TWM435455U - Colored glass - Google Patents

Description

V. New description: [New technology field] The glass creation is made of (4)-glass, especially _-----[Previous technology] Pure-day social towel, the application of the product of Langzhi Outside the glass curtain wall and the window, the piece is electronically produced on a 0-port casing, lamp, table top or other decorative items. = Domain people often need to use color 2 glass for a variety of reasons. In order to make the glass produce color, there are several kinds of colored glass. When the M species is in the oxidized state or the reduced state of the glass, the glass is entangled/warmed by heat, and then added with appropriate metal oxidation: color development or reduction of color development. Another method is to pass the oxygen-containing ancient π into the silver nitrate or copper oxide containing about 400 ° C to release the lithium ions from the glass and absorb the silver to form a colored glass. However, the conventional colored glass: ίΐ'! The environment of high temperature, therefore, the conventional colored glass not only consumes this source but also increases the ambient temperature. [New content] There is a problem with the above-mentioned conventional skills. One of the objectives of this creation is that M435455 is now providing a colored glass to reduce energy consumption and energy conservation. For the above purposes, the colored glass according to the present invention includes at least a blasted glass substrate and a color chromogenic layer, and may even further comprise a transparent protective hard layer. Wherein, the glass substrate has at least a rough surface, so that the colored glass of the present invention can reduce the light reflectivity of the color developing layer, for example, by the rough surface. In detail, the colored glass of the present invention can be sandblasted on the surface of the glass substrate by sand, for example, so that the surface of the glass substrate becomes a rough surface. In other words, the inventive colored glass can strike the surface of the glass substrate by, for example, sand, so that the surface of the glass substrate forms an uneven surface. Among them, the sand material may be, for example, alumina, gold steel sand, glass beads, plastic grit blast, strontium carbide, strontium sand, strontium alumina, ceramic beads, steel boulder, steel balls, stainless steel or other suitable sand materials. Moreover, the material of the glass substrate may be, for example, cyan glass, white glass, strong glass or other suitable glass. Further, the color-developing color layer covers, for example, the rough surface of the glass substrate, so that the colored glass of the present invention displays the color of the color-developing layer. The material of the chromogenic layer of the colored glass of the present invention may be, for example, a colored metal, a colored metal oxide, a non-ferrous metal nitride or other suitable material. For example, the material of the color developing layer of the colored glass of the present invention can be, for example, copper, aluminum, silver, nickel, chromium, zirconium, titanium, copper oxide, aluminum oxide, silver oxide, nickel oxide, chromium oxide, or oxidized. , titanium oxide, aluminum nitride, chromium nitride, tantalum nitride, titanium nitride or other suitable materials. Moreover, the color of the chromogenic layer of the inventive colored glass can be, for example, orange, white or M435455. In addition, the thickness of the colored glass layer of the present invention may be, for example, between about 30 nanometers and 55 nanometers.

In addition, the protective hardened layer of the colored glass of the present invention covers, for example, the color developing layer, thereby protecting the color developing layer of the colored glass of the present invention. Further, in order to enhance the effect of protecting the color developing layer, the protective hardened layer may be, for example, a relatively strong protective hardened layer. Moreover, in order to see the color of the colored glass of the present invention in the direction of protecting the hardened layer, (4) the hardened phase is a transparent protective hardened layer. Therefore, the material f of the protective hardened layer may be, for example, yttrium oxide (Si〇x), alumina (Α10χ) or other suitable material. In addition, the thickness of the protective hardened layer of the inventive colored glass may be, for example, between about 10 nm and about 1000 nm. In addition, the chromogenic layer of the inventive colored glass can be, for example, by sputtering deposition, vapor deposition, or chemical deposition (Chemical Vap II).

DeP〇Siti〇n, CVD), Plasma Enhanced Chemical Vapor Deposition (PECVD) or coating method to cover the rough surface of the substrate. Moreover, the protective hardened layer of the inventive colored glass can also be used, for example, by sputtering deposition, vapor deposition, chemical deposition (CVD), plasma chemical vapor deposition (pEC VD) or coating. Covered on the chromogenic layer. As described above, the inventive colored glass may have one or more of the following advantages: (1) roughening the surface of the glass substrate by, for example, sandblasting, thereby reducing the coloring layer of the inventive colored glass. The light reflectivity, in turn, makes the color of the colored glass of this creation more precise. M435455, (2) replaces the high-temperature firing by, for example, deposition or coating, to reduce the cost and reduce energy consumption, thereby achieving the effect of energy saving and environmental protection. [Embodiment] Hereinafter, embodiments of the colored glass according to the present invention will be described with reference to the related drawings. For the sake of easy understanding, the same elements in the embodiments are denoted by the same reference numerals. Please refer to Fig. 1. The figure is a schematic cross-sectional view of the structure of the colored glass of the present invention. Fig. 2 is a schematic cross-sectional view of the substrate which has been roughened in the colored glass of the present invention. As shown in Figs. 1 to 2, the inventive colored glass 100 includes at least a sandblasted glass substrate 110 and a colored color developing layer 120, and may even further comprise a transparent protective hardened layer 130. Here, the glass substrate 11 has, for example, at least a rough surface in so that the inventive colored glass crucible (8) can be used to reduce the light reflectance of the color developing layer 120, for example, by the coarse wheel surface 111. Moreover, the material of the glass can be, for example, cyan glass, white glass, strong glass or: glass suitable for him. In detail, the rough surface U1 of the glass substrate 110 can be sandblasted, for example, on at least one surface of the glass substrate 110, whereby the surface after the blasting is roughened. For example, the blasting treatment can strike the surface of the glass substrate 11G by, for example, a sand material, whereby the surface of the glass substrate 110 has roughness. Among them, the sand material may be, for example, alumina, gold steel sand, glass beads, plastic sandblasted grain, tantalum carbide, sand, M435455 zirconium aluminum sand, ceramic beads, steel gravel, steel balls, stainless steel or other suitable sand materials. Further, the average surface roughness (Ra) of the coarse tread lu of the blasted glass substrate 110 may be, for example, between about 0.7 micrometers (μm) and about 45 micrometers, preferably about 0.8 micrometers to about 3 micrometers. More preferably, it is between about 0.9 microns and about 2 microns. Further, the glass substrate 11 () of the colored glass of the present invention has a color developing layer 120 thereon. Wherein the color developing layer 12 is located on the rough surface 111 of the glass substrate u, and the color developing layer 12 is colored, so that the colored glass 100 of the present invention displays the color of the color developing layer 120. The color of the color developing layer 120 may be, for example, the color of the material of the color developing layer 12〇. Further, the color developing layer 120 may, for example, completely cover the rough surface ill of the glass substrate 11A. Moreover, the chromogenic layer 12 of the inventive colored glass 100 can be, for example, by sputtering deposition, vapor deposition, chemical vapor deposition (CVD), plasma chemical vapor deposition (Plasma enhanced Chemical). Vapor Depositi〇n, pECVD) or coating method is formed on the rough surface lu of the glass substrate 11〇. In addition, the thickness of the color developing layer 120 may be, for example, between about 3 nanometers (nm) and about 5,500 nanometers, and preferably the thickness may be, for example, between about 1 nanometer and about 2000 nanometers. Preferably, the thickness can be between about 35 nanometers and about 1500 nanometers. In addition, the material of the color developing layer 120 can be, for example, copper, aluminum, silver, nickel, chromium, tantalum, titanium, copper oxide, Alumina, silver oxide, nickel oxide, chromium oxide, cerium oxide, titanium oxide, aluminum nitride, nitrided nitride, nitrided titanium or other suitable material f' makes the colored glass (10) of this creation different color development The material of layer 12G, in order to display different colors. Among other suitable materials include non-ferrous metals, 7 M435455 color metal oxides, non-ferrous metal nitrides or other materials. For example, when the material of the color developing layer 120 is copper or an orange color material, the color of the colored glass 100 of the present invention is orange. In addition, when the material of the color developing layer is made of inscription, silver or white, the color of the colored glass 100 of the present invention is white. Therefore, one of the characteristics of the colored glass 100 of the present invention is that the light reflectance of the color developing layer 12 is lowered by the rough surface m of the glass substrate 11, thereby making the color of the colored glass 100 of the present invention more precise. In order to confirm that the colored glass 100 of the present invention can be reduced by the rough surface 111 of the glass substrate 110, thereby reducing the light reflectance of the color developing layer 12, the applicant has further proposed experimental data to prove its effect. Please refer to Figure 4 below. Figure 4 is the light reflectance of the color-developing layer of the created glass. As shown in Fig. 1 and Fig. 4, taking the silver (Ag) of the color developing layer 12 as an example, when the glass substrate 11 of the colored glass is not sandblasted, the color developing layer 120 is formed on the glass. In the case where the substrate 11 (), in other words, the surface of the glass substrate of the colored glass is relatively smooth, the average reflectance of the color developing layer 120 is about 94.84%. When the glass substrate 110 of the colored glass is sandblasted, the color developing layer 12 is formed on the glass substrate 110. In other words, the glass substrate 11 is a glass substrate of the original colored glass 100 having a rough surface ill. 11〇. In this case, the average reflectance of the color developing layer 120 is about 72 59%. Therefore, the colored glass of the present invention can surely reduce the light reflectance of the color developing layer 120 by the rough surface 111' of the glass substrate 11. M435455 In addition, as shown in Fig. 1, the colored glass of the present invention is protected, and the hardened layer 13 () is placed on the color developing layer 12G to protect the color developing layer 12A. In other words, the protective hardened layer 130 may, for example, be entirely covered by the color-developing layer 12's to protect all of the color-developing layer 12() from the atmosphere or its environment from occurring. Alternatively, it may be covered only on the = chromogenic layer 12G, for example, according to the actual situation. In addition, the protective hardened layer 13 () may be formed by, for example, a galvanic deposition method, a deposition method, a chemical deposition method (cg = gas binocular ECVD) or a coating method to form water two: in addition to protecting the hard (four) 13 〇 It is used to protect the color of the sound. Therefore, in order to enhance the effect of protection, protect the hard: == sturdy material. Further, it is also possible to see the colored glass layer of the present creation from the direction of the guarantee layer 130. It can be, for example, a transparent layer. Therefore =, : quality can be: oxygen ~), oxygen -

Further, X may be, for example, two. In addition, the alumina (Α10χ) may, for example, be a rational AX, for example, an integer ' and x may also be, for example, 3; and 2, the thick layer of the layer 130 is 声 濩 濩 ^ ^ - ^ ν ^ Between 10 nanometers and about 1000 liters, and preferably the thickness of the protective hardened layer 13G can be between about 500 nanometers, and more preferably, ',,,,,,,,,,,,,,, From nanometer to about 11 nanometers. "The thickness of 30 can be made, the color of the glass of this creation is the other one - the colored glass of the creation is 100 y;, because of the color layer 120 and the protective hardened layer The material 455 is formed on the rough layer=111 of the substrate 110 and the color developing layer 12, for example, by a deposition method. Since the deposition method is, for example, sputtering, the brewing degree is between about 40 degrees Celsius and about 11 degrees Celsius, and the conventional high temperature firing temperature is about 400 degrees Celsius or more, the colored glass 100 of the present invention does not need to be burnt at a high temperature. The treatment of the system, thereby reducing energy consumption to save energy and environmental protection. , please continue (4) 3 ®, 3 is the process flow chart of the created colored glass. As shown in the third and third figures, the process of the inventive colored glass 1GG first proceeds to step 21 (). The substrate is provided, wherein the substrate can be, for example, a glass plate 11G, and the material of the glass substrate UG can be, for example, cyan glass, white glass, strong glass or other suitable glass. = 'The roughening step 22 is performed to thicken the glass substrate to the surface = to make the surface rough® (1), thereby reducing the light reflectance of the color developed. Wherein, the roughening step can be performed, for example, by cutting the glass UG, and roughening the glass substrate by the peak. The sandblasting treatment can be performed on the surface of the glass plate 110 by sand, for example, to obtain the coarse-rounded glass substrate. The purpose of t face. The sand material may be, for example, alumina, gold steel sand, glass beads, sandblasted grain, carbon cut, #砂, pure sand, ceramic beads, steel gravel, steel ball, stainless steel or other suitable sand material. twenty three. Γ too = in the first formation step 23 〇. In this first-forming step, the process of HI I dichroic glass 1〇0 is formed on the rough surface 111 of the color CL:glass substrate, so that the colored glass 100 of the present invention displays the colors of the color-developing colors 20. The first forming step 230 may be performed, for example, by the Sunzun household 120 in any of the deposition methods, thereby forming the color developing layer 120 on the rough surface ι of the glass substrate 11 . The method can be, for example, a sputtering deposition method, a sputum chemical vapor deposition method or a coating method, a chemical deposition method, an electric current such as copper, a heart=this: the material of the color developing layer 120 such as Bu Luming ', wrong, titanium, copper oxide, gasification Ming: Γ: chrome oxide, oxidation fault, titanium oxide, tantalum # color # 120 ^ ^ ° °, 11 titanium or other suitable material f. Moreover, the thickness of the crucible 120 can be, for example, between about 30 nanometers and about 55 millimeters of rice, and more preferably between about 2,000 nanometers. The second formation step 240 is selectively performed to form a protective hardening sound to protect the color developing layer 120 on the atmosphere layer 120, for example, from about 350 nm to about nanometer. Borrowing phenomenon or chemical change phenomenon. Oxygen is not generated, for example, by any deposition method, in the first forming step 240 on the layer 120. Moreover, the protective hardened layer is formed by a chromogenic ore deposit method, a chemical deposition method,贱plating deposition method, steaming property 'strengthen the function of strengthening protection. Also quality: Example = for the hardened hardened layer (10) direction, the material of the protective hard layer 130 can be seen as a color. Therefore, Bao (Al〇 x) or other suitable material. For the emulsified stone (10) X), alumina, the thick layer of the protective hardened layer 130, X may be, for example, a rational number. The degree of, for example, about 10 nm to about 1000 to produce orange For example, in the case of the colored glass, the surface of the glass substrate 110, 4 is first subjected to (four) sand treatment. For the glass substrate 110^, 隹u丄, and straw, the surface of the glass substrate 110 is roughened: a glass substrate 11〇PD lL is formed. Rough surface Ul, and X can be, for example, 3/2, that is, the sand material For example, a trioxide of aluminum lice n (eight Shu 2〇3). Wherein, rough 3

袓^^ The crude sugar team) is, for example, 〇.9 μm (,). Further, the rough surface 111 can, for example, lower the light reflectance of the color developing layer 12A. The + color is formed on the rough surface U1 by, for example, sputtering deposition to form a color developing layer 120 of a material such as copper. Wherein, the deposition temperature is, for example, between about 40 degrees Celsius and about 110 degrees Celsius, and the deposition time is, for example, between about 3 minutes and 2 minutes, and the deposition pressure is, for example, about 1 microtorr (mtorr) to 10 microtorr. between. In addition, the color layer! The thickness can be, for example, between about 30 nanometers and about 55 nanometers. Finally, a protective hardened layer 130 is formed on the color layer 1 by, for example, sputtering deposition. The protective hardened layer 130 may be, for example, a transparent hardened layer. Further, the material of the protective hardened layer 13 can be, for example, yttrium oxide (Si〇x) or aluminum oxide (A10x). Moreover, the thickness of the protective hardened layer 13 can be, for example, between about 10 nm and about 1000 nm. Therefore, the colored glass 00 is displayed, for example, in an orange color, regardless of whether the colored glass 100 is viewed from the direction of the glass substrate 11 or from the direction of the protective hardened layer 130. Therefore, the colored glass 100 is an orange glass. 12 M435455 In summary, the colored glass (10) of the present invention is reduced by, for example, by spraying the surface of the glass substrate of the coarsely saccharified glass substrate, thereby reducing the light reflectance of the coloring layer m of the glass of the present invention, thereby making the original glass = colored glass H) The color of 0 is more precise. In addition, the glass of the creation, for example, replaces the high-temperature firing by means of deposition to reduce costs and reduce energy consumption, thereby achieving energy saving and environmental protection. The above is intended to be illustrative only and not limiting. Ren, the spirit of this creation and Fan Ming, and equivalent modifications or changes to it, should be included in the scope of the patent application attached. [Simple description of the drawing] Figure 1 is a schematic cross-sectional view of the structure of the colored glass. Fig. 2 is a schematic cross-sectional view of a substrate subjected to rough saccharification in the colored glass of the present invention. Figure 3 is a flow chart of the process for creating colored glass. Fig. 4 is a schematic view of the light reflectance of the color-developing layer of the colored glass of the present invention. [Description of main component symbols] 10G I colored glass 110: glass substrate m: rough surface 13 M435455 120: color developing layer 130: protective hardening layer 210: providing substrate 220: roughening step 230: performing first forming step 240: performing Second forming step 14

Claims (1)

Muscle cut 455 /, patent application scope: ^ A colored glass, comprising at least: - a sandblasted glass substrate having at least a rough surface, the colored glass by the rough surface to reduce light reflectivity; A color developing layer having a color covering the rough surface of the glass substrate, the colored glass showing the color of the color developing layer. 2. The colored glass of claim i, further comprising a transparent protective harden layer overlying the color developing layer, the protective hardened layer being used to protect the color developing layer. 3. The colored glass of claim 2, wherein the protective hardened layer has a thickness of between 10 nm and 1 nm. 4. The colored glass according to claim 2, wherein the protective hardened layer is made of yttrium oxide (Si〇x) or alumina (Α1〇χ). 5. The colored glass of claim i, wherein the color developing layer has a thickness of between 30 nm and 5,500 nm. 6. The colored glass of claim </ RTI> wherein the coloring layer is made of a ferrous metal. 7. The colored glass according to claim 1, wherein the coloring layer is made of copper, aluminum, silver, nickel, chromium, niobium, titanium, copper oxide, aluminum oxide, silver oxide or nickel oxide. , chromium oxide, cerium oxide, titanium oxide, aluminum nitride, chromium nitride, nitrogen nitride or titanium nitride. The colored glass according to claim 1, wherein the material of the color layer is a colored metal oxide or a non-ferrous metal nitride. 9. The colored glass of claim 3, wherein the color of the color layer is orange. The colored glass of claim 1, wherein the color of the color developing layer is white.