CN109390426B - Glass panel for solar photovoltaic cell and preparation method thereof - Google Patents

Abstract

The invention belongs to the technical field of assembled green energy-saving buildings and comprehensive solar energy utilization, in particular relates to a glass panel in the field of film power generation of glass curtain walls or glass roofs for building outer facades, and particularly relates to a glass panel for a solar photovoltaic cell and a preparation method thereof. The glass panel for the solar photovoltaic cell comprises a substrate, wherein the substrate is divided into a pattern area and a contrast area, a plurality of pattern area optical structure unit configurations are fixedly arranged on the pattern area, and a plurality of contrast area optical structure unit configurations are fixedly arranged on the contrast area. The beneficial effects of the invention are as follows: (1) The luminous flux is not changed, the light transmittance of the incident light is not greatly reduced, and the power generation efficiency is ensured. (2) The change of the color brightness is generated by the structural change of the geometric configuration, so that the visual impact of the decorative pattern is highlighted. (3) The decoration of the photovoltaic glass curtain wall and the roof is increased, and meanwhile, the manufacturing cost is not greatly increased.

Description

Glass panel for solar photovoltaic cell and preparation method thereof

Technical Field

The invention belongs to the technical field of assembled green energy-saving buildings and comprehensive solar energy utilization, in particular relates to a glass panel in the field of film power generation of glass curtain walls or glass roofs for building outer facades, and particularly relates to a glass panel for a solar photovoltaic cell and a preparation method thereof.

Background

According to the data, the building energy accounts for about 1/4 of the total energy consumption of China, so with the rapid development of economy, the urban process is accelerated, the energy demand is continuously increased, and the energy crisis is aggravated. How to advance building energy conservation has become a hot spot problem that needs to be solved urgently. At present, the assembled green energy-saving building has the advantages of high building speed, labor saving, detachable and repeated use of the wall body, no generation of building garbage due to the disassembly of the wall body and the like, and becomes a big bright point in building energy saving. Under the condition of ensuring the improvement of the building comfort, the green technology is reasonably used to the greatest extent in the life cycle of the building, the green energy utilization efficiency is continuously improved to meet the growing demands of people on energy, and the pursuit target of energy conservation and higher construction in the new era is embodied.

In this context, the thin film power generation technology, represented by solar cells, is largely applied to new generation energy-saving green buildings, but the surface of solar cells produced based on the prior art is a flat plate without exception, and the better improvement is to embed power generation components into building members with simulation effect, and the products are not strong in sense of depression, lack of aesthetic feeling or lack of aesthetic feeling when being mounted on the buildings. Some companies make the panels in the form of simulation tiles, but greatly increase the manufacturing cost and the process difficulty of the glass panels of the solar photovoltaic cells, so that the construction materials for integral construction are high in cost. The related art is disclosed in CN207829245U, CN201835453U, and the like. Some institutions, including tesla in the united states, have additionally introduced some hanwa solar photovoltaic cell solutions, but still suffer from various problems. Although tesla corporation applies color printing technology to such glass panels to solve aesthetic problems, light flux is sacrificed, light transmittance is reduced, and power generation efficiency is affected.

Disclosure of Invention

The invention aims to combine the power generation function with the architectural design and design to design the multipurpose glass which has the surface protection function of the glass for the common solar power generation cell and the decorative function of rich patterns.

The glass panel for the solar photovoltaic cell comprises a substrate, wherein the substrate is divided into a pattern area and a contrast area, a plurality of pattern area optical structure unit configurations are fixedly arranged on the pattern area, and a plurality of contrast area optical structure unit configurations are fixedly arranged on the contrast area.

Preferably, the pattern area optical structure unit configuration arrangement density is greater than the contrast area optical structure unit configuration arrangement density.

More preferably, the pattern area optical structural unit configuration achieves the stereoscopic effect of the pattern through arrangement density and pattern size.

Preferably, the pattern area optical structural unit has fine texture, fine texture is adopted, and the contrast area optical structural unit has coarse texture.

Preferably, the pattern area optical structure unit configuration forms a complete pattern. The pattern is brick-shaped, tile-shaped, marble plate pattern or bluestone plate pattern.

Preferably, the pattern area optical structure unit configuration and the contrast area optical structure unit configuration are respectively diamond, triangle, square, circle, rectangle, trapezoid, parallelogram, ellipse, straight line or curve, or a shape contrast area composed of one or more of the shapes.

More preferably, the pattern area optical structure unit is in a rhombic or triangular configuration; the contrast area optical structure unit is configured as a quadrilateral or irregularly shaped structure.

Preferably, the pattern area optical building block configuration and the contrast area optical building block configuration are closely arranged.

The contrast of the light formed when the configuration of the optical structural unit of the contrast area adopts a blank area is the highest; meanwhile, the pattern area optical structure unit adopts fine grain configuration with fine grain, and the contrast area optical structure unit adopts coarse grain configuration to further enhance the contrast effect of color concentration with obvious contrast.

According to different parts of the pattern, the density arrangement degree of the optical structural unit configuration of the pattern area and the contrast area and the optical structural unit configuration of the non-pattern area is adjusted, and even the three-dimensional effect is achieved. The pitch of the optical structure unit configurations of the closely arranged portions of the optical structure unit configurations is between 0.5 micrometers and 1 millimeter, and the pitch of the optical structure unit configurations of the sparsely arranged portions is between 1 micrometer and 5 millimeters.

The pattern area optical structural unit configuration arrangement density is larger than that of the contrast area optical structural unit configuration.

Preferably, the optical structure unit configurations of the pattern areas in the same pattern area can be arranged in a sparse and dense combination way, for example, when the pattern areas are tile-shaped patterns, the tile ridge (the top of the circular arc) part adopts a sparse arrangement way, and the spacing between the optical structure unit configurations is between 1 micron and 3 millimeters; the spacing of the optical structure unit configuration between the ridge (circular arc top) and the root (circular arc bottom) is between 0.6 micrometers and 1.5 millimeters; the tile root (circular arc bottom) adopts a tight arrangement mode, and the interval between the optical structure unit configurations is between 0.5 micrometers and 1.2 millimeters; the spacing of the optical construction element configurations of the connection between the two tiles takes the form of equidistant spacing.

The pattern area optical structure unit configuration and the contrast area optical structure unit configuration are cured on the surface of glass by ultraviolet lamp irradiation through ultraviolet curing transparent transfer glue. The substrate is glass plated with a reflecting layer with mirror effect.

In addition, the invention also provides a preparation method of the glass panel for the two solar photovoltaic cells.

A method is as follows: transferring ultraviolet curing transparent transfer adhesive on the substrate according to the pattern to form a pattern area optical structure unit configuration and a contrast area optical structure unit configuration; the transfer ultraviolet curing transparent transfer adhesive comprises the following steps:

film pressing: manufacturing the ultraviolet curing transparent transfer adhesive into an imprinting transfer membrane with different texture patterns by using a high-precision laser engraving technology;

And (3) film coating: coating a transfer film with a pattern to be transferred on the outer surface of the substrate coated with the ultraviolet curing transparent transfer adhesive;

Curing: irradiating with a UV lamp;

And (3) release: and stripping the transfer film from the substrate to obtain the glass panel with the pattern area optical structural unit configuration and the contrast area optical structural unit configuration.

The other method is as follows: screen printing ultraviolet curing transparent screen printing varnish on a substrate according to a pattern to form a pattern area optical structure unit configuration and a contrast area optical structure unit configuration; the screen printing ultraviolet curing transparent screen printing gloss oil comprises the following steps:

plate making: manufacturing screen printing screen plates with different texture patterns by using a high-precision photosensitive plate making method;

Printing: according to different requirements of printed patterns, installing working components such as a printing table, a printing plate, a scraper for a machine and the like, and performing formal printing operation after preparation work such as positioning of a printing stock, trial printing operation and the like;

And (3) transmitting ultraviolet curing transparent screen printing gloss oil: the ultraviolet curing transparent screen printing varnish is transferred to the printing substrate through the through hole part of the screen printing plate under the pushing of the scraping plate;

Curing: after irradiation with UV lamps, a glass panel with a pattern area optical building block configuration and a contrast area optical building block configuration is obtained.

Preferably, the substrate is glass; more preferably, glass coated with a specular effect reflecting layer; the reflecting layer adopts the form of a plating natural color or a color plating.

The glass panel provided by the invention is provided with three-dimensional patterns comprising brick shapes, tile shapes, marble plate patterns and the like, so that the glass panel can be used on an assembled green building, the comprehensive energy-saving efficiency of the building is improved, the outer facade of the building can not generate a uniform dead effect, the decoration of the photovoltaic glass curtain wall and a roof is improved, and the manufacturing cost is not greatly increased.

The pattern area optical structure unit has fine texture, fine texture is adopted, and the contrast area optical structure unit has coarse texture; the pattern area optical structure unit configuration and the contrast area optical structure unit configuration adopt different configuration structures respectively. When the incident light rays penetrate through the diamond-shaped area, the birefringence phenomenon occurs, so that an optical brightening effect is generated, and the other part of the incident light rays penetrate through the triangle, square, round, rectangle, trapezoid, parallelogram, ellipse, linear line, curve-type, irregular shape formed by the shapes and the configuration without any shape, and the optical refraction and reflection routes are completely different from those in the optical structural unit configuration of the pattern area, so that a color concentration contrast effect with obvious pattern boundary contrast is generated.

In order to further enhance the color density contrast effect, the invention achieves the aim by adjusting the densities of the pattern area optical structural unit configuration and the contrast area optical structural unit configuration, namely the arrangement density of the pattern area optical structural unit configuration is larger, the arrangement density of the contrast area optical structural unit configuration is smaller, and the three-dimensional sense of the pattern area is highlighted.

In order to achieve the simulation effect, the substrate adopted by the invention is glass plated with a reflecting layer with mirror effect; the reflecting layer adopts the form of a plating natural color or a color plating. When the incident light passes through the optical structure unit configuration of the pattern area and the optical structure unit configuration of the contrast area, the diffuse emission light generated after reaching the reflecting layer with mirror effect further enhances the dazzling effect of the pattern area.

The ultraviolet curing transparent transfer adhesive used for transfer imprinting has the characteristics of good adhesiveness with glass, weather resistance, high light transmittance, water resistance and the like after being irradiated and cured by an ultraviolet lamp, so that the luminous flux of incident light is not changed, the extremely high light transmittance is maintained, and the power generation efficiency is not reduced; and has the advantages of low manufacturing cost and high cost performance.

The ultraviolet curing transparent transfer adhesive is made of a material with chemical stability, and even if the glass is exposed to high temperature for a long time, the texture of the glass panel is not changed, and in summary, the glass panel has the surface protection function of common glass for solar power generation cells and also has the multipurpose glass with the decorative function of rich patterns. The building energy-saving device can be used on an assembled green building, improves the comprehensive energy-saving efficiency of the building, and can not cause the outer vertical face of the building to generate a uniform rigid effect.

The beneficial effects of the invention are as follows: (1) The luminous flux is not changed, the light transmittance of the incident light is not greatly reduced, and the power generation efficiency is ensured. (2) The change of the color brightness is generated by the structural change of the geometric configuration, so that the visual impact of the decorative pattern is highlighted. (3) The decoration of the photovoltaic glass curtain wall and the roof is increased, and meanwhile, the manufacturing cost is not greatly increased.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention.

Fig. 2 is a cross-sectional view of fig. 1.

Fig. 3 is a schematic structural view of another embodiment of the present invention.

Detailed Description

In order to further explain the technical means and effects adopted by the invention to achieve the preset aim, the following describes a specific embodiment of a glass panel applied to the field of film power generation, which is suitable for an assembled green energy-saving building and is provided by combining with the attached drawings.

1-2, A glass panel for a solar photovoltaic cell comprises a substrate (1), wherein the substrate 1 is divided into a pattern area 2 and a contrast area 5, a plurality of pattern area optical structural unit configurations 3 are fixedly arranged on the pattern area 2, a plurality of contrast area optical structural unit configurations 4 are fixedly arranged on the contrast area 5, the pattern area optical structural unit configurations 3 are fine in texture, fine grains are adopted, and coarse grains are adopted for the contrast area optical structural unit configurations 4.

The pattern area optical structure unit configuration 3 forms a complete brick-shaped pattern. The pattern area optical structure unit configuration 3 is square.

In addition, the pattern may be tile-type, marble plate pattern or blue stone plate pattern. The pattern area optical structural unit configuration 3 can be diamond, triangle, square, round, rectangle, trapezoid, parallelogram, ellipse, linear, curve and irregular shape composed of the shapes.

As shown in fig. 2, when the pattern area is a tile pattern, the ridge (the top of the circular arc) part adopts a sparse arrangement mode, and the interval between the optical structure unit configurations is 1 micron to 3 millimeters; the spacing of the optical structure unit configuration between the ridge (circular arc top) and the root (circular arc bottom) is between 0.6 micrometers and 1.5 millimeters; the tile root (circular arc bottom) adopts a tight arrangement mode, and the interval between the optical structure unit configurations is between 0.5 micrometers and 1.2 millimeters; the spacing of the optical construction element configurations of the connection between the two tiles takes the form of equidistant spacing.

The optical structural unit configuration of the contrast area adopts diamond, triangle, square, round, rectangle, trapezoid, parallelogram, ellipse, linear, curve and irregular shape formed by the shapes, or forms without adopting any shape to form blank structural unit configuration.

Preferably, the pattern area optical configuration unit configuration 3 adopts a diamond, round and triangular structure, and the contrast ratio of light rays formed by the contrast area optical configuration unit configuration 4 adopts a blank structure unit configuration is highest; meanwhile, the pattern area optical structural unit configuration 3 adopts a fine grain configuration with fine grains, and the contrast area optical structural unit configuration 4 adopts a coarse grain configuration to further enhance the contrast effect of the color concentration with obvious contrast.

More preferably, the pattern area optical structural unit configuration 3 and the contrast area optical structural unit configuration 4 are regularly and closely arranged, and the degree of the density arrangement of the pattern area optical structural unit configuration 3 and the contrast area optical structural unit configuration 4 is adjusted according to different parts of the pattern so as to achieve the contrast effect of further highlighting the color concentration.

The pattern area optical structural unit configuration 3 has a greater arrangement density than the contrast area optical structural unit configuration 4.

The pattern area optical structural unit configuration 3 and the contrast area optical structural unit configuration 4 are cured on the surface of glass by ultraviolet lamp irradiation through ultraviolet curing transparent transfer glue.

The substrate is glass plated with a mirror effect reflecting layer; the reflecting layer adopts the form of a plating natural color or a color plating.

The invention also provides a preparation method of the glass panel for the solar photovoltaic cell, which comprises the steps of transferring ultraviolet curing transparent transfer adhesive on a substrate according to a pattern to form a pattern area optical structural unit configuration 3 and a contrast area optical structural unit configuration 4;

The transfer ultraviolet curing transparent transfer adhesive comprises the following steps:

film pressing: manufacturing the ultraviolet curing transparent transfer adhesive into an imprinting transfer membrane with different texture patterns by using a high-precision laser engraving technology;

And (3) film coating: coating a transfer film with a pattern to be transferred on the outer surface of the substrate coated with the ultraviolet curing transparent transfer adhesive;

Curing: irradiating with a UV lamp;

And (3) release: and stripping the transfer film from the substrate to obtain the glass panel with the pattern area optical structural unit configuration 3 and the contrast area optical structural unit configuration 4.

The invention also provides a preparation method of the glass panel for the solar photovoltaic cell.

Screen printing ultraviolet curing transparent screen printing varnish on a substrate according to a pattern to form a pattern area optical structure unit configuration; the screen printing ultraviolet curing transparent screen printing gloss oil comprises the following steps:

plate making: manufacturing screen printing screen plates with different texture patterns by using a high-precision photosensitive plate making method;

Printing: according to different requirements of printed patterns, installing working components such as a printing table, a printing plate, a scraper for a machine and the like, and performing formal printing operation after preparation work such as positioning of a printing stock, trial printing operation and the like;

And (3) transmitting ultraviolet curing transparent screen printing gloss oil: the ultraviolet curing transparent screen printing varnish is transferred to the printing substrate through the through holes (the specification of the screen printing stencil through holes is between 80 meshes and 420 meshes, preferably 200 meshes or 250 meshes) of the screen printing stencil under the pushing of the scraping plate;

Curing: after irradiation with UV lamp, a glass panel with pattern area optical structure unit configuration is obtained.

The substrate is preferably glass coated with a specular effect reflecting layer; the reflecting layer adopts the form of a plating natural color or a color plating.

The foregoing description of the preferred embodiments of the present invention is not intended to limit the invention in any way, and all equivalent structures or equivalent processes that may be used in the practice of the present invention are included in the scope of the present invention.

Claims (6)

1. A glass panel for a solar photovoltaic cell comprising a substrate, characterized in that: the substrate is divided into a pattern area and a contrast area, wherein a plurality of pattern area optical structure unit configurations are fixedly arranged on the pattern area, and a plurality of contrast area optical structure unit configurations are fixedly arranged on the contrast area; the pattern area optical structure unit configuration and the contrast area optical structure unit configuration are cured on the surface of the substrate by ultraviolet lamp irradiation through ultraviolet curing transparent transfer adhesive; or ultraviolet curing is performed on the surface of the substrate through screen printing; the arrangement density of the optical structural unit configuration of the pattern area is greater than that of the optical structural unit configuration of the contrast area; the pattern area optical structural unit has fine and smooth configuration, fine lines are adopted, and the contrast area optical structural unit has coarse lines; the configuration of the optical structural units in the pattern area forms a complete pattern; the pattern area optical structure unit configuration and the non-pattern area optical structure unit configuration are respectively diamond, triangle, square, round, rectangle, trapezoid, parallelogram, ellipse, straight line or curve, or a shape composed of one or more of the shapes.

2. A glass panel according to claim 1, wherein: the pattern is brick-shaped, tile-shaped, marble plate pattern or bluestone plate pattern.

3. A glass panel according to claim 1, wherein: the pattern area optical structure unit configuration and the contrast area optical structure unit configuration are respectively and regularly and closely arranged; the arrangement density of the optical structural unit configuration of the pattern area is different to form different parts of the pattern.

4. A glass panel according to claim 1, wherein: the substrate is glass plated with a mirror effect reflecting layer; the reflecting layer adopts the form of a plating natural color or a color plating.

5. A method for producing a glass panel for a solar photovoltaic cell according to any one of claims 1 to 4, characterized in that: transferring ultraviolet curing transparent transfer adhesive on the substrate according to the pattern to form a pattern area optical structure unit configuration and a contrast area optical structure unit configuration; the transfer ultraviolet curing transparent transfer adhesive comprises the following steps:

film pressing: manufacturing the ultraviolet curing transparent transfer adhesive into an imprinting transfer membrane with different texture patterns by using a high-precision laser engraving technology;

And (3) film coating: coating a transfer film with a pattern to be transferred on the outer surface of the substrate coated with the ultraviolet curing transparent transfer adhesive;

Curing: irradiating with a UV lamp;

And (3) release: and stripping the transfer film from the substrate to obtain the glass panel with the pattern area optical structural unit configuration and the contrast area optical structural unit configuration.

6. A method for producing a glass panel for a solar photovoltaic cell according to any one of claims 1 to 4, characterized in that: screen printing ultraviolet curing transparent screen printing varnish on a substrate according to a pattern to form a pattern area optical structure unit configuration and a contrast area optical structure unit configuration; the screen printing ultraviolet curing transparent screen printing gloss oil comprises the following steps:

plate making: manufacturing screen printing screen plates with different texture patterns by using a high-precision photosensitive plate making method;

Printing: according to different requirements of printed patterns, installing a printing table, a printing plate and a scraper operation assembly for a machine, and performing formal printing operation after positioning a printing object and preparing for trial printing operation;

And (3) transmitting ultraviolet curing transparent screen printing gloss oil: the ultraviolet curing transparent screen printing varnish is transferred to the printing substrate through the through hole part of the screen printing plate under the pushing of the scraping plate;

Curing: after irradiation with UV lamps, a glass panel with a pattern area optical building block configuration and a non-pattern area optical building block configuration is obtained.