CN111687542A

CN111687542A - Solar cell laser slicing and separating device

Info

Publication number: CN111687542A
Application number: CN202010538614.0A
Authority: CN
Inventors: 徐卫平
Original assignee: Zhejiang Taiming New Energy Co ltd
Current assignee: Zhejiang Taiming New Energy Co ltd
Priority date: 2020-06-13
Filing date: 2020-06-13
Publication date: 2020-09-22
Anticipated expiration: 2040-06-13
Also published as: CN111687542B

Abstract

The invention relates to the technical field of solar cell processing, in particular to a solar cell laser slicing and separating device which comprises a base, a laser slicing device, a pushing device, a transferring device and a separating device, wherein the base is arranged on the ground, four supporting columns are arranged at the top of the base, the laser slicing device is arranged on the four supporting columns, the pushing device is arranged on the outer side wall of a laser cutter device, the transferring device is arranged beside the laser slicing device and fixed on the base, the separating device is arranged on the output end of the transferring device, and the bottom of the separating device and the base are on the same horizontal plane, the efficiency is improved.

Description

Solar cell laser slicing and separating device

Technical Field

The invention relates to the technical field of solar cell processing, in particular to a solar cell laser slicing and separating device.

Background

The solar cell is a photoelectric semiconductor slice which directly generates electricity by utilizing sunlight, can output voltage instantly and generate current under the condition of a loop as long as being irradiated by the light meeting a certain illumination condition, and is divided into a crystal silicon type cell and an amorphous silicon type cell, wherein the crystal silicon type cell can be divided into a single crystal cell and a polycrystalline cell; the efficiency of monocrystalline silicon is different from that of crystalline silicon, and the integral cell is cut into small pieces in the processing process of the cell, so that the transportation, the installation and the use are convenient.

The patent with the publication number of CN110682008A relates to a solar cell processing laser slice separation device, which comprises a base, wherein support legs are welded at four corners of the lower end of the base, a net rack is laid on the upper end face of the base, cell pieces are placed on the net rack, baffle plates are fixedly installed at positions, which are attached to the side wall of the base, of the two sides of the upper end of the net rack, thread grooves for bolts to pass through are respectively arranged in the side wall of the base and the baffle plates, one end of each bolt is connected with an L-shaped clamping piece, the L-shaped clamping piece is attached to the side face of each cell piece, and a bolt sheath acting on the bolts is welded on the outer side face of each L-shaped clamping piece. The whole battery piece is cut synchronously and quickly, and the cutting machine is suitable for different working conditions.

However, the above-mentioned devices have problems in use: the device can only cut whole battery piece, can not automatic arrangement to cutting off-the-shelf battery piece, leads to a large amount of battery pieces to pile up in the device, not only influences subsequent battery piece cutting, has reduced the cutting effect, still causes wearing and tearing to the finished product easily, influences the quality of battery piece, leads to impaired battery piece to be unable to use, has caused some unnecessary economic losses.

Therefore, it is necessary to develop a laser dicing and separating apparatus for a solar cell, which is capable of rapid dicing, automatic transfer, and automatic separation.

Disclosure of Invention

The invention aims to solve the technical problem of providing a solar cell laser slicing and separating device, which aims to solve the problems that in the prior art, only cell pieces can be cut, and the cut cell pieces cannot be automatically sorted, so that a large number of cell pieces are accumulated in the device, the subsequent cell piece cutting is influenced, the cutting effect is reduced, the finished product is easily abraded, the quality of the cell pieces is influenced, the damaged cell pieces cannot be used, and some economic losses are caused.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a solar cell laser section separator, includes base, laser section device, thrust unit, transfer device and separator, the base sets up subaerial, the base top is equipped with four support columns, the laser section device sets up at four support columns, thrust unit sets up on laser cutters's lateral wall, transfer device sets up the side at the laser section device and fixes on the base, the separator sets up on transfer device's output and separator bottom and base are on same horizontal plane.

Further, the laser slicing device comprises a box body, a conveying device, a transverse moving mechanism, a longitudinal moving mechanism, a laser cutter, four fixed plates, four limiting electric cylinders and four limiting plates, wherein the box body is arranged on the tops of four supporting columns, a rectangular groove is formed in one side wall of the box body, a laser slicing channel is arranged in the box body, the conveying device is arranged on the laser slicing channel and is installed on the inner side wall of the box body, the transverse moving mechanism is transversely arranged on the inner top wall of the box body, the longitudinal moving mechanism is longitudinally installed on the movable end of the transverse moving mechanism, the laser cutter is vertically and downwards arranged at the bottom of the movable end of the longitudinal moving mechanism, the four fixed plates are symmetrically arranged on the two inner side walls of the box body in pairs, the four limiting electric cylinders are respectively arranged at the bottoms of the four fixed plates, and the output ends of the four limiting electric cylinders are vertically and, the four limiting plates are respectively arranged at the output ends of the four limiting electric cylinders.

Further, thrust unit includes Y shape fixing base, promotes electric jar and slurcam, Y shape fixing base sets up on the lateral wall of box, promote the electric jar setting on Y shape fixing base top and promote the output level of electric jar to the box internal direction, the limiting plate sets up on the output that promotes the electric jar and the limiting plate is on same horizontal plane with conveyor.

Further, the transfer device comprises a transfer part and a transmission part, the transfer part is arranged right above the conveying device and fixed on the box body and the base, and the transmission part is arranged right below the transfer part and fixed on the top of the base.

Furthermore, the transfer component comprises an L-shaped plate, a translation mechanism, a moving block, a hydraulic telescopic rod, an electromagnetic chuck and two support rods, wherein the L-shaped plate is arranged right above the conveying device, one end of the L-shaped plate is fixed on the top of the box body, the bottoms of the two support rods are fixed on the top of the base, the tops of the two support rods are fixed on the other end of the L-shaped plate, the translation mechanism is installed on the bottom of the L-shaped plate, the moving block is arranged at the moving end of the translation mechanism, the hydraulic telescopic rod is vertically and downwardly fixed at the bottom of the moving block, the output end of the hydraulic telescopic rod is vertically and downwardly fixed, and the electromagnetic chuck is arranged at.

Further, the transmission part comprises two transmission mechanisms, two frame supporting frames, two baffles and two vertical plates, wherein the two frame supporting frames are symmetrically fixed on the top of the base, the two baffles are symmetrically arranged on two side walls of the two frame supporting frames, the two vertical plates are symmetrically arranged on the inner side walls of the bottoms of the two frame supporting frames, and the two transmission mechanisms are respectively arranged on the side walls of the two vertical plates.

Further, the separation device comprises a bottom plate, four supporting frames, electric push rods, a rectangular plate and separation frames, wherein the bottom plate is arranged on the ground, the number of the supporting frames is four, the supporting frames are respectively arranged on the top of the bottom plate in a pairwise symmetrical mode, the supporting frames are respectively provided with a circular groove and four circular grooves downwards from the top, the electric push rods are respectively arranged in the four circular grooves, the output ends of the four electric push rods are vertically upwards, the rectangular plate is arranged at the output ends of the four electric push rods, the separation frames are arranged on the tops of the rectangular plate and are right opposite to the transmission mechanism, and a plurality of clamping grooves matched with the rectangular slices in an inserting mode are formed in the two side walls of the separation frames.

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

firstly, before the battery piece is cut, the battery piece is placed on the conveying device, the four limiting electric cylinders arranged at the bottoms of the four fixing plates work to drive the limiting plates on the output ends of the four limiting electric cylinders to move downwards to limit the battery plate, and the battery piece is prevented from moving in the cutting process to cause the cut battery piece to be not in line with the rectangular slice.

Secondly, in the invention, after the battery piece is cut by the laser cutter, the cut rectangular slices are conveyed to the position under the transfer device by the conveying device, and then the rectangular slices are transferred by the transfer device, when the battery piece is cut, other cut rectangular slices on the conveying device drive the pushing plate at the output end of the pushing electric cylinder to move by pushing the electric cylinder to work, so that the rectangular slices are pushed to the position under the transfer device for transferring, the cut rectangular slices on the conveying device can be transferred, meanwhile, the rectangular slices which cannot be transferred and cut are pushed to the position under the transfer device by pushing the electric cylinder to work, thereby avoiding that a large number of battery pieces are accumulated in the device due to no arrangement after the battery piece is cut in the prior art, not only influencing the subsequent cutting of the battery piece, reducing the cutting effect and easily causing the abrasion of finished products, the quality of the battery piece is affected, and the damaged battery piece cannot be used.

Thirdly, in the initial state, the transmission mechanism directly transmits the rectangular slices to the clamping grooves in the separating frame opposite to the top of the transmission mechanism, then the rectangular plates are driven to move upwards through the four electric push rods to drive the separating frame to move upwards gradually, so that the clamping grooves in the separating frame are opposite to the transmission mechanism, the transmission mechanism sequentially transmits the rectangular slices to the clamping grooves in the separating frame, the cut rectangular slices are effectively separated, the transportation, the installation and the use are convenient, and the problems that in the prior art, only the battery slices can be cut, the cut battery slices cannot be automatically sorted, the finished products are easily abraded, the quality of the battery slices is influenced, the damaged battery slices cannot be used, and unnecessary economic losses are caused are solved.

Drawings

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

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

FIG. 3 is a side view of the present invention;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is a schematic perspective view of the laser dicing apparatus, the pushing apparatus and the transfer member of the present invention;

FIG. 6 is a schematic perspective view of the laser dicing apparatus, the transfer apparatus and the separation apparatus according to the present invention;

FIG. 7 is an enlarged view at B in FIG. 6;

FIG. 8 is an enlarged view at C of FIG. 6;

the reference numbers in the figures are: the laser slicing device comprises a base 1, a laser slicing device 2, a pushing device 3, a transferring device 4, a separating device 5, a supporting column 11, a box body 21, a conveying device 22, a transverse moving mechanism 23, a longitudinal moving mechanism 24, a laser cutter 25, a fixing plate 26, a limiting electric cylinder 27, a limiting plate 28, a laser slicing channel 29, a Y-shaped fixing seat 31, a pushing electric cylinder 32, a pushing plate 33, a transferring component 6, an L-shaped plate 61, a translation mechanism 62, a moving block 63, a hydraulic telescopic rod 64, an electromagnetic suction cup 65, a supporting rod 66, a transmission component 7, a transmission mechanism 71, a frame-line supporting frame 72, a baffle plate 73, a vertical plate 74, a bottom plate 51, a supporting frame 52, an electric push rod 53, a rectangular plate 54.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

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

Referring to fig. 1 to 8, it can be known that a solar cell laser section separator, including base 1, laser section device 2, thrust unit 3, transfer device 4 and separator 5, base 1 sets up subaerial, base 1 top is equipped with four support columns 11, laser section device 2 sets up at four support columns 11, thrust unit 3 sets up on the lateral wall of laser cutter 25 device, transfer device 4 sets up the side at laser section device 2 and fixes on base 1, separator 5 sets up on transfer device 4's output and separator 5 bottom and base 1 are on same horizontal plane.

Laser section device 2 includes box 21, conveyor 22, sideslip mechanism 23, longitudinal movement mechanism 24, laser cutter 25, four fixed plates 26, four spacing electric jar 27 and four limiting plates 28, box 21 sets up on the top of four support columns 11, be equipped with the rectangular channel on box 21 a lateral wall, just be equipped with laser section passageway 29 in the box 21, conveyor 22 sets up on laser section passageway 29 and installs on the inside wall of box 21, sideslip mechanism 23 sets up on transversely setting up roof in box 21, longitudinal movement mechanism 24 vertically installs on the portable end of sideslip mechanism 23, laser cutter 25 is vertical to be set up downwards in the bottom of longitudinal movement mechanism 24 portable end, four the setting of two bisymmetries of fixed plate 26 is on two walls of box 21, four spacing electric jar 27 sets up respectively in four fixed plate 26 bottoms and four output vertical downward just to carrying of spacing electric jar 27 Device 22 top, four limiting plate 28 sets up respectively on four spacing electric jar 27 output, place conveyor 22 when whole battery piece on, it carries to laser cutter 25 below to drive the battery piece through conveyor 22 motion, the rethread sets up four spacing electric jar 27 work in four fixed plate 26 bottoms, it moves down to drive four spacing limiting plate 28 on the spacing electric jar 27 output, carry out the panel spacingly, prevent to remove at the in-process battery piece of cutting, the rectangle section that leads to the battery piece of cutting to be not conform to the specification, it cooperatees between 23 and the longitudinal movement mechanism 24 to recycle sideslip mechanism, it removes to drive laser cutter 25, laser cutter 25 cuts the battery piece on conveyor 22 when removing, then conveyor 22 drives the rectangle piece that cuts and carries to transfer device 4 under.

Thrust unit 3 includes Y shape fixing base 31, promotes electric jar 32 and slurcam 33, Y shape fixing base 31 sets up on the lateral wall of box 21, promote electric jar 32 setting on Y shape fixing base 31 top and promote the output level of electric jar 32 to box 21 internal direction, limiting plate 28 sets up on the output that promotes electric jar 32 and limiting plate 28 and conveyor 22 are on same horizontal plane, when the good rectangle section of cutting is carried to conveyor 22's tip, through promoting electric jar 32 work, drives the slurcam 33 motion that promotes electric jar 32 output, pushes the rectangle section to under transfer device 4, has made things convenient for transfer device 4's transportation.

Transfer device 4 includes transfer unit 6 and transmission part 7, transfer unit 6 sets up directly over conveyor 22 and fixes on box 21 and base 1, transmission part 7 sets up directly under transfer unit 6 and fixes on base 1 top, sets up transfer unit 6 and makes the good rectangle section of cutting shift to transmission part 7 on, sets up transmission part 7 and transmits the rectangle section to in the separator 5.

The transfer component 6 comprises an L-shaped plate 61, a translation mechanism 62, a moving block 63, a hydraulic telescopic rod 64, an electromagnetic chuck 65 and two support rods 66, the L-shaped plate 61 is arranged right above the conveying device 22, one end of the L-shaped plate 61 is fixed on the top of the box body 21, the bottoms of the two support rods 66 are fixed on the top of the base 1, the tops of the two support rods 66 are fixed on the other end of the L-shaped plate 61, the translation mechanism 62 is installed on the bottom of the L-shaped plate 61, the moving block 63 is arranged on the moving end of the translation mechanism 62, the hydraulic telescopic rod 64 is vertically and downwardly fixed on the bottom of the moving block 63, the output end of the hydraulic telescopic rod 64 is vertically and downwardly arranged, the electromagnetic chuck 65 is arranged on the output end of the hydraulic telescopic rod 64, the hydraulic telescopic rod 64 is started to work, the electromagnetic chuck 65 on the hydraulic telescopic rod, the hydraulic telescopic rod 64 drives the electromagnetic chuck 65 to ascend, the translation mechanism 62 works to drive the moving block 63 to move towards the transmission part 7, then the hydraulic telescopic rod 64 and the electromagnetic chuck 65 can be driven to move, the rectangular slice sucked by the electromagnetic chuck 65 moves to the position right above the transmission part 7, then the hydraulic telescopic rod 64 drives the electromagnetic chuck 65 to move downwards again, and the rectangular slice on the electromagnetic chuck 65 is placed on the transmission part 7 to be transmitted.

The transmission component 7 comprises two transmission mechanisms 71, two frame-shaped support frames 72, two baffles 73 and two vertical plates 74, wherein the two frame-shaped support frames 72 are symmetrically fixed on the top of the base 1, the two baffles 73 are symmetrically arranged on two side walls of the two frame-shaped support frames 72, the two vertical plates 74 are symmetrically arranged on the inner side walls of the bottoms of the two frame-shaped support frames 72, the two transmission mechanisms 71 are respectively arranged on the side walls of the two vertical plates 74, when the electromagnetic chuck 65 places the rectangular slices on the two transmission mechanisms 71, the two baffles 73 are limited, the rectangular slices are prevented from being damaged by the rectangular slices deviating from the transmission mechanisms 71 in the transmission process, the transmission mechanisms 71 work, and the cut rectangular slices on the tops of the transmission mechanisms 71 are transmitted into the separating device 5.

The separating device 5 comprises a bottom plate 51, four support frames 52, electric push rods 53, a rectangular plate 54 and a separating frame 55, wherein the bottom plate 51 is arranged on the ground, the number of the support frames 52 is four, the four support frames 52 are respectively arranged on the top of the bottom plate 51 in a pairwise symmetry manner, the four support frames 52 are respectively provided with a circular groove from the top downwards, the four electric push rods 53 are respectively arranged in the four circular grooves, the output ends of the four electric push rods 53 are vertically upwards, the rectangular plate 54 is arranged on the output ends of the four electric push rods 53, the separating frame 55 is arranged on the top of the rectangular plate 54 and is opposite to a transmission mechanism 71 of the separating frame 55, a plurality of clamping grooves 56 which are in inserted connection and matching with the rectangular slices are arranged on two inner side walls of the separating frame 55, when the transmission mechanism 71 transmits the rectangular slices to the clamping grooves 56 in the separating frame 55, then the, drive rectangular plate 54 upward movement, and drive and separate frame 55 upward movement gradually, make the draw-in groove 56 in separating frame 55 just to the top of transmission device 71, transmission device 71 transmits the rectangle section to the draw-in groove 56 in separating frame 55 in proper order, separate the good rectangle section of cutting effectively, convenient transportation, installation and use, it can only cut the battery piece to have solved prior art, can not be to the good battery piece automatic arrangement, cause wearing and tearing easily to the finished product, influence the quality of battery piece, lead to impaired battery piece unable use, the problem of some unnecessary economic losses has been caused.

The working principle of the invention is as follows: when the whole battery piece is placed on the conveying device 22, the conveying device 22 moves to drive the battery piece to be conveyed below the laser cutter 25, then the four limiting electric cylinders 27 arranged at the bottoms of the four fixing plates 26 work to drive the limiting plates 28 on the output ends of the four limiting electric cylinders 27 to move downwards to limit the battery plate, so that the battery piece is prevented from moving in the cutting process, a rectangular slice which does not conform to the specification of the cut battery piece is prevented, the transverse moving mechanism 23 is matched with the longitudinal moving mechanism 24 to drive the laser cutter 25 to move, the laser cutter 25 cuts the battery piece on the conveying device 22 while moving, then the conveying device 22 drives the cut rectangular slice to be conveyed to the position right below the transfer part 6, then the hydraulic telescopic rod 64 is started to work to drive the electromagnetic chuck 65 on the hydraulic telescopic rod 64 to move downwards to suck the cut rectangular slice, the hydraulic telescopic rod 64 drives the electromagnetic chuck 65 to ascend to a proper position, the translation mechanism 62 is started to work, the moving block 63 is driven to move towards the two transmission mechanisms 71, the hydraulic telescopic rod 64 and the electromagnetic chuck 65 can be driven to move, the rectangular slices sucked by the electromagnetic chuck 65 move to the position right above the two transmission mechanisms 71, then the hydraulic telescopic rod 64 drives the electromagnetic chuck 65 to move downwards again, the rectangular slices on the electromagnetic chuck 65 are placed on the two transmission mechanisms 71 to be transmitted, after the rectangular slices right below the transfer device 4 are transferred, the electric cylinder 32 is pushed to work to drive the push plate 33 on the output end to move to push other cut rectangular slices on the conveying device 22 to the position right below the transfer device 4, the rectangular slices on the conveying device 22 are transferred to the separating device 5 through the transfer device 4, and then the four electric push rods 53 work, drive rectangular plate 54 upward movement, and drive and separate frame 55 upward movement gradually, make draw-in groove 56 in separating frame 55 just to transmission device 71 top, rethread transmission device 71 transmits the rectangle section to the draw-in groove 56 in separating frame 55 in proper order, separate the good rectangle section of cutting effectively, convenient transportation, installation and use, it can only cut the battery piece to have solved prior art, can not be to the good automatic arrangement of battery piece of cutting, lead to a large amount of battery pieces to pile up in the device, not only influence subsequent battery piece cutting, the cutting effect has been reduced, still cause wearing and tearing to the finished product easily, influence the quality of battery piece, lead to the unable use of impaired battery piece, some unnecessary economic losses's problem has been caused.

Claims

1. The utility model provides a solar cell laser slicing separator which characterized in that: including base (1), laser section device (2), thrust unit (3), transfer device (4) and separator (5), base (1) sets up subaerial, base (1) top is equipped with four support columns (11), laser section device (2) set up at four support columns (11), thrust unit (3) set up on the lateral wall of laser cutter (25) device, transfer device (4) set up the side of laser section device (2) and fix on base (1), separator (5) set up on the output of transfer device (4) and separator (5) bottom and base (1) on same horizontal plane.

2. The solar cell laser dicing separation apparatus according to claim 1, wherein: the laser slicing device (2) comprises a box body (21), a conveying device (22), a transverse moving mechanism (23), a longitudinal moving mechanism (24), a laser cutter (25), four fixing plates (26), four limiting electric cylinders (27) and four limiting plates (28), wherein the box body (21) is arranged on the tops of four supporting columns (11), a rectangular groove is formed in one side wall of the box body (21), a laser slicing channel (29) is arranged in the box body (21), the conveying device (22) is arranged on the laser slicing channel (29) and is arranged on the inner side wall of the box body (21), the transverse moving mechanism (23) is arranged on the inner top wall of the box body (21) in a transverse mode, the longitudinal moving mechanism (24) is longitudinally arranged on the movable end of the transverse moving mechanism (23), the laser cutter (25) is vertically arranged at the bottom of the movable end of the longitudinal moving mechanism (24) downwards, four two bisymmetry settings of fixed plate (26) are on two walls of box (21) interior, four spacing electric jar (27) set up respectively in the vertical downward just to conveyor (22) top of output of four fixed plate (26) bottoms and four spacing electric jars (27), four limiting plate (28) set up respectively on the output of four spacing electric jars (27).

3. The solar cell laser dicing separation apparatus according to claim 2, wherein: thrust unit (3) include Y shape fixing base (31), promote electric jar (32) and slurcam (33), Y shape fixing base (31) set up on the lateral wall of box (21), promote electric jar (32) set up on Y shape fixing base (31) top and promote the output level of electric jar (32) to box (21) internal direction, limiting plate (28) set up on the output that promotes electric jar (32) and limiting plate (28) and conveyor (22) on same horizontal plane.

4. The solar cell laser dicing separation apparatus according to claim 2, wherein: the transfer device (4) comprises a transfer component (6) and a transmission component (7), the transfer component (6) is arranged right above the conveying device (22) and fixed on the box body (21) and the base (1), and the transmission component (7) is arranged right below the transfer component (6) and fixed on the top of the base (1).

5. The solar cell laser dicing separation apparatus according to claim 2, wherein: the transfer component (6) comprises an L-shaped plate (61), a translation mechanism (62), a moving block (63), a hydraulic telescopic rod (64), an electromagnetic sucker (65) and two support rods (66), the L-shaped plates (61) are arranged right above the conveying device (22), one end of each L-shaped plate (61) is fixed on the top of the box body (21), the bottoms of the two support rods (66) are fixed on the top of the base (1), the tops of the two support rods (66) are fixed on the other end of each L-shaped plate (61), the translation mechanism (62) is arranged on the bottom of the L-shaped plate (61), the moving block (63) is arranged on the moving end of the translation mechanism (62), the hydraulic telescopic rod (64) is vertically and downwards fixed at the bottom of the moving block (63), the output end of the hydraulic telescopic rod (64) is vertically and downwards, the electromagnetic chuck (65) is arranged at the output end of the hydraulic telescopic rod (64).

6. The solar cell laser dicing separation apparatus according to claim 1, wherein: the transmission part (7) comprises two transmission mechanisms (71), two frame-line supporting frames (72), two baffles (73) and two vertical plates (74), wherein the two frame-line supporting frames (72) are symmetrically fixed on the top of the base (1), the two baffles (73) are symmetrically arranged on two side walls of the two frame-line supporting frames (72), the two vertical plates (74) are symmetrically arranged on the inner side walls of the bottoms of the two frame-line supporting frames (72), and the two transmission mechanisms (71) are respectively arranged on the side walls of the two vertical plates (74).

7. The solar cell laser dicing separation apparatus according to claim 6, wherein: the separating device (5) comprises a bottom plate (51), a supporting frame (52), an electric push rod (53), a rectangular plate (54) and a separating frame (55), the bottom plate (51) is arranged on the ground, the number of the support frames (52) is four, the four support frames (52) are respectively arranged on the top of the bottom plate (51) in a pairwise symmetry manner, and the four support frames (52) are respectively provided with a circular groove from the top downwards, the four electric push rods (53) are respectively arranged in the four circular grooves, the output ends of the four electric push rods (53) are vertically upwards, the rectangular plates (54) are arranged on the output ends of the four electric push rods (53), the separation frame (55) is arranged on the top of the rectangular plate (54) and is opposite to the transmission mechanism (71) of the separation frame (55), and a plurality of clamping grooves (56) which are matched with the rectangular slices in an inserted manner are arranged on the two inner side walls of the separation frame (55).