CN206192831U - Multiple spot position video monitoring device of anemoscope location - Google Patents
Multiple spot position video monitoring device of anemoscope location Download PDFInfo
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- CN206192831U CN206192831U CN201621138264.4U CN201621138264U CN206192831U CN 206192831 U CN206192831 U CN 206192831U CN 201621138264 U CN201621138264 U CN 201621138264U CN 206192831 U CN206192831 U CN 206192831U
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Abstract
The utility model discloses a multiple spot position video monitoring device of anemoscope location, including direction instrument, video camera, base, gimbal, base and remote controller, shoot with video -corder on the appearance locates the gimbal, on the base was located to the gimbal, the direction instrument was located on the base, the utility model discloses a set up the check point at the regional peripheral multiple spot of pollution sources, make many check points to monitor same pollution region under same wind direction, and pass through the internet through the IO air interface in the system host board with the information of multiple spot position and transmit control center, put and pollution degree through the central point that the mathematical statistics analysis reach these pollution sources by control center, thereby obtain the real sample data of pollution sources, dynamic monitoring and comprehensive control for the environment provide scientific data, for the internet era on -line monitoring environment and environmental appraisal standardized carrying encircleed effectual foundation.
Description
Technical field
The utility model is related to the atmosphere particle concentration on-line monitoring technique in environmental monitoring technology field, especially a kind of
The multi-point video image monitoring device of anemoscope positioning.
Background technology
The stockyard of construction site, thermal power plant and granular material and volatile organic matter(VOCs)Discharge region is all that particulate matter is dense
The exceeded region occurred frequently of degree, is also the primary pollution source for constituting PM2.5.Because the source of pollution sources might have several, plus
Monitoring process in, wind direction and wind speed moment, the setting orientation of test point did not knew all in change, test point away from pollution sources away from
From for same pollution sources, the result monitored is also different, therefore, causing to the on-line monitoring of pollution sources and right
The measure of the online value of pollution level is extremely difficult, constrains scientific and mobilism the management of environmental pollution.It is existing
Technology, on-line monitoring equipment is all fixed on certain point of pollution sources, due to the monitoring standard disunity to PM2.5, influence inspection
Result is surveyed, data can not truly reflect the actual conditions of institute monitored area, it is impossible to screen the source of pollution sources according to data are uploaded
The authenticity of point and concentration, also cannot intelligent-tracking primary pollution source position coordinate, it is more difficult to it is dirty to environment with environmental impact assessment department
The accurate evaluation of dye.Lack of standardization by the monitor value for being obtained is general, without comparativity, monitoring result can not turn into pollution
The real sample data in source, it is impossible to the data of dynamic monitoring and improvement offer science to environment, it is difficult to make effective ring
Border on-line monitoring and the scheme of the comprehensive regulation.
Utility model content
A kind of multi-point of anemoscope positioning that the purpose of this utility model is directed to the deficiencies in the prior art and provides is regarded
As supervising device, the utility model is used and sets test point in pollution sources area peripheral edge multiple spot so that many test points are in same wind
Same Polluted area is monitored downwards, and the information of multi-point is passed through mutual by the I/O air interfaces in system board
Networking is delivered to control centre, draws center and the pollution journey of the pollution sources by Mathematical Statistics Analysis by control centre
Degree, is mutual for the dynamic monitoring and the comprehensive regulation of environment provide the data of science so as to obtain the real sample data of pollution sources
The networking epoch monitor environment on-line and environmental evaluation standardization provides effective foundation.
Realizing the concrete technical scheme of the utility model purpose is:
A kind of multi-point video image monitoring device of anemoscope positioning, its point is that it includes:
One direction instrument for being provided with hand designations bar, compass detector and wind force direction gage and weathercock switch;
One photorecorder for being provided with Video Camera, antenna, laser range finder, dust instrument;
One is provided with cpu data processor, memory, serial data interface, I/O air interfaces, cell panel and system switching
System board;
One gimbals for being provided with horizontal drive disk, drive shaft and programmable controller, on its horizontal drive disk
Shaft seat is provided with, shaft seat is provided with drive shaft, and programmable controller is electrically connected with horizontal drive disk and drive shaft respectively
Connect;
One pedestal for being provided with installing plate, direction instrument seat and gimbals seat;
One remote control that wireless connection is switched with the system switching of system board and the weathercock of direction instrument;
The photorecorder is in the drive shaft of gimbals, and gimbals are square on the gimbals seat of pedestal
To instrument on the direction instrument seat of pedestal;
The compass detector of the direction instrument, the Video Camera of photorecorder and dust instrument are through data wire and the number of system board
Connected according to concatenation mouth, the programmable controller of gimbals is connected through data wire with the serial data interface of system board;It is described
Weathercock switch be multistation digital switch.
The utility model is used and sets test point in pollution sources area peripheral edge multiple spot so that many test points are under same wind direction
Same Polluted area is monitored, and the information of multi-point is passed through by internet by the I/O air interfaces in system board
Control centre is delivered to, center and the pollution level of the pollution sources is drawn by Mathematical Statistics Analysis by control centre, from
And the real sample data of pollution sources is obtained, it is internet for the dynamic monitoring and the comprehensive regulation of environment provide the data of science
Epoch monitor environment on-line and environmental evaluation standardization provides effective foundation.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model.
Specific embodiment
Refering to Fig. 1, the utility model includes:
One direction instrument for being provided with hand designations bar 11, compass detector 12 and wind force direction gage 13 and weathercock switch 14
1;
One photorecorder 2 for being provided with Video Camera 21, antenna 22, laser range finder 23, dust instrument 25;
One is provided with cpu data processor 31, memory 32, serial data interface 34, I/O air interfaces 33, cell panel 36
And the system board 3 of system switching 35;
One gimbals 4 for being provided with horizontal drive disk 41, drive shaft 42 and programmable controller 43, its level is driven
Moving plate 41 is provided with shaft seat 44, and shaft seat 44 is provided with drive shaft 42, programmable controller 43 respectively with horizontal drive
Disk 41 and drive shaft 42 are electrically connected;
One pedestal 5 for being provided with installing plate 51, direction instrument seat 52 and gimbals seat 53;
One remote control 6 that 14 wireless connections are switched with the system switching 35 of system board 3 and the weathercock of direction instrument 1;
In the drive shaft 42 of gimbals 4, gimbals 4 are located at the gimbals seat of pedestal 5 to the photorecorder 2
On 53, direction instrument 1 is on the direction instrument seat 52 of pedestal 5;
The compass detector 12 of the direction instrument 1, the Video Camera 21 of photorecorder 2 and dust instrument 25 are through data wire and system
The serial data interface 34 of mainboard 3 is connected, and the programmable controller 43 of gimbals 4 is through data wire and the data of system board 3
Concatenation mouth 34 is connected;Described weathercock switch 14 is multistation digital switch.
Embodiment 1
The setting of many test points of the utility model:
Multiple spot detection scheme is designed for the pollution sources to be detected, multiple test points are set by detection scheme, this practicality is new
Each pedestal 5 of type is one, and many playscript with stage directions utility models are sequentially arranged on test point by the installing plate 51 of pedestal 5;
The utility model is connected:
First by the Video Camera 21 of every compass detector of direction instrument 1 12 and photorecorder 2, dust instrument 25 through data wire
It is connected with the serial data interface 34 of system board 3, the programmable controller 43 of gimbals 4 is through data wire and system board 3
Serial data interface 34 connect;I/O air interfaces 33 in mediation system mainboard 3 pass through internet and control centre through antenna 22
Communication connection.
The utility model is so work:
During work, the system switching 35 of 14 and system board 3 is switched by the weathercock of the opening direction instrument 1 of remote control 6;
The wind force direction gage 13 of direction instrument 1 works, and hand designations bar 11 indicates current wind direction, determines current wind-force
And wind direction information and compass detector 12 is transferred to, it is delivered to system through data wire, serial data interface 34 by compass detector 12
Mainboard 3, by after the treatment of cpu data processor 31, being delivered to the program controller PLC of gimbals 4 again through serial data interface 34
Device 43, programmable controller 43 drives the horizontal drive disk 41 and drive shaft 42 of gimbals 4 to work, and makes to be arranged on driving
In rotating shaft 42 Video Camera 21 of photorecorder 2, dust instrument 25 and laser range finder 23 towards with the hand designations bar 11 of direction instrument 1
Sensing is identical, and the dust concentration of object is detected through dust instrument 25, and laser range finder 23 determines the utility model to pollution sources
Distance;Graph text information captured by the monitor value and Video Camera 21 of dust instrument 25 is by cpu data processor in system board 3
Control centre is delivered to by internet by I/O air interfaces 33 and antenna 22 after 31 treatment, memory 32 are stored and by information;
The utility model cell panel 36 can also stand alone as the monitoring of direction instrument of the present utility model 1, video with external power supply
First 2, system board 3 and gimbals 4 are powered.
The technique effect that the utility model is produced:
The utility model is using the detection scheme in pollution sources periphery setting multiple spot, dust on each test point photorecorder 2
The direction of instrument 25 and Video Camera 21 controls by direction instrument 1, that is, be arranged on multiple test points on pollution sources periphery in same wind
Same Polluted area is monitored under environment, to obtain the sample data in same Polluted area difference test point.
By the graph text information captured by the monitor value and Video Camera 21 of dust instrument 25 by CPU numbers in system board 3
Processed according to processor 31, on the one hand stored device 32 is stored, on the other hand by information by I/O air interfaces 33 through antenna 22, mutually
Networking is delivered to control centre, and center and the dirt of appraising and deciding the pollution sources are analyzed by the method for mathematical statistics by control centre
Dye degree, due to the center of pollution sources and pollution level be from multiple test points under same wind direction to same Polluted area
The data being monitored, and obtained with analyzing through mathematical statistics, obtained sample data reliability is greatly improved, adopt
Sample data is gathered from other pollution sources so that with identical technical scheme between the sample data of different Polluted area collections
Comparativity is provided with, is Internet era on-line monitoring for the dynamic monitoring and the comprehensive regulation of environment provide the data of science
Environment and environmental evaluation standardization provide effective foundation.
With the change of wind direction, the hand designations bar 11 of the utility model direction instrument 1 indicates current wind direction, and by sieve
Disk sensor 12 is delivered to system board 3, and system board 3 is after cpu data processor 31 is processed, then is delivered to gimbals
4 programmable controller 43 drives the horizontal drive disk 41 and drive shaft 42 of gimbals 4 to work, and implements to photorecorder 2
The adjustment of dust instrument 25 and the orientation of Video Camera 21.
In order to ensure the direction and the direction of the hand designations bar 11 of direction instrument 1 of dust instrument 25 and the IMAQ of Video Camera 21
Unanimously, be located at photorecorder 2 on gimbals 4 by the utility model, and gimbals 4 are provided with the level drive of rotatable ± 180o
The drive shaft 42 of Moving plate 41, rotatable ± 90o, it is ensured that dust instrument 25 and Video Camera 21 have the scope of enough collections;
The drive device of horizontal drive disk 41 and drive shaft 42 is controlled by programmable controller 43, and programmable controller 43 is through number
It is connected with the cpu data processor 31 of system board 3 according to line, serial data interface 34, therefore, the dust instrument 25 of photorecorder 2 and taking the photograph
The operating configurations of video recorder 21 issue instructions to programmable controller 43 by cpu data processor 31, by program controller PLC
The work of the horizontal drive disk 41 and drive shaft 42 of the control gimbals 4 of device 43;Due to dust instrument of the present utility model 25 and
Video Camera 21 is adjusted in synchronism with direction instrument 1, and the data of monitoring are not influenceed by wind direction, in addition, because each test point is shot with video-corder
The direction of dust instrument 25 and Video Camera 21 controls by direction instrument 1 on instrument 2, so the utility model has each test point certainly
Dynamic origin reference location function.
Each pedestal 5 is during being monitored to Polluted area, detected by the utility model multiple test point
Sample data between there is larger difference, computer is by the way that to sample data auto arrangement, corresponding environmental data is also same
Step storage, you can obtain the emphasis measured value of contaminated area, follows the trail of wind direction, wind environment residing for emphasis measured value, finds out wind direction, wind-force
Relation between pollution concentration, the scheme that the utility model multiple spot is detected reliable foundation for environmental evaluation is provided so that
Multiple spot detection scheme is more reasonable, and the sample data of the on-line monitoring of acquisition is more authentic and valid.
Special loads onto alarm on pedestal 5, when the pollution level severe overweight of Polluted area is detected, this practicality
It is new also to implement audible alarm.
Embodiment 2
The utility model also has the automatic function of catching emphasis monitoring site, below by taking a playscript with stage directions utility model as an example,
It is further described below:The system switching 35 of system board 3 is temporally set, is completed by the time opening of system switching 35
Monitoring is timed to Polluted area, the situation that often there is missing inspection due to periodic monitor, i.e. Polluted area discharge pollutants dense
Degree the highest time be just not powered on, pollute most serious moment it is at large grasp, cause missing inspection.
To prevent missing inspection, the utility model weathercock switch 14 uses multistation digital switch, 14 is switched by weathercock
Polluted area emphasis is monitored, artificial selection three adjacent orientation, i.e. region A, region B and region C in monitored area will
Weathercock switch 14 presses three adjacent direction settings, when the hand designations bar 11 of direction instrument 1 indicates current wind direction in area
In the range of the A of domain, weathercock switch 14 is opened, and is delivered to system board 3 by compass detector 12 and is opened, and is detected through dust instrument 25
The dust concentration of object, laser range finder 23 determines the distance of the utility model to pollution sources;
Graph text information captured by the monitor value and Video Camera 21 of dust instrument 25 by cpu data in system board 3 at
Reason device 31 is processed, and on the one hand stored device 32 is stored, on the other hand by information by I/O air interfaces 33 through antenna 22, internet
Control centre is delivered to, the on-line monitoring to Polluted area A is completed;
Similarly, when the hand designations bar 11 of direction instrument 1 indicates current wind direction in region B or region C, this practicality is new
Type can switch 14 and complete to Polluted area B or the on-line monitoring of region C by weathercock;
The utility model has the automatic function of catching emphasis monitoring site, and the utility model is to region A, region B or area
Teletext transmission captured by the monitor value and Video Camera 21 of domain C dust instrument 25 to system board 3, at cpu data
Reason device 31 is converted into data signal after processing, and sorts successively, and cpu data processor 31 selects pollutant concentration most from high to low
Definite value high, the definite value is compared with the monitor value of original region A, region B or region C, when the definite value more than region A,
During any monitor value of region B or region C, the minimum monitor value of its region A, region B or region C will be replaced, and weathercock is opened
The station for closing 14 is reset, and because the station of weathercock switch 14 is by automatic replacing, and points to the weight of Polluted area all the time
Point pollution source so that the emphasis monitoring point of Polluted area is caught automatically.
Claims (2)
1. the multi-point video image monitoring device that a kind of anemoscope is positioned, it is characterised in that it includes:
One is provided with hand designations bar(11), compass detector(12), wind force direction gage(13)And weathercock switch(14)Side
Xiang Yi(1);
One is provided with Video Camera(21), antenna(22), laser range finder(23), dust instrument(25)Photorecorder(2);
One is provided with cpu data processor(31), memory(32), serial data interface(34), I/O air interfaces(33), battery
Plate(36)And system switching(35)System board(3);
One is provided with horizontal drive disk(41), drive shaft(42)And programmable controller(43)Gimbals(4), its water
Flat drive disk(41)It is provided with shaft seat(44), shaft seat(44)It is provided with drive shaft(42), programmable controller(43)
Respectively with horizontal drive disk(41)And drive shaft(42)Electrical connection;
One is provided with installing plate(51), direction instrument seat(52)And gimbals seat(53)Pedestal(5);
One and system board(3)System switching(35)And direction instrument(1)Weathercock switch(14)The remote control of wireless connection
Device(6);
The photorecorder(2)Located at gimbals(4)Drive shaft(42)On, gimbals(4)Located at pedestal(5)It is universal
Carrier base(53)On, direction instrument(1)Located at pedestal(5)Direction instrument seat(52)On;
The direction instrument(1)Compass detector(12), photorecorder(2)Video Camera(21)And dust instrument(25)Through data wire
With system board(3)Serial data interface(34)Connection, gimbals(4)Programmable controller(43)Through data wire be
System mainboard(3)Serial data interface(34)Connection.
2. the multi-point video image monitoring device that a kind of anemoscope according to claim 1 is positioned, it is characterised in that weathercock
Switch(14)It is multistation digital switch.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621138264.4U CN206192831U (en) | 2016-10-20 | 2016-10-20 | Multiple spot position video monitoring device of anemoscope location |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621138264.4U CN206192831U (en) | 2016-10-20 | 2016-10-20 | Multiple spot position video monitoring device of anemoscope location |
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Publication Number | Publication Date |
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CN206192831U true CN206192831U (en) | 2017-05-24 |
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ID=58732287
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CN201621138264.4U Active CN206192831U (en) | 2016-10-20 | 2016-10-20 | Multiple spot position video monitoring device of anemoscope location |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106568694A (en) * | 2016-10-20 | 2017-04-19 | 上海源投环保科技有限公司 | Anemoscope-positioning type multi-point video monitoring device |
CN112683834A (en) * | 2020-12-31 | 2021-04-20 | 华南智能机器人创新研究院 | Method and system for measuring pollution source by ultraviolet differential absorption method |
-
2016
- 2016-10-20 CN CN201621138264.4U patent/CN206192831U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106568694A (en) * | 2016-10-20 | 2017-04-19 | 上海源投环保科技有限公司 | Anemoscope-positioning type multi-point video monitoring device |
CN112683834A (en) * | 2020-12-31 | 2021-04-20 | 华南智能机器人创新研究院 | Method and system for measuring pollution source by ultraviolet differential absorption method |
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