公开(公告)号：US20070193876A1

公开(公告)日：2007-08-23

申请号：US11358090

申请日：2006-02-22

Applicant: Jau-Jier Chu ,  Hsu-Fu Hung ,  I-Wen Lee ,  Chien-Min Weng ,  Chao-Lan Lee

Inventor： Jau-Jier Chu ,  Hsu-Fu Hung ,  I-Wen Lee ,  Chien-Min Weng ,  Chao-Lan Lee

IPC: C23C14/32 ,  B32B9/04

CPC classification number: C23C14/022 ,  C23C14/086 ,  C23C14/10 ,  G02B1/115 ,  Y10T428/31504

Abstract: A manufacturing method for sputtering an anti-refection layer onto a board at low temperature has the merits of easily being implemented and easily mass-produced. The manufacturing method is used for sputtering multiple anti-refection layers onto a board. The method can be used for mass-producing anti-reflection panels as the raw material for the photo industry. The method is superior to the manufacturing method for producing nebulization anti-reflection panels. This invention utilizes the anti-reflection characteristics of the board structure that is sputtered and stacked alternatively with high index refraction layers and low index refraction layers. A continuous manufacturing process is adopted. The present invention uses plasma to clean the surface of the boards and adopts a traditional sputtering machine. Therefore, it is convenient for installing and mass-producing high quality material.

Abstract translation: 在低温下将抗反射层溅射到基板上的制造方法具有易于实现和容易批量生产的优点。 该制造方法用于将多个抗反射层溅射到板上。 该方法可用于批量生产抗反射板作为照相工业的原料。 该方法优于制造雾化防反射板的制造方法。 本发明利用板结构的防反射特性，其具有高折射率折射层和低折射折射层的溅射和堆叠。 采用连续制造工艺。 本发明使用等离子体清洁电路板的表面并采用传统的溅射机。 因此，安装和批量生产高品质材料是方便的。

公开(公告)号：US20070119702A1

公开(公告)日：2007-05-31

申请号：US11289289

申请日：2005-11-30

Applicant: Jau-Jier Chu ,  Hsu-Fu Hung ,  I-Wen Lee ,  Chien-Min Weng ,  Tzu-Wen Chu

Inventor： Jau-Jier Chu ,  Hsu-Fu Hung ,  I-Wen Lee ,  Chien-Min Weng ,  Tzu-Wen Chu

IPC: C23C14/00

CPC classification number: C23C14/562

Abstract: A method for sputtering a multilayer film on a sheet workpiece at a low temperature of the present invention has the following steps: employing plasma to clean a surface of a sheet workpiece, sputtering at least one metal oxide or semiconductor oxide on the sheet workpiece, and sputtering at least one ITO transparent electric layer on the sheet workpiece. The film sputtering process of the sheet workpiece employs continuously connecting work stations, thereby controlling delay time between the work stations of the sheet workpiece within a given range. The sheet workpiece is made from a macromolecular material.

Abstract translation: 在本发明的低温下在薄板工件上溅射多层膜的方法具有以下步骤：使用等离子体清洁片材工件的表面，在片材工件上溅射至少一种金属氧化物或半导体氧化物，以及 在片材工件上溅射至少一个ITO透明电层。 片材工件的薄膜溅射工艺使用连续的连续工作站，从而控制在给定范围内的片材工件的工作站之间的延迟时间。 片材工件由大分子材料制成。

公开(公告)号：US5916684A

公开(公告)日：1999-06-29

申请号：US995914

申请日：1997-12-22

Applicant: Jau-Jier Chu ,  I-Wen Lee

Inventor： Jau-Jier Chu ,  I-Wen Lee

IPC: G02B1/11 ,  B32B17/00

CPC classification number: G02B1/116 ,  Y10T428/31678 ,  Y10T428/31692

Abstract: An anti-reflection screen filter is provided that includes four consecutively applied layers to a substrate. A first layer, furthest from the substrate, is arranged on an underlying second layer and comprises an oxide material having a refractive index within the approximating range of 1.46 to 1.50 at a wavelength of 520 nm. The second layer is arranged on an underlying third layer and is formed by a metal having a refractive index within the approximating range of 1.5 to 4.0 at a wavelength of 520 nm. The third layer is arranged on an underlying fourth layer and is formed by a metal having a refractive index within the approximating range of 0.2 to 1.4 at a wavelength of 520 nm. The fourth layer is disposed on the front surface of a substrate and is formed by a metal having a refractive index within the approximating range of 1.5 to 4.0 at a wavelength of 520 nm.

Abstract translation: 提供了一种防反射屏蔽滤光器，其包括四个连续施加到基板的层。 距离衬底最远的第一层被布置在下面的第二层上，并且包括在520nm的波长处的折射率在1.46至1.50的近似范围内的氧化物材料。 第二层布置在下面的第三层上，并且由在520nm的波长处的折射率在1.5至4.0的近似范围内的金属形成。 第三层布置在下面的第四层上，并且由在520nm的波长处的折射率在0.2至1.4的近似范围内的金属形成。 第四层设置在基板的前表面上，并且由在520nm的波长处的折射率在1.5至4.0的近似范围内的金属形成。

公开(公告)号：US08245535B2

公开(公告)日：2012-08-21

申请号：US12575471

申请日：2009-10-08

Applicant: Chien-Min Weng ,  Tzu-Wen Chu ,  Chiao-Ning Huang ,  Fu-Jen Wang ,  Shih-Liang Chou ,  I-Wen Lee ,  Ching-Hsiu Cheng

Inventor： Chien-Min Weng ,  Tzu-Wen Chu ,  Chiao-Ning Huang ,  Fu-Jen Wang ,  Shih-Liang Chou ,  I-Wen Lee ,  Ching-Hsiu Cheng

IPC: C03C15/00 ,  C03C21/00

CPC classification number: C03C23/006 ,  C03C21/002

Abstract: A method of strengthening glass plate is provided. A plasma treating process is performed on a glass plate so that a surface pore variation of the glass plate after the plasma treating process is reduced relative to the surface pore variation of the glass plate before the plasma treating process, wherein the surface pore variation is a variation degree of surface pores in different unit areas of the glass plate. In the mean time, a melted network crosslinking structure is formed on the surface of the glass plate. Based on the above-mentioned mechanisms, the glass plate is strengthened. The plasma treating process is conducive to strengthen the glass plate whether the plasma treating process is performed before or after the conventional chemical strengthening process.

Abstract translation: 提供一种强化玻璃板的方法。 在玻璃板上进行等离子体处理，使等离子体处理后的玻璃板的表面孔隙变化相对于等离子体处理工序前的玻璃板的表面孔隙变化量减小，其中表面孔隙变化为 玻璃板不同单位面积的表面孔隙变化程度。 同时，在玻璃板的表面上形成熔融的网状交联结构。 基于上述机理，玻璃板被加强。 等离子体处理方法有利于加强玻璃板，无论是否在常规化学强化过程之前或之后进行等离子体处理工艺。

公开(公告)号：US20120050225A1

公开(公告)日：2012-03-01

申请号：US12964800

申请日：2010-12-10

Applicant: SHIH-LIANG CHOU ,  Hsueh-Chih Chiang ,  Chien-Min Weng ,  Jyh-An Chen ,  Shr-Lung Chen ,  I-Wen Lee ,  Hsing-Yeh Chen

Inventor： SHIH-LIANG CHOU ,  Hsueh-Chih Chiang ,  Chien-Min Weng ,  Jyh-An Chen ,  Shr-Lung Chen ,  I-Wen Lee ,  Hsing-Yeh Chen

IPC: G06F3/042 ,  G06F3/041

CPC classification number: G06F3/041 ,  G06F3/044 ,  G06F2203/04103 ,  G06F2203/04107

Abstract: A touch panel includes a transparent substrate, an electrically conductive icon or artwork layer, a first icon or artwork layer, a sensing layer, a metal layout and an electrode pattern. The electrically conductive icon or artwork layer is disposed between the transparent substrate and the first icon or artwork layer. The first icon or artwork layer is so coated as to extend over the periphery of the electrically conductive icon or artwork layer. The electrically conductive icon or artwork layer is electrically connected to a grounding trace to impart the touch panel an improved anti-electromagnetic interference capability, thereby ameliorating the problem of false actuation that frequently occurs between the icon or artwork layer and the sensing layer in the conventional devices.

Abstract translation: 触摸面板包括透明衬底，导电图标或艺术品层，第一图标或艺术品层，感测层，金属布局和电极图案。 导电图标或艺术品层设置在透明基板和第一图标或艺术品层之间。 第一个图标或图稿层被涂覆以延伸到导电图标或艺术品层的周边上。 导电图标或图案层电连接到接地迹线以赋予触摸面板改进的抗电磁干扰能力，从而改善常规地在图标或图稿层与传统层之间经常发生的假致动作的问题 设备。

公开(公告)号：US20110056244A1

公开(公告)日：2011-03-10

申请号：US12575471

申请日：2009-10-08

Applicant: Chien-Min Weng ,  Tzu-Wen Chu ,  Chiao-Ning Huang ,  Fu-Jen Wang ,  Shih-Liang Chou ,  I-Wen Lee ,  Ching-Hsiu Cheng

Inventor： Chien-Min Weng ,  Tzu-Wen Chu ,  Chiao-Ning Huang ,  Fu-Jen Wang ,  Shih-Liang Chou ,  I-Wen Lee ,  Ching-Hsiu Cheng

IPC: C03C21/00 ,  C03C23/00

CPC classification number: C03C23/006 ,  C03C21/002

Abstract: A method of strengthening glass plate is provided. A plasma treating process is performed on a glass plate so that a surface pore variation of the glass plate after the plasma treating process is reduced relative to the surface pore variation of the glass plate before the plasma treating process, wherein the surface pore variation is a variation degree of surface pores in different unit areas of the glass plate. In the mean time, a melted network crosslinking structure is formed on the surface of the glass plate. Based on the above-mentioned mechanisms, the glass plate is strengthened. The plasma treating process is conducive to strengthen the glass plate whether the plasma treating process is performed before or after the conventional chemical strengthening process.

Abstract translation: 提供一种强化玻璃板的方法。 在玻璃板上进行等离子体处理，使等离子体处理后的玻璃板的表面孔隙变化相对于等离子体处理前的玻璃板的表面孔隙变化量减小，其中表面孔隙变化为 玻璃板不同单位面积的表面孔隙变化程度。 同时，在玻璃板的表面上形成熔融的网状交联结构。 基于上述机理，玻璃板被加强。 等离子体处理方法有利于加强玻璃板，无论是否在常规化学强化过程之前或之后进行等离子体处理工艺。

公开(公告)号：US07867634B2

公开(公告)日：2011-01-11

申请号：US12000193

申请日：2007-12-10

Applicant: Jau-Jier Chu ,  I-Wen Lee ,  Shih-Liang Chou ,  Po-Yao Lai ,  Chien-Min Weng

Inventor： Jau-Jier Chu ,  I-Wen Lee ,  Shih-Liang Chou ,  Po-Yao Lai ,  Chien-Min Weng

IPC: B32B9/00

CPC classification number: G06F3/0418 ,  C03C17/3417 ,  C03C2217/732 ,  C03C2217/948 ,  C03C2218/365 ,  G02B1/115 ,  Y10T428/24975 ,  Y10T428/265 ,  Y10T428/31507 ,  Y10T428/31935

Abstract: A ITO layer structure, which is composed of the ITO as the outermost layer and the first anti-reflected layer on the specific side of the transparent substrate, furthermore, the second anti-reflected layer is formed on the opposite side of substrate, can improve the total transmittance.

Abstract translation: 由作为最外层的ITO和透明基板的特定侧的第一抗反射层构成的ITO层结构体，另外，在基板的相对侧形成第二抗反射层，能够提高 总透光率。

公开(公告)号：US20100215931A1

公开(公告)日：2010-08-26

申请号：US12000193

申请日：2007-12-10

Applicant: Jau-Jier Chu ,  I-Wen Lee ,  Shih-Liang Chou ,  Po-Yao Lai ,  Chien-Min Weng

Inventor： Jau-Jier Chu ,  I-Wen Lee ,  Shih-Liang Chou ,  Po-Yao Lai ,  Chien-Min Weng

IPC: G06F3/041 ,  B32B9/00 ,  B05D1/18 ,  B32B17/06 ,  B32B27/06 ,  B32B7/02

CPC classification number: G06F3/0418 ,  C03C17/3417 ,  C03C2217/732 ,  C03C2217/948 ,  C03C2218/365 ,  G02B1/115 ,  Y10T428/24975 ,  Y10T428/265 ,  Y10T428/31507 ,  Y10T428/31935

Abstract: A ITO layer structure, which is composed of the ITO as the outermost layer and the first anti-reflected layer on the specific side of the transparent substrate, furthermore, the second anti-reflected layer is formed on the opposite side of substrate, can improve the total transmittance.

Abstract translation: 由作为最外层的ITO和透明基板的特定侧的第一抗反射层构成的ITO层结构体，另外，在基板的相对侧形成第二抗反射层，能够提高 总透光率。

公开(公告)号：US20120050173A1

公开(公告)日：2012-03-01

申请号：US12870063

申请日：2010-08-27

Applicant: SHIH-LIANG CHOU ,  HSUEH-CHIH CHIANG ,  CHIEN-MIN WENG ,  JYH-AN CHEN ,  SHR-LUNG CHEN ,  I-WEN LEE ,  HSING-YEH CHEN

Inventor： SHIH-LIANG CHOU ,  HSUEH-CHIH CHIANG ,  CHIEN-MIN WENG ,  JYH-AN CHEN ,  SHR-LUNG CHEN ,  I-WEN LEE ,  HSING-YEH CHEN

IPC: G06F3/041 ,  C23C14/34

CPC classification number: G06F3/044 ,  G06F3/041 ,  G06F2203/04103

Abstract: The present invention proposes a surface capacitive integrated touch panel and manufacturing method thereof. The touch panel comprises a transparent substrate, an icon or artwork layer coated on the periphery of one side face of the transparent substrate, and the inner periphery of the icon layer is not perpendicular to the adjacent line of the transparent substrate. It also comprises a sensing layer which is stacked on icon layer or artwork layer and the areas on the transparent substrate uncovered with the icon layer or artwork layer. Other than that, it comprises a metal layout and an electrode pattern which are formed from the outer of the icon layer to its inner side. The electrode pattern is formed via coating, printing or spraying. This unconventional way of laminating the electrode pattern structures can effectively lower the overall thickness of the panel and increase yield rate.

Abstract translation: 本发明提出了一种表面电容集成触摸面板及其制造方法。 触摸面板包括透明衬底，涂覆在透明衬底的一个侧面的周边上的图标或艺术品层，并且图标层的内周不垂直于透明衬底的相邻线。 它还包括层叠在图标层或艺术品层上的感测层以及透明衬底上用图标层或艺术品层未被覆盖的区域。 除此之外，还包括从图标层的外侧到其内侧形成的金属布局和电极图案。 电极图案通过涂布，印刷或喷涂形成。 这种非常规的层压电极图案结构的方法可以有效地降低面板的总体厚度并提高成品率。

公开(公告)号：US20120009392A1

公开(公告)日：2012-01-12

申请号：US12832741

申请日：2010-07-08

Applicant: SHIH-LIANG CHOU ,  Chien-Min Weng ,  Hsueh-Chih Chiang ,  I-Wen Lee ,  Hsing-Yeh Chen

Inventor： SHIH-LIANG CHOU ,  Chien-Min Weng ,  Hsueh-Chih Chiang ,  I-Wen Lee ,  Hsing-Yeh Chen

IPC: G02B1/00 ,  B32B3/02

CPC classification number: G02B1/16 ,  G02B1/105 ,  G02B1/14 ,  G02B1/18 ,  Y10T428/24777 ,  Y10T428/31504

Abstract: The substrate according to the invention includes at least one surface coated with an organic buffer layer and the organic buffer layer is provided with a coating layer on a surface thereof opposite to its surface attached to the substrate. The provision of the organic buffer layer diminishes the effect of the coating layer on the strength of the substrate, thereby maintaining the strength of the substrate.

Abstract translation: 根据本发明的基底包括涂覆有机缓冲层的至少一个表面，并且有机缓冲层在与其附着到基底的表面相对的表面上设置有涂层。 提供有机缓冲层减小了涂层对基材强度的影响，从而保持了基材的强度。