CN205723558U - A kind of solar cell main grid patterning being suitable for MBB technology and solar cell thereof - Google Patents

Abstract

The utility model discloses a solar battery main grid pattern structure (100) suitable for MBB technology, which is characterized in that: each main grid pattern structure (100) includes two parallel straight lines (1), and the width of each straight line is The distance between the inner edges of two straight lines is D1, the distance between the outer edges of two straight lines is D2, the diameter of thin copper wire is D3, 0.1mm≤D1≤0.4mm, D2<D3. The utility model also discloses a solar battery, wherein the main grid pattern structure (100) is formed on the front of the solar battery, and thin copper wires (3) are welded on the main grid pattern structure as the main grid wire of the solar battery. In the main grid pattern structure of the solar cell of the utility model, the main grid lines are firmly welded, the total contact resistance is small, and an additional shielding area is hardly generated. The solar battery manufactured by adopting the solar battery main grid pattern structure of the utility model combined with the thin copper wire MBB technology has the advantages of large short-circuit current and high filling factor.

Description

A solar cell busbar pattern structure suitable for MBB technology and its solar cell

technical field

The invention relates to a main grid pattern structure of a solar cell, in particular to a main grid pattern structure of a solar cell suitable for MBB technology and a solar cell thereof, belonging to the technical field of solar cell preparation.

Background technique

At present, the busbar patterns of solar cells are generally solid or partially hollowed out, and the number of busbars is generally 3-5. From an electrical point of view, the more battery bus bars, the better. The more the number of main grids, the shorter the distance between the main grids, the smaller the series resistance of the fine grids, and the fill factor of solar cells can be improved. However, if the number of busbars is simply increased without changing the width of the busbar, the shading area of the busbar or the ribbon on the busbar will be greatly increased, thereby greatly reducing the short-circuit current of the solar cell. In order to take into account the fill factor and short-circuit current, it is proposed to replace the flat traditional soldering strips with multiple thin round copper wires, which is the so-called MBB (Multi Busbar) technology. The round copper wire is narrow and has a small shading factor, and most of the light that hits the copper wire is reflected at a large angle to the glass/air interface where it is reflected and returned to the cell. Moreover, although the copper wires are thin, they are taller than flat soldering strips, and the cross-sectional area does not shrink proportionally with the width, and the number is large, and its conductivity is even stronger than that of the traditional 3-5 soldering strips. To use thin copper wires instead of traditional solder ribbons, a redesign of the printed busbar pattern is required. The new busbar pattern should not only facilitate the alignment during soldering, but also ensure a firm contact with the copper wire. A good busbar pattern design should add as little additional shading area as possible.

Contents of the invention

In order to solve the problems existing in the prior art, the present invention provides a solar cell busbar pattern structure suitable for MBB technology and the solar cell thereof. firm contact of the wire;

Another aspect of the present invention provides a solar cell main grid pattern structure suitable for MBB technology, which facilitates the alignment of copper wires during welding;

Another aspect of the present invention provides a solar cell busbar pattern structure suitable for MBB technology, which increases the additional shading area as little as possible and improves the fill factor and short-circuit current of the module.

For this reason, the present invention adopts following technical scheme:

A solar cell busbar pattern structure (100) suitable for MBB technology, characterized in that: each busbar pattern structure (100) includes two parallel straight lines (1), the width of each straight line is 30 μm-200 μm, The distance between the inner edges of two straight lines is D1, the distance between the outer edges of two straight lines is D2, the diameter of the thin copper wire is D3, 0.1mm≤D1≤0.4mm, D2<D3. The contact area between the busbar pattern structure and the copper wire is large enough, and the copper wire is almost embedded in the middle of the two straight lines, so that the welding is strong enough and the total contact resistance is small; the distance between the outer edges of the two straight lines is smaller than that of the thin copper wire The diameter, therefore, produces almost no additional shading area.

In order to obtain a better technical effect, the following optimization can be done:

Further, the thickness of each straight line is 2 μm-30 μm.

Further, the thickness of each straight line is 5 μm-20 μm.

Further, 1/3*D3≤D2≤2/3*D3.

The above design makes the contact area between the busbar pattern structure and the copper wire large enough, and the copper wire is almost embedded in the middle of two straight lines, so that the welding is strong enough, the total contact resistance is small, and almost no additional shielding area is generated.

Further, there are several alignment points (2) distributed on the two straight lines. Facilitates alignment during copper wire soldering.

Further, the number of the alignment points (2) is 3-100. Facilitates alignment during copper wire soldering.

Further, the shape of the alignment point (2) may be a rectangle, a rhombus, a circle, an ellipse or a triangle. The processing precision is reduced, which is convenient for large-scale industrial production.

Further, the alignment point (2) is solid or hollowed out. The processing precision is reduced, which is convenient for large-scale industrial production.

Another aspect of the present invention provides a solar cell, the above-mentioned busbar pattern structure (100) is respectively formed on the front surface and the back surface of the solar cell, and thin copper wires (3) are welded on the busbar pattern structure as a solar cell main grid line.

Further, the above busbar pattern structure (100) is formed on the front surface of the solar cell by screen printing, electroplating, steel screen printing, inkjet printing, or laser transfer printing.

Beneficial effects of the present invention:

In the main grid pattern structure of the solar cell of the present invention, the contact area between the main grid pattern structure and the copper wire is large enough, and the copper wire is almost embedded in the middle of two straight lines, so that the welding is strong enough, the total contact resistance is small, and there is almost no contact resistance. Create additional shaded area. The solar cell prepared by adopting the solar cell main grid pattern structure of the present invention combined with the thin copper wire MBB technology has the advantages of large short-circuit current and high filling factor.

Description of drawings

Fig. 1 is a schematic diagram of the busbar pattern structure of the present invention;

Fig. 2 is a cross-sectional view of the busbar pattern structure of the present invention after welding with thin copper wires;

In the figure, 1 is a straight line, 2 is an alignment point, 3 is a thin copper wire, and 100 is a main gate pattern structure.

detailed description

The present invention will be described in further detail below in conjunction with the accompanying drawings and embodiments.

Example 1

As shown in Fig. 1 and Fig. 2, the solar cell busbar pattern structure 100 suitable for MBB technology of the present invention, each busbar pattern structure includes two parallel straight lines 1, and the width of each straight line 1 is 30 μm-200 μm, The distance between the inner edges of two straight lines is D1, the distance between the outer edges of two straight lines is D2, the diameter of the thin copper wire is D3, 0.1mm≤D1≤0.4mm, D2<D3.

In order to obtain a better effect, preferably, the thickness of each straight line is 2 μm-30 μm, preferably 5 μm-20 μm; 1/3*D3≤D2≤2/3*D3. The above design can optimize the contact area between the busbar pattern structure and the thin copper wire, so that the contact area is large enough, and the copper wire is almost embedded in the middle of the two straight lines, so that the welding is strong enough, the total contact resistance is small, and no additional Blocking area.

In order to facilitate alignment during copper wire welding, several alignment points 2 are distributed on two straight lines, as shown in FIG. 1 . The number of alignment points is between 3-100, and the shape of the alignment points can be rectangle, rhombus, circle, ellipse, triangle, and of course, any other irregular shape can also be selected. Alignment points are solid or hollowed out.

Example 2

Another aspect of the present invention provides a solar cell. The above-mentioned busbar pattern structure 100 is formed on the front surface and the back surface of the solar cell by screen printing, electroplating, steel screen printing, inkjet printing, and laser transfer printing respectively. Thin copper wires 3 are welded on the busbar pattern structure as the busbar of the solar cell.

The solar cell prepared by adopting the main grid pattern structure of the solar cell combined with the thin copper wire MBB technology has the advantages of large short-circuit current and high filling factor.

On one surface of a solar battery sheet, the number of busbar pattern structures is between 10-40, and correspondingly, the number of thin copper wires serving as busbar lines is between 10-40.

The preparation method of the present invention is briefly described as follows:

1. Select the battery precursor, print the back electrode and the back electric field;

2. Print the main grid pattern structure and fine grid of the present invention on the front and back surfaces of the battery respectively;

3. Drying and sintering and test sorting;

4. Lay 10-40 thin copper wires on the positions of the busbar pattern structure on the front and back surfaces of the battery sheet respectively and solder them;

5. Lamination, final assembly.

Claims (10)

1. solar cell main grid patterning (100) being suitable for MBB technology, it is characterised in that: each main grid pattern is tied Structure (100) includes two parallel straight lines (1), and the width of every straight line is 30 μm-200 μm, between two straight line inward flanges away from From for D1, the distance between two straight line outward flanges is D2, a diameter of D3,0.1mm≤D1 of fine copper wire≤0.4mm, D2 ＜ D3.

Solar cell main grid patterning (100) the most according to claim 1, it is characterised in that: the thickness of each straight line It is 2 μm-30 μm.

Solar cell main grid patterning (100) the most according to claim 1, it is characterised in that: the thickness of each straight line It is 5 μm-20 μm.

Solar cell main grid patterning (100) the most according to claim 1, it is characterised in that: 1/3*D3≤D2≤2/ 3*D3。

Solar cell main grid patterning (100) the most according to claim 1, it is characterised in that: divide on two straight lines It is furnished with some alignment point (2).

Solar cell main grid patterning (100) the most according to claim 5, it is characterised in that: described alignment point (2) Quantity is 3-100.

Solar cell main grid patterning (100) the most according to claim 5, it is characterised in that: described alignment point (2) Shape can be rectangle, rhombus, circle, ellipse or triangle.

Solar cell main grid patterning (100) the most according to claim 5, it is characterised in that: described alignment point (2) is Solid or hollow out.

9. a solar cell, forms claim 1-8 arbitrary described on the front surface and back surface of solar cell respectively Main grid patterning (100), welds the fine copper wire (3) main gate line as solar cell on main grid patterning.

Solar cell the most according to claim 9, it is characterised in that: in the front of solar cell by silk screen printing, electricity Plating, steel mesh printing, ink jet printing, laser transfer form above-mentioned main grid patterning (100).