CN115478317B

CN115478317B - Solar cell electroplating clamp

Info

Publication number: CN115478317B
Application number: CN202211151349.6A
Authority: CN
Inventors: 周沫; 胡发清; 曹解洪; 饶海峰; 郑辉; 周基江; 沈文建; 卢文博; 徐涛
Original assignee: Zhejiang Taiheng New Energy Co ltd
Current assignee: Zhejiang Taiheng New Energy Co ltd
Priority date: 2022-09-21
Filing date: 2022-09-21
Publication date: 2023-05-23
Anticipated expiration: 2042-09-21
Also published as: CN115478317A

Abstract

The invention relates to the technical field of battery piece production, in particular to a solar battery piece electroplating clamp which comprises an electroplating frame, a lifting assembly, a clamp assembly and an auxiliary supporting assembly, wherein the lifting assembly is arranged at the top of the electroplating frame, the bottom end of the lifting assembly extends to the lower part of the top of the electroplating frame, the lifting frame is arranged at the bottom end of the lifting assembly, the clamp assembly is arranged in the lifting frame, the auxiliary supporting assembly is arranged on the outer wall of the bottom end of the electroplating frame, the bottom end of the lifting frame is provided with a through groove for the auxiliary supporting assembly to pass through, and the clamp assembly and the battery piece contact and clamp part can be subjected to electroplating operation by electroplating liquid, so that the electroplating quality is improved.

Description

Solar cell electroplating clamp

Technical Field

The invention relates to the technical field of battery piece production, in particular to a solar battery piece electroplating clamp.

Background

In order to manufacture a solar cell, it is necessary to form a circuit on a cell substrate by electroplating. Electroplating is one of the new technologies that may be used in the future in the solar cell field. In the electroplating process, the solar cell needs to be placed in an electrolyte, and a cathode is connected to the cell for electroplating, so that the solar cell needs to be electroplated, and a plurality of complex processes are needed.

The clamping plate on the existing solar cell electroplating clamp can be contacted and clamped with the surface of the cell, and the part, contacted with the clamping plate, of the surface of the cell cannot be electroplated in the electroplating process, so that the electroplating quality is affected.

Disclosure of Invention

The invention aims to provide a solar cell electroplating clamp, which solves the problems that in the prior art, a clamping plate on the solar cell electroplating clamp can be contacted and clamped with the surface of a cell, and the contact part of the surface of the cell and the clamping plate cannot be electroplated in the electroplating process, so that the electroplating quality is affected.

The technical scheme of the invention is as follows:

the utility model provides a solar wafer electroplates anchor clamps, includes electroplating frame, crane, lifting unit, anchor clamps subassembly and auxiliary stay subassembly, lifting unit installs at the top of electroplating frame to lifting unit's bottom extends to the top below of electroplating frame, the bottom at lifting unit is installed to the crane, anchor clamps subassembly is installed in the crane, auxiliary stay subassembly is installed on electroplating frame's bottom outer wall, the bottom of crane is equipped with the logical groove that supplies auxiliary stay subassembly to pass.

Further, the clamp assembly includes rotating electrical machines, dwang, two first clamp parts and two second clamp parts, two first clamp parts symmetry sets up in the inside of crane, every first clamp parts all includes slide rail, movable rack, rotation axis, link, clamp frame, movable strip, movable rack, movable shaft, movable gear, movable motor, upset reset piece and two movable seats, slide rail level sets up on the inside top of crane, movable rack slidable mounting is on the slide rail, the rotation axis rotates and installs on the bottom outer wall of movable rack, the link is installed in the one end of rotation axis, clamp frame installs on the outer wall of link keep away from movable rack, movable strip slidable mounting is on the top outer wall of crane to the one end and the top outer wall of movable rack, movable rack level sets up in the movable strip, two movable seat symmetry sets up on the top outer wall of crane, movable shaft rotation installs on two movable seats, movable gear installs on the inside top of crane, movable motor and movable shaft, movable shaft and movable shaft are installed on the movable shaft and the movable shaft, movable shaft is installed on the top of crane and the two, movable shaft is installed on the top of crane and the movable shaft, the movable shaft is rotated with the top of movable shaft, the movable shaft is installed on the top of crane, the movable shaft is rotated and is rotated with the top of movable shaft, the movable shaft is installed on the top of two upper end of crane, the movable shaft.

Further, the turnover resetting piece comprises a turnover motor, a driving wheel, a driven wheel and a belt, wherein the turnover motor is horizontally arranged at the top end of the movable frame, the driving wheel is arranged on an output shaft of the turnover motor, the driven wheel is arranged at the other end of the rotating shaft, and the belt is sleeved outside the driving wheel and the driven wheel.

Further, each second clamp component comprises a guide rail, a sliding block, a clamping plate and a hinging rod, wherein the guide rail is horizontally arranged at the top end of the inside of the lifting frame, the sliding block is slidably mounted on the guide rail, the clamping plate is mounted at the bottom of the sliding block, and two ends of the hinging rod are hinged with the sliding block and the rotating rod respectively.

Further, lifting assembly includes elevating seat, pulley, rolling seat, wind-up roll, rolling motor, lead screw slip table, fixed plate, stay cord, pull ring and two movable rails, the top at the electroplating frame is installed to the elevating seat, the pulley rotates to be installed in the elevating seat, two movable rail symmetry sets up the top at the electroplating frame, rolling seat slidable mounting is on two movable rails, the wind-up roll rotates to be installed in the rolling seat, the winding motor level sets up on the outer wall of rolling seat to the output shaft and the wind-up roll of rolling motor are connected, the lead screw slip table level sets up the top at the electroplating frame, the fixed plate is installed on the mobile end of lead screw slip table, and the fixed plate is connected with the rolling seat, the top at the elevating frame is installed to the pull ring, the head end and the wind-up roll of stay cord are connected, the tail end of stay cord passes behind the pulley and is connected with the pull ring.

Further, auxiliary stay subassembly includes support bar, connection rack, drive shaft, rotation gear, driving motor and two mount pads, support bar slidable mounting is on electroplating the bottom outer wall of frame to the support bar corresponds with logical groove, connection rack level sets up in the support bar, two the mount pad symmetry sets up on electroplating the bottom outer wall of frame, the drive shaft rotates and installs on two mount pads, rotation gear installs in the drive shaft to rotation gear meshes with connection rack, driving motor level sets up on electroplating the bottom outer wall of frame, and driving motor's output shaft and drive shaft connection.

Further, a limiting sleeve for the pull rope to pass through is arranged below the top of the electroplating frame.

Furthermore, the inner wall of the limit sleeve is smeared with lubricating oil.

Further, the clamping frame and the clamping plate are made of titanium materials.

Compared with the prior art, the solar cell electroplating clamp provided by the invention has the following improvement and advantages:

(1) According to the invention, the two sides of the battery piece are clamped through the work of the clamp assembly, then the lifting assembly works to drive the lifting frame to move downwards, the lifting frame drives the battery piece in the clamp assembly to move downwards into the electroplating liquid for primary electroplating, then the lifting assembly works to drive the lifting frame to move upwards for resetting, then the auxiliary support assembly works to support the bottom of the battery piece in the clamp assembly, the clamp assembly continues to work to clamp the other two sides of the battery piece, finally the lifting assembly continues to work to drive the battery piece in the clamp assembly to move downwards into the electroplating liquid for secondary electroplating, and through the steps, the part of the clamp assembly, which is in contact with the battery piece, can be subjected to electroplating operation by the electroplating liquid, so that the electroplating quality is improved.

(2) According to the invention, the battery piece is placed between the clamping frames in the two first clamp components in advance, then the movable motor works to drive the movable shaft and the movable gear to rotate, the movable gear drives the movable bar to horizontally slide by utilizing the movable rack, the movable bar moves the connecting frame and the clamping frames to move, the clamping frames in the two first clamp components relatively close to move to clamp the two sides of the battery piece, after primary electroplating is finished, the auxiliary supporting component works to support the bottom of the battery piece in the clamp component, then the clamping frames in the two first clamp components relatively far away from the movement to cancel the clamping of the battery piece, then the rotating motor works to drive the rotating rod to rotate, the rotating rod drives the two second clamp components relatively close to move to clamp the other two sides of the battery piece, the part, which is contacted with the clamping frames, of the battery piece before secondary electroplating can be electroplated, the quality of electroplating is improved, after the clamping frames in the first clamp components relatively far away from the movement to cancel the clamping of the battery piece, the overturning reset piece rotates 90 degrees, and the overturning reset piece is prevented from affecting the work of the two second clamp components.

(3) According to the invention, the winding motor works to drive the winding roller to rotate, the winding roller drives the head end of the pull rope to be in a rope releasing state, the pull rope drives the pull ring to move downwards by using the pulley, the pull ring drives the lifting frame to move downwards, the winding motor works reversely to drive the head end of the pull rope to be in a rope collecting state, and further the lifting frame moves upwards, the screw rod sliding table drives the fixing plate to move while the winding motor works, the fixing plate drives the winding seat to move on the two moving rails, and the winding seat drives the winding roller to move, so that the winding roller can conveniently and well release or collect the pull rope.

Drawings

The invention is further explained below with reference to the drawings and examples:

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

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a schematic perspective view of a third embodiment of the present invention;

FIG. 4 is a schematic perspective view of a clamp assembly of the present invention;

FIG. 5 is a schematic perspective view of a clamp assembly of the present invention;

fig. 6 is a schematic perspective view of a clamp assembly of the present invention.

Reference numerals illustrate:

the electroplating rack 1, the limit sleeve 11, the lifting rack 2, the through groove 21, the lifting assembly 3, the lifting seat 31, the pulley 32, the winding seat 33, the winding roller 34, the winding motor 35, the screw sliding table 36, the fixing plate 37, the pull rope 38, the pull ring 39, the moving rail 391, the clamp assembly 4, the rotating motor 41, the rotating rod 42, the first clamp member 43, the slide rail 431, the moving rack 432, the rotating shaft 433, the connecting rack 434, the clamping frame 435, the moving bar 436, the moving rack 437, the moving shaft 438, the moving gear 439, the moving motor 4391, the turnover resetting piece 4392, the moving seat 4393, the turnover motor 4394, the driving wheel 4395, the driven wheel 4396, the belt 4397, the second clamp member 44, the guide rail 441, the slider 442, the clamping plate 443, the hinge rod 444, the auxiliary support assembly 5, the support bar 51, the connecting rack 52, the driving shaft 53, the rotating gear 54, the driving motor 55, and the mounting seat 56.

Detailed Description

The following detailed description of the present invention clearly and fully describes the technical solutions of the embodiments of the present invention, and it is apparent that the described embodiments 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.

The invention provides a solar cell electroplating clamp through improvement, which comprises an electroplating frame 1, a lifting frame 2, a lifting assembly 3, a clamp assembly 4 and an auxiliary supporting assembly 5, wherein the lifting assembly 3 is arranged at the top of the electroplating frame 1, the bottom end of the lifting assembly 3 extends to the position below the top of the electroplating frame 1, the lifting frame 2 is arranged at the bottom end of the lifting assembly 3, the clamp assembly 4 is arranged in the lifting frame 2, the auxiliary supporting assembly 5 is arranged on the outer wall of the bottom end of the electroplating frame 1, and a through groove 21 for the auxiliary supporting assembly 5 to pass through is arranged at the bottom end of the lifting frame 2; clamping is carried out on two sides of a battery piece through the work of the clamp assembly 4, then the lifting assembly 3 works to drive the lifting frame 2 to move downwards, the lifting frame 2 drives the battery piece in the clamp assembly 4 to move downwards to the electroplating liquid for primary electroplating, then the lifting assembly 3 works to drive the lifting frame 2 to move upwards to reset, then the auxiliary support assembly 5 works to support the bottom of the battery piece in the clamp assembly 4, the clamp assembly 4 continues to work to clamp the other two sides of the battery piece, and finally the lifting assembly 3 continues to work to drive the battery piece in the clamp assembly 4 to move downwards to the electroplating liquid for secondary electroplating.

Specifically, the clamp assembly 4 comprises a rotary motor 41, a rotary rod 42, two first clamp components 43 and two second clamp components 44, the two first clamp components 43 are symmetrically arranged inside the lifting frame 2, each first clamp component 43 comprises a sliding rail 431, a moving frame 432, a rotary shaft 433, a connecting frame 434, a clamping frame 435, a moving bar 436, a moving rack 437, a moving shaft 438, a moving gear 439, a moving motor 4391, a turnover reset member 4392 and two moving seats 4393, the sliding rail 431 is horizontally arranged at the inner top end of the lifting frame 2, the moving frame 432 is slidably arranged on the sliding rail 431, the rotary shaft 433 is rotatably arranged on the bottom end outer wall of the moving frame 432, the connecting frame 434 is arranged at one end of the rotary shaft 433, the clamping frame 435 is arranged on the outer wall of the connecting frame 434, the moving frame 436 is slidably arranged on the top end outer wall of the lifting frame 2, one end of the moving bar 436 is connected with the top end outer wall of the moving frame 432, the moving motor 439 is horizontally arranged in the moving bar 436, the turnover reset member 439 is arranged on the inner side of the moving frame 439, the two rotating frame 439 is symmetrically arranged on the other end of the lifting frame 439, the rotating frame 439 is rotatably arranged on the rotating frame 4393, the rotating frame 4393 is rotatably arranged on the other end of the rotating frame 432, the rotating frame 4393 is rotatably arranged on the outer wall of the lifting frame 4393, the rotating frame 4393 is rotatably arranged on the outer wall of the lifting frame 4352, the rotating rod 42 is mounted on an output shaft of the rotating motor 41, and both ends of the rotating rod 42 are respectively hinged with two second clamp members 44; through placing the battery piece in advance between the clamping frames 435 in two first clamp parts 43, then the movable motor 4391 works to drive the movable shaft 438 and the movable gear 439 to rotate, the movable gear 439 utilizes the movable rack 437 to drive the movable bar 436 to horizontally slide, the movable bar 436 drives the connecting frame 434 and the clamping frames 435 to move, the clamping frames 435 in two first clamp parts 43 relatively close to move to clamp two sides of the battery piece, after primary electroplating is finished, the auxiliary supporting component 5 works to support the bottom of the battery piece in the clamp component 4, then the clamping frames 435 in the two first clamp parts 43 relatively far away from the movement to cancel the clamping of the battery piece, then the rotary motor 41 works to drive the rotary rod 42 to rotate, the rotary rod 42 drives the two second clamp parts 44 relatively close to move to clamp two other sides of the battery piece, the part of the battery piece, which contacts the clamping frames 435 before secondary electroplating can be electroplated, the quality of electroplating is improved, and after the clamping frames 435 in the first clamp parts 43 relatively far away from the movement to cancel the clamping of the battery piece, the overturning reset part 4392 rotates 90 degrees to avoid the influence on the two second clamp parts 4392.

Specifically, the turnover resetting member 4392 includes a turnover motor 4394, a driving wheel 4395, a driven wheel 4396 and a belt 4397, the turnover motor 4394 is horizontally disposed at the top end of the movable frame 432, the driving wheel 4395 is mounted on an output shaft of the turnover motor 4394, the driven wheel 4396 is mounted on the other end of the rotating shaft 433, and the belt 4397 is sleeved outside the driving wheel 4395 and the driven wheel 4396; the turnover motor 4394 is used for driving the driving wheel 4395 to rotate, the driving wheel 4395 drives the driven wheel 4396 to rotate through the belt 4397, the driven wheel 4396 drives the rotating shaft 433 to rotate, and the rotating shaft 433 drives the connecting frame 434 and the clamping frame 435 to rotate 90 degrees, so that the connecting frame 434 and the clamping frame 435 are prevented from affecting the operation of the two second clamp parts 44.

Specifically, each of the second clamp members 44 includes a guide rail 441, a slider 442, a clamping plate 443, and a hinge rod 444, wherein the guide rail 441 is horizontally disposed at an inner top end of the lifting frame 2, the slider 442 is slidably mounted on the guide rail 441, the clamping plate 443 is mounted at a bottom of the slider 442, and both ends of the hinge rod 444 are respectively hinged with the slider 442 and the rotating rod 42; the rotating rod 42 is driven to rotate by the operation of the rotating motor 41, the rotating rod 42 drives the sliding block 442 to move on the guide rail 441 by the hinge rod 444, the sliding block 442 drives the clamping plates 443 to move, and the clamping plates 443 in the two second clamp components 44 are relatively close to each other to clamp the other two sides of the battery piece.

Specifically, the lifting assembly 3 includes a lifting seat 31, a pulley 32, a winding seat 33, a winding roller 34, a winding motor 35, a screw sliding table 36, a fixed plate 37, a pull rope 38, a pull ring 39 and two moving rails 391, wherein the lifting seat 31 is installed at the top of the electroplating frame 1, the pulley 32 is rotatably installed in the lifting seat 31, the two moving rails 391 are symmetrically arranged at the top of the electroplating frame 1, the winding seat 33 is slidably installed on the two moving rails 391, the winding roller 34 is rotatably installed in the winding seat 33, the winding motor 35 is horizontally arranged on the outer wall of the winding seat 33, the output shaft of the winding motor 35 is connected with the winding roller 34, the screw sliding table 36 is horizontally arranged at the top of the electroplating frame 1, the fixed plate 37 is installed on the moving end of the screw sliding table 36, the fixed plate 37 is connected with the winding seat 33, the pull ring 39 is installed at the top of the lifting frame 2, the head end of the pull rope 38 is connected with the winding roller 34, and the tail end of the pull ring 38 is connected with the pull ring 39 after passing through the pulley 32; the winding motor 35 works to drive the winding roller 34 to rotate, the winding roller 34 drives the head end of the pull rope 38 to be in a rope releasing state, the pull rope 38 drives the pull ring 39 to move downwards through the pulley 32, the pull ring 39 drives the lifting frame 2 to move downwards, the winding motor 35 reversely works to drive the head end of the pull rope 38 to be in a rope collecting state, the lifting frame 2 further moves upwards, the screw sliding table 36 drives the fixing plate 37 to move when the winding motor 35 works, the fixing plate 37 drives the winding seat 33 to move on the two moving rails 391, the winding seat 33 drives the winding roller 34 to move, and the winding roller 34 can conveniently and better release or collect the pull rope 38.

Specifically, the auxiliary supporting assembly 5 includes a supporting bar 51, a connecting rack 52, a driving shaft 53, a rotating gear 54, a driving motor 55 and two mounting seats 56, the supporting bar 51 is slidably mounted on the bottom outer wall of the electroplating frame 1, and the supporting bar 51 corresponds to the through groove 21, the connecting rack 52 is horizontally disposed in the supporting bar 51, the two mounting seats 56 are symmetrically disposed on the bottom outer wall of the electroplating frame 1, the driving shaft 53 is rotatably mounted on the two mounting seats 56, the rotating gear 54 is mounted on the driving shaft 53, and the rotating gear 54 is meshed with the connecting rack 52, the driving motor 55 is horizontally disposed on the bottom outer wall of the electroplating frame 1, and the output shaft of the driving motor 55 is connected with the driving shaft 53; the driving motor 55 is used for driving the driving shaft 53 and the rotating gear 54 to rotate, the rotating gear 54 is used for driving the supporting bar 51 to horizontally move by the aid of the connecting rack 52, one end of the supporting bar 51 slowly approaches the battery piece to move through the through groove 21 until the supporting bar 51 completely moves to the bottom of the battery piece to support.

Specifically, a stop collar 11 through which the pull rope 38 passes is arranged below the top of the electroplating frame 1; the stop collar 11 ensures that the pull rope 38 does not shake in the lifting process, and further ensures that the lifting frame 2 does not shake in the lifting process.

Specifically, the inner wall of the limit sleeve 11 is smeared with lubricating oil; the lubricating oil reduces the friction between the pull rope 38 and the limiting sleeve 11, and prolongs the service life of the pull rope 38.

Specifically, the clamping frame 435 and the clamping plate 443 are made of titanium material; the titanium material is highly corrosion resistant, avoiding the plating solution from corroding the clamping frame 435 and the clamping plate 443.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. Solar wafer electroplates anchor clamps, its characterized in that: the electroplating device comprises an electroplating frame (1), a lifting frame (2), a lifting assembly (3), a clamp assembly (4) and an auxiliary supporting assembly (5), wherein the lifting assembly (3) is installed at the top of the electroplating frame (1), the bottom end of the lifting assembly (3) extends to the lower part of the top of the electroplating frame (1), the lifting frame (2) is installed at the bottom end of the lifting assembly (3), the clamp assembly (4) is installed in the lifting frame (2), the auxiliary supporting assembly (5) is installed on the outer wall of the bottom end of the electroplating frame (1), and a through groove (21) for the auxiliary supporting assembly (5) to pass is formed in the bottom end of the lifting frame (2).

The clamp assembly (4) comprises a rotating motor (41), a rotating rod (42), two first clamp components (43) and two second clamp components (44), wherein the two first clamp components (43) are symmetrically arranged in the lifting frame (2), each first clamp component (43) comprises a sliding rail (431), a moving frame (432), a rotating shaft (433), a connecting frame (434), a clamping frame (435), a moving strip (436), a moving rack (437), a moving shaft (438), a moving gear (439), a moving motor (4391), a turnover reset piece (4392) and two moving seats (4393), the sliding rail (431) is horizontally arranged at the inner top end of the lifting frame (2), the moving frame (432) is slidably arranged on the sliding rail (431), the rotating shaft (433) is rotatably arranged on the outer wall of the bottom end of the moving frame (432), the connecting frame (434) is arranged at one end of the rotating shaft (433), the clamping frame (435) is arranged on the outer wall of the connecting frame (432) far away from the moving frame (434), the moving strip (436) is arranged on the inner top end of the moving rack (436) and the inner side of the moving rack (437) is arranged on the outer wall of the moving rack (436), the two movable seats (4393) are symmetrically arranged on the outer walls of the top ends of the lifting frame (2), the movable shaft (438) is rotatably arranged on the two movable seats (4393), the movable gear (439) is arranged on the movable shaft (438), the movable gear (439) is meshed with the movable rack (437), the movable motor (4391) is horizontally arranged on the outer walls of the top ends of the lifting frame (2), the output shaft of the movable motor (4391) is connected with the movable shaft (438), the overturning reset piece (4392) is arranged on the top ends of the movable frame (432), the bottom end of the overturning reset piece (4392) is connected with the other end of the rotating shaft (433), the two second clamp components (44) are symmetrically arranged inside the lifting frame (2), the rotating motor (41) is vertically arranged on the top end of the inside the lifting frame (2), the rotating rod (42) is arranged on the output shaft of the rotating motor (41), and two ends of the rotating rod (42) are respectively hinged with the two second clamp components (44);

the overturning reset piece (4392) comprises an overturning motor (4394), a driving wheel (4395), a driven wheel (4396) and a belt (4397), wherein the overturning motor (4394) is horizontally arranged at the top end of the movable frame (432), the driving wheel (4395) is arranged on an output shaft of the overturning motor (4394), the driven wheel (4396) is arranged at the other end of the rotating shaft (433), and the belt (4397) is sleeved outside the driving wheel (4395) and the driven wheel (4396).

2. The solar cell plating jig according to claim 1, wherein: each second clamp component (44) comprises a guide rail (441), a sliding block (442), a clamping plate (443) and a hinging rod (444), wherein the guide rail (441) is horizontally arranged at the top end of the inside of the lifting frame (2), the sliding block (442) is slidably mounted on the guide rail (441), the clamping plate (443) is mounted at the bottom of the sliding block (442), and two ends of the hinging rod (444) are hinged with the sliding block (442) and the rotating rod (42) respectively.

3. The solar cell plating jig according to claim 1, wherein: the lifting assembly (3) comprises a lifting seat (31), a pulley (32), a winding seat (33), a winding roller (34), a winding motor (35), a screw rod sliding table (36), a fixed plate (37), a pull rope (38), a pull ring (39) and two movable rails (391), wherein the lifting seat (31) is arranged at the top of the electroplating frame (1), the pulley (32) is rotatably arranged in the lifting seat (31), the two movable rails (391) are symmetrically arranged at the top of the electroplating frame (1), the winding seat (33) is slidably arranged on the two movable rails (391), the winding roller (34) is rotatably arranged in the winding seat (33), the winding motor (35) is horizontally arranged on the outer wall of the winding seat (33), the output shaft of the winding motor (35) is connected with the winding roller (34), the screw rod sliding table (36) is horizontally arranged at the top of the electroplating frame (1), the fixed plate (37) is arranged at the movable end of the screw rod sliding table (36), the winding motor is connected with the winding motor (33) and the pull ring (39) is connected with the top of the lifting roller (34), the tail end of the pull rope (38) passes through the pulley (32) and is connected with the pull ring (39).

4. The solar cell plating jig according to claim 1, wherein: the auxiliary support assembly (5) comprises a support bar (51), a connecting rack (52), a driving shaft (53), a rotating gear (54), a driving motor (55) and two mounting seats (56), wherein the support bar (51) is slidably mounted on the outer wall of the bottom end of the electroplating frame (1), the support bar (51) corresponds to the through groove (21), the connecting rack (52) is horizontally arranged in the support bar (51), the two mounting seats (56) are symmetrically arranged on the outer wall of the bottom end of the electroplating frame (1), the driving shaft (53) is rotatably mounted on the two mounting seats (56), the rotating gear (54) is mounted on the driving shaft (53), the rotating gear (54) is meshed with the connecting rack (52), the driving motor (55) is horizontally arranged on the outer wall of the bottom end of the electroplating frame (1), and an output shaft of the driving motor (55) is connected with the driving shaft (53).

5. The solar cell plating jig according to claim 3, wherein: a limiting sleeve (11) for a pull rope (38) to pass through is arranged below the top of the electroplating frame (1).

6. The solar cell plating jig according to claim 5, wherein: the inner wall of the limit sleeve (11) is smeared with lubricating oil.

7. The solar cell plating jig according to claim 2, wherein: the clamping frame (435) and the clamping plate (443) are both made of titanium material.