CN107096641B - Impact analysis platform is moved to particle electrification field based on the humiture of Internet of Things - Google Patents
Impact analysis platform is moved to particle electrification field based on the humiture of Internet of Things Download PDFInfo
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- CN107096641B CN107096641B CN201710375962.9A CN201710375962A CN107096641B CN 107096641 B CN107096641 B CN 107096641B CN 201710375962 A CN201710375962 A CN 201710375962A CN 107096641 B CN107096641 B CN 107096641B
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B03—SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03C—MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03C3/00—Separating dispersed particles from gases or vapour, e.g. air, by electrostatic effect
- B03C3/34—Constructional details or accessories or operation thereof
Abstract
Impact analysis platform is moved to particle electrification field based on the humiture of Internet of Things, belongs to electronic field.It in order to can accurately analyze humiture and be moved on particle electrification field mainly solving the technical problems that influence.It generates case by particle, warming module, semiconductor cooling module, upper hydraulic pump, upper hydraulically extensible axis, upper storage box, upper storage box solenoid valve, upper fan, upper Internet of things node module, high-voltage electricity place, microcontroller, upper side wall, field back zone, lower Internet of things node module, lower fan, lower storage box solenoid valve, lower hydraulically extensible axis, lower hydraulic pump, ccd array, lower wall, humidification module, lower connecting line, lower Temperature Humidity Sensor, upper connecting line, upper Temperature Humidity Sensor, particle generates case solenoid valve, aggregation node, first relay, second relay, upper fan electromotor, lower fan electromotor, lower storage box composition.It is mainly used for electrostatic precipitation field.
Description
Technical field
The invention belongs to electronic field, refers in particular to the humiture based on Internet of Things and impact analysis is moved to particle electrification field
Platform.
Background technology
Dust caused by combustion of fossil fuel is the main source of PM2.5.In a period of time from now on, solar energy, wind
The clean energy resourcies such as energy far can not also replace fossil fuel, especially in the Northeast, heavy industry and the Thermal Power Enterprises master such as steel-making
It is being used or coal-fired.Therefore, the removal of dust particle will be the top priority of the Northeast's environmental protection.Electrostatic removes
Dirt is to administer the effective means of airborne particulates, but existing electrostatic precipitator technology does not have when administering particulate pollutant
The systematic influence for considering humiture to electrostatic precipitation needs to study humiture and move particle electrification field to influence thus, because
And need to build humiture to particle electrification field movement impact analysis platform.Since high-voltage electrostatic field can be to ambient enviroment, especially
It is that humiture has an impact, in order to accurately build required humiture environment, the present invention proposes the temperature based on Internet of Things
Humidity moves impact analysis platform to particle electrification field.
Invention content
It is influenced to can accurately analyze humiture and be moved on particle electrification field, the present invention is proposed based on Internet of Things
Humiture moves impact analysis platform to particle electrification field.
The technical solution adopted by the present invention to solve the technical problems is:Apparatus of the present invention generate case, heating mould by particle
Block, semiconductor cooling module, upper hydraulic pump, upper hydraulically extensible axis, upper storage box, upper storage box solenoid valve, upper fan, upper Internet of Things
Net node module, high-voltage electricity place, microcontroller, upper side wall, field back zone, lower Internet of things node module, lower fan, lower storage box electricity
Magnet valve, lower hydraulically extensible axis, lower hydraulic pump, ccd array, lower wall, humidification module, lower connecting line, lower Temperature Humidity Sensor, on
Connecting line, upper Temperature Humidity Sensor, particle generate case solenoid valve, aggregation node, the first relay, the second relay, upper fan
Motor, lower fan electromotor, lower storage box composition, it is characterized in that:Particle generates case and heats mould by the way that particle generation case solenoid valve is same
Block is connected, and warming module is connected by semiconductor cooling module with humidification module, and upper storage box solenoid valve is connected with upper side wall, on
Storage box is same as above storage box solenoid valve and is connected, and upper hydraulic pump is same as above fan by upper hydraulically extensible axis and is connected, and upper fan is same as above object
Networked node module is connected, and upper Internet of things node module is same as above Temperature Humidity Sensor by upper connecting line and is connected, and upper side wall passes through
High-voltage electricity place is connected with lower wall, and lower wall is connected with ccd array, and lower hydraulic pump is by lower hydraulically extensible axis with lower fan phase
Even, lower storage box is connected with lower storage box solenoid valve, and lower wall is connected with lower storage box solenoid valve, and lower fan is the same as lower Internet of Things section
Point module is connected, and lower Internet of things node module is connected by lower connecting line with lower Temperature Humidity Sensor, the same microcontroller of aggregation node
It is connected, upper hydraulic pump is connected with microcontroller, and particle generates hydraulic pump under case solenoid valve and is connected with microcontroller, lower storage box solenoid valve
It is connected with microcontroller, upper storage box solenoid valve is connected with microcontroller, and ccd array is connected with microcontroller, the same microcontroller of humidification module
It is connected, lower fan electromotor is connected with microcontroller, and upper fan electromotor is connected with microcontroller, and resistance R1 is connected with microcontroller, resistance R2
It is connected with microcontroller, warming module is connected by the first relay with triode T1, and semiconductor cooling module passes through the second relay
Device is connected with triode T2;The length of upper connecting line is less than or equal to the length of upper Internet of things node module;The length of lower connecting line
Less than or equal to the length of lower Internet of things node module;The length of ccd array is more than the width of high-voltage electricity place;The length of upper fan
Less than the length of upper storage box solenoid valve.
The length of upper connecting line is less than or equal to the length of upper Internet of things node module, is rewound to avoid upper Temperature Humidity Sensor
It is damaged on to upper fan.The length of lower connecting line is less than or equal to the length of lower Internet of things node module, warm and humid to avoid under
It is damaged in degree sensor back-roll to lower fan.The length of ccd array is more than the width of high-voltage electricity place, just can guarantee in this way
Shoot with video-corder the motion conditions of particulate matter in the electric field.The length of upper fan is less than the length of upper storage box solenoid valve, such ability
Make fan income to upper storage box, avoids having an impact the movement of particle.
Upper Internet of things node module, lower Internet of things node module, aggregation node are all made of CC2530 modules.
The signal of Temperature Humidity Sensor is sent to convergence section by upper Internet of things node module and lower Internet of things node module respectively
Point.Aggregation node is by direct information microcontroller.Microcontroller by the data sent compared with the numerical value of the required setting of memory,
If temperature is less than setting value, microcontroller, which will send out instruction, makes warming module work;If finger will be sent out higher than setting value microcontroller
Order makes semiconductor cooling module work;If humidity is less than setting value, microcontroller, which will send out instruction, makes module work.After the above work
Microcontroller, which will send out instruction, makes fan and lower fan rotate, to keep ambient temperature and humidity balanced, when Temperature Humidity Sensor detects
To numerical value meet the requirements, microcontroller will send out instruction, so that hydraulically extensible axis and lower hydraulically extensible axis is shunk, by respective temperature
Humidity sensor takes in storage box, and closes upper storage box solenoid valve and lower storage box solenoid valve;Particle generation is opened simultaneously
Case solenoid valve makes particle enter electric field, meanwhile, microcontroller will open ccd array, be recorded to the motion conditions of particle.On
Temperature Humidity Sensor is respectively adopted connecting line with lower Temperature Humidity Sensor and connects and can swing under the action of the forces of the wind, to increase
Detection range.
The beneficial effects of the invention are as follows can accurately analyze humiture and move particle electrification field to influence.It is mainly used for
Electrostatic precipitation field.
Description of the drawings
Present invention will be further explained below with reference to the attached drawings and examples.
Fig. 1 is the vertical view that the humiture based on Internet of Things moves particle electrification field on impact analysis platform.
Fig. 2 is the circuit diagram of the present invention.
1. particles generate case in figure, 2. warming modules, 3. semiconductor cooling modules, hydraulic pump on 4., hydraulically extensible on 5.
Axis, storage box on 6., storage box solenoid valve on 7., fan on 8., Internet of things node module on 9., 10. high-voltage electricity places, 11.
Microcontroller, 12. upper side walls, 13. back zones, 14. times Internet of things node modules, 15. times fans, 16. times storage box solenoid valves,
17. lower hydraulically extensible axis, 18. times hydraulic pumps, 19.CCD arrays, 20. lower walls, 21. humidification modules, 22. times connecting lines, 23.
Lower Temperature Humidity Sensor, connecting line on 24., Temperature Humidity Sensor on 25., 26. particles generate case solenoid valve, 27. aggregation nodes,
28. the first relay, 29. second relays, fan electromotor on 30., 31. times fan electromotors, 32. times storage boxes.
R1, R2 are resistance in figure;T1, T2 are triode.
Specific implementation mode
In Fig. 1, particle generates case 1 and is connected with warming module 2 by particle generation case solenoid valve 26, and warming module 2 is logical
It crosses semiconductor cooling module 3 with humidification module 21 to be connected, upper storage box solenoid valve 7 is connected with upper side wall 12, and upper storage box 6 is same as above
Storage box solenoid valve 7 is connected, and upper hydraulic pump 4 is same as above fan 8 by upper hydraulically extensible axis 5 and is connected, and upper fan 8 is same as above Internet of Things section
Point module 9 is connected, and upper Internet of things node module 9 is same as above Temperature Humidity Sensor 25 by upper connecting line 24 and is connected, and upper side wall 12 is logical
It crosses high voltage electric field area 10 with lower wall 20 to be connected, lower wall 20 is connected with ccd array 19, and lower hydraulic pump 18 passes through lower hydraulically extensible
Axis 17 is connected with lower fan 15, and lower storage box 32 is connected with lower storage box solenoid valve 16, and lower wall 20 is the same as lower storage box solenoid valve
16 are connected, and lower fan 15 is connected with lower Internet of things node module 14, and lower Internet of things node module 14 is by lower connecting line 22 under
Temperature Humidity Sensor 23 is connected.
In fig. 2, aggregation node 27 is connected with microcontroller 11, and upper hydraulic pump 4 is connected with microcontroller 11, and particle generates case electricity
26 times hydraulic pumps of magnet valve 18 are connected with microcontroller 11, and lower storage box solenoid valve 16 is connected with microcontroller 11, upper storage box solenoid valve 7
It is connected with microcontroller 11, ccd array 19 is connected with microcontroller 11, and humidification module 21 is connected with microcontroller 11, lower fan electromotor 31
It is connected with microcontroller 11, upper fan electromotor 30 is connected with microcontroller 11, and resistance R1 is connected with microcontroller 11, the same microcontrollers of resistance R2
11 are connected, and warming module 2 is connected by the first relay 28 with triode T1, and semiconductor cooling module 3 passes through the second relay
29 are connected with triode T2.
Claims (5)
1. moving impact analysis platform to particle electrification field based on the humiture of Internet of Things, case, warming module, half are generated by particle
Conductor cooling module, upper hydraulic pump, upper hydraulically extensible axis, upper storage box, upper storage box solenoid valve, upper fan, upper Internet of Things section
Point module, high-voltage electricity place, microcontroller, upper side wall, field back zone, lower Internet of things node module, lower fan, lower storage box electromagnetism
Valve, lower hydraulically extensible axis, lower hydraulic pump, ccd array, lower wall, humidification module, lower connecting line, lower Temperature Humidity Sensor, upper company
Wiring, upper Temperature Humidity Sensor, particle generate case solenoid valve, aggregation node, the first relay, the second relay, upper fan electricity
Machine, lower fan electromotor, lower storage box composition, it is characterized in that:Particle generates case and generates the same warming module of case solenoid valve by particle
It is connected, warming module is connected by semiconductor cooling module with humidification module, and upper storage box solenoid valve is connected with upper side wall, above deposits
Put case be same as above storage box solenoid valve be connected, upper hydraulic pump by upper hydraulically extensible axis be same as above fan be connected, upper fan is same as above Internet of Things
Net node module is connected, and upper Internet of things node module is same as above Temperature Humidity Sensor by upper connecting line and is connected, and upper side wall passes through height
Piezoelectricity place is connected with lower wall, and lower wall is connected with ccd array, and lower hydraulic pump is by lower hydraulically extensible axis with lower fan phase
Even, lower storage box is connected with lower storage box solenoid valve, and lower wall is connected with lower storage box solenoid valve, and lower fan is the same as lower Internet of Things section
Point module is connected, and lower Internet of things node module is connected by lower connecting line with lower Temperature Humidity Sensor, the same microcontroller of aggregation node
It is connected, upper hydraulic pump is connected with microcontroller, and particle generates case solenoid valve and is connected with microcontroller with lower hydraulic pump, lower storage box electricity
Magnet valve is connected with microcontroller, and upper storage box solenoid valve is connected with microcontroller, and ccd array is connected with microcontroller, and humidification module is the same as single
Piece machine is connected, and lower fan electromotor is connected with microcontroller, and upper fan electromotor is connected with microcontroller, and one end of resistance R1 is the same as microcontroller phase
Even, the other end of resistance R1 is connected with the base stage of triode T1, and one end of resistance R2 is connected with microcontroller, the other end of resistance R2
Base stage with triode T2 is connected, and warming module is connected by the first relay with triode T1, and semiconductor cooling module passes through
Second relay is connected with triode T2.
2. according to claim 1 move impact analysis platform based on the humiture of Internet of Things to particle electrification field, special
Sign is:The length of upper connecting line is less than or equal to the length of upper Internet of things node module.
3. according to claim 1 move impact analysis platform based on the humiture of Internet of Things to particle electrification field, special
Sign is:The length of lower connecting line is less than or equal to the length of lower Internet of things node module.
4. according to claim 1 move impact analysis platform based on the humiture of Internet of Things to particle electrification field, special
Sign is:The length of ccd array is more than the width of high-voltage electricity place.
5. according to claim 1 move impact analysis platform based on the humiture of Internet of Things to particle electrification field, special
Sign is:The length of upper fan is less than the length of upper storage box solenoid valve.
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CN203750476U (en) * | 2014-02-27 | 2014-08-06 | 东北师范大学 | Haze generating device |
CN105268555A (en) * | 2014-06-05 | 2016-01-27 | 东北师范大学 | Dust removing amount control apparatus |
CN105057102A (en) * | 2015-09-01 | 2015-11-18 | 东北师范大学 | Comparison test platform of dust removal efficiency of polar plate |
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