CN211045462U - Piece-dividing supporting plate and piece-dividing and piece-combining string-distributing mechanism - Google Patents

Abstract

The utility model provides a small piece supporting plate, wherein a front supporting strip and a rear supporting strip which are in a comb shape are respectively arranged at the front end and the rear end of the supporting plate, the front supporting strip and the rear supporting strip are arranged in a shoulder-inserting way, an adsorption part is arranged between the front supporting strip and the rear supporting strip, a negative pressure adsorption hole is arranged in the adsorption part, an elongated slot for placing a welding strip is arranged on the upper surface of the rear supporting strip, the projection of the elongated slot in the horizontal plane is positioned between two adjacent front supporting strips, and a string distributing mechanism for distributing small pieces is applied, the utility model arranges each small piece after the whole piece of battery piece is split on the supporting plate of the string distributing mechanism, the supporting plate is arranged to bear a small piece and the welding strip which is connected with the small piece, the two ends of the supporting plate are arranged to be mutually different in interpenetration and mutually shouldered and combined into an integrated structure, each small battery piece placed on the supporting plate is close to each adjacent small battery piece through a translation mechanism, and the small battery piece at the back is placed on the welding strip of the small battery piece at the front.

Description

Piece-dividing supporting plate and piece-dividing and piece-combining string-distributing mechanism

Technical Field

The utility model relates to a solar wafer divides piece cloth cluster technical field, especially relates to a divide small layer board and divide small piece to close piece cloth cluster mechanism.

Background

The solar cell is developed to the present, dense grid components, especially 9 grid, 10 grid and 12 grid components, are well applied and developed, but in order to improve the efficiency, each component manufacturer still cannot stop research, so that the whole cell is divided into 2, 3, 4, 5 or even 6 small cells, and the efficiency of the whole cell is higher than that of the whole cell component under the same unit area, and therefore, each component manufacturer hopes to produce the high-efficiency small sub-component.

Due to the reduction of the volume of the small piece assembly of the dense grid line, on the premise of not influencing the production efficiency, the preparation of the piece, the cloth piece and the welding strip of the battery piece, the positioning of the cloth string and the like are new technical problems, so that automatic equipment for solving the technical problems is urgently needed by each assembly manufacturer.

Disclosure of Invention

It is necessary to provide a piece-dividing supporting plate and a piece-dividing and piece-combining string-distributing mechanism.

The utility model provides a chip layer board, sets up preceding stay, back stay respectively at the front end of layer board and rear end, preceding stay, back stay are the broach form, preceding stay, back stay shoulder insertion set up, set up the absorption portion between preceding stay and back stay, set up the negative pressure adsorption hole in the inside of absorption portion, still set up the elongated slot of laying solder strip on the back support bar upper surface, the projection of elongated slot in the horizontal plane is located between two adjacent preceding stays.

The utility model provides a divide small piece to close whole piece cloth cluster mechanism, includes translation unit, side layer board, top molding board and divides small piece layer board, divide small piece layer board to set up on the side layer board, and the side layer board sets up in the top of translation unit, and the side layer board has the face that supports top molding board, top molding board lid fits on dividing small piece layer board to be fixed in and divide small piece layer board on, in order to be used for dividing the small piece on the small piece layer board and weld the area spacing, the translation unit drives side layer board, divides small piece layer board and top molding board and divides small piece and weld the area and come and go parallel translation, still sets up a plurality of supports between side layer board and translation unit, the part of welding the area for placing in back support strip end is less than the part of.

The utility model provides a divide small piece to close whole piece cloth cluster mechanism, includes translation unit, side layer board, top molding board and divides small piece layer board, divide small piece layer board to set up on the side layer board, and the side layer board sets up in the top of translation unit, and the side layer board has the face that supports top molding board, top molding board lid fits on dividing small piece layer board to be fixed in and divide small piece layer board on, in order to be used for dividing the small piece on the small piece layer board and weld the area spacing, the translation unit drives side layer board, divides small piece layer board and top molding board and divides small piece and weld area to come and go parallel translation, still sets up a plurality of lift units between side layer board and translation unit, and the lift unit is connected with the translation unit, in order to drive a plurality of minute piece layer board oscilaltion action, the lift height of adjacent lift unit.

The utility model provides a divide the piece to close whole piece cloth cluster mechanism, includes translation unit, side layer board, top molding board and divides the piece layer board, divide the piece layer board to set up on the side layer board, the side layer board sets up in the top of translation unit, and the side layer board has the face that supports top molding board, top molding board lid fits on dividing the piece layer board to be fixed in and divide on the piece layer board, in order to be used for dividing the piece on the piece layer board and weld and take spacingly, the translation unit drives side layer board, divides piece layer board and top molding board and divide the piece and weld and take back and forth parallel translation, still sets up a plurality of rotary units between side layer board and translation unit, and rotary unit is connected, and the side layer board is connected with rotary unit, drives the small-angle rotation by rotary unit to it is rotatory to drive the piece layer board on it.

The utility model arranges the divided pieces after the whole battery piece is divided on the divided piece supporting plate 10 of the stringing mechanism, the divided piece supporting plate 10 is arranged to bear the divided piece and the welding strip which is interconnected with the divided piece, and the two ends of the divided piece supporting plate are arranged to be mutually interpenetrated with the placed welding strip end and mutually shoulder-inserted and combined into a whole structure, namely, the front supporting strip end of the second divided piece supporting plate can be inserted into the rear supporting strip end of the first divided piece supporting plate, and the welding strip is fixed on each main grid line of the divided piece through the upper pressing plate, the welding strip end of the rear supporting strip end which is arranged on the divided piece supporting plate is lower than the welding strip end which is arranged on the front supporting strip end, or the lifting mechanism is arranged to realize that each divided piece supporting plate has height difference or the rotating unit is arranged to realize that the placed welding strip end is slightly lower than the disposed battery piece dividing end, and then each battery piece placed on the divided piece supporting plate is close to each adjacent battery divided piece through the translation mechanism, and the rear battery sub-chip is placed on the welding belt of the front battery sub-chip, the gap between the battery sub-chips is s, and the small battery string with the battery sub-chips and the welding belt interconnected is realized.

Drawings

Fig. 1 is a top view of a die paddle.

Fig. 2 is a cross-sectional view taken along a-a of fig. 1.

Fig. 3 is a schematic structural view of a die-dividing pallet. Figure is a schematic diagram of 3 pieces of the pallet after shoulder insertion.

Fig. 4, 5 and 6 are schematic structural diagrams of three implementation modes of the small piece dividing and integrating cloth string mechanism.

Fig. 7, 8, 9 and 10 are schematic structural diagrams of the translation unit 21, the direct special-shaped welding strip placing unit, the lifting unit 25 and the rotating unit 26.

Fig. 11-15 are schematic diagrams of the structure of the present invention for small segment and welding strip string.

Fig. 16 is a schematic view showing the shape of the deformed solder strip placed on the front and rear ends of the die paddle prepared in the first embodiment.

Fig. 17 is a schematic view of a first embodiment of directly placing the profiled solder strip of fig. 16 on a die carrier.

Fig. 18 is a schematic diagram showing the positional relationship between the battery segment and the solder profile and the upper molding plate, with the part of the embodiment shown in fig. 17 omitted.

Fig. 19 is a schematic view of the translation unit in fig. 17 bringing the die pallet, the die, the solder ribbon, and the upper molding plate thereon into translational proximity to the reference die.

Fig. 20 is a schematic view of the positional shape relationship of the battery segment with the profiled solder ribbon and the upper platen, with the mechanism portion omitted from fig. 19.

Fig. 21 to 24 are schematic diagrams of arranging the small piece-dividing pallet, the small pieces, the solder strips, and the upper pressing plate in the lifting mechanism unit, and after the arrangement, firstly lifting or descending a certain size, then translating to approach, and then descending or ascending to a horizontal state.

Fig. 25-28 are schematic views of the chip-dividing pallet, the chips, the solder strip, and the upper molding plate being disposed in the rotating unit, and after completion, being rotated by a certain angle, then being translated to approach, and then being rotated reversely to a horizontal state.

In the figure: the die-separating carrier 10, the front supporting bar 11, the rear supporting bar 12, the long groove 121, the suction part 13, the negative pressure suction hole 131, the translation unit 21, the connection plate 211, the translation drive 212, the guide rail 213, the slider 214, the slider holder 215, the side carrier 22, the upper platen 23, the holder 24, the lifting unit 25, the lifting drive 251, the vertical holder 252, the carrier 253, the small guide rail 254, the small slider 255, the rotation unit 26, the fixed holder 261, the rotation drive 262, the hinge holder 263, the push rod 264, the first rotating shaft 265, the rotating block 266, the second rotating shaft 267, the solder strip 100, and the die-separating piece 200.

Detailed Description

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Referring to fig. 1-4, the embodiment of the present invention provides a tablet supporting board 10, wherein a front supporting bar 11 and a rear supporting bar 12 are respectively disposed at the front end and the rear end of the supporting board, the front supporting bar 11 and the rear supporting bar 12 are comb-teeth shaped, the front supporting bar 11 and the rear supporting bar 12 are arranged by inserting shoulders, an adsorption part 13 is arranged between the front supporting bar 11 and the rear supporting bar 12, a negative pressure adsorption hole 131 is arranged inside the adsorption part 13, so as to be connected with an external negative pressure system, the upper surface of the back supporting bar 12 is provided with a long groove 121 for placing a welding strip, the projection of the long groove 121 in the horizontal plane is positioned between two adjacent front supporting bars 11, so that after two adjacent small piece supporting plates 10 are arranged close to each other in a front-back inserting manner, the solder strips are located at the same bonding locations on the front and rear die 200, and most preferably in the same line, i.e., at the bond pads on the bus bars on the back of the die.

The long groove 121 is formed in at least two ways, one way is to penetrate the surface of the rear stay 12, and the other way is non-penetrating.

The front supporting strips 11 and the rear supporting strips 12 are comb-shaped, so that front and rear shoulders can be conveniently inserted, and the two adjacent sub-chips 200 can be connected into a string. The upper surface of the front support bar 11 and the suction portion 13 together form a face for supporting the die 200, and the rear support bar 12 forms a groove for placing a solder ribbon.

Certainly, this scheme is the most preferred scheme, and comb-tooth's preceding stay 11, back stay 12 are convenient for peg graft, and then make the branch chip 200 in the place ahead overlap into a string with the branch chip 200 in the back through welding the area, also make branch chip layer board 10 weight minimum, and other set up respectively and put battery piece end and carry and put the welding area end, set up simultaneously and carry and put battery piece end and carry and put the layer board of welding area end, absorption portion, are the deformation of this scheme.

Referring to fig. 4-6 and fig. 7 and fig. 8-10, the utility model discloses three minute piece close piece cloth cluster mechanisms are still proposed, three kinds of mechanisms all include translation unit 21, side layer board 22, go up the clamp plate 23 and divide small piece layer board 10, divide small piece layer board 10 to set up on side layer board 22, side layer board 22 sets up in translation unit 21's top, side layer board 22 has the face that supports clamp plate 23, it fits on minute small piece layer board 10 to go up clamp plate 23 lid, and utilize the magnet adsorption mode to be fixed in on dividing small piece layer board, it is spacing to be used for dividing minute piece 200 and weld area 100 on the small piece layer board 10, translation unit 21 drives side layer board 22, divide small piece layer board 10 and last clamp plate 23 and divide the piece and weld area and come and go back and forth parallel translation.

Further, the translation unit 21 includes a connection plate 211, a translation drive 212, a guide rail 213, a slider 214, and a slider seat 215, the guide rail 213 is disposed along a length direction of the connection plate 211, the translation drive 212 is disposed at an end of the connection plate 211, an output end of the translation drive 212 is in transmission connection with the slider 214, the slider 214 is disposed on the slider seat 215 and is in sliding fit with the guide rail 213, and the slider 214 and the slider seat 215 are disposed according to the number of the battery pieces.

The first die-piece 200 uniting and stringing mechanism further includes holders 24, the holders 24 being arranged in pairs at both ends of the slider holder 215 of the translation unit 21, the holders 24 having faces supporting the side blade 22; in the first embodiment, the support 24 may be an extended structure of the side blade 22 or the slider holder 215, or may be a separate and independent structure, and it is sufficient that the translation unit 21 and the side blade 22 are connected.

The second piece dividing and integrating cloth string mechanism comprises a plurality of lifting units 25, the lifting units 25 are arranged on the translation unit 21 side by side and driven by the translation unit 21 to move back and forth in parallel, the side supporting plates 22 are arranged on the lifting units 25, and the lifting units 25 drive the lifting units 25 to move up and down, so that the piece dividing supporting plates 10 are driven to move up and down.

Further, the lifting unit 25 includes a lifting drive 251, a vertical base 252, a supporting plate 253, a small guide rail 254, and a small slider 255, the lifting drive 251 is fixedly disposed on the vertical base 252, the vertical base 252 is connected with the slider base 215, the small slider 255 is mounted on the vertical base 252 in cooperation with the small guide rail 254, the bottom end of the supporting plate 253 is fitted with the output end of the lifting drive 251, the side surface of the supporting plate 253 is connected with the small slider 255, and the supporting plate 253 has a surface for supporting the side supporting plate 22, so that the side supporting plate 22 and the chip-dividing supporting plate 10 thereon carry the chips 200, the solder strips 100, and the upper mold platen 23 thereon to ascend or descend.

The third type of the piece distributing and stringing mechanism for the combined piece of the small pieces 200 further comprises a plurality of rotating units 26, the rotating units 26 are arranged on the translation unit 21 side by side and driven by the translation unit 21 to move in parallel back and forth, the side supporting plate 22 is arranged on the rotating units 26, and the rotating units 26 drive small-angle rotation, so that the small piece supporting plate 10, the small pieces 200 and the welding strip 100 on the rotating units are driven to rotate.

Further, the rotating unit 26 includes a fixed seat 261, a rotary drive 262, a hinge seat 263, a push rod 264, a first rotating shaft 265, a rotating block 266 and a second rotating shaft 267, the fixed seat 261 is fixedly connected with the slider seat 215 of the translation unit 21, the rotary drive 262 is fixedly installed on the fixed seat 261, the hinge seat 263 is connected with an output end of the rotary drive 262, one end of the push rod 264 is rotatably connected with the hinge seat 263, the other end is rotatably connected with one end of the rotating block 266 through the first rotating shaft 265, the other end of the rotating block 266 is connected with the fixed seat 261 through the second rotating shaft 267, and the side supporting plate 22 is fixedly connected with the rotating block 266, so that the side supporting plate 22 rotates by a certain angle under the driving of the rotary drive 262.

Further, the width of the upper molding plate 23 is adapted to the width of the front supporting bar 11 of the die-separating pallet 10, so as to cover the die-separating sheet 200 and the solder strip 100 on the front supporting bar 11 in a limited manner, and not to cover the rear supporting bar 12 and the solder strip 100 thereon.

Here, the width of the upper platen 23 is limited not to cover the rear support bar 12 and the solder strip thereon, but also to allow the adjacent die pallet 10 to be directly inserted or to be inserted in a lifting or rotating manner.

Referring to fig. 11-15 and 16-20, the present invention further provides a method for dividing and combining the pieces into pieces, comprising the following steps:

separating the small piece supporting plates 10 from each other and keeping the front and the back from being contacted;

placing a plurality of the chips 200 on a plurality of chip carriers 10;

or the small pieces are placed on the small piece separating supporting plates firstly, and then the small piece separating supporting plates are separated with the small pieces, so that the front and the back are kept not in contact with each other;

a plurality of groups of solder strips 100 are correspondingly placed on a plurality of die pieces 200, wherein the solder strips 100 are shaped

The portion placed at the end of the rear stay 12 is lower than the portion placed at the end of the front stay 11;

a plurality of upper die pressing plates 23 are correspondingly placed on each small piece supporting plate 10 and are fixed by magnet adsorption;

the translation unit 21 acts to shorten the distance between the adjacent chip dividing pallets 10, so that the solder strips 100 on the adjacent chip dividing pallets 10 are positioned below the chips 200;

referring to fig. 11-15 and 21-24, the present invention further provides another method for uniting pieces of the singulated pieces 200 into a string, comprising the steps of:

separating the small piece supporting plates 10 from each other and keeping the front and the back from being contacted;

placing a plurality of the chips 200 on a plurality of chip carriers 10;

or the small pieces are placed on the small piece separating supporting plates firstly, and then the small piece separating supporting plates are separated with the small pieces, so that the front and the back are kept not in contact with each other;

correspondingly placing a plurality of groups of welding strips 100 on a plurality of sub-chips 200;

a plurality of upper die pressing plates 23 are correspondingly placed on each small piece supporting plate 10 and are fixed by magnet adsorption;

the chip dividing supporting plate 10 at the front end is taken as a reference, and all the chip dividing supporting plates 10 at the rear end are sequentially lifted to corresponding heights so as to form a step shape;

or, the small piece dividing supporting plate 10 at the rear end is taken as a reference, and all the small piece dividing supporting plates 10 at the front end sequentially descend by corresponding heights to form a step shape;

shortening the distance between the adjacent small chip carriers 10 to ensure that the welding strips 100 on the adjacent small chip carriers 10 are positioned below the small chips 200;

descending or lifting each small piece-dividing supporting plate 10 to keep the small piece-dividing supporting plate horizontal;

referring to fig. 11-15 and 25-28, the present invention further provides a third method for distributing small pieces into a whole piece, comprising the following steps:

separating the small piece supporting plates 10 from each other and keeping the front and the back from being contacted;

placing a plurality of the chips 200 on a plurality of chip carriers 10;

or the small pieces are placed on the small piece separating supporting plates firstly, and then the small piece separating supporting plates are separated with the small pieces, so that the front and the back are kept not in contact with each other;

correspondingly placing a plurality of groups of welding strips 100 on a plurality of sub-chips 200;

a plurality of upper die pressing plates 23 are correspondingly placed on each small piece supporting plate 10 and are fixed by magnet adsorption;

rotating each chip-dividing supporting plate 10, the chips 200 and the welding strips 100 on the chip-dividing supporting plate in the same direction;

shortening the distance between the adjacent divided piece supporting plates 10 to enable the welding strips 100 on the adjacent divided piece supporting plates 10 to be positioned below the divided pieces 200;

reversely rotating the small piece separating plate 10 to keep the small piece separating plate 10 horizontal; wherein the die paddle 10 is as described above for the die paddle 10.

Further, when the distance between the adjacent divided pieces 10 is shortened, the distance between the adjacent divided pieces 200 is maintained at (-1.5 to 5) mm and/or (16 to 60) mm.

Further, a plurality of sets of solder strips 100 are correspondingly placed on the plurality of die pieces 200, one end of each solder strip 100 in each set of solder strips is correspondingly placed on each main grid line on the front surface of each die piece 200, and the other end of each solder strip is correspondingly placed in the long groove 121 of the rear supporting bar 12 of each die piece supporting plate 10.

The arrangement of the long groove 121 of the rear supporting strip 12 can keep the welding strip positioned in the long groove 121, and the welding strip does not shake front and back and left and right, when the distance between two adjacent sub-chip supporting plates 10 is shortened, because the sub-chip supporting plates 10 are hard parts, the long groove 121 of the rear supporting strip 12 of two adjacent sub-chip supporting plates 10 is positioned between two adjacent front supporting strips 11, namely the long groove 121 is overlapped and aligned with the main grid line welding spot on the back of the front sub-chip 200, so that the welding strip 100 in the long groove 121 is enabled to be overlapped with the main grid line welding spot on the back of the front sub-chip 200 through the constraint of the long groove 121 when the welding strip 100 in the long groove 121. The effect is that the solution without the long groove 121 does not exist, if the long groove 121 is not provided, the welding strip shakes left and right, and after contacting with the back of the front sub-chip 200, the overlapping of the welding strip and the main grid line welding point on the back can not be ensured to be right, and the accuracy of the cloth string is very poor.

One specific implementation is as follows:

s1, the translation unit 21 of the stringing mechanism acts to separate the small piece distributing supporting plates 10 which are arranged according to the number of the battery pieces by a certain distance;

s2, placing the sub-pieces 200 of the whole battery piece which is split into n sub-pieces on the side supporting plates 22 of the stringing mechanism;

s3, synchronously arranging the prepared n groups of special-shaped welding strips 100 on each main grid line of each sub-chip 200;

s4, synchronously placing the n upper pressing plates 23 above the solder strips 100 of the sub-chips, namely on the side supporting plate 22;

s5, the translation driving 212 of the translation unit 21 drives the slide block seat 215, the vertical seat 24, the side supporting plate 22 and the small pieces thereon, the welding belts and the upper pressing plate 23 to move for a certain distance, so that the welding belts of the adjacent small pieces are placed below the small pieces on the back, and the gap between the adjacent small pieces and the welding belts thereon is S, thus finishing the arrangement of a small battery string.

The other specific implementation mode is as follows:

s1, the translation unit 21 of the stringing mechanism acts to separate the small piece distributing supporting plates 10 which are arranged according to the number of the battery pieces by a certain distance;

s2, placing the divided pieces of the whole battery piece which is divided into n small pieces on each side supporting plate 22 of the stringing mechanism;

s3, synchronously arranging the n groups of prepared welding strips on the main grid lines of the sub-chips;

s4, synchronously placing the n upper pressing plates 23 above the solder strips of the sub-chips, namely on the side supporting plate 22;

s5, the lifting drive 251 of the lifting unit 24 acts to drive the supporting plate 253, the side supporting plate 22 and the small pieces, the welding strips and the upper die pressing plate 23 on the supporting plate to ascend or descend for a certain distance;

s6, the translation driving 212 of the translation unit 21 drives the sliding block seat 215 and the lifting driving component connected with the sliding block seat, the side supporting plate 22 and the small pieces, the welding belts and the upper die pressing plate 23 on the side supporting plate to move for a certain distance, so that the welding belts of the adjacent small pieces are placed below the small pieces behind;

and S7, returning the lifting drive 251 of the lifting unit 25, driving the supporting plate 253, the side supporting plate 22, the small pieces, the welding strips and the upper die pressing plate 23 on the side supporting plate to return to a flat state, and enabling the gap between each adjacent small piece and the welding strips on the small piece to be S, so that arrangement of a small battery string is completed.

The third embodiment is as follows:

s1, the translation unit 21 of the stringing mechanism acts to separate the small piece distributing supporting plates 10 which are arranged according to the number of the battery pieces by a certain distance;

s2, placing the divided pieces of the whole battery piece which is divided into n small pieces on each side supporting plate 22 of the stringing mechanism;

s3, synchronously arranging the n groups of prepared welding strips on the main grid lines of the sub-chips;

s4, synchronously placing the n upper pressing plates 23 above the solder strips of the sub-chips, namely on the side supporting plate 22;

s5, the rotation driving 262 of the rotation unit 26 drives the rotation block 266, the side supporting plate 22, the small pieces, the welding strips and the upper mold pressing plate 23 on the side supporting plate to rotate for a certain angle;

s6, the translation driving 212 of the translation unit 21 drives the slide block seat 215 and the rotary driving component connected with the slide block seat, the side supporting plate 22 and the small pieces, the welding belts and the upper die pressing plate 23 on the side supporting plate to move for a certain distance, so that the welding belts of the adjacent small pieces are placed below the small pieces behind the side supporting plate;

and S7, returning the rotary drive 262 of the rotary unit 26, driving the rotary block 266, the side supporting plate 22, the sub-plates, the welding strips and the upper pressing plate 23 on the side supporting plate to return to a flat state, and enabling the gap between each adjacent sub-plate and the welding strips on the sub-plate to be S, so that arrangement of a small battery string is completed.

The embodiment of the utility model provides a module or unit in the device can merge, divide and delete according to actual need.

The above disclosure is only a preferred embodiment of the present invention, which is not intended to limit the scope of the present invention, and the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It will be understood by those skilled in the art that all or part of the above-described embodiments may be implemented and equivalents thereof may be made to the claims of the present invention while remaining within the scope of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A die pallet, comprising: the front end and the rear end of the supporting plate are respectively provided with a front supporting strip and a rear supporting strip which are both in a comb shape, the front supporting strip and the rear supporting strip are arranged in a shoulder-inserting manner, an adsorption part is arranged between the front supporting strip and the rear supporting strip, a negative pressure adsorption hole is arranged in the adsorption part, the upper surface of the rear supporting strip is provided with a long groove for placing a welding strip, and the projection of the long groove in the horizontal plane is positioned between the two adjacent front supporting strips.

2. The utility model provides a divide piece to close whole piece cloth cluster mechanism which characterized in that: the die dividing support plate is arranged on the side support plate, the side support plate is arranged above the translation unit and is provided with a surface for supporting the upper die pressing plate, the upper die pressing plate covers the die dividing support plate and is fixed on the die dividing support plate and used for limiting the die dividing and welding strips on the die dividing support plate, the translation unit drives the side support plate, the die dividing support plate, the upper die pressing plate, the die dividing and welding strips to move back and forth in parallel, a plurality of supports are further arranged between the side support plate and the translation unit, the welding strips are parts arranged at the end of a rear support strip and are lower than parts arranged at the end of a front support strip, and the die dividing support plate is the die dividing support plate according to claim 1.

3. The utility model provides a divide piece to close whole piece cloth cluster mechanism which characterized in that: the small piece dividing support plate is arranged on the side support plate, the side support plate is arranged above the translation unit and is provided with a surface for supporting the upper die pressing plate, the upper die pressing plate covers the small piece dividing support plate and is fixed on the small piece dividing support plate and used for limiting small pieces and welding belts on the small piece dividing support plate, the translation unit drives the side support plate, the small piece dividing support plate, the upper die pressing plate, the small pieces and the welding belts to move back and forth in parallel, a plurality of lifting units are arranged between the side support plate and the translation unit and are connected with the translation unit, the lifting units lift relative to the translation unit to drive the small piece dividing support plate to lift up and down, the lifting heights of adjacent lifting units sequentially form a step shape, and the small piece dividing support plate is the small piece dividing support plate according to claim 1.

4. The die bonder stringing mechanism as recited in claim 3, further comprising: the lifting unit comprises a lifting drive, a vertical seat, a supporting plate, a small guide rail and a small sliding block, the lifting drive is fixedly arranged on the vertical seat, the vertical seat is connected with the sliding block seat, the small sliding block and the small guide rail are installed on the vertical seat in a matched mode, the bottom end of the supporting plate is matched with the output end of the lifting drive, the side face of the supporting plate is connected with the small sliding block, and the supporting plate is provided with a face supporting the side supporting plate, so that the small piece supporting plate on the side supporting plate bears small pieces, welding strips and an upper die pressing plate on the small piece supporting.

5. The utility model provides a divide piece to close whole piece cloth cluster mechanism which characterized in that: the small piece dividing support plate is arranged on the side support plate, the side support plate is arranged above the translation unit and is provided with a surface for supporting the upper mold pressing plate, the upper mold pressing plate covers the small piece dividing support plate and is fixed on the small piece dividing support plate and used for limiting small pieces and welding belts on the small piece dividing support plate, the translation unit drives the side support plate, the small piece dividing support plate, the upper mold pressing plate, the small pieces and the welding belts to move back and forth in parallel, a plurality of rotating units are arranged between the side support plate and the translation unit and are connected with the translation unit, the side support plate is connected with the rotating units, the rotating units drive the small-angle rotation, so that the small piece dividing support plate, the small pieces and the welding belts on the side support plate are driven to rotate, and the small piece dividing support plate is the small piece dividing support plate according to claim 1.

6. The die-dividing and die-combining stringing mechanism according to claim 5, further comprising: the rotary unit comprises a fixed seat, a rotary drive, a twisting seat, a push rod, a first rotating shaft, a rotary block and a second rotating shaft, the fixed seat is fixedly connected with the sliding block seat of the translation unit, the rotary drive is fixedly installed on the fixed seat, the twisting seat is connected with the output end of the rotary drive, one end of the push rod is rotatably connected with the twisting seat, the other end of the push rod is rotatably connected with one end of the rotary block through the first rotating shaft, the other end of the rotary block is connected with the fixed seat through the second rotating shaft, and the side supporting plate is fixedly connected with the rotary block so as to enable the side supporting plate to rotate by a certain angle under the drive.

7. The die-dividing and die-closing stringing mechanism according to any one of claims 2 to 6, wherein: the translation unit comprises a connecting plate, a translation drive, a guide rail, a sliding block and a sliding block seat, wherein the guide rail is arranged along the length direction of the connecting plate, the translation drive is arranged at the end part of the connecting plate, the output end of the translation drive is in transmission connection with the sliding block, the sliding block is arranged on the sliding block seat and in sliding fit with the guide rail, and the sliding block seat are arranged according to the number of the battery pieces.

8. The die bonder stringing mechanism as recited in claim 7, further comprising: the width of the upper die pressing plate is matched with the width of a front supporting strip of the chip dividing supporting plate.

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