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    • 3. 发明申请
    • COLLAPSIBLE IMAGING SYSTEMS HAVING LENS ARRAYS
    • 具有镜头阵列的可折叠成像系统
    • WO2017142674A1
    • 2017-08-24
    • PCT/US2017/014299
    • 2017-01-20
    • ALMALENCE INC.
    • SHMUNK, Dmitry Valerievich
    • G03B17/00G03B17/04G03B17/12
    • G02B13/0015G02B3/0006G02B23/20G03B17/04G03B17/12G03B2205/0092H04N5/2254
    • Optics systems presented are arranged as high-performance imagers particularly characterized by their exceptional compactness in view of image quality. A plurality of lens and let's and or doublets are configured to cooperate with related mount systems optimized for compactness. To achieve very high resolution imaging despite somewhat abbreviated compound lens design, these systems include use of lens array elements proximate to an imaging plane. So placed lens array devices may be designed with lens elements which invariably operate on incident wave planes with radial dependence. That is, the focusing strength of lenses from which these lens arrays are comprised may depend upon its distance from system optic axis. This enables an imaging correction function that counters distortion and other undesirable imaging errors typically present in a simplified compound lens systems. When used together and in conjunction with special-purpose collapsing lens mounting systems, an imaging system of very high fidelity and very compact weight size is achieved to great advantage in system when a premium on lens size is necessitated.
    • 所呈现的光学系统被安排为高性能成像器,其特征在于其在图像质量方面的特殊紧凑性。 多个镜头以及我们和/或双联配置被配置为与紧凑性优化的相关安装系统配合。 尽管稍微缩短了复合透镜设计,为了实现非常高分辨率的成像,这些系统包括使用靠近成像平面的透镜阵列元件。 因此,放置的透镜阵列装置可以设计有透镜元件,其总是以径向依赖性的方式在入射波面上操作。 也就是说,构成这些透镜阵列的透镜的聚焦强度可以取决于其离开系统光轴的距离。 这使得成像校正功能能够抵消通常存在于简化的复合透镜系统中的失真和其他不期望的成像误差。 当与特殊用途的折叠式镜头安装系统一起使用时,高保真度和非常紧凑的重量尺寸的成像系统在系统中获得巨大优势,因为如果需要镜片尺寸的话,这是非常有利的。
    • 4. 发明申请
    • COLLAPSIBLE LENS MOUNT SYSTEMS
    • 可折叠的镜头安装系统
    • WO2017142673A1
    • 2017-08-24
    • PCT/US2017/014288
    • 2017-01-20
    • ALMALENCE INC.
    • SHMUNK, Dmitry Valerievich
    • G02B7/10G02B15/14G03B17/00G03B17/12
    • G02B15/14G02B7/10G02B7/16G02B13/12G03B17/04G03B17/12G03B2205/0092
    • Systems are presented with special mechanical means to switch a set of lens elements to form a compound lens from a storage position to an imaging position. In the storage mode, these arrangements offer highly efficient space saving schemes suitable for use in application where space is a premium. In the imaging mode, a plurality of lens singlets are brought together on a common imagine axis whereby they operate to form very high quality images at a single image plane. Singlet lenses are held in a lens mount device of a disk element. A plurality of similar cooperating disk elements move against adjacent coupled disks to cause well-regulated desirable motion and positioning. Specifically, portions of the disk include a cam system which permits smooth movement as disk elements are counter rotated with respect to each other thus driving the preferred positioning.
    • 系统提供了特殊的机械手段来切换一组镜头元件以形成从存储位置到成像位置的复合镜头。 在存储模式下,这些配置提供了高效节省空间的方案,适用于空间有限的应用。 在成像模式中,多个单体镜片在共同的想象轴上聚集在一起,由此它们操作以在单个图像平面上形成非常高质量的图像。 单透镜被保持在盘元件的透镜安装装置中。 多个相似的协作盘元件靠着相邻的耦合盘移动以引起良好调节的期望的运动和定位。 具体地说,盘的部分包括一个凸轮系统,当盘元件相对于彼此反向转动时,允许平滑移动,从而驱动优选的定位。