会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明申请
    • 画像表示装置およびその製造方法
    • 图像显示及其制造方法
    • WO2005081281A1
    • 2005-09-01
    • PCT/JP2005/002238
    • 2005-02-15
    • 株式会社 東芝小柳津 剛田畑 仁土屋 勇伊藤 武夫
    • 小柳津 剛田畑 仁土屋 勇伊藤 武夫
    • H01J29/28
    • H01J29/28H01J29/94H01J31/127H01J2329/28H01J2329/323H01J2329/946
    • Disclosed is an image display comprising a face plate wherein a metal back layer is formed on a phosphor screen and a rear plate having a plurality of electron-emitting devices. The metal back layer is provided with an electrically interrupting portion formed in a certain pattern. The electrically interrupting portion is provided with a coating layer which contains a component dissolving or oxidizing a metal (Al) and heat-resistant particles such as silica particles, and the surface of the coating layer has projected and recessed portions caused by the heat-resistant particles. A getter layer which is segmentalized by the coating layer is formed on the metal back layer as a film. At least a part of a light absorptive layer lying under the interrupting portion of the metal back layer may preferably have a surface resistance from 1 x 10 to 1 x 10 ohm/□. Consequently, there can be obtained an image display having excellent pressure resistance wherein the discharge current is suppressed, and such an image display can be manufactured by a process having less steps.
    • 公开了一种图像显示器,其包括面板,其中金属背层形成在荧光屏上,后板具有多个电子发射器件。 金属背层设置有以特定图案形成的电断开部分。 电气断开部分设置有包含溶解或氧化金属(Al)的组分和耐二氧化硅颗粒等耐热颗粒的涂层,并且涂层的表面具有由耐热性引起的突起和凹陷部分 粒子。 在金属背层上形成由涂层分割的吸气层作为膜。 位于金属背层的中断部分下方的光吸收层的至少一部分可以优选具有1×10 5至1×10 12欧姆/□的表面电阻。 因此,可以获得具有优异的耐压性的图像显示器,其中放电电流被抑制,并且可以通过具有较少步骤的处理来制造这种图像显示。
    • 4. 发明申请
    • 画像表示装置とその製造方法
    • 图像显示装置及其制造方法
    • WO2006025385A1
    • 2006-03-09
    • PCT/JP2005/015763
    • 2005-08-30
    • 株式会社 東芝小柳津 剛奥土 幸男
    • 小柳津 剛奥土 幸男
    • H01J31/12H01J9/39H01J29/18H01J29/94
    • H01J29/94H01J9/20
    • The front panel of an image display device is provided with a plurality of phosphor layers (6) formed on a glass board (4); a plurality of light absorbing layers (5) provided between the phosphor layers, respectively; a metal back layer (1), which is formed on the phosphor layers and is electrically divided into a plurality of pieces; a plurality of getter dividing layers (2), which are formed on the light absorbing layers by depositing an insulator as a cliff-shaped deposit having a wall surface formed within a range of 90 to 80 degrees to a metal back layer surface; and a plurality of getter layers (3) wherein the getter layer on the metal back layer and the getter layer on the getter dividing layer (2) are electrically insulated by being stacked on the metal back layer and the getter dividing layer, respectively. The getter layer formed on the getter dividing layer and the getter layer formed on the metal back layer are sufficiently separated, discharge chaining is prevented and the image display device having excellent operation stability is provided.
    • 图像显示装置的前面板设置有形成在玻璃板(4)上的多个荧光体层(6)。 分别设置在所述荧光体层之间的多个光吸收层(5) 金属背层(1),其形成在所述荧光体层上并被电分割成多个片; 多个吸气分隔层(2),其通过沉积作为具有形成在与金属背层表面在90至80度的范围内的壁表面的悬崖形沉积物的绝缘体形成在所述光吸收层上; 以及多个吸气剂层(3),其中金属背层上的吸气剂层和吸气剂分隔层(2)上的吸气剂层分别通过层叠在金属背层和吸气剂分隔层上而被电绝缘。 形成在吸气剂分隔层上的吸气剂层和形成在金属背层上的吸气剂层被充分分离,防止了排出链接,并且提供了具有优异的操作稳定性的图像显示装置。
    • 6. 发明申请
    • メタルバック付き蛍光面の形成方法および画像表示装置
    • 形成金属背面荧光表面和图像显示单元的方法
    • WO2002093607A1
    • 2002-11-21
    • PCT/JP2002/004506
    • 2002-05-09
    • 株式会社 東芝伊藤 武夫西村 孝司小柳津 剛田中 肇
    • 伊藤 武夫西村 孝司小柳津 剛田中 肇
    • H01J9/22
    • H01J29/28
    • A method of forming a metal back−attached fluorescent surface comprising the step of dissolving/removing or rendering highly resistant a specified area in a metal film formed on a fluorescent surface 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 treating ends are coated with an inorganic material. Accordingly, a metal back−attached fluorescent surface is obtained that is protected against electron emission elements by discharging and the destruction/deterioration of the fluorescent surface.
    • 一种形成金属背附荧光表面的方法,包括通过使用溶解或氧化金属膜的液体,将形成在荧光表面上的金属膜中的特定区域溶解/除去或赋予高度特性的步骤。 在金属膜的一部分被去除或变得高度耐受之后,绝缘或高抗性的无机材料可以施加到其余的端部。 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的抗性,同时用无机材料涂覆处理端。 因此,获得通过放电和荧光表面的破坏/劣化来防止电子发射元件的金属背连荧光表面。
    • 7. 发明申请
    • 画像表示装置
    • 图像显示
    • WO2004100205A1
    • 2004-11-18
    • PCT/JP2004/005835
    • 2004-04-30
    • 株式会社 東芝小柳津 剛田畑 仁土屋 勇伊藤 武夫
    • 小柳津 剛田畑 仁土屋 勇伊藤 武夫
    • H01J31/12
    • H01J29/28H01J29/327H01J29/94H01J31/123H01J2329/28H01J2329/323H01J2329/946
    • An image display comprising a face plate (6) whose inner surface is provided with a phosphor screen and a rear plate having many electron-emitting devices is disclosed. The phosphor screen comprises a light-absorbing layer (8), a phosphor layer (9), a metal back layer (10) which has a separating portion (10a) and is formed on the phosphor layer, a high-resistance covering layer (11) which is so formed across the separating portion of the metal back layer as to extend over the metal back layer on 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) which is formed as a film lying over the metal back layer and divided by the heat-resistant fine particle layer. Consequently, by improving heat resistance characteristics, breakage and deterioration of the electron-emitting devices or the phosphor screen due to abnormal discharge can be prevented in an image display such as an FED, and thus a high-luminance, high-quality display can be realized.
    • 公开了一种图像显示器,其包括其内表面设置有荧光屏的面板(6)和具有许多电子发射器件的后板。 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),高电阻覆盖层 11),其在金属背层的分离部分上形成为跨越分离部分两侧的金属背层延伸,形成在高电阻覆盖层上的耐热细颗粒层(12) 以及吸收剂层(13),其形成为位于金属背层上并由耐热细粒层分割的膜。 因此,通过提高耐热特性,可以防止诸如FED的图像显示中由于异常放电而导致的电子发射器件或荧光屏的破坏和劣化,因此可以将高亮度,高质量的显示 实现。