CN116791799A - Modular glass product capable of generating electricity and emitting light - Google Patents

Abstract

The invention relates to a modular glass product capable of generating electricity and emitting light, which comprises an energy storage battery module, a charge-discharge module, a light source module, a solar transparent power generation module, a light-emitting panel module and a shell; the energy storage battery module is electrically connected with the charge-discharge module, and the charge-discharge module is respectively electrically connected with the solar transparent power generation module and the light source module; the solar transparent power generation module and the light-emitting panel module are overlapped together; the light source module is arranged on the side surface of the light-emitting panel and emits scattered light into the light-emitting panel module, and the light-emitting panel module is transparent; the shell encapsulates the solar transparent power generation module and the two ends of the light-emitting panel module which are overlapped together, and the light source module. Compared with the common solar power generation product, the solar power generation device has transparency, can be combined with the light-emitting panel into a whole, can generate power and illuminate, can save a large amount of application space, and achieves the effects of self-generation and self-luminescence.

Description

Modular glass product capable of generating electricity and emitting light

Technical Field

The invention relates to the technical field of illumination, in particular to a modular glass product capable of generating electricity and emitting light.

Background

Luminescent glass is generally used in the field of outdoor decorative lighting. Light-emitting glass products such as light-emitting guardrails, light-emitting curtain walls, light-emitting floor tiles and the like are increasingly demanded for outdoor lighting decoration along with the improvement of the living standard and aesthetic ideas of people. The places such as squares, overpasses, buildings and the like which are subjected to the lightening decoration of the luminous glass products are colorful, so that the urban night scene is extraordinarily beautiful. The existing luminescent glass industry technology is generally used for improving technical parameters such as luminous flux, energy efficiency ratio and the like of products, and the development of the industry technology is slow.

The existing luminous glass products such as luminous guardrails, luminous curtain walls, luminous floor tiles and the like use LED lamp beads with low energy consumption as light sources, but the luminous glass products have huge assembly areas, namely thousands of square meters of decoration areas, and are also urban night energy-consuming households.

Disclosure of Invention

The invention provides a modular glass product capable of generating electricity and emitting light, aiming at one of the technical problems existing in the prior art.

The technical scheme for solving the technical problems is as follows: a modular glass product capable of generating electricity and emitting light comprises an energy storage battery module, a charging and discharging module, a light source module, a solar transparent power generation module, a light emitting panel module and a shell;

the energy storage battery module is electrically connected with the charge-discharge module, and the charge-discharge module is respectively electrically connected with the solar transparent power generation module and the light source module;

the solar transparent power generation module and the light-emitting panel module are overlapped together; the light source module is arranged on the side surface of the light-emitting panel module and emits scattered light into the light-emitting panel module, and the light-emitting panel module is transparent;

the shell encapsulates the solar transparent power generation module and the two ends of the light-emitting panel module which are overlapped together, and the light source module.

According to the technical scheme of the invention, the following improvements can be made:

optionally, the solar transparent power generation module comprises a toughened glass layer, a cadmium telluride solar power generation film and an electrode; the electrode is positioned at one end of the cadmium telluride solar power generation film and is electrically connected with the cadmium telluride solar power generation film, and the toughened glass layer is positioned at the inner side of the cadmium telluride solar power generation film.

Optionally, the cadmium telluride solar power generation film comprises a transparent conductive layer, a window layer and a cadmium telluride absorption layer which are sequentially arranged from inside to outside.

Optionally, the light-emitting panel module includes a toughened glass light guide plate, wherein one or more sides in the toughened glass light guide plate are provided with screen printing light guide points, the screen printing light guide points are used for reflecting light rays emitted by the light source module so as to enable the light rays in the toughened glass light guide plate to be uniformly distributed.

Optionally, the light source module includes aluminium base circuit board and a plurality of LED lamp pearl, offer the fixed slot that is used for installing the light source module in the shell, the light source module sets up in the fixed slot makes the direction that the LED lamp pearl sent light towards in the luminescent panel module.

Optionally, a heat dissipation silica gel pad is arranged at the joint between the light source module and the shell, and the heat dissipation silica gel pad seals the light source module and the shell.

Optionally, a plurality of radiating fins are arranged on the outer surface of the shell, and the radiating fins and the shell are integrally formed.

Optionally, the three sides of the light-emitting panel module are respectively provided with a reflective film, and the three sides are sides except for the side where the light source module is located, the light-emitting side and the side overlapped with the solar transparent power generation module.

Optionally, the shell is an aluminum profile shell.

Optionally, the joints of the shell, the solar transparent power generation module and the light-emitting panel module are filled with waterproof heat-dissipating materials.

The beneficial effects of the invention are as follows: the invention provides a modular type glass product capable of generating electricity and emitting light, and provides a glass product which can adopt solar energy to generate electricity and can be used as illumination decoration.

Drawings

FIG. 1 is a cross-sectional view of a modular, electrically-generatable, luminescent glass product of an embodiment.

FIG. 2 is an overall schematic of a modular, electrically-generating and luminescent glass product according to an embodiment.

FIG. 3 is a schematic diagram of a modular, electrically-generatable, and luminescent glass product according to an embodiment.

Fig. 4 is a schematic diagram of an example application of a modular, electrically-generating and luminescent glass product, city building and overpass lighting barrier, according to an embodiment.

Fig. 5 is a schematic diagram of an example application of a modular, electrically-generating and luminous glass product, a building facade luminous curtain wall application, according to an embodiment.

FIG. 6 is a schematic cross-sectional view of another implementation of a modular, electrically-generatable and luminescent glass product of an example.

The solar energy power generation device comprises a shell 1, an energy storage battery module 2, radiating fins 3, a light source module 4, a waterproof silica gel pad 5, a light-emitting panel module 6, radiating silica gel 7, a solar energy transparent power generation module 8, a waterproof structural adhesive 9, an electrode 10, a reflecting film 11, a transparent conducting layer 12, a window layer 13, a cadmium telluride absorption layer 14, a light guide point 15, a charge and discharge module 16, upright posts 17, armrests 18, screws 19, waterproof joints 20, wires 21, end covers 22 and curtain walls 23.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

In the description of the present invention, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

In the description of the present invention, unless otherwise specified and defined, it should be noted that the terms "mounted," "connected," and "coupled" are to be construed broadly, and may be, for example, mechanical or electrical, or may be in communication with each other between two elements, directly or indirectly through intermediaries, as would be understood by those skilled in the art, in view of the specific meaning of the terms described above.

As shown in fig. 1 to 5, the embodiment of the present invention provides a modular power-generating and luminous glass product, which comprises an energy storage battery module 2, a charge-discharge module 16, a light source module 4, a solar transparent power generation module 8, a luminous panel module 6 and a housing 1;

the energy storage battery module 2 is electrically connected with the charge-discharge module 16, and the charge-discharge module 16 is electrically connected with the solar transparent power generation module 8 and the light source module 4 respectively;

the solar transparent power generation module 8 and the light-emitting panel module 6 are overlapped together; the light source module 4 is arranged on the side surface of the light-emitting panel module 6, and emits scattered light into the light-emitting panel module 6, and the light-emitting panel module 6 is transparent;

the housing 1 encapsulates the two ends of the solar transparent power generation module 8 and the light emitting panel module 6, which are stacked together, and the light source module 4.

The solar transparent power generation module 8 comprises a toughened glass layer, a cadmium telluride solar power generation film and an electrode 10; the electrode 10 is positioned at one end of the cadmium telluride solar power generation film and is electrically connected with the cadmium telluride solar power generation film, and the toughened glass layer is positioned at the inner side of the cadmium telluride solar power generation film. The cadmium telluride solar power generation film comprises a transparent conductive layer 12, a window layer 13 and a cadmium telluride absorption layer 14 which are sequentially arranged from inside to outside. The light-emitting panel module 6 comprises a toughened glass light guide plate, wherein screen printing light guide points 15 are arranged on one or more sides in the toughened glass light guide plate, and the screen printing light guide points 15 are used for reflecting light rays emitted by the light source module 4 so as to enable the light rays in the toughened glass light guide plate to be uniformly distributed. The light source module 4 comprises an aluminum-based circuit board and a plurality of LED lamp beads, a fixing groove for installing the light source module 4 is formed in the shell 1, and the light source module 4 is arranged in the fixing groove so that the direction of the light emitted by the LED lamp beads faces the inside of the light-emitting panel module 6. The junction between the light source module 4 and the housing 1 is provided with a heat dissipation silica gel pad, which seals between the light source module 4 and the housing 1. The outer surface of the shell 1 is provided with a plurality of radiating fins 3, and the radiating fins 3 and the shell 1 are integrally formed. Reflective films 11 are respectively arranged on three sides of the light-emitting panel module 6, and the three sides are sides except for the side where the light source module 4 is located, the light-emitting side and the side overlapped with the solar transparent power generation module 8. The shell 1 is an aluminum profile shell 1. The joints of the shell 1, the solar transparent power generation module 8 and the light-emitting panel module 6 are filled with waterproof heat-dissipating materials.

It will be appreciated that in this embodiment, the housing 1 is made of an aluminum profile, the length can be cut into any length without re-opening the mold, and the power generation and light emitting panels can be cut into any length according to the design requirements of customers, so that the size of the assembled product can be large or small. And then the light-emitting guardrails, the light-emitting curtain walls 23, the light-emitting floor tiles and other city lightening projects with large areas and different shapes are spliced according to the requirements of a modeling design party. The relevant components of the light-emitting panel module 6 are made of transparent materials, the light-emitting panel module 6 is provided with light guide points 15, specifically screen printing light guide points 15 distributed on a light guide plate, and the size, shape and distribution of the light guide points 15 are obtained by comprehensively analyzing parameters such as the position, the light-emitting angle, the luminous flux and the light-emitting panel area of a light-emitting strip light source and then comprehensively calculating through optical design software.

The light guide points 15 are protruding points formed by printing ink on the surface of the toughened glass through a screen printing process, the protruding points can be in different shapes according to the positions of light emitting strip light sources, the light emitting angles, the luminous flux and the area of a light emitting panel through optical software design, the screen printing ink is pure white, so that the white surface of the protruding points forms a light reflection point inside the toughened glass, and a plurality of reflection points are combined to form the light guide points 15. The size, shape, size and distribution interval size of the light guide points 15 are designed, and then screen printing is carried out, so that the light inside the toughened glass is uniformly led out, and a soft and bright lighting effect is formed.

The aluminum profile heat dissipation shell 1 is provided with a light source groove, the light source module 4 is assembled in the light source groove, transparent waterproof silica gel is filled in the light source groove in a sealing mode, and the two groups of electronic wires 21 are connected with a low-voltage power supply and extend out of the shell from the position of the through hole of the side baffle.

The light source module 4 includes: the LED luminous strip comprises an aluminum-based printed circuit board and a plurality of LED lamp beads; the transparent waterproof silica gel is used for filling the light source groove of the aluminum profile shell 1 in a filling and sealing mode, so that the waterproof and dustproof effects are achieved; the heat dissipation silica gel pad is used for filling a gap between the aluminum-based printed circuit board and the aluminum profile shell 1 and fixing the light source module 4.

The light source module 4 and the light emitting panel module 6 are independent modules, the light source module 4 has a lighting effect, and the light emitted by the light source module 4 is diffused by the light emitting panel to form a surface light source, so that organic combination is formed. Meanwhile, the waterproof performance is achieved, and the overall performance is not affected by replacing a single module; each product of the invention can be spliced into a large-area building decoration glass material, thereby meeting the requirement of large-area building decoration.

The solar transparent power generation module 8 consists of a toughened glass layer and a cadmium telluride solar power generation film, and the cadmium telluride solar power generation film can replace monocrystalline silicon and polycrystalline silicon to serve as a solar absorption layer. A transparent conductive layer 12, a window layer 13, a cadmium telluride absorption layer 14, a back electrode 10, the window layer 13 and the absorption layer are sequentially deposited on glass to form a pn junction to separate photo-generated carriers in the cadmium telluride for external power generation. The cadmium telluride solar power generation film has a 50% transparency and a 12% solar power generation efficiency.

The light emitted by the electrified LED light-emitting strip in the light source module 4 irradiates one side surface of the light guide plate, and is uniformly distributed on the light-emitting panel through the light guide plate and the light guide points 15, so that the whole light-emitting panel emits light, and the glare index and the light pollution are reduced while the light-emitting surface is increased.

Compared with the common solar power generation product, the solar power generation module has transparency, so that the solar power generation module can be combined with the light-emitting panel into a whole, can generate power and illuminate, can save a large amount of application space, and achieves the effect of self-power generation and self-luminescence.

The solar energy power generation device has the characteristics of combining a transparent solar energy power generation film technology and a surface light source technology, and can absorb solar energy power generation in daytime and transmit sunlight. When the sunlight is strong in the daytime, part of strong light can be shielded, meanwhile, the interior of the building is provided with visible light, and when the building is paved on the surface of the building as a skylight or a curtain wall 23, the aim of saving energy in the daytime can be achieved;

the product has the characteristics of combining a transparent solar power generation film technology and a surface light source technology, combines a surface light source product and a solar power generation product into a whole, absorbs solar energy in daytime, can generate electricity, stores electric energy by an energy storage battery, discharges the electric energy by the energy storage battery at night, lightens the light source module 4, does not need an external power supply, and can play roles in local illumination and beautifying urban building.

A large amount of energy sources can be saved;

the transparent solar power generation film technology can generate power not only on sunny days, but also on cloudy days when sunlight is not strong. In addition, as the light source adopts the LED light source with low energy consumption as the light source for decorating and brightening the urban building, the electric energy consumption is low, and the effect of uninterrupted lighting days can be achieved;

the product of the invention has the characteristic of modularized design, an aluminum profile is adopted as the shell 1, the length of the aluminum profile produced by a set of aluminum profile extrusion die can be cut at will, and the aluminum profile can be custom-made into different shapes such as bending arc, bending and the like; the length and the shape of the aluminum profile can be customized, and the size and the shape of the glass panel can be customized, so that different sizes and shapes can be customized according to the requirements of customers, and the research, development and production investment cost can be reduced; the installation and maintenance are convenient, and the method is suitable for new project construction and old project transformation;

the product adopts a modularized design, a large-capacity battery module is arranged in the product, and when emergency energy is needed in a building to which the product is applied, a lead can be connected from the position of the end cover 22 of the product to serve as the emergency energy;

the fully transparent light-emitting panel with the light guide points 15 can improve the light-emitting efficiency, is more energy-saving and environment-friendly, has the light-emitting uniformity of more than 95%, and is in a transparent state when not lighted in the daytime; and has the characteristics of surface light emission, glare reduction and urban light pollution reduction.

As shown in fig. 1, the length of the aluminum profile shell 1 and the size of the power generation and light emitting panel can be set according to the design requirements of customers. The energy storage battery module 2 is arranged in a battery groove of the aluminum profile shell 1, a gap between the battery groove and the energy storage battery module 2 is filled with heat dissipation silicone grease 7, and the aluminum profile shell 1 is provided with heat dissipation fins 3, so that a good heat dissipation effect can be achieved. The back of the aluminum-based circuit board of the light source module 4 is stuck with a heat dissipation silicon tape, and is stuck in the light source groove of the aluminum profile shell 1. The solar transparent light-emitting module and the light-emitting panel module 6 are combined into a whole by a high-temperature glue pressing process, waterproof silica gel pads 5 are arranged on two sides of the four sides, the aluminum profile shell 1 is clamped into the double-layer glass panel, and after assembly is completed, waterproof structural glue 9 is coated on the outer edges of the aluminum profile shell 1 and toughened glass, so that a good waterproof and dustproof effect is achieved.

In addition, it can be implemented by the following means: the solar transparent power generation module 8 consists of toughened glass, a cadmium telluride solar power generation film and an electrode 10, wherein the cadmium telluride solar power generation film can replace monocrystalline silicon and polycrystalline silicon to serve as a solar energy absorption layer. A transparent conductive layer 12, a window layer 13, a cadmium telluride absorption layer 14, a back electrode 10, the window layer 13 and the absorption layer are sequentially deposited on glass to form a pn junction to separate photo-generated carriers in the cadmium telluride for external power generation. The cadmium telluride solar power generation film has a 50% transparency and a 12% solar power generation efficiency. The solar transparent power generation module 8 and the light-emitting panel module 6 are integrated into a whole by a high-temperature glue pressing process and then fixed in the aluminum profile panel groove.

As shown in fig. 2, the visible outer surface of the product consists of a glass panel, four aluminum profiles and four end covers 22, wherein the end covers 22 are arranged at two ends of each of the four aluminum profiles, a waterproof silica gel pad 5 is arranged between the end covers 22 and the aluminum profiles, the end covers 22 and the aluminum profiles are fixed by screws 19, and after the screws 19 are fastened, the waterproof silica gel pad 5 is pressed tightly to play a waterproof role. The end cover 22 is fixedly provided with a waterproof connector 20, and the electronic voltage regulating module is connected with the light source module 4 through a lead 21 by the waterproof connector 20 so as to achieve a waterproof effect.

As shown in fig. 3, sunlight is injected from one side of the solar transparent light emitting module, a pn junction is formed by the window layer 13 and the cadmium telluride absorption layer 14 to separate photo-generated carriers in the cadmium telluride for generating electricity outwards, current is led out from the side electrode 10 and is connected with the charge and discharge module 16 through a lead 21, and the charge and discharge module 16 charges the energy storage battery module 2 after adjusting the input voltage to a proper voltage suitable for the energy storage battery module 2; when the product needs to be lightened, the energy storage battery discharges outwards, the voltage and the current are regulated by the voltage regulating module through the charging module, the voltage and the current are output to the light source module 4, and the light source module 4 receives the proper voltage and the current to lighten the LED lamp beads. Light emitted by the LED lamp beads on the light source module 4 is injected from one side of the light-emitting panel module 6, the light is continuously refracted in the glass, and when the light passes through the light guide point 15, the light changes direction due to the angle of the light guide point 15 and is reflected towards the other side of the light guide point 15; the other side of the light-emitting panel module 6 is stuck with a shading reflection layer, and when light rays are emitted from the other side to reach the shading reflection layer, the shading reflection layer reflects the light rays, so that the light rays continue to be refracted in the glass.

An example of an application is shown in fig. 4-city building and overpass lighting guardrail application diagram. The luminous guardrail is a building decoration material widely applied to places such as outdoor balconies, terraces, corridor bridges, bridges and the like of urban public buildings. The main function is to replace the original design guardrail product, and is used as the effect of illumination and building aesthetic feeling enhancement. The existing luminous guardrail product needs an external power supply, and has large application area and great electric energy demand. The product of the invention can replace the existing luminous guardrail product, can fix the aluminum profile shell 1 in the hollow steel guardrail upright 17 and the handrail 18, has simple and reliable design and installation, does not need an external power supply, self-generates electricity and self-emits light, and is a real green low-carbon product.

An example of an application is shown in fig. 5-a schematic view of an application of a building facade light curtain wall 23. The luminous curtain wall 23 is a luminous decorative material widely applied to the outer facade of urban buildings. The main function is to replace the common glass curtain wall 23 product, and is used as the effect of illumination and building aesthetic enhancement. The existing luminous curtain wall 23 product needs an external power supply, and has large application area and great electric energy requirement. The product of the invention can replace the existing luminous curtain wall 23 product, does not need an external power supply, generates power automatically and self-emits light, and is a real green low-carbon product.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: numerous variations, modifications, and alternative arrangements may be made to the embodiments without departing from the spirit and principles of the invention, the scope of which is defined in the claims and their equivalents.

Claims (10)

1. The modular glass product capable of generating electricity and emitting light is characterized by comprising an energy storage battery module, a charge-discharge module, a light source module, a solar transparent power generation module, a light emitting panel module and a shell;

the energy storage battery module is electrically connected with the charge-discharge module, and the charge-discharge module is respectively electrically connected with the solar transparent power generation module and the light source module;

the solar transparent power generation module and the light-emitting panel module are overlapped together; the light source module is arranged on the side surface of the light-emitting panel module and emits scattered light into the light-emitting panel module, and the light-emitting panel module is transparent;

the shell encapsulates the solar transparent power generation module and the two ends of the light-emitting panel module which are overlapped together, and the light source module.

2. The modular, power-generating and luminescent glass product of claim 1, wherein the solar transparent power module comprises a tempered glass layer, a cadmium telluride solar power film and an electrode; the electrode is positioned at one end of the cadmium telluride solar power generation film and is electrically connected with the cadmium telluride solar power generation film, and the toughened glass layer is positioned at the inner side of the cadmium telluride solar power generation film.

3. The modular electricity-generating and light-emitting glass product as claimed in claim 2, wherein the cadmium telluride solar electricity-generating film comprises a transparent conductive layer, a window layer and a cadmium telluride absorbing layer which are arranged in sequence from inside to outside.

4. The modular, electrically and luminous glass product of claim 1, wherein the light emitting panel module comprises a tempered glass light guide plate, wherein screen printed light guide points are disposed on one or more sides of the tempered glass light guide plate, and the screen printed light guide points are used for reflecting light emitted by the light source module to uniformly distribute the light in the tempered glass light guide plate.

5. The modular power-generating and luminous glass product according to claim 1, wherein the light source module comprises an aluminum-based circuit board and a plurality of LED lamp beads, a fixing groove for installing the light source module is formed in the shell, and the light source module is arranged in the fixing groove so that the direction of light emitted by the LED lamp beads faces the luminous panel module.

6. The modular power-generating and luminous glass product of claim 1, wherein a heat-dissipating silica gel pad is disposed at the junction between the light source module and the housing, and seals the light source module and the housing.

7. The modular, power-generating and luminescent glass product of claim 1, wherein the outer surface of the housing is provided with a plurality of heat dissipating fins integrally formed with the housing.

8. The modular power-generating and light-emitting glass product according to claim 4, wherein the light-emitting panel module is provided with reflective films on three sides, respectively, excluding a side where the light source module is located, a light-emitting side, and a side overlapping with the solar transparent power-generating module.

9. A modular, electrically and luminescent glass product according to claim 1, characterized in that the housing is an aluminium profile housing.

10. The modular, power-generating and luminescent glass product of claim 1, wherein the junction of the housing with the solar transparent power module and the luminescent panel module is filled with a waterproof heat dissipating material.