CN207222152U - Dust treatment resonator flue distributor based on Internet of Things - Google Patents

Abstract

Dust treatment resonator flue distributor based on Internet of Things, belongs to electrostatic precipitation field.It increases the sink-efficiency of flue dust mainly solving the technical problems that the flue dust of flue continuously can be distributed to reasonably to the device of different resonators.It is by flue left side wall, motor housing, the left skew wall of flue, air inducing fans door, first resonator, first resonator left side wall, first particle sensor node, go out the left skew wall of flue, first resonator solenoid, go out flue left side wall, second particle sensor node, go out flue, go out flue right side wall, shaft, go out the right skew wall of flue, 4th resonator solenoid, 3rd particle sensor node, 4th resonator, block plate, the right skew wall of flue, fixed link, flue right side wall, flue, relative coding angular transducer, CC2530 modules, stepper motor, driving stepper motor module, 3rd resonator, 4th resonator side wall forms.It is mainly used for electrostatic precipitation field.

Description

Dust treatment resonator flue distributor based on Internet of Things

Technical field

The utility model belongs to electrostatic precipitation field, refers in particular to the dust treatment resonator flue distribution based on Internet of Things Device.

Background technology

Regional atmosphere polluting problem is on the rise as caused by PM2.5, influences the health and ecological safety of people.Electrostatic removes Dirt is the effective means for administering airborne particulates, but existing electrostatic precipitator technology is handled when administering fine particle Efficiency is low.Processing for fine particle needs to converge it, so that it becomes larger particle.Fine particle is subject to air-flow Have a great influence, rest on convergence electrode plate in time it is very short.Due to being limited be subject to place, it is impossible to provide long Electrode plate is converged, so occurs as soon as a problem, i.e., how in a limited space interior raising subparticle is being converged in electric field Residence time.It can make the process convergence electrode plate of flue dust repeatedly using resonator, so as to increase the probability of subparticle convergence. Just it is easy to be captured by high-pressure electrostatic pole plate after subparticle converges.Resonator processing flue dust needs the time, what flue produced Flue dust is continuous, it is impossible to is interrupted.The processing flue dust of several resonator rotations is thus needed, ensures the continuous row of air flue soot dust Go out.There is presently no the device that the flue dust of flue continuously can be distributed to reasonably to different resonators.In order to solve this Problem, the utility model proposes the dust treatment resonator flue distributor based on Internet of Things.

The content of the invention

In order to which the flue dust of flue continuously reasonably to be distributed to the device of different resonators, increase the remittance of flue dust Poly- efficiency, the utility model proposes the dust treatment resonator flue distributor based on Internet of Things.

Technical solution is used by the utility model solves its technical problem：The utility model device is by the left of flue The left skew wall of wall, motor housing, flue, air inducing fan door, the first resonator, the first resonator left side wall, the first particle sensor section Point, go out the left skew wall of flue, the first resonator solenoid, go out flue left side wall, the second particle sensor node, go out flue, go out Flue right side wall, shaft, go out the right skew wall of flue, the 4th resonator solenoid, the 3rd particle sensor node, the 4th resonance Chamber, block plate, the right skew wall of flue, fixed link, flue right side wall, flue, relative coding angular transducer, CC2530 moulds Block, stepper motor, driving stepper motor module, the second resonator, the 3rd resonator, the 4th resonator side wall composition, its feature It is：Flue left side wall is connected with the first resonator left side wall by the left skew wall of flue, and the first particle sensor node is the same as the One resonator left side wall is connected, and the first resonator solenoid is connected with the first resonator left side wall, the first resonator left side wall It is connected by going out the left skew wall of flue with flue left side wall is gone out, the second particle sensor node is connected with flue left side wall is gone out, and first Resonator solenoid is connected with shaft, and air inducing fan door is connected with shaft, and relative coding angular transducer turns by the way that motor housing is same Axis is connected, and motor housing is connected by fixed link with the right skew wall of flue, and block plate is connected with shaft, the 3rd particle sensor node It is connected with the 4th resonator side wall, goes out flue right side wall and be connected by going out the right skew wall of flue with the 4th resonator side wall, flue Right side wall is connected by the right skew wall of flue with the 4th resonator side wall, and the first resonator is connected with the second resonator, and the 3rd is humorous The chamber that shakes is connected with the second resonator, and the 4th resonator is connected with the 3rd resonator, and the first resonator is connected with the 4th resonator, phase It is connected to encoding angle sensor with CC2530 modules, stepper motor is by driving stepper motor module with CC2530 module phases Even；First resonator is equal with the volume of the second resonator；4th resonator is equal with the 3rd resonator volume；Air inducing fan door Area is 1/3rd of block plate suqare；The length of fixed link is less than the length of the 4th resonator solenoid.

CC2530 is Internet of Things conventional chip.It is a real system-on-chip of the ZigBee applications for 2.4GHz Solution.It can establish powerful network node with low-down total material cost.The chip combines leading RF The excellent performance of transceiver, the enhanced 8051CPU of industrywide standard, In-System Programmable flash memory.CC2530 has different fortune Row mode so that the system that it especially adapts to super low-power consumption requirement.Conversion time between operational mode is short to be further ensure that Low energy expenditure.

Dust treatment situation in first resonator is sent to aggregation node by the first particle sensor node.3rd particle passes Dust treatment situation in 4th resonator is sent to aggregation node by sensor node.Second particle sensor node will go out in flue Soot dust granule situation be sent to aggregation node.Aggregation node carries out data point according to the dust treatment upper limit being pre-stored in memory Analysis.If dust treatment is up to standard in resonator, the flue dust in discharge resonator is opened by the solenoid valve on resonator, together When, aggregation node will send instruction to CC2530 modules, be rotated by driving stepper motor module drive stepper motor, opposite Under the control of encoding angle sensor, air inducing fan door is directed at corresponding resonator, resonator is sucked flue dust.Other resonators Due to corresponding block plate so flue dust cannot be introduced into, so it is achieved that the flue dust of flue reasonably divides by the rotation of distribution plate Match somebody with somebody.

The beneficial effects of the utility model are that the flue dust of flue continuously can be distributed to reasonably to different resonators Device, increase the sink-efficiency of flue dust.It is mainly used for electrostatic precipitation field.

Brief description of the drawings

The utility model is further illustrated with reference to the accompanying drawings and examples.

Fig. 1 is the side sectional structural map of the dust treatment resonator flue distributor based on Internet of Things.

Fig. 2 is distribution plate top view.

Fig. 3 is resonator viewgraph of cross-section.

Fig. 4 is the circuit diagram of the utility model.

1. flue left side wall in figure, 2. motor housings, the left skew wall of 3. flues, 4. air inducing fan door, 5. first resonators, 6. the first resonator left side wall, 7. first particle sensor nodes, 8. go out the left skew wall of flue, 9. first resonator solenoids, 10. going out flue left side wall, 11. second particle sensor nodes, 12. go out flue, and 13. go out flue right side wall, and 14. shafts, 15. go out The right skew wall of flue, 16. the 4th resonator solenoids, 17. the 3rd particle sensor nodes, 18. the 4th resonators, 19. block Plate, the right skew wall of 20. flues, 21. fixed links, 22. flue right side walls, 23. flues, 24. relative coding angular transducers, 25.CC2530 modules, 26. stepper motors, 27. driving stepper motor modules, 28. second resonators, 29. the 3rd resonators, 30. 4th resonator side wall.

Embodiment

In Fig. 1, flue left side wall 1 is connected by the left skew wall 3 of flue with the first resonator left side wall 6, first Grain sensor node 7 is connected with the first resonator left side wall 6, and the first resonator solenoid 9 is the same as 6 phase of the first resonator left side wall Even, the first resonator left side wall 6 is connected by going out the left skew wall 8 of flue with flue left side wall 10 is gone out, the second particle sensor node 11 are connected with flue left side wall 10 is gone out, and the first resonator solenoid 9 is connected with shaft 14, and air inducing fans door 4 and is connected with shaft 14, Relative coding angular transducer 24 is connected by motor housing 2 with shaft 14, and motor housing 2 is by fixed link 21 with the right skew wall of flue 20 are connected, and block plate 19 is connected with shaft 14, and the 3rd particle sensor node 17 is connected with the 4th resonator side wall 30, goes out flue Right side wall 13 is connected by going out the right skew wall 15 of flue with the 4th resonator side wall 30, and flue right side wall 22 is right tiltedly by flue Wall 20 is connected with the 4th resonator side wall 30.

In fig. 2, air inducing fan door 4 is connected with shaft 14, and block plate 19 is connected with air inducing fan door 4,19 same shaft of block plate 14 are connected.

In figure 3, the first resonator 5 is connected with the second resonator 28, and the 3rd resonator 29 is connected with the second resonator 28, 4th resonator, 18 same 3rd resonator 29 is connected, and the first resonator 5 is connected with the 4th resonator 18, the first 5 same turns of resonator Axis 14 is connected, and the second resonator 28 is connected with shaft 14, and the 3rd resonator 29 is connected with shaft 14,18 same shaft of the 4th resonator 14 are connected.

In Fig. 4, relative coding angular transducer 24 is connected with CC2530 modules 25, and stepper motor 26 passes through stepper motor Drive module 27 is connected with CC2530 modules 25.

Claims (5)

1. the dust treatment resonator flue distributor based on Internet of Things, left tiltedly by flue left side wall, motor housing, flue Wall, air inducing fan door, the first resonator, the first resonator left side wall, the first particle sensor node, go out the left skew wall of flue, first Resonator solenoid, go out flue left side wall, the second particle sensor node, go out flue, go out flue right side wall, shaft, smoke The right skew wall in road, the 4th resonator solenoid, the 3rd particle sensor node, the 4th resonator, block plate, flue are right tiltedly Wall, fixed link, flue right side wall, flue, relative coding angular transducer, CC2530 modules, stepper motor, stepper motor Drive module, the second resonator, the 3rd resonator, the 4th resonator side wall composition, it is characterized in that：Flue left side wall by into The left skew wall of flue is connected with the first resonator left side wall, and the first particle sensor node is connected with the first resonator left side wall, the One resonator solenoid is connected with the first resonator left side wall, and the first resonator left side wall is by going out the same smoke of the left skew wall of flue Road left side wall is connected, and the second particle sensor node is connected with flue left side wall is gone out, and the first resonator solenoid is the same as shaft phase Even, air inducing fan door is connected with shaft, and relative coding angular transducer is connected by motor housing with shaft, and motor housing passes through fixed link It is connected with the right skew wall of flue, block plate is connected with shaft, and the 3rd particle sensor node is connected with the 4th resonator side wall, goes out Flue right side wall is connected by going out the right skew wall of flue with the 4th resonator side wall, and flue right side wall is same by the right skew wall of flue 4th resonator side wall is connected, and the first resonator is connected with the second resonator, and the 3rd resonator is connected with the second resonator, and the 4th Resonator is connected with the 3rd resonator, and the first resonator is connected with the 4th resonator, the same CC2530 of relative coding angular transducer Module is connected, and stepper motor is connected by driving stepper motor module with CC2530 modules.

2. the dust treatment resonator flue distributor according to claim 1 based on Internet of Things, it is characterized in that：First is humorous The chamber that shakes is equal with the volume of the second resonator.

3. the dust treatment resonator flue distributor according to claim 1 based on Internet of Things, it is characterized in that：4th is humorous The chamber that shakes is equal with the 3rd resonator volume.

4. the dust treatment resonator flue distributor according to claim 1 based on Internet of Things, it is characterized in that：Air inducing is fanned The area of door is 1/3rd of block plate suqare.

5. the dust treatment resonator flue distributor according to claim 1 based on Internet of Things, it is characterized in that：Fixed link Length be less than the 4th resonator solenoid length.