WO2012146192A1 - Light-concentrating photovoltaic glass with matrix pattern - Google Patents

Abstract

Disclosed is a light-concentrating photovoltaic glass with a matrix pattern (1), wherein one face of the glass is planar, and the other face is provided with matrix lens units distributed evenly, the lens unit being a spherical surface lens unit. The downward projection of the lens unit is a square. The light-concentrating photovoltaic glass (1) is employed to encapsulate light-concentrating solar photovoltaic cells, which can reduce the amount of silicon wafers (2) used, thereby decreasing the prodution cost for solar cells.

Description

 Description

 Concentrated photovoltaic glass with matrix pattern

 Technical field

 The invention belongs to the technical field of photovoltaic glass, and particularly relates to a concentrating photovoltaic glass with a matrix pattern.

 Background technique

 At present, with the energy shortage, solar photovoltaic cells are developing rapidly, and silicon wafers, which are the main packaging materials for solar photovoltaic cells, are the main raw materials for solar photovoltaic cells, and are also one of the main costs. The amount of silicon wafers directly affects solar photovoltaic cells. The cost and sales price, and the cost of solar photovoltaic cells will affect the application of solar photovoltaic power. If the silicon wafer in the solar photovoltaic cell is reduced, and the power generation is not reduced, the manufacturing cost of the solar photovoltaic cell will be greatly reduced.

 Summary of the invention

 The object of the present invention is to provide a concentrating photovoltaic glass with a matrix pattern, which can achieve the effect of concentrating light through the change of the flower pattern, reduce the amount of silicon wafer on the solar photovoltaic cell, and greatly reduce the solar photovoltaic cell. manufacturing cost.

 In order to achieve the above object, the technical solution adopted by the present invention is as follows:

 In the concentrating photovoltaic glass of the present invention having a matrix pattern, one side of the glass is a flat surface, and the other side of the glass is provided with a uniformly distributed matrix lens unit, and the lens unit is a spherical lens unit.

 The top view projection of the lens unit is a square.

 Each two lens units are transitioned by a circular arc.

 The side length C of the single lens unit has a size ranging from 6 to 80 mm.

 The thickness E of the concentrating photovoltaic glass ranges from 3 to 10 mm.

 The total height El of the single lens unit ranges from 1 to 6 mm in size.

 The pattern height E2 on the four sides of the single lens unit ranges from 0.2 to 4 mm. A preferred embodiment of the present invention: the single lens unit has a side length C of 12 mm, the concentrating photovoltaic glass has a thickness E of 5.8 mm, and the single lens pattern has a total height E1 of 2.638 mm, and the single lens pattern has four sides. The height E2 of the pattern is 1.236 mm.

Another preferred embodiment of the present invention: the side length C of the single lens is 20 mm, the thickness E of the concentrating photovoltaic glass is 5.8 mm, and the total height E1 of the single lens pattern is 2.638 mm, on the four sides of the single lens pattern. The flower height E2 is 1.236 mm. The concentrating photovoltaic glass described in the specification is provided with a package side with a flat top surface.

 The concentrating photovoltaic glass with matrix pattern of the invention is used for concentrating solar photovoltaic cell packaging (see Fig. 4), 1 is a concentrating photovoltaic glass with a novel matrix pattern, and 2 is a silicon wafer in a solar photovoltaic cell, according to The focal length is different, there is a certain distance between the concentrating photovoltaic glass 1 and the silicon wafer 2, and the concentrating photovoltaic glass 1 and the silicon wafer 2 are packaged in a closed box such as an aluminum alloy. The concentrating photovoltaic glass has a flat surface on one side and a rectangular lens array on the other side. The silicon wafer 2 is packaged under the concentrating photovoltaic glass with a novel matrix pattern. Each lens has a rectangular silicon wafer underneath the lens, and the light beam passes through the glass 1. The lens unit, after being refracted, is gathered into a small focal spot on the silicon wafer 2 (ie, forms a matrix focal spot) to achieve a concentrating effect and a high light transmittance. Since the silicon wafer is only required to be disposed at the focal spot position of the matrix, the amount of the silicon wafer is reduced, thereby reducing the production cost of the solar cell.

 DRAWINGS

 Fig. 1 is a schematic overall view of Embodiment 1.

 Fig. 2 is a cross-sectional view showing the lens waveform of the first embodiment.

 Fig. 3 is a schematic overall view of the first embodiment.

 Fig. 4 is a cross-sectional view showing the lens waveform of the first embodiment.

 FIG. 5 is a schematic diagram of a light transmission principle of the present invention.

 Figure 6 is a schematic view of another light transmission principle of the present invention.

 detailed description

 Example 1

The concentrating photovoltaic glass of the present embodiment is as shown in FIG. 1 and FIG. 2, the number of lenses is determined according to the length A and the width B of the glass plate, and the lens shape is a square spherical lens unit of CX C, and the single lens is projected in a square shape, square The side length is C, the spherical radius is SR, the glass height is, the spherical pattern height is E ₂ , and each lens is transitioned by an arc. As shown in Figure 1, the concentrating photovoltaic glass with the new matrix pattern, the length, the width, the thickness, the side length of the single lens, the spherical radius, the height of the flower, etc. can be adjusted according to the actual situation.

 In actual production, one of the models has a matrix pattern of concentrating photovoltaic glass with a length A of 480 ± 0.2 mm and a width B of 420 ± 0.2 mm. A 40 X 35 lens array is formed on one side of the glass, and the square length of the lens is C. It is 12 mm, the spherical radius is SR13.54 mm, the glass thickness E1 is 5.8 mm, the pattern height E2 is 2.638 mm, the spacing C between each lens is 12 mm, and the entire glass (including the lens) surface is free of ripples and irregularities.

In actual production, one of the models has a matrix pattern of concentrating ultra-white embossed glass length A Description

800±0.3 mm, width B is 700±0.3 mm, 40 X 35 lens array is formed on one side of the glass, lens square side length C is 20 mm, spherical radius is SR36.364, mm glass thickness E1 is 4.5 mm, pattern height E2 is 2.638 mm, the spacing C between each lens is 20 mm, and the entire glass (including the lens) surface has no ripples and irregularities.

 The following is a brief description of the principle of light transmission of such an embossed glass: When light enters another medium from one medium, as long as the density is different, refraction and reflection are generated, and the concentrated white embossed glass of the invention, The surface consists of a number of lens units that form a matrix lens structure. When the light passes through the lens unit, the effect of refraction focusing occurs. As shown in Fig. 5 and 6, the light refracts the focus when it passes through the lens of the condensed ultra-white embossed glass 1, when the light reaches When the silicon wafer 2 is gathered into a small focal spot, how many lens units are on the concentrated white embossed glass 1 , and the corresponding number of silicon wafers are packaged below, which will focus on the same number of focal spots, and are installed in the concentrated light super The length of the square silicon wafer 2 under the white embossed glass 1 is greatly reduced (relative to the condensed ultra-white embossed glass). When the concentrating ultra-white embossed glass of the invention is used, the amount of the silicon wafer 2 is greatly reduced. .

 Example 2

 As shown in FIGS. 3 and 4, the concentrating photovoltaic glass having the novel matrix pattern of the present invention has a bottom surface which is a flat surface, a top surface of which is a matrix lens array, a rectangular array composed of a plurality of lenses uniformly distributed, and a single lens is projected in a plan view. Square, each lens transitions from a circular arc. The periphery of the lens array is provided with a package side with a flat top surface. The concentrating photovoltaic glass plate has a height of Al and a plate width of Bl, wherein the pattern portion is A2 and B2, and the lens shape is a CX C square spherical lens unit. The number of lenses depends on the A2, B2, and C dimensions, and the thickness of the glass. For E, the total height of the pattern is El, and the height of the pattern on the four sides of a single rectangle is E2, and each lens is transitioned by a circular arc.

 The concentrating photovoltaic glass sheet of the present invention has a high A1 size ranging from 100 to 900, and a sheet width B1 having a size ranging from 120 to 1860.

 The concentrating photovoltaic glass of the present invention has a flower-shaped partial panel height A2 having a size ranging from 700 to 870, and a pattern partial panel width B2 having a size ranging from 90 to 1830.

 The side length C of the single lens unit has a size ranging from 6 to 80 mm.

 The thickness E of the concentrating photovoltaic glass ranges from 3 to 10 mm.

 The total height El of the single lens unit ranges from 1 to 6 mm in size.

The pattern height E2 on the four sides of the single lens unit ranges from 0.2 to 4 mm. In actual production, one of the models of concentrating photovoltaic glass with matrix pattern, the plate height A1 is 450mm+0.3, and the part A2 with pattern is 420mm±0.2, and the 15mm plane on both sides is used as the seal. The specification has an edge width of B1 of 510 mm±0.3, wherein the part B2 of the pattern is 480 mm±0.2, and each side has a plane of 15 mm; the single rectangular pattern of the utility model has a side length C of 12 mm and a glass thickness E of 5.8 mm. The total height E1 of the pattern is 2.638 mm ± 0.015, and the height E2 of the pattern on the four sides of a single rectangle is 1.236 mm.

 In actual production, one of the models has a concentrating photovoltaic glass with a matrix pattern, and the plate height A1 is

190mm+0.3, where the pattern A2 is 160mm±0.2, and each side has a 15mm plane; the board width B1 is 270mm±0.3, wherein the pattern part B2 is 240mm±0.2, and each side has a 15mm plane; The new single rectangular pattern square has a side length C of 8 mm, a glass thickness E of 4 mm, a total pattern height E1 of 1.6 mm ± 0.015, and a pattern height E2 of four sides of a single rectangle of 0.8 mm.

 In actual production, one of the models has a concentrating photovoltaic glass with a matrix pattern, and the plate height A1 is

330mm+0.3, wherein the pattern A2 is 300mm±0.2, and each side has a 15mm plane; the board width B1 is 390mm±0.3, wherein the pattern part B2 is 360mm±0.2, and each side has a 15mm plane; The new single rectangular pattern square has a side length C of 10 mm, a glass thickness E of 5 mm, a total pattern height E1 of 2.2 mm ± 0.015, and a pattern height E2 of four sides on a single rectangle of 1.2 mm.

 In actual production, one of the models has a concentrating photovoltaic glass with a matrix pattern, and the plate height A1 is

520mm+0.3, wherein the pattern A2 is 490mm±0.2, and each side has a 15mm plane; the board width B1 is 590mm±0.3, wherein the pattern part B2 is 560mm±0.2, and the sides are 15mm plane; The new single rectangular pattern has a square side length C of 14 mm, a glass thickness E of 6 mm, a total pattern height E1 of 2.6 mm ± 0.015, and a pattern height E2 of four sides of a single rectangle of 1.4 mm.

 In actual production, one of the models has a concentrating photovoltaic glass with a matrix pattern, and the plate height A1 is

590mm+0.3, which has a pattern of part A2 of 560mm±0.2, leaving 15mm plane on each side; board width B1 is 670mm±0.3, part of the pattern B2 is 640mm±0.2, and each side has 15mm plane; The new single rectangular pattern square has a side length C of 16 mm, a glass thickness E of 6 mm, a total pattern height E1 of 2.6 mm ± 0.015, and a pattern height E2 of four sides of a single rectangle of 1.4 mm.

 In actual production, one of the models has a concentrating photovoltaic glass with a matrix pattern, and the plate height A1 is

660mm+0.3, in which part of the pattern A2 is 630mm±0.2, and 15mm plane on each side; board width B1 is 750mm±0.3, part of the pattern B2 is 720mm±0.2, and each side has 15mm plane; The new single rectangular pattern square has a side length C of 18 mm, a glass thickness E of 6.8 mm, a total pattern height E1 of 2.6 mm ± 0.015, and a pattern height E2 of four sides of a single rectangle of 1.4 mm.

 In actual production, one of the models has a concentrating photovoltaic glass with a matrix pattern, and the plate height A1 is

730mm+0.3, where the pattern A2 is 700mm±0.2, and each side has a 15mm plane; Bl is 830mm±0.3, in which part of the pattern B2 is 800mm±0.2, and each side has a plane of 15mm; the single rectangular pattern of the utility model has a side length C of 20mm, a glass thickness E of 6.8mm, and a total height E1 of the pattern. For 2.6 mm ± 0.015, the pattern height E2 on the four sides of a single rectangle is 1.4 mm.

 In actual production, one of the models of concentrating photovoltaic glass with a matrix pattern has a plate height A1 of 800 mm+0.3, wherein the pattern A2 is 770 mm±0.2, and each side has a 15 mm plane; the plate width B1 is 910mm±0.3, in which part of the pattern B2 is 880mm±0.2, and each side has a plane of 15mm; the single rectangular pattern of the utility model has a side length C of 22mm, a glass thickness E of 6.8mm, and a total height E1 of 2.6. Mm ± 0.015, the height E2 of the pattern on the four sides of a single rectangle is 1.4 mm.

 In actual production, one of the models of concentrating photovoltaic glass with a matrix pattern has a plate height A1 of 870 mm+0.3, wherein the pattern A2 is 840 mm±0.2, and each side has a 15 mm plane; the plate width B1 is 990mm±0.3, wherein the part B2 of the pattern is 960mm±0.2, and each side has a plane of 15mm; the single rectangular pattern of the utility model has a side length C of 24mm, a glass thickness E of 6.8mm, and a total height E1 of 2.6. Mm ± 0.015, the height E2 of the pattern on the four sides of a single rectangle is 1.4 mm.

 In actual production, one of the models has a matrix pattern of concentrating photovoltaic glass, the board height A1 is 450mm+0.3, and the pattern part A2 is 420mm±0.2, and the package side A3 with a width of 15mm on each side The board width B1 is 510 mm ± 0.3, and the pattern portion B2 of the pattern is 480 mm ± 0.2, and the package side B3 of 15 mm is left on both sides. The single rectangular pattern square length C of the present invention is 12 mm, the thickness E of the concentrating photovoltaic glass is 5.8 mm, the total height E1 of the pattern is 2.638 mm ± 0.015, and the height E2 of the four sides of the single rectangle is 1.236 mm.

 In actual production, one of the models has a concentrating photovoltaic glass with a matrix pattern, and the plate height A1 is

730mm+0.3, part of the pattern A2 is 700mm±0.2, and 15mm package side A3 on each side; board width B1 is 830mm±0.3, part of the pattern B2 is 800mm±0.2, and each side has 15mm package side B3; The single rectangular pattern of the present invention has a side length C of 20 mm, a total height E1 of the pattern of 2.638 mm + 0.015, a pattern height E2 of four sides of a single rectangle of 1.236 mm, and a 40 X 35 lens array formed on one side of the glass. The thickness E of the concentrating photovoltaic glass of the utility model is 5.8 mm.

The following is a brief description of the principle of light transmission of such an embossed glass: When light enters another medium from one medium, as long as the density is different, refraction and reflection are generated, and the concentrating photovoltaic glass of the utility model has a surface A plurality of lens units constitute a matrix lens structure, and light will have a refractive focusing effect when passing through the lens unit. As shown in FIG. 5 or 6, the light refracts the focus when passing through the lens of the concentrating photovoltaic glass 1, and converges when the light reaches the silicon wafer 2. As a focal spot with a narrow side length D, how many lens units are on the concentrating photovoltaic glass 1, and the corresponding number of silicon wafers are packaged below, which will focus on the same number of focal spots, installed in the concentrating photovoltaic glass 1 The square silicon wafer 2 under the specification will be greatly reduced in side length (relative to the concentrating photovoltaic glass). When the concentrating photovoltaic glass of the utility model is used, the amount of the silicon wafer 2 will be greatly reduced.

Claims

Claim

A concentrating photovoltaic glass having a matrix pattern, wherein one side of the glass is a flat surface, wherein: the other side of the glass is provided with a uniformly distributed matrix lens unit, and the lens unit is a spherical lens unit.

 2. The concentrating photovoltaic glass with matrix pattern according to claim 1, wherein: the planar projection of the lens unit is square.

 3. A concentrating photovoltaic glass having a matrix pattern according to claim 1, wherein: each of the two lens units is transitioned by a circular arc.

 The concentrating photovoltaic glass having a matrix pattern according to claim 2 or 3, wherein the single lens unit has a side length C ranging from 6 to 80 mm.

 The concentrating photovoltaic glass with matrix pattern according to claim 2 or 3, wherein the concentrating photovoltaic glass has a thickness E ranging from 3 to 10 mm.

 6. A concentrating photovoltaic glass having a matrix pattern according to claim 2 or 3, wherein said single lens unit has a total height E1 ranging in size from 1 to 6 mm.

 7. A concentrating photovoltaic glass having a matrix pattern according to claim 2 or 3, wherein the pattern height E2 on the four sides of the single lens unit ranges from 0.2 to 4 mm.

 8. The concentrating photovoltaic glass with matrix pattern according to claim 5, wherein: the single lens unit has a side length C of 12 mm, and the concentrating photovoltaic glass has a thickness E of 5.8 mm, a single lens flower. The total height E1 of the model is 2.638 mm, and the height E2 of the pattern on the four sides of the single lens pattern is 1.236 mm.

 9. The concentrating photovoltaic glass with matrix pattern according to claim 5, wherein: the single lens has a side length C of 20 mm, the concentrating photovoltaic glass has a thickness E of 5.8 mm, and a single lens pattern total. The height E1 is 2.638 mm, and the height E2 of the four sides of the single lens pattern is 1.236 mm.

 10. The concentrating photovoltaic glass with a matrix pattern according to claim 1, wherein: the concentrating photovoltaic glass is provided with a package side having a flat top surface.