CN115564207A - Atmospheric ecological environment remote supervision equipment based on Internet of things - Google Patents

Abstract

The invention discloses an atmospheric ecological environment remote supervision device based on the Internet of things, and relates to the technical field of environment monitoring. The atmospheric ecological environment remote supervision device based on the Internet of things comprises an atmospheric environment data acquisition unit, an area management unit, an enterprise supervision unit, a pollution analysis unit and a ground remote monitoring system. According to the invention, whether the sewage discharging enterprise has the behavior of stealing, draining and leaking is judged by the pollution analysis unit according to the environmental data in the area where the corresponding sewage discharging enterprise is located and the power consumption of the sewage discharging enterprise through comparison and analysis, if abnormal data occur, the enterprise is marked, the behavior of stealing, draining and leaking of the enterprise is shown, the automatic unmanned management is realized, the behavior of stealing, draining and leaking of the enterprise can be found in time, manual real-time supervision is not needed, the working efficiency is high, the pollution analysis unit is not only suitable for the enterprise, but also can be used for atmospheric environmental quality, serves local governments for controlling the state-controlled city air station, and can remind abnormal warning and traceability monitoring through an internet-of-things big data system.

Description

Atmospheric ecological environment remote supervision equipment based on Internet of things

Technical Field

The invention relates to the technical field of environmental monitoring, in particular to atmospheric ecological environment remote supervision equipment based on the Internet of things.

Background

With the rapid development of social economy, the population is rapidly increased, the energy consumption is rapidly increased, the atmospheric environment situation is increasingly severe, and when the pollutants in the atmospheric environment have enough concentration and reach enough time, serious harm can be brought to the health of human bodies, industrial and agricultural production, atmosphere and climate. In order to make the relevant ecological environment departments make accurate judgment and prediction on the possible future development trend of the environmental quality, an effective atmospheric ecological environment monitoring and analyzing method is imperative.

The existing atmospheric ecological environment pollution source investigation is carried out through manual monitoring under the general condition, which is a traditional and manpower-consuming mode, and then multi-wing unmanned aerial vehicle investigation appears, namely, remote sensing technology carries out automatic monitoring and automatic data output, and is relatively single, still needs manual supervision and investigation to find out abnormal data, and has poor timeliness and needs to waste manpower.

Disclosure of Invention

Solves the technical problem

Aiming at the defects of the prior art, the invention provides an atmospheric ecological environment remote supervision device based on the Internet of things, and solves the problems that the conventional atmospheric ecological environment monitoring and analyzing method needs manual supervision to investigate abnormal data, has poor timeliness and wastes manpower.

Technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an atmospheric ecological environment remote supervision equipment based on thing networking, includes atmospheric environment data acquisition unit, regional management unit, enterprise's supervision unit, pollution analysis unit and ground remote monitering system, wherein:

the atmospheric environment data acquisition unit comprises a remote sensing acquisition module carried by the multi-wing unmanned aerial vehicle and atmospheric data acquisition equipment and is used for automatically acquiring atmospheric environment data in the area to be detected;

the regional management unit is used for carrying out regional management on the pollution discharge enterprises in the region to be detected and acquiring environmental data in the corresponding region;

the enterprise supervision unit is used for detecting the power consumption of the sewage disposal enterprises in the area to be supervised in real time and planning the standard discharge amount of each sewage disposal enterprise;

the pollution analysis unit is used for comparing and analyzing the environmental data in the corresponding area where the pollution discharge enterprise is located and the power consumption of the pollution discharge enterprise, and judging whether the pollution discharge enterprise has the behavior of stealing, discharging and leaking;

the ground remote monitoring system comprises a wireless communication module and a remote monitoring module, and is used for acquiring data information acquired by the atmospheric environment data acquisition unit and checking the data information in real time through the ground base station.

Preferably, the remote sensing acquisition module comprises an infrared camera and an infrared scanner, the infrared camera and the infrared scanner are carried on the multi-wing unmanned aerial vehicle, and the remote sensing acquisition module is connected to the remote monitoring module through the wireless communication module.

Preferably, atmospheric data collection equipment includes the equipment base plate and installs the stop gear at equipment base plate outside surface, stop gear is used for fixing the equipment base plate on multi-wing unmanned aerial vehicle, the top surface mounting of equipment base plate has the sampling casing, the internally mounted of sampling casing has the sampling mechanism, the sampling mechanism is arranged in gathering the gaseous sample data among the atmospheric environment.

Preferably, stop gear includes spacing bandage and connector link, the one side surface at the equipment base plate is installed to the spacing bandage, the terminal surface at the spacing bandage is installed to the connector link, the opposite side surface mounting of equipment base plate has the fixed seat of detaining, the connector link is used with the fixed seat cooperation of detaining.

Preferably, sampling mechanism includes sampling gasbag and sensor probe, the inner wall department at the sampling casing is installed to the one end of sampling gasbag, the inner wall department at the sampling gasbag is installed to the sensor probe, the outside surface mounting of sampling gasbag has the magnet ring, the outside surface of magnet ring and the inner wall movable contact of sampling casing, the outside surface mounting of magnet ring has connecting spring, connecting spring's terminal surface is connected to the inner wall department of sampling casing, the electro-magnet is installed to the sampling casing inner wall in the sampling gasbag outside, the outside surface mounting of sampling gasbag has the sampling pipeline, the outside surface mounting of sampling pipeline has the seal valve, the inside of sampling casing has been seted up and has been run through the groove, the outside surface of sampling pipeline and the inner wall movable contact who runs through the groove.

Preferably, the outer side surface of the sensor probe is provided with a Pm2.5 sensor, an oxygen sensor and an SO ₂ Sensor, NO ₂ Sensor and CO ₂ A sensor.

Preferably, the area management unit includes an enterprise positioning module, an area dividing module, and a data management module, wherein:

the enterprise positioning module is used for positioning the sewage discharge enterprises in the supervision area;

the region dividing module is used for dividing the supervision regions according to the positioning positions of the enterprise positioning module and further dividing the corresponding area supervision regions according to the enterprise scale;

and the data management module is used for receiving the data acquired by the atmospheric environment data acquisition unit and sorting the data in the corresponding monitoring area.

Preferably, the enterprise supervision unit comprises a power consumption supervision module, a newly-added enterprise reporting module and an enterprise database, wherein:

the power consumption monitoring module is provided with a power consumption monitoring device in the positioned sewage disposal enterprises, and can adopt a power consumption monitoring detector to monitor the power consumption of the sewage disposal enterprises in real time;

a newly added enterprise reporting module is used for reporting when a newly added enterprise exists in the supervision area, and registering the position of the enterprise, the scale of the enterprise and the conventional sewage discharge amount of the enterprise;

and the enterprise database is used for recording the enterprise scale, the conventional power consumption of the enterprise and the conventional emission of the enterprise.

Preferably, the pollution analysis unit includes a data analysis module, an anomaly marking module and an alert notification module, wherein:

the data analysis module is used for comparing and analyzing the atmospheric environment information in the environment of the corresponding enterprise, which is arranged by the data management module, with the data of the electric supervision module in the corresponding enterprise, and judging whether the discharge capacity of the corresponding enterprise meets the conventional discharge capacity standard or not;

the abnormal marking module marks the enterprise according to the analysis result of the data analysis module if abnormal data occur, and indicates that the enterprise has the behavior of stealing, draining and missing;

and the warning notification module is used for sending warning notification information to the marked pollution discharge enterprises, and if the secondary marking occurs, sending out the stopping and stopping notification to the pollution discharge enterprises.

Preferably, the ground remote monitoring system comprises a wireless communication module and a remote monitoring module, wherein:

the wireless communication module is used for receiving and transmitting information and instructions so as to realize two-way information transmission between the atmospheric environment data acquisition unit and the remote monitoring module;

the remote monitoring module adopts a ground base station form, and an individual can check data in real time through ground monitoring.

Advantageous effects

The invention has the following beneficial effects:

(1) This atmospheric ecological environment remote supervision equipment based on thing networking, through pollution analysis unit according to the environmental data in the blowdown enterprise region that corresponds and the power consumption contrastive analysis of blowdown enterprise, judge whether the blowdown enterprise has the action of stealing and leaking the row, if abnormal data appears, mark this enterprise, show that this enterprise has the action of stealing and leaking the row, and send out warning notice information to the blowdown enterprise that is marked, if the secondary mark appears, then send out the suspension of work and neatly notify to the blowdown enterprise, realize automatic unmanned management, can in time discover the action of stealing and leaking the row of enterprise, need not artifical real-time supervision, high work efficiency.

(2) This atmospheric ecological environment remote supervision equipment based on thing networking not only is applicable to the enterprise, also can be used for atmospheric environment quality, serves local government and controls the city accuse air station to the provincial accuse state, and unusual warning and traceability monitoring are reminded to accessible thing networking big data system.

(3) The atmospheric ecological environment remote supervision equipment based on the Internet of things can be used for carrying out cooperative management on a comprehensive administrative unit by combining a pollution source and a large environment.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

FIG. 1 is a flow chart of the system of the present invention;

FIG. 2 is a schematic diagram of the external structure of the atmospheric data collection device of the present invention;

FIG. 3 is a schematic view of an external structure of an atmospheric data collection device according to another aspect of the present invention;

FIG. 4 is a schematic diagram of the internal structure of the atmospheric data collection device according to the present invention;

FIG. 5 is a schematic view of the internal structure of the sampling balloon of the present invention.

In the figure, 1, a device substrate; 2. a sampling housing; 3. a limiting bandage; 4. a connecting buckle; 5. a fixed buckle seat; 6. sampling an air bag; 7. a sensor probe; 8. a magnet ring; 9. a connecting spring; 10. an electromagnet; 11. a sampling pipe; 12. a sealing valve; 13. through the slot.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

Referring to fig. 1 to 5, an embodiment of the present invention provides a technical solution: the utility model provides an atmospheric ecological environment remote supervision equipment based on thing networking, includes atmospheric environment data acquisition unit, regional management unit, enterprise's supervision unit, pollution analysis unit and ground remote monitering system, wherein:

the atmospheric environment data acquisition unit comprises a remote sensing acquisition module carried by the multi-wing unmanned aerial vehicle and atmospheric data acquisition equipment and is used for automatically acquiring atmospheric environment data in a region to be detected;

the regional management unit is used for carrying out regional management on the pollution discharge enterprises in the region to be detected and acquiring environmental data in the corresponding region;

the enterprise supervision unit is used for detecting the power consumption of the sewage disposal enterprises in the area to be supervised in real time and planning the standard discharge amount of each sewage disposal enterprise;

the pollution analysis unit is used for comparing and analyzing the environmental data in the corresponding area where the pollution discharge enterprise is located and the power consumption of the pollution discharge enterprise, and judging whether the pollution discharge enterprise has the behavior of stealing, discharging and leaking;

the ground remote monitoring system comprises a wireless communication module and a remote monitoring module, and is used for acquiring data information acquired by the atmospheric environment data acquisition unit and checking the data information in real time through the ground base station.

Specifically, the remote sensing acquisition module includes infrared camera and infrared scanner, carries on infrared camera and infrared scanner on multi-wing unmanned aerial vehicle, is connected to the remote monitoring module through wireless communication module.

Further, atmospheric data collection equipment includes equipment base plate 1 and installs the stop gear on 1 outside surface of equipment base plate, and stop gear is used for fixing equipment base plate 1 on multi-wing unmanned aerial vehicle, and the top surface mounting of equipment base plate 1 has sampling casing 2, and sampling casing 2's internally mounted has sampling mechanism, and sampling mechanism is arranged in gathering the gaseous sample data of atmospheric environment.

Further, stop gear includes limiting bandage 3 and connector link 4, and limiting bandage 3 installs on one side surface of equipment base plate 1, and connector link 4 installs on limiting bandage 3's terminal surface, and equipment base plate 1's opposite side surface mounting has the fixed seat of detaining 5, and connector link 4 uses with the fixed seat of detaining 5 cooperations.

Further, the sampling mechanism includes sampling gasbag 6 and sensor probe 7, the inner wall department at sampling casing 2 is installed to the one end of sampling gasbag 6, sensor probe 7 is installed in the inner wall department of sampling gasbag 6, the outside surface mounting of sampling gasbag 6 has magnet ring 8, the outside surface of magnet ring 8 and the inner wall movable contact of sampling casing 2, the outside surface mounting of magnet ring 8 has connecting spring 9, connecting spring 9's terminal surface is connected to the inner wall department of sampling casing 2, electromagnet 10 is installed to the sampling casing 2 inner wall outside sampling gasbag 6, the outside surface mounting of sampling gasbag 6 has sampling pipeline 11, the outside surface mounting of sampling pipeline 11 has seal valve 12, through groove 13 has been seted up to the inside of sampling casing 2, the outside surface of sampling pipeline 11 and the inner wall movable contact of through groove 13.

Furthermore, the outer side surface of the sensor probe 7 is provided with a Pm2.5 sensor, an oxygen sensor and an SO ₂ Sensor, NO ₂ Sensor and CO ₂ A sensor.

Further, the area management unit comprises an enterprise positioning module, an area dividing module and a data management module, wherein:

the enterprise positioning module is used for positioning the sewage discharge enterprises in the supervision area;

the region dividing module is used for dividing the supervision regions according to the positioning positions of the enterprise positioning module and further dividing the corresponding area supervision regions according to the enterprise scale;

and the data management module is used for receiving the data acquired by the atmospheric environment data acquisition unit and sorting the data in the corresponding monitoring area.

Further, the enterprise supervision unit comprises a power consumption supervision module, a newly-added enterprise reporting module and an enterprise database, wherein:

the power consumption monitoring module is provided with a power consumption monitoring device in the positioned sewage discharging enterprises, and can adopt a power consumption monitoring detector to monitor the power consumption of the sewage discharging enterprises in real time;

a newly added enterprise reporting module is used for reporting when a newly added enterprise exists in the supervision area, and registering the position of the enterprise, the scale of the enterprise and the conventional sewage discharge amount of the enterprise;

and the enterprise database is used for recording the enterprise scale, the conventional power consumption of the enterprise and the conventional emission of the enterprise.

Further, the pollution analysis unit comprises a data analysis module, an abnormal marking module and a warning notification module, wherein:

the data analysis module is used for comparing and analyzing the atmospheric environment information in the environment of the corresponding enterprise, which is arranged by the data management module, with the data of the electric supervision module in the corresponding enterprise, and judging whether the discharge capacity of the corresponding enterprise meets the conventional discharge capacity standard or not;

the abnormal marking module marks the enterprise according to the analysis result of the data analysis module if abnormal data occur, and indicates that the enterprise has the behavior of stealing, draining and missing;

and the warning notification module is used for sending warning notification information to the marked pollution discharge enterprises, and if the secondary marking occurs, sending out the stopping and stopping notification to the pollution discharge enterprises.

Further, ground remote monitoring system includes wireless communication module and remote monitoring module, wherein:

the wireless communication module is used for receiving and transmitting information and instructions so as to realize two-way information transmission between the atmospheric environment data acquisition unit and the remote monitoring module;

the remote monitoring module adopts the form of a ground base station, and an individual can check data in real time through ground monitoring.

In use (in operation), the sealing valve 12 is opened by the control system while the electromagnet 10 is energizedThe electromagnet 10 and the magnet ring 8 are opposite in magnetism, SO that a magnetic repulsion force is generated between the electromagnet 10 and the magnet ring 8, the magnet ring 8 moves along the sampling shell 2, the connecting spring 9 is stretched, the sampling air bag 6 is expanded, gas enters the sampling air bag 6 through the sampling pipeline 11 under the action of negative pressure to contact with the sensor probe 7, and the Pm2.5 sensor, the oxygen sensor and the SO are passed through after the sealing valve 12 is closed ₂ Sensor, NO ₂ Sensor and CO ₂ The method comprises the following steps that a sensor acquires detection data of a gas sample and transmits the detection data to a region management unit;

the method comprises the steps that sewage enterprises in a to-be-detected area are subjected to subarea management through an area management unit, environment data in a corresponding area are obtained, an enterprise supervision unit is used for detecting the power consumption of the sewage enterprises in the to-be-supervised area in real time, and the standard discharge amount of each sewage enterprise is planned;

whether the sewage disposal enterprises have behaviors of stealing, draining and leaking the sewage or not is judged through a pollution analysis unit according to the environmental data in the corresponding area where the sewage disposal enterprises are located and the power consumption of the sewage disposal enterprises through comparison and analysis, if abnormal data occur, the enterprises are marked to indicate that the enterprises have behaviors of stealing, draining and leaking the sewage, warning notification information is sent to the marked sewage disposal enterprises, if secondary marking occurs, the enterprises are sent out a halt and completion notification, automatic unmanned management is realized, the enterprises can be found in time, manual real-time supervision is not needed, the working efficiency is high, the pollution analysis unit is not only suitable for the enterprises, but also can be used for atmospheric environmental quality, serves local governments to control the provincial government-control city-control air stations, and can remind abnormal warning and traceability monitoring through a large data system;

and then the sealing valve 12 is opened again, so that the electromagnet 10 is powered off, the connecting spring 9 is reset to drive the magnet ring 8 to reset, and the sampling air bag 6 is extruded to extrude the gas sample from the sampling pipeline 11, so that the next sampling detection is convenient.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides an atmosphere ecological environment remote supervision equipment based on thing networking, includes atmospheric environment data acquisition unit, regional management unit, enterprise's supervision unit, pollution analysis unit and ground remote monitering system, its characterized in that: wherein:

the atmospheric environment data acquisition unit comprises a remote sensing acquisition module carried by the multi-wing unmanned aerial vehicle and atmospheric data acquisition equipment and is used for automatically acquiring atmospheric environment data in a region to be detected;

the regional management unit is used for carrying out regional management on the pollution discharge enterprises in the region to be detected and acquiring environmental data in the corresponding region;

the enterprise supervision unit is used for detecting the power consumption of the pollution discharge enterprises in the area to be supervised in real time and planning the standard discharge amount of each pollution discharge enterprise;

the pollution analysis unit is used for comparing and analyzing the environmental data in the corresponding area where the pollution discharge enterprise is located and the power consumption of the pollution discharge enterprise, and judging whether the pollution discharge enterprise has the behavior of stealing, discharging and leaking;

the ground remote monitoring system comprises a wireless communication module and a remote monitoring module, and is used for acquiring data information acquired by the atmospheric environment data acquisition unit and checking the data information in real time through the ground base station.

2. The atmospheric ecological environment remote supervision equipment based on the internet of things according to claim 1, characterized in that: the remote sensing acquisition module comprises an infrared camera and an infrared scanner, the infrared camera and the infrared scanner are carried on the multi-wing unmanned aerial vehicle, and the remote sensing acquisition module is connected to the remote monitoring module through the wireless communication module.

3. The atmospheric ecological environment remote supervision equipment based on the internet of things according to claim 1, characterized in that: atmospheric data collection equipment includes equipment base plate (1) and installs the stop gear on equipment base plate (1) outside surface, stop gear is used for fixing equipment base plate (1) on multi-wing unmanned aerial vehicle, the top surface mounting of equipment base plate (1) has sampling casing (2), the internally mounted of sampling casing (2) has sampling mechanism, sampling mechanism is arranged in gathering the gaseous sample data of atmospheric environment.

4. The atmospheric ecological environment remote supervision equipment based on the internet of things according to claim 3, characterized in that: stop gear includes limiting band (3) and connector link (4), one side surface at equipment base plate (1) is installed in limiting band (3), the terminal surface at limiting band (3) is installed in connector link (4), the opposite side surface mounting of equipment base plate (1) has the fixed seat of detaining (5), connector link (4) are used with the fixed seat of detaining (5) cooperation.

5. The atmospheric ecological environment remote supervision equipment based on the internet of things according to claim 3, characterized in that: sampling mechanism is including sampling gasbag (6) and sensor probe (7), the inner wall department at sampling casing (2) is installed to the one end of sampling gasbag (6), the inner wall department at sampling gasbag (6) is installed in sensor probe (7), the outside surface mounting of sampling gasbag (6) has magnet ring (8), the outside surface of magnet ring (8) and the inner wall movable contact of sampling casing (2), the outside surface mounting of magnet ring (8) has connecting spring (9), the terminal surface connection of connecting spring (9) is to the inner wall department of sampling casing (2), electro-magnet (10) are installed to sampling casing (2) inner wall in sampling gasbag (6) outside, the outside surface mounting of sampling gasbag (6) has sampling pipeline (11), the outside surface mounting of sampling pipeline (11) has seal valve (12), the inside of sampling casing (2) has been seted up and has been run through groove (13), the outside surface of sampling pipeline (11) and the inner wall movable contact that runs through groove (13).

6. The atmospheric ecological environment remote supervision equipment based on the internet of things according to claim 5, characterized in that: the outer side surface of the sensor probe (7) is provided with a Pm2.5 sensor, an oxygen sensor and SO ₂ Sensor, NO ₂ Sensor and CO ₂ A sensor.

7. The atmospheric ecological environment remote supervision equipment based on the internet of things according to claim 1, characterized in that: the area management unit comprises an enterprise positioning module, an area dividing module and a data management module, wherein:

the enterprise positioning module is used for positioning the sewage disposal enterprises in the supervision area;

the region dividing module is used for dividing the supervision regions according to the positioning positions of the enterprise positioning module and further dividing the corresponding area supervision regions according to the enterprise scale;

and the data management module is used for receiving the data acquired by the atmospheric environment data acquisition unit and arranging the data in the corresponding monitoring area.

8. The atmospheric ecological environment remote supervision equipment based on the internet of things according to claim 1, characterized in that: the enterprise supervision unit comprises a power consumption supervision module, a newly-added enterprise reporting module and an enterprise database, wherein:

the power consumption monitoring module is provided with a power consumption monitoring device in the positioned sewage disposal enterprises, and can adopt a power consumption monitoring detector to monitor the power consumption of the sewage disposal enterprises in real time;

a newly added enterprise reporting module is used for reporting when a newly added enterprise exists in the supervision area, and registering the position of the enterprise, the scale of the enterprise and the conventional sewage discharge amount of the enterprise;

and the enterprise database is used for recording the enterprise scale, the conventional power consumption of the enterprise and the conventional emission of the enterprise.

9. The atmospheric ecological environment remote supervision equipment based on the internet of things according to claim 1, characterized in that: the pollution analysis unit comprises a data analysis module, an abnormal marking module and a warning notification module, wherein:

the data analysis module is used for comparing and analyzing the atmospheric environment information in the environment of the corresponding enterprise, which is arranged by the data management module, with the data of the electric supervision module in the corresponding enterprise, and judging whether the discharge capacity of the corresponding enterprise meets the conventional discharge capacity standard or not;

the abnormal marking module marks the enterprise according to the analysis result of the data analysis module if abnormal data occur, and indicates that the enterprise has the behavior of stealing, draining and missing;

and the warning notification module is used for sending warning notification information to the marked pollution discharge enterprises, and if the secondary marking occurs, sending out the stopping and stopping notification to the pollution discharge enterprises.

10. The atmospheric ecological environment remote supervision equipment based on the internet of things according to claim 1, characterized in that: ground remote monitering system includes wireless communication module and remote monitoring module, wherein:

the wireless communication module is used for receiving and transmitting information and instructions so as to realize two-way information transmission between the atmospheric environment data acquisition unit and the remote monitoring module;

the remote monitoring module adopts a ground base station form, and an individual can check data in real time through ground monitoring.

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