CN219852658U - Double-station scribing and splitting machine for battery piece - Google Patents

Abstract

The utility model belongs to the technical field of battery piece production, and particularly relates to a battery piece double-station scribing and splitting machine, which comprises a base, wherein a storage bin, two scribing moving mechanisms, a laser scribing mechanism, a splitting mechanism, a material receiving box and a feeding mechanism are arranged above the base in parallel along the X-axis direction, and the feeding mechanism, the laser scribing mechanism and the splitting mechanism are arranged in parallel along the Y-axis direction; according to the utility model, the storage bins, the feeding mechanism, the scribing moving mechanism, the laser scribing mechanism, the splitting mechanism and the material receiving box which are circumferentially arranged are utilized, so that the occupied area of the equipment is saved, the structure is more compact, double stations are realized by utilizing the two scribing moving mechanisms which are distributed in parallel, and the processing efficiency is improved.

Description

Double-station scribing and splitting machine for battery piece

Technical Field

The utility model belongs to the technical field of battery piece production, and particularly relates to a battery piece double-station dicing and splitting machine.

Background

In the production process of solar cells, the need for equally dividing a square cell into two long-strip-shaped cells is increasing, and the cutting method is generally that firstly, a laser is used for scribing the whole cell, and then a splitting mechanism is used for breaking the whole cell into two long-strip-shaped cells.

The application number CN202011500438.8 discloses a solar wafer material loading scribing splitting and handling device, including battery piece feeding mechanism, battery piece transport scribing mechanism, battery piece splitting mechanism and manipulator catch piece mechanism, each station is arranged in proper order from front to back for whole device area is great.

Disclosure of Invention

The utility model aims to solve the technical problems that: in order to solve the problem that the occupied area of the whole device is large due to the fact that stations of the battery piece splitting machine are sequentially arranged from front to back in the prior art, the battery piece double-station scribing splitting machine is provided.

In order to solve the technical problems, the utility model adopts the following technical scheme: a battery piece duplex dicing die splitter comprising: the base, install the base top:

the storage bin is used for placing the battery pieces to be cracked;

the scribing moving mechanisms are two and are distributed in parallel along the X-axis direction and used for driving the battery pieces on the scribing moving mechanisms to move along the Y-axis direction so as to form double stations;

the laser scribing mechanism is used for scribing the battery piece on the scribing moving mechanism and is arranged in a sliding way along the X-axis direction to realize double-station scribing;

the splitting mechanism is used for breaking the diced battery piece and is arranged in a sliding way along the X-axis direction;

the material receiving box is used for placing the split battery pieces;

the feeding mechanism is used for conveying the battery pieces in the bin to the scribing moving mechanism and is arranged in a sliding manner along the X direction;

the feeding mechanism, the laser scribing mechanism and the splitting mechanism are distributed in parallel along the Y-axis direction, the storage bin and the material receiving box are also distributed in parallel along the Y-axis direction, and the stations are circumferentially distributed by combining the scribing moving mechanism.

Firstly, a feeding mechanism moves along the X-axis direction to transport the battery piece to be broken in the storage bin to one of the scribing moving mechanisms, then the scribing moving mechanism moves along the Y-axis direction, the laser scribing mechanism is used for scribing the battery piece on the scribing moving mechanism in the moving process, then the broken piece is broken after the broken battery piece is absorbed by the breaking mechanism, meanwhile, the broken battery piece is conveyed to the inside of a receiving box along the X-axis direction, and in the process of scribing and breaking the last battery piece, the feeding mechanism returns to convey the next battery piece to the other scribing moving mechanism.

Above-mentioned technical scheme utilizes feed bin, feed mechanism, scribing mobile mechanism, laser scribing mechanism, split mechanism and the receipts magazine that circumference was arranged, has saved the area of this equipment, makes the structure compacter, and has realized the duplex position with two scribing mobile mechanisms of parallel distribution, has improved machining efficiency.

Further, the feed bin is including fixing the feed bin bottom plate in the base top, the feed bin bottom plate top is equipped with the feed bin layer board that is used for bearing the battery piece, just four corners of feed bin bottom plate are equipped with can be close to or keep away from its central regulation stand, and a plurality of rectangular holes to feed bin bottom plate central slope are all seted up to every corner on the feed bin bottom plate, and the bolt passes rectangular hole and adjusts stand threaded connection and realize adjusting the adjustment of stand position, the feed bin layer board is the cross structure and dodges adjusting the stand, can bear the battery piece of equidimension not through the position of adjustment adjusting the stand.

Further, the bottom of the storage bin is provided with a lifting mechanism, the lifting mechanism comprises a bracket fixed in the base, a motor is mounted on the bracket, the output end of the motor is in transmission connection with a ball screw mechanism, a support rod for lifting a storage bin supporting plate is fixed on a nut seat of the ball screw mechanism, a slide rail is mounted on the bracket, and a slide block matched with the slide rail is mounted on the support rod; and the motor is started, the motor drives the ball screw mechanism to move, the nut seat moves upwards to drive the bin supporting plate to move upwards, the battery piece on the bin supporting plate is lifted to a certain height to be grabbed by the feeding mechanism, and the arrangement of the sliding rail and the sliding block can play a guiding role on the movement of the bin supporting plate.

Further, the feeding mechanism comprises a third X-axis linear motion mechanism, the output end of the third X-axis linear motion mechanism is connected with a feeding cylinder, and the output end of the feeding cylinder is connected with a feeding sucker; and finally, the third X-axis linear motion mechanism drives the battery piece on the feeding sucker to move to the upper part of the scribing moving mechanism, and the feeding cylinder drives the battery piece to move downwards to the scribing moving mechanism.

Further, the scribing moving mechanism comprises a Y-axis linear motion mechanism, and the output end of the Y-axis linear motion mechanism is connected with a cutting carrier for bearing the battery piece; and starting the Y-axis linear motion mechanism to drive the battery piece on the cutting carrier to move, scribing the battery piece by the laser scribing mechanism in the motion process, and then conveying the diced battery piece to the lower part of the splitting mechanism.

Further, the laser scribing mechanism comprises a first X-axis linear motion mechanism, a laser and a smoke exhaust pipe are arranged at the output end of the first X-axis linear motion mechanism, the laser is used for scribing the battery pieces, the smoke exhaust pipe is used for absorbing smoke in the slicing process, and the first X-axis linear motion mechanism drives the laser to move so as to scribe the battery pieces on the two cutting carriers respectively.

Further, the splitting mechanism comprises a second X-axis linear motion mechanism, a splitting cylinder is mounted at the output end of the second X-axis linear motion mechanism, a first air nozzle plate is connected to the output end of the splitting cylinder, second air nozzle plates are hinged to the first air nozzle plates side by side, a pressing piece for pushing the second air nozzle plates to rotate is mounted above the second air nozzle plates, and an elastic piece for resetting is arranged between the first air nozzle plates and the second air nozzle plates; firstly, the first air nozzle plate and the second air nozzle plate are driven by the splitting air cylinder to move downwards to suck the battery piece on the cutting carrier, the pressing piece downwards presses the second air nozzle plate, and the second air nozzle plate rotates to break the battery piece.

Further, receive the magazine and include receiving the material bottom plate and be located the receipts material layer board of receiving the material bottom plate top, receive the material layer board from the middle part to the direction of both sides slope downwards gradually, it is equipped with a plurality of regulation baffles to receive the material bottom plate along its circumference, and a plurality of regulation baffles enclose and close the space that forms the supply and receive the material layer board and place, through the adjustable this space size of regulation baffle.

The utility model has the beneficial effects that: according to the utility model, the storage bins, the feeding mechanism, the scribing moving mechanism, the laser scribing mechanism, the splitting mechanism and the material receiving box which are circumferentially arranged are utilized, so that the occupied area of the equipment is saved, the structure is more compact, double stations are realized by utilizing the two scribing moving mechanisms which are distributed in parallel, and the processing efficiency is improved.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a three-dimensional schematic view of the utility model from a first perspective with the chassis removed;

FIG. 3 is a three-dimensional schematic view of the present utility model from a second perspective with the chassis removed;

FIG. 4 is a top view of the present utility model with the base removed;

FIG. 5 is a schematic view of the structure of the silo;

FIG. 6 is a schematic structural view of a laser scribing mechanism;

FIG. 7 is a schematic view of the construction of the splinter mechanism;

FIG. 8 is a schematic view of the structure of the receiving box;

FIG. 9 is a schematic structural view of a feeding mechanism;

FIG. 10 is a schematic view of the structure of the lifting mechanism;

in the figure:

1. a base;

2. a storage bin; 201. a bottom plate of the stock bin; 202. a stock bin supporting plate; 203. adjusting the upright post;

3. a dicing moving mechanism; 301. a Y-axis linear motion mechanism; 302. cutting the carrier;

4. a laser scribing mechanism; 401. a first X-axis linear motion mechanism; 402. a laser; 403. a smoke exhaust pipe;

5. a splinter mechanism; 501. a second X-axis linear motion mechanism; 502. a split cylinder; 503. a first air nozzle plate; 504. a second air nozzle plate; 505. a pressing piece; 506. an elastic member;

6. a receiving box; 601. a material receiving bottom plate; 602. a material receiving supporting plate; 603. adjusting a baffle;

7. a feeding mechanism; 701. a third X-axis linear motion mechanism; 702. a feeding cylinder; 703. feeding sucking discs;

8. a lifting mechanism; 801. a bracket; 8011. a slide rail; 802. a motor; 803. a ball screw mechanism; 804. a support rod; 8041. a sliding block.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the utility model and therefore show only the structures which are relevant to the utility model.

Embodiment one:

as shown in fig. 1 to 10, the present utility model is a battery piece double-station dicing saw, comprising: base 1, base 1 installs the top:

the storage bin 2 is used for placing the battery pieces to be cracked; the bin 2 comprises a bin bottom plate 201 fixed above the base 1, a bin supporting plate 202 for bearing battery pieces is arranged above the bin bottom plate 201, air blowing mechanisms are arranged on two sides of the bin bottom plate 201, four corners of the bin bottom plate 201 are provided with adjusting upright posts 203 which can be close to or far away from the center of the bin bottom plate, each corner on the bin bottom plate 201 is provided with a plurality of strip holes inclined towards the center of the bin bottom plate 201, bolts penetrate through the strip holes and are in threaded connection with the adjusting upright posts 203 to realize the adjustment of the positions of the adjusting upright posts 203, the adjusting upright posts 203 comprise a base and two support posts which are arranged in a forked mode from the top of the base, the bin supporting plate 202 is of a cross structure to avoid the adjusting upright posts 203, and the battery pieces with different sizes can be borne by adjusting the positions of the adjusting upright posts 203;

the bottom of the storage bin 2 is provided with a lifting mechanism 8, the lifting mechanism 8 comprises a bracket 801 fixed in the base 1, a motor 802 is installed on the bracket 801, the output end of the motor 802 is in transmission connection with a ball screw mechanism 803, a support rod 804 for lifting the storage bin supporting plate 202 is fixed on a nut seat of the ball screw mechanism 803, a through hole for the support rod 804 to pass through is formed in the storage bin bottom plate 201, a sliding rail 8011 is installed on the bracket 801, and a sliding block 8041 matched with the sliding rail 8011 is installed on the support rod 804; starting the motor 802, the motor 802 drives the ball screw mechanism 803 to move, the nut seat moves upwards to drive the bin supporting plate 202 to move upwards, the battery piece on the bin supporting plate 202 is lifted to a certain height to be grabbed by the feeding mechanism 7, and the arrangement of the sliding rail 8011 and the sliding block 8041 can play a guiding role on the movement of the bin supporting plate 202.

The scribing moving mechanism 3 is provided with two scribing moving mechanisms which are distributed in parallel along the X-axis direction and used for driving the battery pieces on the scribing moving mechanism to move along the Y-axis direction so as to form double stations; the scribing moving mechanism 3 comprises a Y-axis linear movement mechanism 301, the output end of the Y-axis linear movement mechanism 301 is connected with a cutting carrier 302 for carrying the battery piece, the Y-axis linear movement mechanism 301 is started to drive the battery piece on the cutting carrier 302 to move, the laser scribing mechanism 4 is used for scribing the battery piece in the moving process, and then the diced battery piece is conveyed to the lower part of the splitting mechanism 5.

The laser scribing mechanism 4 is used for scribing the battery piece on the cutting carrier 302, and is arranged in a sliding manner along the X-axis direction to realize double-station scribing; the laser scribing mechanism 4 comprises a first X-axis linear motion mechanism 401, a laser 402 and a smoke exhaust pipe 403 are arranged at the output end of the first X-axis linear motion mechanism 401, the laser 402 is used for scribing the battery pieces, the smoke exhaust pipe 403 is used for absorbing smoke in the scribing process, and the first X-axis linear motion mechanism 401 drives the laser 402 to move so as to scribe the battery pieces on the two cutting carriers 302 respectively.

The splitting mechanism 5 is used for breaking the diced battery piece and is arranged in a sliding way along the X-axis direction; the splitting mechanism 5 comprises a second X-axis linear motion mechanism 501, a splitting cylinder 502 is mounted at the output end of the second X-axis linear motion mechanism 501, a first air nozzle plate 503 is connected to the output end of the splitting cylinder 502, a second air nozzle plate 504 is hinged to the first air nozzle plate 503 side by side, a pressing piece 505 for pushing the second air nozzle plate 504 to rotate is mounted above the second air nozzle plate 504, and an elastic piece 506 for resetting is arranged between the first air nozzle plate 503 and the second air nozzle plate 504; first, the first air nozzle plate 503 and the second air nozzle plate 504 are driven by the split air cylinder 502 to move downwards to suck the battery piece on the cutting carrier 302, the pressing piece 505 presses the second air nozzle plate 504 downwards, the second air nozzle plate 504 rotates to break the battery piece, and the rotation angle is 5-15 degrees and is adjustable.

The material receiving box 6 is used for placing the split battery pieces; the material receiving box 6 comprises a material receiving bottom plate 601 and a material receiving supporting plate 602 positioned above the material receiving bottom plate 601, the material receiving supporting plate 602 gradually inclines downwards from the middle part to the directions of two sides, the material receiving bottom plate 601 is provided with a plurality of adjusting baffles 603 along the circumference thereof, the plurality of adjusting baffles 603 enclose to form a space for placing the material receiving supporting plate 602, and the size of the space can be adjusted through the adjusting baffles 603.

The feeding mechanism 7 is used for conveying the battery pieces in the storage bin 2 to the scribing moving mechanism 3 and is arranged in a sliding manner along the X direction; the feeding mechanism 7 comprises a third X-axis linear motion mechanism 701, wherein the output end of the third X-axis linear motion mechanism 701 is connected with a feeding cylinder 702, and the output end of the feeding cylinder 702 is connected with a feeding sucker 703; and starting a third X-axis linear motion mechanism 701 to drive a feeding sucker 703 to move to the upper part of the storage bin 2, then starting a feeding cylinder 702 to drive the feeding sucker 703 to move downwards to adsorb the battery piece, and finally driving the battery piece on the feeding sucker 703 to move to the upper part of the scribing moving mechanism 3 by the third X-axis linear motion mechanism 701, and driving the battery piece to move downwards to the upper part of the scribing moving mechanism 3 by the feeding cylinder 702.

The feeding mechanism 7, the laser scribing mechanism 4 and the splitting mechanism 5 are distributed in parallel along the Y-axis direction, the storage bin 2 and the receiving box 6 are also distributed in parallel along the Y-axis direction, and the scribing moving mechanism 3 is combined, so that all stations are circumferentially distributed, the occupied area is saved, and the equipment structure is more compact.

Working principle:

firstly, a mechanical arm conveys battery pieces to a bin supporting plate 202, a feeding mechanism 7 moves along the X-axis direction to convey the battery pieces in the bin supporting plate 202 to a cutting carrier 302 of one scribing moving mechanism 3, then the cutting carrier 302 drives the battery pieces to move along the Y-axis direction, a laser scribing mechanism 4 scribes the battery pieces on the cutting carrier 302 in the moving process, a splitting mechanism 5 absorbs the diced battery pieces and breaks the battery pieces, meanwhile, the split battery pieces are conveyed to the inside of a receiving box 6 in the moving process along the X-axis direction, and in the scribing and splitting process of the previous battery pieces, the feeding mechanism 7 returns to convey the next battery pieces to the cutting carrier 302 of the other scribing moving mechanism 3 to wait for scribing.

With the above-described preferred embodiments according to the present utility model as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present utility model. The technical scope of the present utility model is not limited to the description, but must be determined according to the scope of claims.

Claims (8)

1. A battery piece duplex position scribing wafer splitting machine, its characterized in that: comprising the following steps: base (1), install base (1) top:

the storage bin (2) is used for placing the battery pieces to be cracked;

the scribing moving mechanisms (3) are two and are distributed in parallel along the X-axis direction and used for driving the battery pieces on the scribing moving mechanisms to move along the Y-axis direction;

the laser scribing mechanism (4) is used for scribing the battery piece on the scribing moving mechanism (3) and is arranged in a sliding way along the X-axis direction;

the splitting mechanism (5) is used for breaking the diced battery piece and is arranged in a sliding way along the X-axis direction;

the material receiving box (6) is used for placing the split battery pieces;

the feeding mechanism (7) is used for conveying the battery pieces in the storage bin (2) to the scribing moving mechanism (3) and is arranged in a sliding manner along the X direction;

the feeding mechanism (7), the laser scribing mechanism (4) and the splitting mechanism (5) are distributed in parallel along the Y-axis direction.

2. The battery piece double-station dicing die-cutting machine according to claim 1, wherein: the storage bin (2) comprises a storage bin bottom plate (201) fixed above the base (1), a storage bin supporting plate (202) used for bearing battery pieces is arranged above the storage bin bottom plate (201), and four corners of the storage bin bottom plate (201) are provided with adjusting upright posts (203) which can be close to or far away from the center of the storage bin bottom plate.

3. The battery piece double-station dicing die-cutting machine according to claim 2, wherein: the lifting mechanism is characterized in that a lifting mechanism (8) is arranged at the bottom of the storage bin (2), the lifting mechanism (8) comprises a support (801) fixed inside the base (1), a motor (802) is installed on the support (801), a ball screw mechanism (803) is connected to the output end of the motor (802) in a transmission mode, a supporting rod (804) used for lifting the storage bin supporting plate (202) is fixed to a nut seat of the ball screw mechanism (803), a sliding rail (8011) is installed on the support (801), and a sliding block (8041) matched with the sliding rail (8011) is installed on the supporting rod (804).

4. The battery piece double-station dicing die-cutting machine according to claim 1, wherein: the feeding mechanism (7) comprises a third X-axis linear motion mechanism (701), the output end of the third X-axis linear motion mechanism (701) is connected with a feeding cylinder (702), and the output end of the feeding cylinder (702) is connected with a feeding sucker (703).

5. The battery piece double-station dicing die-cutting machine according to claim 1, wherein: the scribing moving mechanism (3) comprises a Y-axis linear motion mechanism (301), and the output end of the Y-axis linear motion mechanism (301) is connected with a cutting carrier (302) for carrying the battery piece.

6. The battery piece double-station dicing die-cutting machine according to claim 1, wherein: the laser scribing mechanism (4) comprises a first X-axis linear motion mechanism (401), and a laser (402) and a smoke exhaust pipe (403) are arranged at the output end of the first X-axis linear motion mechanism (401).

7. The battery piece double-station dicing die-cutting machine according to claim 1, wherein: the splitting mechanism (5) comprises a second X-axis linear motion mechanism (501), a splitting cylinder (502) is mounted at the output end of the second X-axis linear motion mechanism (501), a first air nozzle plate (503) is connected at the output end of the splitting cylinder (502), second air nozzle plates (504) are hinged side by side on the first air nozzle plate (503), a pressing piece (505) for pushing the second air nozzle plates (504) to rotate is mounted above the second air nozzle plates (504), and an elastic piece (506) for resetting is arranged between the first air nozzle plates (503) and the second air nozzle plates (504).

8. The battery piece double-station dicing die-cutting machine according to claim 1, wherein: the material collecting box (6) comprises a material collecting bottom plate (601) and a material collecting supporting plate (602) arranged above the material collecting bottom plate (601), wherein a plurality of adjusting baffles (603) are arranged on the material collecting bottom plate (601) along the circumferential direction of the material collecting bottom plate, and the adjusting baffles (603) enclose to form a space for placing the material collecting supporting plate (602).