KR20200046687A - Dividing apparatus for standard samples for testing the proficiency about indor air quality and odor - Google Patents

Abstract

The present invention relates to an apparatus for distributing a standard sample testing indoor air quality and malodor area proficiency for analyzing a substance contained in an injected gas, and a gas distribution system including the same. More specifically, a gas analyzing system of the present invention is provided with the distribution apparatus which receives the injected gas and distributes each with the same pressure and a same gas amount, and has a plurality of gas analyzers connected to the distribution apparatus. Therefore, it is possible to simultaneously analyze the gas injected simultaneously through the plurality of gas analyzers, thereby reducing analysis and collection time, as well as providing homogeneous analysis data. The apparatus for distributing the standard sample testing the indoor air quality and the malodor area proficiency of the present invention comprises: an inlet pipe (310); a distribution unit (320); and a distribution nozzle (330).

Description

Dividing Apparatus for Standard Test of Indoor Air Quality and Odors {DIVIDING APPARATUS FOR STANDARD SAMPLES FOR TESTING THE PROFICIENCY ABOUT INDOR AIR QUALITY AND ODOR}

The present invention relates to an indoor air quality and odor field analysis apparatus for analyzing substances contained in the injected gas, and a gas analysis system including the same for a standard test distribution device and a gas to be injected (indoor air quality and odor fields) It is equipped with a distribution device that receives the proficiency test standard sample) and distributes them at the same pressure and the same amount of gas, and has multiple gas analyzers connected to the distribution device to simultaneously analyze the gas injected through multiple gas analyzers. Therefore, it relates to a gas analysis system capable of providing homogeneous analysis data while reducing analysis and collection time.

As modern society improves quality of life, such as increasing national income and improving living standards, interest in health is increasing, people are pursuing a more pleasant environment and people's interest in environmental problems is increasing rapidly. In addition, as the awareness of quality of life increased, people became interested in pollution in various environmental fields related to our lives, such as environmental pollution, and among them, people's interest in indoor air quality and odor, which is closely related to our lives, emerged. Is becoming.

For this reason, the Ministry of Environment enacted the indoor air quality management law and the odor prevention law by using multi-use facilities to solve these indoor air and odor problems and to allow people to live in a healthy and comfortable environment through continuous management of indoor air quality and odor. It has been implemented and regulated and managed for the concentration of pollutants.

Therefore, pollutants in the indoor air quality and odor field are very important parts that are receiving public attention, and reliability and accuracy of analysis in the test laboratory in the indoor air quality and odor field are required, and management of these test institutions is also very important and determined. It must be carried out in accordance with the regulations.

Many techniques have been developed in the prior art for gas analyzers for measuring such air or gas. In general, when measuring indoor air or a gas to be measured through a gas analyzer, it is common to measure air or gas by synthesizing analysis data through repetitive analysis. As described above, it was difficult to obtain a uniform measurement value when it was necessary to measure several times using a gas analyzer, and above all, a problem in that it took a very long time for measurement occurred.

Accordingly, there is a need to develop a gas analysis system for improving measurement reliability of air or gas and reducing time for measurement and analysis.

1. Registered Patent Publication No. 10-1293663 'Gas-phase chemical material multiple rapid sample collection device' (application date 2013.02.04) 2. Patent Publication No. 10-1999-0065055 'Gas Analysis System' (Application Date 1998.01.06) 3. Registered Patent Publication No. 10-17744462 'Gas Analysis System' (application date 2016.12.29)

The present invention has been devised to solve the problems as described above, and the target gas to be measured is supplied at a constant pressure, and the supplied gas is distributed at the same pressure and the same supply amount to be distributed to each gas analyzer provided in plural. It is an object of the present invention to provide a gas analysis system for supplying gas so that it can be analyzed in a batch.

In addition, the present invention provides a gas analysis system capable of minimizing an error range of gas analysis and reducing measurement and analysis time by supplying uniform gas to a gas analyzer through a pressure gauge and a pressure valve provided in the distribution device. .

The gas analysis system of the present invention includes a gas supply unit 100 including a gas to be detected concentrated at a predetermined pressure; A plurality of gas analysis units 200 having a constant suction force to collect the detection target gas received from the gas supply unit 100 and analyze the components included in the detection target gas; It is provided between the gas supply unit 100 and the gas analysis unit 200 so as to receive the gas to be detected from the gas supply unit 200, and each gas analysis by distributing the delivered detection target gas at a uniform pressure and flow rate A distribution device 300 that delivers the detection target gas to the gas analysis unit 200 so that the unit 200 analyzes the detection target gas simultaneously; It is characterized in that it comprises; a flow control unit 400 is provided between the distribution device 300 and the gas supply unit 100 to control the flow rate of the detection target gas delivered to the distribution device 300.

The distribution device 300 of the present invention includes an inlet pipe 310 receiving the gas to be detected from the flow control unit 400; A distribution unit 320 for distributing the detection target gas introduced into the inflow pipe 310 at a uniform pressure and flow rate; A plurality of distribution nozzles 330 connected to the distribution unit 320 and receiving the detection target gas distributed from the distribution unit 320 to discharge the detection target gas to the gas analysis unit 200; It is characterized in that it comprises; located at the bottom of the distribution unit 320, the mounting plate 340 extending in the radial direction to support the distribution nozzle (330).

In addition, in the present invention, when the pressure of the detection target gas discharged from the gas supply unit 100 is higher than the pressure required by the gas analysis unit 200, a part of the detection target gas delivered to the distribution device 300 A pressure control valve 500 in communication with the distribution device 320 may be further provided to discharge to the outside.

And, the pressure sensor 610 is connected to the distribution device 300 to measure the pressure inside the distribution device 300; Control the opening and closing of the pressure regulating valve 500 according to the pressure measurement value of the gas to be detected discharged from the flow control part 400 or the gas supply part 100 and the pressure value measured by the pressure sensor 610. The control unit 620; characterized in that it further comprises.

In addition, the distribution unit 320 of the present invention is located at the bottom of the inlet pipe 310, and is connected to the main pipe 321 and the main pipe 231 connected to the inlet pipe 310 therein, and a plurality of It consists of a plurality of distribution pipes 322 for transmitting the gas to be detected flowing into the inlet pipe 310 to the distribution nozzle 330, the interior of the distribution pipe 322 to the distribution nozzle 330 When distributing the gas to be detected, an opening valve 323 that is opened only at a constant pressure of the fluid is further provided.

In accordance with another embodiment of the present invention, the indoor air quality and odor field skill test standard distribution device includes: an inflow pipe 310 receiving a gas to be detected through a flow rate control unit 400; A distribution unit 320 for distributing the detection target gas introduced into the inflow pipe 310 at a uniform pressure and flow rate; And a distribution nozzle 330 connected to the distribution unit 320 to discharge the distributed gas.

In addition, in communication with the distribution unit 320, when the pressure of the gas discharged from the distribution nozzle 330 is higher than a predetermined pressure, the pressure is controlled to discharge a part of the gas introduced into the inlet pipe 310 to the outside. The valve 500 may be further included.

In addition, a pressure sensor 610 for measuring the internal pressure of the distribution unit 320; And determining the pressure value of the gas discharged from the distribution nozzle 330 based on the pressure value detected by the pressure sensor 610, and the gas pressure discharged from the distribution nozzle 330 is equal to the preset pressure. A control unit 620 that controls opening and closing of the pressure regulating valve 500 may be further included.

In addition, the distribution unit 320 is a main pipe 321 connected to the inlet pipe 310; And a distribution pipe 322 which is connected to the main pipe 231 and distributes the gas flowing into the main pipe 321 through the inlet pipe 310 and delivers it to the distribution nozzle 330, and The distribution pipe 322 may have an opening valve 322 that opens to a specific pressure range.

In addition, the distribution pipe 322 is a plurality, the distribution nozzle 330 and the pressure control valve 331 is the same number as the plurality of distribution pipe 322, the outer shape and the inside of the main pipe 321 The pupils formed are rotationally symmetrical,

The plurality of distribution pipes 322 are radially disposed at the same distance around the main conduit 321, each having the same shape and size, and the plurality of distribution nozzles 330 each have the same shape and size. , It is disposed at the same distance from the center of the plurality of distribution pipes 322 arranged in the radially coupled to the plurality of distribution pipes 322, the plurality of pressure control valve 331 is the plurality of distribution nozzles ( 330) can be disposed at each of the same location.

According to the present invention, as a plurality of gas analyzers connected to the distribution device and a distribution device that receives a gas delivered from a gas supply unit at a constant pressure are provided, the gas analysis is simultaneously performed while fluid is supplied to each gas analyzer at the same pressure and supply amount. It has the advantage of being able to proceed, reducing the range of analysis and measurement errors.

In addition, the present invention has the effect of allowing a safe, accurate analysis and measurement even when the discharge pressure of the gas supply unit is higher by separately providing a pressure meter and a pressure control valve in the distribution device.

Referring to Figure 1 is a schematic diagram showing an embodiment of the gas analysis system of the present invention.
Figure 2 is a perspective view showing an embodiment of the main configuration and use of the gas analysis system of the present invention.
Figure 3 is a cross-sectional view showing the internal structure and main configuration of the distribution device of the present invention.

Hereinafter, preferred embodiments of the gas analysis system of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that in adding reference numerals to the components of each drawing, the same components have the same reference numerals as possible, even if they are displayed on different drawings. In addition, in the following description of the present invention, when it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

Referring to Figure 1 relates to a schematic diagram showing an embodiment of a gas analysis system to which the distribution device according to an embodiment of the present invention, Figure 2 is an embodiment of the main configuration and use of the gas analysis system of the present invention 3 is a perspective view and a cross-sectional view showing the internal structure and main configuration of the distribution device of the present invention.

Referring to FIG. 1, the gas analysis system of the present invention may include a gas supply unit 100, a gas analysis unit 200, and a distribution device 300. The distribution device 300 may be included in various gas systems in addition to the present system.

The gas supply unit 100 may accommodate gas therein. The received gas may be a gas to be detected, and will be described below as a gas to be detected. The gas to be detected can be concentrated and stored at a high pressure. The gas to be detected can be combined with various gases according to the intended use. Gas accommodated in the gas supply unit 100 may be a test standard sample for improving the skill in the field of indoor air quality and odor.

The distribution device 300 may receive gas from the gas supply unit 100 and distribute the supplied gas at the same pressure and flow rate. The distribution device 300 may supply the distributed gas to the gas analysis unit 200.

The gas analyzer 200 may receive the gas distributed from the distribution device 300. The gas analysis unit 200 may store (capture) or analyze the supplied gas.

When the gas analysis unit 200 functions as an analyzer, the gas analysis unit 200 may detect and quantify various components contained in the gas. The gas analysis unit 200 may collect a portion of the detection target gas accommodated in the gas supply unit 100 and analyze the components included in the detection target gas. The gas analyzer 200 may correspond to various analyzers such as an auto oxygen analyzer, an ultraviolet gas analyzer, an infrared gas analyzer, and a mass spectrometer. In addition, preferably, the gas analysis unit 200 may correspond to a device capable of analyzing components (formaldehyde), (volatile organic compounds (VOCs)) of indoor air quality, or components including odor, etc. have.

The gas analyzer 200 may inhale the target gas with a constant suction force. When the gas analysis unit 200 functions to store or analyze, a plurality of gas analysis units 200 must store or analyze gas under the same environmental conditions. That is, each of the gases supplied by the plurality of gas analyzers 200 must have the same flow rate and pressure. Accordingly, the distribution device 300 needs to supply gas to the plurality of gas analysis units 200 at the same pressure and flow rate.

The gas of the same pressure may be filled in the plurality of gas analyzers 200, so that the sample error of the gas to be detected during analysis can be minimized, and accurate analysis may be possible. In addition, the gas collected in the gas analysis unit 200 may be a reference. When analyzing the collected gas at different places after capture, or when comparing different gases based on the collected gas, each analysis result or comparison result may have a small error. In addition, each of the plurality of gas analyzers 200 does not need to be individually collected by checking pressure and flow rate, and can be captured at the same time, thereby reducing the time required for collection.

2 and 3, the distribution device 300 may include an inlet pipe 310, a distribution part 320, a distribution nozzle 330 and a flow rate adjustment part 400.

The flow rate control unit 400 can control the flow rate of the gas supplied to the distribution device 300. That is, the distribution device 300 may be supplied by adjusting the gas amount from the gas supply unit 100 through the flow rate control unit 400.

The flow control unit 400 may separately include an output module that allows a user to check in real time data such as the pressure of the fluid supplied from the gas supply unit 100 and the flow rate being moved. The flow control unit 400 may control the amount of movement of the gas to be detected by a separate valve or the like.

The inlet pipe 310 may have an open shape. The opened one side (upper side) may be connected to the gas supply unit 100 or the flow rate control unit 400 to receive gas from the gas supply unit 100 or the flow rate control unit 400. The other side of the inlet pipe 310 that is open may be connected to the distribution unit 320 to transfer gas to the distribution unit 320.

The distribution unit 320 may distribute gas to be detected flowing into the inflow pipe 310. The distribution unit 320 may include a main pipe 321 connected to the inlet pipe 310 and a distribution pipe 322 connected to the main pipe 321 and for distributing gas.

A plurality of distribution pipes 322 may be provided. The gas to be detected passing through the plurality of distribution pipes 322 may be discharged at a uniform pressure and flow rate.

The distribution pipe 322 may have an opening valve 323 that opens to a specific pressure range. The specific pressure range is a preset pressure range, and may have a specific value or a specific range of values. The open valve 322 can help the distribution unit 320 to more accurately distribute the gas at a uniform pressure and flow rate. This is because the gas to be detected can pass through the distribution nozzle 330 only when the opening valve is opened. Through this, the gas to be detected can always be supplied to the gas analysis unit 200 at a uniform flow rate and pressure.

The distribution nozzle 330 may discharge the gas flowing through the distribution pipe 322 to the outside. When there are a plurality of distribution pipes 322, it is preferable that a plurality of distribution nozzles 330 are provided. The distribution nozzle 330 may be connected to the gas analysis unit 200 and supply gas introduced through the distribution pipe 322 to the gas analysis unit 200 to the gas analysis unit 200.

And, the distribution nozzle 330 may be further provided with a pressure control valve 331 for regulating the flow rate and pressure of the gas discharged from the distribution nozzle 330.

For the same flow rate and pressure distribution, the following configuration is preferable. The main conduit 321 is preferably rotationally symmetrical. The plurality of distribution pipes 322 are radially disposed at the same distance around the main pipe 321 and preferably have the same shape and size. The plurality of distribution nozzles 330 have the same shape and size, and are preferably disposed at the same distance from the center of the plurality of distribution tubes 322 arranged in a radial direction and connected to the distribution tube 322. It is preferable that the pressure regulating valves 331 are disposed at the same positions of each of the plurality of distribution nozzles 330. Since the distribution nozzle 330 is coupled to the outer circumferential surface of the main conduit 321, the outer shape of the main conduit 321 is a cylinder or a polygonal column, the cross section is rotationally symmetrical, or the number of vertices equal to the number of distribution pipes 322 It is preferable that it is a regular polygon having. It is preferable that the inside of the main conduit 321 has a cylindrical pupil for the same flow rate and pressure discharge. The pupil may communicate with the inlet pipe 310 and the distribution part 320. The pupil may also be in communication with the pressure regulating valve 500 described below.

The distribution device 300 may further include a mounting plate 340. The mounting plate 340 is located at the bottom of the distribution unit 320. The mounting plate 340 has a thin plate shape having a predetermined thickness, and is formed to extend radially. The mounting plate 340 may support the distribution nozzle 330 disposed on the upper surface.

The distribution device 300 may further include a pressure control valve 500. The pressure regulating valve 500 may be in communication with the distribution part 320, particularly, the main conduit 321. The pressure regulating valve 500 may adjust the internal pressure of the distribution part 320. When the pressure of the gas discharged from the distribution nozzle 330 is higher than a predetermined pressure, the pressure regulating valve 500 may discharge a portion of the gas introduced into the inlet pipe 310 to the outside.

In order to uniformly distribute the gas supplied from the gas supply unit 100 in the distribution device 300, the flow rate and pressure must be the same. In order to supply the correct amount of gas, the pressure of the fluid must have a predetermined value. That is, the gas distributed and discharged from the distribution device 300 must maintain a constant pressure. Accordingly, the pressure regulating valve 500 may lower the internal pressure of the main conduit 321 by discharging the gas from the distribution unit 320, particularly the main conduit 321 into the atmosphere.

The distribution device 300 may further include a pressure detection sensor 610 and a control unit 620. The pressure sensor 610 may measure the internal pressure of the distribution device 300. The control unit 620 may receive the measured data value from the pressure sensor 610 to control the opening and closing of the pressure control valve 500. The control unit 620 receives the gas pressure discharged from the gas supply unit 100, or the pressure data of the gas flowing into the flow regulator 400, and compares it with the measured values inside the distribution device 300, and The control valve 500 can be opened and closed.

The distribution device 300 may further include a control valve 700.

The control valve 700 may control whether gas discharged from the distribution nozzle 330 is discharged. The control valve 700 may be connected to the other end of the distribution nozzle 330. Alternatively, the control valve 700 may be disposed on a soft hose connecting the distribution nozzle 330 and the gas analysis unit 200.

The control valve 700 may open and close the flow of the fluid. The control valve 700 may be opened and closed manually by a user, and connected to the control unit 620 to be opened and closed by the operation of the control unit 620.

When the number of the gas analysis units 200 is less than the number of distribution nozzles 330, the control valve 700 closes the gas discharge from the distribution nozzles 330 that are not connected, so that the gas is discharged from the distribution device 300. The same flow rate and pressure distribution can be achieved.

The gas analysis system of the present invention by such a configuration is connected to the distribution device 300 and the distribution device 300 that receives the gas delivered from the gas supply unit 100 at a constant pressure, and the gas analyzer 200 composed of a plurality of Through this, gas analysis can be performed simultaneously, reducing the measurement error range.

In addition, since the pressure detecting sensor 610 is separately provided in the distribution device 300, safe, accurate analysis and measurement can be performed even when the discharge pressure of the gas supply unit is higher.

In addition, although the preferred embodiments of the present invention have been shown and described above, the present invention is not limited to the specific embodiments described above, and the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. In addition, various modifications can be carried out by a person having ordinary knowledge, and these modifications should not be individually understood from the technical idea or prospect of the present invention.

100: gas supply unit 200: gas analysis unit
300: distribution device 310: inlet pipe
320: distribution unit 330: distribution nozzle
340: Mounting plate 400: Flow control unit
500: pressure control valve 610: pressure detection sensor
620: control unit 700: control valve

Claims (5)

An inflow pipe 310 through which the gas to be detected is supplied through the flow control unit 400;
A distribution unit 320 for distributing the detection target gas introduced into the inflow pipe 310 at a uniform pressure and flow rate; And
It is connected to the distribution unit 320, the distribution nozzle 330 for discharging the distributed gas; Indoor air quality and odor field proficiency test standard sample distribution device comprising a. According to claim 1,
When the pressure of the gas discharged from the distribution nozzle 330 is higher than a predetermined pressure in communication with the distribution unit 320, a pressure control valve for discharging a part of the gas introduced into the inlet pipe 310 to the outside ( 500) further comprising, indoor air quality and odor field proficiency test standard sample dispensing device. According to claim 2,
A pressure sensor 610 for measuring the internal pressure of the distribution unit 320; And
The pressure value of the gas discharged from the distribution nozzle 330 is determined based on the pressure value sensed by the pressure sensor 610, and the gas pressure discharged from the distribution nozzle 330 is equal to the predetermined pressure. To further include a control unit 620 for controlling the opening and closing of the pressure control valve 500, the indoor air quality and odor field proficiency test standard sample distribution device. According to claim 1,
The distribution unit 320
A main pipe 321 connected to the inlet pipe 310; And
It is connected to the main pipe 231 and includes a distribution pipe 322 for distributing the gas flowing into the main pipe 321 through the inlet pipe 310 and delivering it to the distribution nozzle 330,
The distribution pipe 322 is equipped with an opening valve 322 that opens to a specific pressure range. The method of claim 4,
The distribution pipe 322 is a plurality, the distribution nozzle 330 and the pressure control valve 331 is the same number as the plurality of distribution pipe 322,
The outer shape of the main conduit 321 and the pupil formed therein are rotationally symmetrical,
The plurality of distribution pipes 322 are radially disposed at the same distance around the main pipe 321, and each has the same shape and size,
Each of the plurality of distribution nozzles 330 has the same shape and size, and is disposed at the same distance from the center of the plurality of distribution tubes 322 arranged in the radial direction, and is combined with the plurality of distribution tubes 322, respectively.
The plurality of pressure regulating valves 331 are disposed at the same position of each of the plurality of distribution nozzles 330, the indoor air quality and odor field proficiency test standard sample distribution device.

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