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    • 1. 发明授权
    • Wiring figure pattern of display panel
    • 显示面板接线图形
    • US07868991B2
    • 2011-01-11
    • US12630017
    • 2009-12-03
    • Hidetoshi NakagawaNaoshi Yamada
    • Hidetoshi NakagawaNaoshi Yamada
    • G02F1/1339G02F1/1345G02F1/1343
    • G02F1/136286G02F1/1345
    • In a wiring figure pattern of a display panel, each wiring is separated into bands of optimal widths by slits of a constant width as a wiring figure pattern so that minimum light irradiation for curing a photocuring sealing material can be carried out without increasing the electric resistance of the wiring. The optimal width means a resistance such that light coming from both sides of the band cures the sealing material on the upper surface of the band without influencing the driving and display of liquid crystal. At a point where the width of wiring becomes two times or more of the optical width between the start point and end point of intersection of the wiring and the sealing material region, the wiring is divided by the slit. A first branch forms the band of the optimal width extending from the branch point to the end point, whereas the second branch extends to the end point and is spaced apart from the first branch by the width of the slit. At a point where the width becomes two times or more of the optimal width, the wiring is divided. Subsequently, branching is repeated until the end point is reached. A continuous triangle is formed in the slit at each branch, thus adjusting the width of the bands to have the optimal width.
    • 在显示面板的布线图形中,通过作为布线图形的恒定宽度的狭缝,将各布线分离成最佳宽度的带,从而可以在不增加电阻的情况下进行用于固化光固化密封材料的最小光照射 的接线。 最佳宽度是指使得来自带的两侧的光固化在带的上表面上的密封材料而不影响液晶的驱动和显示的电阻。 在布线宽度成为布线与密封材料区域的起点和终点之间的光学宽度的两倍以上的点处,布线被狭缝分割。 第一分支形成从分支点延伸到终点的最佳宽度的带,而第二分支延伸到终点并且与第一分支间隔开狭缝的宽度。 在宽度变为最佳宽度的两倍或更多的点处,布线被划分。 随后,重复分支直到达到终点。 在每个分支处的狭缝中形成连续的三角形,从而调节带的宽度以具有最佳宽度。
    • 4. 发明申请
    • Wiring Figure Pattern of Display Panel
    • 显示面板接线图形
    • US20080316414A1
    • 2008-12-25
    • US11722796
    • 2005-12-14
    • Hidetoshi NakagawaNaoshi Yamada
    • Hidetoshi NakagawaNaoshi Yamada
    • G02F1/1345
    • G02F1/136286G02F1/1345
    • In a wiring figure pattern of a display panel, each wiring is separated into bands of optimal widths by slits of a constant width as a wiring figure pattern so that minimum light irradiation for curing a photocuring sealing material can be carried out without increasing the electric resistance of the wiring. The optimal width means a resistance such that light coming from both sides of the band cures the sealing material on the upper surface of the band-without influencing the driving and display of liquid crystal. At a point where the width of wiring becomes two times or more of the optical width between the start point and end point of intersection of the wiring and the sealing material region, the wiring is divided by the slit. A first branch forms the band of the optimal width extending from the branch point to the end point, whereas the second branch extends to the end point and is spaced apart from the first branch by the width of the slit. At a point where the width becomes two times or more of the optimal width, the wiring is forked. Subsequently, branching is repeated until the end point is reached. A continuous triangle is formed in the slit at each branch, thus adjusting the width of the bands to have the optimal width.
    • 在显示面板的布线图形中,通过作为布线图形的恒定宽度的狭缝,将各布线分离成最佳宽度的带,从而可以在不增加电阻的情况下进行用于固化光固化密封材料的最小光照射 的接线。 最佳宽度是指使得来自带的两侧的光固化在带的上表面上的密封材料的电阻,而不影响液晶的驱动和显示。 在布线宽度成为布线与密封材料区域的起点和终点之间的光学宽度的两倍以上的点处,布线被狭缝分割。 第一分支形成从分支点延伸到终点的最佳宽度的带,而第二分支延伸到终点并且与第一分支间隔开狭缝的宽度。 在宽度变为最佳宽度的两倍或更多的点处,布线被分叉。 随后,重复分支直到达到终点。 在每个分支处的狭缝中形成连续的三角形,从而调节带的宽度以具有最佳宽度。
    • 5. 发明授权
    • Wiring figure pattern of display panel
    • 显示面板接线图形
    • US07649607B2
    • 2010-01-19
    • US11722796
    • 2005-12-14
    • Hidetoshi NakagawaNaoshi Yamada
    • Hidetoshi NakagawaNaoshi Yamada
    • G02F1/1345G02F1/1343G02F1/1339
    • G02F1/136286G02F1/1345
    • In a wiring figure pattern of a display panel, each wiring is separated into bands of optimal widths by slits of a constant width as a wiring figure pattern so that minimum light irradiation for curing a photocuring sealing material can be carried out without increasing the electric resistance of the wiring. The optimal width means a resistance such that light coming from both sides of the band cures the sealing material on the upper surface of the band-without influencing the driving and display of liquid crystal. At a point where the width of wiring becomes two times or more of the optical width between the start point and end point of intersection of the wiring and the sealing material region, the wiring is divided by the slit. A first branch forms the band of the optimal width extending from the branch point to the end point, whereas the second branch extends to the end point and is spaced apart from the first branch by the width of the slit. At a point where the width becomes two times or more of the optimal width, the wiring is divided. Subsequently, branching is repeated until the end point is reached. A continuous triangle is formed in the slit at each branch, thus adjusting the width of the bands to have the optimal width.
    • 在显示面板的布线图形中,通过作为布线图形的恒定宽度的狭缝,将各布线分离成最佳宽度的带,从而可以在不增加电阻的情况下进行用于固化光固化密封材料的最小光照射 的接线。 最佳宽度是指使得来自带的两侧的光固化在带的上表面上的密封材料的电阻,而不影响液晶的驱动和显示。 在布线宽度成为布线与密封材料区域的起点和终点之间的光学宽度的两倍以上的点处,布线被狭缝分割。 第一分支形成从分支点延伸到终点的最佳宽度的带,而第二分支延伸到终点并且与第一分支间隔开狭缝的宽度。 在宽度变为最佳宽度的两倍或更多的点处,布线被划分。 随后,重复分支直到达到终点。 在每个分支处的狭缝中形成连续的三角形,从而调节带的宽度以具有最佳宽度。
    • 7. 发明授权
    • Liquid crystal panel, liquid crystal display device, and television device
    • 液晶面板,液晶显示装置和电视装置
    • US08253903B2
    • 2012-08-28
    • US12519059
    • 2007-09-26
    • Kentaroh IrieToshihide TsubataNaoshi Yamada
    • Kentaroh IrieToshihide TsubataNaoshi Yamada
    • G02F1/1337
    • G02F1/133753G02F1/133707G02F1/13624G02F2001/134318G02F2001/136268G02F2201/40
    • A first sub-pixel area and a second sub-pixel area that are provided in each of pixel areas so as to sandwich a scanning signal line 2. A first sub-pixel is arranged to include the first sub-pixel area and a section of the counter substrate which section corresponds to the first sub-pixel, area and the second sub-pixel is arranged to include the second sub-pixel area and a section of the counter substrate which section corresponds to the second sub-pixel area. A first alignment control structure is provided in the first sub-pixel and a second alignment control structure is provided in the second sub-pixel. The first alignment control structure (L1 and S1 to S4) provided in one pixel (55x) of two adjacent pixels has a shape obtained by rotating by 180° the first alignment control structure (L11, S11 to S14) provided in the other one pixel (55y) of the two adjacent pixels. This makes it possible to suppress deterioration in viewing angle characteristics caused by disordered alignment along the scanning signal line (2) in a liquid crystal panel in which a plurality of alignment domains can be formed.
    • 第一子像素区域和第二子像素区域,其设置在每个像素区域中以夹持扫描信号线2.第一子像素被布置为包括第一子像素区域和第一子像素区域的一部分 相应于第一子像素,区域和第二子像素的对置基板被布置为包括第二子像素区域和对应基板的与第二子像素区域对应的部分。 在第一子像素中设置第一对准控制结构,在第二子像素中设置第二对准控制结构。 设置在两个相邻像素的一个像素(55x)中的第一对准控制结构(L1和S1至S4)具有通过将设置在另一个像素中的第一对准控制结构(L11,S11至S14)旋转180°而获得的形状 (55y)。 这使得可以抑制在其中可以形成多个取向区域的​​液晶面板中沿着扫描信号线(2)的无序排列引起的视角特性的劣化。