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    • 4. 发明授权
    • Method of electrophotographically manufacturing a luminescent screen for
a color CRT having a conductive contact patch
    • 电子照相制造具有导电接触片的彩色CRT的荧光屏的方法
    • US5151337A
    • 1992-09-29
    • US543309
    • 1990-06-26
    • Charles M. WetzelPeter M. RittOwen H. Roberts, Jr.Harry R. Stork
    • Charles M. WetzelPeter M. RittOwen H. Roberts, Jr.Harry R. Stork
    • H01J9/22H01J9/227
    • H01J9/2276H01J9/225H01J2229/88H01J2229/925
    • The method of electrophotographically manufacturing a luminescent screen on a substrate of a color CRT, according to the present invention, includes the steps of forming a photoreceptor by sequentially coating the substrate to form a conductive layer and an overcoating of a photoconductive layer, establishing an electrostatic charge on the photoconductive layer, and exposing selected areas of the photoconductive layer to visible light to affect the charge thereon. Then the photoconductive layer is developed by the application of suitable triboelectrically charged, dry-powdered screen structure materials. The improved process provides at least one wear-resistant, conductive contact patch on a peripheral portion of a surface of the substrate. The contact patch has a first portion which underlies at least one of the layers of the photoreceptor and is in electrical contact with the conductive layer, and a second portion which extends from the photoreceptor. The contact patch is utilized during the manufacturing process to electrically ground the conductive layer during charging of the photoconductive layer. The contact patch also is utilized to measure the charge on the photoconductive layer during the developing process. Additionally, the contact patch provides an electrical contact, in the finished tube, between an aluminized layer on the screen and at least one support for a shadow mask.
    • 根据本发明的在彩色CRT的基板上电子照相制造荧光屏的方法包括以下步骤:通过依次涂覆基底以形成导电层和光电导层的外涂层来形成感光体,建立静电 在光电导层上充电,并将光电导层的选定区域暴露于可见光以影响其上的电荷。 然后通过使用合适的摩擦带电的干粉末筛网结构材料来开发光电导层。 改进的方法在衬底的表面的周边部分上提供至少一个耐磨导电接触贴片。 接触片具有位于感光体的至少一层的第一部分,并且与导电层电接触,以及从感光体延伸的第二部分。 在制造过程中利用接触片在光电导层的充电期间电导电导电层。 接触片也用于在显影过程中测量光电导层上的电荷。 此外,接触片在成品管中提供了屏幕上的镀铝层和至少一个用于荫罩的支撑之间的电接触。
    • 6. 发明授权
    • Photographic printing plate and method of exposing a coated sheet using
same
    • 照相印版和使用其曝光涂布片的方法
    • US4669871A
    • 1987-06-02
    • US892072
    • 1986-08-01
    • Charles M. WetzelJohn J. MosconyThomas J. MichieluttiDean T. Deibler
    • Charles M. WetzelJohn J. MosconyThomas J. MichieluttiDean T. Deibler
    • G03B27/20G03F7/20
    • G03F7/2014G03B27/20
    • A method and apparatus for exposing a layer of photoresist on a sheet includes positioning the sheet in a vacuum printing frame comprising a glass photographic printing plate carrying an opaque master pattern of metal or metal oxide on a central area of the printing plate. A light transmissive rubbery material is patterned in such a fashion as to overlie the opaque portions of the master pattern and provide a continuous path between the islands overlying the opaque master pattern. The rubbery material also extends in the peripheral area of the photographic printing plate and a plurality of mesas separated by channels are formed in this peripheral area. The channels have a width substantially greater than the path width formed between adjacent islands of rubbery material overlying the opaque portions of the pattern. The peripheral channels facilitate the evacuation of the plate and reduce evacuation time. The mesas of rubbery material in the peripheral area of the plate through which the channels are formed act as supports to space the printing plate from the resist coating on the metal sheet so that evacuation of the space between the printing plate and the sheet can be achieved without having the printing plate either be sealed-off by the metal sheet or by a second printing plate which is located on the opposite side of the metal sheet.
    • 用于在片材上曝光光致抗蚀剂层的方法和装置包括将片材定位在真空印刷框架中,真空印刷框架包括在印版的中心区域上承载不透明的金属或金属氧化物主图案的玻璃照相印版。 将透光橡胶材料图案化成覆盖主图案的不透明部分的方式,并且在覆盖不透明主图案的岛之间提供连续路径。 橡胶状材料也在照相印版的周边区域中延伸,并且在该周边区域中形成由通道分开的多个台面。 通道的宽度明显大于形成在邻近图案不透明部分的橡胶状材料岛之间的路径宽度。 外围通道有助于排空板,减少撤离时间。 通过其形成的板的周边区域中的橡胶状材料的台面用作用于将印刷板从金属板上的抗蚀剂涂层放置的支撑件,从而可以实现印刷板和片材之间的空间的抽真空 而不需要印刷板被金属板或位于金属板的相对侧上的第二印刷板密封。
    • 8. 发明授权
    • Method of manufacturing a luminescent screen for a CRT under ambient
controls
    • 在环境控制下制造CRT荧光屏的方法
    • US5474867A
    • 1995-12-12
    • US305952
    • 1994-09-16
    • Peter M. RittCharles M. WetzelHarry R. StorkJohn J. Moscony
    • Peter M. RittCharles M. WetzelHarry R. StorkJohn J. Moscony
    • G03G13/22H01J9/22H01J9/227G03C5/00
    • H01J9/2276G03G13/22H01J9/225
    • In accordance with the present invention, a method of electro-photographically manufacturing a luminescent screen assembly for a color CRT 10 on an interior surface of a faceplate panel 12 is described. A volatilizable, organic conductive (OC) layer 32 is provided on the interior surface of the panel and a volatilizable, organic photoconductive (OPC) layer 34 overlies the OC layer. The method includes the steps of: establishing a substantially uniform electrostatic charge on the OPC layer; exposing selected areas of the OPC layer to visible light to affect the charge thereon; developing the selected areas of the OPC layer with a triboelectrically charged dry-powdered, screen structure materials; fixing the screen structure materials to the underlying OPC layer with a suitable fixative; filming the screen structure materials; aluminizing the screen; and baking the aluminized screen. The present method is an improvement over prior methods because the relative humidity (RH) during the charging step is maintained above a humidity level below which the performance of the OC layer is negatively impacted by a reduction in its ion transfer mobility which makes it difficult to apply a usable corona charge to the overlying OPC layer, and below a humidity level above which the OC layer swells causing cracking in the OPC layer. Additionally, the RH during the development step is maintained below a humidity above which the screen structure materials can absorb water and macro-agglomerate, thereby changing the charge-to-mass ration of the screen structure materials to a value which adversely affects the deposition thereof.
    • 根据本发明,描述了在面板12的内表面上电照相制造用于彩色CRT10的荧光屏组件的方法。 可挥发的有机导电(OC)层32设置在面板的内表面上,可挥发的有机光电导(OPC)层34覆盖在OC层上。 该方法包括以下步骤:在OPC层上建立基本均匀的静电电荷; 将OPC层的选定区域暴露于可见光以影响其上的电荷; 用摩擦带电的干粉状筛网结构材料开发OPC层的选定区域; 将屏幕结构材料用合适的固定剂固定到底层OPC层; 拍摄屏幕结构材料; 镀铝屏幕; 并烘烤镀铝的屏幕。 本方法是对现有方法的改进,因为在充电步骤期间的相对湿度(RH)保持在高于低于该湿度水平的湿度水平以下,OC层的性能受到其离子迁移迁移率的降低的不利影响,这使得难以 对上覆的OPC层施加可用的电晕电荷,并在低于湿度水平的情况下,OC层膨胀,导致OPC层中的裂纹。 此外,显影步骤中的RH保持低于该屏幕结构材料可以吸收水分和大量聚集的湿度以下,从而将屏幕结构材料的电荷质量比改变为不利地影响其沉积的值 。