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    • 2. 发明授权
    • Method and system for inspecting packages
    • 检查包裹的方法和系统
    • US5943436A
    • 1999-08-24
    • US726502
    • 1996-10-07
    • James EbelMichael Francis WidmanPeter W. SitesPeyman H. Dehkordi
    • James EbelMichael Francis WidmanPeter W. SitesPeyman H. Dehkordi
    • G01V8/10B65B25/00B65B57/10G01M11/00G01N21/88G01N21/90G01N21/95G06K9/62
    • G01N21/95B65B25/008G01N21/9508
    • A method and system for verifying the presence of a lens in a transparent package. The method comprises the steps of moving the package into an inspection position, and conducting a light beam through the package and onto an image plane to form an image of the package on the image plane. The method further comprises the steps of generating a set of signals representing the image on the image plane, and analyzing those signals to determine whether a lens is present in the package. This analyzing step, in turn, includes the steps of searching the package image for images of discrete objects; and for each object image found in the package image, identifying values for a plurality of parameters, and analyzing those identified values according to a predetermined procedure to identify the object as a lens or as not a lens. A lens present signal is generated if one object image found in the package image is identified as a lens; and a lens missing signal is generated if no object images are found in the package image, or if all object images found in the package image are identified as not lenses.
    • 一种用于验证透明包装中的透镜的存在的方法和系统。 该方法包括以下步骤:将包装移动到检查位置,并将光束穿过包装并传送到图像平面上,以在图像平面上形成包装的图像。 该方法还包括以下步骤:产生表示图像平面上的图像的一组信号,并分析这些信号以确定透镜是否存在于包装中。 该分析步骤又包括搜索包图像以获得离散对象的图像的步骤; 并且对于在包图像中找到的每个对象图像,识别多个参数的值,并且根据预定过程分析这些识别的值以将对象识别为透镜或不是透镜。 如果在封装图像中发现的一个物体图像被识别为透镜,则产生透镜存在信号; 并且如果在封装图像中没有找到对象图像,或者如果在封装图像中发现的所有对象图像被识别为不透镜,则产生透镜缺失信号。
    • 6. 发明申请
    • Method of sterilization
    • 灭菌方法
    • US20050013729A1
    • 2005-01-20
    • US10716778
    • 2003-11-19
    • Susan Brown-SkrobotStephen BeatonEric BusseyJames EbelGregory HillJames PeckJohn HeatonDavid CristolTimothy NewtonJohn Enns
    • Susan Brown-SkrobotStephen BeatonEric BusseyJames EbelGregory HillJames PeckJohn HeatonDavid CristolTimothy NewtonJohn Enns
    • A61L2/08A61L2/10A61L12/06B65B25/00B65B55/08G02C13/00
    • A61L2/10A61L12/063B65B25/008
    • This invention provides a process of sterilizing a medical device, and preferably the contents of a sealed container which comprises said medical device, comprising the step of exposing said medical device to ultraviolet radiation whereby the Dvalue of Bacillus stearothermophilus (ATCC 7953) is at least 3.9 mJ/cm2 ultraviolet radiation in the range of 240-280 nm to the spore. Further, this invention provides a process of sterilizing a medical device comprising the step of subjecting said medical device to ultraviolet radiation wherein the minimum total energy density of said ultraviolet radiation in the range of 240-280 nm which reaches the microorganisms present on said medical device is at least 18 mJ/cm2. This invention further provides an apparatus for delivering UV radiation to a medical device for sterilization comprising a radiation source and a reflector for said radiation source wherein said reflector directs radiation from said radiation source such that at least 3 J/cm2 broad spectrum radiation of which at least 50 mJ/cm2 of said radiation is UV radiation in the range of 240-280 nm to a treatment area for said medical device, said treatment area is at the focal plane of said reflector. This invention provides a process and apparatus in which sterilization can be achieved in less than 20 seconds, preferably less than 15 seconds, more preferably in less than 5 seconds. The process and apparatus are efficient and continuous.
    • 本发明提供一种消毒医疗装置的方法,优选包括所述医疗装置的密封容器的内容物,其包括使所述医疗装置暴露于紫外线辐射的步骤,由此嗜热脂肪芽孢杆菌(ATCC 7953)的D值至少为3.9 mJ / cm 2紫外线辐射在240-280nm范围内。 此外,本发明提供一种消毒医疗装置的方法,包括对所述医疗装置进行紫外线照射的步骤,其中所述紫外线辐射的最小总能量密度在240-280nm的范围内,其达到存在于所述医疗装置上的微生物 至少18mJ / cm 2。 本发明进一步提供一种用于将UV辐射递送到用于灭菌的医疗装置的装置,包括用于所述辐射源的辐射源和反射器,其中所述反射器引导来自所述辐射源的辐射,使得至少3J / cm 2的广谱辐射 其中至少50mJ / cm 2的所述辐射是在240-280nm范围内的UV辐射与所述医疗装置的治疗区域之间,所述治疗区域在所述反射器的焦平面处。 本发明提供一种方法和装置,其中可以在少于20秒,优选小于15秒,更优选在少于5秒内实现灭菌。 该方法和设备是有效和连续的。
    • 8. 发明申请
    • Method and apparatus of sterilization using monochromatic UV radiation source
    • 使用单色紫外线辐射源灭菌的方法和设备
    • US20050079096A1
    • 2005-04-14
    • US10939818
    • 2004-09-13
    • Susan Brown-SkrobotJames EbelJohn EnnsGregory HillAllan Kimble
    • Susan Brown-SkrobotJames EbelJohn EnnsGregory HillAllan Kimble
    • A61L2/10A61L12/06B65B25/00
    • A61L12/063A61L2/10B65B25/008
    • This invention provides a process of sterilizing a medical device, and preferably the contents of a sealed container which comprises said medical device, comprising the step of exposing said medical device to monochromatic ultraviolet radiation whereby the Dvalue of Bacillus stearothermophilus (ATCC 7953) is at least 23.7 mJ/cm2 monochromatic ultraviolet radiation at 257 nm to the spore. Further, this invention provides a process of sterilizing a medical device comprising the step of subjecting said medical device to monochromatic ultraviolet radiation wherein the minimum total energy density of said monochromatic ultraviolet radiation at 257 nm which reaches the microorganisms present on said medical device is at least 284 mJ/cm2. This invention further provides an apparatus for delivering UV radiation to a medical device for sterilization comprising a laser and a scanner for the laser such that at least 284 mJ/cm2 at 257 nm is applied to a treatment area for said medical device. This invention provides a process and apparatus in which sterilization can be achieved in less than 20 seconds, preferably less than 15 seconds, more preferably in less than 5 seconds. The process and apparatus are efficient and continuous.
    • 本发明提供了一种对医疗装置进行灭菌的方法,优选包括所述医疗装置的密封容器的内容物,其包括将所述医疗装置暴露于单色紫外线辐射的步骤,由此使嗜热脂肪芽孢杆菌(ATCC 7953)的D值至少为 对于孢子,在257nm处具有23.7mJ / cm 2的单色紫外线辐射。 此外,本发明提供一种消毒医疗装置的方法,包括以下步骤:对所述医疗装置进行单色紫外线辐射,其中到达所述医疗装置上存在的微生物的257nm处的所述单色紫外线辐射的最小总能量密度至少为 284mJ / cm 2。 本发明还提供了一种用于将UV辐射递送到用于灭菌的医疗装置的装置,包括用于激光的激光器和扫描器,使得在257nm处的至少284mJ / cm 2被施加到所述医疗装置的治疗区域。 本发明提供一种方法和装置,其中可以在少于20秒,优选小于15秒,更优选在少于5秒内实现灭菌。 该方法和设备是有效和连续的。
    • 9. 发明授权
    • Method and system for inspecting packages
    • 检查包裹的方法和系统
    • US5640464A
    • 1997-06-17
    • US251525
    • 1994-05-31
    • James EbelMichael Francis WidmanPeter W. SitesPeyman H. Dehkordi
    • James EbelMichael Francis WidmanPeter W. SitesPeyman H. Dehkordi
    • G01V8/10B65B25/00B65B57/10G01M11/00G01N21/88G01N21/90G01N21/95G06K9/62
    • G01N21/95B65B25/008G01N21/9508
    • A method and system for verifying the presence of a lens in a transparent package. The method comprises the steps of moving the package into an inspection position, and conducting a light beam through the package and onto an image plane to form an image of the package on the image plane. The method further comprises the steps of generating a set of signals representing the image on the image plane, and analyzing those signals to determine whether a lens is present in the package. This analyzing step, in turn, includes the steps of searching the package image for images of discrete objects; and for each object image found in the package image, identifying values for a plurality of parameters, and analyzing those identified values according to a predetermined procedure to identify the object as a lens or as not a lens. A lens present signal is generated if one object image found in the package image is identified as a lens; and a lens missing signal is generated if no object images are found in the package image, or if all object images found in the package image are identified as not lenses.
    • 一种用于验证透明包装中的透镜的存在的方法和系统。 该方法包括以下步骤:将包装移动到检查位置,并将光束穿过包装并传送到图像平面上,以在图像平面上形成包装的图像。 该方法还包括以下步骤:产生表示图像平面上的图像的一组信号,并分析这些信号以确定透镜是否存在于包装中。 该分析步骤又包括搜索包图像以获得离散对象的图像的步骤; 并且对于在包图像中找到的每个对象图像,识别多个参数的值,并且根据预定过程分析这些识别的值以将对象识别为透镜或不是透镜。 如果在封装图像中发现的一个物体图像被识别为透镜,则产生透镜存在信号; 并且如果在封装图像中没有找到对象图像,或者如果在封装图像中发现的所有对象图像被识别为不透镜,则产生透镜缺失信号。
    • 10. 发明授权
    • Lens inspection system and method
    • 镜片检查系统及方法
    • US5500732A
    • 1996-03-19
    • US257857
    • 1994-06-10
    • James EbelMary L. DolanRussell J. EdwardsPeter W. Sites
    • James EbelMary L. DolanRussell J. EdwardsPeter W. Sites
    • G01M11/00B29C45/76G01M11/02G02C7/04G01B9/00
    • G01M11/0264G01M11/0278
    • A system and method for inspecting ophthalmic lenses. The system comprises a transport subsystem for moving the lenses into an inspection position, and an illumination subsystem to generate a light beam and to direct the light beam through the lenses. The system further comprises an imaging subsystem to generate a set of signals representing selected portions of the light beam transmitted through the lenses, and a processing subsystem to process those signals according to a predetermined program. The illumination subsystem includes a light source to generate a light beam and a diffuser to form that light beam with a generally uniform intensity across the transverse cross section of the light beam. The illumination subsystem further includes a lens assembly to focus a portion of the light beam onto an image plane, and to focus a portion of the light beam onto a focal point in front of the image plane to form a diffuser background pattern on the image plane.
    • 一种用于检查眼科镜片的系统和方法。 该系统包括用于将透镜移动到检查位置的运输子​​系统,以及用于产生光束并将光束引导通过透镜的照明子系统。 该系统还包括成像子系统,用于产生表示透过透镜的光束的选定部分的一组信号,以及处理子系统,以根据预定程序处理这些信号。 照明子系统包括用于产生光束的光源和漫射器,以在光束的横截面上以大致均匀的强度形成该光束。 照明子系统还包括透镜组件,用于将光束的一部分聚焦到图像平面上,并将光束的一部分聚焦到图像平面前方的焦点上,以在图像平面上形成漫射背景图案 。