CN112214538A

CN112214538A - Intelligent gridding system based on ambient air micro station

Info

Publication number: CN112214538A
Application number: CN202011138471.0A
Authority: CN
Inventors: 何燕
Original assignee: Shanghai Weihan Environmental Protection Technology Co ltd
Current assignee: Shanghai Weihan Environmental Protection Technology Co ltd
Priority date: 2020-10-22
Filing date: 2020-10-22
Publication date: 2021-01-12

Abstract

The invention discloses an intelligent gridding system based on an ambient air micro station, which comprises a data monitoring module, a data receiving module, a data calculating module, a grade judging module, a synchronous transmission module, an early warning display module and a scheme providing module, wherein the output end of the data monitoring module is connected with the input end of the data receiving module, the output end of the data receiving module is connected with the input end of the data calculating module, the output end of the data calculating module is connected with the output end of the grade judging module, and the output end of the grade judging module is respectively connected with the input ends of the synchronous transmission module and the early warning display module. The monitoring system is simple and convenient to process, reflects the pollution level in real time, judges the running path, searches for a corresponding solution, processes in time, reduces the environmental pollution degree, controls the pollution risk in time, enlarges the prevention range, is favorable for environmental protection, and is suitable for popularization.

Description

Intelligent gridding system based on ambient air micro station

Technical Field

The invention relates to the technical field of atmospheric environment monitoring, in particular to an intelligent gridding system based on an ambient air micro station.

Background

In order to respond to the requirements of ecological environment monitoring network construction, a compact environment air monitoring system with high-density gridding layout, low cost and multi-parameter integration is realized, the atmospheric pollution monitoring with high space-time resolution is realized, the intelligent gridding platform construction of an environment air micro station can realize multi-aspect and all-around grasping and control of the air quality in an area, the technical support is provided for the real-time, networking, automation and visualization of pollutant investigation and management, and the powerful scientific support is provided for the accurate management and relevant decision of the environment air quality. The miniature environmental air monitoring system adopts technical means such as electrochemistry, semiconductor infrared, PID, light scattering and the like, has simple measurement principle, can monitor dangerous gases such as SO2, NO2, CO, TVOC, O3 and the like in environmental air, and simultaneously combines meteorological conditions such as measured wind speed, wind direction (matching) and the like to quickly generate data and timely transmit the data to a platform for data storage and analysis through a self-contained transmission unit, SO as to trace the source and give an early warning to the dangerous gases. The method is different from the traditional environment informatization software product, is brand-new based on the concept of Internet of things and cloud computing, comprehensively meets the data mining and visual display requirements of large data with high space-time resolution and massive environment, and realizes the rapid mining, professional analysis and flexible display of the large data with air quality. Closely cooperate with air quality sensing network, form to the whole flow of air quality, all-round, all-weather seamless management, provide simple, practical, effectual management instrument for city environment manager, current air micro-station lacks one set of complete implementation system for the step of data acquisition is complicated, and the treatment methods difficulty, great increase the degree of difficulty of environmental monitoring, consequently, we have proposed a based on the intelligent meshing system of environmental air micro-station is used for solving above-mentioned problem.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides an intelligent gridding system based on an ambient air micro station.

The invention provides an intelligent gridding system based on an ambient air micro station, which comprises a data monitoring module, a data receiving module, a data calculating module, a grade judging module, a synchronous transmission module, an early warning display module and a scheme providing module, wherein the output end of the data monitoring module is connected with the input end of the data receiving module, the output end of the data receiving module is connected with the input end of the data calculating module, the output end of the data calculating module is connected with the output end of the grade judging module, the output end of the grade judging module is respectively connected with the input ends of the synchronous transmission module and the early warning display module, the output end of the early warning display module is connected with the input end of the scheme providing module, and the input end of the data receiving module is further connected with a conversion calculating unit.

Preferably, the data monitoring module still includes data acquisition unit, sensing monitoring unit and position determination unit, the data acquisition unit is used for acquireing the air quality real-time information of monitoring sites such as air station, monitoring station to detect pollution factor's concentration, the sensing monitoring unit includes sensor equipment, sensor equipment includes wind velocity transducer and concentration sensor, the position determination unit includes positioning sensor, the data monitoring module is arranged in monitoring the component content in the air to with corresponding position and the concentration data upload to data receiving module who monitors.

Preferably, the conversion calculation unit is configured to convert the received corresponding information to ensure smooth transmission in the system, and the data receiving module is configured to receive the monitoring data and convert and transmit the data.

Preferably, the output end of the data calculation module is connected with a big data unit, a concentration calculation unit, a speed calculation unit and a path calculation unit, the big data unit is used for synchronizing internet information and integrating other cases to ensure calculation accuracy, the concentration calculation unit is used for calculating the content of pollution factors in the air, the speed calculation unit is used for calculating the propagation speed of the pollution factors, the path calculation unit is used for calculating the movement track of the pollution factors, and the data calculation module is used for calculating each index of the processed data and uploading the calculation result to the grade judgment module.

Preferably, the level judgment module judges the risk level of the calculated data, judges four levels, i.e., a low level, a medium level, a high level and an extra high level, according to the concentration and the propagation speed of the pollution factor, and displays the levels, and the synchronous transmission module is used for synchronously uploading the judged levels and the position information to the mobile terminal and the computer platform.

Preferably, the early warning display module further comprises a color definition unit and a real-time positioning unit, the color definition unit is used for distinguishing colors of the risk grades, and the real-time positioning unit is used for following and positioning the pollution factors which are transmitted in real time and highlighting the color of the running track through the color definition unit.

Preferably, the solution providing module is used for providing corresponding solutions and actual cases for pollution levels, and providing a basis for solving pollution.

The invention monitors the content of components in the air through a data monitoring module, uploads the position and concentration data which are correspondingly monitored to a data receiving module, receives the monitoring data through the data receiving module, converts, processes and transmits the data, calculates each index of the processed data through a data calculating module, uploads the calculation result to a grade judging module, judges the calculated data through the grade judging module according to the risk grade, judges four grades of low grade, middle grade, high grade and extra high grade according to the concentration and the transmission speed of pollution factors, displays the grades, synchronously uploads the judged grades and position information to a mobile terminal and a computer platform, distinguishes the colors of the risk grades through a color defining unit, and carries out follow-up positioning on the pollution factors which are transmitted in real time through a real-time positioning unit, and the color definition unit performs color highlighting on the running track, and the scheme providing module provides a corresponding solution and an actual case for solving the pollution aiming at the pollution level. The monitoring system is simple and convenient to process, reflects the pollution level in real time, judges the running path, searches for a corresponding solution, is more timely in processing, reduces the environmental pollution degree, timely controls the pollution risk, expands the prevention range, is favorable for environmental protection, and is suitable for popularization.

Drawings

FIG. 1 is a schematic block diagram of an intelligent grid system based on an ambient air micro station according to the present invention;

FIG. 2 is a partial structural block diagram of an intelligent grid system based on an ambient air micro station according to the present invention;

fig. 3 is a partial structural block diagram of an intelligent grid system based on an ambient air micro station according to the present invention.

Detailed Description

The present invention will be further illustrated with reference to the following specific examples.

Examples

Referring to fig. 1-3, an intelligent gridding system based on an ambient air micro station comprises a data monitoring module, a data receiving module, a data computing module, a grade judging module, a synchronous transmission module, an early warning display module and a scheme providing module, wherein the output end of the data monitoring module is connected with the input end of the data receiving module, the output end of the data receiving module is connected with the input end of the data computing module, the output end of the data computing module is connected with the output end of the grade judging module, the output end of the grade judging module is respectively connected with the input ends of the synchronous transmission module and the early warning display module, the output end of the early warning display module is connected with the input end of the scheme providing module, and the input end of the data receiving module is further connected.

In this embodiment, the data monitoring module further includes a data acquisition unit, a sensing monitoring unit and a position determination unit, the data acquisition unit is used for acquiring the air quality real-time information of monitoring sites such as an air station and a monitoring station, and detecting the concentration of pollution factors, the sensing monitoring unit includes sensor equipment, the sensor equipment includes an air velocity transducer and a concentration sensor, the position determination unit includes a positioning sensor, the data monitoring module is used for monitoring the component content in the air, and uploading the position and concentration data corresponding to monitoring to the data receiving module.

In this embodiment, the conversion calculation unit is configured to convert the received corresponding information to ensure smooth transmission in the system, and the data receiving module is configured to receive the monitoring data and convert and transmit the data.

In this embodiment, an output end of the data calculation module is connected to a big data unit, a concentration calculation unit, a speed calculation unit and a path calculation unit, the big data unit is used for synchronizing internet information and integrating other cases to ensure calculation accuracy, the concentration calculation unit is used for calculating the content of pollution factors in the air, the speed calculation unit is used for calculating the propagation speed of the pollution factors, the path calculation unit is used for calculating the movement track of the pollution factors, and the data calculation module is used for calculating each index of the processed data and uploading the calculation result to the grade judgment module.

In this embodiment, the level determination module determines the risk level of the calculated data, determines four levels, i.e., a low level, a medium level, a high level, and an extra high level, according to the concentration and the propagation speed of the pollution factor, and displays the levels, and the synchronous transmission module is configured to synchronously upload the determined levels and location information to the mobile terminal and the computer platform.

In this embodiment, the early warning display module further includes a color definition unit and a real-time positioning unit, the color definition unit is used for distinguishing colors of the risk levels, the real-time positioning unit is used for following and positioning the pollution factors propagated in real time, and color highlighting is performed on the operation track through the color definition unit.

In this embodiment, the solution providing module is configured to provide a corresponding solution and an actual case for the pollution level, and is configured to provide a basis for solving the pollution.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a based on intelligent meshing system of ambient air micro-station, provides the module including data monitoring module, data receiving module, data calculation module, grade judgment module, synchronous transmission module, early warning display module and scheme, its characterized in that, the output of data monitoring module is connected with data receiving module's input, data receiving module's output and data calculation module's input are connected, data calculation module's output and grade judgment module's output are connected, grade judgment module's output is connected with synchronous transmission module and early warning display module's input respectively, early warning display module's output and scheme provide the input of module and be connected, data receiving module's input still is connected with conversion calculation unit.

2. The intelligent grid system based on the ambient air micro station is characterized in that the data monitoring module further comprises a data acquisition unit, a sensing monitoring unit and a position determination unit, the data acquisition unit is used for acquiring real-time air quality information of monitoring stations such as an air station and a monitoring station and detecting the concentration of pollution factors, the sensing monitoring unit comprises sensor equipment, the sensor equipment comprises a wind speed sensor and a concentration sensor, the position determination unit comprises a positioning sensor, and the data monitoring module is used for monitoring the content of components in the air and uploading the corresponding monitored position and concentration data to the data receiving module.

3. The intelligent meshing system based on the ambient air micro station as claimed in claim 1, wherein the conversion calculation unit is configured to convert the received corresponding information to ensure smooth transmission in the system, and the data receiving module is configured to receive the monitoring data and convert the data for transmission.

4. The intelligent grid system based on the ambient air micro-station is characterized in that the output end of the data calculation module is connected with a big data unit, a concentration calculation unit, a speed calculation unit and a path calculation unit, the big data unit is used for synchronizing internet information and integrating other cases to ensure the accuracy of calculation, the concentration calculation unit is used for calculating the content of pollution factors in the air, the speed calculation unit is used for calculating the propagation speed of the pollution factors, the path calculation unit is used for calculating the movement track of the pollution factors, and the data calculation module is used for calculating each index of the processed data and uploading the calculation result to the grade judgment module.

5. The system as claimed in claim 1, wherein the level determination module determines the risk level of the calculated data, determines four levels of low level, medium level, high level and extra high level according to the concentration and propagation speed of the pollution factor, and displays the levels, and the synchronous transmission module is configured to synchronously upload the determined levels and location information to the mobile terminal and the computer platform.

6. The intelligent gridding system based on the ambient air micro-station is characterized in that the early warning display module further comprises a color definition unit and a real-time positioning unit, wherein the color definition unit is used for distinguishing colors of risk grades, and the real-time positioning unit is used for following and positioning real-time spread pollution factors and highlighting the color of the running track through the color definition unit.

7. The intelligent grid system based on ambient air micro-stations as claimed in claim 1, wherein the solution providing module is used for providing corresponding solutions and actual cases for pollution levels, and providing a basis for solving pollution.