RU45837U1 - TRANSPARENT SURFACE TONING SYSTEM - Google Patents

Abstract

A device for tinting transparent surfaces, containing a tinted transparent surface, tinting transparent layers in the form of a liquid crystal substance, is enclosed between two transparent protective surfaces containing activators - transparent conductive fibers connected through a control unit to a power source.

What is new in the claimed utility model is that a system for tinting transparent surfaces containing a tinted transparent surface, transparent protective layers, a tinting transparent layer, activators that change the optical properties of the tinting transparent layer, an activator control unit, a power source, is characterized in that it is made with the possibility of selective tinting with a given degree of all or part of the transparent surface in real time and contains activators made

in the form of sources of ultraviolet or infrared radiation, each of which is installed at the end of its sector of independent tinting, a transparent protective layer from ultraviolet or infrared radiation is sequentially applied to the tinted transparent surface, a transparent layer made of photochromic material with the possibility of changing the degree of dimming depending on the intensity of ultraviolet or infrared radiation, a fiber made in the form of a transparent layer with the possibility of spread manure of ultraviolet or infrared radiation on the adjacent surface of a transparent layer made of photochromic material, equipped with one or more adjacent transparent protective shields from ultraviolet or infrared radiation of activators that separate the light guide into sectors of independent tinting, a transparent protective layer from ultraviolet or infrared radiation, activator control unit made with the possibility of changing the intensity of ultraviolet or infrared radiation activator

the outputs of which are connected to the inputs of the activators, and the inputs to the outputs of the power source.

Description

The utility model relates to the field of tinting of transparent surfaces.

A device for tinting transparent surfaces, containing a tinted transparent surface, a tinting transparent layer in the form of a liquid crystal substance, enclosed between two transparent protective surfaces containing activators - transparent conductive fibers connected through a control unit to a power source, which is taken as a prototype (A.C. . Sonin. Introduction to the physics of liquid crystals. M., Higher School, 1983.).

The tinted transparent surface is tinted in the absence of orientation of the liquid crystals.

When protective protective surfaces of direct current pass through transparent conductive fibers, a magnetic field arises, which orientes the liquid crystals and changes the light absorption spectrum of the liquid crystal substance, and therefore the degree of toning of the transparent surface.

The disadvantages of the known device for tinting transparent surfaces are the unstable state of a liquid-crystalline substance when temperature, pressure and humidity change, as well as if foreign impurities enter it, which negatively affects the tinting quality of transparent surfaces, the inability to selectively tint all or part of the transparent surface on a scale real time. In addition, the known device for tinting transparent surfaces is a high-tech product, which is positioned in the highest price segment, i.e. has a high cost.

Solved utility model from the task of creating a system for tinting transparent surfaces with the possibility of selective tinting with a given degree of all or part of the transparent surface in real time, reducing its cost.

The problem is solved in that the system of tinting transparent surfaces containing tinted transparent surface, transparent protective layers, tinting transparent layer, activators that change the optical properties of the tinting transparent layer, control unit activators, power source,

characterized in that it is configured to selectively tint with a given degree of all or part of the transparent surface in real time and contains activators made in the form of ultraviolet or infrared radiation sources, each of which is installed at the end of its independent tinting sector, sequentially applied to the tinted transparent surface transparent protective layer against ultraviolet or infrared radiation, transparent layer made of photochromic material with the possibility of changing the degree of its darkening depending on the intensity of ultraviolet or infrared radiation, the fiber is made in the form of a transparent layer with the possibility of the propagation of ultraviolet or infrared radiation on the adjacent surface of the transparent layer made of photochromic material, equipped with one or more adjacent transparent protective shields from ultraviolet or infrared radiation, activators dividing the fiber into sectors of independent tinting, p ozrachny protective layer of ultraviolet or infrared radiation, the control unit activators configured to change

intensities of ultraviolet or infrared radiation of activators, the outputs of which are connected to the inputs of the activators, and the inputs - to the outputs of the power source.

The claimed utility model is new, as it is not known from the prior art.

The claimed utility model has an inventive step, since it does not explicitly follow from the prior art for a specialist.

The claimed utility model is industrially applicable, as it can be used for tinting transparent surfaces, such as automobile, window, door glass, etc.

Figure 1 shows a system for tinting transparent surfaces, figure 2 shows a General view of a fiber with one or more adjacent transparent protective shields from ultraviolet or infrared radiation activators.

The transparent surface tinting system comprises a tinted transparent surface 1, a transparent protective layer 2 from ultraviolet or infrared radiation successively applied to it, a transparent layer 3 made of

photochromic material with the possibility of changing the degree of its darkening depending on the intensity of ultraviolet or infrared radiation, the optical fiber 4, made in the form of a transparent layer with the ability to spread ultraviolet or infrared radiation on the adjacent surface of the photochromic material, equipped with one or more adjacent transparent protective screens 5 from ultraviolet or infrared radiation activators dividing the optical fiber 4 into sectors 6 of independent tinting, transparent the protective layer 2 from ultraviolet or infrared radiation, activators 7, made in the form of sources of ultraviolet or infrared radiation, each of which is installed at the end of its sector 6 independent tinting, control unit 8 activators 7, made with the possibility of changing the intensity of ultraviolet or infrared radiation of activators 7, the outputs of which are connected with the inputs of the activators 7, and the inputs are with the outputs of the power source 9. A transparent layer 3 of photochromic material can structurally be L is made in the form of a thin transparent film or in the form of a photochromic transparent coating.

The light guide 4 may be made in the form of a transparent film or coating. Its functions include the propagation of ultraviolet or infrared radiation on the adjacent surface of the transparent layer 3 made of photochromic material.

The system for tinting transparent surfaces works as follows.

When energizing the activators 7, the ultraviolet or infrared radiation propagates through the optical fiber 4. As a result, in the transparent layer 3 made of photochromic material, the photochromic material transitions to the photoinduced state, which is characterized by a different absorption spectrum, which causes darkening of the photochromic material.

Thus, tinting of the transparent surface 1, for example, the glass of a car, occurs.

Photochromic material, depending on the intensity of ultraviolet or infrared radiation, changes the degree of its dimming.

Transparent protective layers 2 from ultraviolet or infrared radiation are necessary to avoid false triggering of the tinting system of transparent surfaces from extraneous sources of ultraviolet or infrared radiation.

Thus, using a system for tinting transparent surfaces, it is possible to select different layers of the optical fiber 4 for ultraviolet or infrared irradiation, thereby choosing a region of tinting.

The claimed system for tinting transparent surfaces, in contrast to the known similar systems of the same purpose, enables selective tinting with a given degree of all or part of the transparent surface in real time, can significantly reduce the cost of the system and can be effectively used in the automotive industry, in construction and etc.

Claims (1)

A system for tinting transparent surfaces, comprising a tinted transparent surface, transparent protective layers, a tinting transparent layer, activators that change the optical properties of the tinting transparent layer, an activator control unit, a power source, characterized in that it is configured to selectively tint with a given degree of all or part transparent surface in real time and contains activators made in the form of sources of ultraviolet or infrared radiation, each the second of which is installed at the end of its independent tinting sector, a transparent protective layer from ultraviolet or infrared radiation, a transparent layer made of photochromic material with the possibility of changing the degree of dimming depending on the intensity of ultraviolet or infrared radiation, a fiber, made in the form of a transparent layer with the possibility of the distribution of ultraviolet or infrared radiation along the adjacent the surface of the transparent layer made of photochromic material, equipped with one or more adjacent transparent protective screens from ultraviolet or infrared radiation of activators, dividing the light guide into sectors of independent tinting, a transparent protective layer from ultraviolet or infrared radiation, an activator control unit configured to change the intensity of ultraviolet or infrared radiation of activators, the outputs of which are connected to the inputs of activators, and dy - with the outputs of the power source.