TH24148B - Blue glass mixture that absorbs infrared and ultraviolet rays. - Google Patents

Abstract

DC60 This invention gave the glass a blue color. Using glass base mixtures Soda-Lime-Silica Standard And contains more iron and cobalt And may choose to have chromium It is a material that absorbs solar radiation and pigments, especially glass with a blue tint, approximately 0.40 to 1.0% by weight, total iron should be approximately 0.50 to 0.75% by weight, approximately 4 to 40 PPM CoO, which should be used approximately 4. To 20 PPM and 0 to 100 PPM Cr2O3, the ORP ratio for the glass of this invention is greater than 0.35 to approximately 0.60 and which should be used between approximately 0.36 to 0.50. In one particular aspect of the invention, the glass has a strong light transmission. At least 55% and color is characterized by a main wavelength of 485 to 489 nm and an exittion purity of approximately 3 to 18%. Glass has a light transmission. At least 65% at a thickness of approximately 0.154 in. (3.9 mm) and a characteristic color with a 485 to 492 nm primary wavelength and about 3 to 18% extraction purity. Give a mirror with a blue tint Using glass base mixtures Soda-Lime-Silica Standard And contains more iron and cobalt And may choose to have chromium It is an absorbent material from the sun and radiation, especially blue glass, approximately 0.40 to 1.0% total iron weight approximately 0.50 to 0.75% by weight approximately 4 to 40 PPM CoO, approximately 4 to 40 PPM CoO, approximately 4. To 20 PPM. And 0 to 100 PPM. Cr2O3, the redox ratio for glass of this fabrication is greater than 0.35 to approximately 0.60 and which should be used between approximately 0.36 to 0.50. In one particular aspect of glass fabrication, there is a light transmission. At least 55% and color are characterized by a main wavelength of 485 to 489 nm and an exittion purity of approximately 3 to 18%. Glass has a light transmission. At least 65% at a thickness of approximately 0.154 in. (3.9 mm.) And a characteristic color with a 485 to 492 nm primary wavelength and an exitstion purity of approximately 3 to 18%.

Claims (9)

1. Glass mixture that absorbs infrared and ultraviolet rays, has a blue color. With the proportion of Basic glass comprising approximately 66 to 75 percent SiO2 with approx. 10 to 20 percent Na2O weight, 5 to 15 percent CaO, with MgO 0 to approximately 5 percent by AI2O3 0 to approximately 5 percent by weight K2O 0 to approx. 5 percent by weight And the part of absorbing solar radiation and giving color It consists primarily of approximately 0.40 to 1.0 percent total iron with approx. 4 to 40 PPM of CoO weight. Cr2O3 0 to approx. 100 PPM. Glass with redox greater than 0.35 up to approximately 0.60. At least 55 percent, and the color is characterized by a 485 to 489nm primary wavelength and a purity of Exposure is about 3 to 18 percent, and where the glass is transmitted by solar radiation. Total ultraviolet, about 60 percent or less, the transmission of infrared solar radiation. About 35 percent or less of all, and about 55 percent or less of total solar transmission. 2. Mixture according to claim 1, where the total iron concentration is from approximately 0.50 to 0.75 percent weight and redox is from approximately 0.36 to 0.50 3. Mixture according to Clause 1. The second, where the CoO concentration is from approximately 4 to 20 PPM. 4. Mixture according to claim 3, in which the color of the glass has a characteristic with the main wavelength. It is in the range of approximately 487 to 489 nm, and the extraction purity is approximately 3 to 8 percent at one or more thicknesses. It ranges from approximately 0.071 to 0.126 in. Exposure purity is approximately 5 to 12 percent at one or more thicknesses. They range from approximately 0.126 to 0.189 in. And about 10 to 18 percent excretion purity at one or more thicknesses. They range from approximately 0.189 to 0.315 inches. 5. Mixture according to claim 4, in which glass has a light transmittance of approximately 70 percent or more. 6. Mixture according to claim 4, which glass thickness is approximately 70 percent or more. Approximately 0.023 inches has approximately 55 to 70 percent total solar radiation transmission and a shadow coefficient of approximately 0.70 or less 7. Mixture according to claim 1, where the Co0 concentration is from approximately 4 to 20 PPM. 8. A glass compound that absorbs infrared and ultraviolet rays that are blue in color. With a portion of the glass Basis comprising approximately 66 to 75 percent SiO2, with approximately 10 to 20 percent Na2O weight, with approximately 5 to 15 percent CaO, with MgO 0 to approximately 5 percent by AI2O3 0 to approximately 5 percent by weight K2O3 0 to approximately 5. Percentage by weight And the part of absorbing solar radiation and giving color It consists primarily of approximately 0.40 to 1.0 percent total iron, with a CoO weight of approximately 4 to 40 PPM. Cr2O3 concentration is from approximately 25 to approximately 100 PPM. Glass with ORD of greater than 0.35 to approximately 0.60, transmittance. It is characterized by at least 55 percent of light and color with a main wavelength of 485 to 489 nm and about 3 to 18 percent of exposition purity, and where the glass has radiation transmission. The total ultraviolet sun is about 60 percent or less, the transmission of solar radiation. Total infrared is about 35 percent or less and total solar energy transmission is about 55 percent or less. The thickness is approximately 0.154 inches 9. Mixture according to claim 1, in which glass has a light transmittance of approximately 70 percent or more than 1 0. Mixture according to claim No. 9, where glass thickness is approximately 0.154. Fingers transmit approximately 57 percent or less of total ultraviolet rays, transmission of radiation. The total infrared sun is about 30 percent or less, and the power transmission of the sun All about 50 percent or less. 1. Mixture according to claim 1, in which glass with a thickness of approximately 0.223 inches is transmitted Of the sun's rays, approximately 55 to about 70 percent And the shadow coefficient is approximately 0.70 or less. 2. Mixture according to claim No. 11 The glass, which is approximately 0.223 inches thick, has about 63 to 67 percent total solar transmittance and a shadow coefficient of approximately 0.65 or less. 3. Mixture according to claim 1, in which a characteristic glass color with a primary wavelength in the range approximately 487 to 489 nm 1 4. Mixture according to claim 1, in which the color of the glass is characterized by the purity of Exposure is approximately 3 to 8 percent at one or more thicknesses. It ranges from approximately 0.071 to 0.126 in. Exposure purity is approximately 5 to 12 percent at one or more thicknesses. Ranged from approximately 0.126 to 0.189 inches, and the purity of Exposure is approximately 10 to 18 percent at one or more thicknesses. It ranges from approximately 0.189 to 0.315 inches. 5. Glass plates made by the floating process From glass mixtures according to claim 1 1 6.A windproof windshield made of at least a type of glass in claim No. 15 1. 7. Glass plate according to claim 15, which is between 1.8 and 10 mm thick 1 8. Glass mixture that absorbs infrared and ultraviolet rays of blue color. With a portion of the glass The basics consisted of approximately 66 to 75 percent SiO2 with approximately 10 to 20 percent Na20 weight, 5 to 15 percent CaO with approximately 5 percent MgO weight 0 to approximately 5 percent AI2O3 0 to approximately 5 percent by weight K2O 0 to approximately 5. Percentage by weight And the solar absorption fraction and the primary color composite with total iron, approximately 0.40 to 1.0 percent with CoO weight approximately 4 to 40 PPM SnO2 0 to approximately 2.0 percent with CeO2 0 to approximately 1.0 percent by weight TiO2 0 to Approx. 0.5 percent by weight ZnO 0 to approximately 0.5 percent by weight Nd2O3 0 to approximately 0.5 percent by weight MnO2 0 to approximately 0.1 percent by weight MoO3 0 to approximately 100 PPM CrO3 0 to approximately 100 PPM. V2O5 0 to approximately 400 PPM. NiO 0 to approx. 10 PPM Se 0 to approx. 3 PPM Glass with ORD of more than 0.35 up to approximately 0.60, at least 55% light transmittance, and color characteristic with a main wavelength of 485 to 489 nm. And the expository purity is about 3 to 18 percent, and where the glass is transmissible. The total ultraviolet sun is about 60 percent or less, the transmission of solar radiation. Total infrared is approximately 35 percent or less and total solar energy transmission approximately 55 percent or less at approximately 0.154 inches thick 1 9. Mixture according to claim 18, where glass color has a characteristic with the main wavelength. They are in the range of approximately 487 to 489 nm, and the exothermic purity is approximately 3 to 8 percent. One or more thickness values. The extraction purity ranges from approximately 0.071 to 0.126 inches, and the extraction purity of approximately 5 to 12 percent at the thickness of one or more values ranges from approximately 0.126 to 0.189 inches, and the extraction purity. 10 to 18 percent steep At one or more thicknesses They range from approximately 0.189 to 0.315 in. 2 0. Glass mixture that absorbs infrared and ultraviolet rays that are blue. With a portion of the glass Baseline comprising approximately 66 to 75 percent SiO2, with approximately 10 to 20 percent Na2O weight, with approximately 5 to 15 percent CaO, with MgO 0 to approximately 5 percent by AI2O3 0 to approximately 5 percent by weight K2O 0 to approximately 5. Percentage by weight And the part of absorbing solar radiation and giving color Assembled primarily with approximately 0.40 to 1.0 percent total iron, with a CoO weight of approximately 4 to 40 PPM. Cr2O3 0 to approximately 100 PPM. Glass with ORDs greater than 0.35 up to approximately 0.60, the light transmittance at least. 65 percent at a thickness of about 0.154 in and color is characterized by a 485 to 492 nm main wavelength and about 3 to 18 percent excretion purity, and where the glass The transmission of all ultraviolet rays is approximately 60 percent or less, the total transmission of infrared rays is approximately 35 percent or less, and the transmission is approximately 60 percent or less. Total solar energy is approximately 55 percent or less at approximately 0.154 inches thick 2 1. Mixture according to claim 20, where the total iron concentration is from approximately 0.50 to 0.75 percent by weight. The CoO concentration is from approximately 4 to 20 PPM and ORP is from approximately 0.36 to 0.50, and the glass color is characterized by the primary wavelength. It is in the range of approximately 487 to 489 nm, and an exitation purity of approximately 3 to 8 percent at one or more thicknesses. The exitstion purity ranges from approximately 0.071 to 0.126 inches, about 5 to 12 percent excretion purity, one or more thickness values range from approximately 0.126 to 0.189 inches. Percentage at one or more thicknesses. They range from approximately 0.189 to 0.315 inches. 2. Glass mixture that absorbs infrared and ultraviolet rays that are blue in color. With a portion of the glass Baseline comprising approximately 66 to 75 percent SiO2, with approximately 10 to 20 percent Na2O weight, with approximately 5 to 15 percent CaO, with MgO 0 to approximately 5 percent by AI2O3 0 to approximately 5 percent by weight K2O 0 to approximately 5. Percentage by weight And the solar absorption portion and the primary color composite with total iron, approximately 0.40 to 1.0 percent with CoO weight approximately 4 to 40 PPM. SnO2 0 to approximately 2.0 percent by weight CeO2 0 to approximately 1.0 percent by weight TiO2 0. Approximately 0.5 percent by weight ZnO 0 to approximately 0.5 percent by weight Nd2O3 0 to approximately 0.5 percent by weight MnO2 0 to approximately 0.1 percent by weight MoO3 0 to approximately 100 PPM. CrO3 0 to approximately 100 PPM. V2O5 0 to approximately 400 PPM. . NiO 0 to approx. 10 PPM Se 0 to approx. 3 PPM. Glass with ORD of more than 0.35 to approx. 0.60, at least 65 percent light transmittance, with a thickness of approximately 0.154 in. Only with a main wavelength of 485 to 492 nm and an exitation purity of about 3 to 18 percent, where the glass has The total transmission of ultraviolet rays is approximately 60 percent or less, the total transmission of infrared rays is approximately 35 percent or less, and energy transmission. Approximately 55 percent or less of the total sun at about 0.154 inches thick 2 3. Mixture according to claim 22, where the glass color has a characteristic with the main wavelength. It is in the range of approximately 487 to 489 nm and an exitation purity of approximately 3 to 8 percent at one or more thicknesses. The exitstion purity ranges from approximately 0.071 to 0.126 in. 5 to 12 percent of the extraction purity, the thickness of one or more values, ranges from approximately 0.126 to 0.189 in. 10 to 18 percent at one or more thicknesses They range from approximately 0.189 to 0.315 inches. 2. 4. Glass mixture that absorbs infrared and ultraviolet rays that are blue. With a portion of the glass The basics consisted of approximately 66 to 75 percent SiO2 with approximately 10 to 20 percent Na20 weight, 5 to 15 percent CaO with approximately 5 percent MgO weight 0 to approximately 5 percent AI2O3 0 to approximately 5 percent by weight K2O 0 to approximately 5. Percentage by weight And the solar radiation absorption portion and the primary color composite with total iron, approximately 0.50 to 0.60% by weight of approximately 4 to 12 PPM of CoO, CrO3 0 to approximately 100 PPM TiO2 0 to approximately 0.50% by weight. Glass with approximately 0.45 to 0.50 redox, a minimum light transmittance of 70 percent at approximately 0.154 in thickness, and color is characterized by a 487 to 489 nm primary wavelength and excretory purity. About 7 to 10 percent steep, and where the glass The transmission of all ultraviolet rays is approximately 60 percent or less, the total transmission of infrared rays is approximately 35 percent or less, and the transmission is approximately 60 percent or less of all infrared rays. Total solar energy is about 55 percent or less. Approximately 0.154 inches thick 2. 5. Mixture according to claim 24, in which glass, approximately 0.154 inches thick, transmits approximately 60 percent or less of all ultraviolet sun rays. Total infrared solar radiation is approximately 30 percent or less and total solar energy transmission is approximately 50 percent or less 26. Mixture according to claim 1, which includes approximately 0.3 percent by weight SO3. Claim No. 1, in which the glass mixture has a yellowish brown color Under the reduction of iron and sulfur in the glass substrate, soda-lime-silica is used as a smelting and purifying agent. It will result in at least 55 percent less light transmission within the channel than when no yellow-brown 2 8. Mixture according to claim 22, which includes approximately 0.3 percent by weight SO3 2. 9. Mixture according to claim 22, in which the glass mixture has a yellowish brown color. Under reduction of iron and sulfur In the substance that makes up the glass part, soda-lime-silica is a smelting and purifying agent. It will result in a light transmission within the channel at least about 55 percent less than when the yellowish brown is not.