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    • 4. 发明申请
    • COMPOSITE ISOPIPE
    • 复合材料ISOPIPE
    • WO2011150189A3
    • 2012-03-29
    • PCT/US2011038109
    • 2011-05-26
    • CORNING INCPANIN NIKOLAY A
    • PANIN NIKOLAY A
    • C03B17/06C03B17/00C03C27/00
    • C03B17/064
    • A fusion down-draw method for making a glass sheet using a forming body comprising an upper part (101) made of a first material and a lower part (103) made of a second material, where the first material has lower creep rate than the second material at the normal operating temperature of the forming body, and an fusion down-draw forming apparatus comprising such forming body. The invention is advantageous in that it solves the issues of internal stress and long-term creep issue of a unitary forming body made of a single material such as zircon.
    • 一种用于制造玻璃板的熔化拉伸方法,该方法使用包括由第一材料制成的上部(101)和由第二材料制成的下部(103)的成形体,其中所述第一材料具有比所述第一材料低的蠕变速率 在成形体的正常工作温度下的第二材料和包括这种成形体的熔融拉伸成形装置。 本发明的优点在于它解决了由诸如锆石的单一材料制成的单一成形体的内部应力和长期蠕变问题。
    • 5. 发明申请
    • METHOD AND APPARATUS FOR MANUFACTURING SOLAR CONCENTRATORS USING GLASS PROCESS
    • 使用玻璃工艺制造太阳能集热器的方法和装置
    • WO2009020778A3
    • 2010-05-20
    • PCT/US2008071127
    • 2008-07-25
    • SOLARIA CORPGIBSON KEVIN R
    • GIBSON KEVIN R
    • C03B13/00C03B15/00C03B17/00C03B19/00C03B25/00C03B27/00
    • C03B13/08B32B17/10036C03B18/02C03B18/14C03C17/00H01L31/0547H01L31/18Y02E10/52
    • A method for manufacturing a glass concentrator for a solar module. The method includes providing a glass material in a molten state and processing the glass material in the molten state to form a ribbon glass including a first surface and a second surface. Additionally, the method includes subjecting the first surface to one or more drum members to form a plurality of concentrating structures while continuously passing the ribbon glass via the second surface over a plurality of rollers. Each of the concentrating structures includes an aperture region, an exit region, and one or more reflection regions. The aperture region is configured to receive incoming light and the one or more reflection regions are configured to concentrate the received incoming light to the exit region. The method further includes cutting the ribbon glass into one or more sheets of glasses including a predetermined number of the plurality of concentrating structures.
    • 一种太阳能电池组件用玻璃浓缩器的制造方法。 该方法包括提供熔融状态的玻璃材料,并处理熔融状态下的玻璃材料,形成包括第一表面和第二表面的带状玻璃。 此外,该方法包括使第一表面经受一个或多个鼓构件以形成多个浓缩结构,同时使带状玻璃经由第二表面连续地通过多个辊。 每个集中结构包括开口区域,出口区域和一个或多个反射区域。 开口区域被配置为接收入射光,并且一个或多个反射区域被配置为将接收的入射光集中到出射区域。 该方法还包括将带状玻璃切割成包括预定数量的多个浓缩结构的一个或多个眼镜片。
    • 6. 发明申请
    • APPARATUS AND METHOD FOR FORMING HEATED GLASS SHEETS
    • 用于形成加热玻璃板的装置和方法
    • WO99026890A1
    • 1999-06-03
    • PCT/US1998/021682
    • 1998-10-14
    • A01J21/00A01J25/00A21C3/00A21C11/00C03B13/00C03B17/00C03B23/00C03B23/02C03B23/03C03B25/00C03B27/00C03B27/044C03B29/08C03B35/14C03B35/20A23G1/20A23G1/22A23G3/00A23P1/00B28B17/00B29C47/00
    • C03B35/202C03B23/0302C03B29/08C03B35/145C03B40/005C03B2225/02
    • Apparatus (26) and a method for forming heated glass sheets in a heated chamber (22) of a housing (20) includes a forming station (24) having an upper mold support assembly (28), a lower mold shuttle (50), and a lower mold support assembly (60) that cooperate to provide mold alignment. The mold support assembly (28) includes a support (164) located within the heated chamber (22) and having a construction that reduces thermal expansion. A support and actuating mechanism (30) supports and moves the mold support assembly (28) within the heated chamber (22) to perform the forming of heated glass sheets. A mold assembly (34) for cyclically forming the heated glass sheets includes alignment guides (122, 124) and detachable connectors (362) that align and detachably connect upper and lower molds (36, 38) to each other for installation and permit detachment from each other for the glass sheet forming. Apparatus (32) and a method for heated mold changing at the forming station (24) includes a switching station (318), an unloading station (320), a mold preheating station (322), an unloading cart (324) and a loading cart (326). A glass sheet quench station loader (42) and method for installing a quench module set (44) of lower and upper quench modules (46, 48) includes a quench carriage (440) of a horizontally opening U shape that receives the quench modules for the loading and for subsequent unloading.
    • 装置(26)和用于在壳体(20)的加热室(22)中形成加热的玻璃板的方法包括具有上模具支撑组件(28)的成形台(24),下模具梭(50), 以及配合以提供模具对准的下模具支撑组件(60)。 模具支撑组件(28)包括位于加热室(22)内并具有降低热膨胀的结构的支撑件(164)。 支撑和致动机构(30)支撑和移动加热室(22)内的模具支撑组件(28),以执行加热的玻璃板的成型。 用于循环地形成加热的玻璃板的模具组件(34)包括对准引导件(122,124)和可拆卸的连接器(362),其将上模具和下模具(36,38)对准和可拆卸地彼此连接以进行安装,并允许从 彼此用于玻璃板成型。 装置(32)和在成形站(24)处加热模具更换的方法包括切换站(318),卸载站(320),模具预热站(322),卸载车(324)和装载 购物车(326)。 一种用于安装下部和上部骤冷模块(46,48)的骤冷模块组(44)的玻璃板淬火站装载机(42)和一种方法,包括:水平开口U形的骤冷滑架(440),其接收用于 装载和随后卸载。
    • 9. 发明申请
    • APPARATUS AND METHOD FOR SHAPING A GLASS SUBSTRATE
    • 用于成形玻璃基板的装置和方法
    • WO2012030751A3
    • 2012-06-14
    • PCT/US2011049625
    • 2011-08-30
    • CORNING INCDANNOUX THIERRY LFREDHOLM ALLAN M
    • DANNOUX THIERRY LFREDHOLM ALLAN M
    • C03B27/06C03B5/235C03B17/00
    • C03B23/0307C03B23/0256C03B23/0258C03B23/0357
    • An apparatus and method for shaping a substantially planar glass substrate are disclosed. The glass substrate is supported on a shaping body having a substantially planar central portion and arcuate edge portions. The substrate is heated by a suitable radiant heat source wherein a thermal shield is used to shield a centrally located surface of the glass substrate so that only edge portions of the glass substrate are heated and softened. Gravity causes the glass substrate edge portions to sag and conform to the shape of the shaping body. In some embodiments, shaping members are pressed against the glass substrate edge portions to aid in the conforming. In certain other embodiments, a plurality of glass substrates are sequentially deformed by a shaping die.
    • 公开了用于成形基本上平面的玻璃基板的设备和方法。 玻璃基板被支撑在具有基本平面的中心部分和弓形边缘部分的成形体上。 基板通过合适的辐射热源加热,其中使用隔热屏来屏蔽玻璃基板的位于中心的表面,使得仅玻璃基板的边缘部分被加热和软化。 重力引起玻璃基板边缘部分下垂并符合成形体的形状。 在一些实施例中,成形构件被压靠在玻璃基板边缘部分上以帮助适形。 在某些其他实施例中,多个玻璃基板通过成形模具顺序地变形。
    • 10. 发明申请
    • ISOPIPE DESIGN FEATURE TO ELIMINATE SAG
    • 消除SAG的特殊设计功能
    • WO2008103249A3
    • 2009-01-08
    • PCT/US2008001749
    • 2008-02-08
    • CORNING INCHOYSAN STEVEN F
    • HOYSAN STEVEN F
    • C03B17/00C03B17/06
    • C03B17/064
    • Disclosed is an isopipe for use in the manufacture of sheet glass by, and more specifically to an isopipe designed to control sag during use, as well as a method for reducing the sag of an isopipe used in a fusion process for molten glass. In one embodiment, the isopipe comprises a cavity that extends at least partially through the refractory body of the isopipe along its longitudinal length. The cavity has varying cross-sections configured such that, for at least a portion of the length of the isopipe, the load bending moment is greater than or generally equal to the gravity bending moment. In one embodiment, the neutral axis varies along the length of the cavity and has a similar profile to that of the gravity bending moment diagram.
    • 公开了用于制造平板玻璃的等压槽,并且更具体地涉及设计用于控制使用期间下垂的等压槽,以及用于减少用于熔融玻璃熔合过程中的等压槽的松弛的方法。 在一个实施例中,等压管包括沿其纵向长度至少部分地延伸穿过等压管的耐火体的空腔。 空腔具有不同的横截面,其构造成使得对于等压槽长度的至少一部分,负载弯矩大于或大体上等于重力弯矩。 在一个实施例中,中性轴沿腔的长度变化,并且具有与重力弯矩图类似的轮廓。