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    • 2. 发明申请
      US20080118674A1 Plastic objects including lenticular lens sheets 审中-公开
    • Plastic objects including lenticular lens sheets
    • 包括双凸透镜片的塑料物品
    • US20080118674A1
    • 2008-05-22
    • US11981806
    • 2007-10-31
    • Mark A. RaymondBruce N. Thornbloom
    • Mark A. RaymondBruce N. Thornbloom
    • B32B1/00B44F1/00
    • B29C49/24B29C45/14688B29C45/14811B29C45/14836B29C49/20B29C2045/14696B29C2045/14704B29C2049/2412B29C2049/2472B29C2791/001B29K2995/0018B29K2995/002B29K2995/0026B29K2995/0087B29L2011/0016B29L2031/7132B29L2031/723B29L2031/744B65D2203/00Y10T428/13Y10T428/1328Y10T428/1334Y10T428/1352Y10T428/2904Y10T428/31699
    • A plastic product having an insert of lenticular lens material integrally bonded or otherwise attached therein. In one embodiment, a method is used to fabricate a container, such as a conical cup, by first manufacturing or providing a sheet of lenticular material comprising layers of lens material and optical ridges and grooves and an ink layer printed on the flat side of the lens material. To protect the ink from the heat of molten or moldable plastic during later plastic processing, a thermally protective substrate is attached or bonded to the ink layer by using adhesives to attach a plastic substrate or by coating the ink with coating materials that thermally protect the ink from high temperatures. In one embodiment, the protective substrate is applied in a two step process of first placing a plastic hot melt onto a polyester or other material release liner and, after cooling of the hot melt, using heat and pressure to laminate or bond the hot melt plastic to the ink and then removing the liner. Lenticular inserts are cut out of the lenticular material sheets and the inserts are positioned within a mold where the container is formed by injection, blow, or other molding process. In this step, the substrate acts as a bonding surface as it contacts the molten plastic, melts, and then cools forming a bonding interface with the plastic used to form the container.
    • 一种塑料制品,其具有一体地结合或以其他方式附着于其中的双凸透镜材料的插入物。 在一个实施例中,通过首先制造或提供包括透镜材料和光学脊和凹槽的层的透镜材料片和印刷在平坦侧的墨层上,使用一种方法来制造诸如锥形杯的容器 透镜材料。 为了在稍后的塑料加工期间保护墨水免受熔融或可模塑塑料的热量的影响,通过使用粘合剂来附着或粘合塑料基材或通过用涂覆材料涂覆油墨来将热保护基材附着或粘合到油墨层上,所述涂料具有热保护油墨 从高温。 在一个实施方案中,保护性基材以两步法施加,首先将塑料热熔体放置在聚酯或其它材料剥离衬垫上,并且在热熔体冷却之后,使用热和压力层压或粘合热熔塑料 然后去除油墨。 从双凸透镜材料片切出透镜插入件,并将插入件定位在通过注射,吹塑或其它成型工艺形成容器的模具内。 在该步骤中,衬底在接触熔融塑料时起粘合面的作用,熔化,然后冷却与用于形成容器的塑料形成接合界面。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 3. 发明申请
      US20080118673A1 Plastic objects including lenticular lens sheets 审中-公开
    • Plastic objects including lenticular lens sheets
    • 包括双凸透镜片的塑料物品
    • US20080118673A1
    • 2008-05-22
    • US11981705
    • 2007-10-31
    • Mark A. RaymondBruce N. Thornbloom
    • Mark A. RaymondBruce N. Thornbloom
    • B44F1/10
    • B29C49/24B29C45/14688B29C45/14811B29C45/14836B29C49/20B29C2045/14696B29C2045/14704B29C2049/2412B29C2049/2472B29C2791/001B29K2995/0018B29K2995/002B29K2995/0026B29K2995/0087B29L2011/0016B29L2031/7132B29L2031/723B29L2031/744B65D2203/00Y10T428/13Y10T428/1328Y10T428/1334Y10T428/1352Y10T428/2904Y10T428/31699
    • A plastic product formed from a method of fabricating plastic objects having an insert of lenticular lens material integrally bonded or otherwise attached therein. In one embodiment, the method is used to fabricate a container, such as a conical cup, by first manufacturing or providing a sheet of lenticular material comprising layers of lens material and optical ridges and grooves and an ink layer printed on the flat side of the lens material. To protect the ink from the heat of molten or moldable plastic during later plastic processing, a thermally protective substrate is attached or bonded to the ink layer by using adhesives to attach a plastic substrate or by coating the ink with coating materials that thermally protect the ink from high temperatures. In one embodiment, the protective substrate is applied in a two step process of first placing a plastic hot melt onto a polyester or other material release liner and, after cooling of the hot melt, using heat and pressure to laminate or bond the hot melt plastic to the ink and then removing the liner. Lenticular inserts are cut out of the lenticular material sheets and the inserts are positioned within a mold where the container is formed by injection, blow, or other molding process. In this step, the substrate acts as a bonding surface as it contacts the molten plastic, melts, and then cools forming a bonding interface with the plastic used to form the container.
    • 由塑料制品的制造方法形成的塑料制品,该塑料制品具有一体地结合或以其他方式附着于其中的双凸透镜材料的插入物。 在一个实施例中,该方法用于通过首先制造或提供包括透镜材料层和光学脊和凹槽的透镜材料片和印刷在平坦侧的墨层上来制造诸如锥形杯的容器 透镜材料。 为了在稍后的塑料加工期间保护墨水免受熔融或可模塑塑料的热量的影响,通过使用粘合剂来附着或粘合塑料基材或通过用涂覆材料涂覆油墨来将热保护基材附着或粘合到油墨层上,所述涂料具有热保护油墨 从高温。 在一个实施方案中,保护性基材以两步法施加,首先将塑料热熔体放置在聚酯或其它材料剥离衬垫上,并且在热熔体冷却之后,使用热和压力层压或粘合热熔塑料 然后去除油墨。 从双凸透镜材料片切出透镜插入件,并将插入件定位在通过注射,吹塑或其它成型工艺形成容器的模具内。 在该步骤中,衬底在接触熔融塑料时起粘合面的作用,熔化,然后冷却与用于形成容器的塑料形成接合界面。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 4. 发明授权
      US08253780B2 3D display system using a lenticular lens array variably spaced apart from a display screen 有权
    • 3D display system using a lenticular lens array variably spaced apart from a display screen
    • 3D显示系统使用与显示屏可变地间隔开的双凸透镜阵列
    • US08253780B2
    • 2012-08-28
    • US12042147
    • 2008-03-04
    • Mark A. RaymondHoward G. LangeWilliam K. Seifert
    • Mark A. RaymondHoward G. LangeWilliam K. Seifert
    • H04N13/04H04N9/47
    • H04N13/305H04N2213/001
    • An image display system for displaying interlaced images to achieve three dimensional effects. The system includes a user electronic device, such as a computer or television, with a display with a faceplate. The electronic device operates the display to generate an image that includes an interlaced portion at an inner display surface or location at an internal offset distance from an outer surface of the faceplate. The image display system includes a lens array with lenticules configured to focus through the lens array material, through an air gap, and into the faceplate the internal offset distance rather than simply on the back of the lens array. The display system may also include a mounting mechanism for selectively positioning the lens array relative to the faceplate to adjust the size of the air gap so as to focus the lens array onto the image being displayed within the display device.
    • 一种用于显示隔行图像以实现三维效果的图像显示系统。 该系统包括具有带面板的显示器的用户电子设备,例如计算机或电视机。 电子设备操作显示器以产生包括在内显示表面处的交织部分的图像或距离面板的外表面的内部偏移距离的位置。 图像显示系统包括具有微透镜的透镜阵列,其被配置为通过透气阵列材料通过气隙聚焦,并且在面板内聚焦透镜阵列背面的内部偏移距离。 显示系统还可以包括用于相对于面板选择性地定位透镜阵列以调整气隙的尺寸的安装机构,以便将透镜阵列聚焦在显示装置内正在显示的图像上。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 5. 发明申请
      US20110067687A1 Tracking Fiber Optic Wafer Concentrator 有权
    • Tracking Fiber Optic Wafer Concentrator
    • 跟踪光纤晶圆集中器
    • US20110067687A1
    • 2011-03-24
    • US12888584
    • 2010-09-23
    • Mark A. RaymondHoward G. LangeSeth Weiss
    • Mark A. RaymondHoward G. LangeSeth Weiss
    • F24J2/08F24J2/38F24J2/24
    • F21S11/00F24S10/74F24S23/12F24S23/31F24S50/00F24S50/20Y02E10/43Y02E10/44Y02E10/47Y02E20/14
    • A solar power system for supplying concentrated solar energy. The system includes a cylindrical absorber tube carrying the working fluid and a concentrator assembly, which includes an array of linear lenses such as Fresnel lenses. The concentrator assembly includes a planar optical wafer paired with each of the linear lenses to direct light, which the lenses focus on a first edge of the wafers, onto the collector via a second or output edge of the wafers. Each of the optical wafers is formed from a light transmissive material and acts as a light “pipe.” The lens array is spaced apart a distance from the first edges of the optical wafers. This distance or lens array height is periodically adjusted to account for seasonal changes in the Sun's position, such that the focal point of each linear lens remains upon the first edge of one of the optical wafers yearlong.
    • 一个用于提供集中太阳能的太阳能发电系统。 该系统包括承载工作流体的圆柱形吸收管和集中器组件,其包括诸如菲涅尔透镜的线性透镜阵列。 集中器组件包括与每个线性透镜配对的平面光学晶片,其将透镜聚焦在晶片的第一边缘上的光通过晶片的第二或输出边缘引导到收集器上。 每个光学晶片由透光材料形成并且用作光“管”。透镜阵列与光学晶片的第一边缘间隔开一定距离。 周期性地调整该距离或透镜阵列高度以考虑太阳位置的季节性变化,使得每个线性透镜的焦点保持在一个光学晶片的第一边缘上。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 6. 发明申请
      US20100185991A1 COMPUTER-IMPLEMENTED METHOD OF OPTIMIZING REFRACTION AND TIR STRUCTURES TO ENHANCE PATH LENGTHS IN PV DEVICES 有权
    • COMPUTER-IMPLEMENTED METHOD OF OPTIMIZING REFRACTION AND TIR STRUCTURES TO ENHANCE PATH LENGTHS IN PV DEVICES
    • 优化折射和TIR结构的计算机实现方法,以增强PV设备中的路径长度
    • US20100185991A1
    • 2010-07-22
    • US12407602
    • 2009-03-19
    • Mark A. RaymondHoward G. LangeSeth Weiss
    • Mark A. RaymondHoward G. LangeSeth Weiss
    • G06F17/50
    • G06F17/5086F24S23/00F24S23/10F24S2201/00G02B5/045G02B27/0012H01L31/0543H01L31/0547Y02E10/52
    • A computer-implemented method is provided for optimizing configuration of absorption enhancement structures for use in a photovoltaic enhancement film that is applied onto a PV device to improve absorption. The method includes receiving optimization run input defining a PV enhancement film including defining absorption enhancement structures with differing configurations. The method includes modeling a PV device including PV material such as a silicon thin film. A first ray tracing is performed over a range of incidence angles for the PV device. The method includes determining a set of base path angles for the PV material layer based on this first ray tracing. A second ray tracing is performed for the PV device with the enhancement film, which has absorption enhancement structures. Enhanced path lengths are determined based on the second ray tracking, and path length ratios are determined by comparing the enhanced path lengths to the base path lengths.
    • 提供了一种计算机实现的方法,用于优化用于光伏增强膜的吸收增强结构的配置,所述光伏增强膜被施加到PV器件上以改善吸收。 该方法包括接收限定PV增强膜的优化运行输入,包括定义具有不同配置的吸收增强结构。 该方法包括对包括诸如硅薄膜的PV材料的PV器件进行建模。 在PV设备的入射角范围内执行第一光线跟踪。 该方法包括基于该第一光线跟踪确定PV材料层的一组基本路径角度。 对具有增强膜的PV器件执行第二光线跟踪,其具有吸收增强结构。 基于第二光线跟踪来确定增强的路径长度,并且通过将增强路径长度与基本路径长度进行比较来确定路径长度比。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 7. 发明申请
      US20100180928A1 SOLAR ARRAYS AND OTHER PHOTOVOLTAIC (PV) DEVICES USING PV ENHANCEMENT FILMS FOR TRAPPING LIGHT 失效
    • SOLAR ARRAYS AND OTHER PHOTOVOLTAIC (PV) DEVICES USING PV ENHANCEMENT FILMS FOR TRAPPING LIGHT
    • 太阳能阵列和使用光伏增强膜的其他光伏(PV)设备
    • US20100180928A1
    • 2010-07-22
    • US12355339
    • 2009-01-16
    • Mark A. RaymondHoward G. LangeSeth Weiss
    • Mark A. RaymondHoward G. LangeSeth Weiss
    • H01L31/052H01L31/00
    • H01L31/0543H01L31/0547Y02E10/52
    • A solar energy conversion assembly for efficiently capturing solar energy by providing additional chances to absorb reflected sunlight. The assembly includes one or more solar cells that each include a light-receiving surface. A fraction of light incident upon the light-receiving surface is reflected. The assembly includes a photovoltaic (PV) enhancement film of transparent material such as plastic positioned to cover at least a portion of the light-receiving surface. The PV enhancement film includes a substrate positioned proximate to or abutting the light-receiving surface. The film includes a plurality of total internal reflection (TIR) elements on the substrate opposite the light-receiving surface. The TIR elements transmit initially received or incident light to the light-receiving surface of the solar cell without significant focusing and then use TIR to trap a substantial portion of the reflected light to provide additional chances for absorption such that typically lost light may be converted to electricity.
    • 一种太阳能转换组件,通过提供额外的机会吸收反射的阳光来有效地捕获太阳能。 该组件包括一个或多个太阳能电池,每个太阳能电池均包括光接收表面。 入射在光接收表面上的光的一部分被反射。 该组件包括透明材料(例如塑料)的光伏(PV)增强膜,其被定位成覆盖光接收表面的至少一部分。 PV增强膜包括靠近或邻接光接收表面的衬底。 该膜包括在与光接收表面相对的基板上的多个全内反射(TIR)元件。 TIR元件将最初接收的或入射的光发射到太阳能电池的光接收表面,而没有显着的聚焦,然后使用TIR捕获反射光的相当大部分以提供额外的吸收机会,使得通常损失的光可以转换成 电力。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 8. 发明申请
      US20100024805A1 SOLAR PANELS FOR CONCENTRATING, CAPTURING, AND TRANSMITTING SOLAR ENERGY IN CONVERSION SYSTEMS 审中-公开
    • SOLAR PANELS FOR CONCENTRATING, CAPTURING, AND TRANSMITTING SOLAR ENERGY IN CONVERSION SYSTEMS
    • 用于在转换系统中集中,捕获和传输太阳能的太阳能电池板
    • US20100024805A1
    • 2010-02-04
    • US12182023
    • 2008-07-29
    • Mark A. RaymondHoward G. Lange
    • Mark A. RaymondHoward G. Lange
    • F24J2/08F24J2/12
    • F24S23/30F24S23/12F24S23/71Y02B10/20Y02E10/42
    • A panel for concentrating and collecting solar energy. The panel includes light collector assemblies that are positioned side-by-side. Each collector assembly includes a receiver element with an elongate body and a light receiving surface on a first side of the body that has a curved cross section. A concentrating lens extends along the length of the receiver body, and the lens is a flat or arched Fresnel lens adapted to focus incident light onto a long, thin strip along the length of the light receiving surface. A plurality of light transmission sheets or wafers extend along the receiver element body with a first edge of the sheet abutting (e.g., to provide optical coupling) a surface opposite the light receiving surface. Light is captured by the transmission sheets at angles that allow total internal reflectance to transmit the light to a master light sheet for transmission through the panel.
    • 集中和收集太阳能的小组。 面板包括并排定位的光收集器组件。 每个收集器组件包括具有细长主体的接收器元件和在主体的第一侧上具有弯曲横截面的光接收表面。 集中透镜沿着接收器主体的长度延伸,并且透镜是平面或拱形的菲涅尔透镜,其适于将入射光聚焦到沿着光接收表面的长度的长而薄的条带上。 多个光透射片或晶片沿着接收器元件主体延伸,其中片的第一边缘邻接(例如,以提供光耦合)与光接收表面相对的表面。 光被透射片捕获,角度允许全内反射率将光传输到主光片以通过面板传输。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 9. 发明授权
      US07164537B2 Wraparound labels with lenticular lenses for clear walled containers 有权
    • Wraparound labels with lenticular lenses for clear walled containers
    • 带双透镜的封闭式标签,用于透明的容器
    • US07164537B2
    • 2007-01-16
    • US11386171
    • 2006-03-22
    • Mark A. Raymond
    • Mark A. Raymond
    • G02B27/10G03B21/60
    • B65D23/14B29C45/00B29L2031/7158B44F1/06B65D25/00B65D2203/00G02B27/2214G09F19/14Y10S359/90
    • A container for producing a graphical image within the container. The container includes a container wall with a front portion and a rear portion. A label is included that extends about the circumference of the container with an inner surface contacting an exterior surface of the rear portion of the container wall and contacting an exterior surface of the front portion of the container wall. The label includes a lenticular lens array integral with the label to include a plurality of lenses formed, such as through embossing, on the outer surface of the label. The lenses have a focal point on or about the rear portion of the container wall with the lenticular lens array positioned near the front portion of the container wall. A printed image is provided and positioned proximal to the focal point on the inner surface of the label.
    • 用于在容器内生成图形图像的容器。 容器包括具有前部和后部的容器壁。 包括围绕容器的圆周延伸的标签,其内表面接触容器壁的后部的外表面并接触容器壁的前部的外表面。 标签包括与标签成一体的双凸透镜阵列,以包括在标签的外表面上形成的多个透镜,例如通过压纹。 透镜在容器壁的后部上或周围具有焦点,双凸透镜阵列位于容器壁的前部附近。 印刷图像被提供并位于标签内表面上的焦点附近。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
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