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    • 45. 发明申请
    • Arc tube manufacturing method that reduces unevenness in thickness of a phosphor layer on an inner surface of a bent glass tube
    • 电弧管制造方法,其减少弯曲玻璃管的内表面上的荧光体层的厚度不均匀
    • US20040214500A1
    • 2004-10-28
    • US10762986
    • 2004-01-21
    • Shiro IidaToyokazu AmanoKenji Itaya
    • H01J009/00H01J009/20H05B033/10
    • H01J61/44C03B23/06C03B23/07C03C17/004H01J9/247H01J61/327Y02P40/57
    • A compact self-ballasted fluorescent lamp includes an arc tube in which a phosphor layer is formed on an inner surface of a double spiral glass tube formed into a double spiral. The phosphor layer is formed by a process of injecting a suspension for forming the phosphor layer into the double spiral glass tube; a process of coating the inner surface of the double spiral glass tube with the suspension; a process of draining the suspension from the double spiral glass tube; a process of preliminarily drying the suspension until the suspension do longer flows according to self weight, while rotating the double spiral glass tube in a state in which a spiral axis of the double spiral glass tube is at an angle of 100 degrees with respect to a vertical axis and a turning part of the double spiral glass tube is downward; and process of completely drying the partially dried double spiral glass tube.
    • 紧凑型自镇流荧光灯包括在形成为双螺旋的双螺旋玻璃管的内表面上形成荧光体层的电弧管。 荧光体层通过将用于形成荧光体层的悬浮液注入双螺旋玻璃管中的方法形成; 用悬浮液涂覆双螺旋玻璃管的内表面的方法; 从双螺旋玻璃管排出悬浮液的过程; 预先干燥悬浮液的过程,直到悬浮液根据自身重量而长时间流动,同时在双螺旋玻璃管的螺旋轴线相对于a的情况下以100度的角度旋转双螺旋玻璃管的同时旋转双螺旋形玻璃管 双螺旋玻璃管的垂直轴和转向部分向下; 以及完全干燥部分干燥的双螺旋玻璃管的工艺。
    • 46. 发明申请
    • Fabricating method of plasma display panel
    • 等离子显示面板的制造方法
    • US20040214111A1
    • 2004-10-28
    • US10830015
    • 2004-04-23
    • LG Electronics Inc.
    • Byung Jun MunSoon Hak Kim
    • H01J009/00H01J009/24
    • H01J9/14
    • There is disclosed a fabricating method of a plasma display panel which might simplify its fabricating process. A fabricating method of a plasma display panel according to an embodiment of the present invention includes the steps of: providing a sheet into which a black material layer and an electrode material layer are integrated; forming the sheet on a substrate; aligning a first mask on the front surface of a substrate where the sheet has been formed and exposing the sheet; aligning a second mask on the rear surface of the substrate and exposing the sheet; and developing the exposed sheet to form a bus electrode and a light shielding layer.
    • 公开了等离子体显示面板的制造方法,其可以简化其制造工艺。 根据本发明的实施例的等离子体显示面板的制造方法包括以下步骤:提供一个其中整合有黑色材料层和电极材料层的片材; 在基板上形成所述片材; 在已经形成片材的基板的前表面上对准第一掩模并暴露所述片材; 在基板的后表面上对准第二掩模并使该片曝光; 并且显影曝光的片材以形成总线电极和遮光层。
    • 48. 发明申请
    • Plasma display pane, its manufacturing method, and transfer film
    • 等离子显示屏,其制造方法和转印膜
    • US20040212305A1
    • 2004-10-28
    • US10479158
    • 2004-06-01
    • Morio FujitaniHiroyuki YoneharaMasaki AokiKeisuke SumidaHideki AsidaJunichi Hibino
    • H01J017/49H01J009/24H01J009/00
    • H01J11/12H01J9/02H01J11/38
    • A PDP has first and second substrates which face each other with a space in between. A display electrode pair and a dielectric layer are formed on the first substrate, and a plurality of discharge cells are formed between the first and second substrates along the display electrode pair. In this construction, two or more depressions are provided in the dielectric layer in an area corresponding to each discharge cell. This improves luminous intensity and illumination efficiency. Also, to form the dielectric layer on the first substrate, first a transfer film is made by providing a dielectric precursor layer on a support film, then depressions are formed in the dielectric precursor layer of the transfer film, and lastly the dielectric precursor layer of the transfer film is transferred onto the first substrate. This decreases the number of manufacturing steps and increases the yield, thereby reducing manufacturing costs.
    • PDP具有彼此面对的第一和第二基板,其间具有空间。 在第一基板上形成显示电极对和电介质层,沿着显示电极对在第一和第二基板之间形成多个放电单元。 在这种结构中,在对应于每个放电单元的区域中的电介质层中设置两个或更多个凹陷。 这提高了发光强度和照明效率。 此外,为了在第一基板上形成电介质层,首先通过在支撑膜上设置电介质前体层制作转印膜,然后在转印膜的电介质前体层中形成凹陷,最后形成介电前体层 将转印膜转印到第一基板上。 这减少了制造步骤的数量并提高了产量,从而降低了制造成本。