CN206935576U - Prickle based on infrared array positioning is distributed online adjustable plate - Google Patents

Abstract

Prickle based on infrared array positioning is distributed online adjustable plate, belongs to electrostatic precipitation field.It mainly solving the technical problems that can change the distribution of electric field as needed in real time online.It slides brush, the second cunning brush, the 3rd cunning brush by the first prickle, the first lower magnet, electrode plate, left spacing block, left infrared emission array, the first upper magnet, the second upper magnet, mechanical arm electromagnet, vertical arm, transverse arm, the 3rd upper magnet, right infrared receiver array, right spacing block, the 3rd lower magnet, the 3rd prickle, the second lower magnet, the second prickle, rear infrared emission array, preceding receiving array, first and formed, it is characterized in that：One prickle is connected by the first lower magnet with electrode plate, and left infrared emission array is connected by left spacing block with electrode plate, and the first upper magnet is connected with electrode plate, and transverse arm is connected by vertical arm with mechanical arm electromagnet.It is mainly used in electrostatic precipitation field.

Description

Prickle based on infrared array positioning is distributed online adjustable plate

Technical field

The utility model belongs to electrostatic precipitation field, and it is online adjustable to refer in particular to the prickle distribution based on infrared array positioning Pole plate.

Background technology

The clean energy resource such as a period of time from now on, solar energy, wind energy far can not also substitute fossil fuel, particularly in east It is that the heavy industry such as backlands area, steel-making and Thermal Power Enterprises mainly use or coal-fired.Therefore, the removal of dust particle, will be east The top priority of backlands area environmental protection.Electrostatic precipitation is the effective means for administering airborne particulates.Prickle pole plate is quiet There is important application in electric precipitation and bio-electric field.When electrostatic precipitation and bio-electric field are applied, it is sometimes desirable to according to need To change Electric Field Distribution online, for example, changes in distribution of particulate matter etc..There is presently no the electricity that can change prickle electric field online The line of force is distributed, therefore, the utility model proposes the prickle positioned based on infrared array to be distributed online adjustable plate.

The content of the invention

In order to change the distribution of electric field as needed in real time online, the utility model proposes determined based on infrared array The prickle of position is distributed online adjustable plate.

Technical scheme is used by the utility model solves its technical problem：The utility model device by the first prickle, First lower magnet, electrode plate, left spacing block, left infrared emission array, the first upper magnet, the second upper magnet, mechanical arm electromagnetism Iron, vertical arm, transverse arm, the 3rd upper magnet, right infrared receiver array, right spacing block, the 3rd lower magnet, the 3rd prickle, second time magnetic Iron, the second prickle, rear infrared emission array, preceding receiving array, first slide brush, the second cunning brush, the 3rd cunning brush composition, its feature It is：One prickle is connected by the first lower magnet with electrode plate, and left infrared emission array is by left spacing block with electrode plate phase Even, the first upper magnet is connected with electrode plate, and transverse arm is connected by vertical arm with mechanical arm electromagnet, and mechanical arm electromagnet passes through the Two upper magnets are connected with electrode plate, and the 3rd upper magnet is connected with electrode plate, and right infrared receiver array is same by right spacing block Electrode plate is connected, and the 3rd slides brush is connected with electrode plate, and the 3rd prickle is slided brush with the 3rd and is connected, and the 3rd prickle is by under the 3rd Magnet is connected with electrode plate, and second slides brush is connected with electrode plate, and the second prickle is by the second lower magnet with electrode plate phase Even, the first cunning brush is connected with electrode plate, and preceding receiving array is connected with left infrared emission array, and left infrared emission array is the same as rear red Outer emission array is connected, and rear infrared emission array is connected by right the same receiving array of infrared receiver array, the first upper magnet position Between left infrared emission array and right infrared receiver array, the first upper magnet is located at rear infrared emission array and preceding receiving array Between, for the second upper magnet between left infrared emission array and right infrared receiver array, the second upper magnet is located at rear infrared hair To penetrate between array and preceding receiving array, the 3rd upper magnet is between left infrared emission array and right infrared receiver array, and the 3rd Upper magnet is between rear infrared emission array and preceding receiving array；The top edge of left infrared emission array is the same as the first upper magnet Top edge is in same level；The height of first upper magnet is identical with the height of the second upper magnet；The height of 3rd upper magnet It is identical with the height of the second upper magnet；The top edge of the same receiving array of the top edge of infrared emission array is in same level afterwards It is interior.

The top edge of same first upper magnet of the top edge of left infrared emission array is in same level, to ensure to sweep Describe the position of the first upper magnet.The height of first upper magnet is identical with the height of the second upper magnet, is easy to mechanical arm electromagnet The first upper magnet and the second upper magnet are moved as required.The height of 3rd upper magnet is identical with the height of the second upper magnet, just The 3rd upper magnet and the second upper magnet are moved as required in mechanical arm electromagnet.The top edge of infrared emission array ditto connects afterwards Receive array top edge in same level, it is ensured that can scan in the longitudinal direction the first upper magnet and the second upper magnet with And the 3rd upper magnet.

By left infrared emission array and right infrared receiver array can determine the first upper magnet and the second upper magnet and The position of 3rd upper magnet in the longitudinal direction is the coordinate of longitudinal direction, and its principle is that corresponding magnet will stop connecing for infrared ray Receive, it is possible to determine its position.First upper magnet and second can be determined by rear infrared emission array and preceding receiving array The position of upper magnet and the 3rd upper magnet in the lateral direction is horizontal coordinate.Vertical arm is made up of insulating materials, with isolation Influence of the battery lead plate high pressure to mechanical arm.Left spacing block and right spacing block are made up of insulating materials, to completely cut off battery lead plate high pressure Influence to left infrared emission array and right infrared receiver array.First, which slides brush and the second cunning brush and the 3rd effect for sliding brush, is Battery lead plate is reduced with the resistance between prickle.

Transverse arm is mechanical arm, can or manual operation mobile according to computer instruction.The present invention only lifts to describe the problem Three prickles.There can be many prickles in practical application.The vertical arm controlled by transverse arm, can be moved with transverse arm.The one of vertical arm Hold as mechanical arm electromagnet.Infrared emission and receiving array determine the position of upper magnet.After vertical arm is moved to above upper magnet, The power supply of mechanical arm electromagnet is connected, mechanical arm electromagnet will produce electromagnetic field, and attracting with upper magnet, so as to which upper magnet will be with Transverse arm is moved to the place specified.Upper magnet sliding state is kept in moving process, with the attracting magnetic lower accordingly of upper magnet Iron will move with upper magnet, so as to drive the prickle being connected with lower magnet to move, thus the distribution that prickle will be changed.

The beneficial effects of the utility model are can to change the distribution of electric field as needed in real time online.It is mainly used in quiet Electric 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 that the prickle based on infrared array positioning is distributed online adjustable plate.

Fig. 2 is pole plate top view.

1. first prickle in figure, 2. first lower magnets, 3. electrode plates, 4. left spacing blocks, 5. left infrared emission arrays, 6. First upper magnet, 7. second upper magnets, 8. mechanical arm electromagnet, 9. vertical arm, 10. transverse arms, 11. the 3rd upper magnets, 12. is right infrared Receiving array, 13. right spacing blocks, 14. the 3rd lower magnets, 15. the 3rd prickles, 16. second lower magnets, 17. second prickles, 18. Infrared emission array afterwards, receiving array before 19., 20. first slide brush, and 21. second slide brush, and 22. the 3rd slide brush.

Embodiment

In Fig. 1, the first prickle 1 is connected by the first lower magnet 2 with electrode plate 3, and left infrared emission array 5 passes through a left side Spacing block 4 is connected with electrode plate 3, and the first upper magnet 6 is connected with electrode plate 3, and transverse arm 10 is by vertical arm 9 with mechanical arm electromagnetism Iron 8 is connected, and mechanical arm electromagnet 8 is connected by the second upper magnet 7 with electrode plate 3, and the 3rd upper magnet 11 is the same as the phase of electrode plate 3 Even, right infrared receiver array 12 is connected by right spacing block 13 with electrode plate 3, and the 3rd slides brush 22 is connected with electrode plate 3, the Three prickles 15 are slided brush 22 with the 3rd and are connected, and the 3rd prickle 15 is connected by the 3rd lower magnet 14 with electrode plate 3, and second slides brush 21 It is connected with electrode plate 3, the second prickle 17 is connected by the second lower magnet 16 with electrode plate 3, and first slides brush 20 puts down with electrode Plate 3 is connected.

In fig. 2, preceding receiving array 19 is connected with left infrared emission array 5, and left infrared emission array 5 is the same as rear infrared emission Array 18 is connected, and rear infrared emission array 18 is connected by the same receiving array 19 of right infrared receiver array 12, the first upper magnet 6 Between left infrared emission array 5 and right infrared receiver array 12, the first upper magnet 6 is located at rear infrared emission array 18 with before Between receiving array 19, the second upper magnet 7 is between left infrared emission array 5 and right infrared receiver array 12, magnetic on second For iron 7 between rear infrared emission array 18 and preceding receiving array 19, the 3rd upper magnet 11 is located at left infrared emission array 5 and the right side Between infrared receiver array 12, the 3rd upper magnet 11 is between rear infrared emission array 18 and preceding receiving array 19.

Claims (5)

1. the prickle based on infrared array positioning is distributed online adjustable plate, by the first prickle, the first lower magnet, electrode plate, Left spacing block, left infrared emission array, the first upper magnet, the second upper magnet, mechanical arm electromagnet, vertical arm, transverse arm, magnetic on the 3rd Iron, right infrared receiver array, right spacing block, the 3rd lower magnet, the 3rd prickle, the second lower magnet, the second prickle, rear infrared emission Array, preceding receiving array, first slide brush, the second cunning brush, the 3rd cunning brush composition, it is characterized in that：One prickle passes through the first lower magnet It is connected with electrode plate, left infrared emission array is connected by left spacing block with electrode plate, the same electrode plate of the first upper magnet It is connected, transverse arm is connected by vertical arm with mechanical arm electromagnet, and mechanical arm electromagnet is connected by the second upper magnet with electrode plate, 3rd upper magnet is connected with electrode plate, and right infrared receiver array is connected by right spacing block with electrode plate, and the 3rd slides brush together Electrode plate is connected, and the 3rd prickle is slided brush with the 3rd and is connected, and the 3rd prickle is connected by the 3rd lower magnet with electrode plate, and second Sliding brush is connected with electrode plate, and the second prickle is connected by the second lower magnet with electrode plate, and first slides brush with electrode plate phase Even, preceding receiving array is connected with left infrared emission array, and left infrared emission array is connected with rear infrared emission array, rear infrared hair Penetrate array by right the same receiving array of infrared receiver array to be connected, the first upper magnet is located at left infrared emission array and the right side is infrared Between receiving array, the first upper magnet is between rear infrared emission array and preceding receiving array, and the second upper magnet is positioned at left red Between outer emission array and right infrared receiver array, the second upper magnet between rear infrared emission array and preceding receiving array, For 3rd upper magnet between left infrared emission array and right infrared receiver array, the 3rd upper magnet is located at rear infrared emission array Between preceding receiving array.

2. the prickle according to claim 1 based on infrared array positioning is distributed online adjustable plate, it is characterized in that：Zuo Hong The top edge of same first upper magnet of the top edge of outer emission array is in same level.

3. the prickle according to claim 1 based on infrared array positioning is distributed online adjustable plate, it is characterized in that：First The height of upper magnet is identical with the height of the second upper magnet.

4. the prickle according to claim 1 based on infrared array positioning is distributed online adjustable plate, it is characterized in that：3rd The height of upper magnet is identical with the height of the second upper magnet.

5. the prickle according to claim 1 based on infrared array positioning is distributed online adjustable plate, it is characterized in that：It is red afterwards The top edge of the same receiving array of top edge of outer emission array is in same level.