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    • 2. 发明授权
    • Spectacle lens image sensing processing apparatus and spectacle lens positioning method
    • 眼镜镜片感光处理装置及眼镜镜片定位方法
    • US06671039B2
    • 2003-12-30
    • US09888284
    • 2001-06-21
    • Toshiro YodaNorihisa TanakaMasahiko Samukawa
    • Toshiro YodaNorihisa TanakaMasahiko Samukawa
    • G01B900
    • G01M11/0214G01M11/0207
    • A spectacle lens image sensing processing apparatus irradiates the convex surface of a lens to be examined with light from a light source, projects an image of the convex surface onto a reflection screen placed on the concave surface side of the lens. The apparatus senses the image of the convex surface, projected on the reflection screen, by using an image sensing unit, and performs image processing for the image of the convex surface sensed by the image sensing unit by using an image processing unit, thereby detecting optical characteristics of the lens. The image sensing unit is placed together with the light source on the convex surface side of the lens. The image of the convex surface of the lens is reflected by the reflection screen to return to the convex surface side of the lens, thereby forming the image on the image sensing unit. A spectacle lens positioning method is also disclosed.
    • 眼镜镜片摄像处理装置利用来自光源的光照射被检查镜片的凸面,将凸面的图像投影到放置在镜片的凹面侧的反射屏幕上。 该装置通过使用图像感测单元来感测投射在反射屏幕上的凸面的图像,并且通过使用图像处理单元对由图像感测单元感测的凸面的图像执行图像处理,从而检测光学 镜头的特点 图像感测单元与光源一起放置在透镜的凸表面侧上。 透镜的凸面的图像被反射屏幕反射回到透镜的凸面侧,从而在图像感测单元上形成图像。 还公开了一种眼镜透镜定位方法。
    • 4. 发明授权
    • Coating method and manufacturing method of photochromic lens
    • 光致变色透镜的涂布方法和制造方法
    • US08168255B2
    • 2012-05-01
    • US10588084
    • 2005-02-02
    • Masahiko SamukawaNorihisa Tanaka
    • Masahiko SamukawaNorihisa Tanaka
    • B05D3/12
    • B05D1/002B29D11/00865B29D11/00884G02B5/23
    • To manufacture a photochromic lens by uniformly applying a coating liquid having a photochromic function without leaving an uncoated area, with a minimum necessary coating amount. There is provided a manufacturing method of the photochromic lens for dripping and applying a coating liquid 9 having the photochromic function onto a coating surface 2 of a spectacle lens, while rotating a spectacle lens 1, and forming a photochromic film having the photochromic function on the coating surface, comprising dripping (ring-shaped drip part 25) the coating liquid in a ring shape in the vicinity of an outer circumference on the coating surface of the spectacle lens, and thereafter dripping (spiral-shaped drip part 26) the coating liquid in a spiral shape toward a geometrical center or an optical center of the spectacle lens from the vicinity of the outer circumference, wherein the coating surface has a convex curved shape, and a viscosity of the coating liquid is 25 to 500 cps at 25° C.
    • 通过均匀地涂布具有光致变色功能的涂布液而不留下未涂布的区域,以最小的必要涂布量来制造光致变色镜片。 提供了一种光学变色透镜的制造方法,用于在旋转眼镜镜片1的同时将具有光致变色功能的涂布液9滴加并涂覆到眼镜镜片的涂布面2上,并且在其上形成具有光致变色功能的光致变色膜 涂布表面,包括在眼镜镜片的涂层表面的外周附近呈环状的涂布液(环状滴注部25),然后滴加(螺旋状滴下部26)涂布液 呈椭圆形状,从外周附近朝向眼镜片的几何中心或光学中心,其中涂层表面具有凸曲面形状,并且涂布液在25℃下的粘度为25至500cps 。
    • 6. 发明申请
    • Coating Method and Manufacturing Method of Photochromic Lens
    • 光致变色镜片的涂布方法和制造方法
    • US20080003356A1
    • 2008-01-03
    • US10588084
    • 2005-02-02
    • Masahiko SamukawaNorihisa Tanaka
    • Masahiko SamukawaNorihisa Tanaka
    • B05D5/06
    • B05D1/002B29D11/00865B29D11/00884G02B5/23
    • To manufacture a photochromic lens by uniformly applying a coating liquid having a photochromic function without leaving an uncoated area, with a minimum necessary coating amount. There is provided a manufacturing method of the photochromic lens for dripping and applying a coating liquid 9 having the photochromic function onto a coating surface 2 of a spectacle lens, while rotating a spectacle lens 1, and forming a photochromic film having the photochromic function on the coating surface, comprising dripping (ring-shaped drip part 25) the coating liquid in a ring shape in the vicinity of an outer circumference on the coating surface of the spectacle lens, and thereafter dripping (spiral-shaped drip part 26) the coating liquid in a spiral shape toward a geometrical center or an optical center of the spectacle lens from the vicinity of the outer circumference, wherein the coating surface has a convex curved shape, and a viscosity of the coating liquid is 25 to 500 cps at 25° C.
    • 通过均匀地涂布具有光致变色功能的涂布液而不留下未涂布的区域,以最小的必要涂布量来制造光致变色镜片。 提供了一种光学变色透镜的制造方法,用于在旋转眼镜镜片1的同时将具有光致变色功能的涂布液9滴加并涂覆到眼镜镜片的涂布面2上,并且在其上形成具有光致变色功能的光致变色膜 涂布表面,包括在眼镜镜片的涂层表面的外周附近呈环状的涂布液(环状滴注部25),然后滴加(螺旋状滴下部26)涂布液 呈椭圆形状,从外周附近朝向眼镜片的几何中心或光学中心,其中涂层表面具有凸曲面形状,并且涂布液在25℃下的粘度为25至500cps 。
    • 7. 发明申请
    • LENS IMAGE SENSING APPARATUS
    • 镜头图像感应装置
    • US20100283999A1
    • 2010-11-11
    • US12810144
    • 2008-12-24
    • Norihide TakeyamaNorihisa Tanaka
    • Norihide TakeyamaNorihisa Tanaka
    • G01N21/958G01N21/00
    • G01M11/0257G01N21/958G01N2021/9511
    • A light beam (L) from a light source is reflected by a half mirror (35), converted into a collimated light beam (L1) by a collimator lens (36), and transmitted through a test lens (1). Corner cube prisms (49) included in a rotary reflector (43) retroreflect the light beam (L1) transmitted through the test lens (1). When a reflected light beam (L2) is transmitted through only a non-mark portion on the test lens (1), it diffuses only slightly and therefore becomes a retroreflected light beam with a small diameter. Thus, the retroreflected light beam (L2) forms a bright image upon being focused on CCDs (40A) without any loss due to factors associated with an aperture stop (37). In contrast, a light beam (L3) transmitted through a mark (3C) on the test lens (1) largely diffuses and therefore becomes a diverging reflected light beam with a large diameter, which suffers a considerable loss due to factors associated with the aperture stop (37). Thus, the diverging reflected light beam (L3) forms a dark mark image with a low illuminance upon being focused on the CCDs (40A).
    • 来自光源的光束(L)被半反射镜(35)反射,被准直透镜(36)转换为准直光束(L1),并通过测试透镜(1)透射。 包括在旋转反射器(43)中的角立方棱镜(49)回射透射通过测试透镜(1)的光束(L1)。 当反射光束(L2)仅穿过测试透镜(1)上的非标记部分时,其仅仅稍微扩散,因此成为具有小直径的回射光束。 因此,由于与孔径光阑(37)相关联的因素,回射光束(L2)在被聚焦在CCD(40A)上形成明亮的图像而没有任何损失。 相反,通过测试透镜(1)上的标记(3C)透射的光束(L3)很大程度地扩散并因此变成具有大直径的发散反射光束,由于与孔径相关的因素而遭受相当大的损失 停止(37)。 因此,发散反射光束(L3)在聚焦在CCD(40A)上时形成具有低照度的暗标记图像。