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    • 1. 发明授权
    • Mass production encapsulation equipment and method for organic light emitting display devices
    • 大规模生产用于有机发光显示装置的封装设备和方法
    • US06764369B2
    • 2004-07-20
    • US10064524
    • 2002-07-24
    • Yuang-Wei LaiJih-Yi WangMao-Kuo Wei
    • Yuang-Wei LaiJih-Yi WangMao-Kuo Wei
    • H01J946
    • B32B38/18B32B2037/243B32B2038/0076B32B2309/62H01L51/524H01L51/56
    • Mass production encapsulation equipment and method for mass production of organic light emitting display devices, having a transporting system, a panel supply system, multiple dispensing systems, turning/storage system, cover plate supply system, lamination/ultra-violet radiation system, and an ultra-violet radiation system. The above systems are linked via the transmission system. Being supplied by the panel supply system, a panel is transported to the turning/storage system for turning over. The panel is then transported into alternate dispensing systems for resin coating. The panel coated with resin is again transported to the turning/storage system for storage. The first exposure stage is performed by an aligning lamination performed on the panel and a cover plate supplied by the cover plate supply system in the lamination/ultra-violet radiation system. The second exposure stage is further performed to cure the resin in the ultra-violet radiation system.
    • 大规模生产用于大规模生产有机发光显示装置的封装装置和方法,具有输送系统,面板供应系统,多个分配系统,车削/储存系统,盖板供应系统,层压/紫外辐射系统和 紫外辐射系统。 上述系统通过传输系统链接。 由面板供应系统提供,将面板运送到转向/存储系统进行翻转。 然后将面板输送到用于树脂涂覆的交替分配系统中。 涂有树脂的面板再次传送到转向/存储系统以进行存储。 第一曝光阶段通过在面板上执行的对准层压和由层压/紫外辐射系统中的盖板供应系统提供的盖板来执行。 进一步进行第二曝光阶段以固化紫外辐射系统中的树脂。
    • 5. 发明授权
    • Manufacturing method of organic flat light-emitting devices
    • 有机平板发光装置的制造方法
    • US06924160B2
    • 2005-08-02
    • US10310056
    • 2002-12-05
    • Mao-Kuo WeiJih-Yi Wang
    • Mao-Kuo WeiJih-Yi Wang
    • H01L51/56H01L21/64
    • H01L51/5275H01L51/56
    • A manufacturing method of organic flat light-emitting devices includes the following steps. First, a transparent substrate is provided, which has several microstructures on its first surface and the microstructures have a maximum height of 100 μm from the first surface. Second, a transparent anode is formed on the second surface of the transparent substrate that is opposite to the first surface. Thirdly, at least one organic electro-luminescent layer is formed on the transparent anode. Finally, a metal cathode is formed on the organic electro-luminescent layer. Another manufacturing method of organic flat light-emitting devices includes the steps of: forming a transparent thin film on a first surface of a transparent substrate, the transparent thin film having a plurality of microstructures with a maximum height of 100 μm; forming a transparent anode on a second surface of the transparent substrate opposite to the first surface; forming at least one organic electro-luminescent layer; and forming a metal cathode on the organic electro-luminescent layer.
    • 有机平面发光装置的制造方法包括以下步骤。 首先,提供透明基板,其第一表面具有几个微结构,并且微结构具有与第一表面最大的100微米的高度。 其次,在透明基板的与第一面相反的第二面上形成透明阳极。 第三,在透明阳极上形成至少一个有机电致发光层。 最后,在有机电致发光层上形成金属阴极。 有机平面发光装置的另一制造方法包括以下步骤:在透明基板的第一表面上形成透明薄膜,所述透明薄膜具有多个最大高度为100μm的微结构; 在与所述第一表面相对的所述透明基板的第二表面上形成透明阳极; 形成至少一个有机电致发光层; 在有机电致发光层上形成金属阴极。
    • 6. 发明授权
    • Manufacturing method of organic flat light-emitting devices
    • 有机平板发光装置的制造方法
    • US07131882B2
    • 2006-11-07
    • US11128170
    • 2005-05-13
    • Mao-Kuo WeiJih-Yi Wang
    • Mao-Kuo WeiJih-Yi Wang
    • H01J9/00
    • H01L51/5275H01L51/56
    • A manufacturing method of organic flat light-emitting devices includes the following steps. First, a transparent substrate is provided, which has several microstructures on its first surface and the microstructures have a maximum height of 100 μm from the first surface. Second, a transparent anode is formed on the second surface of the transparent substrate that is opposite to the first surface. Thirdly, at least one organic electro-luminescent layer is formed on the transparent anode. Finally, a metal cathode is formed on the organic electro-luminescent layer. Another manufacturing method of organic flat light-emitting devices includes the steps of: forming a transparent thin film on a first surface of a transparent substrate, the transparent thin film having a plurality of microstructures with a maximum height of 100 μm; forming a transparent anode on a second surface of the transparent substrate opposite to the first surface; forming at least one organic electro-luminescent layer; and forming a metal cathode on the organic electro-luminescent layer.
    • 有机平面发光装置的制造方法包括以下步骤。 首先,提供透明基板,其第一表面具有几个微结构,并且微结构具有与第一表面最大的100微米的高度。 其次,在透明基板的与第一面相反的第二面上形成透明阳极。 第三,在透明阳极上形成至少一个有机电致发光层。 最后,在有机电致发光层上形成金属阴极。 有机平面发光装置的另一制造方法包括以下步骤:在透明基板的第一表面上形成透明薄膜,所述透明薄膜具有多个最大高度为100μm的微结构; 在与所述第一表面相对的所述透明基板的第二表面上形成透明阳极; 形成至少一个有机电致发光层; 在有机电致发光层上形成金属阴极。
    • 7. 发明授权
    • Deposition apparatus for organic light-emitting devices
    • 有机发光装置的沉积装置
    • US06884299B2
    • 2005-04-26
    • US10322727
    • 2002-12-19
    • Yi ChangJih-Yi WangMao-Kuo WeiTien-Rong Lu
    • Yi ChangJih-Yi WangMao-Kuo WeiTien-Rong Lu
    • C23C14/56C23C16/00C23C14/00
    • C23C14/568
    • A deposition apparatus for organic light emitting devices. The deposition apparatus includes a substrate conveying system and at least a chamber. In this case, the substrate conveying system is a circular turntable shape. The chambers are provided around the substrate conveying system in a specific order. While the substrate conveying system rotates in a circular direction, at least a substrate is transferred into the chambers for deposition. The substrate carrier, a shadow mask and a shadow mask alignment system, are positioned on the substrate carrier. After the deposition, at least a layer is deposited on each of the substrates, so as to manufacture at least an organic light-emitting device.
    • 一种用于有机发光装置的沉积装置。 沉积设备包括基板输送系统和至少一个室。 在这种情况下,基板输送系统是圆形转盘形状。 这些室以特定的顺序设置在基板输送系统周围。 当基板输送系统沿圆周方向旋转时,至少一个基板被转移到室中用于沉积。 衬底载体,荫罩和荫罩对准系统位于衬底载体上。 在沉积之后,至少一层沉积在每个基板上,以便制造至少一个有机发光器件。