CN220908919U - Roof anti-dazzle glass - Google Patents

Abstract

The utility model discloses roof anti-dazzle glass, which relates to the technical field of roof anti-dazzle glass and comprises toughened outer glass, wherein a photovoltaic module is arranged on one end surface of the toughened outer glass, and anti-dazzle inner glass is arranged on one end surface of the photovoltaic module. According to the utility model, through the mutual matching of the anti-glare coating, the anti-reflection coating and the polarizing film, the reflection and refraction of light can be reduced or eliminated, so that the glare phenomenon in vision is reduced, an observer can more easily see objects in a strong illumination environment, the vision comfort level and visibility are improved, the loss and interference of sunlight caused by reflection are reduced, the accuracy and reliability of observation or detection are improved, the polarization state of light is effectively controlled, the purposes of polarization splitting, optical modulation, optical filtration and the like are achieved, a more comfortable environment is created for the room, natural sunlight is enabled to enter the room through glass, warm and bright light is provided, and the irritation and fatigue to human eyes are reduced.

Description

Roof anti-dazzle glass

Technical Field

The utility model relates to the technical field of roof anti-glare glass, in particular to roof anti-glare glass.

Background

The high reflection characteristic of the existing glass surface is easy to cause glare phenomenon in a relatively strong illumination environment, so that visual discomfort is caused, in order to lighten the glare pollution and achieve the anti-glare effect, the key technology is how to carry out surface treatment on the glass surface, convert specular reflection into diffuse reflection and reduce the diffuse reflection, the roof is provided with the anti-glare glass, the glare can be reduced, good lighting effect is provided, ultraviolet irradiation is filtered, energy benefit is improved, and the beauty of a building is improved, so that the anti-glare glass becomes one of ideal choices of roof materials, and is particularly suitable for places needing to reduce the glare and keep comfortable indoor environment.

According to the published patent number CN 210711283U: an anti-dazzle glass comprises an anti-dazzle glass, wherein an optical nano coating (SiO 2 film) is roll-coated on a rough structure layer on the surface of a substrate layer, the refractive index of the optical nano coating is smaller than that of the substrate layer, and diffuse reflection is reduced, so that the anti-dazzle glass has higher transmittance and definition and better anti-dazzle performance, but the following defects exist to a certain extent.

When the anti-dazzle glass is used for a long time, the anti-dazzle glass is simple in structure, bright glare can be perceived after the anti-dazzle glass is used for a long time, discomfort and trouble are brought to indoor visual experience, a large amount of solar energy is wasted without installing a photovoltaic module, the anti-dazzle glass can block incidence of sunlight, available solar energy resources are wasted, the opportunity of photovoltaic power generation is missed, the energy waste can be caused, because the solar energy is an infinite renewable energy source, the dependence on the traditional energy source can be reduced by using the photovoltaic module, the energy cost is reduced, the solar energy can be converted into electric energy by installing the photovoltaic module on a roof, the household can be supplied with power, economic benefits are obtained, and the potential economic benefits cannot be enjoyed without installing the photovoltaic module.

Disclosure of utility model

The utility model provides roof anti-glare glass, which has the advantages of anti-glare and effective utilization of solar power generation, and aims to solve the problems of single function and low solar utilization rate of the anti-glare glass.

In order to achieve the purposes that the anti-dazzle glass has anti-dazzle effect and effectively utilizes solar power generation, the utility model provides the following technical scheme: the utility model provides a roof anti-dazzle glass, includes tempering outside glass, tempering outside glass's one end surface mounting has photovoltaic module, photovoltaic module's one end surface mounting has anti-dazzle inboard glass, anti-dazzle inboard glass internally mounted has conductive isolation component, conductive isolation component one end surface mounting has the preparation layer, preparation layer's one end surface mounting has anti-dazzle coating, anti-dazzle coating one end surface mounting has anti-reflection coating, anti-reflection coating's one end surface mounting has the polarizing film.

As a preferable embodiment of the present utility model, the antiglare inner glass is provided with a base layer, and a transparent conductive layer is mounted on one end surface of the base layer.

As a preferable technical scheme of the utility model, the conductive isolation component comprises a water ripple inner glass and an anti-dazzle glass cavity, wherein the anti-dazzle glass cavity is arranged in the anti-dazzle inner glass, and the water ripple inner glass is arranged at the inner wall of the anti-dazzle glass cavity.

As a preferred technical scheme of the utility model, the transparent conductive layer is made of tin oxide material, and the tin oxide has good transparency and conductivity.

As a preferable technical scheme of the utility model, the preparation layer is made of silicon dioxide material, and the silicon dioxide can form a uniform, flat and compact film on the surface of glass, so that the surface becomes smoother.

As a preferable technical scheme of the utility model, the anti-glare coating is made of titanium dioxide material, the titanium dioxide has higher refractive index, the anti-reflection coating is made of zirconium dioxide, and the zirconium dioxide has higher refractive index and can be matched with the refractive index of glass, so that reflection is reduced.

As a preferable technical scheme of the utility model, the polarizing film is made of polycarbonate, and the polycarbonate has excellent polarization performance, can effectively filter polarized light rays in different directions, provides clear visual effect, reduces reflection and refraction of light from different angles, reduces glare and reflection, and improves visual comfort.

Compared with the prior art, the utility model provides the roof anti-glare glass, which has the following beneficial effects:

1. According to the roof anti-glare glass, the anti-glare coating, the anti-reflection coating and the polarizing film are matched with each other, so that light reflection and refraction can be reduced or eliminated, and further, the glare phenomenon in vision is reduced, an observer can see objects more easily in a strong illumination environment, the vision comfort level and visibility are improved, loss and interference of sunlight caused by reflection are reduced, the accuracy and reliability of observation or detection are improved, the polarization state of light is effectively controlled, the purposes of polarization light splitting, optical modulation, optical filtering and the like are achieved, a more comfortable environment is created for a room, natural sunlight enters a room through the glass, warm and bright light is provided, and the irritation and fatigue to human eyes are reduced.

2. According to the roof anti-glare glass, the transparent conductive layer and the inner glass of the water ripple are matched with each other, the transparent conductive layer is required to have good conductivity, current generated in the photovoltaic module can be ensured to be smoothly transmitted in the transparent conductive layer, energy loss and efficiency reduction are prevented, the incidence angle of light is improved on the inner glass of the water ripple, sunlight can continuously pass through the transparent conductive layer to enter the photovoltaic module, the utilization efficiency of the light is improved, and the stability and long-term performance of the photovoltaic module are improved.

3. This roof anti-dazzle glass, through tempering outside glass and photovoltaic module mutually support, tempering outside glass can resist outside impact, wind pressure and other adverse environmental conditions's influence better, provides better photovoltaic module protection, and tempering outside glass has good light transmissivity, can see through sunlight effectively to guide it to photovoltaic module's active layer, tempering outside glass's surface reflectivity is lower, has reduced the reflection loss of light, improves photovoltaic module's energy utilization efficiency.

Drawings

FIG. 1 is a schematic view of the external structure of the present utility model;

FIG. 2 is a schematic diagram of the internal structure of the present utility model;

FIG. 3 is a schematic view of the internal structure of another view of the present utility model;

FIG. 4 is an enlarged schematic view of the structure of portion A in FIG. 3 according to the present utility model;

FIG. 5 is a schematic view showing the internal structure of the anti-glare inner glass of the present utility model.

In the figure: 1. tempering the outer glass; 2. a photovoltaic module; 3. anti-glare inner glass; 4. a base layer; 5. a transparent conductive layer; 6. water ripple inner glass; 7. preparing a layer; 8. an anti-glare coating; 9. an anti-reflective coating; 10. a polarizing film; 11. an antiglare glass chamber.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the utility model discloses a roof anti-glare glass, which comprises toughened outer glass 1, wherein a photovoltaic module 2 is installed on one end surface of the toughened outer glass 1, an anti-glare inner glass 3 is installed on one end surface of the photovoltaic module 2, a conductive isolation module is installed inside the anti-glare inner glass 3, a preparation layer 7 is installed on one end surface of the conductive isolation module, an anti-glare coating 8 is installed on one end surface of the preparation layer 7, an anti-reflection coating 9 is installed on one end surface of the anti-glare coating 8, a polarizing film 10 is installed on one end surface of the anti-reflection coating 9, the preparation layer 7 is made of silicon dioxide materials, the silicon dioxide can form uniform, flat and compact films on the glass surface, so that the surface becomes smoother, different coatings and films including the anti-glare coating 8, the anti-reflection coating 9 and the polarizing film 10 can be conveniently applied on the material surface of the preparation layer 7 through sputtering, evaporation, spin coating and the like, a more comfortable environment is created indoors, natural permeation glass can enter into a room, and bright light and fatigue to human eyes can be reduced.

The anti-glare inner glass 3 is provided with the substrate layer 4, one end surface of the substrate layer 4 is provided with the transparent conductive layer 5, when sunlight irradiates the toughened outer glass 1 directly, strong sunlight acts on the photovoltaic module 2 through the toughened outer glass 1, then irradiates the anti-glare inner glass 3 through the photovoltaic module 2, strong sunlight irradiates the transparent conductive layer 5 through the substrate layer 4, the transparent conductive layer 5 needs to have good conductivity, current generated in the photovoltaic module 2 can be transmitted in the transparent conductive layer 5 smoothly, energy loss and efficiency reduction are prevented, and sunlight irradiates the inner glass 6 in the water ripple.

The conductive isolation assembly comprises water ripple inner glass 6 and an anti-dazzle glass cavity 11, the anti-dazzle glass cavity 11 is formed in the anti-dazzle inner glass 3, the water ripple inner glass 6 is arranged at the inner wall of the anti-dazzle glass cavity 11, the special texture structure of the water ripple inner glass 6 can change the incidence angle of light, sunlight refracts in the surface of the water ripple inner glass 6 for many times, the incidence angle of light is improved, sunlight can continuously pass through the transparent conductive layer 5 to enter the photovoltaic assembly 2, the light utilization efficiency is improved, interaction between sunlight and a photoelectric conversion layer in the photovoltaic assembly 2 can be enhanced through increasing the passing path of the sunlight, the photoelectric conversion efficiency of the photovoltaic assembly 2 is improved, the texture structure of the water ripple inner glass 6 can homogenize the distribution of the light, local hot spot effect caused by over-strong light receiving in certain areas is avoided, and the stability and long-term performance of the photovoltaic assembly 2 are improved.

The transparent conductive layer 5 is made of tin oxide material, and the tin oxide has good transparency and conductivity, so that current generated in the photovoltaic module 2 can be smoothly transmitted in the transparent conductive layer 5, and energy loss and efficiency reduction are prevented.

The preparation layer 7 is made of a silicon dioxide material, a uniform, flat and compact film can be formed on the surface of the glass by the silicon dioxide, so that the surface becomes smoother, the preparation layer 7 is made of a silicon dioxide material, and a uniform, flat and compact film can be formed on the surface of the glass by the silicon dioxide, so that the surface becomes smoother.

The anti-glare coating 8 is made of titanium dioxide materials, the titanium dioxide has higher refractive index, the anti-reflection coating 9 is made of zirconium dioxide, the zirconium dioxide has higher refractive index and can be matched with the refractive index of glass, so that reflection is reduced, reflection and refraction of light can be reduced or eliminated by the anti-glare coating 8, and further, glare phenomena in vision are reduced, objects can be more easily seen by observers in strong illumination environments, visual comfort and visibility are improved, the anti-reflection coating 9 and the polarizing film 10 can be conveniently applied to the surface of the material of the preparation layer 7 through sputtering, evaporation, spin coating and the like, reflection and refraction of light can be reduced or eliminated by the anti-glare coating 8, further, glare phenomena in vision are reduced, objects can be more easily seen by observers in strong illumination environments, visual comfort and visibility are improved, reflection rate of light can be reduced by the anti-reflection coating 9, absorption and transmittance of too light are increased, loss and interference of sunlight caused by reflection are reduced, and accuracy and reliability of observation or detection are improved.

The polarizing film 10 is made of polycarbonate, and the polycarbonate has excellent polarization performance, can effectively filter polarized light rays in different directions, provides clear visual effects, reduces reflection and refraction of light rays from different angles, reduces glare and reflection, improves visual comfort, and can selectively transmit or block polarized light rays in a specific direction by the polarizing film 10, so that the polarization state of the light rays is effectively controlled, and the purposes of polarization splitting, optical modulation, optical filtration and the like are achieved.

The working principle and the using flow of the utility model are as follows: the toughened outer glass 1 is firstly arranged at the outermost side of a roof, the toughened outer glass 1 can better resist the influence of external impact, wind pressure and other severe environmental conditions, better protection of the photovoltaic module 2 is provided, the toughened outer glass 1 has good light transmittance, sunlight can be effectively transmitted and guided to an active layer of the photovoltaic module 2, the surface reflectivity of the toughened outer glass 1 is lower, the reflection loss of light is reduced, and the energy utilization efficiency of the photovoltaic module 2 is improved;

The anti-dazzle inner glass 3 is arranged on one end surface of the photovoltaic module 2, when sunlight irradiates the toughened outer glass 1 directly, strong sunlight irradiates the anti-dazzle inner glass 3 through the toughened outer glass 1 and then irradiates the photovoltaic module 2 through the photovoltaic module 2, strong sunlight irradiates the transparent conducting layer 5 through the substrate layer 4, the transparent conducting layer 5 needs to have good conductivity, current generated in the photovoltaic module 2 can be ensured to be smoothly transmitted in the transparent conducting layer 5, energy loss and efficiency reduction are prevented, sunlight irradiates the inner glass 6, the special texture structure of the inner glass 6 can change the incidence angle of light, so that sunlight is refracted in the inner glass 6 surface of the water ripple for multiple times, the incidence angle of light is improved, the sunlight can continuously penetrate the transparent conducting layer 5 and enter the photovoltaic module 2, the utilization efficiency of the light is increased, the interaction between the sunlight and the photoelectric conversion layer in the photovoltaic module 2 can be enhanced by increasing the passing path of the sunlight, the solar energy conversion efficiency of the photovoltaic module 2 is improved, the solar energy loss and the solar energy can be prevented from being reduced, the local solar energy can be prevented from being received by the texture structure of the inner glass 6, and the high-temperature solar energy can be prevented from being received by the photovoltaic module, and the high-temperature stability is improved, and the long-term light can be prevented from being influenced by the local light receiving the thermal effect;

Some solar light irradiates into the water ripple inner glass 6, one end surface of the water ripple inner glass 6 is coated with a preparation layer 7, the preparation layer 7 is made of silicon dioxide materials, the silicon dioxide can form a uniform, flat and compact film on the surface of the glass, the surface becomes smoother, the preparation layer 7 can apply different coatings and films on the surface of the optical materials, the anti-glare coating 8, the anti-reflection coating 9 and the polarizing film 10 are included, the anti-glare coating 8, the anti-reflection coating 9 and the polarizing film 10 can be conveniently applied on the surface of the preparation layer 7 through sputtering, evaporation, spin coating and the like, the anti-glare coating 8 can reduce or eliminate reflection and refraction of light, further, glare in vision is reduced, an observer can see objects more easily in a strong illumination environment, visual comfort and visibility are improved, the anti-reflection coating 9 can also reduce the reflectivity of light, the absorption and transmittance of too much light are increased, loss and interference of sunlight caused by reflection are reduced, the accuracy and reliability of observation or detection are improved, the polarizing film 10 can selectively penetrate or block specific directions, the light can be effectively controlled to enter a room, the polarization state is effectively controlled to the inside a room, the room is more bright, the light is more polarized, the purposes of the natural environment is achieved, the natural environment is more bright, the natural light is provided, and the natural environment is more stimulated, and the like.

It should be noted that in this document, terms such as "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a roof anti-dazzle glass, includes tempering outside glass (1), the one end surface mounting of tempering outside glass (1) has photovoltaic module (2), the one end surface mounting of photovoltaic module (2) has anti-dazzle inboard glass (3), its characterized in that: the anti-glare inner side glass (3) is internally provided with a conductive isolation component, one end surface of the conductive isolation component is provided with a preparation layer (7), one end surface of the preparation layer (7) is provided with an anti-glare coating (8), one end surface of the anti-glare coating (8) is provided with an anti-reflection coating (9), and one end surface of the anti-reflection coating (9) is provided with a polarizing film (10).

2. The roof anti-glare glass of claim 1, wherein: the anti-glare inner glass (3) is provided with a substrate layer (4), and one end surface of the substrate layer (4) is provided with a transparent conductive layer (5).

3. The roof anti-glare glass of claim 1, wherein: the conductive isolation assembly comprises a water ripple inner glass (6) and an anti-dazzle glass cavity (11), wherein the anti-dazzle glass cavity (11) is formed in the anti-dazzle inner glass (3), and the water ripple inner glass (6) is arranged at the inner wall of the anti-dazzle glass cavity (11).

4. The roof anti-glare glass of claim 2, wherein: the transparent conductive layer (5) is made of tin oxide material.

5. The roof anti-glare glass of claim 1, wherein: the preparation layer (7) is made of silicon dioxide material, and the silicon dioxide can form a uniform, flat and compact film on the surface of the glass, so that the surface becomes smoother.

6. The roof anti-glare glass of claim 1, wherein: the anti-glare coating (8) is made of titanium dioxide material, the titanium dioxide has a higher refractive index, the anti-reflection coating (9) is made of zirconium dioxide, and the zirconium dioxide has a higher refractive index and can be matched with the refractive index of glass, so that reflection is reduced.

7. The roof anti-glare glass of claim 1, wherein: the polarizing film (10) is made of polycarbonate, has excellent polarization performance, can effectively filter polarized light rays in different directions, provides clear visual effects, reduces reflection and refraction of light from different angles, reduces glare and reflection, and improves visual comfort.