KR200236137Y1 - A natural glass using photochromism principle - Google Patents

Abstract

The present invention relates to a nature-friendly glass using a photochromism principle, more specifically, extrusion processing by adding a photochromic material having a variety of colors by the intensity of light to the main component of the glass when processing the glass It relates to a nature-friendly glass using the photochromism principle to produce a glass.

The purpose of the present invention is to selectively mix the photochromic material that can give a variety of color changes by the external light to the glass composition, so that the reflectance and color of the external light can be changed depending on the concentration of the material, as well as selective The present invention provides a glass in which a multifunctional photochromic material can be absorbed and mixed with a photochromic material in a glass composition by uniformly mixing a surfactant and forming a anti-fogging film by extrusion molding.

The structure of the present invention for achieving the above object is, in the glass produced by adding a variety of materials having a color to the glass composition, wherein the material is composed of a photochromic material actively showing the color by the intensity of light It is characterized by.

Description

A natural glass using photochromism principle

The present invention relates to a nature-friendly glass using a photochromism principle, more specifically, extrusion processing by adding a photochromic material having a variety of colors by the intensity of light to the main component of the glass when processing the glass It relates to a nature-friendly glass using the photochromism principle to produce a glass.

In general, glass is manufactured using SiO ₂ as a main raw material, and is used for various uses such as window glass, plate glass, and bottle glass because of its transparency, excellent light transmittance, and low thermal conductivity.

The structure of the glass is not as well known as most metals, it has a unique state and is called a glass phase, and is defined as a 'melt product that is cooled to a hard state without crystallization'.

Meanwhile, glass is generally manufactured through raw material preparation → weighing → batch mixing → molding → slow cooling → inspection and quality control → secondary process → inspection → packaging. Special processes may be added, such as strengthening, laminating, cladding, sand blasting, etching, metalling, and the like.

In addition, the glass can be made of glass of different colors by adding different colorants to the batch.

For example, most metal oxides dissolve in glass to form colored transparent glass, and sulfur and selenium components appear colloidally in the glass, giving transparency to the glass, and opal glass gives fine fluorine to the glass. It is formed by having a crystalline content of the compound.

However, conventional glass is endowed with only the intrinsic properties and effects of the glass and no other beneficial properties.

In addition, various colors are added to the blocking of ultraviolet rays and selectively absorbing light, or used as a coating film, but it does not meet expectations.

In addition, automotive glass, glasses and the like made of a glass component had a problem of blurring the field of view by passing external strong light as it is.

The present invention has been made to solve the above problems, the object of the present invention is to selectively mix a photochromic material that can give a variety of color changes by the external light to the glass composition, the concentration of the material According to the present invention, it is possible to vary the reflectance and color of external light, and to selectively absorb light, and to form an anti-fogging film by uniformly mixing a photochromic material with a surfactant in a glass composition and forming an anti-fog film. It is to provide a glass mixed with chromic material.

The structure of the present invention for achieving the above object is, in the glass produced by adding a variety of materials having a color to the glass composition, wherein the material is composed of a photochromic material actively showing the color by the intensity of light It is characterized by.

1 is a manufacturing process of the present invention,

Figure 2 is a perspective view showing the structure of the glass according to the present invention,

3 is a perspective view showing another embodiment according to the present invention.

<Description of Symbols for Major Parts of Drawings>

10 glass plate 20 protochromic material

30: coating film

Hereinafter, with reference to the accompanying drawings will be described in detail a nature-friendly glass using photochromism (photochromism) according to the present invention.

1 is a manufacturing process of the present invention, Figure 2 is a perspective view showing the structure of the glass according to the present invention, Figure 3 is a perspective view showing another embodiment according to the present invention.

As shown in the drawing, the process of manufacturing the glass to which the photochromic material is added includes preparing a raw material for preparing a glass raw material powder, and mixing the photochromic material whose color is actively changed by light to the glass raw material. Process, a melting process in which the glass raw material mixed with the photochromic material is put into a furnace and heated to a high temperature, and pressing / molding pressurized at a high pressure to make the molten mixture material into a predetermined shape. The glass according to the present invention is manufactured through a process and a process of cutting and inspecting the pressurized / molded glass to the desired dimensions as described above.

Here, the process of manufacturing the glass is the same as the method of manufacturing a conventional glass, in the present invention instead of a general method of producing a colored glass by adding a colorant to the glass raw material, in the present invention a photochromic material It is characterized by producing a glass having a variety of color variations by the addition.

In addition, as another embodiment of the present invention, as shown in FIG. 3, a coating film made of a photochromic material may be formed on a glass plate without adding the photochromic material to the glass raw material.

Here, the chromic material refers to a material that is actively colored by an external stimulus, and is largely classified into electrochromism and photochromism according to the stimulus source.

The electrochromism refers to a phenomenon in which the color is reversibly changed by the electrochemical oxidation / reduction reaction, and the photochromism refers to a phenomenon in which the color is reversibly changed according to the light intensity.

Here, the photochromic material actively displays color depending on the external light, i.e., the light intensity, but in the case of the electrochromic material, the photochromic material detects the external light and converts it into a stimulus source required by the electrochromic material, that is, a current And further devices that can be adjusted.

That is, the photochromic material is reversibly changed in color by sunlight, and may exhibit various colors depending on the intensity of light. Will be.

The photochromic material is not particularly limited, and specific examples of the inorganic compound include silver halide, Hg 3 S 2 I 2, ZnS, and the like, and various hydrazone compounds, osazone, Fulgide, stilbene, salicylaldehyde and the like.

In addition, various new photochromic compounds are being researched in addition to the photochromic materials, and examples thereof include photochromic compounds of spiroxazine derivatives.

Referring to the operation of the glass according to the present invention to which the photochromic material is added as described above, first, it is possible to vary the reflectance and color of the external light according to the concentration of the added photochromic material.

In addition, the use of a conductive chromic material as a chromic material provides an antistatic effect, and the use of a high hardness chromic material provides a scratch resistance effect, and the photochromic material interface with the glass composition. The active agent may be uniformly mixed and extruded to block ultraviolet rays and to form an antifogging film.

That is, by selectively adding to the glass composition according to the type and concentration of the photochromic material can be produced a glass having a variety of effects.

As described above, according to the present invention, by selectively adding a photochromic material capable of imparting a variety of color changes to the glass composition by external light, the reflectance and color of the external light are different depending on the concentration of the material. It is possible to prevent the blurring of the view by passing the strong external light as it is, there is an advantage that can create a variety of indoor environment according to the diversification of color.

In addition, by applying a hardened protochromic material in the photochromic material, a scratch resistance and the like can be obtained, and the antifogging film can be formed by uniformly mixing and extruding the photochromic material and the surfactant in the glass composition. Can be given a variety of effects depending on the material used in the coating film.

Claims (1)

In the glass manufactured by adding various materials having a color to the glass composition, the material is a nature-friendly type using the photochromism principle, characterized in that the material is composed of a photochromic material actively showing the color by the light intensity Glass.