CN113145308A

CN113145308A - Electrostatic air purifier based on signal output

Info

Publication number: CN113145308A
Application number: CN202110481540.6A
Authority: CN
Inventors: 路笃华
Original assignee: Individual
Current assignee: Beijing Huaisheng Technology Service Co ltd
Priority date: 2021-04-30
Filing date: 2021-04-30
Publication date: 2021-07-23
Anticipated expiration: 2041-04-30
Also published as: CN113145308B

Abstract

The invention discloses an electrostatic air purifier based on signal output, which comprises a shell, wherein a filter screen is fixed on the right side of the shell, a motor is arranged in the shell, one end of the motor is connected with a gear disc through a bearing, a bearing disc is meshed with a gear on the outer side of the gear disc, a friction wheel is fixed on the outer side of the bearing disc, a friction ring is arranged on the right side of the friction wheel and fixedly connected with the filter screen, an air blower is arranged on the left side of the shell, a magnetic wheel is fixed below the filter screen, a rotating wheel is connected with the outer side of the magnetic wheel through a bearing, the rotating wheel is connected with a track of the bearing disc, one half of the magnetic wheel has magnetism, a scraping plate is arranged below the magnetic wheel and fixedly connected with the bottom of the shell, a material receiving disc is fixed below the right side of the shell, a flexible film is arranged in the material receiving disc, and the left and right ends of the flexible film are respectively and fixedly connected with the inner wall of the material receiving disc, the invention has the characteristics of automatic change of adsorption strength and filling function.

Description

Electrostatic air purifier based on signal output

Technical Field

The invention relates to the technical field of air purification, in particular to an electrostatic air purifier based on signal output.

Background

In a metallurgical plant, the air contains a large amount of graphite dust, the graphite has good chemical stability on the surface of the existing research, the graphite subjected to special processing has the characteristics of corrosion resistance, good heat conductivity, low permeability and the like, the graphite is applied to the wet metallurgy industrial department in a large amount, a large amount of metal materials can be saved, the lung cancer can be caused by the symptoms of pathological changes caused by inhalation of personnel, and when the graphite powder is used for metallurgy, the metal is dispersed into the air after being mixed into the graphite dust.

The existing electrostatic air purifier can not automatically change the adsorption degree of static electricity to graphite dust by judging the amount of the graphite dust when air is purified, and can not fill the interior of the device by collecting the graphite dust.

Disclosure of Invention

The present invention is directed to an electrostatic air cleaner based on signal output to solve the above problems.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an electrostatic air purifier based on signal output, includes the casing, its characterized in that: the casing right side is fixed with the filter screen, the inside motor that is provided with of casing, the one end bearing of motor is connected with the toothed disc, toothed disc outside gear engagement has the bearing dish, the bearing dish outside is fixed with the friction pulley, the friction pulley right side is provided with the friction ring, friction ring and filter screen fixed connection, the casing left side is provided with the air-blower.

According to the technical scheme, the magnetic wheel is fixed below the filter screen, the bearing on the outer side of the magnetic wheel is connected with the rotating wheel, the rotating wheel is connected with the crawler belt of the bearing disc, half of the magnetic wheel has magnetism, the scraper is arranged below the magnetic wheel and fixedly connected with the bottom of the shell, and the receiving disc is fixed below the right side of the shell.

According to the technical scheme, the inside flexile membrane that is provided with of take-up pan, both ends respectively with take-up pan inner wall fixed connection about the flexile membrane, flexile membrane bottom and take-up pan bottom spring coupling, the flexile membrane below is connected with toothed disc inner tube, the inside sliding connection of toothed disc has the slider, slider all is fixed with the rack with half surface of toothed disc, half of bearing dish inner wall is fixed with the tooth piece.

According to the technical scheme, the bearing disc outside is fixed with the eccentric ball, eccentric ball below hinged joint has the stripper plate, the stripper plate outside sliding connection has row material storehouse, friction disc fixed surface has the friction disc, the friction disc inboard is fixed with fills up the storehouse, it is provided with the feed inlet to arrange material storehouse right side top, the feed inlet is connected with flexifimembrane upper surface pipe, arrange the material storehouse and fill storehouse internal piping connection.

According to the technical scheme, flexible cotton is fixed on the inner side of the filling bin, a centrifugal ball is connected to the outer side of the bearing disc through a spring, and a plurality of small holes are formed in the inner side surface of the friction plate.

According to the technical scheme, a coupler is fixed in the middle of the feeding hole, an eccentric column is fixed on the surface of the outer side of the coupler, a ball body is fixed in the middle of the flexible membrane, and the ball body is connected with the eccentric column through a hinge.

According to the technical scheme, the inner wall of the friction plate is magnetic, and the motor is connected with the front inner wall and the rear inner wall of the shell in a sliding mode.

According to the technical scheme, the eccentric ball is located at the rear side of the friction ring.

According to the technical scheme, the left side surface of the friction ring is a friction layer with graphite raised grains.

According to the technical scheme, the friction plate is filled with wear-resistant graphite particles and is made of the same material as graphite dust.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the magnetic wheel is arranged, so that a large amount of graphite dust on the surface of the filter screen can be fully adsorbed, the graphite dust in the air is purified, lung cancer caused by too much inhaled graphite powder due to inhalation of personnel is avoided, the graphite dust on the surface of the filter screen is prevented from being adsorbed and accumulated on the right side of the filter screen, the adsorption effect is prevented from being reduced due to blockage of the surface of the filter screen, more graphite dust can be collected, the graphite dust on the surface of the magnetic wheel can be prevented from being too much, and the self rotating speed and the magnetic attraction of the graphite dust on the surface of the filter screen are prevented from being influenced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of an adsorption friction structure of the present invention;

FIG. 2 is a schematic plan view of the present invention;

FIG. 3 is a schematic view of the rotational speed control architecture of the present invention;

FIG. 4 is a schematic view of a dust suction structure of the present invention;

in the figure: 1. a housing; 2. filtering with a screen; 3. a gear plate; 4. a friction wheel; 5. a friction ring; 6. a bearing disk; 7. a magnetic wheel; 8. a rotating wheel; 9. a squeegee; 10. a take-up pan; 11. a flexible film; 12. a slider; 13. an eccentric ball; 14. a pressing plate; 15. filling and supplementing the bin; 16. flexible cotton; 17. a centrifugal ball; 18. a friction plate; 19. a feed inlet; 20. a coupling; 21. an eccentric column; 22. a sphere.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides the following technical solutions: an electrostatic air purifier based on signal output comprises a shell 1, a filter screen 2 is fixed on the right side of the shell 1, a motor is arranged in the shell 1, a gear plate 3 is connected to one end of the motor through a bearing, a bearing plate 6 is meshed with a gear on the outer side of the gear plate 3, a friction wheel 4 is fixed on the outer side of the bearing plate 6, a friction ring 5 is arranged on the right side of the friction wheel 4, the friction ring 5 is fixedly connected with the filter screen 2, an air blower is arranged on the left side of the shell 1, the device is placed in a metallurgical workshop, the air blower is started, graphite dust is driven to enter the shell 1 through the filter screen 2 by air flow, a large amount of graphite dust is adsorbed on the surface of the filter screen 2, the motor drives the gear plate 3 to rotate through the bearing, the gear plate 3 is meshed with the bearing plate 6 through the gear, the bearing plate 6 drives the friction wheel 4 to rotate, the friction wheel 4 rotates to rub with the friction ring 5, static electricity is generated by friction and is transmitted to the filter screen 2 through the friction ring 5, so that the adsorption of the filter screen 2 to graphite dust is increased;

the magnetic wheel 7 is fixed below the filter screen 2, the rotating wheel 8 is connected with the outer side of the magnetic wheel 7 through a bearing, the rotating wheel 8 is connected with a track of a bearing disc 6, half of the magnetic wheel 7 has magnetism, a scraper 9 is arranged below the magnetic wheel 7, the scraper 9 is fixedly connected with the bottom of the shell 1, a receiving disc 10 is fixed below the right side of the shell 1, through the steps, the bearing disc 6 rotates, the rotating wheel 8 is driven to rotate through the track to drive the magnetic wheel 7 to rotate, metal particles are contained in graphite dust, when the upper half of the magnetic wheel 7 rotates to the upper side, a large amount of graphite dust attached to the surface of the filter screen 2 is subjected to the magnetic attraction of the upper half of the magnetic wheel 7, the graphite dust on the surface of the filter screen 2 is attracted to be adsorbed on the magnetic wheel 7, when the upper half of the magnetic wheel 7 rotates to the lower side, the scraper 9 and the surface of the magnetic wheel 7 generate mutual acting force, and the scraper 9 pushes the graphite dust adsorbed by the magnetic wheel 7 to the position, then the graphite dust is influenced by self gravity and falls downwards into the receiving disc 10, according to the difference of the rotation positions of the magnetic wheel 7, the treatment mode of the adsorbed graphite dust is automatically selected, a large amount of graphite dust on the surface of the filter screen 2 can be fully adsorbed, the graphite dust in the air is purified, the situation that lung cancer is caused by too much adsorbed graphite dust due to the fact that people inhale the graphite dust is avoided, the situation that the graphite dust on the surface of the filter screen 2 is adsorbed and accumulated on the right side of the filter screen 2 to a great extent is avoided, the adsorption effect is prevented from being reduced due to the fact that the surface of the filter screen 2 is blocked, more graphite dust can be collected, the situation that the graphite dust on the surface of the magnetic wheel 7 is too much can be prevented, and the self rotation speed and the magnetic attraction of the graphite dust on the surface of the filter screen 2 are prevented from being influenced;

the flexible membrane 11 is arranged in the material receiving disc 10, the left end and the right end of the flexible membrane 11 are respectively fixedly connected with the inner wall of the material receiving disc 10, the bottom of the flexible membrane 11 is connected with a spring at the bottom of the material receiving disc 10, the lower part of the flexible membrane 11 is connected with an inner pipeline of the gear disc 3, the inner part of the gear disc 3 is connected with the floating block 12 in a sliding manner, the outer surfaces of the floating block 12 and one half of the gear disc 3 are both fixed with racks, and the other half of the inner wall of the bearing disc 6 is fixed with the toothed block, through the steps, graphite dust falls on the upper surface of the flexible membrane 11 in the material receiving disc 10, the flexible membrane 11 is pressed to deform, the flexible membrane 11 deforms, gas below the flexible membrane 11 is extruded, the gas enters the gear disc 3 through the pipeline after being extruded, the gas enters the gear disc 3, the internal gas is increased, the floating block 12 is extruded by the gas slides upwards, when the amount of the graphite dust is large, the quantity of gas extruded into the gear disc 3 is the largest, the floating block 12 is pushed to move upwards to the limit position, the rack on the outer side of the floating block 12 protrudes out of the gear disc 3, at the moment, the rack below the gear disc 3 and the rack on the outer side of the floating block 12 are meshed with a half rack on the inner wall of the bearing disc 6, the meshing frequency of the rack on the inner wall of the gear disc 6 is increased, the rotating speed of the gear disc 6 is driven to reach the maximum, the friction frequency of the friction wheel 4 and the friction ring 5 is driven to be the maximum, when the quantity of graphite dust is less, the deformation degree of the flexible film 11 is reduced, the quantity of gas extruded into the gear disc 3 is reduced, the floating block 12 slides downwards under the self gravity, the rack on the outer side of the floating block 12 is re-sunk into the gear disc 3, at the moment, only the rack below the gear disc 3 is meshed with the half rack on the inner wall of the bearing disc 6 and the rack meshing frequency on the inner wall of the gear disc 6 is reduced, the rotating speed of the gear disc 6 is driven to be reduced, the friction frequency of the friction wheel 4 and the friction ring 5 is reduced, the rotating speed of the friction wheel 4 is automatically selected according to different amounts of graphite dust, more and stronger static electricity can be generated aiming at more graphite dust, a large amount of graphite dust is effectively adsorbed, the air purification speed is increased, meanwhile, the friction between the friction wheel 4 and the friction ring 5 can be relatively reduced aiming at less amount of graphite dust, the consumption of the friction wheel and the friction ring is reduced, the situation that subsequent static electricity cannot be continuously generated due to excessive consumption is avoided, the situation that the purified air fails due to the fact that the device loses the adsorption effect on the graphite dust is prevented, and the rotating speed of the magnetic wheel 7 in the above steps is controlled, so that the adsorption effect on the graphite dust is better;

the outer side of the bearing disc 6 is fixed with an eccentric ball 13, the lower part of the eccentric ball 13 is hinged with an extrusion plate 14, the outer side of the extrusion plate 14 is connected with a discharging bin in a sliding way, the surface of the friction wheel 4 is fixed with a friction plate 18, the inner side of the friction plate 18 is fixed with a filling bin 15, the upper part of the right side of the discharging bin is provided with a feeding hole 19, the feeding hole 19 is connected with the upper surface of the flexible film 11 through a pipeline, the discharging bin is connected with the inner part of the filling bin 15 through the pipeline, through the steps, the bearing disc 6 rotates to drive the eccentric ball 13 to rotate around the center of the bearing disc 6, the extrusion plate 14 is driven to move left and right through a hinge, the extrusion plate 14 moves left to drive the airflow in the discharging bin to flow left to generate suction force, the graphite dust on the surface of the flexible film 11 is sucked through the feeding hole 19, the extrusion plate 14 moves right, the sucked graphite dust is extruded to enter the filling bin 15 through the pipeline, and the inner part of the feeding hole 19 and the pipeline both contain one-way valves for controlling the flowing direction of materials, when the amount of the graphite dust is large, the bearing disc 6 drives the extrusion plate 14 to move left and right through the hinge to achieve the maximum frequency, when the amount of the graphite dust is small, the bearing disc 6 drives the extrusion plate 14 to move left and right through the hinge to minimize the frequency, the phenomenon that a gap between the extrusion plate 14 and the discharging bin loses the dust absorption effect is avoided, the rotating speed of the bearing disc 6 is automatically selected according to the difference of the amount of the graphite dust, so that the operating frequency of the extrusion plate 14 is automatically selected, a large amount of graphite dust falling on the surface of the flexible film 11 can be fully sucked and discharged into the filling bin 15 for subsequent filling of the interior of the friction 4, the phenomenon that the graphite dust enters the air again when the device stops operating due to excessive graphite dust accumulated on the surface of the flexible film 11 is avoided, the graphite dust can be sucked and discharged into the filling bin 15, and the friction between the upper end and the lower end of the extrusion plate 14 and the inner wall of the discharging bin is reduced, the loss of the extrusion plate 14 and the discharge bin is reduced;

through the steps, when the amount of the graphite dust is large, the rotating speed of the bearing disc 6 is maximum, the centrifugal ball 17 is driven to rotate around the center of the bearing disc 6 at the maximum speed, the centrifugal ball 17 is driven to rotate around the center of the bearing disc 6 at the maximum strength of the centrifugal force, the flexible cotton 16 is extruded to generate the maximum deformation strength, the flexible cotton 16 deforms and expands outwards, the graphite dust entering the filling bin 15 in the steps is extruded, the graphite dust in the filling bin 15 is extruded and then is discharged into the friction disc 18 through the small holes on the surface, when the amount of the graphite dust is small, the rotating speed of the bearing disc 6 is reduced, the rotating speed of the centrifugal ball 17 around the center of the bearing disc 6 is driven to be reduced, the centrifugal force strength on the centrifugal ball 17 is reduced, and the deformation strength generated by extruding the flexible cotton 16 is reduced, the flexible cotton 16 is retracted inwards to an initial position, graphite dust entering the filling bin 15 in the previous step cannot be extruded, the deformation degree of the flexible membrane 11 is automatically selected according to different amounts of the graphite dust, so that under the condition that the friction degree between the friction wheel 4 and the friction ring 5 is maximum when the amount of the graphite dust is large, the supplement of the friction plate 18 on the outer side of the friction wheel 4 is increased, the phenomenon that the friction plate 18 is rapidly consumed to cause that static electricity cannot be continuously generated is avoided, meanwhile, the supplement of the interior can be stopped aiming at the condition that the friction plate 18 is relatively not consumed, and the phenomenon that bin explosion is caused by excessive graphite particles in the friction plate 18 is avoided;

the middle of the feed port 19 is fixed with a coupler 20, the outer surface of the coupler 20 is fixed with an eccentric column 21, the middle of the flexible film 11 is fixed with a sphere 22, the sphere 22 is hinged with the eccentric column 21, through the steps, when the graphite dust is more, the downward deformation degree of the flexible film 11 is larger, the sphere 22 is driven to move downwards for a larger distance, the sphere 22 pulls the eccentric column 21 to rotate clockwise through a hinge, the eccentric column 21 pulls the coupler 20 to rotate clockwise, the facing opening at the right side of the feed port 19 is driven to turn downwards, when the graphite dust is less, the downward deformation degree of the flexible film 11 is reduced, the sphere 22 is driven to move downwards for a smaller distance, the sphere 22 pushes the eccentric column 21 to rotate anticlockwise through a hinge, the eccentric column 21 drives the coupler 20 to rotate anticlockwise, the facing opening at the feed port 19 is driven to be in a parallel state, according to the difference of the amount of the graphite dust at the right side, the proper orientation of the feed port 19 is automatically selected, the graphite dust can be prevented from being sucked into the discharge bin due to the fact that the flexible film 11 is too large in descending height, and the discharge bin can constantly correspond to the position of the flexible film 11, so that the discharge bin can continuously suck the graphite dust, and continuous filling can be performed in the filling bin 15;

through the steps, after the friction layer on the surface of the friction ring 5 is quickly consumed, the magnetism of the inner wall of the friction plate 18 and the magnetism of the magnetic wheel 7 generate mutually exclusive magnetic repulsion force, so that the friction wheel 4 is pushed to slide leftwards through the motor, the friction between the friction wheel 4 and the friction ring 5 is stopped, the friction ring 5 is prevented from being damaged while the friction ring 5 cannot generate static electricity due to continuous friction after being consumed, the friction ring 5 is prevented from being abraded to generate pits, and the installation is prevented from being influenced when a follow-up person replaces the friction ring 5;

the eccentric ball 13 is positioned at the rear side of the friction ring 5, when the eccentric ball 13 drives the extrusion plate 14 to move left and right through the hinge, the hinge does not collide with the friction ring 5, the internal structure of the device can be prevented from being damaged by collision to influence the manufacturing of static electricity, and the phenomenon that air cannot be purified is avoided;

the left side surface of the friction ring 5 is a friction layer with graphite raised grains, and the friction layer with the graphite raised grains enables the friction ring 5 and the friction wheel 4 to be smoothly rubbed to generate static electricity;

the friction plate 18 is filled with wear-resistant graphite particles and is made of the same material as the graphite dust, and the wear-resistant graphite particles in the friction plate 18 are made of the same material as the graphite dust, so that the friction plate 18 can be continuously supplemented.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An electrostatic air cleaner based on signal output, comprising a housing (1), characterized in that: casing (1) right side is fixed with filter screen (2), casing (1) inside is provided with the motor, the one end bearing of motor is connected with toothed disc (3), toothed disc (3) outside gear engagement has bearing disc (6), the bearing disc (6) outside is fixed with friction pulley (4), friction pulley (4) right side is provided with friction ring (5), friction ring (5) and filter screen (2) fixed connection, casing (1) left side is provided with the air-blower.

2. An electrostatic air cleaner based on signal output according to claim 1, wherein: filter screen (2) below is fixed with magnetism wheel (7), magnetism wheel (7) outside bearing is connected with rotates wheel (8), it is connected with bearing disc (6) track to rotate wheel (8), magnetism wheel (7) half has magnetism, magnetism wheel (7) below is provided with scraper blade (9), scraper blade (9) and casing (1) bottom fixed connection, casing (1) right side below is fixed with take-up (10).

3. An electrostatic air cleaner based on signal output according to claim 2, wherein: the improved material receiving disc is characterized in that a flexible film (11) is arranged inside the material receiving disc (10), the flexible film (11) is connected with the inner wall of the material receiving disc (10) at the left end and the right end respectively, the bottom of the flexible film (11) is connected with a spring at the bottom of the material receiving disc (10), the lower portion of the flexible film (11) is connected with an inner pipeline of the gear disc (3), a floating block (12) is connected with the gear disc (3) in a sliding mode, racks are fixed on the outer surfaces of the floating block (12) and the gear disc (3), and a gear block is fixed on one half of the inner wall of the bearing disc (6).

4. An electrostatic air cleaner based on signal output according to claim 3, wherein: bearing dish (6) outside is fixed with eccentric ball (13), eccentric ball (13) below hinged joint has stripper plate (14), stripper plate (14) outside sliding connection has row material storehouse, friction pulley (4) fixed surface has friction disc (18), friction disc (18) inboard is fixed with fills up storehouse (15), it is provided with feed inlet (19) to arrange material storehouse right side top, feed inlet (19) and flexible membrane (11) upper surface pipe connection, arrange the material storehouse and fill up storehouse (15) internal piping connection.

5. An electrostatic air cleaner based on signal output according to claim 4, wherein: the inner side of the filling bin (15) is fixed with flexible cotton (16), the outer side of the bearing disc (6) is connected with a centrifugal ball (17) through a spring, and the inner side surface of the friction plate (18) is provided with a plurality of small holes.

6. An electrostatic air cleaner based on signal output according to claim 5, wherein: the feed inlet is fixed with shaft coupling (20) in the middle of (19), shaft coupling (20) outside surface is fixed with eccentric post (21), be fixed with spheroid (22) in the middle of flexible membrane (11), spheroid (22) and eccentric post (21) hinged joint.

7. An electrostatic air cleaner based on signal output according to claim 6, wherein: the inner wall of the friction plate (18) is magnetic, and the motor is connected with the front inner wall and the rear inner wall of the shell (1) in a sliding mode.

8. An electrostatic air cleaner based on signal output according to claim 7, wherein: the eccentric ball (13) is positioned at the rear side of the friction ring (5).

9. An electrostatic air cleaner based on signal output according to claim 8, wherein: the left side surface of the friction ring (5) is a friction layer with graphite raised grains.

10. An electrostatic air cleaner based on signal output according to claim 9, wherein: the friction plate (18) is filled with wear-resistant graphite particles and is made of the same material as the graphite dust.