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    • 1. 发明授权
    • Method of forming metal back-attached fluorescent surface and image display unit
    • 形成金属后附荧光表面和图像显示单元的方法
    • US07074100B2
    • 2006-07-11
    • US10477105
    • 2002-05-09
    • Takeo ItoTakashi NishimuraTsuyoshi OyaizuHajime Tanaka
    • Takeo ItoTakashi NishimuraTsuyoshi OyaizuHajime Tanaka
    • H01J9/00H01J9/24
    • H01J29/28
    • A method for forming a metal back-attached phosphor screen comprises the step of dissolving/removing or rendering highly resistant a specified area of a metal film formed on a phosphor screen by using a liquid that dissolves or oxidizes the metal film. After part of a metal film is removed or rendered highly resistant, an insulating or highly resistant inorganic material may be applied to the remaining ends thereof. Alternatively, an insulating or highly-resistant inorganic material may be added to a dissolving or oxidizing liquid to dissolve/remove or render highly resistant a metal film, and at the same time ends of the metal film are coated with the inorganic material. In this metal back-attached phosphor screen, electron emission elements and the phosphor screen are protected against destruction/deterioration by discharging.
    • 用于形成金属后附荧光屏的方法包括通过使用溶解或氧化金属膜的液体来溶解/除去或提高在荧光屏上形成的金属膜的指定面积的高度耐受性的步骤。 在金属膜的一部分被去除或变得高度耐受之后,可以将绝缘或高度耐性的无机材料施加到其余的端部。 或者,可以将绝缘或高抗性的无机材料添加到溶解或氧化液体中以溶解/除去或使金属膜具有高度抗性,同时金属膜的末端涂覆无机材料。 在该金属背连接的荧光屏中,通过放电来保护电子发射元件和荧光屏免受破坏/劣化。
    • 9. 发明申请
    • Image display
    • 图像显示
    • US20070063634A1
    • 2007-03-22
    • US10556127
    • 2004-04-30
    • Tsuyoshi OyaizuHitoshi TabataIsamu TsuchiyaTakeo Ito
    • Tsuyoshi OyaizuHitoshi TabataIsamu TsuchiyaTakeo Ito
    • H01J63/04H01J1/62
    • H01J29/28H01J29/327H01J29/94H01J31/123H01J2329/28H01J2329/323H01J2329/946
    • This image display unit includes a face plate (6) on an inner surface of which a phosphor screen is formed, and a rear plate having a large number of electron emission elements, wherein the phosphor screen includes a light absorption layer (8), a phosphor layer (9), a metal back layer (10) having a separating portion (10a) and formed on the phosphor layer, a high-resistance covering layer (11) formed on the separating portion of the metal back layer in such a way as to be laid across the metal back layer of both sides of the separating portion, a heat-resistant fine particle layer (12) formed on the high-resistance covering layer, and a getter layer (13) formed in a film shape above the metal back layer and divided by the heat-resistant fine particle layer. In an image display unit such as an FED, a heat-resistance property is enhanced to prevent destruction or deterioration of the light emission element or the phosphor screen due to an abnormal discharge, so that display of high luminance and high quality can be realized.
    • 该图像显示单元包括在其内表面上形成荧光屏的面板(6)和具有大量电子发射元件的后板,其中荧光屏包括光吸收层(8), 荧光体层(9),具有分离部分(10a)并形成在荧光体层上的金属背层(10),形成在金属背层的分离部分上的高电阻覆盖层(11) 在隔离部分的两侧的金属背层上铺设的方法,形成在高电阻覆盖层上的耐热细粒层(12)和形成在上面的膜形式的吸气剂层(13) 金属背层并由耐热细粒层分割。 在诸如FED的图像显示单元中,提高耐热性能以防止由于异常放电引起的发光元件或荧光屏的破坏或劣化,从而可以实现高亮度和高质量的显示。