KR102278407B1 - Dust reduction system using drone - Google Patents

Abstract

A system for reducing fine dust using a drone according to an embodiment is electrically connected to a fine dust detecting device disposed in a plurality of drones and the fine dust detecting device, and when fine dust is detected by the fine dust detecting device, fine dust is reduced A fine dust reduction device operated to reduce, wherein the fine dust detection device includes a detection sensor unit for detecting fine dust and measuring the concentration of fine dust, and a position sensor unit for obtaining position information of the detected fine dust Including, the drone moves to the location of the generation of fine dust based on the location information of the fine dust obtained by the device for detecting fine dust, and the device for reducing the fine dust fine dust location information obtained by the device for detecting the fine dust It receives from the dust detection device and performs an operation for reducing fine dust based on the received position information of the fine dust.

Description

A system for reducing fine dust using drones {Dust reduction system using drone}

The embodiments relate to a fine dust reduction system using a drone, and more particularly, to a fine dust reduction system that detects surrounding fine dust using a drone and reduces the detected fine dust.

Fine dust refers to dust with a diameter of 10.0㎛ or less (PM10). When the human body is exposed to fine dust for a long time, immunity is rapidly reduced, so respiratory diseases such as colds, asthma and bronchitis, as well as cardiovascular diseases, skin diseases, eye diseases, etc. You can get various diseases.

In particular, ultrafine dust (PM2.5) with a diameter of 2.5 μm or less can penetrate deep into the bronchial tubes and lungs in the human body, causing various diseases by attaching to the bronchial tubes and lungs. In other words, fine dust not only adversely affects the body but also can cause various diseases, so various technologies for reducing fine dust are being actively studied in recent years.

There are 35,791 worksites generating fine dust nationwide, of which 30,140 (approximately 84%) are construction sites, which is being investigated as a local source of fine dust pollution.

Currently, measures to reduce fine dust in construction sites are insufficient due to regulations on the management of access facilities such as inlet water spraying and washing facilities.

There is a high risk of damaging the health of workers by polluting the air at outdoor work sites such as construction sites, and it spreads to nearby private houses, resulting in civil complaints.

In an effort to solve this problem, there was the inconvenience that the worker had to spray water directly using a hose or a sprinkler to prevent dust from scattering at the construction site, and it was also difficult to effectively block fine dust in the field. There is a growing need for a means to block

One embodiment provides a system for reducing fine dust using a drone.

Another embodiment provides a method for reducing fine dust using a drone.

The technical problems to be achieved by the present embodiments are not limited to the technical problems as described above, and other technical problems may be inferred from the following embodiments.

A system for reducing fine dust using a drone according to an embodiment includes: a fine dust sensing device disposed in a plurality of the drone; and a fine dust reduction device electrically connected to the fine dust sensing device and operated to reduce fine dust when fine dust is detected by the fine dust sensing device; a detection sensor unit that detects and measures the concentration of fine dust; and a position sensor unit for acquiring the detected location information of the fine dust, wherein the drone moves to a location where the fine dust is generated based on the location information of the fine dust obtained by the fine dust detection device, and the The fine dust reduction device receives the location information of the fine dust obtained by the fine dust detection device from the fine dust detection device, and performs an operation for reducing the fine dust based on the received location information of the fine dust.

The fine dust reduction device may reduce fine dust by spraying the fine dust reducing material.

The fine dust reduction material may include at least one of water, calcium chloride (CaCl ₂ ), a polymer, and cellulose.

The fine dust reduction device includes a storage unit for storing the fine dust reduction material; a pump unit for sucking and discharging the fine dust reduction material stored in the storage unit; a hose unit for flowing the fine dust reduction material discharged through the pump unit; a nozzle unit for spraying the fine dust reduction material flowing through the hose unit; a receiver configured to receive the concentration and location information of fine dust from the fine dust detection device; and a control unit that operates the storage unit, the pump unit, the hose unit, and the nozzle unit when the receiving unit receives the concentration and location information of the fine dust from the fine dust sensing device.

The control unit may determine the injection pressure of the nozzle unit based on the fine dust concentration measured by the fine dust detection device.

The pressure of the fine dust reducing material sprayed by the nozzle unit may be proportional to the fine dust concentration measured by the fine dust sensing device.

The control unit may change the aiming position of the nozzle unit based on the position information of the fine dust detected by the fine dust detection device.

A plurality of the nozzle units may be disposed under the drone.

The pump unit may have a maximum pressure of 165 bar and a maximum discharge amount of 6L/min.

The position sensor unit may include a global positioning system (GPS)-based position sensor.

A method for reducing fine dust using a drone according to another embodiment includes: detecting fine dust through a detection sensor unit of a fine dust sensing device; acquiring position information of fine dust through a position sensor unit of a fine dust detection device; and reducing the fine dust through the fine dust reduction device based on the acquired location information of the fine dust.

Embodiments relate to a fine dust reduction system and a method for reducing fine dust that detect surrounding fine dust using a drone and reduce fine dust detected through a drone that has moved to a location where the fine dust is detected.

The fine dust reduction system using the drone according to the embodiments detects the generation of fine dust in a local space of an outdoor business such as a construction site in real time, moves to the location where the fine dust is generated, and then adjusts the amount of fine dust according to the degree of pollution of fine dust. Air quality can be improved by automatically dispensing dust-reducing materials.

The fine dust reduction system using the drone according to the embodiments has no movement restriction, so it is possible to more effectively detect the generation of fine dust in an area where a large amount of fine dust is generated such as a construction site and a road, so that the environment around the construction site and road can be kept clean, and accordingly, the health of not only construction site workers but also pedestrians using the road can be prevented from being deteriorated due to fine dust.

1 is a front view of a system for reducing fine dust using a drone according to an embodiment.
2 is a diagram schematically illustrating an apparatus for reducing fine dust of a system for reducing fine dust using a drone according to an embodiment.
3 is a block diagram schematically illustrating a method of operating a fine dust reduction system using a drone according to an embodiment.
4 is a block diagram illustrating a method for reducing fine dust using a drone according to another embodiment.

The terms used in the embodiments are selected as currently widely used general terms as possible while considering the functions in the present invention, but may vary depending on the intention or precedent of a person skilled in the art, the emergence of new technology, and the like. In addition, in specific cases, there are also terms arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, rather than the name of a simple term.

When a part "includes" or "includes" a certain component throughout the specification, this means that other components may be further provided, rather than excluding other components, unless otherwise stated. In addition, terms such as “…unit” and “…module” described in the specification mean a unit that processes at least one function or operation, which may be implemented as hardware or software, or a combination of hardware and software.

On the other hand, the terms used herein are for the purpose of describing the embodiments and are not intended to limit the present invention. As used herein, the singular also includes the plural unless specifically stated otherwise in the phrase.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily carry out the embodiments of the present invention. However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein.

1 is a side view using a drone to which a fine dust reduction system 100 using a drone according to an embodiment is applied.

The fine dust reduction system 100 using a drone according to an embodiment is electrically connected to the fine dust detecting device 110 and the fine dust detecting device 110 disposed in a plurality of the drone, and the fine dust detecting device 110 ) includes a fine dust reduction device 120 that is operated to reduce fine dust when fine dust is detected by ), but the fine dust detection device 110 detects surrounding fine dust using a drone and measures the concentration A detection sensor unit 111, and a position sensor unit 112 for acquiring the detected position information of the fine dust, the drone is based on the position information of the fine dust obtained by the fine dust detection device 110 Moving to the location where the fine dust is generated, the fine dust reduction device 120 receives the location information of the fine dust obtained by the fine dust detection device 110 from the fine dust detection device 110, and An operation for reducing fine dust is performed based on the location information.

The fine dust reduction system 100 using a drone according to an embodiment may include a plurality of fine dust detection devices 110 disposed in the drone. The fine dust detection device 110 may be disposed on the drone to acquire information on fine dust. A plurality of fine dust detection devices 110 may be disposed on the drone.

The system 100 for reducing fine dust using a drone according to an embodiment is electrically connected to the fine dust detecting device 110, and to reduce fine dust when fine dust is detected by the fine dust detecting device 110 It may include an operating fine dust reduction device 120 .

The fine dust reduction device 120 may be electrically connected to the fine dust detection device 110 . At this time, the electrical connection may be performed by wire or wirelessly, and the electrical connection is a connection capable of transmitting and receiving both power and data. can mean

The fine dust reduction device 120 may receive a predetermined signal from the fine dust detection device 110 and perform a series of operations for reducing surrounding fine dust using the drone.

For example, the fine dust reduction device 120 may spray fine dust reducing materials to reduce fine dust, and the fine dust reducing materials may be materials capable of preventing fine dust from being dispersed by combining with fine dust. have. The fine dust reduction materials may be, for example, _{at least one of water, calcium chloride (CaCl 2} ), a polymer, and cellulose.

The fine dust detection device 110 may include a detection sensor unit 111 for detecting the surrounding fine dust using a drone and measuring the concentration, and a position sensor unit 112 for obtaining location information of the detected fine dust. have.

The detection sensor unit 111 may include a sensor capable of detecting surrounding fine dust using a drone and simultaneously measuring the concentration of fine dust. For example, the detection sensor unit 111 may include, for example, a camera sensor capable of detecting fine dust at a distance greater than a predetermined distance from the drone and measuring the concentration. In this case, the camera sensor may detect fine dust at a location separated by a predetermined distance and measure the concentration.

The detection sensor unit 111 classifies the types of fine dust (fine dust, ultra-fine dust) by measuring the size and concentration of the fine dust at a location separated by a predetermined distance, and reduces fine dust by reducing the signal divided according to the concentration of fine dust may be transmitted to the device 120 .

The detection sensor unit 111 may include a position sensor unit 112 for obtaining location information of fine dust. The position sensor unit 112 may acquire information on the location of a place where fine dust is generated in the vicinity using a drone. At this time, the position sensor unit 112 is connected to the detection sensor unit 111 to transmit and receive data. By doing so, it is possible to track the location of the fine dust.

The position sensor unit 112 may track a location where fine dust is generated within a predetermined distance from, for example, a place where the position sensor unit 112 is disposed. In this case, the position sensor unit 112 may track The range may be a range that can include all of the surrounding area using the drone.

In the fine dust reduction system 100 using a drone according to an embodiment, the drone may move to a location where the fine dust is generated based on the location information of the fine dust acquired by the fine dust detection device 110 .

That is, when the position sensor unit 112 of the detection sensor unit 111 acquires the location information of the fine dust by tracking the location where the fine dust is generated in the range, the drone generates fine dust based on the location information of the fine dust You can move around the location. As the drone moves to the fine dust generating location, actions to reduce fine dust can be effectively performed near the fine dust generating location.

In the fine dust reduction system 100 according to an embodiment, the fine dust reduction device 120 receives the location information of the fine dust obtained by the fine dust detection device 110 from the fine dust detection device 110 , and receives An operation for reducing fine dust may be performed based on the location information of the fine dust.

In the fine dust reduction system 100 according to an embodiment, the fine dust reduction device 120 may reduce fine dust by spraying the fine dust reduction material. For example, the fine dust reducing material may be water, and the fine dust reducing device 120 may adsorb the fine dust to the water by spraying water to the location where the fine dust is generated. Fine dust adsorbed in water can be prevented from scattering into the air, and thus the fine dust concentration can be reduced.

2 is a diagram schematically illustrating a fine dust reduction device 120 of the fine dust reduction system 100 using a drone according to an embodiment.

The fine dust reduction device 120 of the fine dust reduction system 100 using a drone according to an embodiment sucks the fine dust reduction material stored in the storage unit 121 for storing the fine dust reduction material, and the storage unit 121 A pump unit 122 that discharges the fine dust reducing material discharged through the pump unit 122, a hose unit 123 that flows the fine dust reducing material discharged through the pump unit 122, and a nozzle unit that jets the fine dust reducing material flowing through the hose unit 123 ( 124), when the receiving unit 125 that receives the concentration and location information of fine dust from the fine dust detecting device 110, and the receiving unit 125 receives the fine dust concentration and location information from the fine dust detecting device 110 It may include a storage unit 121 , a pump unit 122 , a hose unit 123 , and a control unit 126 for operating the nozzle unit 124 .

The fine dust reduction device 120 may reduce fine dust by spraying the fine dust reducing material. For this purpose, the fine dust reducing device 120 may include a storage unit 121 for storing the fine dust reducing material. . The storage unit 121 may be disposed on the bottom of the drone, for example, but the size, location, and number of the storage unit 121 may be changed as needed.

The fine dust reduction device 120 may use the fine dust reduction material stored in one storage unit 121 together with each of the fine dust reduction devices 120 . That is, the plurality of fine dust reduction devices 120 may include a common storage unit 121 , wherein each fine dust reduction device 120 is spaced apart from the storage unit 121 by a predetermined distance to be disposed on the drone. can

The fine dust reduction device 120 includes a pump unit 122 for sucking and discharging the fine dust reducing material stored in the storage unit 121 , and a hose unit 123 for flowing the fine dust reducing material discharged through the pump unit 122 . ), may include a nozzle unit 124 for spraying the fine dust reduction material flowing through the hose unit 123.

The fine dust reduction device 120 can reduce fine dust by spraying the fine dust reducing material stored in the storage unit 121 , and the fine dust reducing material stored in the storage unit 121 is discharged through the pump unit 122 . can be

The pump unit 122 may be electrically connected to using the drone to use power using the drone. In this case, the pump unit 122 may have a maximum pressure of 165 bar and a maximum discharge amount of 6L/min in the storage unit 121 . The pump unit 122 may be disposed between, for example, the storage unit 121 and the hose unit 123 , and the fine dust reduction material obtained by obtaining kinetic energy through the pump unit 122 is the hose unit 123 . can move

The hose unit 123 of the fine dust reduction device 120 connects the storage unit 121 and the nozzle unit 124 to flow the fine dust reduction material stored in the storage unit 121 to the nozzle unit 124 . can A plurality of hose units 123 may be connected to one storage unit 121 , and each of the plurality of hose units 123 may be connected to different nozzle units 124 .

The fine dust reduction device 120 may include a nozzle unit 124 for spraying the fine dust reduction material flowing through the hose unit 123 . The nozzle unit 124 may be stored in the storage unit 121 using a drone and spray the fine dust reduction material flowing through the hose unit 123 to the fine dust generating area, and a plurality of nozzle units 124 may be disposed. can The plurality of nozzle units 124 may be aimed at different positions, respectively, and the aiming may be changed toward an area where the fine dust is generated.

For example, when the fine dust reduction material is water, the water passing through the nozzle unit 124 may be divided into droplets and have a high speed, and the water passing through the plurality of nozzle units 124 may be fine dust using a drone. It can be effectively sprayed into the area where the That is, water may pass through the nozzle unit 124 and may be divided into droplets, and the divided droplets may be combined with fine dust to prevent scattering of fine dust.

The fine dust reduction device 120 includes a receiver 125 that receives the concentration and location information of the fine dust from the fine dust detection device 110 , and the receiver 125 receives the concentration and location of the fine dust from the fine dust detection device 110 . When the information is received, the storage unit 121 , the pump unit 122 , the hose unit 123 , and the control unit 126 for operating the nozzle unit 124 may be included.

The fine dust reduction device 120 may include a receiver 125 that receives data from the fine dust detection device 110 . In this case, the receiving unit 125 may be electrically connected to the fine dust sensing device 110 , and the electrical connection may include transmission and reception of data. The data that the receiver 125 receives from the fine dust detection device 110 may be, for example, concentration and location information of fine dust.

After receiving the concentration and location information of the fine dust from the fine dust sensing device 110 , the receiver 125 may transmit the concentration and location information of the fine dust to the controller 126 . In this case, the receiver 125 and the controller 126 may be separate components separated as an example, but as another example, it is only obvious to those skilled in the art that they may have an integrated configuration.

The concentration and location information of fine dust may be transmitted to the controller 126 . In this case, the control unit 126 may analyze the concentration and location information of the fine dust to operate the storage unit 121 , the pump unit 122 , the hose unit 123 , and the nozzle unit 124 .

That is, the control unit 126 flows the fine dust reducing material in the storage unit 121 to the hose unit 123 through the pump unit 122 when fine dust is detected and the concentration of fine dust increases above a predetermined range. can do it The fine dust reduction material flowing into the hose unit 123 may be sprayed through the nozzle unit 124 . At this time, the control unit 126 may change the aiming position of the nozzle unit 124 so that the nozzle unit 124 sprays the fine dust reducing material to the position where the fine dust is generated.

For example, when fine dust is generated at a predetermined location, the drone may move to the location where fine dust is generated based on the location information of the fine dust. Thereafter, the control unit 126 may change the aiming position of the nozzle unit 124 toward the fine dust generating area. The nozzle unit 124 aimed toward the fine dust generating area may spray the fine dust reducing material, and thus fine dust may be effectively reduced.

As the aiming position of the nozzle unit 124 is changed by the controller 126 , the fine dust reducing material may be sprayed only to an area where fine dust is generated. Accordingly, fine dust in the vicinity using the drone can be effectively reduced, and the fine dust reduction material stored in the storage unit 121 can be used more efficiently.

The fine dust reduction device 120 of the fine dust reduction system 100 according to an embodiment may change the reduction function according to the fine dust concentration. The control unit 126 of the fine dust reduction device 120 may change the injection pressure of the nozzle unit 124 based on the fine dust concentration measured by the fine dust detection device 110 .

That is, after receiving the fine dust concentration information, the control unit 126 may adjust the injection pressure of the nozzle unit 124 . In this case, the injection pressure of the nozzle unit 124 is measured by the fine dust detection device 110 . It can be proportional to the fine dust concentration.

For example, when the fine dust concentration measured by the fine dust detection device 110 is high, the control unit 126 may adjust the injection pressure of the nozzle unit 124 to a predetermined range or more, and the fine dust detection device 110 may When the concentration of fine dust measured by is low, the control unit 126 may adjust the injection pressure of the nozzle unit 124 to be less than or equal to a predetermined range.

The control unit 126 of the fine dust reduction device 120 may change the injection amount of the nozzle unit 124 based on the fine dust concentration measured by the fine dust detection device 110 . That is, after receiving the fine dust concentration information, the control unit 126 may adjust the injection amount of the nozzle unit 124 . At this time, the injection amount of the nozzle unit 124 is measured by the fine dust detection device 110 . It can be proportional to the fine dust concentration.

For example, when the fine dust concentration measured by the fine dust detection device 110 is high, the control unit 126 may adjust the injection amount of the nozzle unit 124 to a predetermined range or more, and the fine dust detection device 110 may When the concentration of fine dust measured by is low, the control unit 126 may adjust the injection amount of the nozzle unit 124 to be less than or equal to a predetermined range.

The control unit 126 may adjust the injection pressure and the injection amount of the nozzle unit 124 by controlling the discharge pressure or the discharge amount of the pump unit 122 that sucks and discharges the fine dust reduction material stored in the storage unit 121 . .

The controller 126 may change the aiming position of the nozzle unit 124 based on the position information of the fine dust detected by the fine dust detection device 110 . The control unit 126 may change the aiming position of the nozzle unit 124 so that the nozzle unit 124 sprays the fine dust reducing material to the position where the fine dust is generated. For example, a motor may be mounted to each of the nozzle units 124 , and the motor may rotate the nozzle unit 124 to change the aiming position of the nozzle unit 124 .

As the aiming position of the nozzle unit 124 is changed by the control unit 126 , the fine dust reducing material may be efficiently sprayed to the area where the fine dust is generated. At this time, by adjusting the injection pressure and the injection amount of the fine dust reducing material based on the fine dust concentration, the indiscriminate use of the fine dust reducing material can be reduced, and the user's convenience can be improved by reducing the filling frequency of the fine dust reducing material. .

In the fine dust reduction system 100 using a drone according to an embodiment, a plurality of nozzle units 124 may be disposed, for example, on both sides of the drone. Two to four nozzle units 124 of fine dust may be disposed on each side. In this case, the nozzle unit 124 may be disposed not only on both sides of the drone, but also on the front side and the rear side crossing both sides. That is, a plurality of nozzle units 124 may be disposed around the drone. However, the number and arrangement of the nozzle units 124 are not limited by the above-described disclosure and may be changed as necessary.

The nozzle unit 124 disposed in the drone may change its aiming position by the control unit 126 , and may spray the fine dust reducing material to the fine dust generating area detected by the fine dust detecting device 110 .

For example, when a large amount of fine dust is generated within the moving radius of the drone, the fine dust detecting device 110 of the drone disposed near the fine dust generating area may detect the generation of fine dust and measure the concentration. . Thereafter, the drone may move to a location where the fine dust is generated based on the location information of the fine dust, and the controller 126 may change the aiming position of the nozzle unit 124 toward the area where the fine dust is generated. The nozzle unit 124 aimed toward the fine dust generating area may spray the fine dust reducing material, and thus fine dust may be effectively reduced.

The position sensor unit 112 of the fine dust reduction device 120 may include a global positioning system (GPS)-based position sensor. A GPS-based location sensor can obtain geographic information including latitude and longitude of its current location by receiving and analyzing geographic signals from GPS satellites.

At this time, the location sensor unit 112 of the fine dust reduction device 120 can reduce the error of geographic information through a plurality of GPS location sensors and improve the accuracy of the location of the fine dust by acquiring cross-sectional information. have.

3 is a block diagram schematically illustrating a method of operating the fine dust reduction system 100 using a drone according to an embodiment.

Looking at the operation method of the fine dust reduction system 100 using a drone according to an embodiment, the fine dust detection device 110 of the fine dust reduction system 100 detects the generation of fine dust and measures the concentration of the generated fine dust. can be measured Also, the fine dust detection device 110 may measure location information of the generated fine dust. Thereafter, the fine dust detecting device 110 may transmit data on the concentration of fine dust and location information of the fine dust to the fine dust reducing device 120 .

In the fine dust reduction system 100 using a drone according to an embodiment, the drone may move to a location where the fine dust is generated based on the location information of the fine dust acquired by the fine dust detection device 110 .

The fine dust reduction device 120 receives data on the concentration of fine dust and the location information of the fine dust from the fine dust detection device 110 , and then reduces fine dust based on the concentration of fine dust and the location information of the fine dust can perform operations.

At this time, the receiving unit 125 of the fine dust reduction device 120 may receive the fine dust concentration and location information, and when the receiving unit 125 receives the fine dust concentration and location information from the fine dust detecting device 110 , the storage The fine dust reducing material stored in the unit 121 is discharged through the pump unit 122 , the discharged fine dust reducing material flows through the hose unit 123 , and the fine dust reduced through the hose unit 123 . Material may be sprayed through the nozzle portion 124 . The injection of the fine dust reduction material from the storage unit 121 to the nozzle unit 124 may be controlled by the controller 126 of the fine dust reduction device 120 .

The fine dust reduction device 120 may change the injection amount of the nozzle unit 124 based on the fine dust concentration measured by the fine dust detection device 110 . At this time, the injection amount of the nozzle unit 124 based on the fine dust concentration may be controlled by the control unit 126 of the fine dust reduction device 120, and the fine dust concentration and the injection amount of the nozzle unit 124 are proportional. can

Also, the fine dust reduction device 120 may change the injection pressure of the nozzle unit 124 based on the fine dust concentration measured by the fine dust detection device 110 . In this case, the injection pressure of the nozzle unit 124 based on the fine dust concentration may be controlled by the controller 126 of the fine dust reduction device 120, and the fine dust concentration and the injection pressure may have a proportional relationship.

When the fine dust reduction device 120 performs operations for reducing fine dust, the aiming position of the nozzle unit 124 is determined by the control unit 126 based on the position information of the fine dust detected by the fine dust detection device 110 . ) can be changed by That is, the control unit 126 may change the aiming position of the nozzle unit 124 so that the nozzle unit 124 sprays water to a position where fine dust is generated.

4 is a block diagram illustrating a method for reducing fine dust using a drone according to another embodiment.

The method for reducing fine dust using a drone according to another embodiment includes the steps of detecting fine dust through the detection sensor unit 111 of the fine dust sensing device 110 (S110), the position sensor unit of the fine dust sensing device 110 It may include a step (S120) of obtaining the location information of fine dust through (112), and a step (S130) of reducing fine dust through the fine dust reduction device 120 based on the obtained location information of the fine dust (S130). have.

The configuration and effect of the method for reducing fine dust using a drone according to another embodiment are the same as the configuration and effect of the system 100 for reducing fine dust using the drone according to the above-described embodiment, and the details in the overlapping range are The description will be omitted.

The fine dust reduction system 100 using a drone according to the embodiments detects in real time the generation of fine dust in a local space of an outdoor business such as a construction site, moves to a location where the fine dust is generated, and determines the level of fine dust pollution. The air environment can be improved by automatically spraying the appropriate amount of dust-reducing material.

The fine dust reduction system 100 using a drone according to the embodiments has no movement restriction, so it is possible to more effectively detect the generation of fine dust in an area where a large amount of fine dust is generated, such as a construction site and a road. It is possible to keep the surrounding environment clean, thereby preventing the deterioration of the health of not only construction site workers but also pedestrians using the road due to fine dust.

Reference signs have been given in the embodiments shown in the drawings, and specific terms are used to describe the embodiments, but the present invention is not limited by the specific terms, and the embodiments are all conceivable by those skilled in the art. It may contain components.

An embodiment may be represented by functional block configurations and various processing steps. These functional blocks may be implemented in any number of hardware and/or software configurations that perform specific functions. For example, an embodiment may be an integrated circuit configuration, such as memory, processing, logic, look-up table, etc., capable of executing various functions by means of control of one or more microprocessors or other control devices. can be hired

Further, embodiments may employ prior art for electronic configuration, signal processing, and/or data processing, and the like. Terms such as “mechanism”, “element”, “means” and “configuration” may be used broadly and are not limited to mechanical and physical configurations. The term may include the meaning of a series of routines of software in association with a processor or the like.

The specific implementations described in the embodiment are only embodiments, and do not limit the scope of the embodiment in any way. For brevity of the specification, descriptions of conventional electronic components, control systems, software, and other functional aspects of the systems may be omitted. In addition, the connection or connection members of the lines between the components shown in the drawings exemplarily represent functional connections and/or physical or circuit connections, and in an actual device, various functional connections, physical connections that are replaceable or additional may be referred to as connections, or circuit connections. In addition, unless there is a specific reference such as “essential” or “importantly”, it may not be a necessary component for the application of the present invention.

In the specification of embodiments (especially in the claims), the use of the term “above” and similar referential terms may correspond to both the singular and the plural. In addition, when a range is described in the examples, it includes the invention to which individual values belonging to the range are applied (unless there is a description to the contrary), and each individual value constituting the range is described in the detailed description. . Finally, the steps constituting the method according to the embodiment may be performed in an appropriate order unless the order is explicitly stated or there is no description to the contrary. The embodiments are not necessarily limited according to the order of description of the above steps. The use of all examples or exemplary terms (eg, etc.) in the embodiment is merely for describing the embodiment in detail, and unless it is limited by the claims, the scope of the embodiment is limited by the examples or exemplary terminology. it is not In addition, those skilled in the art will recognize that various modifications, combinations, and changes may be made in accordance with design conditions and factors within the scope of the appended claims or their equivalents.

111: detection sensor unit 112: position sensor unit
120: fine dust reduction device 121: storage unit
122: pump unit 123: hose unit
124: nozzle unit 125: receiving unit
126: control unit

Claims (11)

As a fine dust reduction system using a drone,
a plurality of fine dust detection devices disposed on the drone; and
A fine dust reduction device electrically connected to the fine dust detecting device and operated to reduce fine dust when fine dust is detected by the fine dust detecting device;
The fine dust detection device includes a detection sensor unit for detecting fine dust and measuring the concentration of fine dust, and a position sensor unit for obtaining position information of the detected fine dust,
The drone moves to a location where the fine dust is generated based on the location information of the fine dust obtained by the fine dust detection device,
The fine dust reduction device performs an operation for reducing fine dust by spraying a fine dust reduction material based on the location information of the fine dust obtained by the fine dust detection device,
The fine dust reduction device includes a storage unit for storing the fine dust reduction material, a pump unit for sucking and discharging the fine dust reduction material stored in the storage unit, a hose unit for flowing the fine dust reduction material discharged through the pump unit, and the The nozzle unit for spraying the fine dust reduction material flowing through the hose unit, the receiving unit receiving the concentration and location information of the fine dust from the fine dust detecting device, and the receiving unit receiving the fine dust concentration and location information from the fine dust detecting device and a control unit for operating the storage unit, the pump unit, the hose unit, and the nozzle unit when receiving;
The control unit changes the aiming position of the nozzle unit based on the position information of the fine dust detected by the fine dust detection device, a fine dust reduction system using a fine drone. delete The method of claim 1,
The fine dust reduction material includes at least one of water, calcium chloride (CaCl ₂ ), a polymer, and cellulose (Cellulose), fine dust reduction system using a drone. delete The method of claim 1,
The control unit determines the injection pressure of the nozzle unit based on the fine dust concentration measured by the fine dust detection device, fine dust reduction system using a drone. 6. The method of claim 5,
The pressure of the fine dust reduction material sprayed by the nozzle unit is proportional to the fine dust concentration measured by the fine dust detection device, a fine dust reduction system using a drone. delete The method of claim 1,
A system for reducing fine dust using a drone, wherein a plurality of the nozzle units are disposed under the drone. The method of claim 1,
The pump unit has a maximum pressure of 165 bar and a maximum discharge amount of 6L/min, a fine dust reduction system using a drone. The method of claim 1,
The position sensor unit includes a global positioning system (GPS)-based position sensor, fine dust reduction system using a drone. As a method of reducing fine dust using a drone,
detecting fine dust through a detection sensor unit of a fine dust detection device;
acquiring position information of fine dust through a position sensor unit of a fine dust detection device;
A storage unit for storing the fine dust reduction material based on the obtained location information of the fine dust, a pump unit for sucking and discharging the fine dust reduction material stored in the storage unit, and a pump unit for discharging the fine dust reduction material stored in the storage unit A hose unit, a nozzle unit for spraying the fine dust reducing material flowing through the hose unit, a receiving unit receiving the concentration and location information of fine dust from the fine dust sensing device, and the receiving unit receiving the fine dust concentration from the fine dust sensing device and reducing fine dust by spraying a fine dust reducing material through a fine dust reducing device including a control unit that operates the storage unit, the pump unit, the hose unit, and the nozzle unit when the location information is received; and
Changing the aiming position of the nozzle unit of the apparatus for reducing fine dust based on the obtained position information of the fine dust; including; a method for reducing fine dust using a drone.

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