公开(公告)号：US20060051885A1

公开(公告)日：2006-03-09

申请号：US10934592

申请日：2004-09-03

申请人： Jui-Ting Hsu ,  Jia-Hung Wu ,  Pu-Hsin Chang ,  Shih-Hsun Chen ,  Shih-Chien Hsiao

发明人： Jui-Ting Hsu ,  Jia-Hung Wu ,  Pu-Hsin Chang ,  Shih-Hsun Chen ,  Shih-Chien Hsiao

IPC分类号： H01L21/00

CPC分类号： H01J9/025

摘要： A method of fabricating a gate mask of a tetra-polar field-emission display. A focus metal mask having a plurality of windows is formed. A low-viscosity and water-soluble high molecular solution is coated on the focus metal mask to form a viscous interface. A first low-temperature drying process is performed allow the viscous interface dried up into a film. An insulating material is then formed on the film of viscous interface by screen printing. A sintering process is performed to remove the viscous interface, so as to crystallize the insulating material on the focus metal mask.

摘要翻译： 一种制造四极场发射显示器的栅极掩模的方法。 形成具有多个窗口的聚焦金属掩模。 将低粘度和水溶性高分子溶液涂覆在焦点金属掩模上以形成粘性界面。 进行第一次低温干燥处理，使粘性界面干燥成膜。 然后通过丝网印刷在粘性界面的膜上形成绝缘材料。 进行烧结处理以除去粘性界面，以使聚焦金属掩模上的绝缘材料结晶。

公开(公告)号：US20090075548A1

公开(公告)日：2009-03-19

申请号：US11856779

申请日：2007-09-18

申请人： Shih-Chien Hsiao ,  Pu-Hsin Chang

发明人： Shih-Chien Hsiao ,  Pu-Hsin Chang

IPC分类号： H01J9/24

CPC分类号： H01J29/02 ,  H01J9/022 ,  H05K3/207 ,  H05K3/4685 ,  H05K2201/0133

摘要： A manufacturing method of cross-wiring an electrode wire of a field emission display is used for forming a cross-wire structure of an electrode wire. In the method, a has a conducting layer, and the conducting layer has a protruded object. A tool is used for aligning the substrate, and the tool has a dispensing pillar made of an elastic material. The front end of the dispensing pillar has a dispensing head aligning precisely with the position of the protruded object. After a conductive adhesive is adhered onto the dispensing head, the protruded object is pressed, such that the dispensing head is deformed to cover the protruded object completely, and the conductive adhesive adhered on the dispensing head forms a conducting layer on the outer circumferential surface of the protruded object for cross-wiring an electrode wire, immediately after the dispensing pillar is pulled away.

摘要翻译： 使用场致发射显示器的电极线交叉布线的制造方法来形成电极线的交叉线结构。 在该方法中，a具有导电层，并且导电层具有突出物体。 使用工具来对准衬底，并且工具具有由弹性材料制成的分配柱。 分配柱的前端具有与突出物体的位置精确对准的分配头。 在导电粘合剂粘附到分配头上之后，突出的物体被压制，使得分配头变形以完全覆盖突出物体，并且粘附在分配头上的导电粘合剂在导电层的外周表面上形成导电层 在分配支柱被拉开之后立即将电极线交叉布线的突出物体。

公开(公告)号：US20080158681A1

公开(公告)日：2008-07-03

申请号：US11618826

申请日：2006-12-30

申请人： Shih-Chien Hsiao ,  Chang-Jen Huang ,  Ming-Chun Ho ,  Pu-Hsin Chang ,  Yi-Ting Chung

发明人： Shih-Chien Hsiao ,  Chang-Jen Huang ,  Ming-Chun Ho ,  Pu-Hsin Chang ,  Yi-Ting Chung

IPC分类号： G02B5/02

CPC分类号： G02B5/0278 ,  G02B5/0236 ,  H01J29/89 ,  H01J31/123

摘要： An optical diffuser structure for field emitting display element provides uniform lightness contrast to a display, and includes a glass substrate as main body, wherein plural black stripe blocking layers is arranged on the panel of the substrate for covering the light diffusing path of the display element, a transparent glue layer being further arranged on the surfaces of the black stripe blocking layer and glass substrate, thus the black stripe blocking layer is protected from the damage caused by sandblasting process, at last, a nebulized surface is formed on the transparent glue layer, thereby, through the diffuser structure, the light generated by the display element possesses a uniformity without any reduction and loss of lightness.

摘要翻译： 场发射显示元件的光漫射器结构提供与显示器的均匀的亮度对比度，并且包括作为主体的玻璃基板，其中多个黑条阻挡层布置在基板的面板上，用于覆盖显示元件的光漫射路径 在黑色条纹阻挡层和玻璃基板的表面上进一步布置透明胶层，防止黑色条纹阻挡层免受喷砂处理造成的损伤，最后在透明胶层上形成雾化表面 从而通过扩散器结构，由显示元件产生的光具有均匀性，而没有任何减轻和减轻亮度。

公开(公告)号：US20110123733A1

公开(公告)日：2011-05-26

申请号：US12591612

申请日：2009-11-25

申请人： Frank Yang ,  Ming Chun Ho ,  Shih-Chien Hsiao ,  Chuei-Chuan Wang

发明人： Frank Yang ,  Ming Chun Ho ,  Shih-Chien Hsiao ,  Chuei-Chuan Wang

IPC分类号： B32B3/06 ,  B32B3/22 ,  E06B3/00 ,  B32B17/06 ,  B32B3/08

CPC分类号： B32B17/06

摘要： A vacuum flat glass substrate structure includes two glass substrates and a glass frit adhering to the boundary of the two glass substrates. The glass substrates and the glass frit form a sealed vacuum room. The two glass substrates have receiving gaps formed on the boundary thereof. A glass tube is disposed in the receiving gaps, and an interior end portion of the glass tube extends into the vacuum room and a sealed exterior end portion of the glass tube doesn't extend out of the geometric space in accordance of the receiving gaps. Accordingly, the present invention can receive and conceal the glass tube protruding out of the surfaces associated with the glass substrates in the receiving gaps, thereby keeping the glass substrates in flat and smooth shape after being lapped and sealed.

摘要翻译： 真空平板玻璃基板结构包括两个玻璃基板和粘附在两个玻璃基板的边界上的玻璃料。 玻璃基板和玻璃料形成密封的真空室。 两个玻璃基板在其边界上形成有接收间隙。 玻璃管设置在接收间隙中，并且玻璃管的内端部延伸到真空室中，并且玻璃管的密封外端部分不会根据接收间隙延伸出几何空间。 因此，本发明可以接收和隐藏在接收间隙中从与玻璃基板相关联的表面突出的玻璃管，从而在研磨和密封之后保持玻璃基板的平坦和平滑的形状。

公开(公告)号：US20110123734A1

公开(公告)日：2011-05-26

申请号：US12857547

申请日：2010-08-16

申请人： FRANK YANG ,  Ming-Chun Ho ,  Chang-Jen Huang ,  Kuo-Hua Chen ,  Shih-Chien Hsiao ,  Cheng-Chieh Kao ,  Chih-Che Kuo ,  Kuo-Chih Yang ,  Chuei-Chuan Wang

发明人： FRANK YANG ,  Ming-Chun Ho ,  Chang-Jen Huang ,  Kuo-Hua Chen ,  Shih-Chien Hsiao ,  Cheng-Chieh Kao ,  Chih-Che Kuo ,  Kuo-Chih Yang ,  Chuei-Chuan Wang

IPC分类号： B32B3/08 ,  E06B3/00

CPC分类号： B32B17/06 ,  E06B3/677

摘要： A vacuum glass structure comprising two glass substrates maintained at an substantially constant interval by a glass frit paste sealingly adhering to the peripheries thereof, forming a hermetically sealed vacuum room. A receiving gap is formed at the periphery of the glass substrate. The internal surface of the glass structure further includes an air chamber and a glass tube groove for receiving a pumping tube. The pumping tube can be placed inside the receiving gap with the internal end of the pumping tube extending from the receiving gap through the glass tube groove into the air chamber. The external end of the pumping tube constitutes a hermetic seal retained within the geometric boundary of the receiving gap. The air chamber structure may improve air transferring efficiency and prevents problems such as blockage in the pumping tube, thus enabling an increase in production yield.

摘要翻译： 一种真空玻璃结构，包括通过密封地附着在其周边上的玻璃料糊保持基本上恒定间隔的两个玻璃基板，形成气密密封的真空室。 在玻璃基板的周围形成有接收间隙。 玻璃结构的内表面还包括用于接收泵管的空气室和玻璃管槽。 泵送管可以放置在接收间隙内，泵管的内端从容纳间隙通过玻璃管槽延伸到空气室中。 泵管的外端构成保持在接收间隙的几何边界内的气密密封。 空气室结构可以提高空气传输效率，并且防止泵送管中的堵塞等问题，从而能够提高产量。

公开(公告)号：US07147534B2

公开(公告)日：2006-12-12

申请号：US10860002

申请日：2004-06-04

申请人： Shih-Hsun Chen ,  Chun-Yen Hsiao ,  Shih-Chien Hsiao ,  Shie-Heng Lee ,  Kuei-Wen Cheng

发明人： Shih-Hsun Chen ,  Chun-Yen Hsiao ,  Shih-Chien Hsiao ,  Shie-Heng Lee ,  Kuei-Wen Cheng

IPC分类号： H01J9/12 ,  B05D1/32 ,  B05D3/02 ,  B29C71/02

CPC分类号： H01J9/025 ,  B82Y10/00 ,  H01J2201/30469 ,  H01J2329/00

摘要： A patterned carbon nanotube process adopted for an electronic device is described. A negative photoresist layer is coated on a cathode substrate. A mask layer is formed with a carved cavity therein during a development process. A carbon nanotube spray is sprayed thereon to fill the carved cavity with a plurality of carbon nanotubes. The cathode substrate is sintered at a high temperature or in a vacuum to remove the mask layer and part of the carbon nanotubes adhered to the mask layer simultaneously, and to connect the rest of the carbon nanotubes firmly to the cathode conductive layer as an electron emitter layer with high resolution for increasing current density and uniformity of illumination of the electronic device.

摘要翻译： 描述了用于电子设备的图案化碳纳米管工艺。 在阴极基板上涂覆负性光致抗蚀剂层。 在显影过程中，掩模层在其中形成有雕刻空腔。 在其上喷涂碳纳米管喷雾以用多个碳纳米管填充雕刻空腔。 阴极基板在高温或真空下烧结以同时去除掩模层和粘附到掩模层的一部分碳纳米管，并将其余的碳纳米管牢固地连接到作为电子发射体的阴极导电层 具有高分辨率的层，用于增加电子设备的电流密度和均匀性。

公开(公告)号：US20060013944A1

公开(公告)日：2006-01-19

申请号：US10890096

申请日：2004-07-14

申请人： Shih-Chien Hsiao ,  Kuei-Wen Cheng ,  Jia-Hung Wu

发明人： Shih-Chien Hsiao ,  Kuei-Wen Cheng ,  Jia-Hung Wu

IPC分类号： B05D5/06 ,  C09K11/02

CPC分类号： C09K11/02 ,  C09K11/08

摘要： A developable phosphor coating mixture solution and its manufacturing technique on anodic phosphor layers are described. The anodic phosphor layer of the field emission display is achieved through a silkscreen-printing method copulated with exposure procedure. The process is a simple silkscreen-printing method on an anodic glass substrate. Material features are combined with the manufacturing process to increase the adhesion ability of the phosphor powder on the anodic laminate. The exposure procedure develops high-resolution photography. The simple process and low cost coating can be used in manufacturing glass substrates.

摘要翻译： 描述了可显影的磷光体涂层混合物溶液及其在阳极磷光体层上的制造技术。 场致发射显示器的阳极磷光体层通过与曝光程序相结合的丝网印刷方法来实现。 该方法是在阳极玻璃基板上的简单的丝网印刷方法。 材料特征与制造工艺结合以增加荧光粉在阳极层压板上的粘合能力。 曝光程序开发高分辨率摄影。 简单的工艺和低成本的涂层可用于制造玻璃基板。

公开(公告)号：US20050272342A1

公开(公告)日：2005-12-08

申请号：US10860002

申请日：2004-06-04

申请人： Shih-Hsun Chen ,  Chun-Yen Hsiao ,  Shih-Chien Hsiao ,  Shie-Heng Lee ,  Kuei-Wen Cheng

发明人： Shih-Hsun Chen ,  Chun-Yen Hsiao ,  Shih-Chien Hsiao ,  Shie-Heng Lee ,  Kuei-Wen Cheng

IPC分类号： H01J9/02 ,  H01J9/04 ,  H01J9/12

CPC分类号： H01J9/025 ,  B82Y10/00 ,  H01J2201/30469 ,  H01J2329/00

摘要： A patterned carbon nanotube process adopted for an electronic device is described. A negative photoresist layer is coated on a cathode substrate. A mask layer is formed with a carved cavity therein during a development process. A carbon nanotube spray is sprayed thereon to fill the carved cavity with a plurality of carbon nanotubes. The cathode substrate is sintered at a high temperature or in a vacuum to remove the mask layer and part of the carbon nanotubes adhered to the mask layer simultaneously, and to connect the rest of the carbon nanotubes firmly to the cathode conductive layer as an electron emitter layer with high resolution for increasing current density and uniformity of illumination of the electronic device.

摘要翻译： 描述了用于电子设备的图案化碳纳米管工艺。 在阴极基板上涂覆负性光致抗蚀剂层。 在显影过程中，掩模层在其中形成有雕刻空腔。 在其上喷涂碳纳米管喷雾以用多个碳纳米管填充雕刻空腔。 阴极基板在高温或真空下烧结以同时去除掩模层和粘附到掩模层的一部分碳纳米管，并将其余的碳纳米管牢固地连接到作为电子发射体的阴极导电层 具有高分辨率的层，用于增加电子设备的电流密度和均匀性。