KR102227081B1 - Intelligent Management System for Fine Dust Using Blockchain Technology - Google Patents

Abstract

The present invention relates to an intelligent fine dust managing system using blockchain technology, which has low costs for installation, measures fine dust around a place where a user lives, displays a calculated fine dust concentration value to a user as a color, removes the fine dust on the basis of the calculated fine dust concentration value, forms the calculated fine dust concentration value and location information as big data with blockchain technology to store and manage the same, and provides the stored big data for a national institution terminal to reduce fine dust. The intelligent fine dust managing system comprises first to N^th fine dust information providing means (102-1 to 102-N) installed at a constant distance from a management server (82) to receive a fine dust measurement command signal from the management server (82), measuring fine dust of a region in accordance with the received fine dust measurement command signal to calculate a fine dust concentration value of the region on the basis of the measured fine dust, and transmitting the calculated fine dust concentration value of the region and location information to the management server (82).

Description

Intelligent Management System for Fine Dust Using Blockchain Technology}

The present invention relates to an intelligent management system for fine dust using a blockchain technology, and more particularly, it measures fine dust around the user's living area while the installation cost is low, and displays the color to the user according to the calculated fine dust concentration value. At the same time, it removes fine dust based on the calculated fine dust concentration value, converts the calculated fine dust concentration value and location information into big data with blockchain technology, stores and manages it, and provides the stored big data to the national institutional terminals. It relates to an intelligent management system for fine dust using blockchain technology that helps to reduce fine dust by doing so.

Accordingly, the present invention relates to a fine dust intelligent management system using a block chain technology that enables rapid response to fine dust by region and location.

In general, fine dust in the air is monodispersely distributed with a particle diameter of 01㎛ to 10㎛ and has various kinds of chemical composition, as it directly or indirectly affects the human body and causes damage such as damage to animals and plants and deterioration of visibility. The Meteorological Administration provides real-time fine dust concentration figures along with weather forecasts.

Representative examples of fine dust measurement methods include a filter paper method, a beta-ray absorption method (BAM), and a tapered element oscillation microbalance mass measurement method (TEOM).

However, in order to implement the conventional fine dust measurement, an expensive measuring device must be operated and each measuring device must be provided at each location where fine dust measurement is required, so there is a problem that the cost of establishing a system for measuring fine dust becomes excessive. .

In addition, since images captured by CCTV used for traffic or crime prevention in the past were only used to implement unique functions such as traffic volume measurement, unmanned enforcement or personal protection, the utilization of image data acquired from expensive image systems is poor. I did.

In order to solve the above problem, it has been applied to the Korean Intellectual Property Office on September 01, 2016 with application number 10-2016-0112541 (name of the invention: fine dust concentration measuring device and fine dust concentration measuring system). Referring to the claims, "the image input unit 110 for obtaining image data photographed from the camera unit 10 installed outdoors; a current image frame (an) for each image frame (a) included in the image data, and The difference image data (A) is extracted by comparing the previous image frame (an-1), and the pixel value data of each image frame (a) is extracted by image analysis of the image data, and the previous image frame (an- A difference image extracting unit 120 for extracting the remaining pixel value data as the difference image data A by subtracting the pixel value data of the current image frame an from the pixel value data of 1); And each extracted difference image Acquired by collecting data, the extracted difference image data (A) is collected for each period, and each pixel value data of the collected difference image data (A) is integrated to calculate the average pixel value data for each period. And a fine dust calculation unit 130 for calculating a fine dust concentration value by comparing measurement data obtained from the calculated average pixel value data with preset fine dust calculation reference data.

However, the conventional fine dust concentration measuring apparatus and the fine dust concentration measuring system described above only serve to inform the user of the fine dust concentration, and thus, there is a problem in that it is not possible to quickly cope with fine dust by region and location.

Accordingly, the present invention is an improved invention to solve all the problems according to the prior art, and an object of the present invention is to measure the fine dust around the user living in an inexpensive installation cost and calculate the calculated fine dust concentration value. According to this, the color is displayed to the user, and fine dust is removed based on the calculated fine dust concentration value, and the calculated fine dust concentration value and location information are converted into big data with blockchain technology, stored and managed, and stored big data. The goal is to provide an intelligent management system for fine dust using blockchain technology that helps reduce fine dust by providing it to national institutional terminals, and to quickly respond to fine dust by region and location.

However, the object of the present invention is not limited to the above-mentioned object, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

The intelligent fine dust management system using the blockchain technology according to the present invention to achieve the above object,

Installed inside the remote site, but with the first, second, third, ..., N-th fine dust information providing means (102-1) (102-2) (102-3) ... (102-N) In addition to sending the fine dust measurement command signal, the first, second, third, ..., Nth fine dust information providing means (102-1) (102-2) (102-3) ... (102- Receives the fine dust concentration value and location information of the region calculated from N), and converts and stores the received fine dust concentration value and location information of the region into big data using blockchain technology, and stores the first, second, third, and ···, the fine dust concentration value and location information of the area calculated by the N-th building interior fine dust monitoring and removal means (84-1) (84-2) (84-3) ... (84-N) In addition to sending, fine dust monitoring and removal means inside the 1st, 2nd, 3rd, ..., Nth buildings (84-1) (84-2) (84-3) ... (84-N) Receives the concentration value and location information of fine dust inside the building from which the dust has been removed, converts the received concentration value and location information of the fine dust inside the building into big data and stores it, A management server 82 that transmits the data-stored fine dust concentration value and location information of the area, and the fine dust concentration value and location information inside the building from which the fine dust has been removed;

It is installed at a certain distance from the management server 82, receives a fine dust measurement command signal from the management server 82, measures the fine dust in the area according to the received fine dust measurement command signal, and measures the measured fine dust. The first, second, third, ..., Nth fine dust that calculates the fine dust concentration value of the region based on the calculation and sends the calculated fine dust concentration value and location information of the region to the management server 82 Information providing means 102-1, 102-2, 102-3, 102-N;

It is installed on one side inside the building at a certain distance from the management server 82, receives the concentration value and location information of the fine dust of the area from the management server 82, displays the received location information, and displays the concentration value of the fine dust of the area. In addition to displaying the color to the user according to the result, after comparing the received concentration value of the fine dust in the area with the preset fine dust concentration value, if the received concentration value of the fine dust in the area is greater than the preset fine dust concentration value, the building 1st, 2nd, 3rd, ..., Nth building interior fine dust monitoring and removal means that removes fine dust located inside and sends the removed fine dust concentration value and location information to the management server 82 (84-1)(84-2)(84-3)...(84-N) and;

A certain distance from the first, second, third, ..., Nth building internal fine dust monitoring and removing means (84-1) (84-2) (84-3) ... (84-N) It is installed at one side inside the building of the state institution and receives the concentration value and location information of the fine dust inside the building from which the fine dust has been removed, as well as the concentration value and location information of the fine dust inside the building from the management server 82 that has been saved as big data using blockchain technology. It includes a national agency terminal 86 that helps to reduce fine dust by analyzing the received big data.

As described above, the intelligent fine dust management system using the blockchain technology according to the present invention has an effect of low installation cost, and measures the fine dust around the user's living area, and according to the calculated fine dust concentration value, the user By displaying in color to the user, there is an effect that the user can quickly cope with fine dust.

In addition, the present invention has the effect of promoting the health of the user by removing the fine dust in real time by the fine dust removing means based on the calculated fine dust concentration value.

In particular, the present invention has the effect of helping to reduce fine dust by converting the calculated fine dust concentration value and location information into big data using blockchain technology, storing and managing it, and providing the stored big data to a national institutional terminal. .

In addition, the present invention has an effect of quickly coping with fine dust by region and location based on the calculated concentration value of fine dust and location information.

1 is a schematic configuration diagram of a fine dust concentration measuring apparatus according to the prior art,
2 is a schematic configuration diagram of a fine dust intelligent management system using a block chain technology according to the present invention,
Figure 3 is a schematic configuration diagram of the management server of Figure 2,
4 is a schematic configuration diagram of the first, second, third, ..., Nth fine dust information providing means of FIG. 2;
5 is a schematic configuration diagram of a means for monitoring and removing fine dust inside the first, second, third, ..., Nth building of FIG. 2;
6 is a schematic configuration diagram of the fine dust concentration display means of FIG. 5;
7 is a schematic configuration diagram of the fine dust removing means of FIG. 5;
8 is a view displayed by the fine dust concentration display means of FIG. 5;
9 is a view of the main part of FIG.

Hereinafter, a preferred embodiment of the intelligent fine dust management system using the blockchain technology according to the present invention will be described.

In the following description of the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

2 is a schematic configuration diagram of a fine dust intelligent management system using a block chain technology according to the present invention, FIG. 3 is a schematic configuration diagram of the management server of FIG. 2, and FIG. , 3rd, ..., is a schematic configuration diagram of the Nth fine dust information providing means, Figure 5 is the first, second, third, ..., Nth building internal fine dust monitoring and removing means of Figure 2 6 is a schematic configuration diagram of the fine dust concentration display means of FIG. 5, and FIG. 7 is a schematic configuration diagram of the fine dust removing means of FIG. 5.

As shown in FIGS. 2 to 7, the intelligent fine dust management system 80 using the blockchain technology according to the present invention,

Installed inside the remote site, but with the first, second, third, ..., N-th fine dust information providing means (102-1) (102-2) (102-3) ... (102-N) In addition to sending the fine dust measurement command signal, the first, second, third, ..., Nth fine dust information providing means (102-1) (102-2) (102-3) ... (102- Receives the fine dust concentration value and location information of the region calculated from N), and converts and stores the received fine dust concentration value and location information of the region into big data using blockchain technology, and stores the first, second, third, and ···, the fine dust concentration value and location information of the area calculated by the N-th building interior fine dust monitoring and removal means (84-1) (84-2) (84-3) ... (84-N) In addition to sending, fine dust monitoring and removal means inside the 1st, 2nd, 3rd, ..., Nth buildings (84-1) (84-2) (84-3) ... (84-N) Receives the concentration value and location information of fine dust inside the building from which the dust has been removed, converts the received concentration value and location information of the fine dust inside the building into big data and stores it, A management server 82 that transmits the data-stored fine dust concentration value and location information of the area, and the fine dust concentration value and location information inside the building from which the fine dust has been removed;

It is installed at a certain distance from the management server 82, receives a fine dust measurement command signal from the management server 82, measures the fine dust in the area according to the received fine dust measurement command signal, and measures the measured fine dust. The first, second, third, ..., Nth fine dust that calculates the fine dust concentration value of the region based on the calculation and sends the calculated fine dust concentration value and location information of the region to the management server 82 Information providing means 102-1, 102-2, 102-3, 102-N;

It is installed on one side inside the building at a certain distance from the management server 82, receives the concentration value and location information of the fine dust of the area from the management server 82, displays the received location information, and displays the concentration value of the fine dust of the area. In addition to displaying the color to the user according to the result, after comparing the received concentration value of the fine dust in the area with the preset fine dust concentration value, if the received concentration value of the fine dust in the area is greater than the preset fine dust concentration value, the building 1st, 2nd, 3rd, ..., Nth building interior fine dust monitoring and removal means that removes fine dust located inside and sends the removed fine dust concentration value and location information to the management server 82 (84-1)(84-2)(84-3)...(84-N) and;

A certain distance from the first, second, third, ..., Nth building internal fine dust monitoring and removing means (84-1) (84-2) (84-3) ... (84-N) It is installed at one side inside the building of the state institution and receives the concentration value and location information of the fine dust inside the building from which the fine dust has been removed, as well as the concentration value and location information of the fine dust inside the building from the management server 82 that has been saved as big data using blockchain technology. It includes a national agency terminal 86 that helps to reduce fine dust by analyzing the received big data.

Here, the management server 82,

A management and control unit 90;

A fine dust monitoring app unit 92 that is electrically connected to the management control unit 90 to help a user download a fine dust monitoring app;

The first, second, third, ..., N-th fine dust information providing means (102-1) (102-2) (102-3) ...( In addition to sending a fine dust measurement command signal to 102-N), the first, second, third, ..., Nth fine dust information providing means (102-1) (102-2) (102-3) Receives the area's fine dust concentration value and location information calculated from (102-N), and receives the first, second, third, ..., N-th interior fine dust monitoring and removal means (84-1) )(84-2)(84-3)...(84-N), the concentration of fine dust in the area and location information are sent, as well as the 1st, 2nd, 3rd, ..., and Receives the concentration value and location information of the fine dust inside the building from which the fine dust has been removed from the N-building internal fine dust monitoring and removing means (84-1) (84-2) (84-3) ... (84-N), A management and communication unit 94 that transmits the concentration value and location information of fine dust in the area stored as big data using a block chain technology to the national institution terminal 86, and the concentration value and location information of the fine dust inside the building from which the fine dust has been removed;

In addition to being electrically connected to the management control unit 90 and electrically connected to the management communication unit 94, the concentration value and location of the fine dust in the area received from the management communication unit 94 according to the control signal of the management control unit 90 A block chain unit 96 that converts information into big data using block chain technology, and converts the fine dust concentration value and location information inside the building into big data using block chain technology;

It is electrically connected to the management control unit 90 and receives the local fine dust concentration value and location information received from the management communication unit 94 according to the control signal of the management control unit 90, and the fine dust concentration value and location information inside the building. It includes a display unit 98 for displaying to an administrator.

Here, the management server 82 further includes a fine dust concentration value calculation unit (not shown).

The fine dust concentration calculation unit calculates a concentration value of fine dust inside the building based on the measured value of fine dust inside the building received according to a control signal from the management control unit 90, and calculates the concentration value of the fine dust inside the building. ).

The first, second, third, ..., Nth fine dust information providing means (102-1) (102-2) (102-3) ... (102-N),

A first control unit 108;

It is electrically connected to the first control unit 108 to receive a fine dust measurement command signal from the management server 82, and the fine dust concentration value and location information of the region calculated according to the control signal of the first control unit 108 A first IoT communication module 110 for sending a message to the management server 82;

A fine dust measurement sensor that is electrically connected to the first control unit 108, measures fine dust in the area according to the control signal of the first control unit 108, and sends the measured fine dust measurement value to the fine dust concentration value calculation unit ( 112) and;

The area is electrically connected to the first control unit 108 to calculate the fine dust concentration value of the area based on the measurement value of the fine dust of the area received according to the control signal from the first control unit 108, and the calculated area And a fine dust concentration value calculating unit 114 that transmits the fine dust concentration value of the first IoT communication module 110 to the first IoT communication module 110.

The first, second, third, ..., Nth building internal fine dust monitoring and removing means (84-1) (84-2) (84-3) ... (84-N),

It is installed inside the building and receives the concentration value and location information of the fine dust of the area from the management server 82, displays the received location information, and displays the color to the user according to the concentration value of the fine dust of the area. A fine dust concentration display means 104 for sending the fine dust concentration value of the area to the fine dust removing means;

A predetermined distance from the fine dust concentration display means 104 is positioned to be movable or fixed on one side of the building to receive the fine dust concentration value of the region from the fine dust concentration display means 104 and receive the After comparing the fine dust concentration value with the preset fine dust concentration value, if the received fine dust concentration value in the area is greater than the preset fine dust concentration value, the fine dust located inside the user's building is removed, and the inside of the removed building It includes a fine dust removing means 106 for sending the fine dust concentration value and location information to the management server 82.

On the other hand, the fine dust concentration display means 104,

A second control unit 116;

It is electrically connected to the second control unit 116 and sends a fine dust measurement command signal to the fine dust information providing unit 102 according to the control signal of the second control unit 116, and A second IoT communication module 118 that receives the local fine dust concentration value and location information, and sends the received fine dust concentration value of the region to the fine dust removing means 106;

Fine dust information that is electrically connected to the second control unit 116 and displays the location of the fine dust information providing means 102 on a map based on the location information received according to the control signal of the second control unit 116 A providing means location display unit 120;

Steps electrically connected to the second control unit 116 to give the user a color of good, normal, bad, or very bad according to the density value of the fine dust in the area received according to the control signal from the second control unit 116 It includes a density value color display unit 122 that displays as.

Here, the fine dust concentration display means 104 may be an advertisement TV, an electronic signboard, or a TV.

The fine dust removing means 106,

A third control unit 124;

A third IoT communication module 126 electrically connected to the third control unit 124 to receive a fine dust concentration value of the region from the fine dust concentration display means 104;

After comparing the fine dust concentration value of the region, which is electrically connected to the third control unit 124 and received according to the control signal of the third control unit 124, with a preset fine dust concentration value, A first driving unit 128 for driving the suction driving motor when the dust concentration value is greater than the preset fine dust concentration value;

And a suction drive motor 130 that is electrically connected to the first driving unit 128 and sucks and removes fine dust located inside the building according to the driving of the first driving unit 128.

A filter unit (not shown) is installed inside the suction drive motor 130.

On the other hand, the fine dust removing means 106 is a movement check unit (not shown), a second driving unit (not shown), a wheel (not shown), an object detection sensor (not shown), a wheel It further includes an axial conversion unit (not shown) and a fine dust measurement sensor (not shown).

The movement confirmation unit is electrically connected to the third control unit 124 to confirm a key input when a user inputs a key.

The second driving unit is electrically connected to the third control unit 124 to drive the wheel according to a control signal from the third control unit 124 when a key is input to the movement confirmation unit.

The wheel is installed on one side of the bottom of the fine dust removing means, is connected to the second driving unit, and moves the fine dust removing unit according to the driving of the second driving unit.

The object detection sensor is electrically connected to the third control unit 124 and detects an object according to a control signal from the third control unit 124.

The wheel shaft direction switching unit (not shown) is connected to the wheel and is electrically connected to the third control unit 124 to change the wheel axis direction according to a control signal from the third control unit 124 when an object is detected. Or reverse or to the left or to the right).

The fine dust measurement sensor (not shown) is electrically connected to the third control unit 124 to measure fine dust inside the building and transmits the measured fine dust measurement value to the third control unit 124.

The installation process and operation of the intelligent fine dust management system 80 using the blockchain technology according to the present invention included as described above will be described as follows.

here. The installation process of the intelligent fine dust management system 80 using the blockchain technology according to the present invention can be changed as much as possible depending on the installer.

First, after installing a management server 82 including a management control unit 90, a fine dust monitoring app unit 92, a management communication unit 94, a block chain unit 96, and a display unit 98 at a remote location, the management server A national agency terminal (86) is installed in the state agency at a certain distance from (82).

And, the first, including a first control unit 108, a first IoT communication module 110, a fine dust measurement sensor 112 and a fine dust concentration value calculation unit 114 at a certain distance from the management server 82, The second, third, ..., Nth fine dust information providing means (102-1) (102-2) (102-3) ... (102-N) are installed.

And, a predetermined distance from the first, second, third, ..., N-th fine dust information providing means (102-1) (102-2) (102-3) ... (102-N) The first, second, third, ..., N-th interior fine dust monitoring and removal means (84-1) including the fine dust concentration display means 104 and the fine removal means 106 on one side of the user's building. Install )(84-2)(84-3)...(84-N).

The fine dust concentration display unit 104 includes a second control unit 116, a second IoT communication module 118, a fine dust information providing unit location display unit 120, and a concentration value color display unit 122.

The fine dust removing means 106 includes a third control unit 124, a third IoT communication module 126, a first driving unit 128, a suction driving motor 130, and a filter unit.

In addition, the fine dust removing means 106 is a movement check unit (not shown), a second driving unit (not shown), a wheel (not shown), an object detection sensor (not shown), a wheel It further includes an axial conversion unit (not shown) and a fine dust measurement sensor (not shown).

Here, the fine dust removing means 106 may be an air purifier or an air conditioner.

When the installation of the intelligent fine dust management system 80 using the blockchain technology according to the present invention is completed as described above,

First, the management control unit 90 sends a fine dust measurement command signal to measure the fine dust in the area to the management communication unit 94.

In addition, the management communication unit 94 transmits the fine dust measurement command signal to the first, second, third, ..., N-th fine dust information providing means (102-1) (102-2) (102-3) It is sent to the first IoT communication module 110 of (102-N).

In addition, the first IoT communication module 110 transmits the received fine dust measurement command signal to the first control unit 108.

The first control unit 108 transmits a control signal to the fine dust measurement sensor 112.

In addition, the fine dust measurement sensor 112 measures fine dust in the area according to the control signal of the first control unit 108 and transmits the measured fine dust measurement value to the fine dust concentration value calculating unit 114.

In addition, the fine dust concentration value calculating unit 114 calculates the fine dust concentration value of the region based on the fine dust measurement value of the region received according to the control signal of the first control unit 108, The local fine dust concentration value is sent to the first IoT communication module 110.

And, the first IoT communication of the first, second, third, ..., N-th fine dust information providing means (102-1) (102-2) (102-3) ... (102-N) The module 110 transmits the fine dust concentration value and location information of the region received according to the control signal of the first control unit 108 to the management communication unit 94.

In addition, the management communication unit 94 is the first, second, third, ..., N-th fine dust information providing means (102-1) (102-2) (102-3) ... (102- The concentration value and location information of the fine dust of the area received from N) are sent to the management and control unit 90.

In addition, the management control unit 90 transmits a control signal to the block chain unit 96.

In addition, the block chain unit 96 is the first, second, third, ..., N-th fine dust information providing means (102-1) (102-2) according to the control signal of the management control unit (90) (102-3)...The concentration of fine dust and location information of the region received from (102-N) is converted into big data by region and location using blockchain technology, and the concentration of fine dust by region and location is converted into big data. Is sent to the management and control unit 90.

In addition, the management and control unit 90 transmits the fine dust concentration value for each region and location to the display unit 98.

In addition, the display unit 98 displays fine dust concentration values for each region and location to the manager according to a control signal from the management control unit 90.

On the other hand, the management and control unit 90 is the first, second, third, ..., N-th fine dust information providing means (102-1) (102-2) (102-3) ... (102- It sends the fine dust concentration value and location information of the area received from N) to the management communication unit 94.

In addition, the management communication unit 94 receives the received fine dust concentration value and location information of the area.

The first, second, third, ..., Nth building interior fine dust monitoring and removing means 84-1, 84-2, including the fine dust concentration display means 104 and the fine removal means 106 84-3) ... is sent to the second IoT communication module 118 of (84-N).

In addition, the second IoT communication module 118 transmits the received fine dust concentration value and location information of the region to the second control unit 116.

The second control unit 116 transmits a control signal to the fine dust information providing means location display unit 120 and the density value color display unit 122.

In addition, the fine dust information providing means location display unit 120 is based on the location information received according to the control signal of the second control unit 116, as shown in Fig. 8, the fine dust information providing means ( 102) It displays the location.

In addition, the density value color display unit 122 displays the density value according to the concentration value of the fine dust in the area received according to the control signal from the second control unit 116 as shown in FIG. 9, as a color good for the user. It displays in normal, bad, and very bad levels.

On the other hand, the second control unit 116 transmits a control signal to the second IoT communication module 118.

In addition, the second IoT communication module 118 transmits, to the third IoT communication module 126, the value of the concentration of fine dust in the region received according to the control signal of the second control unit 116.

In addition, the third IoT communication module 126 transmits the received concentration value of the fine dust in the region to the third control unit 124.

The third control unit 124 transmits a control signal to the first driving unit 128.

In addition, the first driving unit 128 compares the fine dust concentration value of the region received according to the control signal of the third control unit 124 with a preset fine dust concentration value, and then the received fine dust concentration of the region. When the value is greater than the preset fine dust concentration value, the suction drive motor 130 is driven.

The suction drive motor 130 sucks fine dust located inside the user's building as the first drive unit 128 is driven.

Meanwhile, the fine dust removing means 106 further includes a movement check unit, a second driving unit, a wheel, an object detection sensor, a wheel axis direction change unit, a fine dust measurement sensor,

After confirming the user's key input according to the control signal of the third control unit 124, the movement check unit transmits a key input signal to the third control unit 124 when there is a key input.

In addition, the third control unit 124 transmits a control signal to the second driving unit.

In addition, the second driving unit drives the wheel according to a control signal from the third control unit 124.

The wheel is installed on one side of the bottom of the fine dust removing means, and moves the fine dust removing means according to the driving of the second driving unit.

In addition, the third control unit 124 transmits a control signal to an object detection sensor.

In addition, the object detection sensor detects an object according to a control signal from the third control unit 124 and then transmits the detected object detection value to the third control unit 124.

The third control unit 124 compares the detected object detection value with a preset detection value, and then transmits a control signal to the wheel shaft direction switching unit when the detected object detection value is greater than a preset detection value.

In addition, the wheel shaft direction switching unit changes the wheel shaft direction (forward or backward, or to the left or to the right) according to a control signal from the third control unit 124.

In addition, the fine dust measurement sensor (not shown) is electrically connected to the third control unit 124 to measure fine dust inside the building and transmits the measured fine dust measurement value to the third control unit 124.

In addition, the third control unit 124 transmits the measured value of the measured fine dust inside the building to the third IoT communication module 126.

In addition, the third IoT communication module 126 transmits the received measurement value of fine dust inside the building and location information to the management communication unit 94.

In addition, the management communication unit 94 is the first, second, third, ..., Nth building internal fine dust monitoring and removing means (84-1) (84-2) (84-3) ... ( 84-N), the measurement value of fine dust inside the building and location information are sent to the management and control unit 90

In addition, the management server 82 further includes a fine dust concentration value calculation unit (not shown),

The fine dust concentration calculation unit calculates a concentration value of fine dust inside the building based on the measured value of fine dust inside the building received according to a control signal from the management control unit 90, and calculates the concentration value of the fine dust inside the building. ).

In addition, the management control unit 90 transmits a control signal to the block chain unit 96.

In addition, the block chain unit 96 is the first, second, third, ..., Nth building internal fine dust monitoring and removing means (84-1) (84-) according to the control signal from the management control unit (90). 2) The concentration of fine dust inside the building and location information received from (84-3)...(84-N) are converted into big data by region and location using blockchain technology, and the concentration of fine dust by region and location converted into big data The value is sent to the management and control unit 90.

In addition, the management and control unit 90 transmits the fine dust concentration value for each region and location to the display unit 98.

In addition, the display unit 98 displays fine dust concentration values for each region and location to the manager according to a control signal from the management control unit 90.

On the other hand, the management server 82 is the first, second, third, ..., N-th fine dust information providing means (102-1) (102-2) (102-3) ... (102) -N) fine dust concentration value and location information of the region, that is, regional and location-specific big data or first, second, third, ..., Nth building internal fine dust monitoring and removal means (84-1) (84-2)(84-3)...(84-N) The fine dust concentration value and location information inside the building from which the fine dust has been removed, that is, big data for each region and location, are sent to the national agency terminal 86. .

The detailed description of the present invention is merely illustrative of the present invention, and is used only for the purpose of describing the present invention, but not for limiting the meaning or limiting the scope of the present invention described in the claims.

Therefore, those of ordinary skill in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

80: Intelligent fine dust management system using blockchain technology
82: management server
84-1, 84-2, 84-3,..., 84-N: means for monitoring and removing fine dust inside the Nth building
86: National Agency Terminal
90: management and control unit
92: Fine dust monitoring app section
94: Ministry of Management and Communication
96: Blockchain unit
98: display unit
102-1, 102-2, 102-3, ..., 102-N: 1st, 2nd, 3rd, ..., Nth fine dust information providing means
104: fine dust concentration display means
106: fine dust removal means
108: first control unit
110: first IoT communication module
112: fine dust measurement sensor
114: fine dust concentration value calculation unit
116: second control unit
118: 2nd IoT communication module
120: fine dust information providing means location display unit
122: density value color display
124: third control unit
126: 3rd IoT communication module
128: first driving unit
130: suction drive motor

Claims (6)

Installed inside the remote site, but with the first, second, third, ..., N-th fine dust information providing means (102-1) (102-2) (102-3) ... (102-N) In addition to sending the fine dust measurement command signal, the first, second, third, ..., Nth fine dust information providing means (102-1) (102-2) (102-3) ... (102- Receives the fine dust concentration value and location information of the region calculated from N), and converts and stores the received fine dust concentration value and location information of the region into big data using blockchain technology, and stores the first, second, third, and ···, the fine dust concentration value and location information of the area calculated by the N-th building interior fine dust monitoring and removal means (84-1) (84-2) (84-3) ... (84-N) In addition to sending, fine dust monitoring and removal means inside the 1st, 2nd, 3rd, ..., Nth buildings (84-1) (84-2) (84-3) ... (84-N) Receives the concentration value and location information of fine dust inside the building from which the dust has been removed, converts the received concentration value and location information of the fine dust inside the building into big data and stores it, A management server 82 that transmits the data-stored fine dust concentration value and location information of the area, and the fine dust concentration value and location information inside the building from which the fine dust has been removed;
It is installed at a certain distance from the management server 82, receives a fine dust measurement command signal from the management server 82, measures the fine dust in the area according to the received fine dust measurement command signal, and measures the measured fine dust. The first, second, third, ..., Nth fine dust that calculates the fine dust concentration value of the region based on the calculation and sends the calculated fine dust concentration value and location information of the region to the management server 82 Information providing means 102-1, 102-2, 102-3, 102-N;
It is installed on one side inside the building at a certain distance from the management server 82, receives the concentration value and location information of the fine dust of the area from the management server 82, displays the received location information, and displays the concentration value of the fine dust of the area. In addition to displaying the color to the user according to the result, after comparing the received concentration value of the fine dust in the area with the preset fine dust concentration value, if the received concentration value of the fine dust in the area is greater than the preset fine dust concentration value, the building 1st, 2nd, 3rd, ..., Nth building interior fine dust monitoring and removal means that removes fine dust located inside and sends the removed fine dust concentration value and location information to the management server 82 (84-1)(84-2)(84-3)...(84-N) and;
A certain distance from the first, second, third, ..., Nth building internal fine dust monitoring and removing means (84-1) (84-2) (84-3) ... (84-N) It is installed at one side inside the building of the state institution and receives the concentration value and location information of the fine dust inside the building from which the fine dust has been removed, as well as the concentration value and location information of the fine dust inside the building from the management server 82 that has been saved as big data using blockchain technology. Including a national agency terminal 86 that helps to reduce fine dust by analyzing the received big data,
The management server 82,
A management and control unit 90;
A fine dust monitoring app unit 92 that is electrically connected to the management control unit 90 to help a user download a fine dust monitoring app;
The first, second, third, ..., N-th fine dust information providing means (102-1) (102-2) (102-3) ...( In addition to sending a fine dust measurement command signal to 102-N), the first, second, third, ..., Nth fine dust information providing means (102-1) (102-2) (102-3) Receives the area's fine dust concentration value and location information calculated from (102-N), and receives the first, second, third, ..., N-th interior fine dust monitoring and removal means (84-1) )(84-2)(84-3)...(84-N), the concentration of fine dust in the area and location information are sent, as well as the 1st, 2nd, 3rd, ... Receives the concentration value and location information of the fine dust inside the building from which the fine dust has been removed from the N-building internal fine dust monitoring and removing means (84-1) (84-2) (84-3) ... (84-N), A management and communication unit 94 that transmits the concentration value and location information of fine dust in the area stored as big data using a block chain technology to the national institution terminal 86, and the concentration value and location information of the fine dust inside the building from which the fine dust has been removed;
In addition to being electrically connected to the management control unit 90 and electrically connected to the management communication unit 94, the concentration value and location of the fine dust in the area received from the management communication unit 94 according to the control signal of the management control unit 90 A block chain unit 96 that converts information into big data using block chain technology, and converts fine dust concentration values and location information inside the building into big data using block chain technology;
It is electrically connected to the management control unit 90 and receives the local fine dust concentration value and location information received from the management communication unit 94 according to the control signal of the management control unit 90, and the fine dust concentration value and location information inside the building. Including a display unit 98 for displaying to the administrator,
The first, second, third, ..., Nth fine dust information providing means (102-1) (102-2) (102-3) ... (102-N),
A first control unit 108;
It is electrically connected to the first control unit 108 to receive a fine dust measurement command signal from the management server 82, and the fine dust concentration value and location information of the region calculated according to the control signal of the first control unit 108 A first IoT communication module 110 for sending a message to the management server 82;
A fine dust measurement sensor that is electrically connected to the first control unit 108, measures fine dust in the area according to the control signal of the first control unit 108, and sends the measured fine dust measurement value to the fine dust concentration value calculation unit ( 112) and;
The area is electrically connected to the first control unit 108 to calculate the fine dust concentration value of the area based on the measurement value of the fine dust of the area received according to the control signal from the first control unit 108, and the calculated area It includes a fine dust concentration value calculation unit 114 for sending the fine dust concentration value of the first IoT communication module 110,
The first, second, third, ..., Nth building internal fine dust monitoring and removing means (84-1) (84-2) (84-3) ... (84-N),
It is installed inside the building and receives the concentration value and location information of the fine dust of the area from the management server 82, displays the received location information, and displays the color to the user according to the concentration value of the fine dust of the area. A fine dust concentration display means 104 for sending the fine dust concentration value of the area to the fine dust removing means;
A predetermined distance from the fine dust concentration display means 104 is positioned to be movable or fixed on one side of the building to receive the fine dust concentration value of the area from the fine dust concentration display means 104 and receive the After comparing the fine dust concentration value with the preset fine dust concentration value, if the received fine dust concentration value in the area is greater than the preset fine dust concentration value, the fine dust located inside the user's building is removed, and the inside of the removed building Including a fine dust removing means 106 for sending the fine dust concentration value and location information to the management server 82,
The fine dust concentration display means 104,
A second control unit 116;
It is electrically connected to the second control unit 116 and sends a fine dust measurement command signal to the fine dust information providing unit 102 according to the control signal of the second control unit 116, and A second IoT communication module 118 that receives the local fine dust concentration value and location information, and sends the received fine dust concentration value of the region to the fine dust removing means 106;
Fine dust information that is electrically connected to the second control unit 116 and displays the location of the fine dust information providing means 102 on a map based on the location information received according to the control signal of the second control unit 116 A providing means location display unit 120;
Steps electrically connected to the second control unit 116 to give the user a color of good, normal, bad, or very bad according to the density value of the fine dust in the area received according to the control signal from the second control unit 116 It includes a density value color display unit 122 that displays as,
The fine dust removing means 106,
A third control unit 124;
A third IoT communication module 126 electrically connected to the third control unit 124 to receive a fine dust concentration value of the region from the fine dust concentration display means 104;
After comparing the fine dust concentration value of the region, which is electrically connected to the third control unit 124 and received according to the control signal of the third control unit 124, with a preset fine dust concentration value, A first driving unit 128 for driving the suction driving motor when the dust concentration value is greater than the preset fine dust concentration value;
Including a suction drive motor 130 that is electrically connected to the first driving unit 128 and sucks and removes fine dust located inside the building according to the driving of the first driving unit 128,
A movement confirmation unit electrically connected to the third control unit 124 to confirm a key input when a user inputs a key;
A second driving unit electrically connected to the third control unit 124 to drive the wheel according to a control signal from the third control unit 124 when a movement confirmation unit key is input;
An object detection sensor electrically connected to the third control unit 124 to detect an object according to a control signal from the third control unit 124;
A wheel axis direction changing unit connected to the wheel and electrically connected to the third control unit 124 to change the direction of the wheel axis according to a control signal from the third control unit 124 when detecting an object;
Blockchain technology, characterized in that it further comprises a fine dust measurement sensor that is electrically connected to the third control unit 124 to measure fine dust inside the building and transmits the measured fine dust measurement value to the third control unit 124. Fine dust intelligent management system. delete delete delete delete delete

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