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    • 11. 发明授权
    • Drive apparatus for a liquid crystal dazzle-free mirror arrangement
    • 驱动装置用于液晶无眩光的镜子布置
    • US4676601A
    • 1987-06-30
    • US847142
    • 1986-04-02
    • Hiroshi ItohShinya OhmiYasutoshi SuzukiTsuyoshi FukadaKunihiko Hara
    • Hiroshi ItohShinya OhmiYasutoshi SuzukiTsuyoshi FukadaKunihiko Hara
    • B60R1/08G02F1/13G02B17/00
    • B60R1/088
    • A drive apparatus for a liquid crystal dazzlement preventing mirror arrangement for automatically setting a liquid crystal panel of the mirror arrangment to a dazzlement preventing state by detecting illuminance on the mirror surface and brightness in region near the mirror. An incident light detecting unit detects incident light onto the mirror. An ambient light detecting unit detects brightness in a region around mirror. A control unit receives both the incident light and the ambient light signals and produces a control signal for driving the liquid crystal panel through a drive unit. The apparatus includes an illuminance descrimination function, which is performed in such a manner that in the event of the illuminance on the mirror surface is higher than first prescribed set value of incident light illuminance and the illuminance in region around the mirror is lower than a prescribed set value of ambient light illuminance, the dazzlement preventing state is provided, and that in the event of the incident light illuminance is higher than a second prescribed set value of incident light illuminance which is higher than that of the first set value, irrespective of the ambient light illuminance, the dazzlement preventing state is also provided.
    • 一种用于通过检测镜面上的照度和反射镜附近的区域中的亮度来自动将镜子排列的液晶面板自动设置为防止眩晕状态的液晶眩光防止镜装置的驱动装置。 入射光检测单元将入射光检测到反射镜上。 环境光检测单元检测镜子周围的区域的亮度。 控制单元接收入射光和环境光信号,并产生用于通过驱动单元驱动液晶面板的控制信号。 该装置包括照度分辨功能,其以这样的方式执行,即在镜面上的照度高于入射光照度的第一规定设定值的情况下,并且镜子周围的区域中的照度低于规定 提供环境光照度的设定值,提供防止眩光的状态,并且在入射光照度的情况下比入射光照度的第二规定设定值高于第一设定值的第二规定设定值,与 还提供环境光照度,防止眩光状态。
    • 13. 发明授权
    • Imaging unit
    • 成像单位
    • US08587717B2
    • 2013-11-19
    • US13361980
    • 2012-01-31
    • Eisaku SakodaTakashi MorimotoKunihiko HaraTetsuro Tanaka
    • Eisaku SakodaTakashi MorimotoKunihiko HaraTetsuro Tanaka
    • H04N5/225
    • H04N5/2252H04N5/23209
    • An imaging unit includes a mount unit, an imaging element unit, a plurality of elastic members, a plurality of adjusting screws, and at least one restricting member. The mount unit is configured to support the interchangeable lens unit. The imaging element unit is disposed apart from the mount unit and is configured to produce image data for the subject by opto-electrical conversion. The plurality of elastic members is disposed in a compressed state between the mount unit and the imaging element unit. The plurality of adjusting screws is mounted to the mount unit and/or the imaging element unit to adjust the distance between the mount unit and the imaging element unit. The restricting member is mounted to the mount unit and/or the imaging element unit and configured to restrict the imaging element unit from moving close to the mount unit against the elastic force of the elastic members.
    • 成像单元包括安装单元,成像元件单元,多个弹性构件,多个调节螺钉以及至少一个限制构件。 安装单元构造成支撑可更换镜头单元。 成像元件单元与安装单元分开设置,并且被配置为通过光电转换来产生对象的图像数据。 多个弹性构件以安装单元和成像元件单元之间的压缩状态设置。 多个调节螺钉安装到安装单元和/或成像元件单元以调节安装单元和成像元件单元之间的距离。 限制构件安装到安装单元和/或成像元件单元,并且被配置为克服弹性构件的弹力来限制成像元件单元靠近安装单元移动。
    • 14. 发明授权
    • Transparent polycrystalline material and production process for the same
    • 透明多晶材料和生产工艺相同
    • US08470724B2
    • 2013-06-25
    • US13142132
    • 2009-12-25
    • Takunori TairaJun AkiyamaShigeo AsaiKunihiko Hara
    • Takunori TairaJun AkiyamaShigeo AsaiKunihiko Hara
    • C04B35/50
    • H01F41/0253B28B1/00B33Y40/00C04B35/447C04B35/50C04B35/6455C04B2235/3224C04B2235/6027C04B2235/605C04B2235/9653C30B28/00C30B29/22C30B29/30C30B30/04H01S3/1603H01S3/1611H01S3/1618H01S3/1671H01S3/1673H01S3/1685
    • Upon producing a transparent polycrystalline material, a suspension liquid (or slurry 1) is prepared, the suspension liquid being made by dispersing a raw-material powder in a solution, the raw-material powder including optically anisotropic single-crystalline particles to which a rare-earth element is added. A formed body is obtained from the suspension liquid by means of carrying out slip casting in a space with a magnetic field applied. On this occasion, while doing a temperature control so that the single-crystalline particles demonstrate predetermined magnetic anisotropy, one of static magnetic fields and rotary magnetic fields is selected in compliance with a direction of an axis of easy magnetization in the single-crystalline particles, and is then applied to them. A transparent polycrystalline material is obtained by sintering the formed body, the transparent polycrystalline material having a polycrystalline structure whose crystal orientation is controlled. In this calcination step, after subjecting the formed body to primary sintering at a temperature of 1,600-1,900 K, the resulting primarily-sintered body undergoes hot-isotropic-press sintering (or HIP processing) at a temperature of 1,600-1,900 K.
    • 在制备透明多晶材料时,制备悬浮液(或浆液1),悬浮液通过将原料粉末分散在溶液中而制成,原料粉末包括光学各向异性单晶颗粒,其中稀有 添加了地面元素。 通过在施加磁场的空间中进行滑移铸造,从悬浮液获得成形体。 在这种情况下,当进行温度控制使得单晶颗粒表现出预定的磁各向异性时,根据单晶颗粒中易磁化轴的方向选择静磁场和旋转磁场之一, 然后应用于它们。 通过烧结成形体获得透明多晶材料,该透明多晶材料具有晶体取向被控制的多晶结构。 在该烧成工序中,在1600〜1900K温度下对成型体进行一次烧结后,在1600〜1900K的温度下进行热均质压制烧结(或HIP加工)。
    • 18. 发明申请
    • Image processor
    • 图像处理器
    • US20060152590A1
    • 2006-07-13
    • US10529202
    • 2002-12-26
    • Hiroshi KageKunihiko Hara
    • Hiroshi KageKunihiko Hara
    • H04N5/228G06K9/36
    • H04N5/23277G06T5/003G06T5/50G06T7/20G06T2207/20201H04N5/23248H04N5/23254
    • There is provided an image processor and a method thereof for high-speed compensation for taken-image blurs produced by camera shakes or the like. In the first instance, a motion-detecting area is selected for each of two images taken by an image sensor. When projective data is calculated by means of computing in a predetermined direction pixels of the motion-detecting areas, the motion vector between the two images can be acquired based on the projective data. The image correlativity between the two images is then calculated in the direction that the motion vector designates; and the amount of pixel displacement between the two images is calculated based on the correlativity values acquired by the calculation. Moreover, the area that has been produced by displacing an image output area in a camera-shake compensation area designated in the second frame, by the pixel-displacement amount calculated by a displacement calculator is cut away from the camera-shake compensation area, and is outputted as an image for the image output area of the second frame.
    • 提供了一种用于高速补偿由相机抖动等产生的拍摄图像模糊的图像处理器及其方法。 在第一种情况下,对由图像传感器拍摄的两幅图像中的每一幅图像选择运动检测区域。 当通过在预定方向上计算运动检测区域的像素来计算投影数据时,可以基于投影数据获取两个图像之间的运动矢量。 然后在运动矢量指定的方向上计算两个图像之间的图像相关性; 并且基于通过计算获得的相关性值来计算两个图像之间的像素位移量。 此外,通过将在第二帧中指定的相机抖动补偿区域中的图像输出区域移位由位移计算器计算出的像素位移量而产生的区域被切掉相机抖动补偿区域,并且 作为第二帧的图像输出区域的图像输出。
    • 20. 发明授权
    • Ophthalmologic apparatus
    • 眼科仪器
    • US06481848B2
    • 2002-11-19
    • US09746101
    • 2000-12-21
    • Kunihiko HaraYasuhisa IshikuraHiroshi Iijima
    • Kunihiko HaraYasuhisa IshikuraHiroshi Iijima
    • A61B300
    • A61B3/0083A61B3/0075
    • An ophthalmologic apparatus is disclosed, in which even in the case where the range of lateral relative movement of a trestle is limited with respect to a base, the measurement can be continued without enlarging the space occupied by the apparatus body and without imposing an extra burden on the testee. The apparatus comprises a trestle (4) mounted on a base (3) and laterally movable relative to the base (3) and has a limited range, and a measuring head portion (5) mounted on the trestle (4) and automatically laterally moved relative to the trestle (4) with respect to a reference position (H1). In the case where the trestle (4) moves rightward or leftward and reaches a movement limit position O2, O3, the reference position (H1) of the measuring head portion (5) with respect to the trestle (4) is shifted in the direction in which the trestle (4) moves.
    • 公开了一种眼科设备,其中即使在相对于基座限制了支架的横向相对运动的范围的情况下,也可以继续测量,而不会增大装置主体占据的空间,而不会施加额外的负担 在受试者身上 该装置包括安装在基座(3)上并且相对于基座(3)可横向移动并且具有有限范围的支架(4),以及安装在支架(4)上并自动横向移动的测量头部(5) 相对于支架(4)相对于参考位置(H1)。 在支架(4)向右或向左移动并到达移动极限位置O2,O3的情况下,测量头部(5)相对于支架(4)的基准位置(H1)沿着方向 其中托架(4)移动。