KR20200031313A - Iot-based fine dust reduction System and Method - Google Patents

Abstract

The present invention relates to an IoT-based fine dust reduction system and a reduction method thereof. More specifically, the IoT-based fine dust reduction system comprises: a measurement unit for measuring an atmospheric condition; a monitoring unit for displaying information related to the atmospheric condition measured by the measurement unit; a capturing unit for capturing fine dust in the atmosphere; a collection unit for generating a collection signal in accordance with the amount of fine dust captured by the capturing unit; and a main control unit for transferring a measurement value of the measurement unit to the monitoring unit, controlling operation of the capturing unit based on the measurement value of the measurement unit, and selectively generating the collection signal in accordance with the capturing amount.

Description

IoT-based fine dust reduction system and method

The present invention relates to an IoT-based fine dust reduction system and a reduction method, which accurately measures the amount of fine dust in the air and can check the measured amount of fine dust in real time, and the measured amount of fine dust is a reference amount. When exceeding, the present invention relates to an IoT-based fine dust reduction system and a reduction method that collects fine dust and transmits a collection signal to a fine dust collection organization when the amount of collected fine dust exceeds a reference amount.

Environmental, ecological, and health problems due to fine dust have emerged as a major problem. Especially, the smaller the size of the dust, the more likely it is to cause an explosion and precipitation in the human body. Is becoming. As an example, looking at the Republic of Korea Patent No. 10-1243645, attached to the MEMS sensor unit and the MEMS sensor unit for adsorbing fine dust using electrostatic force, the drive unit resonating the MEMS sensor unit and the adsorption by the MEMS sensor unit Disclosed is a technique for detecting fine dust, including an optical interferometer for detecting the mass of the fine dust using displacement of the sensor due to fine dust. Using this, it is possible to detect fine dust in real time, and a device for measuring fine dust can be miniaturized to increase mobility. However, it takes a lot of time to measure fine dust, and it must be measured manually. In addition, there is a problem that the measured information cannot be monitored in real time.

Korea Registered Patent No. 10-1243645 (2011.02.10)

Therefore, the present invention was devised to solve the problems of the prior art as described above, and has an object to enable automatic real-time monitoring by measuring the amount of fine dust and transmitting the measured information.

In addition, the present invention has an object to be able to automatically reduce fine dust by operating the collection unit based on the measured information.

In addition, the present invention has an object to be able to measure the precise amount of fine dust in the space by measuring the fine dust and displaying the measured information by directly installing it in a space where a person is not living in a high altitude sky. .

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems to be solved by the present invention not mentioned herein are described below to those skilled in the art to which the present invention pertains. It will be clearly understood.

In the IoT-based fine dust reduction system according to an exemplary embodiment of the present invention, a measurement unit for measuring the atmospheric state and a monitoring unit for displaying information on the atmospheric state measured by the measurement unit and the fine dust in the atmosphere The collection part for collecting and the collection part generating a collection signal according to the amount of fine dust collected by the collection part and the measurement value of the measurement part are transmitted to the monitoring part, and the collection part is operated based on the measurement value of the measurement part It characterized in that it comprises a main control unit for controlling, and selectively generating the collection signal according to the amount of collection.

In addition, the measuring unit according to an embodiment of the present invention, characterized in that it comprises a fine dust sensor for measuring the fine dust of the atmosphere by light scattering the atmosphere and a temperature and humidity sensor for measuring the temperature and humidity of the atmosphere do.

In addition, the monitoring unit according to a preferred embodiment of the present invention, the display unit for displaying the measured value related to the standby state measured through the measuring unit and transmitting the measured value to the air environment information management server and air environment information terminal It characterized in that it comprises a first communication module for.

In addition, the collecting unit according to an exemplary embodiment of the present invention is characterized in that it comprises a collecting driving unit for collecting fine dust and a collecting driving motor providing driving force for the operation of the collecting driving unit.

In addition, the collection unit according to a preferred embodiment of the present invention, when the weight measurement sensor for measuring the weight of the fine dust collected in the collection driving unit and the measurement value by the weighing sensor exceeds the reference weight In, it characterized in that it comprises a second communication module for transmitting the collection signal required to the collection management server and the collection information terminal.

In addition, in the IoT-based fine dust reduction method according to an exemplary embodiment of the present invention, when the temperature and humidity of the air are measured by the temperature and humidity sensor and the humidity measured in the temperature and humidity measurement step is less than the reference humidity Only, by the fine dust sensor, the fine dust measurement step in which the fine dust state is measured by light scattering the atmosphere, and by the main control unit, the capture driving motor for collecting fine dust according to the measured value in the fine dust measurement step And a variable control capture step in which the output is controlled to be variably driven.

By means of solving the above problems, the IoT-based fine dust reduction system and reduction method of the present invention have an effect of automatically measuring the amount of fine dust and transmitting the measured information to be monitored in real time.

In addition, the present invention is effective in reducing fine dust automatically by operating the collecting part based on the measured information.

In addition, the present invention can measure the exact amount of fine dust in the space by measuring the fine dust and displaying the measured information by directly installing it in a space where a person is not living in a high altitude airspace.

1 is a view showing the configuration of an IoT-based fine dust reduction system and a reduction method according to an exemplary embodiment of the present invention.
2 shows a flow chart of an IoT-based fine dust reduction system and reduction method according to a preferred embodiment of the present invention.
3 is a perspective view of an IoT-based fine dust reduction system and a reduction method according to an exemplary embodiment of the present invention.

Terms used in the present specification will be briefly described, and the present invention will be described in detail.

The terminology used in the present invention was selected from the general terms that are currently widely used while considering the functions in the present invention, but this may vary according to the intention or precedent of a person skilled in the art or the appearance of new technologies. Therefore, the terms used in the present invention should be defined based on the meanings of the terms and the contents of the present invention, not simply the names of the terms.

When a certain part of the specification “includes” a certain component, this means that other components may be further included instead of excluding the other component, unless specifically stated to the contrary.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains may easily practice. However, the present invention can be implemented in many different forms and is not limited to the embodiments described herein.

The problems to be solved for the present invention, the means for solving the problems, and specific matters including the effects of the invention are included in the following embodiments and drawings. Advantages and features of the present invention, and methods for achieving them will be clarified with reference to embodiments described below in detail together with the accompanying drawings.

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

The IoT-based fine dust reduction system and reduction method according to an exemplary embodiment of the present invention, with reference to FIGS. 1 to 3, are measured by the measuring unit 100 and the measuring unit 100 for measuring a standby state. Monitoring unit 200 for displaying the information on the standby state, and collecting unit 300 for collecting fine dust in the atmosphere and generating a collection signal according to the amount of fine dust collected by the collecting unit 300 Transfer the measurement value of the collection unit 400 and the measurement unit 100 to the monitoring unit 200, and controls the operation of the collection unit 300 based on the measurement value of the measurement unit 100, It includes a main control unit 500 for selectively generating the collection signal according to the capture amount.

First, the measurement unit 100 is provided. The measuring unit 100 includes a fine dust sensor 110 for measuring the fine dust in the atmosphere by light scattering the atmosphere and a temperature and humidity sensor 120 for measuring the temperature and humidity of the atmosphere. In more detail, the fine dust sensor 110 is a light scattering method, and measures the fine dust by using diffraction, refraction, and reflection characteristics as the laser light passes through the fine dust.

Next, the monitoring unit 200 is provided. The monitoring unit 200 includes a display unit 210 for displaying the measured values related to the standby state measured through the measuring unit 100, and the atmospheric environment information management server 710 and the atmospheric environment information terminal ( 420) includes a first communication module 220 for transmission. The display unit 210, for example, includes a display such as an LED that can display the measured value in real time at the measurement site.

Next, the collecting part 300 is provided. The collecting unit 300 includes a collecting driving unit 310 in which fine dust is collected, and a collecting driving motor 320 that provides driving force for the operation of the collecting driving unit 310. The collecting part 300 includes, for example, a multi-cyclone collecting device capable of semi-permanently collecting fine dust without a filter replacement.

Next, the collection part 400 is provided. Wherein the collection unit 400 is the weight measurement sensor 410 for measuring the weight of the fine dust collected in the collection drive unit 310 and the measurement value by the weight measurement sensor 410 exceeds the reference weight In, a second communication module 420 for transmitting a collection signal to the collection agency management server 730 and the collection information terminal 740. That is, if the value measured by the weighing sensor 410 is less than the reference weight, the second communication module 420 does not operate, and if the measured value exceeds the reference weight, the collection unit 400 ) To remove the fine dust stored in the collection engine management server and the collection information terminal to transmit the required signal.

Next, the main control unit 500 is provided. The main control unit 500 transmits the data measured by the measurement unit 100 to the monitoring unit 200, so that the monitoring unit 200 can display the measured data. As an example, the measured data may be transmitted and displayed on a display composed of a visual device such as an LED. In addition, the measured data may be transmitted to the atmospheric environment information management server 710 and then transmitted from the atmospheric environment information management server 710 to the atmospheric environment information terminal 420 such as a smart phone app and displayed. have.

In addition, the main control unit 500 controls the operation of the collecting unit 300 based on the measured value of the measuring unit 100, and selectively generates the collection signal according to the collecting amount. That is, when the measurement value received from the measurement unit 100 exceeds the reference value, the main control unit 500 controls the collection unit 300 to operate. In addition, the main control unit 500 may control the degree of collection by controlling the collection driving motor 320 according to the measurement value received from the measurement unit 100. For example, when the amount of fine dust measured by the fine dust sensor 110 exceeds an appropriate amount of fine dust, the output of the capture driving motor 320 is controlled to be maximized.

Next, in the IoT-based method for reducing fine dust, the temperature and humidity measurement step of measuring the temperature and humidity of the air by the temperature and humidity sensor 120, and only when the humidity measured in the temperature and humidity measurement step is less than the reference humidity, the fine dust sensor ( By 110), the fine dust measurement step in which the fine dust state is measured by light scattering the atmosphere, and the main control unit 500 collects a driving motor for collecting fine dust according to the measured value in the fine dust measurement step ( 320) includes a variable control capture step in which the output is controlled to be variably driven.

Referring to FIG. 2, first, the temperature and humidity measurement step is a step in which the main control unit 500 determines whether the humidity in the air is equal to or lower than the reference humidity according to a set condition (S2), that is, the main control unit 500 Determines whether the humidity value in the air measured by the temperature and humidity sensor 120 is equal to or less than the reference humidity. The reference humidity is, for example, the fine dust sensor 110 refers to the ratio of humidity in the air that cannot be accurately measured. When the main control unit 500 determines that the humidity value in the air measured by the temperature and humidity sensor 120 is equal to or less than the reference humidity, the fine dust measurement step is performed. (S3) That is, the fine dust measurement step is the The main control unit 500 is a step of operating the fine dust sensor 110 by determining that the humidity value in the air measured by the temperature and humidity sensor 120 is equal to or less than the reference humidity. Next, the variable control collecting step is controlled by the main control unit 500 such that the output of the collecting driving motor 320 for collecting fine dust is variably driven according to the measured value measured in the fine dust measuring step. It is a step. That is, after performing the fine dust measurement step, the main control unit 500 drives the capture driving motor 320 when the value measured by the fine dust sensor 110 exceeds a set reference value. ( S4) At this time, the output of the capture driving motor 320 may be adjusted according to the degree of excess of the reference value. Next, the collecting driving motor 320 is driven to collect fine dust in the air. (S5)

Next, when the main control unit 500 determines that the humidity value in the air measured by the temperature / humidity sensor 120 exceeds the reference humidity, it is terminated without performing the fine dust measurement step and the variable control capture step. .

Next, referring to FIG. 3, it is preferable that a power supply unit (not shown) for supplying power to the monitoring unit 200, the collection unit 300, and the collection unit 400 is provided. The power supply unit (not shown) is, for example, a photovoltaic generator 600 or a power generator such as a wind power generator (not shown) is provided, the monitoring unit 200 and the collecting unit 300 and the collecting unit ( 400) can be configured to supply power. In addition, the power supply unit (not shown) may receive power from outside, such as KEPCO, to supply power to the monitoring unit 200, the collecting unit 300, and the collecting unit 400.

As described above, it will be understood that the above-described technical configuration of the present invention can be implemented in other specific forms by those skilled in the art to which the present invention pertains without changing the technical spirit or essential characteristics of the present invention.

Therefore, the above-described embodiments are to be understood in all respects as illustrative and not restrictive, and the scope of the present invention is indicated by the following claims rather than the above detailed description, and the meaning and scope of the claims It should be construed that any altered or modified form derived from the equivalent concept is included in the scope of the present invention.

100: measuring unit
110: fine dust sensor
120: temperature and humidity sensor
200: monitoring unit
210: display unit
220: first communication module
300: collecting part
310: collection driving unit
320: Capture drive motor
400: collection part
410: weighing sensor
420: second communication module
500: main control unit
600: solar power generator
710: Atmospheric environment information management server
720: Atmospheric environment information terminal
730: Collection Institution Management Server
740: Terminal for monitoring collection information

Claims (6)

Measurement unit for measuring the standby state;
A monitoring unit for displaying information on the standby state measured by the measuring unit;
A collecting unit for collecting fine dust in the atmosphere;
A collection unit generating a collection signal according to the amount of fine dust collected by the collection unit; And
And a main control unit which transmits the measurement value of the measurement unit to the monitoring unit, controls the operation of the collection unit based on the measurement value of the measurement unit, and selectively generates the collection signal according to the collection amount. IoT-based fine dust reduction system. According to claim 1,
The measuring unit,
A fine dust sensor for measuring fine dust in the atmosphere by light scattering; And a temperature / humidity sensor for measuring the temperature and humidity of the atmosphere. According to claim 1,
The monitoring unit,
A display unit for displaying a measured value related to the standby state measured through the measuring unit; And
And a first communication module for transmitting the measured values to the air environment information management server and air environment information terminal. According to claim 1,
The collecting unit,
A collection driving unit for collecting fine dust; And
And a collection driving motor that provides driving force for the operation of the collection driving unit. According to claim 1,
The collection unit,
A weighing sensor that measures the weight of the amount of fine dust collected in the collecting driving unit; And
And a second communication module for transmitting a collection required signal to a collection agency management server and a collection information terminal when the measurement value by the weighing sensor exceeds a reference weight. Abatement system. A temperature and humidity measurement step in which the temperature and humidity of the atmosphere are measured by the temperature and humidity sensor;
A fine dust measurement step in which the state of fine dust is measured by light scattering the atmosphere by a fine dust sensor only when the humidity measured in the temperature and humidity measurement step is less than a reference humidity; And
And a variable control collecting step controlled by the main control unit so that the output of the collecting driving motor for collecting fine dust is variably driven according to the measured value measured in the fine dust measuring step. Method for reducing fine dust.

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