TH69481A - Optical glass Preforms for pressure die casting And methods of optical glass production And optics parts and methods of manufacturing optics parts. - Google Patents

Abstract

DC60 (18/05/53) This invention involves optical glass with high refractive index, high dispersion and low glass transition temperature. A preform consisting of optical glass for casting. Precise compression molding And this method of producing optical glass And the trail piece Optics incorporating optical glass and this method of manufacturing optical components. An example of optics glass for precise pressure die casting is made with The characteristics are made up of essential components in the forms P2O5, Nb2O5, WO3, TiO2, Bi2O3, Li2O and Na2O, which are comprised of optional components in the forms B2O3, BaO, ZnO, K2O, Sb2O3 and As2O3 where the content of Bi2O3 exceeds 4 percent by Weight, but not more than 15 percent by molar The Li2O's fill volume will exceed 3 percent by weight, but not more than 15 percent by weight. The combined quantities of Nb2O5, WO3, TiO2 and Bi2O3 were from 25 to 45 percent. The combined quantities of Li2O, Na2O, and K2O are less than or equal to 42 percent by molarity. The assembled quantity of the components It is important and this alternative component is greater than or equal to 98%, with the molar refractive index (nd) from 1.75 to 2.0 and the Abbe number (Vd) from 18 to 30. Optics with high refractive index, high dispersion and low glass transition temperature. The preform, which consists of optical glass. For casting Precise compression molding And this method of producing optical glass And the trail piece Optics incorporating optical glass and this method of manufacturing optical components. An example of optics glass for precise pressure die casting is made with The characteristics are made up of essential components in the forms P2O5, Nb2O5, WO3, TiO2, Bi2O3, Li2O and Na2O, which are comprised of optional components in the forms B2O3, BaO, ZnO, K2O, Sb2O3 and As2O3, the content of Bi2O3 exceeds 4 percent by Weight, but not more than 15 percent by molar The Li2O's fill volume will exceed 3 percent by weight, but not more than 15 percent by weight. The combined quantities of Nb2O5, WO3, TiO2 and Bi2O3 were from 25 to 45 percent. The combined quantities of Li2O, Na2O, and K2O are less than or equal to 42 percent by molarity. The assembled quantity of the components It is important and this optional component is 98% greater than or equal to the molar refractive index (nd) from 1.75 to 2.0 and Abbe (vd) from 18 to 30.

Claims (4)

Claims (all) that will not appear on the advertisement page: 1. Optics glasses for precision pressure molded casting are provided with Characteristics by combining important components in the form of P2O5, Nb2O5, WO3, TiO2, Bi2O3, Li2O and Na2O, which are made up of optional components in the form of B2O3, BaO, ZnO, K2O, Sb2O3 and As2O3 with the content of Bi2O3 equal to or greater than 0.5 percent by molar. The combined quantities of Nb2O5, WO3, TiO2 and Bi2O3 were from 25 to 45 percent. The combined quantities of Li2O, Na2O and K2 O are less than or equal to 42 percent by molarity. The combined quantity of the components is important and the This optional component is 98% greater than or equal to the molar refractive index (ad) from 1.75 to 2.0 and the Abbe number (Vd) from 18 to 30. 2. Forging preforms. Formed with a strong press that is composed of a path Optics according to claim 1 3. Optical parts obtained by casting a molded press with a rigid press for Preform for casting with a rigid press according to Clause 2 4. Method of manufacturing optics parts which are unique in that the preforms for Molded, molded with a hard press according to claim 2, has been heat-treated and molded as well. Press at the point 5. Method of manufacturing optical parts according to claim No. 4, where this preform has been passed Bringing into the mold and forming with a press By both casting and forming presses and this preform will be Joint heat And proceed to casting and forming with a sharp press. 6. Method of manufacturing optical parts according to claim No. 4 by heating. It is molded by press and preform together. By preforms that have been pre-heated It will be brought into the mold forging with a press. And process casting with a precise press. 7. Method of producing preforms for casting press forming with a unique press. Where it consists of the steps of Lifting the molten with a predetermined weight from the molten drum and the preform for casting with a press, which includes Way Optics with a predetermined weight according to claim 1. 8. Optical parts, which are obtained by casting a rigid press. Preforms for die casting with a rigid press produced by the manufacturing method according to Clause 7 9. Methods of manufacturing optical parts, which are unique in that Preform for Molded, formed by a rigid press, produced by the manufacturing method of Clause 7, is heated and molded with a press at Precautions 1 0. Methods of manufacturing optical parts according to claim No. 9, provided that this preform has been passed Bringing into the mold and forming with a press By both casting and forming presses and this preform will be Joint heat And to process the casting with a strong press 1 1. Method of manufacturing optical parts according to claim No. 9 by heating. It is molded by press and preform together. By preforms that have been prepared in advance It will be brought into the mold forging with a press. And proceed to casting the molding with a sharp press 1 2. Optical parts, including the optics, according to claim 1, which is in the form of Of precision press-formed molded products 1 3. The optics for molded castings with rigid presses are rendered with a high level of precision. The characteristics are comprised of essential components in the range of P2O5, Nb2O, WO3 TiO2, Bi2O3, Li2 O, Na2O and B2 O3, which are comprised of optional components in the form of BaO, ZnO, K2O, Sb2O3 and As2O3. Bi2O3 content, containing from 0.5 to 15 percent. Molarity of Li2O content from 2 to 25 percent. The combined quantities of Nb2O5, WO3, TiO2 and Bi2O3 are from 25 to 45 percent, with the molar content of Li2O, Na2O and K2O being less than or equal to 42 percent by molarity. The combined quantity of the components is important and the This optional component will The molar index of refraction (nd) is greater than or equal to 98%. The molar index of refraction (nd) is from 1.75 to 2.0 and the abbe number (Vd) is from 18 to 30. 1. 4. Preforms for forging with a press. Which includes Optics according to claim 13 1 5. Optical parts obtained by die casting with a sharp press for Preform for casting with a rigid press in accordance with Clause 14 1 6. Methods of manufacturing optics parts, which are unique in that the preforms are used in Forged, formed by a rigid press according to claim 14, it has been heated and molded as well. Press to press 1 7. Method of manufacturing optical parts according to claim 16, where this preform Has been imported into the mold with a press. By both casting and forming with a press And this preform Will get heat together And process the casting with a strong press 1 8. Method of manufacturing optical parts according to Clause 16 by heating. It is molded by press and preform together. By preforms that have been pre-heated It will be brought into the mold forging with a press. And proceed to casting with a strong press. 1 9. Methods of producing preforms for casting presses that are unique in that Including the steps of Lifting the molten with a predetermined weight from the molten drum and the preform for casting with a press, which includes Way Optics with a predetermined weight according to claim 13 2 0. Optics parts which are obtained by casting with preformed presses. It is used for the casting of a rigid press, which is produced by the manufacturing method according to claim 19 2 1. A method of manufacturing optical parts, which is unique in that the pre Form for Forged with a rigid press, produced by the manufacturing method of claim 19, it is heat treated and molded with a press Precautionary 2 2. Method of optical parts manufacturing according to claim 21, where this preform Has been imported into the mold with a press. With both casting and forming presses and this preform Will get heat together And to process the die casting with a precise press 2 3. Method of manufacturing optical parts according to claim 21 by heating. It is molded by press and preform together. By preforms that have been pre-heated It will be brought into the mold forging with a press. And proceed to casting the molding with a sharp press. 2 4. Optical parts, which include the optical goggle according to claim 13, which is in the form of a type of product. Precise press formwork 2 5. Preforms for casting a molded press with a rugged press that is unique in that it is assembled. It is also included in the optics, which contain important components in the form of P2O5, Nb2O5, WO3, TiO2, Bi2O3, Li2O and Na2O are optional components in the form. B2O3, BaO, ZnO, K2O, Sb2O3 and As2O3 where the bi2O3 content is 0.5 to 15 percent or greater than the molarity. The packaged Li2O is from 2 to 25 percent by molar. The combined quantities of Nb2O5, WO3, TiO2 and Bi2O3 are from 25 to 45 percent, with the molar content of Li2O, Na2O and K2O being less than or equal to 42 percent by molarity. The combined quantity of the components is important and the This optional component will The molar index of refraction (nd) is greater than or equal to 98%. The molar index of refraction (nd) is from 1.75 to 2.0 and the abbe number (Vd) is from 18 to 30, where the lump in the molten state becomes the same. The preform was formed without using a mechanical process. 2 6. Optical parts which were obtained by casting with a preformed press. For molded presses with a rigid press, in accordance with Clause 25. 2 7. Methods of manufacturing optical parts, which are characterized by preformed for Molded, molded, pressed by a rigid press according to claim 25, it has been heated and molded. 2 8. Method of manufacturing optical parts according to claim 27, where this preform Has been imported into the mold with a press. With both casting and forming presses and this preform Will get heat together And process die casting with a rigid press. 2. 9. Methods for manufacturing optical parts according to claim 27 by heating. It is molded by press and preform together. By preforms that have been pre-heated Will get heat together And proceed to casting the mold with a sharp press 3 0. Preforms for casting razor-sharp formwork, which are unique in that It consists of an optical module, which has an important component in the form of a P2O5, Nb2O5, TiO2, Bi2O3, LiO, Na2O and B2O3 are optional components in the form of BaO, ZnO, K2O, Sb2O3 and As2O3, where the Bi2O3 content is from 0.5 to 15%. Molar The combined quantities of Nb2O5, WO3, TiO2 and BiO3, were from 25 to 45 percent. The combined quantities of Li2O, Na2O and K2O are less than or equal to 42 percent by molarity. The combined quantities of this critical and optional component are 98% greater than or equal to the molar refractive index (nd) from 1.75 to 2.0 and the Abbe number (Vd) from 18. Up to 30, where the lump in the molten state becomes the same, with the preform being formed without the use of mechanical processing 3 1.Optical parts, which are obtained by casting with a preformed press. For casting presses with a rigid press according to claim No. 30 3. 2. A method of manufacturing optical parts, which are characterized by preformed for Molded, molded, pressed by a rigid press according to claim 30, it has been heat-treated and molded. Forming with a strong press 3 3. Methods of rendering optical components according to claim 32, whereby this preform Has been imported into the mold with a press. With both casting and forming presses and this preform Will get heat together And proceed to casting the molding with a sharp press 3 4. Methods of manufacturing optical parts according to claim 32, whereby they are heated. It is molded by press and preform together. By preforms that have been pre-heated It will be brought into the mold forging with a press. And proceed to casting and forming with a yum press