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    • 3. 发明授权
    • Zoom lens
    • 变焦镜头
    • US08699145B2
    • 2014-04-15
    • US13455479
    • 2012-04-25
    • Yoji KubotaKenichi KubotaHitoshi Hirano
    • Yoji KubotaKenichi KubotaHitoshi Hirano
    • G02B15/14
    • G02B15/173
    • A zoom lens includes a first lens group, a second lens group, a third lens group, and a fourth lens group. The first lens group includes a first lens that has positive refractive power, a second lens that has negative refractive power, and a prism. The second lens group includes a third lens that has positive refractive power and a fourth lens that has negative refractive power. The third lens group includes a stop, a fifth lens that has positive refractive power, and a sixth lens that has negative refractive power. The fourth lens group includes a seventh lens that has positive refractive power. Upon changing magnification from a wide-angle end to a telephoto end, the first and fourth lens groups are fixed, the second lens group first moves toward an image plane side and then moves toward an object side, and the third lens group linearly moves toward the object side.
    • 变焦镜头包括第一透镜组,第二透镜组,第三透镜​​组和第四透镜组。 第一透镜组包括具有正屈光力的第一透镜,具有负屈光力的第二透镜和棱镜。 第二透镜组包括具有正折光力的第三透镜和具有负屈光力的第四透镜。 第三透镜组包括具有正折光力的光阑,第五透镜和具有负屈光力的第六透镜。 第四透镜组包括具有正屈光力的第七透镜。 在从广角端到望远端的倍率变化时,第一透镜组和第四透镜组是固定的,第二透镜组首先朝向像平面侧移动,然后朝向物体侧移动,并且第三透镜组线性移动朝向 物体侧。
    • 4. 发明申请
    • IMAGING LENS
    • 成像镜头
    • US20120113533A1
    • 2012-05-10
    • US13289452
    • 2011-11-04
    • Yoji KUBOTAKenichi KubotaHitoshi Hirano
    • Yoji KUBOTAKenichi KubotaHitoshi Hirano
    • G02B9/34
    • G02B9/58G02B3/04G02B13/004
    • An imaging lens includes a first lens group having a first lens that directs a concave surface to an image plane side and is negative; a second lens group having a second lens that directs a concave surface to an object side and is positive; an aperture; a third lens group having a third lens that is positive; and a fourth lens group having a joined lens that is composed of a fourth lens that is positive and a fifth lens that is negative. In the configuration, when the whole lens system has a focal length f and a composite focal length of the first lens group to the third lens group is Fa, the imaging lens satisfies the following relation: 0.3
    • 成像透镜包括:第一透镜组,具有将凹面指向像面侧的第一透镜,并且为负; 第二透镜组,具有将凹面指向物侧并具有正的第二透镜; 孔径 第三透镜组,具有正的第三透镜; 以及第四透镜组,具有由正的第四透镜和为负的第五透镜构成的接合透镜。 在该结构中,当整个透镜系统具有焦距f并且第一透镜组与第三透镜组的合成焦距为Fa时,成像透镜满足以下关系:0.3
    • 7. 发明申请
    • Laminated optical element
    • 层压光学元件
    • US20090046379A1
    • 2009-02-19
    • US11665182
    • 2006-05-11
    • Keiichi KuramotoNobuhiko HayashiHitoshi HiranoMitsuaki MatsumotoMasaya Nakai
    • Keiichi KuramotoNobuhiko HayashiHitoshi HiranoMitsuaki MatsumotoMasaya Nakai
    • G02B3/02G02B1/04B32B27/08B32B5/16G02B1/11
    • B32B5/16G02B3/00G02B3/02G02B5/188G02B5/1895Y10T428/24413Y10T428/25Y10T428/265Y10T428/31598Y10T428/31609
    • Disclosed herein is a reliable laminated optical element that is a hybrid optical element obtained by laminating an optical resin layer on an optical substrate such as a glass substrate, the optical resin layer being less likely to be separated from the optical substrate even under high temperature and high humidity conditions.The laminated optical element comprises an optical substrate 1 made of an optical material, an intermediate layer 2 provided on the optical substrate 1, and an optical resin layer 3 provided on the intermediate layer 2. The optical resin layer 3 is made of a resin composed of an organometallic polymer having an -M-O-M- bond (M is a metal atom), a metal alkoxide and/or a hydrolysate thereof having only one hydrolyzable group, and an organic polymer having a urethane bond and a methacryloxy group or an acryloxy group. The intermediate layer 2 is obtained by dispersing metal oxide microparticles in a matrix resin composed of a metal alkoxide having a radical polymerizable group and a hydrolyzable group and/or a hydrolysate thereof.
    • 本发明公开了一种可靠的层压光学元件,其是通过将光学树脂层层叠在诸如玻璃基板的光学基板上而获得的混合光学元件,即使在高温下也不太可能与光学基板分离光学树脂层, 高湿度条件。 层叠光学元件包括由光学材料制成的光学基板1,设置在光学基板1上的中间层2和设置在中间层2上的光学树脂层3.光学树脂层3由树脂构成 具有-MOM-键(M为金属原子)的有机金属聚合物,仅具有一个可水解基团的金属醇盐和/或其水解产物,以及具有氨基甲酸酯键和甲基丙烯酰氧基或丙烯酰氧基的有机聚合物。 中间层2通过将金属氧化物微粒分散在由具有自由基聚合性基团的金属醇盐和可水解基团和/或其水解产物构成的基质树脂中而获得。
    • 10. 发明授权
    • Blood-vessel-shape measuring apparatus, blood-flow-velocity measuring apparatus, and blood-flow-amount measuring apparatus
    • 血管形状测定装置,血流速度测定装置以及血流量测量装置
    • US07429244B2
    • 2008-09-30
    • US10565675
    • 2005-07-28
    • Yohsuke KinouchiHitoshi Hirano
    • Yohsuke KinouchiHitoshi Hirano
    • A61B8/00
    • A61B5/489A61B5/02007A61B8/06A61B8/14A61B8/523
    • A blood-vessel-shape measuring apparatus that can accurately measures a shape of a section of a blood vessel is provided.A blood-vessel-shape calculating means 62 calculates, based on respective echo signals detected by first and second arrays 26, 28 that are placed on a skin 20 of a brachial portion 14 as a portion of a living being such that each of the first and second arrays 26, 28 is across a brachial artery 18 located under the skin 20, respective positions of respective portions of the arterial wall that are located right below the first and second arrays 26, 28 and correspond to supersonic-wave elements 26n of the first array 26 and supersonic-wave elements 28n of the second array 28, and calculates, based on the respective positions of the respective portions of the arterial wall that correspond to the supersonic-wave elements 26n, 28n, a shape of the brachial artery 18 on an orthogonal section thereof. Thus, even if the brachial artery 18 may run, under the skin 20, in a direction that is not orthogonal to the first or second array 26, 28 or is not parallel to the skin 20, an accurate sectional shape of the brachial artery 18 can be obtained.
    • 提供了可以精确地测量血管部分的形状的血管形状测量装置。 血管形状计算装置62基于由作为生命的一部分放置在肱动脉部分14的皮肤20上的第一和第二阵列26,28检测到的各个回波信号,使得第一 并且第二阵列26,28穿过位于皮肤20下面的肱动脉18,位于第一和第二阵列26,28正下方的动脉壁的相应部分的相应位置,并对应于超声波元件26 n 和第二阵列28的超声波元件28 N n,并且基于与第二阵列28对应的动脉壁的各个部分的各个位置, 超声波元件26 N,28 N是在其正交部分上的肱动脉18的形状。 因此,即使肱动脉18可以在皮肤20下沿与第一或第二阵列26,28不正交的方向或不平行于皮肤20的方向运行,肱动脉18的精确截面形状 可以获得。