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    • 5. 发明授权
    • Method of manufacturing molded glass objects, method of manufacturing press molded articles, and method of manufacturing glass optical elements
    • 制造模制玻璃制品的方法,制造压模制品的方法,以及制造玻璃光学元件的方法
    • US07127917B2
    • 2006-10-31
    • US10247288
    • 2002-09-20
    • Atsushi UezakiKatsumi Utsugi
    • Atsushi UezakiKatsumi Utsugi
    • C03B19/00C03B9/13
    • C03B7/12C03B7/14C03B19/02C03B40/04
    • Disclosed is a method for manufacturing a molded glass object. In the method, glass melt is made to flow from the front end portion of a nozzle; a prescribed weight of the glass melt flowing out is received by a glass melt receiving portion provided on a forming mold moved beneath the nozzle, wherein multiple forming molds are sequentially moved beneath the nozzle; the glass melt gob received is moved from the glass melt receiving portion to a hollow provided on the forming mold; and in the hollow, a molded glass object is formed while blowing gas upward through a gas outlet provided in the bottom of the hollow. The method is characterized in that the front end of the nozzle is constantly positioned outside the space vertically above the gas outlet. Methods of manufacturing press molded articles of glass and optical glass elements are described.
    • 公开了一种制造模制玻璃制品的方法。 在该方法中,使玻璃熔体从喷嘴的前端部流出, 流出的玻璃熔体的规定重量由设置在喷嘴下方的成型模具上的玻璃熔体接收部分接收,其中多个成形模具顺序地在喷嘴下方移动; 接收的玻璃熔料从玻璃熔体接收部分移动到设置在成形模上的中空部分; 并且在中空部中,在通过设置在中空部的底部的气体出口向上吹气的同时形成模制玻璃物体。 该方法的特征在于,喷嘴的前端始终位于气体出口垂直上方的空间的外部。 描述制造玻璃和光学玻璃元件的压制成型品的方法。
    • 6. 发明授权
    • Device and method for the simultaneous production of glass products with varying masses
    • US06978640B2
    • 2005-12-27
    • US10333944
    • 2002-05-21
    • Franz MuellerAlfred KrischkeWilfried Jungkunz
    • Franz MuellerAlfred KrischkeWilfried Jungkunz
    • C03B9/41C03B7/00C03B7/086C03B7/14C03B9/40C03B11/16
    • C03B7/14C03B7/005
    • The invention relates to a manufacturing apparatus for simultaneously making different hollow glass products having different gob sizes comprising at least one feed apparatus (12), that has at least one glass reservoir (14), at least one plunger (18a, b), and at least one appurtenant cutting device (24a, b) in the discharge from the reservoir, at least one conveying means (28) to successively transport at least one of the gobs discharged from the feed apparatus (12) into a plurality of shape-imparting units (32a–c) disposed next to each other for variously sized gobs, at least one controller (22) to control the plunger (18a, b) and the cutting device (24a, b) of the feed apparatus (12), the conveying means (28), and the shape-imparting units (32a–c), and said controller (22) controls the activity of the shape-imparting units (32a–c), the feed apparatus (12), and the conveying means (28) in coordination with the gob-size-specific processing time of the products in the shape-imparting units (32a–c) or their cycle time, and the controller (22) is embodied in such a way that, when it determines that the feed times of at least two shape-imparting units (32a–c) will coincide, or if the interval between the times that two of the shape-imparting units (32a–c) are fed will be less than the time necessary for a feed operation, the feeding of one of the shape-imparting units (32a–c) that is to be fed will be delayed and shifted to a subordinate available time window that is long enough to allow the feeding of the not-yet-fed shape-imparting unit(s) to be performed.The invention also relates to a manufacturing process for hollow glass products that uses the said apparatus. Glass products having different masses can be made simultaneously in a single manufacturing apparatus.
    • 7. 发明申请
    • Method of manufactruing molded glass objects, method of manufacturing press molded articles, method of manufacturing glass optical elements, and device for manufactruing molded glass objects
    • 制造模制玻璃制品的方法,制造压制成型制品的方法,制造玻璃光学元件的方法和用于制造模制玻璃制品的装置
    • US20030051508A1
    • 2003-03-20
    • US10247288
    • 2002-09-20
    • HOYA CORPORATION
    • Atsushi UezakiKatsumi Utsugi
    • C03B009/13C03B019/00
    • C03B7/12C03B7/14C03B19/02C03B40/04
    • Disclosed is a method of and device for manufacturing a molded glass object. In the method, glass melt is made to flow from the front end portion of a nozzle; a prescribed weight of the glass melt flowing out is received by a glass melt receiving portion provided on a forming mold moved beneath the nozzle, wherein multiple forming molds are sequentially moved beneath the nozzle; the glass melt gob received is moved from the glass melt receiving portion to a hollow provided on said forming mold; and in the hollow, a molded glass object is formed while blowing gas upward through a gas outlet provided in the bottom of the hollow. The method is characterized in that the front end of said nozzle is constantly positioned outside the space vertically above said gas outlet. Methods of manufacturing press molded articles of glass and optical glass elements are described. In these method, a molded glass object manufactured by the above method is heated, softened, and press molded or precision press molded.
    • 公开了一种用于制造模制玻璃物体的方法和装置。 在该方法中,使玻璃熔体从喷嘴的前端部流出, 流出的玻璃熔体的规定重量由设置在喷嘴下方的成型模具上的玻璃熔体接收部分接收,其中多个成形模具顺序地在喷嘴下方移动; 接收的玻璃熔体料料从玻璃熔体接收部分移动到设置在所述成型模具上的中空部分; 并且在中空部中,在通过设置在中空部的底部的气体出口向上吹气的同时形成模制玻璃物体。 该方法的特征在于,所述喷嘴的前端始终位于垂直于所述气体出口上方的空间的外部。 描述制造玻璃和光学玻璃元件的压制成型品的方法。 在这些方法中,通过上述方法制造的模制玻璃物体被加热,软化,并且被压模或精密模压。
    • 8. 发明授权
    • Method and apparatus for delivering a glass stream for forming charges
of glass
    • 用于输送玻璃流以形成玻璃装料的方法和设备
    • US5925161A
    • 1999-07-20
    • US30402
    • 1998-02-25
    • Michael T. DembickiGarrett L. Scott
    • Michael T. DembickiGarrett L. Scott
    • C03B5/26C03B7/08C03B7/088C03B7/094C03B7/096C03B7/098C03B7/14C03B7/16C03B17/02
    • C03B7/088C03B17/025C03B5/26C03B7/08C03B7/094C03B7/096C03B7/14C03B7/16Y10S65/04
    • An apparatus for delivering a glass stream including a first inner layer and a second outer layer, including a generally vertical orifice, and delivering glass from a second source such that the glass from said second source provides an outer layer about the glass from the first source as it flows through the orifice. A resistance heated tube assembly is made of platinum or material having similar resistance heating properties and extends from a glass source to an orifice through which the glass flows from a glass source for the inner layer. The tube assembly includes a tube portion having an inlet end that communicates with the source for the outer layer and an outlet end that communicates with the source. The tube portion has an axis positioned at any angle ranging between the horizontal and vertical but preferably has an axis which is more vertical than horizontal. Flanges are secured to the ends of the tube portion, and the flanges are connected to an electric power supply. The cross sectional thickness of the flanges is preferably greater than the thickness of the tube portion. Each flange includes an annular groove adjacent its respective end of the tube portion into which the end of the tube portion extends. The flanges are welded to the tube portion. Flange heater modules surround each end of the tube portion.
    • 一种用于输送玻璃流的装置,包括第一内层和第二外层,包括大致垂直的孔,以及从第二源输送玻璃,使得来自所述第二源的玻璃从第一源提供围绕玻璃的外层 当它流过孔口时。 电阻加热管组件由具有相似电阻加热性能的铂或材料制成,并且从玻璃源延伸到玻璃从内层的玻璃源流过的孔。 管组件包括管部分,其具有与用于外层的源连通的入口端和与源连通的出口端。 管部分具有定位在水平和垂直之间的任何角度的轴线,但优选地具有比水平线更垂直的轴线。 法兰固定在管部分的端部,法兰连接到电源。 凸缘的横截面厚度优选地大于管部的厚度。 每个凸缘包括邻近管部分的相应端部的环形槽,管部分的端部延伸到该环形槽中。 凸缘焊接到管部分。 法兰加热器模块围绕管部分的每一端。