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    • 4. 发明授权
    • Spectacle lens supply system, spectacle wearing parameter measurement apparatus, spectacle wearing test system, spectacle lens, and spectacle
    • 眼镜镜片供应系统,眼镜佩戴参数测量仪,眼镜佩戴测试系统,眼镜镜片和眼镜
    • US07441895B2
    • 2008-10-28
    • US10581966
    • 2005-03-25
    • Hisanori AkiyamaMasahiro JinboYasunori Ueno
    • Hisanori AkiyamaMasahiro JinboYasunori Ueno
    • A61B3/14
    • G02C13/003A61B3/10A61B3/112G02C13/005
    • Aims to enable to supply an optimal and dedicated spectacle lens or spectacle for each spectacle wearer, and also to verify a spectacle wearing state appropriately.A spectacle wearing parameter measurement system, sets a spectacle wearer to be in a distance vision state or a near vision state in which, in the near vision state, at least, one of an eyeball rotation angle and a near vision target distance is changeable optionally; takes an image of the spectacle wearer set in the distance vision state or near vision state by an image pickup device; imports the image; and measures and calculates a spectacle wearing parameter based on the image. A server computer of a factory received the image uses the image data to manufacture a spectacle lens or a spectacle. Further, a spectacle wearing test system verifies whether or not a spectacle wearing state is appropriate based on a figure obtained by a comparison comparing a spectacle wearing parameter measured at present time after manufacturing the spectacle and the spectacle wearing parameter before manufacturing the spectacle.
    • 旨在为每个眼镜佩戴者提供最佳和专用的眼镜镜片或眼镜,并且还适当地验证眼镜佩戴状态。 一种眼镜佩戴参数测量系统,将眼镜佩戴者设置在距离视觉状态或近视觉状态,其中在近视觉状态下,眼球旋转角度和近视力目标距离中的至少一个可选地是可变的 ; 通过图像拾取装置将眼镜佩戴者的图像置于距离视觉状态或近视觉状态; 进口图像; 并根据图像测量和计算眼镜佩戴参数。 接收图像的工厂的服务器计算机使用图像数据来制造眼镜镜片或眼镜。 此外,眼镜佩戴测试系统基于通过比较比较在制造眼镜之后当前测量的眼镜佩戴参数和制造眼镜之前的眼镜佩戴参数而获得的图形来验证眼镜佩戴状态是否合适。
    • 5. 发明申请
    • Spectacle lens supply system, spectacle wearing parameter measurement apparatus, spectacle wearing test system, spectacle lens, and spectacle
    • 眼镜镜片供应系统,眼镜佩戴参数测量仪,眼镜佩戴测试系统,眼镜镜片和眼镜
    • US20070118428A1
    • 2007-05-24
    • US10581966
    • 2005-03-25
    • Hisanori AkiyamaMasahiro JinboYasunori Ueno
    • Hisanori AkiyamaMasahiro JinboYasunori Ueno
    • G06Q30/00
    • G02C13/003A61B3/10A61B3/112G02C13/005
    • Aims to enable to supply an optimal and dedicated spectacle lens or spectacle for each spectacle wearer, and also to verify a spectacle wearing state appropriately. A spectacle wearing parameter measurement system, sets a spectacle wearer to be in a distance vision state or a near vision state in which, in the near vision state, at least, one of an eyeball rotation angle and a near vision target distance is changeable optionally; takes an image of the spectacle wearer set in the distance vision state or near vision state by an image pickup device; imports the image; and measures and calculates a spectacle wearing parameter based on the image. A server computer of a factory received the image uses the image data to manufacture a spectacle lens or a spectacle. Further, a spectacle wearing test system verifies whether or not a spectacle wearing state is appropriate based on a figure obtained by a comparison comparing a spectacle wearing parameter measured at present time after manufacturing the spectacle and the spectacle wearing parameter before manufacturing the spectacle.
    • 旨在为每个眼镜佩戴者提供最佳和专用的眼镜镜片或眼镜,并且还适当地验证眼镜佩戴状态。 一种眼镜佩戴参数测量系统,将眼镜佩戴者设置在距离视觉状态或近视觉状态,其中在近视觉状态下,眼球旋转角度和近视力目标距离中的至少一个可选地是可变的 ; 通过图像拾取装置将眼镜佩戴者的图像置于距离视觉状态或近视觉状态; 进口图像; 并根据图像测量和计算眼镜佩戴参数。 接收图像的工厂的服务器计算机使用图像数据来制造眼镜镜片或眼镜。 此外,眼镜佩戴测试系统基于通过比较比较在制造眼镜之后当前测量的眼镜佩戴参数和制造眼镜之前的眼镜佩戴参数而获得的图形来验证眼镜佩戴状态是否合适。
    • 8. 发明申请
    • Spectacle Lens Manufacturing Method
    • 眼镜镜片制造方法
    • US20080051012A1
    • 2008-02-28
    • US11629528
    • 2005-06-29
    • Hisanori AkiyamaMasashi NishiokaMichio Arai
    • Hisanori AkiyamaMasashi NishiokaMichio Arai
    • B24B49/12B24B1/00
    • B24B13/0055B24B9/146B24B9/148B29D11/00942B29D11/00951
    • A manufacturing method of a spectacle lens improving a manufacturing yield and a production efficiency is provided. The manufacturing method of the spectacle lens in which necessary information for a frame machining of a spectacle lens (progressive-power lens 20) including spectacle rim related information is obtained, and both surfaces of a convex surface and a concave surface are edge/polish machined from a spectacle lens blanks. When the convex surface or the concave surface is polish machined, and thereafter, the next surface is machined, the spectacle rim related information and layout information of the edge machining are obtained, and first provisional reference position marks 1 to 3 and second provisional reference position marks 4 to 6 guiding a geometrical horizontal reference and a geometrical perpendicular reference of the lens are inscribed at positions outside of an edge shape 111 as identification marks for the machined surface being polished as a provisional reference marking process, an optical layout is performed for the surface to be machined next based on these provisional reference position marks to perform a lens block to a lens machining tool.
    • 提供了提高制造成品率和生产效率的眼镜镜片的制造方法。 其中获得了包括眼镜镜片相关信息的眼镜镜片(渐进屈光力镜片20)的框架加工的必要信息的眼镜片的制造方法,并且凸面和凹面的两面被边缘/抛光加工 从眼镜镜片的空白。 当凸表面或凹面经过抛光加工后,再加工下一个表面时,获得边缘加工的眼镜框相关信息和布局信息,并且获得第一临时参考位置标记1至3和第二临时参考位置 将引导几何水平参考的标记4至6和透镜的几何垂直参考值作为临时参考标记处理被作为用于被抛光的加工表面的识别标记作为边缘形状111外侧的位置进行内切, 基于这些临时基准位置标记来接下来要加工的表面,以对透镜加工工具执行透镜块。
    • 9. 发明授权
    • Spectacle lens manufacturing method
    • 眼镜镜片制造方法
    • US07980920B2
    • 2011-07-19
    • US11629528
    • 2005-06-29
    • Hisanori AkiyamaMasashi NishiokaMichio Arai
    • Hisanori AkiyamaMasashi NishiokaMichio Arai
    • B24B49/00B24B1/00
    • B24B13/0055B24B9/146B24B9/148B29D11/00942B29D11/00951
    • A manufacturing method of a spectacle lens improving a manufacturing yield and a production efficiency is provided.The manufacturing method of the spectacle lens in which necessary information for a frame machining of a spectacle lens (progressive-power lens 20) including spectacle rim related information is obtained, and both surfaces of a convex surface and a concave surface are edge/polish machined from a spectacle lens blanks. When the convex surface or the concave surface is polish machined, and thereafter, the next surface is machined, the spectacle rim related information and layout information of the edge machining are obtained, and first provisional reference position marks 1 to 3 and second provisional reference position marks 4 to 6 guiding a geometrical horizontal reference and a geometrical perpendicular reference of the lens are inscribed at positions outside of an edge shape 111 as identification marks for the machined surface being polished as a provisional reference marking process, an optical layout is performed for the surface to be machined next based on these provisional reference position marks to perform a lens block to a lens machining tool.
    • 提供了提高制造成品率和生产效率的眼镜镜片的制造方法。 其中获得了包括眼镜镜片相关信息的眼镜镜片(渐进屈光力镜片20)的框架加工的必要信息的眼镜片的制造方法,并且凸面和凹面的两面被边缘/抛光加工 从眼镜镜片的空白。 当凸表面或凹面经过抛光加工后,再加工下一个表面时,获得边缘加工的眼镜框相关信息和布局信息,并且获得第一临时参考位置标记1至3和第二临时参考位置 将引导几何水平参考的标记4至6和透镜的几何垂直参考值作为临时参考标记处理被作为用于被抛光的加工表面的识别标记作为边缘形状111外侧的位置进行内切, 基于这些临时基准位置标记来接下来要加工的表面,以对透镜加工工具执行透镜块。
    • 10. 发明授权
    • Method for measuring light transmittance and apparatus therefor
    • 测量透光率的方法及其设备
    • US06816246B2
    • 2004-11-09
    • US10092442
    • 2002-03-08
    • Hisanori AkiyamaToshiro Yoda
    • Hisanori AkiyamaToshiro Yoda
    • G01B900
    • G01M11/0285
    • The present invention provides an inexpensive and convenient method and apparatus for measuring light transmittance of an optical lens having refractive power. The method comprises obtaining the light transmittance of an examined lens from a value corresponding to a ratio between the intensity of measured light detected by a light detector when the examined lens is placed in the path of the measured light emitted from a light source and an intensity of measured light detected by the light detector when there is no lens undergoing examination placed in the path of the measured light so that the measured light does not pass through an examined lens and provides a baseline value. Specifically, the present invention focuses (converges) the measured light at or in a vicinity of a position where the examined lens is disposed when the examined lens is placed in the path of the measured light.
    • 本发明提供了一种用于测量具有屈光力的光学透镜的透光率的便宜且方便的方法和装置。 所述方法包括:从被检查的透镜放置在从光源发射的测量光的路径中的光检测器检测到的测量光的强度与从光源发射的测量光的路径之间的比值对应的值时, 当没有经过检查的镜片放置在测量光的路径中时,由光检测器检测到的测量光,使得测量的光不通过被检查的透镜并提供基线值。 具体地说,本发明在被检查的透镜被放置在测量光的路径中时将测量的光聚焦(收敛)在被检查的透镜被放置的位置附近或附近。