CN207407924U - Industrial park ambient air quality supervisory systems - Google Patents
Industrial park ambient air quality supervisory systems Download PDFInfo
- Publication number
- CN207407924U CN207407924U CN201721202277.8U CN201721202277U CN207407924U CN 207407924 U CN207407924 U CN 207407924U CN 201721202277 U CN201721202277 U CN 201721202277U CN 207407924 U CN207407924 U CN 207407924U
- Authority
- CN
- China
- Prior art keywords
- monitoring
- industrial park
- air quality
- reference instrument
- supervisory systems
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Abstract
The utility model discloses a kind of industrial park ambient air quality supervisory systems, including sensor, monitoring station and Cloud Server, reference instrument is provided in monitoring station, sensor is arranged in the gridding region of industrial park division or intersection, wireless communication apparatus is all integrated on reference instrument and sensor, wireless communication apparatus can transmit monitoring signals to Cloud Server.The system can carry out industrial park surrounding air monitoring and data calibration correction in real time, achieve the effect that real time monitoring is precisely supervised.
Description
Technical field
The utility model is related to air monitoring technology fields, and system is supervised more particularly to industrial park ambient air quality
System.
Background technology
As China's industry is grown rapidly, air pollution is also increasingly severe, and air monitoring means are relatively deficient
It is weary.Air environment protection is increasingly paid attention to be subject to country, and the air monitering industry in field is segmented as environmental protection,
Receive the attention of government agencies at all levels.
Industrial park be the government in a country or region according to the inherently required of itself economic development, pass through administration means
One piece of region is marked, assembles various production factors, integration of science is carried out in the range of certain space, is improved industrialized intensive strong
Degree, prominent industry characteristic, optimizes function distribution, makes the modernization industry division of labor association for adapting to market competition and industrial upgrading
Make production district.Industrial park has accumulated substantial amounts of factory, inevitably there are the enterprise that some pollute air environment,
There are strict requirements in environmental protection administration to the discharge standard of each enterprise, but is constrained to current regulatory measure, can not be stringent
Effectively enterprise's discharge is supervised, many enterprises all have the behavior for the row of stealing.
Now universal monitoring and managing method is that monitoring station is set in industrial park, by monitoring station to entire industrial park
Air quality is monitored.For this mode there is drawback, the industrial park huge factory and enterprise of general floor space is numerous, and supervises
Survey station is limited to the quantity that its expensive cost is set in industrial park and is extremely limited, when air is contaminated, monitoring station
Data can only reflect the air quality situation in the range of entire garden, and cannot reflect specifically which factory and enterprise is
Discharge beyond standards so formulate Supervision Measures to supervision department and also bring very big difficulty.
The content of the invention
In order to overcome the above-mentioned deficiencies of the prior art, the utility model provides a kind of industrial park ambient air quality prison
Guard system can carry out the factory and enterprise in industrial park the supervision of gridding, can incited somebody to action by above-mentioned supervisory systems
The target factory and enterprise range shorter of discharge beyond standards passes through follow-up monitoring on the spot and determines specific exceeded row in gridding region
Factory is put, achievees the purpose that precision is supervised.
Technical solution is used by the utility model:Monitoring station is set in industrial park, setting standard in monitoring station
Instrument carries out gridding region division, each grid according to the industrial nature of each factory and enterprise and discharge standard to industrial park
Change in region or intersection sets sensor, be integrated with wireless communication apparatus on reference instrument and each sensor, wirelessly
Communication device can transmit monitoring signals to Cloud Server.
The quantity of monitoring station is each or multiple according to the setting 1 of the magnitude range of industrial park.Reference instrument is analyzed including PM10
Instrument, PM2.5 analyzers, SO2Analyzer, NO2Analyzer, CO analyzers and O3One or more of analyzer, PM10 analyzers
It is β attenuation sensors or trace oscillating balance method with the measuring methods of PM2.5 analyzers, NO2The measuring method of analyzer is change
Learn luminescence method, SO2The measuring method of analyzer be ultraviolet fluorescence method, O3The measuring method of analyzer is ultraviolet absorption method, and CO is analyzed
The measuring method of instrument is non-dispersion infrared absorption process or gas filtering correlation infrared absorption method.Reference instrument meets《Surrounding air
Gaseous pollutant(SO2、NO2、O3、CO)Continuous and automatic monitoring system installs checking and accepting technology modular》With《Ambient air particulate matter
(PM10 and PM2.5)The requirement of continuous and automatic monitoring system technology and detection method》, reference instrument carries out school using calibrating gas
Standard, reference instrument the data obtained have authority.
Sensor according to air monitoring need be integrated with monitoring probe, including wind speed, wind direction, temperature, humidity, air pressure,
PM10、PM2.5、PM1、CO2、CO、SO2、NO、NO2、NH3、O3One or more of probe is monitored with VOC.
Industrial park ambient air quality supervisory systems is additionally provided with monitoring vehicle, monitors and is provided with vehicle-mounted regulator on vehicle
Device, monitoring vehicle can go to arbitrary gridding region to be monitored by vehicle-mounted reference instrument, monitor and set on vehicle as needed
Wireless telecommunications system is equipped with, vehicle-mounted reference instrument transmits monitoring signals by wireless telecommunications system to Cloud Server.
Cloud Server includes high in the clouds computer, and high in the clouds computer can receive inductor, reference instrument and vehicle-mounted regulator
The monitoring signals that device is sent.
Industrial park ambient air quality supervisory systems is additionally provided with monitoring unmanned filming apparatus, monitoring unmanned shooting
Device is provided with high-definition camera and wireless communication apparatus, and video and pictorial information can be sent to the high in the clouds meter of Cloud Server
Calculation machine.
Monitoring process:Gridding region is carried out according to the industrial nature of each factory and enterprise and discharge standard to industrial park to draw
Point, there is at least one factory and enterprise in a net region.
Air is monitored in the industrial park surrounding air metastable period first, sensor and reference instrument point
Monitoring signals are not transmitted to high in the clouds computer, monitoring signals are converted into air monitering data by high in the clouds computer, future autobiography
The data of sensor are compared and calibrated with the data from reference instrument, and are consequently formed sensing data calibration equation, often
One sensor has relatively independent data calibration formula.
After calibration, sensor sends monitoring signals, high in the clouds computer at interval of a period of time to high in the clouds computer
Monitoring signals are converted into after air monitering data that data are calibrated according to above-mentioned calibration equation to obtain revised air
Monitoring data, the minimum time interval that sensor sends signal are 1 second.The air that supervisor is provided by high in the clouds computer is supervised
Measured data monitors the factory and enterprise in industrial park in real time, the air monitering superscalar data in a certain gridding region
When, monitoring unmanned filming apparatus is flown, the plant emissions mouth in region is clapped one by one to the gridding region overhead
It takes the photograph, video or pictorial information is sent to high in the clouds computer, supervisor further confirms that super by video or pictorial information
The factory and enterprise of discharge is marked, reaches accurate monitoring effect.
Reference instrument sends monitoring signals at interval of a period of time to high in the clouds computer, and high in the clouds computer turns monitoring signals
It changes air monitering data into, is formed in the data that the data that reference instrument generates after above-mentioned calibration process are generated with inductor
Certain association, when inductor data and reference instrument data difference exceed pre-set scope when, high in the clouds calculate
Chance is again started up calibrating, and forms new data calibration formula.The minimum time interval that reference instrument sends signal is 30 seconds.
When the sensor data exception in a certain gridding region, monitoring vehicle, which is travelled to the inductor region, to be made
It is monitored with vehicle-mounted reference instrument, monitoring signals is sent to high in the clouds computer, which is confirmed by data comparison
If whether normal work working sensor be abnormal, the sensor for checking or more renewing manually is carried out maintenance to sensor,
If working sensor is normal, the corresponding calibration equation of the sensor is modified.
Compared with prior art, the beneficial effects of the utility model are:1. the region division of industrial park gridding causes
The precision higher of air monitoring, real time monitoring can determine the specific grid position of pollution sources, reduce examination scope, and lead to
It crosses unmanned plane and further determines that specific discharge beyond standards factory;2. since reference instrument involves great expense, it is impossible in each net
All using reference instrument in the region formatted, the cost of reference instrument is 15 times of inductor or more, using in the utility model
The mode that inductor and reference instrument match can greatly reduce cost;3. due to the presence of alignment mechanism so that entire system
The monitoring data accurate performance of system accesses sufficient guarantee;4. high degree of automation round-the-clock can monitor, system is reduced
Operation and maintenance cost.
Description of the drawings
Tu1Wei industrial parks ambient air quality supervisory systems schematic diagram;
In figure, 1, industrial park;2nd, gridding region;3rd, factory and enterprise;4th, sensor;5th, high in the clouds computer;6th, monitor
Vehicle;7th, unmanned plane;8th, monitoring station.
Specific embodiment
Gridding region division, a net are carried out to industrial park according to the industrial nature of each factory and enterprise and discharge standard
There is at least one factory and enterprise in lattice region.
Air is monitored in the industrial park surrounding air metastable period first, sensor and reference instrument point
Monitoring signals are not transmitted to high in the clouds computer, monitoring signals are converted into air monitering data by high in the clouds computer, future autobiography
The data of sensor are compared and calibrated with the data from reference instrument, and are consequently formed sensing data calibration equation, often
One sensor has relatively independent data calibration formula.
After calibration, sensor sends monitoring signals, high in the clouds computer at interval of a period of time to high in the clouds computer
Monitoring signals are converted into after air monitering data that data are calibrated according to above-mentioned calibration equation to obtain revised air
Monitoring data, the minimum time interval that sensor sends signal are 1 second.The air that supervisor is provided by high in the clouds computer is supervised
Measured data monitors the factory and enterprise in industrial park in real time, the air monitering superscalar data in a certain gridding region
When, monitoring unmanned filming apparatus is flown, the plant emissions mouth in region is clapped one by one to the gridding region overhead
It takes the photograph, video or pictorial information is sent to high in the clouds computer, supervisor further confirms that super by video or pictorial information
The factory and enterprise of discharge is marked, reaches accurate monitoring effect.
Reference instrument sends monitoring signals at interval of a period of time to high in the clouds computer, and high in the clouds computer turns monitoring signals
It changes air monitering data into, is formed in the data that the data that reference instrument generates after above-mentioned calibration process are generated with inductor
Certain association, when inductor data and reference instrument data difference exceed pre-set scope when, high in the clouds calculate
Chance is again started up calibrating, and forms new data calibration formula.The minimum time interval that reference instrument sends signal is 30 seconds.
When the sensor data exception in a certain gridding region, monitoring vehicle, which is travelled to the inductor region, to be made
It is monitored with vehicle-mounted reference instrument, monitoring signals is sent to high in the clouds computer, which is confirmed by data comparison
If whether normal work working sensor be abnormal, the sensor for checking or more renewing manually is carried out maintenance to sensor,
If working sensor is normal, the corresponding calibration equation of the sensor is modified.
Above-described embodiment is only the technical concepts and features for illustrating the utility model, and its object is to allow be familiar with technique
Personage can understand the content of the utility model and implement according to this, can not the scope of protection of the utility model be limited with this.
All equivalent change or modifications made according to the utility model Spirit Essence, should all cover the scope of protection of the utility model it
It is interior.
Claims (6)
1. industrial park ambient air quality supervisory systems including sensor, monitoring station and Cloud Server, is provided in monitoring station
Reference instrument, it is characterised in that:Sensor be arranged on industrial park division gridding region in or intersection, reference instrument with
Wireless communication apparatus is all integrated on sensor, wireless communication apparatus can transmit monitoring signals to Cloud Server;It is additionally provided with
Monitoring unmanned filming apparatus, monitoring unmanned filming apparatus are provided with high-definition camera and wireless communication apparatus, can will regard
Frequency and pictorial information are sent to Cloud Server.
2. ambient air quality supervisory systems in industrial park according to claim 1, it is characterised in that:Number of sensors with
The corresponding proportional setting of quantity in gridding region, each sensor need to be integrated with monitoring probe, bag according to air monitoring
Include wind speed, wind direction, temperature, humidity, air pressure, PM10, PM2.5, PM1, CO2、CO、SO2、NO、NO2、NH3、O3It monitors and pops one's head in VOC
One or more of.
3. ambient air quality supervisory systems in industrial park according to claim 1, it is characterised in that:Monitoring station is according to reality
The range size of border industrial park to be monitored, quantity are one or more, and reference instrument includes PM10 analyzers, PM2.5 is analyzed
Instrument, SO2Analyzer, NO2Analyzer, CO analyzers and O3One or more of analyzer.
4. ambient air quality supervisory systems in industrial park according to claim 2, it is characterised in that:PM10 analyzers and
The measuring method of PM2.5 analyzers be β attenuation sensors or trace oscillating balance method, NO2The measuring method of analyzer is chemistry
Luminescence method, SO2The measuring method of analyzer be ultraviolet fluorescence method, O3The measuring method of analyzer be ultraviolet absorption method, CO analyzers
Measuring method be non-dispersion infrared absorption process or gas filtering correlation infrared absorption method.
5. ambient air quality supervisory systems in industrial park according to claim 1, it is characterised in that:Cloud Server includes
High in the clouds computer, high in the clouds computer can receive the monitoring signals that inductor and reference instrument are sent, and can believe detection
Number being converted into data is handled.
6. ambient air quality supervisory systems in industrial park according to claim 1, it is characterised in that:Industrial park environment
Air quality supervisory systems is additionally provided with monitoring vehicle, monitors and vehicle-mounted reference instrument is provided on vehicle, and monitoring vehicle can be as needed
Arbitrary gridding region is gone to be monitored by vehicle-mounted reference instrument, monitors and is provided with wireless telecommunications system on vehicle, it is vehicle-mounted
Reference instrument transmits monitoring signals by wireless telecommunications system to Cloud Server.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721202277.8U CN207407924U (en) | 2017-09-20 | 2017-09-20 | Industrial park ambient air quality supervisory systems |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721202277.8U CN207407924U (en) | 2017-09-20 | 2017-09-20 | Industrial park ambient air quality supervisory systems |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207407924U true CN207407924U (en) | 2018-05-25 |
Family
ID=62405986
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721202277.8U Active CN207407924U (en) | 2017-09-20 | 2017-09-20 | Industrial park ambient air quality supervisory systems |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207407924U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109164214A (en) * | 2018-09-13 | 2019-01-08 | 潘小乐 | A kind of positioning of boundary pollution sources fast mapping and intensity Inversion System and method |
CN110567523A (en) * | 2019-09-09 | 2019-12-13 | 福建工程学院 | Regional temperature and humidity detection method and device based on Internet of vehicles system |
CN112379045A (en) * | 2020-10-28 | 2021-02-19 | 南京润江安全环保科技有限公司 | Atmospheric diffusion prediction system |
-
2017
- 2017-09-20 CN CN201721202277.8U patent/CN207407924U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109164214A (en) * | 2018-09-13 | 2019-01-08 | 潘小乐 | A kind of positioning of boundary pollution sources fast mapping and intensity Inversion System and method |
CN109164214B (en) * | 2018-09-13 | 2021-04-13 | 潘小乐 | Boundary pollution source fast mapping positioning and intensity inversion system and method |
CN110567523A (en) * | 2019-09-09 | 2019-12-13 | 福建工程学院 | Regional temperature and humidity detection method and device based on Internet of vehicles system |
CN112379045A (en) * | 2020-10-28 | 2021-02-19 | 南京润江安全环保科技有限公司 | Atmospheric diffusion prediction system |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN107505005A (en) | Industrial park ambient air quality supervisory systems | |
CN201607390U (en) | Ambient air quality monitoring device | |
US10670572B2 (en) | Wireless exposure monitor | |
CN107612999A (en) | The accurate monitoring system of air gridding | |
CN207407924U (en) | Industrial park ambient air quality supervisory systems | |
CN203259191U (en) | Vehicle-mounted environment emergency monitoring system | |
JP2013531244A5 (en) | ||
CN111103397A (en) | Atmospheric pollution tracing monitoring method | |
CN105334147A (en) | Online particle monitoring system and method based on beta ray method and light scattering method | |
CN207586083U (en) | A kind of unmanned plane and air pollution surveillance system | |
CN109164214B (en) | Boundary pollution source fast mapping positioning and intensity inversion system and method | |
CN210221806U (en) | Pollution determination calibration vehicle and vehicle-mounted tail gas detection equipment thereof | |
CN113655175A (en) | Gridding air monitoring method, system, computer equipment and storage medium | |
CN107764951A (en) | Industrial park ambient air quality supervisory systems | |
CN109765154B (en) | Online calibration system and calibration method for PM2.5/PM10 light scattering particulate matter monitor | |
KR20150103750A (en) | Network measuring greenhouse gases in the atmosphere | |
CN103969415A (en) | Movable type water pollution data acquisition system and movable type water pollution data acquisition method | |
CN105043826B (en) | A kind of intelligent constant-temperature multichannel atmospheric sampling method | |
CN107677317A (en) | Flue dust gas sampling comprehensive detection system | |
CN115060850B (en) | Air-ground double-field coupling atmospheric pollution source tracking and flux measuring device and method | |
CN205486358U (en) | Monitoring system of crowd's density and flow direction | |
CN112611688A (en) | Automatic calibration device and method for atmosphere monitoring equipment | |
CN208060462U (en) | Industrial park ambient air quality supervisory systems | |
CN109308746A (en) | A kind of petroleum chemical enterprise's intelligent inspection system and method based on Internet of Things | |
CN109239272B (en) | Vehicle-mounted mobile highway construction atmospheric environment monitoring system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CP01 | Change in the name or title of a patent holder | ||
CP01 | Change in the name or title of a patent holder |
Address after: 510000 South Keyun Road, Haizhu District, Guangzhou City, Guangdong Province Patentee after: Guangdong Cordillon Technology Co., Ltd. Address before: 510000 South Keyun Road, Haizhu District, Guangzhou City, Guangdong Province Patentee before: Guangdong Xianhe, Dillon Technology Co. Ltd. |