KR20210002525U - solar ribbon - Google Patents

Abstract

The solar ribbon 1 includes a first segment body 10 , a second segment body 20 , and a third segment body 30 that are sequentially connected to each other, and the first segment body 10 is a photovoltaic cell Used to be bonded to the front grid line of the cell 90, the first segment body 10 is provided with a curved surface that reflects the light incident on the surface of the solar ribbon (1), the second segment body (20) is installed between two adjacent photovoltaic cells 90 , in cross section, the second segment body 20 has a flat shape, and the third segment body 30 has a rear face adjacent to the photovoltaic cell 90 . used to bond to Design the corresponding solar ribbon 1 for different positions bonded to the cell, and the first segment body 10 is bonded to the front side of the cell to form a secondary reflection, maintaining a relatively small width, By reducing the blocking of the photovoltaic ribbon 1 to the photovoltaic cell 90, the light utilization rate and the output of the photovoltaic module are improved. It is implemented by selecting the second segment body 20 between the two photovoltaic cells 90 adjacent to each other, and since the thickness of the second segment body 20 is thin, the distance between the cells can be reduced.

Description

solar ribbon

The present invention relates to the field of photovoltaic technology, and specifically relates to a photovoltaic ribbon.

Currently, the ribbon bonded to the front and back of the solar cell has the same shape and the same size. The conventional ribbon bonded to the back cell is too thick to reduce the cell gap, otherwise the cell cell is easily broken or cracked. If the entire ribbon is made thin, since the width of the ribbon must be widened in order not to affect the electrical conduction performance of the ribbon, the front of the cell can be blocked relatively much, so the output of the module will decrease. The relatively large cell spacing reduces the conversion efficiency and light utilization rate of the solar module, while wasting the associated auxiliary materials of the solar module.

In order to solve the problems of the prior art described above, the present invention aims to provide a solar ribbon.

In order to achieve the above object, the technical solution adopted by the present invention to solve the technical problem is a solar ribbon, wherein the solar ribbon includes at least one cycle of ribbon segments, and the ribbon segments of a single cycle are sequentially each other connected,

a first segment body that is used to be bonded to the front grid line of the solar cell and has a curved surface for reflecting light incident on the surface of the solar ribbon;

a second segment body correspondingly installed between two adjacent photovoltaic cells, having a flat shape in cross-section, the maximum width of the cross-section being greater than the maximum width of the cross-section of the first segment body;

a third segment body used for bonding to the back side adjacent the solar cell; includes

Unlike the prior art, the present invention designs a corresponding solar ribbon for different positions bonded to the cell, and the first segment body is bonded to the front of the cell to form a secondary reflection, maintaining a relatively small width and reduce the blocking of the photovoltaic ribbon to the photovoltaic cell to improve the light utilization rate and the output of the photovoltaic module. It is implemented by selecting the second segment body between two photovoltaic cells adjacent to each other, and since the thickness of the second segment body is thin, the distance between the cells can be reduced.

In cross-section, the first segment body comprises a first base body, a coating covering a surface of the first base body, and the second segment body comprises an intermediate base body, a coating covering a surface of the intermediate base body. wherein the third segment body includes a second base body, and a coating covering a surface of the second base body.

Furthermore, in cross-section, the first segment body is circular, semi-circular or elliptical.

In the preferred method, the upper curved surface of the first segment body of the solar ribbon can effectively reflect the light of the ribbon surface to both sides to be reused, thereby improving the output of the solar module.

Furthermore, in cross section, the contour of the body of the first segment is a major arc and a chord of a segment connected between both ends of the major arc.

Furthermore, in cross-section, the contour of the body of the first segment is a minor arc and a chord of a segment connected between both ends of the minor arc.

In the above preferred method, a plane corresponding to the string is used for bonding with the surface of the battery cell, so that reliability of bonding can be secured.

Furthermore, in cross-section, the second segment body is rectangular or trapezoidal.

Furthermore, an externally convex arc is provided on both sides of the second segment body having a rectangular or trapezoidal cross section.

In the above preferred method, since the thickness of the second segment body is thin, it is possible to reduce the cell spacing.

Furthermore, in cross-section, the third segment body is circular, semi-circular or elliptical.

Furthermore, in cross section, the contour of the third segment body is a chord of one segment connected between the both ends of the friendly and the friendly.

Furthermore, in cross section, the contour of the third segment body is the chord of one segment connected between the fissure arc and the both ends of the fissure arc.

Furthermore, in cross-section, the third segment body is rectangular or trapezoidal.

Further, in the cross section, the third segment body is provided with arcs convex externally on both sides of which the cross section is rectangular or trapezoidal.

In the above preferred method, a relatively flat joint plane may be provided in the third segment body to improve the reliability of the joint.

In order to describe in more detail an embodiment of the present invention or a technical solution of the prior art, the following briefly introduces the drawings necessary to describe the embodiment or the prior art. In the description below, the drawings correspond only to some embodiments of the present invention, and other drawings may be obtained based on the drawings below under the premise that a person skilled in the art does not go through creative labor.
1 is a plan view of a state in which a photovoltaic cell and a ribbon are connected.
FIG. 2 is a schematic view of a cross-section along the longitudinal direction of the ribbon of FIG. 1 ;
3 is a structural schematic diagram in which the cross-sectional contour of a first segment body of a solar ribbon is circular;
4 is a structural schematic diagram in which the cross-sectional contour of a first segment body of a solar ribbon is elliptical;
5 is a structural schematic diagram in which the cross-sectional contour of a first segment body of a solar ribbon is semicircular;
6 is a structural schematic diagram in which the cross-sectional contour of a second segment body of a solar ribbon is rectangular;
7 is a structural schematic diagram with the addition of double-sided arcs to the cross-sectional rectangle of the second segment body of the solar ribbon;
Fig. 8 is a structural schematic diagram of a second segment body of a solar ribbon with the addition of double-sided arcs to a trapezoidal cross-section;
9 is a structural schematic diagram in which the cross-sectional contour of the third segment body of the present invention is circular.
10 is a structural schematic diagram of an elliptical cross-sectional outline of a third segment body of the present invention;
11 is a structural schematic diagram in which a cross-sectional contour of a third segment body of the present invention is a semicircle.
12 is a structural schematic diagram in which both arcs are added to a rectangle that is a cross-sectional outline of a third segment body of the present invention.
13 is a structural schematic diagram showing indentations installed at both ends of the second segment body of the present invention.

The following is a detailed and complete description of the technical solutions of the embodiments of the present invention by combining the drawings of the embodiments of the present invention. The described embodiments are only a part of the present invention, and do not correspond to the entire embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art on the premise that there is no creative labor fall within the protection scope of the present invention.

1 to 3 , the solar ribbon 1 comprises at least one cycle of ribbon segments, said ribbon segments of a single cycle comprising:

a first segment body 10 that is used to be bonded to the front grid line of the photovoltaic cell 90 and is provided with a curved surface that reflects light incident on the solar ribbon surface;

a second segment body 20 correspondingly installed between two adjacent photovoltaic cells 90 , having a flat shape in cross section, the maximum width of the cross section being greater than the maximum width of the cross section of the first segment body 10 ;

a third segment body 30 used to be bonded to the back side adjacent to the photovoltaic cell 90; includes

Advantageous effects of adopting the above technical measures are as follows. Design corresponding solar ribbons for different positions bonded to the cell, the first segment body is bonded to the front of the cell to form a secondary reflection, maintaining a relatively small width, and By reducing the blocking of the solar ribbon, the light utilization rate and the output of the solar module are improved. It is implemented by selecting the second segment body between two photovoltaic cells adjacent to each other, and since the thickness of the second segment body is thin, the distance between the cells can be reduced.

In cross-section, the first segment body comprises a first base body, a coating covering a surface of the first base body, and the second segment body comprising an intermediate base body and a coating covering a surface of the intermediate base body. wherein the third segment body includes a second base body and a coating covering a surface of the second base body. The coating covered on the surface of the base body may be a metallic coating or a non-metallic coating, and different types of coatings may be applied on the reflective surface and the bonding surface, respectively, so that the reflectivity of the reflective surface, the electrical conductivity of the bonding surface, the bonding strength can be customized and improved.

In the present invention, the method in which the ribbon and the surface of the photovoltaic cell are bonded may be welding or adhesive.

3 , in another embodiment of the present invention, in cross section, the first segment body 10 is circular.

4 , in another embodiment of the present invention, in cross section, the first segment body 10 is elliptical.

Advantageous effects of adopting the above technical measures are as follows. The upper curved surface of the first segment body of the solar ribbon can effectively reflect the light of the ribbon surface to both sides to be reused, thereby improving the output of the solar module.

5 , in another embodiment of the present invention, in cross section, the first segment body 10 is semicircular. Advantageous effects of adopting the above technical measures are as follows. A plane corresponding to the chord is used to bond with the surface of the battery cell, so that reliability of bonding can be secured.

6 , in another embodiment of the present invention, in cross section, the second segment body 20 is rectangular.

As shown in Figure 7, in another embodiment of the present invention, in the cross section, the second segment body 20 is provided with a convex arc on both sides of the rectangle.

8 , in another embodiment of the present invention, in cross section, the second segment body 20 is trapezoidal.

As shown in Figure 8, in another embodiment of the present invention, in the cross section, the second segment body 20 is provided with a convex arc on both sides of the trapezoidal shape.

Advantageous effects of adopting the above technical measures are as follows. Since the thickness of the second segment body 20 is thin, it is possible to reduce the cell spacing.

As shown in FIG. 9 , in another embodiment of the present invention, in cross section, the third segment body 30 is circular.

10 , in another embodiment of the present invention, in cross section, the third segment body 30 is elliptical.

11 , in another embodiment of the present invention, in cross section, the third segment body 30 is semicircular.

12 , in another embodiment of the present invention, in a cross-section, the third segment body 30 is rectangular, and arcs are provided on both sides of the rectangle. Advantageous effects of adopting the above technical measures are as follows. A relatively flat joint plane may be provided to improve the reliability of the joint.

13 , in another embodiment of the present invention, a first indentation 201 and a second indentation 202 are installed at both ends of the second segment body 20, respectively, and the first indentation 201 ) and the longitudinal direction of the second indentation 202 are installed along the width direction of the ribbon, the first indentation 201 is installed on the lower surface of the ribbon close to the first segment body 10, and the second indentation 202 is is installed on the upper surface of the ribbon close to the second segment body 30 . Through this, the stress when the ribbon is bent can be reduced, and the fracture rate of the battery cell can be effectively reduced, thereby enhancing the reliability of the product.

The above-described embodiment is for describing only the technical ideas and features of the present invention, and the present invention is intended to understand and implement the contents of the present invention, thereby not limiting the scope of protection of the present invention. All equivalent conversions or modifications performed on the basis of the spirit of the present invention fall within the protection scope of the present invention.

The names of the parts indicated by numbers and letters in the drawings are as follows.
1: Solar Ribbon
10: first segment body
20: second segment body
201: first indentation
202: second indentation
30: third segment body
90: photovoltaic cell

Claims (11)

In the solar ribbon,
at least one period of ribbon segments, wherein the ribbon segments of a single period are connected to each other in sequence;
a first segment body that is used to be bonded to the front grid line of the solar cell and has a curved surface for reflecting the light incident on the surface of the solar ribbon;
a second segment body correspondingly installed between two adjacent photovoltaic cells and having a flat shape in cross section;
a third segment body used for bonding to the back side adjacent the solar cell; Solar ribbon comprising a. According to claim 1,
The solar ribbon of claim 1, wherein, in cross-section, the first segment body is circular, semi-circular or elliptical. According to claim 1,
A solar ribbon, characterized in that, in cross-section, the contour of said first segmented body is a major arc and a chord of one segment connected between both ends. According to claim 1,
In cross-section, the contour of the first segment body is a minor arc and a chord of one segment connected between the ends of the minor arc. According to claim 1,
A solar ribbon, characterized in that in cross-section, the second segment body is rectangular or trapezoidal. 6. The method of claim 5,
Solar ribbon, characterized in that the outer convex arc is provided on both sides of the second segment body having a rectangular or trapezoidal cross section. According to claim 1,
The solar ribbon of claim 1, wherein, in cross-section, the third segment body is circular, semi-circular or elliptical. According to claim 1,
A solar ribbon, characterized in that, in cross-section, the contour of the third segment body is a chord of one segment connected between the both ends of the friendly and the friendly. According to claim 1,
A solar ribbon, characterized in that, in cross-section, the contour of the third segment body is a chord of one segment connected between the fissures and the ends of the fissures. According to claim 1,
A solar ribbon, characterized in that in cross-section, the third segment body is rectangular or trapezoidal. 11. The method of claim 10,
The third segment body has a rectangular or trapezoidal cross section on both sides of the photovoltaic ribbon, characterized in that the external convex arc is provided.

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