CN115213139A - Stacking mechanism for automatic turn-over direction correction Perc double-sided battery - Google Patents

Abstract

The invention relates to the technical field of Perc double-sided battery processing, in particular to a stacking mechanism for a Perc double-sided battery, which can automatically correct the turnover direction. Which comprises an adjusting component and a collecting device arranged at the bottom end of the adjusting component. When the rotating plate and the Perc double-sided battery rotate alternately, the brush is in contact with one side of the Perc double-sided battery, the generated pressure can bend the brush, meanwhile, the Perc double-sided battery and the rotating plate continue to rotate, friction is generated at the contact position of the Perc double-sided battery and the rotating plate, the friction force drives dust adhered to the side face of the Perc double-sided battery to fall off, the cleaning function of the Perc double-sided battery is realized, excessive adhesion of surface dust in the processing process of the Perc double-sided battery is prevented, the later normal use is prevented from being influenced, meanwhile, in the rotating process of the brush, the brush can drive the conveying assembly to move, the collecting box at the bottom end of the rotating plate is driven to horizontally move along the conveying assembly, the collecting box is moved to the bottom position between the connecting head and the rotating plate, and the dust adhered to the side face of the Perc double-sided battery is collected.

Description

Stacking mechanism for automatic turn-over direction correction Perc double-sided battery

Technical Field

The invention relates to the technical field of Perc double-sided battery processing, in particular to a stacking mechanism for a Perc double-sided battery, which can automatically correct the turnover direction.

Background

The Perc cell is prepared in a laboratory by adopting the technologies of photoetching, evaporation, thermal oxygen passivation, electroplating and the like, is passivated on a dielectric film on the back surface by the largest difference from a conventional cell and is contacted by local metal, so that the surface recombination speed is greatly reduced, and the light reflection of the back surface is improved.

Perc battery is in the course of working, often need carry and categorised packing through pile up neatly mechanism, because each Perc battery is piling up the in-process for a long time, the very easy adhesion dust of Perc battery side, if not clear up can influence the normal use of Perc battery, the manual clearance is carried out through the manual work to most of current clearance modes, this kind of clearance mode cleaning efficiency is slow excessively, simultaneously in the clearance process, need operating personnel to carry out the dust constantly and collect, the process is comparatively loaded down with trivial details.

Disclosure of Invention

The invention aims to provide a stacking mechanism for Perc double-sided batteries, which can automatically correct the turnover direction and solve the problems in the prior art.

In order to achieve the purpose, the stacking mechanism for the Perc double-sided battery is used for correcting the automatic turnover direction and comprises an adjusting assembly, wherein the adjusting assembly comprises a pair of transverse plates, sliding grooves are formed in the side faces of the transverse plates, screw rods are arranged in the sliding grooves, conveying motors are coaxially connected to the tail ends of the screw rods, connectors which keep threaded transmission with the screw rods are arranged in the sliding grooves, servo motors are arranged on the side faces of the connectors, clamping plates are coaxially connected to the side faces of the servo motors, rotating plates are connected between the transverse plates, a plurality of brushes are arranged on one sides of the rotating plates, connecting assemblies are arranged on the two sides, adjacent to the brushes, of the rotating plates, the connecting assemblies are in transmission connection with the servo motors, a conveying assembly is connected between the bottom ends of the connectors, the conveying assembly is in transmission connection with the connecting assemblies, a collecting device is arranged at the bottom ends of the rotating plates, the collecting device comprises a collecting box, and the two sides of the collecting box are in transmission connection with the conveying assembly.

As a further improvement of the technical scheme, the conveying assembly comprises a pair of transverse screws, the positions, close to the middle, of the two transverse screws are in threaded connection with connecting plates, the two connecting plates are fixed to the two sides of the collecting box respectively, supporting plates are sleeved at the two ends of the two transverse screws, the top ends of the supporting plates are fixedly connected with the bottom ends of the transverse plates, a longitudinal rod is arranged between the two transverse screws, steering gear sets are connected between the two ends of the longitudinal rod and the two transverse screws respectively, and second belts are sleeved at the positions, close to the steering gear sets, of the two ends of the longitudinal rod.

As a further improvement of the technical scheme, a side groove is formed in the side face of the collecting box, a pushing plate is connected in the side groove in a sliding mode, and two sides of the pushing plate are fixedly connected with the two support plates respectively.

As a further improvement of the technical scheme, a wedge-shaped plate is arranged at the bottom end of the side face of the pushing plate and is of a wedge-shaped structure.

As a further improvement of the technical scheme, a bottom groove is formed in the position, close to the edge, of the bottom of the inner end of the collecting box, and the inner end of the bottom groove is sleeved with the collecting frame.

As a further improvement of the technical scheme, the two sides of the top end of the collecting box are both provided with inclined plates which are of an inclined structure.

As a further improvement of this technical scheme, two be provided with the clearance subassembly between the diaphragm, the clearance subassembly includes the fixed plate, the fixed plate sets up the brush top, the fixed plate bottom is provided with the baffler.

As a further improvement of this technical scheme, baffler the inner is provided with a plurality of inserted bars, it has a plurality of liquid holes to have seted up in the inserted bar, go out liquid hole one end opening and set up at the inserted bar end, go out liquid hole other end opening and set up and be close to another terminal side position of inserted bar, fixed plate the inner is provided with the stock solution cavity, stock solution cavity the inner is provided with the baffle, the inserted bar with the fixed plate and the baffle all keeps the cooperation of pegging graft.

As a further improvement of the technical scheme, the edge positions of two sides of the blocking plate are both arc-shaped structures.

As a further improvement of the technical scheme, a plurality of return springs are connected between the blocking plate and the fixing plate.

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

1. in the stacking mechanism for the Perc double-sided battery with the automatic turn-over direction correction function, when a rotating plate and the Perc double-sided battery rotate and interact, a brush is in contact with one side of the Perc double-sided battery, the brush can be bent under the action of generated pressure, meanwhile, the Perc double-sided battery and the rotating plate continue to rotate, the contact position of the Perc double-sided battery and the rotating plate can generate friction, the friction force drives dust adhered to the side face of the Perc double-sided battery to fall off, the cleaning function of the Perc double-sided battery is realized, the Perc double-sided battery is prevented from being adhered too much in the processing process, the later normal use is influenced, meanwhile, in the rotating process of the brush, the brush can drive a conveying assembly to move, a collecting box at the bottom end of the rotating plate is enabled to move horizontally along the conveying assembly, the bottom position between a connecting head and the rotating plate is moved, and the dust adhered to the side face of the Perc double-sided battery is collected.

2. In this automatic Perc double-sided battery pile up neatly mechanism of turn-over direction correction, increase push plate bottom clearance face through the wedge board that sets up, carry out the scraping through the wedge board to the dust of least significant end and handle, increase dust clearance effect.

3. In the stacking mechanism for the Perc double-sided battery with the automatic turn-over direction correction function, the dust pushed by the pushing plate is collected secondarily through the collection frame, and after the inner end of the collection frame is fully collected with the dust, the collection frame is taken out from the inner end of the bottom groove and cleaned, so that the normal storage space of the inner end of the collection box can be maintained, and the dust is prevented from being stacked too high.

4. In this automatic Perc double-sided battery of turn-over direction correction constructs with pile up neatly, reset spring through setting up accelerates the baffler reset time, receives the brush extrusion back when the baffler, drives the baffler and slowly is close to the fixed plate, extrudees each reset spring, after brush and baffler separation, reset spring loses pressure, will the reconversion, and reverse drive baffler resets fast, reduces the washing liquid outflow volume.

Drawings

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

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

FIG. 3 is a schematic view of a connecting head structure according to the present invention;

FIG. 4 is a schematic view of a rotating plate structure according to the present invention;

FIG. 5 is an exploded view of the collection assembly of the present invention;

FIG. 6 is a cross-sectional view of the cleaning assembly of the present invention;

FIG. 7 is an enlarged view of a portion of FIG. 6 in accordance with the present invention;

fig. 8 is a partial enlarged view of fig. 6 at B according to the present invention.

The various reference numbers in the figures mean:

10. an adjustment assembly; 110. a transverse plate; 111. a screw rod; 120. a connector; 121. a servo motor; 122. a splint; 130. rotating the plate; 131. a brush; 132. a clamping block; 133. a fixed head; 140. a transverse screw; 141. a support plate; 150. a longitudinal bar; 160. a steering gear set;

20. a collection device; 210. a collection box; 211. a side groove; 212. a sloping plate; 213. a bottom groove; 214. a connecting plate; 220. a collection frame; 230. a push plate; 231. a wedge plate;

30. cleaning the assembly; 310. a fixing plate; 311. a reservoir chamber; 320. a barrier plate; 330. inserting a rod; 331. a liquid outlet hole; 340. a partition plate; 350. a return spring.

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.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations or positional relationships based on those shown in the drawings, merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1 to 8, a Perc double-sided battery stacking mechanism for automatically correcting a turning direction is provided, which includes an adjusting assembly 10, the adjusting assembly 10 includes a pair of transverse plates 110, a sliding slot is formed in a side surface of each transverse plate 110, a screw 111 is disposed in the sliding slot, a conveying motor is coaxially connected to a terminal of the screw 111, a connector 120 which keeps thread transmission with the screw 111 is disposed in the sliding slot, a servo motor 121 is disposed on a side surface of the connector 120, a clamping plate 122 is coaxially connected to a side surface of the servo motor 121, a rotating plate 130 is connected between the two transverse plates 110, a plurality of brushes 131 are disposed on one side of the rotating plate 130, connecting assemblies are disposed on two sides of the rotating plate 130 adjacent to the brushes 131, each connecting assembly includes a clamping block 132, the clamping block 132 keeps sleeved and matched with a side surface of the rotating plate 130, a fixing head 133 is rotatably connected to a side surface of the clamping block 132, the fixing head 133 is fixed at an inner end of the sliding slot, a first belt is connected between the clamping block 132 and the servo motor connecting assembly 121, the servo motor 121 keeps transmission connection with the servo motor 121, a conveying assembly is connected between the two ends of the two connectors 120, the conveying assembly keeps transmission connection assemblies in transmission connection with the connecting assembly, a collecting box is disposed at a bottom end of the rotating plate 130, a collecting box 20, the collecting box is disposed at a collecting box, the collecting box 20, a collecting device 20 is disposed at two sides of the collecting box 210.

When the Perc double-sided battery cleaning device is used, a Perc double-sided battery to be cleaned is arranged between the two clamping plates 122, the clamping plates 122 are driven by the servo motor 121 to realize automatic turnover of the Perc double-sided battery, the clamping blocks 132 are driven by the servo motor 121 to rotate in the rotating process, the clamping blocks 132 and the fixing heads 133 keep rotating relatively, the two clamping blocks 132 drive the rotating plate 130 to rotate, when the rotating plate 130 and the Perc double-sided battery rotate alternately, the brush 131 contacts one side of the Perc double-sided battery, the generated pressure can bend the brush 131, meanwhile, the Perc double-sided battery and the rotating plate 130 continue to rotate, the contact positions of the Perc double-sided battery and the rotating plate 130 can generate friction, the friction force drives dust adhered to the side faces of the Perc double-sided battery to fall off, the cleaning function of the Perc double-sided battery is realized, the Perc double-sided battery is prevented from being excessively adhered to the surface in the processing process, the later normal use is influenced, meanwhile, the brush 131 can drive the conveying assembly to move, the collecting box 210 at the bottom end of the rotating plate 130 moves horizontally along the conveying assembly, the dust is prevented from being adhered to the collecting box at the bottom end of the Perc double-sided battery, and the dust is difficult to be collected along the dust adhered to be scattered in the later stage, the dust collecting operation of the cleaning plate 130, and the dust is difficult to be carried out due to the dust collecting operation of the dust adhered to the double-sided battery, the dust.

In addition, the conveying assembly comprises a pair of transverse screws 140, connecting plates 214 are respectively in threaded connection with the two transverse screws 140 close to the middle, the two connecting plates 214 are respectively fixed on two sides of the collecting box 210, supporting plates 141 are respectively sleeved at two ends of the two transverse screws 140, the top ends of the supporting plates 141 are fixedly connected with the bottom ends of the transverse plates 110, a longitudinal rod 150 is arranged between the two transverse screws 140, steering gear sets 160 are respectively connected between two ends of the longitudinal rod 150 and the two transverse screws 140, second belts are sleeved at positions, close to the steering gear sets 160, of two ends of the longitudinal rod 150, and the other ends of the second belts are in sleeve connection with the clamping blocks 132. During the specific use, the clamp splice 132 rotates the in-process, drives through the second belt and indulges the pole 150 and rotates, and indulges the pole 150 and drives two horizontal screw rods 140 through two steering gear set 160 and rotate, and horizontal screw rod 140 rotates the in-process, drives collecting box 210 horizontal migration through two connecting plates 214, drives whole collecting box 210 and realizes the position control to ensure that collecting box 210 can remove the clearance position.

Further, the collecting box 210 is provided with a side groove 211 on the side, a pushing plate 230 is slidably connected in the side groove 211, and two sides of the pushing plate 230 are respectively fixedly connected with the two supporting plates 141. When the dust collection box is used specifically, after dust collection work of the collection box 210 is completed, the dust collection box moves reversely to the initial position, at the moment, the pushing plate 230 moves along the bottom of the inner end of the collection box 210 to push dust existing in a passing area, so that dust scattered in the collection box 210 can be pushed and concentrated, and later-stage operators can clean the dust conveniently.

Still further, a wedge plate 231 is arranged at the bottom end of the side surface of the pushing plate 230, and the wedge plate 231 is of a wedge-shaped structure. During specific use, because carrying out the dust propelling movement in-process, the dust particulate matter is less, and the dust that is located the least significant end is difficult to be pushed by push plate 230, leads to still to have some dust to remain to collecting box 210 inner, increases push plate 230 bottom clearance face through the wedge 231 that sets up this moment, carries out the scraping to the dust of least significant end through wedge 231, increases dust cleaning effect.

Specifically, a bottom groove 213 is formed at the bottom of the inner end of the collection box 210 near the edge, and a collection frame 220 is sleeved at the inner end of the bottom groove 213. Because the inner end of the collecting box 210 has limited space size, during dust collection, dust is easily over-high and overflows outwards along the top end of the collecting box 210, at the moment, dust pushed by the pushing plate 230 is collected secondarily through the arranged collecting frame 220, and after the inner end of the collecting frame 220 is fully collected with dust, the collecting frame 220 is taken out from the inner end of the bottom groove 213 and cleaned, so that the normal storage space of the inner end of the collecting box 210 can be maintained, and the dust is prevented from being over-high.

In addition, the collecting box 210 is provided with inclined plates 212 on both sides of the top end thereof, and the inclined plates 212 are in an inclined structure. When the dust collecting device is used specifically, the size of the top end of the collecting box 210 is increased through the arranged inclined plate 212, so that the size of the dust receiving opening is increased, the dust is prevented from scattering excessively, the dust escapes from the position of the top end edge of the collecting box 210, and the dust collecting efficiency is reduced.

Further, be provided with clearance subassembly 30 between two diaphragm 110, clearance subassembly 30 includes fixed plate 310, and fixed plate 310 sets up in brush 131 top, and the fixed plate 310 bottom is provided with separation board 320. During the specific use, because brush 131 carries out the dust scraping back to Perc double-sided battery, there is some dust can remain to brush 131 surface, long-term in the past, can lead to brush 131 to accumulate excessive dust, influence normal dust cleaning work, the separation board 320 through setting up carries out the separation processing to brush 131 this moment, in the process of changeing board 130 rotation, brush 131 takes place the contact with separation board 320 side, brush 131 receives separation board 320 extrusion, take place to buckle, the dust that remains on brush 131 surface this moment can receive separation board 320 extrusion, take place to shake off, it scatters to the collecting box 210 inner to receive the action of gravity, thereby can guarantee at Perc double-sided battery cleaning process at every turn, brush 131 carries out self-cleaning once, further improve the clearance effect of changeing board 130.

Furthermore, the inner end of the blocking plate 320 is provided with a plurality of insertion rods 330, a plurality of liquid outlet holes 331 are formed in the insertion rods 330, one end of each liquid outlet hole 331 is opened at the tail end of the insertion rod 330, the other end of each liquid outlet hole 331 is opened at a position close to the side face of the other tail end of the insertion rod 330, the inner end of the fixing plate 310 is provided with a liquid storage cavity 311, the inner end of the liquid storage cavity 311 is provided with a partition plate 340, and the insertion rods 330, the fixing plate 310 and the partition plate 340 are all in inserted fit. When the brush 131 is in contact with the blocking plate 320, pressure is applied to the side surface of the blocking plate 320 by the brush 131, the blocking plate 320 is forced to move towards the position close to the side surface of the fixing plate 310, the blocking plates 320 are driven to be inserted into the inner ends of the partition plates 340 and penetrate into the inner end of the liquid storage chamber 311, the cleaning liquid accumulated at the inner end of the liquid storage chamber 311 is discharged towards the side surface of the insertion rod 330 along the liquid outlet hole 331, the discharged cleaning liquid can be adhered to the surface of the brush 131 to clean the brush 131 for the second time, and the self-cleaning effect of the brush 131 is further improved.

In addition, the blocking plate 320 has an arc-shaped edge at both sides. Because in brush 131 and the 320 both sides border position contact process of separation board, contact position can produce frictional force between the two, and frictional force too big can lead to a small amount of brush 131 to take place to drop from commentaries on classics board 130, long-term in the past, can influence brush 131's life, all sets up the 320 both sides border position of separation board this moment and is the arc structure, reduces the friction between the two to reduce brush 131 and drop, improve brush 131 life.

In addition, a plurality of return springs 350 are connected between the blocking plate 320 and the fixing plate 310. When the brush 131 is compressed by the blocking plate 320, the inserting rod 330 penetrates into the inner end of the liquid storage chamber 311 to discharge the cleaning solution, when the brush 131 is disconnected from the blocking plate 320, the gravity of the blocking plate 320 overcomes the friction force generated between the inserting rod 330 and the partition plate 340, so that the blocking plate 320 can slide to the initial position again, but the recovery process is slow, a large amount of cleaning solution overflows in the recovery process, and a large amount of cleaning solution is wasted, at the moment, the reset time of the blocking plate 320 is accelerated by the reset spring 350, when the blocking plate 320 is pressed by the brush 131, the blocking plate 320 is driven to slowly approach the fixing plate 310 to press each reset spring 350, and when the brush 131 is separated from the blocking plate 320, the reset spring 350 loses pressure, is about to be restored, the blocking plate 320 is driven to quickly reset in a reverse direction, and the overflow amount of the cleaning solution is reduced.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides an automatic Perc double-sided battery of turn-over direction correction constructs with pile up neatly, includes adjusting part (10), adjusting part (10) include a pair of diaphragm (110), the spout has been seted up to diaphragm (110) side, be provided with lead screw (111) in the spout, the terminal coaxial coupling of lead screw (111) has conveyer motor, be provided with in the spout with lead screw (111) keep screw thread drive's connector (120), connector (120) side is provided with servo motor (121), servo motor (121) side coaxial coupling has splint (122), its characterized in that: the collecting device is characterized in that a rotating plate (130) is connected between the two transverse plates (110), a plurality of brushes (131) are arranged on one side of the rotating plate (130), connecting assemblies are arranged on two adjacent sides of the rotating plate (130) and the brushes (131), the connecting assemblies are in transmission connection with the servo motor (121), a conveying assembly is connected between the bottom ends of the connecting heads (120), the conveying assembly is in transmission connection with the connecting assemblies, a collecting device (20) is arranged at the bottom end of the rotating plate (130), the collecting device (20) comprises a collecting box (210), and two sides of the collecting box (210) are in transmission connection with the conveying assembly.

2. The stacker mechanism for automatic turn-over direction correction Perc double-sided batteries according to claim 1, wherein: the conveying assembly comprises a pair of transverse screws (140), two transverse screws (140) are in threaded connection with connecting plates (214) close to the middle positions, the two connecting plates (214) are fixed to the two sides of the collecting box (210) respectively, supporting plates (141) are sleeved at the two ends of the two transverse screws (140), the top ends of the supporting plates (141) are fixedly connected with the bottom end of the transverse plate (110), a longitudinal rod (150) is arranged between the two transverse screws (140), steering gear sets (160) are connected between the two ends of the longitudinal rod (150) and the two transverse screws (140) respectively, and second belts are sleeved at the positions, close to the steering gear sets (160), of the two ends of the longitudinal rod (150).

3. The palletizing mechanism for the Perc double-sided battery with automatic turn-over direction correction as claimed in claim 2, wherein: side grooves (211) are formed in the side faces of the collecting box (210), a pushing plate (230) is connected in the side grooves (211) in a sliding mode, and two sides of the pushing plate (230) are fixedly connected with the two support plates (141) respectively.

4. The stacker mechanism for automatic turn-over direction correction Perc double-sided batteries according to claim 3, wherein: the bottom end of the side face of the pushing plate (230) is provided with a wedge-shaped plate (231), and the wedge-shaped plate (231) is of a wedge-shaped structure.

5. The stacker mechanism for automatic turn-over direction correction Perc double-sided batteries according to claim 3, wherein: the bottom of the inner end of the collecting box (210) is close to the edge, a bottom groove (213) is formed in the position, and a collecting frame (220) is sleeved at the inner end of the bottom groove (213).

6. The stacker mechanism for automatic turn-over direction correction Perc double-sided batteries according to claim 5, wherein: both sides of the top end of the collecting box (210) are provided with inclined plates (212), and the inclined plates (212) are of inclined structures.

7. The stacker mechanism for automatic turn-over direction correction Perc double-sided batteries according to claim 1, wherein: two be provided with clearance subassembly (30) between diaphragm (110), clearance subassembly (30) are including fixed plate (310), fixed plate (310) set up brush (131) top, fixed plate (310) bottom is provided with baffler board (320).

8. The stacker mechanism for automatic turn-over direction correction Perc double-sided batteries according to claim 7, wherein: the utility model discloses a baffle plate, including baffle plate (320), baffle plate, liquid hole (331) and baffle plate (340), baffle plate (320) inner is provided with a plurality of inserted bars (330), it goes out liquid hole (331) one end opening setting at inserted bar (330) end to have seted up in inserted bar (330) a plurality of liquid holes (331), it sets up at inserted bar (330) other end side position to go out liquid hole (331) other end opening, fixed plate (310) inner is provided with stock solution cavity (311), stock solution cavity (311) inner is provided with baffle (340), inserted bar (330) with fixed plate (310) and baffle (340) all keep pegging graft the cooperation.

9. The palletizing mechanism for automatic turn-over direction correction Perc double-sided batteries as claimed in claim 8, wherein: the edge positions of two sides of the blocking plate (320) are both arc-shaped structures.

10. The palletizing mechanism for automatic turn-over direction correction Perc double-sided batteries as claimed in claim 9, wherein: a plurality of return springs (350) are connected between the blocking plate (320) and the fixing plate (310).

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