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    • 1. 发明申请
    • METHOD AND APPARATUS FOR MAKING BACK GLASS SUBSTRATE FOR PLASMA DISPLAY PANEL AND RESULTANT PRODUCT
    • 用于制造等离子显示面板和成品产品的背玻璃基板的方法和装置
    • WO01015195A1
    • 2001-03-01
    • PCT/US1999/019608
    • 1999-08-25
    • C03B11/10C03B13/14C03B23/03H01J9/24H01J11/12H01J11/36H01J9/30C03B23/02
    • H01J11/12C03B11/10C03B13/14C03B23/0302C03B23/0307H01J9/241H01J9/242H01J11/36
    • A method and apparatus (50, 70, 90) for making a back glass substrate (24) for a plasma display panel (20) by forming hot sheet glass G heated above its annealing point and embodied either as a continuous ribbon (60) or discrete sheets (74). The hot forming provides the hot sheet glass G with gas discharge troughs (38) spaced by barrier ribs (40). The hot forming of the sheet glass G can be performed by a rotatable forming member (62) having curved projections (66) or by a press member (78) having elongated projections (84). The constructed plasma display panel (20) has a front glass substrate (22) and a back glass substrate (24) with the gas discharge trough and barrier rib construction made by the hot forming above the annealing point. The gas discharge troughs (38) can be hot formed with bottom surfaces (95) that have an undultating shape along their lengths to enhance luminescence of phosphors (48), and the barrier ribs (40) can have distal ends with openings (98) that provide communication between the gas discharge troughs (38) and that are located adjacent peaks (100) of the trough bottom surfaces (94) remote from the location of discharge.
    • 一种用于通过在其退火点之上加热加热的热板玻璃G来制造用于等离子体显示面板(20)的后玻璃基板(24)的方法和装置(50,70,90),其被实施为连续的带(60)或 离散片(74)。 热成型为热板玻璃G提供与阻挡肋(40)间隔开的排气槽(38)。 平板玻璃G的热成型可以通过具有弯曲突起(66)的旋转成形构件(62)或具有细长突起(84)的按压构件(78)进行。 构造的等离子体显示面板(20)具有前玻璃基板(22)和后玻璃基板(24),其中通过在退火点之上的热成型制成气体排出槽和隔壁结构。 气体排出槽38可以沿其长度具有不发光形状的底表面(95)热成型,以增强荧光体(48)的发光,并且阻挡肋(40)可以具有开口(98)的远端, 其提供气体排出槽(38)之间的连通,并且位于远离排放位置的槽底表面(94)的峰(100)附近。
    • 3. 发明申请
    • CHANNELED GLASS ARTICLE AND METHOD THEREFOR
    • 通道玻璃及其方法
    • WO99045557A1
    • 1999-09-10
    • PCT/US1999/002532
    • 1999-02-08
    • C03B18/00C03B9/00C03B9/12C03B11/00C03B13/00C03B13/14C03B15/00C03B17/00C03B17/02C03B19/00H01J9/24H01J9/26H01J61/02H01J61/30H01J1/62H01J63/04
    • C03B17/02C03B9/12C03B13/14H01J9/247H01J9/266H01J61/025H01J61/302H01J61/307
    • The method herein shapes a thin glass article (10), as well as a thin glass interface (20, 22) between two laminated sheets (16, 18) as they seal together to form the glass article (10). This process changes the shape of the article (10) and modifies the internal interface (20, 22) at the juncture where the glass sheets (16, 18) meet to make the channels (12). As a result, the juncture is very thin and very little or no slope. The process uses the mechanical motion of a plunger combined with plunger vacuum and internal gas pressure to make these changes. The technique reduces the contact area between glass layers (16, 18). A reduced contact area can reduce the optical interference caused by the joining of two layers of glass (16, 18). The technique also makes the front surface of each channel (12) thinner. The glass thinness also allows for thinner products with substantially reduced light distortion at the juncture.
    • 本文所述的方法是将薄玻璃制品(10)以及两个层压片(16,18)之间的薄玻璃界面(20,22)形成,因为它们密封在一起以形成玻璃制品(10)。 该过程改变了物品(10)的形状,并且在玻璃板(16,18)相交以便形成通道(12)的接合部处修改内部界面(20,22)。 结果,交界处很薄,很少或没有斜坡。 该过程使用与柱塞真空和内部气体压力组合的柱塞的机械运动来进行这些改变。 该技术减少了玻璃层(16,18)之间的接触面积。 减少的接触面积可以减少由两层玻璃(16,18)的接合引起的光学干涉。 该技术还使每个通道(12)的前表面更薄。 玻璃薄度还允许在接合处具有显着降低的光失真的较薄的产品。
    • 6. 发明申请
    • SHAPING TOOL WITH A STRUCTURED SURFACE FOR PRODUCING STRUCTURES ON GLASS, AND THE APPLICATION THEREOF FOR STRUCTURING CHANNEL PLATES
    • 舍宾结构化表面工具用于生产结构在玻璃和它的用途通道板结构
    • WO00021894A1
    • 2000-04-20
    • PCT/EP1999/007545
    • 1999-10-08
    • C03B13/08C03B13/14C03B13/16C03B23/02
    • C03B13/16C03B13/08C03B13/14C03B23/02
    • Glasses with a determined, precise surface structuring are required in the area of glasses which have optic functions, for example, in display panels of new generation flat display screens, so-called channel plates. While avoiding the disadvantages of prior art screen printing technology, the invention provides a shaping tool (1) which has a structured surface for producing structures on glass (2) and which makes it possible to economically form highly precise microstructures by locally heating the glass region to be structured. The inventive shaping tool comprises a rolling cylinder (3) with a metallic hollow cylinder (7), a shaping sheet metal (8) fixed on the surface of said hollow cylinder, and a traversing shaft (5) for continuously driving the rolling cylinder (3) via drive elements (4). An electric heater is arranged in an electrically insulated manner between the shaft (5) and the hollow cylinder (7).
    • 在与光学功能眼镜眼镜领域需要具有一定精度的表面结构化,例如新一代平板,即所谓的信道板的显示屏。 同时避免了先前应用的丝网印刷技术的缺点,本发明(2)之前,提供了一个成形工具(1)具有结构化表面,用于产生结构上的玻璃,这使得能够以经济的方式来进行图案化玻璃范围高精度微结构通过局部加热成型。 根据本发明的模制工具具有滚动筒(3)与金属空心圆柱体(7)和其上平面固定成形板(8),以及用于经由(4)夹带装置连续驱动的滚动筒(3)的连续的轴(5)。 所述轴(5)和所述中空圆筒(7)之间的是电绝缘的电加热。
    • 9. 发明申请
    • METHOD FOR FORMING AN INTERNALLY CHANNELED GLASS ARTICLE
    • 形成内部通道玻璃制品的方法
    • WO1998021154A1
    • 1998-05-22
    • PCT/US1997020484
    • 1997-11-07
    • CORNING INCORPORATEDALLEN, Stephen, R.ANDERSON, James, G.KIPHUT, Robert, J.TRENTELMAN, Jackson, P.
    • CORNING INCORPORATED
    • C03B09/00
    • C03B13/14C03B9/12C03B17/02H01J9/247H01J61/307
    • The present invention is directed to a method for forming glass articles containing enclosed channels. The method comprises the flollowing steps: a) delivering and depositing a first length of a molten glass ribbon (18) to a surface of a mold (20) having a modl cavity (22) possessing at least one channel-forming groove (22) and a peripheral surface, wherein the first length (18) overlies the mold cavity (22) and the peripheral surface; b) allowing the first length of the molten glass ribbon (18) to substantially conform to the contour of the mold cavity (22) resulting in the formation of at least one channel in the first length of the molten glass ribbon (18); c) delivering and depositing a second length of the molten glass ribbon (26) to the exposed surface of the first length of the molten glass ribbon (18). The delivered molten glass viscosity of the molten glass ribbon (18, 26) is such that the following is achieved: 1) the second length (26) bridges but does not sag into complete contact with the channel portion of the earlier-deposited first length (18); and, 2) a hermetic seal is formed wherever the molten glass' first (18) and second lengths (26) contact.
    • 本发明涉及一种用于形成包含封闭通道的玻璃制品的方法。 该方法包括以下步骤:a)将熔融玻璃带(18)的第一长度输送并沉积到具有至少一个通道形成凹槽(22)的模腔(22)的模具(20)的表面上, 和周边表面,其中所述第一长度(18)覆盖所述模腔(22)和所述周边表面; b)允许熔融玻璃带(18)的第一长度基本上符合模腔(22)的轮廓,导致在熔融玻璃带(18)的第一长度中形成至少一个通道; c)将第二长度的熔融玻璃带(26)输送并沉积到熔融玻璃带(18)的第一长度的暴露表面。 熔融玻璃带(18,26)的输送熔融玻璃粘度使得实现以下目的:1)第二长度(26)桥接,但不会下垂与较早沉积的第一长度的通道部分完全接触 (18); 和2)在熔融玻璃'第一(18)和第二长度(26)接触的地方形成气密密封。
    • 10. 发明申请
    • NOTCH STRUCTURE FOR CONCENTRATING MODULE AND METHOD OF MANUFACTURE USING PHOTOVOLTAIC STRIPS
    • 用于浓缩模块的结构和使用光伏条的制造方法
    • WO2009032850A1
    • 2009-03-12
    • PCT/US2008/075134
    • 2008-09-03
    • SOLARIA CORPORATIONGIBSON, Kevin R.
    • GIBSON, Kevin R.
    • H01L31/042
    • C03B18/14C03B13/14C03B29/025C03C19/00H01L31/0543Y02E10/52
    • The invention provides a solar concentrator structure including a first concentrating element. The first concentrating element includes a first aperture region, a first exit region, a first side and a second side. The solar concentrator structure further includes a second or more concentrating elements integrally coupled with the first concentrating element in a parallel manner. The second concentrating element includes a second aperture region, a second exit region, the third side, and a fourth side. The third side joins with the second side to form an apex notch structure characterized by a radius of curvature. Additionally, the solar concentrator structure includes a separation region by a width separating the first exit region from the second exit region and a triangular region including the apex notch structure and a base defined by the separation region and a refractive index of about 1 characterizing the triangular region.
    • 本发明提供一种包括第一浓缩元件的太阳能集中器结构。 第一集中元件包括第一开口区域,第一出口区域,第一侧面和第二侧面。 太阳能集中器结构还包括以平行方式与第一集中元件整体联接的第二或更多个集中元件。 第二集中元件包括第二开口区域,第二出口区域,第三侧面和第四侧面。 第三面与第二面连接以形成以曲率半径为特征的顶点凹口结构。 此外,太阳能集中器结构包括通过将第一出口区域与第二出口区域分开的宽度的分离区域和包括顶点切口结构的三角形区域和由分离区域限定的基部,并且折射率为约1,表征三角形 地区。