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A line split device for solar tile lamination

A solar and split technology, applied in photovoltaic power generation, sustainable manufacturing/processing, electrical components, etc., can solve problems such as cell cracking, cell damage, constraints, etc., to reduce material loss, improve equipment production capacity, operation handy effect

Active Publication Date: 2019-01-18
深圳光远智能装备股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] There are certain disadvantages in the use of the existing solar shingling line splitting device. First, the existing splitting adopts the form of a pressing knife, and the belt stops rotating when splitting. The cell is cracked, and it takes 1.5s to crack a small piece, but it only takes 0.8s for each row in the back-end sheet arrangement process, which seriously restricts the production capacity of the sheet arrangement process. , the pressure knife has a relatively large impact on the cell, and there may be damage to the cell or cracks inside the cell. Finally, during the on-site production process, the entire cell may be split into five equal parts or six parts. Equal division, when switching specifications, it is necessary to manually adjust the position of the pressing knife, which is troublesome. For this reason, we propose a split device for solar shingling lines

Method used

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  • A line split device for solar tile lamination
  • A line split device for solar tile lamination
  • A line split device for solar tile lamination

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025] like Figure 1-5 As shown, a slitting device for solar shingling lines, including a flat transport belt line 1 before the slivers, a curved vacuum adsorption belt line 2, a flat vacuum adsorption belt line 3, a battery sheet pre-positioning mechanism 4, a device body 5 and battery sheets 22. Both the plane transport belt line 1 in front of the split and the curved vacuum adsorption belt line 2 are fixedly installed on the upper outer surface of the device main body 5, and the curved vacuum adsorption belt line 2 is arranged on one side of the plane transport belt line 1 in front of the split, and the plane vacuum One end of the adsorption belt line 3 is arranged inside the curved surface vacuum adsorption belt line 2 , and the cell pre-positioning mechanism 4 is arranged on the device main body 5 .

[0026] The front plane conveyor belt line 1 of the splinter comprises a No. 1 roller 6 and a conveyor belt 7, and the inner surface of the conveyor belt 7 is movably connec...

Embodiment 2

[0029] like Figure 1-5 As shown, a slitting device for solar shingling lines, including a flat transport belt line 1 before the slivers, a curved vacuum adsorption belt line 2, a flat vacuum adsorption belt line 3, a battery sheet pre-positioning mechanism 4, a device body 5 and battery sheets 22. Both the plane transport belt line 1 in front of the split and the curved vacuum adsorption belt line 2 are fixedly installed on the upper outer surface of the device main body 5, and the curved vacuum adsorption belt line 2 is arranged on one side of the plane transport belt line 1 in front of the split, and the plane vacuum One end of the adsorption belt line 3 is arranged inside the curved surface vacuum adsorption belt line 2 , and the cell pre-positioning mechanism 4 is arranged on the device main body 5 .

[0030]The front plane conveyor belt line 1 of the splinter comprises a No. 1 roller 6 and a conveyor belt 7, and the inner surface of the conveyor belt 7 is movably connect...

Embodiment 3

[0033] like Figure 1-5 As shown, a slitting device for solar shingling lines, including a flat transport belt line 1 before the slivers, a curved vacuum adsorption belt line 2, a flat vacuum adsorption belt line 3, a battery sheet pre-positioning mechanism 4, a device body 5 and battery sheets 22. Both the plane transport belt line 1 in front of the split and the curved vacuum adsorption belt line 2 are fixedly installed on the upper outer surface of the device main body 5, and the curved vacuum adsorption belt line 2 is arranged on one side of the plane transport belt line 1 in front of the split, and the plane vacuum One end of the adsorption belt line 3 is arranged inside the curved surface vacuum adsorption belt line 2 , and the cell pre-positioning mechanism 4 is arranged on the device main body 5 .

[0034] The front plane conveyor belt line 1 of the splinter comprises a No. 1 roller 6 and a conveyor belt 7, and the inner surface of the conveyor belt 7 is movably connec...

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Abstract

A line split device for solar tile lamination includes a lobe front plane transport belt line, curved surface vacuum suction belt line, flat vacuum adsorption belt line, a battery-sheet preposition mechanism, a main body and a battery sheet; the lobe front plane transport belt line and the curved surface vacuum suction belt line are fixedly arranged on an outer surface of an upper end of the device main body, and the vacuum adsorption belt line is positioned on one side of the front plane transport belt line of the split, and one end of the plane vacuum adsorption belt line is positioned inside the curved surface vacuum adsorption belt line. The invention relates to a line splitting device for solar energy tile lamination, firstly, the speed of the splits is very fast, and there is no gapstarting and stopping motion and other superposition action time, which improves the equipment productivity, reduces the damage and hidden crack phenomenon of the battery slices, reduces the materialloss, and finally, the specification of the splits can be switched without any adjustment, which is convenient and brings better use prospect.

Description

technical field [0001] The invention relates to the field of fire protection, in particular to a split device for solar shingling lines. Background technique [0002] Before the solar cells are welded in series, the complete solar cells (dimensions 156mm*156mm) need to be cut into five equal parts (156*31.2) or six equal parts (156*26) by laser. Cells, but there are strict requirements on the cutting depth of the cell during laser cutting, the cutting depth can only be half of the thickness of the cell, and after laser cutting, a station needs to screen the complete cell with conductive adhesive , and the back-end process needs to stack and arrange the cut and separated narrow cells in a certain order to form a string of solar shingled cells, which requires a device for splitting the laser-cut cells; [0003] There are certain disadvantages in the use of the existing solar shingling line splitting device. First, the existing splitting adopts the form of a pressing knife, an...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01L31/18
CPCH01L31/1876Y02E10/50Y02P70/50
Inventor 江北朱光
Owner 深圳光远智能装备股份有限公司
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