CN111687542B - Solar cell laser slicing and separating device - Google Patents

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 at the output end of the transferring device, the bottom of the separating device and the base are on the same horizontal plane.

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 sheet which directly generates electricity by utilizing sunlight, and can output voltage and generate current under the condition of a loop as long as the solar cell is irradiated by light meeting a certain illuminance condition, wherein the solar cell is divided into crystalline silicon and amorphous silicon, and the crystalline silicon cell can be divided into a single crystal cell and a polycrystalline cell; the efficiency of monocrystalline silicon is also different from that of polycrystalline silicon, and the integral battery piece is cut into small pieces in the processing process of the battery piece, so that the monocrystalline silicon is convenient to transport, install and use.

The invention discloses a solar battery processing laser slicing separation device, which comprises a base, the lower extreme four corners department welding of base has the stabilizer blade, the rack has been laid to the up end of base, the battery piece has been placed on the rack, the fixed mounting of the position department of the upper end both sides laminating base lateral wall of rack has the baffle, the thread groove that supplies the bolt to pass has all been seted up in base lateral wall and the baffle, the one end of bolt is connected with L type clamping piece and the side of L type clamping piece laminating battery piece, the welding has the bolt sheath that acts on the bolt on the lateral surface of L type clamping piece, this invention a solar battery processing laser slicing separation device, the slide bar structure that can let the laser cutter present rectangle motion trail has been designed for the laser cutter can cut out the rectangle section that accords with the specification, cooperates the step motion of four sets of chain band pulley structures simultaneously, carries out synchronous cutting to whole battery piece fast, is suitable for different working conditions.

However, the above device has problems in use: the device can only cut whole battery piece, and the battery piece of cutting finished product can not automatic arrangement, 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 unable use, has caused some unnecessary economic loss.

Therefore, there is a need to develop a solar cell laser dicing separation device for rapid dicing, automatic transfer, and automatic separation.

Disclosure of Invention

The invention aims to solve the technical problems that in the prior art, only battery pieces can be cut, and the cut battery pieces cannot be automatically tidied, so that a large number of battery pieces are piled in the device, the subsequent battery piece cutting is affected, the cutting effect is reduced, the abrasion to a finished product is easy to cause, the quality of the battery pieces is affected, the damaged battery 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, laser section device sets up at four support columns, thrust unit sets up on laser cutter device's lateral wall, transfer device sets up the side at laser section device and fixes on the base, separator sets up on transfer device's output and separator bottom and base on same horizontal plane.

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

Further, the pushing device comprises a Y-shaped fixing seat, a pushing electric cylinder and a pushing plate, wherein the Y-shaped fixing seat is arranged on the side wall of the box body, the pushing electric cylinder is arranged on the top of the Y-shaped fixing seat, the output end of the pushing electric cylinder is horizontally oriented to the direction in the box body, and the limiting plate is arranged on the output end of the pushing electric cylinder and is on the same horizontal plane with the conveying device.

Further, the transfer device comprises a transfer part and a transmission part, wherein 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.

Further, the transfer part includes L shaped plate, translation mechanism, movable block, hydraulic telescoping rod, electromagnet and two bracing pieces, the L shaped plate sets up directly over conveyor, L shaped plate one end is fixed on the box top, two the bottom of bracing piece is fixed on the base top and the top of two bracing pieces is fixed on the other end of L shaped plate, translation mechanism installs on L shaped plate bottom, the movable block sets up on translation mechanism's movable end, hydraulic telescoping rod is vertical down fixed in the bottom of movable block and hydraulic telescoping rod's output is vertical down, electromagnet sets up on hydraulic telescoping rod's output.

Further, the transmission component comprises two transmission mechanisms, two frame-line support frames, two baffles and two risers, wherein the two frame-line support frames are symmetrically fixed on the top of the base, the two baffles are symmetrically arranged on two side walls of the two frame-line support frames, the two risers are symmetrically arranged on the inner side walls of the bottoms of the two frame-line support frames, and the two transmission mechanisms are respectively arranged on the side walls of the two risers.

Further, separator includes bottom plate, support frame, electric putter, rectangular plate and separates the frame, the bottom plate sets up subaerial, the quantity of support frame is four, four the support frame sets up on the bottom plate top two by two symmetries respectively, and four the support frame is equipped with the circular slot downwards from the top respectively, four electric putter sets up respectively in four circular slots and four electric putter's output is vertical upwards, the rectangular plate sets up on four electric putter's output, separate the frame setting on the rectangular plate top and separate the frame just to transmission mechanism, just be equipped with on separating the frame inner both sides wall with rectangular section matched with a plurality of draw-in grooves.

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

firstly, before the battery piece is cut, the battery piece is placed on the conveying device, and 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 so as to limit the battery piece, so that the battery piece is prevented from moving in the cutting process, and the cut battery piece is prevented from being cut into rectangular slices which do not meet the specification.

According to the invention, after the battery piece is cut by the laser cutter, the cut rectangular slice is conveyed to the position right below the transfer device through the conveying device, then the rectangular slice is transferred through the transfer device, when the battery piece is cut, other cut rectangular slices on the conveying device work through the pushing electric cylinder to drive the pushing plate at the output end of the pushing electric cylinder to move, the rectangular slices are pushed to the position right below the transfer device to transfer, the cut rectangular slices on the conveying device can be transferred, meanwhile, the pushing plate is driven to push the rectangular slices which cannot be transferred and cut to the position right below the transfer device through the pushing electric cylinder to work, so that the problem that a large number of battery pieces are stacked in the device due to no arrangement after the battery piece is cut in the prior art is avoided, the subsequent battery piece cutting is not only affected, the cutting effect is reduced, the quality of the battery piece is easily affected, and the damaged battery piece cannot be used.

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, and the separating frame is driven 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, the problems that in the prior art, only the battery slices can be cut, the cut battery slices cannot be automatically tidied, the abrasion is easily caused to finished products, the quality of the battery slices is affected, the damaged battery slices cannot be used, and some unnecessary economic losses are caused are solved.

Drawings

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

FIG. 2 is a schematic diagram of a second perspective structure 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 a laser dicing apparatus, pushing apparatus and transfer member of the invention;

FIG. 6 is a schematic perspective view of a laser dicing apparatus, a transfer apparatus and a separating apparatus of the invention;

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

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

the reference numerals 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 traversing mechanism 23, a longitudinal moving mechanism 24, a laser cutter 25, a fixed 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 part 6, an L-shaped plate 61, a translating mechanism 62, a moving block 63, a hydraulic telescopic rod 64, an electromagnetic chuck 65, a supporting rod 66, a conveying part 7, a conveying mechanism 71, a frame support 72, a baffle 73, a vertical plate 74, a bottom plate 51, a support frame 52, an electric push rod 53, a rectangular plate 54, a separating frame 55 and a clamping groove 56.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

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

Referring to fig. 1 to 8, a solar cell laser slicing and separating device comprises a base 1, a laser slicing device 2, a pushing device 3, a transferring device 4 and a separating device 5, wherein the base 1 is arranged on the ground, four supporting columns 11 are arranged at the top of the base 1, the laser slicing device 2 is arranged on the four supporting columns 11, the pushing device 3 is arranged on the outer side wall of a laser cutter 25 device, the transferring device 4 is arranged beside the laser slicing device 2 and fixed on the base 1, and the separating device 5 is arranged on the output end of the transferring device 4 and the bottom of the separating device 5 is on the same horizontal plane with the base 1.

The laser slicing device 2 comprises a box body 21, a conveying device 22, a traversing 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 top of the four supporting columns 11, a rectangular groove is arranged on 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 traversing mechanism 23 is arranged on the inner top wall of the box body 21 transversely, the longitudinal moving mechanism 24 is longitudinally arranged on the movable end of the traversing mechanism 23, the laser cutter 25 is vertically downwards arranged at the bottom of the movable end of the longitudinal moving mechanism 24, the four fixing plates 26 are symmetrically arranged on the two side walls in the box body 21, the four limit electric cylinders 27 are respectively arranged at the bottoms of the four fixing plates 26, the output ends of the four limit electric cylinders 27 vertically face downwards to the top of the conveying device 22, the four limit plates 28 are respectively arranged at the output ends of the four limit electric cylinders 27, when the whole battery piece is placed on the conveying device 22, the battery piece is driven to be conveyed to the lower part of the laser cutter 25 through the movement of the conveying device 22, then the four limit electric cylinders 27 arranged at the bottoms of the four fixing plates 26 work to drive the limit plates 28 at the output ends of the four limit electric cylinders 27 to move downwards so as to limit the battery piece, the battery piece is prevented from moving in the cutting process, the cut battery piece is not in line with rectangular slices of the specification, then the transverse moving mechanism 23 and the longitudinal moving mechanism 24 are matched to drive the laser cutter 25 to move, the laser cutter 25 cuts the battery piece on the conveying device 22 at the same time, the conveyor 22 then drives the cut rectangular sheet to the position immediately below the transfer device 4.

The pushing device 3 comprises a Y-shaped fixing seat 31, a pushing electric cylinder 32 and a pushing plate 33, the Y-shaped fixing seat 31 is arranged on the side wall of the box body 21, the pushing electric cylinder 32 is arranged on the top of the Y-shaped fixing seat 31, the output end of the pushing electric cylinder 32 is horizontally oriented to the inner direction of the box body 21, the limiting plate 28 is arranged on the output end of the pushing electric cylinder 32, the limiting plate 28 and the conveying device 22 are on the same horizontal plane, when cut rectangular slices are conveyed to the end of the conveying device 22, the pushing plate 33 at the output end of the pushing electric cylinder 32 is driven to move through the operation of the pushing electric cylinder 32, and the rectangular slices are pushed to the position right below the conveying device 4, so that the conveying of the conveying device 4 is facilitated.

The transfer device 4 comprises a transfer part 6 and a transmission part 7, the transfer part 6 is arranged right above the conveying device 22 and fixed on the box body 21 and the base 1, the transmission part 7 is arranged right below the transfer part 6 and fixed on the top of the base 1, the transfer part 6 is arranged to transfer cut rectangular slices onto the transmission part 7, and the transmission part 7 is arranged to transfer the rectangular slices into the separation device 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 supporting rods 66, wherein 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 supporting rods 66 are fixed on the top of the base 1, the tops of the two supporting rods 66 are fixed on the other end of the 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 downwards fixed on the bottom of the moving block 63, the output end of the hydraulic telescopic rod 64 is vertically downwards, 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 64 is driven to downwards move, cut rectangular slices are sucked, the hydraulic telescopic rod 64 is driven to lift the electromagnetic chuck 65, the translation mechanism 62 is driven to move towards the transmission component 7, the hydraulic telescopic rod 64 and the electromagnetic chuck 65 are driven to move upwards, the electromagnetic chuck 65 is driven to move the rectangular slice 65, and then the electromagnetic chuck 65 is driven to move upwards, and the electromagnetic chuck 65 is driven to move the rectangular slice 65 upwards, and the electromagnetic chuck 65 upwards and the electromagnetic chuck 65 is driven to move the electromagnetic chuck 7.

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

The separation device 5 comprises a bottom plate 51, a supporting frame 52, electric push rods 53, rectangular plates 54 and separation frames 55, the bottom plate 51 is arranged on the ground, the number of the supporting frames 52 is four, the four supporting frames 52 are respectively symmetrically arranged on the top of the bottom plate 51 in pairs, the four supporting frames 52 are respectively provided with round grooves downwards from the top, the four electric push rods 53 are respectively arranged in the four round 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 frames 55 are arranged on the tops of the rectangular plates 54 and separate the opposite transmission mechanisms 71 of the frames 55, a plurality of clamping grooves 56 which are matched with rectangular slices in an inserting mode are arranged on two side walls in the separation frames 55, then the rectangular slices are conveyed to the clamping grooves 56 in the separation frames 55 through the four electric push rods 53, the four electric push rods 53 are driven to move upwards, the separation frames 55 are driven to gradually move upwards, the clamping grooves 56 in the separation frames 55 are opposite to the top of the transmission mechanisms 71, the transmission mechanisms are sequentially arranged on the tops of the rectangular slices, the rectangular slices are sequentially arranged on the tops of the rectangular frames 55, the battery cells can not be effectively separated from the battery cells, the battery cells can not be easily cut, the battery cells can be easily and the battery cells can be easily be cut, the battery cells can be easily and the battery cells can be cut and the battery cells can be easily and the battery cells, and can be easily and the battery cells.

The working principle of the invention is as follows: when the whole battery piece is placed on the conveying device 22, the battery piece is driven to be conveyed to the lower part of the laser cutter 25 through the movement of the conveying device 22, then the four limiting electric cylinders 27 arranged at the bottoms of the four fixing plates 26 are driven to work, the limiting plates 28 on the output ends of the four limiting electric cylinders 27 are driven to move downwards to limit the battery piece, the battery piece is prevented from moving in the cutting process, the cut battery piece is not in line with the rectangular slice of the specification, the transverse moving mechanism 23 and the longitudinal moving mechanism 24 are matched, the laser cutter 25 is driven 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 piece to be conveyed to the right lower part of the transferring component 6, then the hydraulic telescopic rod 64 is started to work, the electromagnetic chuck 65 on the hydraulic telescopic rod 64 is driven to move downwards to suck the cut rectangular slice, the hydraulic telescopic rod 64 drives the electromagnetic chuck 65 to rise 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 are driven to move, the rectangular slice sucked by the electromagnetic chuck 65 moves 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 slice on the electromagnetic chuck 65 is placed on the two transmission mechanisms 71 to be transmitted, after the rectangular slice right below the transfer device 4 is transferred, the pushing plate 33 on the output end is driven to move by the pushing cylinder 32 to push other cut rectangular slices on the transfer device 22 to the position right below the transfer device 4, the rectangular slices on the transfer device 22 are transferred to the separating device 5 by the transfer device 4, then the four electric pushing rods 53 are used to work, the rectangular plate 54 is driven to move upwards, the separation frame 55 is driven to move upwards gradually, the clamping groove 56 in the separation frame 55 is opposite to the top of the transmission mechanism 71, the rectangular slices are sequentially transmitted into the clamping groove 56 in the separation frame 55 through the transmission mechanism 71, the cut rectangular slices are effectively separated, and the problem that the cut rectangular slices are convenient to transport, install and use, can only cut the battery slices, cannot be automatically tidied, a large number of battery slices are accumulated in the device, the cutting effect is reduced, the abrasion of finished products is easily caused, the quality of the battery slices is influenced, the damaged battery slices cannot be used, and some unnecessary economic losses are caused is solved.

Claims (2)

1. The utility model provides a solar cell laser section separator which characterized in that: the laser slicing device comprises a base (1), a laser slicing device (2), a pushing device (3), a transfer device (4) and a separation device (5), wherein the base (1) is arranged on the ground, four support columns (11) are arranged at the top of the base (1), the laser slicing device (2) is arranged on the four support columns (11), the pushing device (3) is arranged on the outer side wall of a laser cutter (25) device, the transfer device (4) is arranged beside the laser slicing device (2) and is fixed on the base (1), and the separation device (5) is arranged on the output end of the transfer device (4) and the bottom of the separation device (5) is arranged on the same horizontal plane with the base (1);

the laser slicing device (2) comprises a box body (21), a conveying device (22), a traversing 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 at the top of the four supporting columns (11), a rectangular groove is formed in one side wall of the box body (21), a laser slicing channel (29) is formed 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 traversing mechanism (23) is transversely arranged on the inner top wall of the box body (21), the longitudinal moving mechanism (24) is longitudinally arranged at the movable end of the traversing mechanism (23), the laser cutter (25) is vertically downwards arranged at the bottom of the movable end of the longitudinal moving mechanism (24), the four fixing plates (26) are symmetrically arranged on the two side walls of the box body (21), and the four limiting electric cylinders (27) are respectively arranged at the bottoms of the four limiting cylinders (27) and are opposite to the four limiting ends of the four electric cylinders (27) which are respectively arranged at the top of the upper limiting ends of the four limiting cylinders (27);

the transfer device (4) comprises a transfer component (6) and a transmission component (7), wherein the transfer component (6) is arranged right above the conveying device (22) and is fixed on the box body (21) and the base (1), and the transmission component (7) is arranged right below the transfer component (6) and is fixed on the top of the base (1);

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), wherein 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) and 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 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 downwards fixed on the bottom of the moving block (63) and the output end of the hydraulic telescopic rod (64) is vertically downwards, and the electromagnetic chuck (65) is arranged on the output end of the hydraulic telescopic rod (64);

the transmission component (7) comprises two transmission mechanisms (71), two frame-line supporting frames (72), two baffle plates (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 baffle plates (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 at 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);

the separation device (5) comprises a bottom plate (51), supporting frames (52), electric pushing rods (53), rectangular plates (54) and separation frames (55), wherein the bottom plate (51) is arranged on the ground, the number of the supporting frames (52) is four, the supporting frames (52) are symmetrically arranged on the top of the bottom plate (51) in pairs, the supporting frames (52) are respectively provided with round grooves downwards from the top, the electric pushing rods (53) are respectively arranged in the four round grooves, the output ends of the electric pushing rods (53) are vertically upwards, the rectangular plates (54) are arranged on the output ends of the electric pushing rods (53), the separation frames (55) are arranged on the tops of the rectangular plates (54) and are opposite to the transmission mechanisms (71), and a plurality of clamping grooves (56) which are matched with rectangular slices in an inserting mode are formed in the two side walls of the separation frames (55).

2. The solar cell laser dicing separation apparatus according to claim 1, wherein: the pushing device (3) comprises a Y-shaped fixing seat (31), a pushing electric cylinder (32) and a pushing plate (33), wherein the Y-shaped fixing seat (31) is arranged on the side wall of the box body (21), the pushing electric cylinder (32) is arranged on the top of the Y-shaped fixing seat (31) and the output end of the pushing electric cylinder (32) is horizontally oriented in the box body (21), and the limiting plate (28) is arranged on the output end of the pushing electric cylinder (32) and the limiting plate (28) and the conveying device (22) are on the same horizontal plane.