CN116651805A

CN116651805A - Rapid silica sand impurity removing device for solar photovoltaic glass production and use method

Info

Publication number: CN116651805A
Application number: CN202310475455.8A
Authority: CN
Inventors: 王冬
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-04-28
Filing date: 2023-04-28
Publication date: 2023-08-29

Abstract

The invention relates to the technical field of photovoltaic glass processing, and discloses a silica sand rapid impurity removal device for solar photovoltaic glass production and a use method. The invention comprises a box body, a conveying mechanism and a cleaning mechanism, wherein a feed inlet is arranged on the box body, two baffles are fixedly arranged in the box body, the conveying mechanism comprises a conveying belt and a telescopic rod, a motor and the telescopic rod are respectively arranged between the two baffles and the side wall of the box body, the conveying belt is positioned between the two baffles, the conveying belt can be driven to rotate by starting the motor, the telescopic rod swings, the cleaning mechanism comprises an adsorption bin and a conveying plate, the adsorption bin is positioned right above the conveying belt, an electromagnetic relay is arranged in the adsorption bin and can adsorb magnetic impurities, the telescopic rod swings and can drive the adsorption bin to reciprocate, the adsorption and the transportation of the magnetic impurities are realized, and a cleaning device is arranged on the conveying plate and can clean the adsorption bin and discharge the magnetic impurities.

Description

Rapid silica sand impurity removing device for solar photovoltaic glass production and use method

Technical Field

The invention relates to the technical field of photovoltaic glass processing, in particular to a silica sand rapid impurity removal device for solar photovoltaic glass production and a use method.

Background

The solar photovoltaic glass is a novel high-tech glass product for building, which is formed by sealing a solar cell piece between a piece of low-iron glass and a piece of back glass through a film, wherein the low-iron glass is covered on the solar cell piece to ensure that more light transmittance is ensured, but magnetic impurities are often mixed in silica sand, so that the silica sand is usually required to be subjected to impurity removal treatment in the production process of the solar photovoltaic glass, but the magnetic impurities may be adsorbed on the surface of the device in the impurity removal process, the impurities may fall into the silica sand in the subsequent impurity removal process, the quality of the silica sand is difficult to ensure, and the magnetic impurities adsorbed on the surface of the device are not cleaned timely, so that the load of the device is increased, and the service life of the device is influenced.

Disclosure of Invention

The invention aims to provide a silica sand rapid impurity removing device for solar photovoltaic glass production and a using method thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a quick edulcoration device of silica sand for solar photovoltaic glass production and application method, includes the box, one side fixedly connected with feed inlet of box, square groove has been seted up to the one end that the feed inlet was kept away from to the box, the lateral wall inboard fixedly connected with coil switch that the box is close to square groove one side, box inside fixed mounting has two baffles, evenly fixedly connected with three mounting cylinder on the baffle, one be provided with the motor between baffle and the box lateral wall, fixedly connected with support on the motor, and the motor passes through support fixed mounting on the inner wall of bottom of the case portion, the elongated slot has been seted up to the box upper surface, the elongated slot is located between a baffle that keeps away from the motor and the lateral wall that the motor one side was kept away from to the box, still includes: the conveying mechanism comprises a conveying belt and a telescopic rod, the conveying belt is arranged between two baffles, the side wall of the conveying belt is in contact with the side wall of the baffle, the telescopic rod is arranged between one baffle far away from the motor and the side wall of one side of the box far away from the motor, the telescopic rod is rotatably arranged between two convex blocks, the convex blocks are fixedly connected to the inner wall of the bottom of the box, the cleaning mechanism comprises an adsorption bin and a conveying plate, the adsorption bin is positioned right above the conveying belt, two ends of the side walls of the adsorption bin, which are parallel to the conveying belt, are fixedly connected with bearings, a plurality of vent holes are formed in the bearings, the rotary column is rotationally connected with a rotary column, one end of the rotary column far away from the adsorption bin is fixedly connected with a roller, and the adsorption bin is connected to the box in a sliding mode through the roller, and the conveying plate is fixedly connected to one end, which is close to a square groove, between the two baffles.

Further, the conveyer belt is provided with the horizontal pole in the top that is close to feed inlet one side, horizontal pole fixed connection is between two baffles, one side that the horizontal pole is close to the conveyer belt fixedly connected with flange, leave the clearance between flange and the conveyer belt upper surface, the conveyer belt is close to the one end contact of square groove and is provided with the swash plate, swash plate fixed connection is inside the square groove.

Further, the inside central authorities transmission of conveyer belt is connected with the driving shaft, and the inside both ends transmission of conveyer belt is connected with the driven shaft, driving shaft and driven shaft both ends equal fixedly connected with cylinder, the cylinder all runs through the installation section of thick bamboo, and the setting is inside the installation section of thick bamboo, the driving shaft is close to the cylinder of motor one end and the output fixed connection of motor.

Further, the cylinder fixedly connected with eccentric shaft of motor one end is kept away from to the driving shaft, the one end that the cylinder was kept away from to the eccentric shaft rotates and is connected with the sleeve, the telescopic link cup joints inside the sleeve.

Further, one end of the telescopic rod far away from the lug penetrates through the long groove and extends to the upper portion of the box body, the telescopic rod is arranged in the long groove in a sliding mode, rolling wheels are rotatably connected to two sides of one end of the telescopic rod far away from the lug, and the rolling wheels are arranged on the upper surface of the box body in a rolling mode along the long groove.

Further, the side wall center that the absorption storehouse is close to telescopic link one side is fixedly connected with solid fixed ring, gu fixed ring inside rotates and is connected with the circle axle, the one end that the circle axle kept away from solid fixed ring is with rolling wheel fixed connection.

Further, the rotary column is in the inside one end fixedly connected with fan of absorption storehouse, the inside fixed mounting in absorption storehouse has a coil section of thick bamboo, the winding has solenoid on the coil section of thick bamboo, the inside fixed mounting of coil section of thick bamboo has electromagnetic core, the both sides lateral wall lower extreme fixedly connected with a plurality of dogtooth that is close to two baffles in absorption storehouse.

Further, one end fixedly connected with riser of square groove is kept away from to the delivery board, two recesses have been seted up on the riser, the inside rotation of recess is connected with the round bar, fixedly connected with mounting panel and two splint on the round bar, the mounting panel is located between two splint, a scraper blade of common fixed connection on two mounting panels, rotate between every two splint and be connected with the trigger wheel, fixedly connected with spring clamp between the lateral wall that splint are close to recess one side and the recess lateral wall.

Further, the one end fixedly connected with arc that the delivery board is close to the square groove, the arc is located the swash plate top, and arc both sides lateral wall and square groove lateral wall are contact setting, one side that the delivery board kept away from the conveyer belt is provided with four sets of stock, stock both ends rotate to be connected between two baffles, and stock both ends fixedly connected with gear, fixedly connected with a plurality of brush hair on the stock, the brush hair is contact setting with the delivery board upper surface.

The application method of the silica sand rapid impurity removal device for solar photovoltaic glass production is characterized by comprising the following steps of:

the driving shaft rotates to drive the eccentric shaft to rotate, and the telescopic rod can be driven to swing back and forth due to the arrangement of the sleeve, so that the rolling wheel can roll above the box body, and the adsorption bin can synchronously move due to the arrangement of the circular shaft;

step two, extruding the trigger wheel, rotating the round rod, contracting the spring clamp, then meshing the convex teeth with the gear, driving the long rod and the brush roller to rotate along with the gear, further cleaning the bottom wall of the adsorption bin for the first time, and extruding the coil switch when the adsorption bin moves to the coil switch, so that the electromagnetic coil is powered off;

step three, adsorb storehouse and extrude the trigger wheel once more, the round bar is reverse to rotate, and then drives mounting panel and scraper blade synchronous rotation, and the scraper blade is laminated with adsorbing storehouse lower surface, can clear up again the residual magnetism impurity on the adsorption storehouse diapire.

Compared with the prior art, the invention has the beneficial effects that:

(1) According to the invention, through the arrangement of the driving shaft, the motor is started, the driving belt is driven to transport silica sand through the transmission action of the driving shaft and the conveying belt, and meanwhile, the driving shaft drives the eccentric shaft to rotate, so that the telescopic rod is driven to swing back and forth, and the adsorption bin is transported back and forth.

(2) According to the invention, the roller is arranged below the adsorption bin, so that friction between the adsorption bin and the box body can be reduced, the fan can be driven to rotate while the roller rotates, the electromagnetic coil is cooled, and the service life of the device is prolonged.

(3) According to the invention, through the arrangement of the conveying plate, the trigger wheel is extruded while the adsorption bin reciprocates, so that the position of the scraping plate is controlled, the adsorption bin can be cleaned secondarily when the adsorption bin leaves the conveying plate, the quality of silica sand is effectively ensured, the brush hair can be driven to rotate along with the long rod by the reciprocating motion of the adsorption bin through the meshing of the convex teeth and the gear, the adsorption bin can be cleaned respectively, magnetic impurities above the conveying plate can be discharged, the long-time work of the device is facilitated, and the practicability of the device is increased.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the internal structure of the present invention;

FIG. 3 is a schematic view of the internal structure of the present invention;

FIG. 4 is a schematic diagram of a transfer mechanism according to the present invention;

FIG. 5 is a schematic diagram of the structure of the adsorption bin of the invention;

FIG. 6 is a schematic diagram of a conveyor plate structure according to the present invention;

fig. 7 is an enlarged view of a portion of fig. 6 a according to the present invention.

In the figure: 1. a case; 101. a feed inlet; 102. a square groove; 103. a coil switch; 11. a baffle; 1101. a mounting cylinder; 12. a motor; 1201. a support; 104. a long groove; 2. a conveyor belt; 201. a cross bar; 2011. a convex plate; 202. a sloping plate; 21. a driving shaft; 22. a driven shaft; 221. a cylinder; 23. an eccentric shaft; 231. a sleeve; 3. a telescopic rod; 301. a bump; 31. a rolling wheel; 4. an adsorption bin; 41. a bearing; 411. a rotating column; 412. a roller; 42. a fixing ring; 421. a circular shaft; 43. a fan; 44. a coil tube; 441. an electromagnetic coil; 442. an electromagnetic iron core; 45. convex teeth; 5. a conveying plate; 501. an arc-shaped plate; 51. A riser; 5101. a groove; 511. a round bar; 512. a mounting plate; 5121. a scraper; 513. a clamping plate; 5131. a trigger wheel; 514. a spring clamp; 52. a long rod; 521. a gear; 522. and (3) brushing.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a quick edulcoration device of silica sand for solar photovoltaic glass production and application method, including box 1, one side fixedly connected with feed inlet 101 of box 1, square groove 102 has been seted up to the one end that box 1 kept away from feed inlet 101, the lateral wall inboard fixedly connected with coil switch 103 that box 1 is close to square groove 102 one side, box 1 inside fixed mounting has two baffles 11, evenly fixedly connected with three mounting cylinder 1101 on the baffle 11, be provided with motor 12 between a baffle 11 and the box 1 lateral wall, fixedly connected with support 1201 on the motor 12, and motor 12 passes through support 1201 fixed mounting on the inner wall of box 1 bottom, elongated slot 104 has been seted up to box 1 upper surface, elongated slot 104 is located between a baffle 11 that keeps away from motor 12 and the lateral wall that box 1 kept away from motor 12 one side, still include: the conveying mechanism comprises a conveying belt 2 and a telescopic rod 3, the conveying belt 2 is positioned between two baffle plates 11, the side wall of the conveying belt 2 is in contact with the side wall of the baffle plates 11, the telescopic rod 3 is arranged between one baffle plate 11 far away from a motor 12 and the side wall of the box body 1 far away from the motor 12, the telescopic rod 3 is rotatably arranged between two convex blocks 301, the convex blocks 301 are fixedly connected to the inner wall of the bottom of the box body 1, the cleaning mechanism comprises an adsorption bin 4 and a conveying plate 5, the adsorption bin 4 is positioned right above the conveying belt 2, the adsorption bin 4 is parallel to two side wall two ends of the conveying belt 2 and fixedly connected with bearings 41, a plurality of ventilation holes 401 are formed in the bearings 41, rotary columns 411 are rotatably connected inside the bearings, one end, far away from the adsorption bin 4, of the rotary columns 411 is fixedly connected with rollers 412, the adsorption bin 4 is connected to the box body 1 in a sliding mode through the rollers 412, and the conveying plate 5 is fixedly connected to one end, close to the square groove 102, between the two baffle plates 11.

The conveyer belt 2 is provided with the horizontal pole 201 near the top of feed inlet 101 one side, and horizontal pole 201 fixed connection is between two baffles 11, and one side that horizontal pole 201 is close to conveyer belt 2 fixedly connected with flange 2011, leaves the clearance between flange 2011 and the conveyer belt 2 upper surface, and the purpose of setting like this is convenient for make the silica sand on the conveyer belt 2 pave, makes magnetism impurity expose, is convenient for adsorb, and the conveyer belt 2 is close to the one end contact of square groove 102 and is provided with swash plate 202, swash plate 202 fixed connection is inside square groove 102.

The inside central transmission of conveyer belt 2 is connected with driving shaft 21, and the inside both ends transmission of conveyer belt 2 is connected with driven shaft 22, and the purpose of setting like this is convenient for to the installation of conveyer belt 2, and driving shaft 21 and driven shaft 22 both ends all fixedly connected with cylinder 221, cylinder 221 all run through a mounting section of thick bamboo 1101, and the rotation sets up inside a mounting section of thick bamboo 1101, and the purpose of setting like this is the rotation and the installation of driving shaft 21 and driven shaft 22 of being convenient for, and driving shaft 21 is close to the cylinder 221 of motor 12 one end and the output fixed connection of motor 12.

The cylinder 221 of driving shaft 21 one end far away from motor 12 is fixedly connected with eccentric shaft 23, and the purpose of setting like this is the rotation of being convenient for utilize driving shaft 21, drives telescopic link 3 reciprocal swing through eccentric shaft 23, and the one end rotation that eccentric shaft 23 kept away from cylinder 221 is connected with sleeve 231, and telescopic link 3 cup joints inside sleeve 231.

One end of the telescopic rod 3, which is far away from the lug 301, penetrates through the long groove 104 and extends to the upper side of the box body 1, the telescopic rod 3 is arranged in the long groove 104 in a sliding mode, rolling wheels 31 are rotatably connected to two sides of one end of the telescopic rod 3, which is far away from the lug 301, and the rolling wheels 31 are arranged on the upper surface of the box body 1 in a rolling mode along the long groove 104.

The fixed ring 42 is fixedly connected with the side wall center of the side wall, close to one side of the telescopic rod 3, of the adsorption bin 4, the purpose of the arrangement is to facilitate rotation of the round shaft 421, and the round shaft 421 is convenient to drive the adsorption bin 4 to synchronously move, the round shaft 421 is rotatably connected with the inside of the fixed ring 42, and one end, far away from the fixed ring 42, of the round shaft 421 is fixedly connected with the rolling wheel 31.

The rotary column 411 is located the inside one end fixedly connected with fan 43 of absorption storehouse 4, the purpose of setting like this is convenient for utilize the rotation of roll wheel 31 to drive the fan rotation, dispel the heat to solenoid 441, absorption storehouse 4 inside fixed mounting has a coil section of thick bamboo 44, the winding has solenoid 441 on the coil section of thick bamboo 44, inside fixed mounting has electromagnetic core 442 of coil section of thick bamboo 44, absorption storehouse 4 is close to the both sides lateral wall lower extreme fixedly connected with a plurality of dogtooth 45 of two baffles 11, the purpose of setting like this is convenient for utilize the reciprocating motion of absorption storehouse to drive the gear 521 rotation.

One end of the conveying plate 5 far away from the square groove 102 is fixedly connected with a vertical plate 51, two grooves 5101 are formed in the vertical plate 51, round rods 511 are rotatably connected inside the grooves 5101, one mounting plate 512 and two clamping plates 513 are fixedly connected to the round rods 511, the mounting plate 512 is located between the two clamping plates 513, one scraping plate 5121 is fixedly connected to the two mounting plates 512 together, the purpose of the arrangement is to facilitate secondary cleaning of the bottom surface of the adsorption bin 4, a trigger wheel 5131 is rotatably connected between every two clamping plates 513, the purpose of the arrangement is to facilitate the utilization of the reciprocating motion of the adsorption bin 4 to control the position of the scraping plate 5121, and a spring clamp 514 is fixedly connected between the side wall of the clamping plate 513 close to one side of the grooves 5101 and the side wall of the grooves 5101, and the purpose of the arrangement is to facilitate the reset of the trigger wheel 5131.

The one end fixedly connected with arc 501 that delivery plate 5 is close to square groove 102, the purpose of setting like this is convenient for discharge magnetic impurity, arc 501 is located swash plate 202 top, and arc 501 both sides lateral wall and square groove 102 lateral wall are the contact setting, one side that delivery plate 5 kept away from conveyer belt 2 is provided with four sets of stock 52, the both ends of stock 52 rotate and connect between two baffles 11, and stock 52 both ends fixedly connected with gear 521, fixedly connected with a plurality of brush hair 522 on the stock 52, the brush hair 522 is the contact setting with delivery plate 5 upper surface, the purpose of setting like this is convenient for utilize the rotation of brush hair 522 to sweep the magnetic impurity that is in delivery plate 5 top and discharge.

Working principle:

the motor 12 is started, the electromagnetic coil 441 is electrified to put silica sand into the device from the feeding hole 101, the silica sand can be guided to the upper part of the conveying belt 2 through the feeding hole 101, the motor 12 drives the driving shaft 21 to rotate, and then the conveying belt can be driven to transport the silica sand, when the silica sand passes through the lower part of the convex plate 2011, the convex plate 2011 can be used for arranging and flattening the silica sand, the follow-up work is convenient for adsorbing magnetic impurities, the driving shaft 21 rotates and drives the eccentric shaft 23 to rotate, the telescopic rod 3 can be driven to swing back and forth due to the arrangement of the sleeve 231, the rolling wheel 31 can roll above the box 1, the adsorption bin 4 can be synchronously moved through the arrangement of the circular shaft 421, wherein the adsorption bin 4 can conveniently reciprocate above the box 1 through the arrangement of the roller 412, the fan 43 in the adsorption bin 4 can be driven to rotate while the roller 412 rolls, and then the electromagnetic coil 441 can be used for radiating heat, the service life of the electromagnetic coil 441 is prolonged, when the adsorption bin moves towards the direction close to one side of the conveying plate 5, the trigger wheel 5131 is extruded firstly, the round rod 511 rotates, the spring clamp 514 contracts, then the convex teeth 45 are meshed with the gear 521 to drive the long rod 52 and the brush 522 to rotate along with the gear 521, the bottom wall of the adsorption bin 4 can be cleaned for the first time, when the adsorption bin 4 moves to the coil switch 103, the electromagnetic coil 441 is extruded to the coil switch 103, the electromagnetic coil 441 is powered off, the adsorption force to the magnetic impurities is lost, the magnetic impurities can fall above the conveying plate 5, meanwhile, the adsorption bin 4 loses the extrusion to the trigger wheel 5131, the spring clamp 514 stretches to reset the trigger wheel 5131, when the adsorption bin 4 moves reversely, the gear 521 can be driven to rotate reversely, the long rod 52 and the brush 522 can be driven to rotate synchronously, the magnetic impurities above the conveying plate 5 can be swept down, and conveyed out through the arc plate 501, simultaneously adsorb storehouse 4 and extrude trigger wheel 5131 once more, round bar 511 counter-rotating, and then drive mounting panel 512 and scraper 5121 synchronous rotation, scraper 5121 and adsorb the laminating of storehouse 4 lower surface, can clear up again the residual magnetism impurity on the storehouse 4 diapire, prevent that residual magnetism impurity from getting into inside the silica sand, the effectual quality of guaranteeing the silica sand.

Example 1

step one, the driving shaft 21 rotates to drive the eccentric shaft 23 to rotate, and due to the arrangement of the sleeve 231, the telescopic rod 3 can be driven to swing reciprocally, so that the rolling wheel 31 can roll above the box body 1, and the adsorption bin 4 can move synchronously through the arrangement of the circular shaft 421;

step two, the trigger wheel 5131 is extruded, the round rod 511 rotates, the spring clip 514 contracts, then the convex teeth 45 are meshed with the gear 521, the long rod 52 and the brush 522 are driven to rotate along with the gear 521, and then the bottom wall of the adsorption bin 4 can be cleaned for the first time, when the adsorption bin 4 moves to the coil switch 103, the coil switch 103 is extruded, and the electromagnetic coil 441 is powered off;

step three, the adsorption bin 4 extrudes the trigger wheel 5131 again, the round rod 511 reversely rotates, and then the mounting plate 512 and the scraper 5121 are driven to synchronously rotate, the scraper 5121 is attached to the lower surface of the adsorption bin 4, and residual magnetic impurities on the bottom wall of the adsorption bin 4 can be cleaned again.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a quick edulcoration device of silica sand for solar photovoltaic glass production, includes box (1), one side fixedly connected with feed inlet (101) of box (1), square groove (102) have been seted up to one end that feed inlet (101) were kept away from to box (1), box (1) are close to lateral wall inboard fixedly connected with coil switch (103) of square groove (102) one side, box (1) inside fixed mounting has two baffles (11), evenly fixedly connected with three mounting cylinder (1101) on baffle (11), one be provided with motor (12) between baffle (11) and box (1) lateral wall, fixedly connected with support (1201) on motor (12), and motor (12) are through support (1201) fixed mounting on the inner wall of box (1) bottom, elongated slot (104) have been seted up on the upper surface, elongated slot (104) are located between a baffle (11) and box (1) are kept away from motor (12) one side wall, still characterized in that includes:

the conveying mechanism comprises a conveying belt (2) and a telescopic rod (3), wherein the conveying belt (2) is positioned between two baffles (11), the side wall of the conveying belt (2) is in contact with the side wall of the baffle (11), the telescopic rod (3) is arranged between one baffle (11) far away from the motor (12) and the side wall of the box body (1) far away from the motor (12), the telescopic rod (3) is rotatably arranged between two protruding blocks (301), and the protruding blocks (301) are fixedly connected to the inner wall of the bottom of the box body (1);

the cleaning mechanism comprises an adsorption bin (4) and a conveying plate (5), the adsorption bin (4) is located right above the conveying belt (2), two ends of two side walls of the adsorption bin (4) are fixedly connected with bearings (41) parallel to the conveying belt (2), a plurality of vent holes (401) are formed in the two ends, a rotating column (411) is connected to the inside of each bearing (41) in a rotating mode, one end of each rotating column (411) away from the adsorption bin (4) is fixedly connected with a roller (412), the adsorption bin (4) is connected onto the box body (1) in a sliding mode through the rollers (412), and the conveying plate (5) is fixedly connected to one end, close to the square groove (102), between the two baffle plates (11).

2. The silica sand rapid impurity removal device for solar photovoltaic glass production according to claim 1, wherein: the conveying belt (2) is provided with a cross rod (201) above one side close to the feeding hole (101), the cross rod (201) is fixedly connected between two baffles (11), one side of the cross rod (201) close to the conveying belt (2) is fixedly connected with a convex plate (2011), a gap is reserved between the convex plate (2011) and the upper surface of the conveying belt (2), one end of the conveying belt (2) close to the square groove (102) is contacted with an inclined plate (202), and the inclined plate (202) is fixedly connected inside the square groove (102).

3. The silica sand rapid impurity removal device for solar photovoltaic glass production according to claim 2, wherein: the driving shaft (21) is connected to the central transmission inside the conveyor belt (2), the driven shafts (22) are connected to the two ends inside the conveyor belt (2), the cylinders (221) are fixedly connected to the two ends of the driving shaft (21) and the driven shafts (22), the cylinders (221) penetrate through the mounting cylinder (1101) and are rotatably arranged inside the mounting cylinder (1101), and the cylinders (221) of the driving shaft (21) close to one end of the motor (12) are fixedly connected with the output end of the motor (12).

4. The silica sand rapid impurity removal device for solar photovoltaic glass production according to claim 3, wherein: the driving shaft (21) is fixedly connected with an eccentric shaft (23) through a cylinder (221) at one end far away from the motor (12), a sleeve (231) is rotatably connected with one end, far away from the cylinder (221), of the eccentric shaft (23), and the telescopic rod (3) is sleeved inside the sleeve (231).

5. The rapid silica sand impurity removal device for solar photovoltaic glass production according to claim 4, wherein: one end of the telescopic rod (3) far away from the lug (301) penetrates through the long groove (104) and extends to the upper portion of the box body (1), the telescopic rod (3) is arranged in the long groove (104) in a sliding mode, rolling wheels (31) are rotatably connected to two sides of one end of the telescopic rod (3) far away from the lug (301), and the rolling wheels (31) are arranged on the upper surface of the box body (1) in a rolling mode along the long groove (104).

6. The rapid silica sand impurity removal device for solar photovoltaic glass production according to claim 5, wherein: the adsorption bin (4) is fixedly connected with a fixed ring (42) close to the center of the side wall on one side of the telescopic rod (3), a round shaft (421) is connected inside the fixed ring (42) in a rotating mode, and one end, far away from the fixed ring (42), of the round shaft (421) is fixedly connected with the rolling wheel (31).

7. The silica sand rapid impurity removal device for solar photovoltaic glass production according to claim 6, wherein: the rotary column (411) is located one end fixedly connected with fan (43) inside adsorption bin (4), adsorption bin (4) inside fixed mounting has coil cylinder (44), the winding has solenoid (441) on coil cylinder (44), coil cylinder (44) inside fixed mounting has electromagnetic core (442), adsorption bin (4) are close to both sides lateral wall lower extreme fixedly connected with a plurality of dogtooth (45) of two baffles (11).

8. The rapid silica sand impurity removal device for solar photovoltaic glass production according to claim 7, wherein: one end fixedly connected with riser (51) of square groove (102) is kept away from to delivery plate (5), two recess (5101) have been seted up on riser (51), inside rotation of recess (5101) is connected with round bar (511), fixedly connected with mounting panel (512) and two splint (513) on round bar (511), mounting panel (512) are located between two splint (513), a scraper blade (5121) of common fixedly connected with on two mounting panels (512), rotation is connected with trigger wheel (5131) between every two splint (513), fixedly connected with spring clamp (514) between lateral wall that splint (513) are close to recess (5101) one side and recess (5101) lateral wall.

9. The silica sand rapid impurity removal device for solar photovoltaic glass production according to claim 8, wherein: one end fixedly connected with arc (501) that delivery board (5) is close to square groove (102), arc (501) are located swash plate (202) top, and arc (501) both sides lateral wall and square groove (102) lateral wall are contact setting, one side that delivery board (5) kept away from conveyer belt (2) is provided with four sets of stock (52), stock (52) both ends rotate and connect between two baffles (11), and stock (52) both ends fixedly connected with gear (521), fixedly connected with brush hair (522) on stock (52), brush hair (522) are contact setting with delivery board (5) upper surface.

10. The application method of the silica sand rapid impurity removal device for solar photovoltaic glass production is characterized by comprising the following steps of:

the method comprises the steps that firstly, a driving shaft (21) rotates to drive an eccentric shaft (23) to rotate, a telescopic rod (3) can be driven to swing reciprocally due to the arrangement of a sleeve (231), and further a rolling wheel (31) can roll above a box body (1), and an adsorption bin (4) can move synchronously due to the arrangement of a circular shaft (421);

step two, the trigger wheel (5131) is extruded, the round rod (511) rotates, the spring clamp (514) contracts, then the convex teeth (45) are meshed with the gear (521), the long rod (52) and the brush 522 are driven to rotate along with the gear (521), the bottom wall of the adsorption bin 4 can be cleaned for the first time, when the adsorption bin 4 moves to the coil switch (103), the coil switch (103) is extruded, and the electromagnetic coil (441) is powered off;

step three, adsorb storehouse (4) and extrude trigger wheel (5131) once more, round bar (511) reverse rotation, and then drive mounting panel (512) and scraper blade (5121) synchronous rotation, scraper blade (5121) and adsorb storehouse (4) lower surface laminating, can clear up again remaining magnetic impurity on the diapire of adsorbing storehouse (4).