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    • 94. 发明授权
    • Method of applying multi-layer structure onto a curved substrate
    • 将多层结构施加到弯曲基板上的方法
    • US08262843B2
    • 2012-09-11
    • US12635787
    • 2009-12-11
    • Romain Fayolle
    • Romain Fayolle
    • C09J5/02
    • B29C63/22B29C53/02B29L2011/0016B32B38/1866Y10T156/10
    • A curved multi-layer structure (10) is formed from individual films (1, 2) that are initially flat. The films are firmly bonded to each other along respective facing surfaces. A heat treatment is applied to one or both of the films (1, 2) of the structure so as to cause respective contractions or elongations that are different for the two films at standard use temperatures. A difference between said contractions or elongations causes the curvature of the multi-layer structure. The structure thus has a permanent curved shape, without contact between compression-forming instruments and a useful part of the multi-layer structure being necessary. The multi-layer structure can then be applied onto a curved substrate without causing any tears or ripples.
    • 弯曲的多层结构(10)由初始平坦的单个薄膜(1,2)形成。 膜沿相应的相对表面彼此牢固地结合。 对结构的一个或两个膜(1,2)进行热处理,以便在标准使用温度下引起两个膜的各自的收缩或伸长率不同。 所述收缩或伸长之间的差异导致多层结构的曲率。 因此,该结构具有永久的弯曲形状,在压缩成形设备之间没有接触,并且需要多层结构的有用部分。 然后可以将多层结构施加到弯曲的基底上而不引起任何眼泪或波纹。
    • 96. 发明授权
    • Process for applying a coating onto a fresnel lens forming surface
    • 将涂层施加到菲涅耳透镜形成表面上的方法
    • US08252369B2
    • 2012-08-28
    • US12124466
    • 2008-05-21
    • Peiqi Jiang
    • Peiqi Jiang
    • B05D5/06B05D3/02
    • B29D11/00269B29D11/00865
    • Disclosed is a process for coating at least one geometrically defined surface of an optical article's substrate. The process can include: (a) providing a removable carrier made of plastic material and having an internal surface and external surface; (b) providing an optical article comprising a substrate having at least one geometrically defined surface forming a Fresnel lens; (c) depositing a curable coating composition onto either the at least one surface forming a Fresnel lens; (d) moving the carrier and optical article relatively to each other; (e) applying a pressure onto the external surface of the carrier to spread out the curable coating composition to cover said at least one surface forming a Fresnel lens; (f) curing the layer of curable coating composition; (g) withdrawing the removable carrier to recover the substrate of the optical article having at least one Fresnel lens forming surface coated with the cured coating composition.
    • 公开了一种用于涂覆光学制品基底的至少一个几何限定表面的方法。 该方法可以包括:(a)提供由塑料材料制成并具有内表面和外表面的可移除载体; (b)提供包括具有形成菲涅耳透镜的至少一个几何限定表面的基底的光学制品; (c)将可固化涂料组合物沉积在形成菲涅耳透镜的至少一个表面上; (d)相对于彼此移动载体和光学制品; (e)将压力施加到所述载体的外表面上以展开所述可固化涂料组合物以覆盖形成菲涅尔透镜的所述至少一个表面; (f)固化可固化涂料组合物层; (g)取出可移除的载体以回收具有涂覆有固化的涂料组合物的至少一个菲涅尔透镜形成表面的光学制品的基材。
    • 97. 发明授权
    • Process for making a coated optical lens free of visible fining lines
    • 制造具有可见澄清线的涂层光学透镜的方法
    • US08241536B2
    • 2012-08-14
    • US10596977
    • 2004-12-30
    • Peiqi JiangSteven WeberFadi O. Adileh
    • Peiqi JiangSteven WeberFadi O. Adileh
    • B29D11/00B29C39/10
    • B29D11/0073B29C43/021B29C66/71B29C66/73161B29C2035/0827B29C2043/3649B29C2043/3652B29C2043/3655B29K2995/0026B29K2995/007B29K2995/0072B29L2011/0016B29K2069/00B29K2033/12
    • The invention concerns a process for making a coated optical lens blank free of visible fining lines which comprises: (ix) providing an optical article having at least one fined but unpolished geometrically defined main face; (x) providing a mold part having an internal and external surface; (xi) depositing on said main face of said optical article or on the internal surface of the mold part a requisit amount of a liquid curable coating composition; (xii) moving relatively to each other the optical article and the mold part to either bring the coating composition into contact with the main face of the optical article or into contact with the internal face of the mold part; (xiii) applying pressure to the mold part to spread the liquid curable coating composition on said main face and form a uniform liquid coating composition layer onto the main face; (xiv) curing the liquid coating composition layer; (xv) withdrawing the mold part; and recovering the free of visible fining lines coated optical article.
    • 本发明涉及一种制造无可见澄清线的涂覆光学透镜毛坯的方法,该方法包括:(ix)提供具有至少一个精细但未抛光的几何定义的主面的光学制品; (x)提供具有内表面和外表面的模具部件; (xi)在所述光学制品的所述主面上或在所述模具部件的内表面上沉积需要量的液体可固化涂料组合物; (xii)相对于所述光学物品和所述模具部件相对移动以使所述涂料组合物与所述光学制品的主面接触或与所述模具部件的内表面接触; (xiii)向模具部分施加压力以将液体可固化涂料组合物铺展在所述主面上,并在主面上形成均匀的液体涂料组合物层; (xiv)固化液体涂料组合物层; (xv)取出模具部件; 并回收无可见的细线涂覆光学制品。
    • 98. 发明授权
    • Method of measuring at least one geometrico-physionomic parameter for positioning a frame of vision-correcting eyeglasses on the face of a wearer
    • 测量至少一个几何物理参数的方法,用于将视觉矫正眼镜框架定位在佩戴者的脸部上
    • US08231220B2
    • 2012-07-31
    • US12667291
    • 2008-07-04
    • Konogan Baranton
    • Konogan Baranton
    • A61B3/10
    • G02C13/005G02C13/003
    • The method includes capturing at least one digital image of the wearer's face with a portable image capture appliance (1) and processing the captured image to determine a geometrico-physionomic parameter. Before capturing the image, the operator positions the image capture appliance manually in a first configuration in which an observation line connecting the pupil (7) of the image capture appliance with a predetermined remarkable point associated with the wearer's face or with the frame is substantially horizontal. Image capture is performed in a second configuration of the image capture appliance such that the altitude of the image capture appliance is identical to its altitude in the first configuration. The calculation of the geometrico-physionomic parameter includes identifying on the image, the image of the predetermined remarkable point.
    • 该方法包括用便携式图像捕获设备(1)捕获佩戴者脸部的至少一个数字图像,并处理所捕获的图像以确定几何物理参数。 在拍摄图像之前,操作者将图像采集设备手动地定位在第一配置中,其中连接图像捕获设备的瞳孔(7)的观察线与与佩戴者的脸部或框架相关联的预定显着点基本上是水平的 。 在图像捕获设备的第二配置中执行图像捕获,使得图像捕获设备的高度与其在第一配置中的高度相同。 几何物理参数的计算包括在图像上识别预定显着点的图像。
    • 100. 发明申请
    • METHOD FOR ASSESSING AN OPTICAL FEATURE OF AN OPHTHALMIC LENS DESIGN
    • 用于评估眼睛透镜设计的光学特征的方法
    • US20120188504A1
    • 2012-07-26
    • US13318339
    • 2010-04-22
    • Cécile PetignaudBenjamin RousseauMatthieu GuillotPauline ColasJean SahlerValérie ParmentierGilles GarcinCécile Pietri
    • Cécile PetignaudBenjamin RousseauMatthieu GuillotPauline ColasJean SahlerValérie ParmentierGilles GarcinCécile Pietri
    • G02C7/02
    • G02C7/061G02C7/024G02C7/028G02C2202/08
    • A method implemented by computer means of assessing at least a selected optical feature of an ophthalmic lens design over a prescription and optionally design particularity domain comprising the steps of: a) selecting a prescription and optionally design particularity parameter set comprising a plurality of prescription parameters in the list consisting of spherical power (SPH), cylindrical power (CYL), cylinder axis (AXE), addition power (ADD) and selecting a prescription and optionally design particularity range for each selected prescription and optionally design particularity parameter so as to define the prescription and optionally design particularity domain; b) meshing the prescription and optionally design particularity domain so as to provide a plurality of meshing coordinates; c) providing an assessment criterion for the selected optical feature of the ophthalmic lens design; d) calculating the assessment criterion value for each meshing coordinate of step b); e) providing a sensory representation of the assessment criterion values over the prescription and optionally design particularity domain.A method for calculating or optimizing an ophthalmic lens design comprising the use of preceding method.
    • 一种通过计算机方法实现的方法,其通过处方和可选地设计特定领域评估眼科镜片设计的至少一个选定的光学特征,包括以下步骤:a)选择处方和可选地设计包括多个处方参数的特征参数集 该列表包括球面光焦度(SPH),圆柱形光焦度(CYL),圆柱轴线(AX),附加光焦度(ADD),并为每个选定的处方选择处方和可选地设计特定范围,并且可选地设计特定性参数,以便定义 处方和可选设计特殊领域; b)将处方和可选地设计的特殊域进行啮合,以便提供多个啮合坐标; c)为眼科镜片设计的所选光学特征提供评估标准; d)计算步骤b)的每个啮合坐标的评估标准值; e)提供关于处方和可选地设计特定领域的评估标准值的感官表示。 一种用于计算或优化眼科镜片设计的方法,包括使用前述方法。