CN115117203A - Solar cell wiring point position puts integrative equipment of high temperature cloth book lead wire - Google Patents

Abstract

The invention discloses a solar cell wiring point position high-temperature cloth and lead folding integrated device, relates to the technical field of solar cell production, and aims at solving the problems that the existing solar cell wiring point position high-temperature cloth device is single in function, the solar cell is easy to deviate in the process of laying high-temperature cloth, the high-temperature cloth cannot be laid accurately, bar codes cannot be automatically pasted on the solar cell, the functional workload of workers is increased, the use effect is poor, and the working efficiency is low. The solar cell positioning device is reasonable in structural design and simple to operate, can stably limit the position of the solar cell, can accurately lay high-temperature cloth on the solar cell, can automatically paste bar codes, reduces the labor intensity of workers, and is good in using effect and high in working efficiency.

Description

Solar cell wiring point position puts integrative equipment of high temperature cloth book lead wire

Technical Field

The invention relates to the technical field of solar cell production, in particular to solar cell wiring point position amplification high-temperature cloth folding and wiring integrated equipment.

Background

Solar cells are used for directly converting solar energy into electric energy, with the continuous development of the solar cell industry, the domestic competition is continuously intensified, the co-purchasing integration and capital operation among large-scale solar cell enterprises are frequent, and domestic excellent solar cell production enterprises pay more and more attention to the research on the industrial market, in particular to the deep research on the industrial development environment and product purchasers. For this reason, a large number of domestic excellent solar cell brands rapidly rise, and gradually become a fuzz in the solar cell industry. In order to prevent the back of the laminating part from being dirty in the production process of the solar cell, a layer of high-temperature cloth needs to be laid on the laminating part, and after the high-temperature cloth is laid, the metal lead needs to be bent, so that the production efficiency is improved, and the high-temperature cloth and lead folding integrated equipment for the wiring point of the solar cell is urgently needed.

However, the existing equipment for placing the high-temperature cloth at the solar cell wiring point has a single function, the solar cell is easy to deviate in the process of laying the high-temperature cloth, the high-temperature cloth cannot be accurately laid, the bar code cannot be automatically pasted on the solar cell, the functional workload of workers is increased, the use effect is poor, and the work efficiency is low.

Disclosure of Invention

The invention aims to solve the defects that the existing solar cell wiring point position high-temperature cloth folding and leading line integral equipment has single function, the solar cell is easy to deviate in the process of laying high-temperature cloth, the high-temperature cloth cannot be laid accurately, bar codes cannot be pasted on the solar cell automatically, the functional workload of workers is increased, the use effect is poor, and the working efficiency is low.

In order to achieve the purpose, the invention adopts the following technical scheme:

a solar cell wiring point position high-temperature cloth wire folding integrated device comprises a rack, a stabilizing mechanism, a transmission mechanism, a wire folding mechanism and a bar code pasting mechanism, wherein a fixing frame is arranged on the top side of the rack through screws;

the stabilizing mechanism comprises two first slide rails and two second slide rails, wherein the two first slide rails and the two second slide rails are both arranged on the rack through screws, a first pneumatic seat is arranged on the two first slide rails in a sliding manner, an L-shaped slide bar is arranged on one side, far away from each other, of the two first pneumatic seats in a sliding manner, guide wheels are arranged on the two L-shaped slide bars in a rotating manner, a third pneumatic seat is arranged on the two second slide rails in a sliding manner, two push rods are arranged on the third pneumatic seat in a sliding manner, a connecting plate is fixedly arranged on the two push rods through screws, a plurality of fixed shafts are fixedly welded on the connecting plate, rollers are rotatably sleeved on the plurality of fixed shafts, a plurality of fixed plates are arranged on the rack through screws, two first belt pulleys are rotatably arranged on the fixed plates, and the corresponding two first belt pulleys are in a transmission connection with the same first belt, a plurality of one of the fixed plates is provided with a first motor through a screw, an output shaft of the first motor is fixedly welded with a driving shaft, and the corresponding first belt pulley is fixedly sleeved on the driving shaft.

The transmission mechanism comprises two second motors and two transmission shafts, the two second motors are both arranged on the rack through screws, the two transmission shafts are both rotatably arranged on the top side of the rack, second belt pulleys are fixedly sleeved on output shafts of the two second motors and the two transmission shafts, the two corresponding second belt pulleys are in transmission connection with the same second belt, two third belt pulleys and two fourth belt pulleys are rotatably arranged on the top side of the rack, one of the two transmission shafts is fixedly sleeved with the two third belt pulleys, the other of the two transmission shafts is fixedly sleeved with the two fourth belt pulleys, the two corresponding third belt pulleys are in transmission connection with the same third belt, and the two corresponding fourth belt pulleys are in transmission connection with the same fourth belt;

the wire folding mechanism comprises a first sliding frame and three first adjusting seats, the first sliding frame is arranged on the top side of the rack in a sliding mode, the two fourth belts are movably clamped on the first sliding frame, the three first adjusting seats are arranged on the first sliding frame in a sliding mode, and wire folding devices are connected onto the first adjusting seats in a sliding mode;

the bar code pasting mechanism comprises a second sliding frame, the second sliding frame is arranged on the top side of the rack in a sliding mode, the two third belt pulleys are movably clamped on the second sliding frame, a second adjusting seat is arranged on the second sliding frame in a sliding mode, and a bar code pasting device is arranged on the second adjusting seat in a sliding mode.

Preferably, a plurality of second pneumatic seats are installed on the rack through screws, a rubber disc is installed at the output end of each second pneumatic seat through a screw, and two air pump connectors are installed on each of the first pneumatic seat, the second pneumatic seat and the third pneumatic seat.

Preferably, four stabilizing seats are mounted on the top side of the rack through screws, and the transmission shafts are rotatably arranged on the two corresponding stabilizing seats.

Preferably, clamping seats are fixedly welded on the first sliding frame and the second sliding frame, and the third belt and the fourth belt are clamped with the corresponding clamping seats.

Preferably, two third slide rails are installed on the top side of the rack through screws, a limiting seat is installed on the first sliding frame and the second sliding frame through screws, and the limiting seat is arranged on the corresponding third slide rails in a sliding mode.

Preferably, six support legs are fixedly mounted on the bottom side of the rack, and the three support legs located on the same side are arranged at equal intervals.

Preferably, the same stabilizing plate is fixedly welded on the two corresponding push rods, and the connecting plates are mounted on the corresponding stabilizing plates through screws.

Preferably, two motor supports are fixedly arranged on the second motors, and the motor supports are mounted on the rack through screws.

According to the solar cell wiring point high-temperature cloth lead folding integrated equipment, firstly, a first motor is started, an output shaft of the first motor drives a driving shaft to rotate, the driving shaft rotates to drive a plurality of first belt pulleys to rotate, the first belt pulleys drive a first belt, the first belt moves to drive a solar cell to move, when the solar cell is located in the middle of a rack, an air pump controls a first pneumatic seat, a second pneumatic seat and a third pneumatic seat through an air pump connector, the two first pneumatic seats are close to each other, the first pneumatic seat enables two L-shaped sliding rods to be close to each other, two guide wheels are in contact with the solar cell, the second pneumatic seats drive corresponding rubber discs to move upwards to enable the solar cell to move upwards, and the third pneumatic seat enables two connecting plates to be close to each other to position the solar cell;

in the invention, two second motors are started, a second belt pulley drives a second belt pulley to drive a transmission shaft to rotate, the rotation of the two transmission shafts respectively drives a third belt pulley and a fourth belt pulley to rotate, the third belt pulley drives a third belt pulley to drive a first sliding frame to move, the first sliding frame firstly moves to a high-temperature cloth storage position, through holes are reserved in the high-temperature cloth, a wire bending device clamps a piece of high-temperature cloth, then pushes a metal lead on a solar cell to be in a vertical state firstly, then lays the high-temperature cloth on the solar cell, the metal lead passes through the through holes in the high-temperature cloth, finally bends the metal lead, the fourth belt pulley drives the fourth belt pulley, the fourth belt drives the second sliding frame to move, the second sliding frame firstly drives a code pasting device to move to a bar code storage position, the bar code sticking device clamps a bar code, the second sliding frame drives the bar code sticking device to return to the solar cell, and finally the bar code sticking device sticks the bar code to the solar cell;

the solar cell positioning device is reasonable in structural design and simple to operate, can stably limit the position of the solar cell, can accurately lay high-temperature cloth on the solar cell, can automatically paste bar codes, reduces the labor intensity of workers, and is good in using effect and high in working efficiency.

Drawings

Fig. 1 is a schematic perspective view of a solar cell connection point position high-temperature wiring and lead wire distributing integrated device according to the present invention;

fig. 2 is a front view of a solar cell connection point position high-temperature wiring and lead wire distributing integrated device provided by the invention;

fig. 3 is a schematic perspective view of a partial structure of a solar cell junction-point high-temperature-cloth lead folding integrated device according to the present invention;

fig. 4 is a schematic structural diagram of a portion a of a solar cell junction-point high-temperature-cloth lead folding integrated device according to the present invention;

fig. 5 is a schematic structural diagram of a part B of a solar cell junction-point-amplification high-temperature-cloth lead folding integrated device according to the present invention;

fig. 6 is a schematic structural diagram of a portion C of the solar cell junction-point high-temperature-cloth-folding-wire-integrated apparatus according to the present invention.

In the figure: 1. a frame; 2. a fixed mount; 3. a first slide rail; 4. a first pneumatic seat; 5. an L-shaped sliding bar; 6. a guide wheel; 7. an air pump connector; 8. a second pneumatic mount; 9. a rubber disc; 10. a second slide rail; 11. a third pneumatic mount; 12. a push rod; 13. a connecting plate; 14. a fixed shaft; 15. a roller; 16. a fixing plate; 17. a first pulley; 18. a first belt; 19. a first motor; 20. a drive shaft; 21. a second motor; 22. a drive shaft; 23. a second pulley; 24. a second belt; 25. a stabilizing base; 26. a third belt pulley; 27. a third belt; 28. a fourth pulley; 29. a fourth belt; 30. a first carriage; 31. a first adjusting seat; 32. a wire bending device; 33. a second carriage; 34. a second adjusting seat; 35. a code pasting device; 36. clamping a seat; 37. a third slide rail; 38. a limiting seat.

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.

Referring to fig. 1-6, the present solution provides an embodiment: a solar cell wiring point position high-temperature cloth wire folding integrated device comprises a rack 1, a stabilizing mechanism, a transmission mechanism, a wire folding mechanism and a bar code pasting mechanism, wherein a fixing frame 2 is installed on the top side of the rack 1 through screws;

the stabilizing mechanism comprises two first sliding rails 3 and two second sliding rails 10, wherein the two first sliding rails 3 and the two second sliding rails 10 are both arranged on a rack 1 through screws, a first pneumatic seat 4 is arranged on each of the two first sliding rails 3 in a sliding manner, an L-shaped sliding rod 5 is arranged on one side, away from each other, of each of the two first pneumatic seats 4 in a sliding manner, a guide wheel 6 is arranged on each of the two L-shaped sliding rods 5 in a rotating manner, a third pneumatic seat 11 is arranged on each of the two second sliding rails 10 in a sliding manner, two push rods 12 are arranged on each of the third pneumatic seats 11 in a sliding manner, a connecting plate 13 is fixedly arranged on each of the two push rods 12 through screws, a plurality of fixing shafts 14 are fixedly welded on each connecting plate 13, rollers 15 are rotatably sleeved on each of the plurality of fixing shafts 14, a plurality of fixing plates 16 are arranged on the rack 1 through screws, two first belt pulleys 17 are rotatably arranged on each of the fixing plates 16, and the two corresponding first belt pulleys 17 are connected with a first belt 18 through a transmission way, a first motor 19 is mounted on one fixing plate 16 of the fixing plates 16 through screws, a driving shaft 20 is fixedly welded on an output shaft of the first motor 19, and the corresponding first belt pulley 17 is fixedly sleeved on the driving shaft 20.

The transmission mechanism comprises two second motors 21 and two transmission shafts 22, the two second motors 21 are both mounted on the rack 1 through screws, the two transmission shafts 22 are both rotatably arranged on the top side of the rack 1, the output shafts of the two second motors 21 and the two transmission shafts 22 are both fixedly sleeved with second belt pulleys 23, the two corresponding second belt pulleys 23 are in transmission connection with the same second belt 24, the top side of the rack 1 is rotatably provided with two third belt pulleys 26 and two fourth belt pulleys 28, one transmission shaft 22 of the two transmission shafts 22 is fixedly sleeved with two third belt pulleys 26, the other transmission shaft 22 of the two transmission shafts 22 is fixedly sleeved with two fourth belt pulleys 28, the two corresponding third belt pulleys 26 are in transmission connection with the same third belt 27, and the two corresponding fourth belt pulleys 28 are in transmission connection with the same fourth belt 29;

the wire folding mechanism comprises a first sliding frame 30 and three first adjusting seats 31, the first sliding frame 30 is arranged on the top side of the rack 1 in a sliding mode, the two fourth belts 29 are movably clamped on the first sliding frame 30, the three first adjusting seats 31 are arranged on the first sliding frame 30 in a sliding mode, and a wire folding device 32 is connected to the first adjusting seats 31 in a sliding mode;

the bar code pasting mechanism comprises a second sliding frame 33, the second sliding frame 33 is arranged on the top side of the rack 1 in a sliding mode, the two third belt pulleys 26 are movably clamped on the second sliding frame 33, a second adjusting seat 34 is arranged on the second sliding frame 33 in a sliding mode, and a bar code pasting device 35 is arranged on the second adjusting seat 34 in a sliding mode.

Referring to fig. 1, in the present embodiment, four stabilizing seats 25 are mounted on the top side of the frame 1 through screws, and the transmission shafts 22 are rotatably disposed on two corresponding stabilizing seats 25, so that the rotation of the transmission shafts 22 is more stable.

Referring to fig. 1, in this embodiment, two second motors 21 are both fixedly provided with a motor bracket, and the motor brackets are mounted on the frame 1 through screws, so that the second motors 21 operate more stably.

Referring to fig. 2, in this embodiment, six support legs are fixedly mounted on the bottom side of the rack 1, and three support legs located on the same side are arranged at equal intervals to stably support the rack 1.

Referring to fig. 3, in this embodiment, the same stabilizing plate is fixedly welded to two corresponding push rods 12, and the connecting plate 13 is mounted on the corresponding stabilizing plate through screws, so that the push rods are convenient to detach and maintain.

Referring to fig. 4, in this embodiment, a plurality of second pneumatic seats 8 are installed on the frame 1 through screws, the output end of each second pneumatic seat 8 is provided with a rubber disc 9 through screws, and two air pump connectors 7 are installed on each of the first pneumatic seat 4, the second pneumatic seat 8 and the third pneumatic seat 11, so as to position the solar cell.

Referring to fig. 5, in the present embodiment, clamping seats 36 are fixedly welded on the first sliding frame 30 and the second sliding frame 33, and the third belt 27 and the fourth belt 29 are clamped with the corresponding clamping seats 36, so as to facilitate adjustment of the first sliding frame 30 and the second sliding frame 33.

Referring to fig. 6, in the present embodiment, two third slide rails 37 are mounted on the top side of the frame 1 through screws, the first sliding frame 30 and the second sliding frame 33 are both mounted with limiting seats 38 through screws, and the limiting seats 38 are slidably disposed on the corresponding third slide rails 37, so as to provide a guiding effect for the first sliding frame 30 and the second sliding frame 33.

The working principle is that the equipment is driven by an air pump, firstly, a first motor 19 is started, an output shaft of the first motor 19 drives a driving shaft 20 to rotate, the driving shaft 20 rotates to drive a plurality of first belt pulleys 17 to rotate, the first belt pulleys 17 drive a first belt 18, the first belt 18 moves to drive a solar cell to move, when the solar cell is positioned in the middle of the rack, the air pump controls a first pneumatic seat 4, a second pneumatic seat 8 and a third pneumatic seat 11 through an air pump connector 7, the two first pneumatic seats 4 are close to each other, the first pneumatic seat 4 enables two L-shaped sliding rods 5 to be close to each other, two guide wheels 6 are in contact with the solar cell, the plurality of second pneumatic seats 8 drive corresponding rubber discs 9 to move upwards to enable the solar cell to move upwards, the third pneumatic seat 11 enables two connecting plates 13 to be close to each other, and a roller 15 positions the solar cell, the two second motors 21 are started, the second belt pulley 23 drives the second belt 24 to drive the transmission shafts 22 to rotate, the rotation of the two transmission shafts 22 respectively drives the third belt pulley 26 and the fourth belt pulley 28 to rotate, the third belt pulley 26 drives the third belt 27 to drive the first sliding frame 30 to move, the first sliding frame 30 firstly moves to a high-temperature cloth storage place, through holes are reserved on the high-temperature cloth, after the wire folding device 32 clamps a piece of high-temperature cloth, the metal lead on the solar cell is firstly pushed to be in a vertical state, then the high-temperature cloth is laid on the solar cell, the metal lead passes through the through holes on the high-temperature cloth, finally the wire folding device 32 bends the metal lead, the fourth belt pulley 28 drives the fourth belt 29, the fourth belt 29 drives the second sliding frame 33 to move, the second sliding frame 33 firstly drives the barcode pasting device 35 to move to the barcode storage place, the barcode pasting device 35 clamps a barcode, the second carriage 33 drives the barcode pasting device 35 to return to the solar cell, and finally the barcode pasting device 35 pastes the barcode to the solar cell.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. The utility model provides a solar cell wiring point position puts integrative equipment of high temperature cloth book lead wire which characterized in that includes: the bar code sticking machine comprises a rack (1), a stabilizing mechanism, a transmission mechanism, a wire folding mechanism and a bar code sticking mechanism, wherein a fixed frame (2) is arranged on the top side of the rack (1) through screws;

the stabilizing mechanism comprises two first sliding rails (3) and two second sliding rails (10), wherein the two first sliding rails (3) and the two second sliding rails (10) are installed on the rack (1) through screws, the two first sliding rails (3) are provided with first pneumatic seats (4) in a sliding manner, one sides, far away from each other, of the two first pneumatic seats (4) are provided with L-shaped sliding rods (5) in a sliding manner, the two L-shaped sliding rods (5) are provided with guide wheels (6) in a rotating manner, the two second sliding rails (10) are provided with third pneumatic seats (11) in a sliding manner, the third pneumatic seats (11) are provided with two push rods (12) in a sliding manner, the two push rods (12) are fixedly provided with connecting plates (13) through screws, the connecting plates (13) are fixedly welded with a plurality of fixing shafts (14), and the plurality of fixing shafts (14) are provided with idler wheels (15) in a rotating manner, install a plurality of fixed plates (16) through the screw on frame (1), it is provided with two first belt pulleys (17), corresponding two to rotate on fixed plate (16) the transmission is connected with same first belt (18) on first belt pulley (17), and is a plurality of in fixed plate (16) install first motor (19) through the screw on fixed plate (16), fixed welding has drive shaft (20) on the output shaft of first motor (19), and is corresponding first belt pulley (17) fixed cover is established on drive shaft (20).

The transmission mechanism comprises two second motors (21) and two transmission shafts (22), two second motors (21) are all installed on the rack (1) through screws, two transmission shafts (22) are all rotatably arranged on the top side of the rack (1), two output shafts and two output shafts of the second motors (21) are respectively and fixedly sleeved with a second belt pulley (23) and two corresponding second belt pulleys (24) which are respectively and fixedly connected with the same second belt (24) on the second belt pulley (23), the top side of the rack (1) is rotatably provided with two third belt pulleys (26) and two fourth belt pulleys (28), two transmission shafts (22) are respectively fixedly sleeved with two third belt pulleys (26) and two other transmission shafts (22) are fixedly sleeved with two fourth belt pulleys (28) on the transmission shafts (22), the two corresponding third belt pulleys (26) are in transmission connection with the same third belt (27), and the two corresponding fourth belt pulleys (28) are in transmission connection with the same fourth belt (29);

the wire folding mechanism comprises a first sliding frame (30) and three first adjusting seats (31), the first sliding frame (30) is arranged on the top side of the rack (1) in a sliding mode, the two fourth belts (29) are movably clamped on the first sliding frame (30), the three first adjusting seats (31) are arranged on the first sliding frame (30) in a sliding mode, and wire folding devices (32) are connected onto the first adjusting seats (31) in a sliding mode;

paste bar code mechanism and include second carriage (33), second carriage (33) slide to set up the top side of frame (1), two third belt pulley (26) all activity clamps are in on second carriage (33), slide on second carriage (33) and be provided with second regulation seat (34), slide on second regulation seat (34) and be provided with subsides sign indicating number ware (35).

2. The solar cell junction point high-temperature cloth lead folding integrated device according to claim 1, wherein: a plurality of second pneumatic seats (8) are installed on the rack (1) through screws, rubber discs (9) are installed at the output ends of the second pneumatic seats (8) through screws, and two air pump connectors (7) are installed on the first pneumatic seat (4), the second pneumatic seat (8) and the third pneumatic seat (11).

3. The solar cell junction point high-temperature cloth lead folding integrated device according to claim 1, wherein: four stabilizing bases (25) are installed on the top side of the rack (1) through screws, and the transmission shaft (22) is rotatably arranged on the two corresponding stabilizing bases (25).

4. The solar cell junction point high-temperature cloth lead folding integrated device according to claim 1, wherein: clamping seats (36) are fixedly welded on the first sliding frame (30) and the second sliding frame (33), and the third belt (27) and the fourth belt (29) are clamped with the corresponding clamping seats (36).

5. The solar cell junction point high-temperature cloth lead folding integrated device according to claim 1, wherein: two third slide rails (37) are installed through the screw in the top side of frame (1), first carriage (30) with all install spacing seat (38) through the screw on second carriage (33), spacing seat (38) slide to set up correspondingly on third slide rail (37).

6. The solar cell junction point high-temperature cloth lead folding integrated device according to claim 1, wherein: six support legs are fixedly mounted on the bottom side of the rack (1), and the three support legs located on the same side are arranged at equal intervals.

7. The solar cell junction point high-temperature cloth lead folding integrated device according to claim 1, wherein: the two corresponding push rods (12) are fixedly welded with the same stabilizing plate, and the connecting plate (13) is installed on the corresponding stabilizing plate through screws.

8. The solar cell junction point high-temperature cloth lead folding integrated device according to claim 1, wherein: and motor supports are fixedly arranged on the second motors (21) and are mounted on the rack (1) through screws.

Images