KR20210050074A - System for testing the effects of fine dust exposure and control method thereof - Google Patents

Abstract

The present invention relates to a system for testing a fine dust exposure effect and a control method thereof. The present invention includes: a pollutant supply chamber accommodating and supplying an air pollutant; a clean air supply device performing supply after mixing clean air with the air pollutant; a controller controlling the pollution concentration of the mixed atmosphere as the mixture of the air pollutant at the pollutant supply chamber and the clean air at the clean air supply device; a test chamber where the mixed atmosphere controlled to any pollution concentration at the controller is supplied, an experiment animal is exposed to the air pollutant, and risk testing is performed under any experiment conditions; a concentration detection sensor detecting the atmospheric pollution concentration in the test chamber; a monitoring unit monitoring the atmospheric pollution concentration adjustment in the test chamber with data detected at the concentration detection sensor; and a data storage unit storing data transmitted from the monitoring unit. According to the present invention, it is possible to build a system in which a fine dust risk exposure environment simulates an actual state and evaluate experiment animal risk suppression with respect thereto.

Description

System for testing the effects of fine dust exposure and control method thereof

The present invention relates to a system and a control method for testing the effects of fine dust exposure, and more particularly, to construct a system that simulates the hazardous exposure environment of fine dust similar to the actual state, and to control the risk of the experimental animals. It relates to a system and a control method for testing the effect of exposure to fine dust for evaluation.

In general, fine dust is a fine pollutant having a particle diameter of 10 μm or less floating in the air, and in recent years, as the concentration of fine dust in the air increases, the health of the human body is deteriorating.

Problems caused by fine dust include an increase in the mortality rate of the elderly who are susceptible to air pollution, may adversely affect pregnant women and fetuses, and cause various diseases such as respiratory diseases such as asthma, headache, and atopy. I can.

Therefore, in an effort to solve the problem caused by such fine dust, we are studying the effect of harmful substances such as fine dust on the living body through the inhalation of the lab rats.

In the case of a conventional test apparatus using fine dust, control has been made in such a way that high concentration fine dust is first generated and then the concentration is reduced through a dilution device.

However, before going through the dilution device, an unintended size of fine dust is generated due to collisions and bonding between particles of high concentration fine dust, and loss occurs in the screening process, so a complex facility is required to compensate for this. There was a problem that the size or concentration could not be controlled efficiently and precisely.

In addition, in the case of animal studies, fine dust studies were conducted by invasively attaching fine dust to the bronchi or by forcibly injecting the bronchi through the nasal cavity.This conventional method is a forced inhalation method in which the degree of exposure cannot be confirmed. There is a difference in dust exposure from reality, and there is a limitation in that objective indicators such as control of the dust concentration maintenance according to the exposure time or the bio-application time are insufficient.

Korean Patent Registration No. 10-0798149

Accordingly, the present invention was devised to solve the problems of the prior art as described above, and by constructing a system that simulates the hazardous exposure environment of fine dust similar to the actual state, it is possible to test the effect of exposure to fine dust exposure. Its purpose is to provide a system that can be used.

In addition, by controlling the fine dust exposure time and the fine dust concentration to a certain degree, it provides a control method to secure and design data that can serve as an objective indicator for the correlation between the time synchronization-based fine dust distribution and concentration. There is a purpose.

In order to achieve the above objects, in the present invention, a pollutant supply chamber in which air pollutants are received and supplied, a clean air supply device for mixing and supplying clean air with the air pollutants, and the pollutant supply chamber A controller for controlling the pollutant concentration of the mixed atmosphere in which the air pollutants in and clean air from the clean air supply device are mixed, and the mixed atmosphere controlled at an arbitrary pollutant concentration from the controller is supplied to the air pollutants. A test chamber that tests risk under arbitrary experimental conditions by exposing an experimental animal, a concentration sensor that detects the concentration of air pollution inside the test chamber, and air pollution inside the test chamber through data detected by the concentration sensor. It provides a system for testing the effect of exposure to fine dust, including a monitoring unit for monitoring concentration control and a data storage unit for storing data transmitted to the monitoring unit.

In the present invention, the air pollutant may be made of any one of fine dust, ultrafine dust, and yellow dust, or a mixture containing at least two of the fine dust, ultrafine dust, and yellow dust.

The clean air supply device includes a filter that catches natural air so that other types of air pollutants that are unnecessary for testing are not included, so that only clean air that has passed through the filter is supplied to the controller.

In addition, the present invention may further include an automatic circulation device for automatically circulating the mixing atmosphere inside the test chamber.

In the present invention, the automatic circulation device includes a fan for circulating air in the test chamber, an intake port and an exhaust port for inhaling air circulated by the vortex generated from the fan and recirculating it in the test chamber, and the intake port. It is configured to include a connecting pipe that connects so that the exhaust port communicates.

Here, the fan is installed at the upper and lower portions of the test chamber, and the intake and exhaust ports are installed at the upper and lower portions of the test chamber in which the fan is installed, so that the air pollutants collected on the floor by the upper fan are removed from the lower fan. The concentration can be adjusted so that air pollutants are evenly distributed in the space inside the test chamber by inhaling through the connection pipe connected to and automatically recirculating.

On the other hand, in the test chamber, a wire mesh is located on the floor and a collection unit for collecting feces of the test animal is installed under the wire mesh to prevent contamination of the test environment by feces, and changes in the feces of the test animal in the test environment Can be applied to research.

In addition, a plurality of the concentration sensing sensors are provided, and are installed to be positioned at predetermined intervals or at a predetermined height in the inner space of the test chamber.

In addition, an antistatic coating is applied inside the test chamber to prevent dust from adhering to the test chamber.

In addition, it is possible to establish correlation data by testing the effect of each concentration and exposure time in an air pollutant exposure environment based on a patch-type sample attachment method attached to the skin of the experimental animal.

On the other hand, in the present invention, in order to achieve the object of the present invention as described above, a controller controls a mixed atmosphere in which air pollutants in a pollutant supply chamber and clean air are mixed with a clean air supply device to an arbitrary pollution concentration. A control step and a supply step of supplying a mixed atmosphere controlled by the controller to a certain pollution concentration into a test chamber, and testing the risk under arbitrary experimental conditions by exposing the experimental animal to the air pollutant in the test chamber. A test step, a detection step of detecting the concentration of air pollution inside the test chamber using a plurality of concentration detection sensors, and a monitoring step of monitoring the control of the concentration of air pollution inside the test chamber through data detected by the concentration detection sensor And, an automatic circulation step for automatically circulating the mixed atmosphere inside the test chamber is provided.

In the monitoring step, the data detected by the concentration sensor is monitored by adjusting the fan speed of the test chamber using a computer or tablet, and adjusting the air pollutant input rate in the pollutant supply chamber to control the pollution concentration inside the test chamber. It is characterized by that.

In addition, in the automatic circulation step, the air pollutants collected on the floor by the fan in the upper part of the test chamber are automatically recirculated by inhaling the air pollutants collected on the floor by the fan connected to the lower fan. In the test step, correlation data may be established by testing the effect of each concentration and exposure time in an air pollutant exposure environment based on a patch-type sample attachment method attached to the skin of an experimental animal.

Meanwhile, the experimental conditions in the test step include the type of air pollutant, the concentration of the air pollutant, the exposure time due to the inflow of the air pollutant, or the non-exposure time due to the non-inflow of the air pollutant. You can proceed step by step to obtain data.

As described above, in the present invention, by constructing a system that simulates a hazardous exposure environment of fine dust similar to an actual state, it is possible to test the effect of exposure to fine dust exposure.

In addition, by using not only fine dust, but also ultrafine dust, yellow dust, etc., the type of air pollutant, concentration of air pollutant, exposure time due to inflow of air pollutant, or unexposure time due to non-inflow of air pollutant. It is possible to obtain data in a state similar to the actual state by proceeding step by step, and secure and design data that can be an objective indicator for the correlation of the concentration of fine dust distribution based on time synchronization. I can.

1 is an overall configuration diagram showing a first embodiment of a system for testing the effect of exposure to fine dust according to the present invention.
2 is an overall configuration diagram showing a second embodiment of a system for testing the effect of exposure to fine dust according to the present invention.
3 is a flow chart showing a control method for testing the effect of exposure to fine dust according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms. It is provided to inform you.

The present invention is to test the risk of fine dust in a living body, and to construct a system that simulates the environment to be exposed to fine dust in a similar manner to an actual state, and to evaluate the risk suppression ability of experimental animals.

1 is an overall configuration diagram showing a first embodiment of a system for testing the effect of exposure to fine dust according to the present invention.

As shown in FIG. 1, the system for testing the effect of exposure to fine dust of the present invention is largely, a pollutant supply chamber 10, a clean air supply device 20, a controller 30, a test chamber 40, and a concentration. It includes a detection sensor 60, a monitoring unit 70, and a data storage unit 80.

The pollutant supply chamber 10 is a chamber in which air pollutants are received and supplied, and among the air pollutants, fine dust, ultrafine dust, yellow dust, and the like may be used. In the present invention, the air pollutant may be made of any one of fine dust, ultrafine dust, and yellow dust, or a mixture containing at least two or more of the fine dust, ultrafine dust, and yellow dust.

Here, there is also a difference in the effect on the human body due to the difference in the components of fine dust, ultrafine dust, and yellow dust, so the exposure effect of each component as well as the exposure effect according to the composition ratio of the mixture in which each component is mixed is tested. There is a need to do it.

Accordingly, in the present invention, the air pollutant is composed of a mixture of fine dust, ultrafine dust, and yellow sand so that the test chamber 40 can be configured in a state similar to that of a general natural atmosphere, so that an experiment can be conducted.

Meanwhile, a clean air supply device 20 for mixing and supplying clean air with the air pollutant is included.

The clean air supply device 20 should include a filter that catches natural air so that other types of air pollutants that are unnecessary for the test are not included. Accordingly, the clean air supply device 20 can supply only clean air that has passed through the filter to the controller 30.

Various types of filters may be applied, and a commonly used HEPA filter may be applied.

Meanwhile, the air pollutants supplied from the pollutant supply chamber 10 and the clean air supplied from the clean air supply device 20 must be mixed at a certain ratio and introduced into the test chamber 40.

To this end, a controller 30 is provided for controlling the pollutant concentration of the mixed atmosphere obtained by mixing air pollutants in the pollutant supply chamber 10 and clean air in the clean air supply device 20.

The controller 30 is, for example, the valve of the pollutant supply chamber 10 so as to adjust the air pollution concentration inside the test chamber 40 according to the detection of the concentration sensor 60 installed in the test chamber 40. (Not shown) is controlled to control the concentration of pollutants by opening and closing the lamp.

The test chamber 40 receives the mixed atmosphere controlled by the controller 30 at an arbitrary pollutant concentration, exposes the experimental animal to the air pollutant, and tests the risk under an arbitrary experimental condition.

Here, rats are generally used as experimental animals, and the risk of each concentration, type, and exposure time of fine dust, etc. can be determined through the rat.

An important point in the present invention is that when the air pollutant enters the test chamber 40, it is necessary to maintain a state that is evenly distributed in the atmosphere like natural atmosphere.

However, when fine dust or the like is introduced into a relatively small space such as the test chamber 40, it is difficult to maintain a state such as natural atmosphere because the fine dust falls to the bottom by its own weight.

Thus, in the present invention, an automatic circulation device for automatically circulating the mixing atmosphere inside the test chamber 40 is provided.

In the present invention, the automatic circulation device comprises a fan 50 for circulating air in the test chamber 40, and the test chamber 40 by inhaling air circulated by the vortex generated in the fan 50. And a connection pipe connecting the intake port and the exhaust port to communicate with the inlet port and the exhaust port to be recirculated to each other.

Here, the fan 50 is installed in the upper and lower portions of the test chamber 40, the intake and exhaust ports are installed in the upper and lower portions of the test chamber 40 in which the fan 50 is installed, and the upper fan By inhaling the air pollutants collected on the floor by means of a connection pipe connected to the lower fan and automatically recirculating them, the concentration can be adjusted so that the air pollutants are evenly distributed in the inner space of the test chamber 40.

On the other hand, a concentration sensor 60 for detecting the concentration of air pollution inside the test chamber 40 is provided.

The concentration sensor 60 is provided with a plurality, and is installed to be positioned at a predetermined interval or at a predetermined height in the inner space of the test chamber 40. For example, a concentration sensor 60 is installed at a position corresponding to the head of a mouse, and a concentration sensor 60 is also installed at the lower and upper portions thereof to evenly distribute fine dust in the space inside the test chamber 40 Do it.

The data detected by the concentration sensor 60 is transmitted to a monitoring unit 70 that monitors the control of the air pollution concentration inside the test chamber 40 to control the controller 30 through the data.

On the other hand, in order to control the humidity and temperature inside the test chamber 40, it is preferable that a humidity sensor and a temperature sensor for sensing humidity and temperature are further installed.

The humidity/temperature data sensed by the humidity sensor and the temperature sensor is transmitted to the controller 30 so that the controller 30 controls the humidity/temperature through the data.

In addition, the data transmitted to the monitoring unit 70 is stored in the data storage unit 80.

Meanwhile, in the test chamber 40, a wire mesh is placed on the floor and a collection unit 90 for collecting feces of the experimental animal is installed under the wire mesh to prevent contamination of the test environment by feces, and experiment in the test environment. It makes it possible to apply changes in animal feces to research.

In addition, an antistatic coating may be applied inside the test chamber 40 to prevent dust from adhering to the test chamber 40.

In addition to the first embodiment of the present invention configured as described above, in order to more objectively data the effect of exposure to fine dust on the experimental animal, as shown in FIG. 2, several experimental animals in the test chamber 140 are used. May be.

2 is an overall configuration diagram showing a second embodiment of a system for testing the effect of exposure to fine dust of the present invention, the other configuration is the same as that of the first embodiment, and several experimental animals are placed in the test chamber 140. It is made to be acceptable so that the effects of exposure to fine dust on each experimental animal can be tested.

In addition, by applying the patch type attached to the skin of the experimental animal, correlation data may be constructed by testing the effect of each concentration and exposure time in an air pollutant exposure environment based on a sample attachment method.

3 is a flow chart showing a control method for testing the effect of exposure to fine dust of the present invention, and the control method of the present invention according to the above configuration is as follows.

First, the mixed atmosphere obtained by mixing the air pollutants in the pollutant supply chamber 10 and the clean air in the clean air supply device 20 is controlled by the controller 30 to an arbitrary pollutant concentration (S110).

Thereafter, the mixed atmosphere controlled by the controller 30 to an arbitrary contamination concentration is supplied into the test chamber 40 (S120).

A test step of exposing the experimental animal to the air pollutant in the test chamber 40 to test the risk under arbitrary experimental conditions is performed (S130).

Here, in the test step, the test may be performed through various experimental conditions. The experimental conditions include the type of air pollutant, the concentration of the air pollutant, the exposure time due to the inflow of the air pollutant, or the non-exposure time due to the non-inflow of the air pollutant. Can be obtained.

For example, the type of air pollutant may be composed of any one of fine dust, ultra fine dust, and yellow sand, or may be composed of a mixture containing at least two or more of the fine dust, ultra fine dust, and yellow sand. You can also proceed.

In addition, it is very important to experiment by adjusting the exposure time of air pollution and the unexposed time to be similar to that of a person's daily life. Here, if it is the non-exposure time, a person's sleeping time will be possible, and the exposure effect on the exposure effect can be converted into data by performing a test for each exposure time by adjusting the exposure time of about 4 to 8 hours per day.

Here, the important point is to maintain the inside of the test chamber 40 in a state similar to the natural atmosphere in the test step.

To this end, the test chamber 40 circulates air inside the chamber with an upper fan, and automatically adjusts the concentration of dust by circulating dust collected through the bottom and the gap of the chamber to the upper part by a pipe connected to the lower fan. do.

The concentration of air pollution inside the test chamber 40 is detected using a plurality of concentration sensors 60 (S140).

Thereafter, the control of the air pollution concentration inside the test chamber 40 is monitored through the data detected by the concentration sensor 60, and the mixed atmosphere inside the test chamber is automatically circulated.

In the monitoring step, the data detected by the concentration sensor can be monitored by adjusting the fan speed of the test chamber using a computer or a tablet, and adjusting the air pollutant input speed in the pollutant supply chamber. I can.

The present invention as described above can have the following functions and actions.

Basic research on environmental data collection, etc., testing the effects of exposure to fine dust from breathing and contact

-Study on standard sample data of fine dust to estimate the effect of disease-causing correlation (dermatology diseases, respiratory diseases, etc.)

-Investigation and analysis of the performance of each concentration sensor by measuring the distribution of fine dust in the space

-Study on requirements for building spatial fine dust concentration variable test environment system (Mass flow control, data transmission, data storage, etc.)

Space fine dust concentration distribution correlation test and measurement environment design according to time required

-Design of spatial fine dust concentration distribution test environment architecture based on Time Synchronized

-Design of variable control system for supply concentration of fine dust in test space

-Design of a system for measuring the concentration of fine dust distribution by time of the test space under the condition of no sample input

Securing/designing DB for the concentration correlation of spatial fine dust distribution based on time synchronization

-A study on the calculation and transformation method of spatial distribution representative value based on multi-point fine dust measurement data

-Time Synchronized based fine dust distribution concentration measurement and data storage technology research

-Establishment and analysis of correlation database of fine dust concentration by time in test space environment

Establishment/design of a test environment for the impact of fine dust respiratory diseases based on space input for samples (rats, etc.)

-Establishment of a test environment for the effect of exposure to fine dust in the test space according to sample input

-Sample input-based fine dust distribution, testing by concentration, exposure time, and data set construction and analysis

-Skin attachment method, fine dust exposure effect test measurement environment design

Sample (rat, etc.) Skin attachment method Fine dust Skin disease impact test environment construction/design

-Establishment of a history data collection system for fine dust exposure environment based on a patch-type sample attachment method

-Effect test by fine dust concentration and exposure time based on sample skin attachment method and establishment of correlation DB

In the present specification, the present invention has been described centering on limited embodiments, but various embodiments are possible within the scope of the present invention. In addition, although not described, it will be said that an equivalent means is also incorporated in the present invention as it is. Therefore, the true scope of protection of the present invention should be determined by the following claims.

10: contaminant supply chamber 20: clean air supply device
30: controller 40: test chamber
50: fan 60: density sensor
70: monitoring unit 80: data storage unit

Claims (15)

A pollutant supply chamber in which air pollutants are received and supplied;
A clean air supply device for mixing and supplying clean air with the air pollutants;
A controller for controlling the concentration of pollutants in the mixed atmosphere obtained by mixing air pollutants in the pollutant supply chamber and clean air in the clean air supply device;
A test chamber that receives the mixed atmosphere controlled by the controller at an arbitrary pollutant concentration, exposes the experimental animal to the air pollutant, and tests risk under arbitrary experimental conditions;
A concentration sensor for sensing the concentration of air pollution inside the test chamber;
A monitoring unit that monitors the control of the concentration of air pollution inside the test chamber through the data detected by the concentration sensor; And
A data storage unit for storing data transmitted to the monitoring unit;
A system for testing the effect of exposure to fine dust comprising a. The method according to claim 1,
The air pollutant is a system for testing the effects of exposure to fine dust, characterized in that the air pollutant is composed of any one of fine dust, ultra fine dust, and yellow dust, or a mixture containing at least two of the fine dust, ultra fine dust, and yellow dust. . The method according to claim 1,
The clean air supply device includes a filter that catches natural air so as not to contain other types of air pollutants unnecessary for testing, and supplies only clean air that has passed through the filter to the controller. System for testing. The method according to claim 1,
A system for testing the effect of exposure to fine dust, characterized in that it further comprises an automatic circulation device for automatically circulating the mixed atmosphere inside the test chamber. The method of claim 4,
The automatic circulation device includes a fan for circulating air in the test chamber;
An intake port and an exhaust port for inhaling air circulated by the vortex generated by the fan and recirculating it in the test chamber; And
And a connection pipe connecting the intake port and the exhaust port to communicate with each other. The method of claim 5,
The fan is installed at the top and bottom of the test chamber,
The intake and exhaust ports are installed in the upper and lower portions of the test chamber in which the fan is installed,
Fine dust exposure, characterized in that air pollutants collected on the floor by the upper fan are sucked into the connection pipe connected to the lower fan and automatically recirculated, thereby adjusting the concentration so that the air pollutants are evenly distributed in the space inside the test chamber. System for testing impact. The method of claim 6,
In the test chamber, a wire mesh is placed on the floor and a collection unit for collecting feces of the experimental animal is installed under the wire mesh,
A system for testing the effects of exposure to fine dust, characterized in that it prevents contamination of the test environment by feces and applies changes in the feces of experimental animals in the test environment to research. The method according to claim 1,
The concentration sensing sensor is provided with a plurality, and is installed to be positioned at a predetermined interval or at a predetermined height in the inner space of the test chamber,
A system for testing the effect of exposure to fine dust, characterized in that a humidity sensor or a temperature sensor for sensing humidity and temperature in the test chamber is further installed. The method according to claim 1,
An antistatic coating is applied inside the test chamber to prevent dust from adhering to the test chamber. The method according to claim 1,
A system for testing the effect of exposure to fine dust, characterized in that the correlation data is established by testing the effect of each concentration and exposure time in an air pollutant exposure environment based on a patch-type sample attachment method attached to the skin of the experimental animal. . A control step of controlling the mixed atmosphere obtained by mixing the air pollutants in the pollutant supply chamber and the clean air from the clean air supplying device to an arbitrary pollution concentration by the controller;
A supply step of supplying the mixing atmosphere controlled by the controller to an arbitrary contamination concentration into the test chamber;
A test step of exposing the experimental animal to the air pollutant in the test chamber to test the risk under arbitrary experimental conditions;
A sensing step of detecting the concentration of air pollution inside the test chamber using a plurality of concentration sensors;
A monitoring step of monitoring air pollution concentration control inside a test chamber through data detected by the concentration sensor; And
An automatic circulation step for automatically circulating the mixing atmosphere inside the test chamber;
Control method for testing the effect of exposure to fine dust, characterized in that it comprises a. The method of claim 11,
In the monitoring step, the data detected by the concentration sensor is monitored by adjusting the fan speed of the test chamber using a computer or tablet, and adjusting the air pollutant input rate in the pollutant supply chamber to control the pollution concentration inside the test chamber. Control method for testing the effect of exposure to fine dust, characterized in that. The method of claim 11,
In the automatic circulation step, air pollutants collected on the floor by a fan in the upper part of the test chamber are sucked into a connection pipe connected to the lower fan and automatically recirculated, thereby adjusting the concentration so that the air pollutants are evenly distributed in the space inside the test chamber. Control method for testing the effect of exposure to fine dust, characterized in that. The method of claim 11,
In the test step, the effect of exposure to fine dust, characterized in that the effect of each concentration and exposure time in an air pollutant exposure environment based on a patch-type sample attachment method attached to the skin of an experimental animal is tested to establish correlation data. Control method to do. The method of claim 11,
The experimental conditions in the test step include the type of air pollutant, the concentration of the air pollutant, the exposure time due to the inflow of the air pollutant, or the unexposure time due to the non-inflow of the air pollutant,
A control method for testing the effect of exposure to fine dust, characterized in that data is obtained by performing the experimental conditions step by step.

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