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    • 5. 发明申请
    • METHOD AND DEVICE FOR DEFECT INSPECTION IN SEPARATED TRANSPARENT AND/OR SEMI-TRANSPARENT BODY
    • 分离透明和/或半透明体内缺陷检查的方法和装置
    • US20120105624A1
    • 2012-05-03
    • US13381422
    • 2010-07-02
    • Xiaofeng LinJean-Philippe SchweitzerHuifen LiWenhua DengHaifeng ChenDazhi Chen
    • Xiaofeng LinJean-Philippe SchweitzerHuifen LiWenhua DengHaifeng ChenDazhi Chen
    • H04N7/18
    • G01N21/958G01N21/9009
    • An apparatus and a method for detecting a defect of a separated low rigidity transparent or translucent body, wherein an image acquiring device includes: a first conveyer and a second conveyer to convey a separated low rigidity transparent or translucent body; a transparent bridge disposed between a first conveyer and a second conveyer along a transport path of the separated low rigidity transparent or translucent body, the transparent bridge having a top surface; an illuminating unit disposed on one side of the transparent bridge and configured to project diffusive light onto the top surface of the transparent bridge by transmitting through the transparent bridge; and an image pickup unit disposed on the other side of the transparent bridge and configured to receive light projected from the illuminating unit and transmitting through the separated low rigidity transparent or translucent body to form an image when the separated low rigidity transparent or translucent body enters the top surface of the transparent bridge. With the apparatus and the method, it is possible to detect a defect of the separated low rigidity transparent or translucent body.
    • 一种用于检测分离的低刚性透明或半透明体的缺陷的装置和方法,其中图像获取装置包括:第一传送器和第二传送器,用于传送分离的低刚性透明或半透明体; 透明桥,其沿着分离的低刚性透明或半透明体的输送路径设置在第一输送机和第二输送机之间,透明桥具有顶表面; 照明单元,其设置在所述透明桥的一侧,并且被配置为通过透过所述透明桥将漫射光投射到所述透明桥的顶表面上; 以及图像拾取单元,其设置在所述透明桥的另一侧,并且被配置为接收从所述照明单元投影的光并且在所分离的低刚性透明或半透明体进入所述透明半导体时透过所述分离的低刚性透明体或半透明体形成图像 透明桥顶面。 利用该装置和方法,可以检测分离的低刚性透明或半透明体的缺陷。
    • 7. 发明授权
    • Methods and apparatus of aligning surfaces
    • 对准表面的方法和装置
    • US07619749B2
    • 2009-11-17
    • US11511361
    • 2006-08-29
    • Chi-Fai CheungHuifen LiWing-Bun LeeSuet ToLingbao Kong
    • Chi-Fai CheungHuifen LiWing-Bun LeeSuet ToLingbao Kong
    • G01B11/24G06T15/40G09G5/00G06F17/50G06F17/10
    • G06T17/30
    • Ultra-precision freeform surfaces are important to the development of complex and micro-optical-electro-mechanical devices used in many photonics and telecommunication products such as F-theta lenses for laser printers. These surfaces are complex and large scale surface topologies with shapes that generally possesses no rotational symmetry. Due to the geometrical complexities of these ultra-precision freeform surfaces, it is difficult to characterize the form accuracy and surface quality of freeform optical surfaces. The method of this invention is based on feature-point pre-fixture, and iterative precision alignment algorithm, which can provide sufficient capability of form characterization for ultra-precision freeform surfaces with form accuracy down to below sub-micrometer range
    • 超精密自由曲面对于许多光子和电信产品(例如用于激光打印机的F-theta透镜)使用的复合和微光学机电装置的开发是重要的。 这些表面是具有通常不具有旋转对称性的形状的复杂且大型表面拓扑。 由于这些超精密自由曲面的几何复杂性,难以表征自由形状光学表面的形状精度和表面质量。 本发明的方法是基于特征点预夹具和迭代精密对准算法,其可以提供足够的形式表征的能力,用于超精度自由曲面,形式精度低于亚微米范围
    • 8. 发明申请
    • Methods and apparatus of aligning surfaces
    • 对准表面的方法和装置
    • US20070195084A1
    • 2007-08-23
    • US11511361
    • 2006-08-29
    • Chi-Fai CheungHuifen LiWing-Bun LeeSuet ToLingbao Kong
    • Chi-Fai CheungHuifen LiWing-Bun LeeSuet ToLingbao Kong
    • G06T17/00
    • G06T17/30
    • Ultra-precision freeform surfaces are important to the development of complex and micro-optical-electro-mechanical devices used in many photonics and telecommunication products such as F-theta lenses for laser printers. These surfaces are complex and large scale surface topologies with shapes that generally possesses no rotational symmetry. Due to the geometrical complexities of these ultra-precision freeform surfaces, it is difficult to characterize the form accuracy and surface quality of freeform optical surfaces. The method of this invention is based on feature-point pre-fixture, and iterative precision alignment algorithm, which can provide sufficient capability of form characterization for ultra-precision freeform surfaces with form accuracy down to below sub-micrometer range
    • 超精密自由曲面对于许多光子和电信产品(例如用于激光打印机的F-theta透镜)使用的复合和微光学机电装置的开发是重要的。 这些表面是具有通常不具有旋转对称性的形状的复杂且大型表面拓扑。 由于这些超精密自由曲面的几何复杂性,难以表征自由形状光学表面的形状精度和表面质量。 本发明的方法是基于特征点预夹具和迭代精密对准算法,其可以提供足够的形式表征的能力,用于超精度自由曲面,形式精度低于亚微米范围