect between the outlet 12 of the chamber 10 and the outlet 23 of the airflow regulator 20.

Gas mixer 40 is formed on the outer peripheral side of the hollow cylindrical housing 41, the first connector 42 is connected to the connecting pipe (P1) inserted into the outlet 23 of the airflow regulator 20, the The second connector 43 is formed on the lower side of the other side facing the first connector 42, and a gas detection port 44 for detecting gas is protruded on the upper surface thereof, and the first connector 42 is formed. Mixing fan 45 for mixing the contaminated gas sucked through is installed on the inner upper surface.

The gas regulator 50 has a suction port 52 connected to the second connector 43 of the gas mixer 40 and the connection pipe P2 on one side of the housing 51, and a discharge port at the other side thereof. 53 is formed, the front side is formed with a control knob 54 for adjusting the amount of gas sucked from the second connector (43).

The gas regulator 50 may adjust the amount of suction per minute sucked into the gas mixer 40 to be 0.1 to 5 times the volume of the gas mixer 40.

The suction pump 60 has a suction port 62 connected to the outlet 53 of the gas regulator 50 and the connection pipe P3 on one side of the housing 61, and the outside air sucked on the other side of the suction pump 60. Discharge port 63 for discharging is formed.

The gas collection chamber system 100 according to the present invention configured as described above operates as follows.

First, the chamber 10 is installed to seal the entire area of the substance from which the polluting gas is discharged, and the gas outlet pipe of the outlet 12 of the upper portion of the chamber 10 and the outlet 23 of the airflow regulator 20 is installed. 30 is connected to the first connector 42 of the gas mixer 40 at the end of the connection pipe (P1) inserted into the outlet 23 of the airflow regulator 20, the gas mixer ( The second connector 43 of the 40 and the inlet 52 of the gas regulator 50 is connected to the connection pipe (P2), the outlet 53 of the gas regulator 50 and the suction pump 60 The inlet 62 is connected to the connection pipe P3.

As described above, the entire area of the substance emitting the polluting gas is sealed, and the air volume regulator connected to the outlet 12 of the chamber 10 and the gas transfer pipe 30 by collecting the polluting gas inside the chamber 10 ( 20, the intake port 22 of the airflow regulator 20 through the gas transfer pipe 30 is connected to the discharge port 12 of the upper chamber 10 is the contaminated gas sealed in the chamber (10) Will be transferred to. At this time, the outside air is sucked into the outside air inlet 11 formed at the bottom of the chamber 10 according to the operating state of the airflow regulator 20 to smooth the contaminated air inside the chamber 10 in the airflow regulator 20. Inhaled quickly.

In addition, when the air flow regulator 10 is not in use, the air inlet 11 of the chamber 10 is sealed by the windshield 11a formed in the outside air inlet 11 of the chamber 10 to the chamber 10. It can prevent the intake of external air inside.

On the other hand, the polluted gas sucked into the inlet 22 of the airflow regulator 20 is discharged to the outside through the outlet 23 of the airflow regulator 20.

In this case, the air volume control fan 24 is provided inside the air volume regulator 20 to suck the polluted gas into the inlet 22, and push the polluted gas into the outlet 23 to be discharged.

In addition, a control unit 25 is formed on the front surface of the airflow regulator 20 to operate the airflow volume of the airflow control fan 24 at least 5 to 15 times greater than the internal volume of the chamber 10. The pollutant gas inside can be sucked in quickly.

As described above, the polluted gas discharged through the outlet 23 of the airflow regulator 20 has the end of the connection pipe P1 connected to the first connector 42 of the gas mixer 40 of the airflow regulator 20. The polluted gas is inserted into the outlet 23 to be sucked into the gas mixer 40 through the connection pipe P1.

At this time, the polluted gas sucked into the gas mixer 40 is sucked through the outside air intake port 11 of the chamber 10 as the polluted gas inside the chamber 10 is sucked into the air flow regulator 20. Since it is mixed with air and sucked into the gas mixer 40 through the outlet 23 of the airflow regulator 20, the gas mixer 40 is blown to the mixing fan 45 installed on the upper surface of the gas mixer 40 The contaminated gas and external air are circulated and mixed in the 40.

As described above, the polluted gas and the outside air sucked from the gas mixer 40 are mixed using the mixing fan 45, and the polluted gas is collected through the gas detection port 44 of the gas mixer 40. Measuring the state of the polluted gas minimizes the standard deviation of the concentration of the polluted gas, so that the accurate concentration of the polluted gas can be measured.

In addition, in the present invention, as shown in FIG. 1, the gas mixer 40 connected to the connection pipe P1 inserted into the outlet 23 of the airflow regulator 20 is illustrated as one, but the gas is required as needed. By installing a plurality of mixers 40, the concentration of the polluting gas can be quickly measured.

Meanwhile, the polluted gas sucked into the gas mixer 40 is sucked into the suction port 52 of the gas regulator 50 connected to the second connector 43 of the gas mixer 40 by a connection pipe P2. According to the suction amount set by the gas regulator 50, only a predetermined amount of the polluted gas discharged through the outlet 23 of the airflow regulator 20 is sucked through the first connecting pipe 42.

At this time, the gas regulator 50 is rotated up and down the control knob 54 to move up and down in the unlocked state to adjust the amount of the polluted gas intake, tighten the control knob 54 by rotating forward The main surface is the polluted gas is sucked in accordance with the set amount of the gas regulator (50).

In addition, the gas regulator 50 adjusts the amount of suction per minute sucked into the gas mixer 40 by using the adjusting knob 54 to be 0.1 to 5 times the volume of the gas mixer 40, the gas mixer 40. The amount of polluted gas sucked into the 40 can be adjusted.

On the other hand, the gas regulator (40) is connected to the first connector (P1) of the gas mixer 40 to suck the polluted gas into the connection pipe (P1) inserted into the outlet 23 of the airflow regulator (20) ( When the suction pump 60 is connected to and operated by the outlet 53 of the 50, the connection pipe P1 inserted into the outlet 23 of the airflow regulator 20 is sucked by the suction pump 60. This is generated to suck the polluted gas, and to suck the polluted gas of the gas mixer 40 into the gas regulator 50.

In addition, the polluted gas sucked into the gas regulator 50 to repeat the above operation is connected to the outlet 53 of the gas regulator 50 is connected to the suction port 62 of the suction pump 60. It is discharged to the discharge port 63 of the suction pump 60 through the pipe (P3).

As such, the structure that seals the entire area of the substance generating the polluting gas to the chamber 10 and sucks it into the airflow regulator 20 and inhales the polluting gas from the gas mixer 40 is characterized in that It is possible to collect the concentration of polluting gas discharged heterogeneously, and to measure the concentration of the polluting gas without accessing the polluting gas generating material, and the polluted gas and external air sucked into the gas mixer 40. Mixing with the mixing fan 45 can minimize the standard deviation for the measurement of the concentration of the polluting gas.

The gas collection chamber system 100 according to the present invention described above is not limited to the above-described embodiment, and the general knowledge in the field to which the present invention pertains without departing from the gist of the present invention as claimed in the following claims. Anyone with the technical spirit of the present invention to the extent that anyone can carry out various changes will be said.

1 is a perspective view showing a gas collection chamber system according to the present invention.

Figure 2 is a side cross-sectional view showing an operating state of the gas collection chamber system according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10 chamber 11: outside air intake

11a: windshield 12, 23, 53, 63: outlet

20: air volume regulator 21, 41, 51, 61: housing

22, 52, 62: suction port 24: air volume control fan

25 control unit 30 gas transfer pipe

40: gas mixer 42: first connector

43: second connector 44: gas detection port

45: mixing pan 50: gas regulator

54: adjustment knob 60: suction pump

P1, P2, P3: connector 100: gas collection chamber system

Claims (4)

A chamber 10 having a tent shape seated on the ground and closed at its front surface, and having an outside air inlet 11 formed at a lower end of one side thereof, and an outlet 12 formed at an upper surface thereof; The inlet 22 is formed at one side of the housing 21, the outlet 23 is formed at the other side, and the air volume control to discharge the polluted gas sucked into the inlet 22 to the outlet 23. An airflow regulator 20 accommodating the fan 24; A gas transfer pipe (30) connecting between the outlet (12) of the chamber (10) and the outlet (23) of the airflow regulator (20); On the outer circumferential side of the hollow cylindrical housing 41, a first connector 42 is formed to which the connection pipe P1 inserted into the outlet 23 of the airflow regulator 20 is connected, and the first connector 42 is formed. The second connector 43 is formed at the lower side of the other side facing the, and the gas detection port 44 for detecting gas is protruded on the upper surface, and the polluted gas sucked through the first connector 42 is formed. A gas mixer 40 in which a mixing fan 45 for mixing is installed on an upper surface of the inside; Inlet 52 is connected to the second connector 43 and the connection pipe (P2) of the gas mixer 40 on one side of the housing 51 is formed protruding, the discharge port 53 is formed on the other side On the front, the gas regulator 50 is provided with a control knob 54 for adjusting the amount of gas sucked from the second connector (43); And An inlet 62 is formed at one side of the housing 61 to be connected to the outlet 53 of the gas regulator 50 and the connection pipe P3. The gas collection chamber system, characterized in that consisting of; suction pump (60) is formed. The method of claim 1, The chamber (10) is a gas collection chamber system, characterized in that to form a windshield (11a) in the outside air inlet (11) to suck or block the outside air. The method of claim 1, The airflow regulator 20 is a gas collection chamber system, characterized in that adjustable through the control unit formed on the front surface 25 to operate at least 5 to 15 times the air volume per minute (10). The method of claim 1, The gas regulator 50 is a gas collection chamber system, characterized in that the amount of suction per minute sucked into the gas mixer 40 is adjustable to be 0.1 to 5 times the volume of the gas mixer 40.

Images