CN109545870A

CN109545870A - A kind of regular hexagon MWT solar battery sheet

Info

Publication number: CN109545870A
Application number: CN201811479021.0A
Authority: CN
Inventors: 沈文杰; 姚桂华; 曹建伟; 傅林坚; 祝广辉; 姜元涛; 董医芳; 谢文
Original assignee: Zhejiang Jingsheng Mechanical and Electrical Co Ltd
Current assignee: Zhejiang Jingsheng Mechanical and Electrical Co Ltd
Priority date: 2018-11-20
Filing date: 2018-12-05
Publication date: 2019-03-29
Also published as: CN209544365U

Abstract

The present invention relates to technical field of solar batteries, are specifically related to a kind of regular hexagon MWT solar battery sheet.Solar battery sheet is to share N number of dot matrix hole for extending vertically through cell piece on regular hexagon and light-receiving surface, and N >=24, N are integer；Solar cell back smooth surface is equipped with the rear electrode of several lattice arrangements；Rear electrode and the Al-BSF of solar battery shady face are in contact.Present invention saves the costs of production solar battery sheet, improve the output power of cell piece；Keep every thin grid line shorter to the distance of conductive hole simultaneously, the power loss on grid line is lower, and the shading-area of grid line is smaller, and output power is higher.

Description

A kind of regular hexagon MWT solar battery sheet

Technical field

The present invention relates to technical field of solar batteries, are specifically related to a kind of regular hexagon MWT solar battery sheet.

Background technique

With the increasingly shortage of fossil energy with the aggravation of environmental pollution, solar energy increasingly causes as a kind of clean energy resource Pay attention to, and solar battery is then a kind of major way that current people utilize solar energy.Currently, further developing solar cell Industry primarily solves the problems, such as the use cost for seeking to reduce solar cell.Conventional solar cell piece is rectangular, and is made The silicon wafer of solar battery sheet is circle, will waste part silicon wafer in cutting.Conventional solar battery positive and negative anodes point Not Wei Yu cell piece light-receiving surface and shady face, and the front electrode of cell piece can shield portions sunlight so that photogenerated current Reduce, to influence the photoelectric conversion efficiency of solar battery.

Metal piercing silicon solar cell, abbreviation MWT solar battery.MWT solar battery collects battery front side The metal transfer filled in electron through hole hole blocks light-receiving surface to eliminate main gate line to cell backside.Although existing There is MWT solar battery to eliminate main gate line to block light-receiving surface, improves photoelectric conversion efficiency to a certain extent, still The negligible amounts of conductive through hole cause the distance between thin grid line and hole too long, and the electric current that every thin grid line is collected is larger, make It obtains and generates excessive thermal losses on thin grid line；A solution be it is appropriate increase conductive hole so that thin grid line and hole it Between Distance Shortened, reduce the thermal losses on thin grid line.But conductive hole number excessively can block light-receiving surface again, influence photoelectric conversion Efficiency.

Summary of the invention

The technical problem to be solved by the present invention is to overcome deficiency in the prior art, provide a kind of regular hexagon MWT sun It can cell piece.

In order to solve the above technical problems, the solution that the present invention uses is:

A kind of regular hexagon MWT solar battery sheet is provided；Solar battery sheet is that N is shared on regular hexagon and light-receiving surface A dot matrix hole for extending vertically through cell piece, N >=24, N are integer；

Solar cell back smooth surface is equipped with the rear electrode of several lattice arrangements；Rear electrode and solar battery backlight The Al-BSF in face is in contact.

As an improvement the shape of dot matrix hole is circle.

As an improvement solar battery on piece shares 24 dot matrix holes.

As an improvement solar battery on piece shares 32 dot matrix holes.

As an improvement solar battery on piece shares 48 dot matrix holes.

As an improvement the position of dot matrix hole is N number of identical polygon uniformly distributed on cell piece light-receiving surface Center.

As an improvement the rear electrode position of 24 dot matrix hole cell pieces are as follows: most about wherein one by cell piece Long-diagonal is symmetrically divided into four equal parts of width, the midpoint of two neighboring dot matrix hole in each section.

As an improvement the rear electrode position of 32 dot matrix hole cell pieces are as follows: cell piece shady face to be divided into Cornerwise intersection point of 32 identical isosceles trapezoids.

As an improvement the rear electrode position of 48 dot matrix hole cell pieces are as follows: regular hexagon wherein one most It is evenly distributed 7 rear electrodes on long-diagonal line, then will be perpendicular to each 4 equal part in two sides in cornerwise direction, two 6 rear electrodes are respectively distributed at the 1/4 of side；5 rear electrodes are respectively distributed at 2/4；4 rear electrodes are respectively distributed at 3/4.

Compared with prior art, the solution have the advantages that:

Regular hexagon MWT solar battery proposed by the present invention saves the cost of production solar battery sheet, improves The output power of cell piece；Keep every thin grid line shorter to the distance of conductive hole simultaneously, the power loss on grid line is lower, grid line Shading-area it is smaller, output power is higher.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of solar battery sheet light-receiving surface in embodiment 1；

Fig. 2 is the structural schematic diagram of solar cell back smooth surface in embodiment 1；

Fig. 3 is the structural schematic diagram of solar battery sheet light-receiving surface in embodiment 2；

Fig. 4 is the structural schematic diagram of solar cell back smooth surface in embodiment 2；

Fig. 5 is the structural schematic diagram of solar battery sheet light-receiving surface in embodiment 3；

Fig. 6 is the structural schematic diagram of solar cell back smooth surface in embodiment 3.

Appended drawing reference are as follows: 1- solar battery sheet；2,8,9- dot matrix hole；3,10,11- grid line；4,12,13- light-receiving surface； 5,14,15- electrode contact point；6,16,17- rear electrode；7- Al-BSF.

Specific embodiment

With reference to the accompanying drawings and detailed description, the present invention is furture elucidated.After the present invention has been read, other skills Art personnel belong to the application range as defined in the appended claims to the modification of various equivalent forms of the invention.

Embodiment 1

As shown in Figure 1, sharing 24 cylinders on the regular hexagon MWT solar battery sheet 1 that opposite side distance is 185.33mm Dot matrix hole 2, dot matrix hole 2 extend vertically through solar battery sheet 1, dot matrix hole 2 respectively with the front electrode and back of light-receiving surface 4 The electrode contact point 5 of smooth surface connects；The electric current that the grid line 3 of light-receiving surface 4 collects reaches 24 electricity of shady face by dot matrix hole 2 Pole contact point 5；The shape of dot matrix hole 2 is circle.1 shady face of solar battery sheet shares the rear electrode of 20 lattice arrangements 6, rear electrode 6 connects rear electrode contact point by conductive through hole, and conductive through hole extends vertically through solar battery sheet 1, the back side Electrode 6 is connected with the Al-BSF 7 of 1 shady face of solar battery sheet.

For 24 dot matrix holes 2, regular hexagonal solar cell piece 1 is divided into 24 equilateral triangles first, so Solar battery sheet 1, which is extended vertically through, in the center of equilateral triangle afterwards forms dot matrix hole 2.It can be by laser boring too It is positive to form conductive hole on cell piece 1, conducting medium slurry is further filled in conductive hole by silk-screen printing technique, is passed through Curing molding forms dot matrix hole 2.

The rear electrode 6 of 20 lattice arrangements of shady face, position is specifically by cell piece 1 about a wherein longest diagonal line Four equal parts of width symmetrically are divided into, the midpoint of two neighboring dot matrix hole in each section.

Embodiment 2

Solar battery sheet 1 shares 32 dot matrix holes 8, and the electric current that 12 grid line 10 of light-receiving surface collects passes through dot matrix hole 8 32 electrode contact points 14 of shady face are reached, the shape of dot matrix hole 8 is circle, and 1 shady face of solar battery sheet shares 32 The Al-BSF 7 of the rear electrode 16 of a lattice arrangement, rear electrode 16 and solar battery shady face is connected.By regular hexagon Solar battery sheet 1 is divided into 32 identical isosceles trapezoids, then the position of dot matrix hole 16 is 32 identical The center of isosceles trapezoid.The position of 32 rear electrodes 16 are as follows: identical by 32 using the center of regular hexagon as origin Isosceles trapezoid rotates 60 ° counterclockwise, then the center of 32 isosceles trapezoids is rear electrode 16.The technological means that other parts use It is same as Example 1.

Embodiment 3

Solar battery sheet 1 shares 48 dot matrix holes 9, and the electric current that 13 grid line 11 of light-receiving surface collects passes through dot matrix hole 9 48 electrode contact points 15 of shady face are reached, the shape of dot matrix hole 9 is circle.1 shady face of solar battery sheet shares 37 The Al-BSF 7 of the rear electrode 17 of a lattice arrangement, rear electrode 17 and solar battery shady face is connected.By regular hexagon Solar battery sheet 1 is divided into 48 identical diamond shapes, then the position of dot matrix hole 9 is 48 identical diamond shapes Center.The position of 37 rear electrodes 17 are as follows: 7 rear electrodes 17 are evenly distributed on the longest diagonal line line of regular hexagon, Then it will be perpendicular to cornerwise each 4 equal part in direction two sides, 6 rear electrodes 17 be respectively distributed at the 1/4 of two sides；At 2/4 Respectively 5 rear electrodes 17 of distribution；4 rear electrodes 17 are respectively distributed at 3/4.The technological means and embodiment 1 that other parts use It is identical.

It is finally noted that the above enumerated are only specific embodiments of the present invention.It is clear that the invention is not restricted to Upper embodiment can also have many variations.Those skilled in the art can from present disclosure directly export or All deformations associated, are considered as protection scope of the present invention.

Claims

1. a kind of regular hexagon MWT solar battery sheet；It is characterized in that, the solar battery sheet is regular hexagon and light N number of dot matrix hole for extending vertically through cell piece is shared on face, N >=24, N are integer；

The solar cell back smooth surface is equipped with the rear electrode of several lattice arrangements；The rear electrode and solar battery The Al-BSF of shady face is in contact.

2. cell piece according to claim 1, which is characterized in that the shape of the dot matrix hole is circle.

3. cell piece according to claim 1, which is characterized in that the solar battery on piece shares 24 dot matrix holes Hole.

4. cell piece according to claim 1, which is characterized in that the solar battery on piece shares 32 dot matrix holes Hole.

5. cell piece according to claim 1, which is characterized in that the solar battery on piece shares 48 dot matrix holes Hole.

6. cell piece according to claim 1, which is characterized in that the position of the dot matrix hole is on cell piece light-receiving surface The center of uniformly distributed N number of identical polygon.

7. cell piece according to claim 1 or 3, which is characterized in that the back side of 24 dot matrix hole cell pieces Electrode position are as follows: cell piece is symmetrically divided into four equal parts of width, phase in each section about a wherein longest diagonal line The midpoint of adjacent two dot matrix holes.

8. cell piece according to claim 1 or 4, which is characterized in that the back side of 32 dot matrix hole cell pieces Electrode position are as follows: cell piece shady face is divided into cornerwise intersection point of 32 identical isosceles trapezoids.

9. cell piece according to claim 1 or 5, which is characterized in that the back side of 48 dot matrix hole cell pieces Electrode position are as follows: be evenly distributed 7 rear electrodes on a wherein longest diagonal line line for regular hexagon, then will be perpendicular to institute Each 4 equal part in two sides for stating the cornerwise direction of longest, is respectively distributed 6 rear electrodes at the 1/4 of two sides；5 are respectively distributed at 2/4 Rear electrode；4 rear electrodes are respectively distributed at 3/4.