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    • 22. 发明授权
    • Automatic alignment optometric measurement apparatus and method using
the same
    • 自动校准验光仪及其使用方法
    • US6145990A
    • 2000-11-14
    • US352200
    • 1999-07-13
    • Koji Uchida
    • Koji Uchida
    • A61B3/10A61B3/15A61B3/16
    • A61B3/152
    • An optometric apparatus includes a luminous flux projecting unit for projecting a luminous flux to one eye of a subject to be measured, an imaging unit for imaging an anterior part of the eye illuminated by the luminous flux projecting unit, a position detecting unit for detecting the position of the eye in accordance with an image output from the imaging unit, an optometric unit for measuring the eye, a drive unit for driving the optometric unit, and a control unit for controlling the drive unit. The control unit controls the drive unit to align the optometric unit with the eye in accordance with a signal output from the position detecting unit and then controls the drive unit to move the optometric unit to the other eye of the subject when the measurement of the one eye by the optometric unit is completed.
    • 验光装置包括用于将光通量投射到待测对象的一只眼睛的光束投射单元,用于对由光束投射单元照射的眼睛前部进行成像的成像单元,位置检测单元,用于检测 根据从成像单元输出的图像的位置,用于测量眼睛的验光单元,用于驱动眼科单元的驱动单元,以及用于控制驱动单元的控制单元。 控制单元控制驱动单元根据从位置检测单元输出的信号将视光单元与眼睛对准,然后当测量一个时,控制驱动单元将验光单元移动到被检体的另一只眼睛 眼睛由验光单位完成。
    • 23. 发明授权
    • Non-contact tonometer
    • 非接触式测量仪
    • US5107851A
    • 1992-04-28
    • US731485
    • 1991-07-17
    • Koichi YanoKoji UchidaShinya Tanaka
    • Koichi YanoKoji UchidaShinya Tanaka
    • A61B3/16
    • A61B3/165
    • A non-contact tonometer has a fluid projecting device for compressing fluid in a compression chamber and projecting the fluid to the cornea of an eye to be examined located at a predetermined distance therefrom. The fluid injecting device is capable of selecting a first range as a pressurizing range for measurement of intraocular tension and a second range including a value higher in the degree of pressurization relative to the first range. The tonometer also includes a measuring device for detecting a predetermined deformation of the cornea of the eye to be examined caused by the compressed fluid and measuring the value of the intraocular tension of the eye to be examined, a change-over device for changing over the pressurizing range for measurement of intraocular tension between the first range and the second range, a state detecting device for effecting at least one of the detection of the fact that measurement is impossible by the measuring device and the detection of the replacement of the eye to be examined by another eye, and a control device for operating the change-over device on the basis of at least one of the output of the state detecting device and the measured value measured by the measuring device.
    • 24. 发明授权
    • Method of mounting a torque converter on a transmission
    • 将变矩器安装在变速器上的方法
    • US4887344A
    • 1989-12-19
    • US329292
    • 1989-03-27
    • Haruto KuriharaKoji Uchida
    • Haruto KuriharaKoji Uchida
    • B23P21/00B23P19/00F16H41/28
    • F16H57/025B23P19/10B23P19/12Y10T29/49902Y10T29/49904Y10T29/53004Y10T74/19149Y10T74/2186
    • A method of mounting a torque converter on a transmission comprises the steps of setting the transmission to have the tubular members extending horizontally, holding the torque converter by holding means which is movable in vertical and horizontal directions, positioning the torque converter to cause an imaginary axis of a turbine runner in the torque converter to coincide with a common imaginary axis of two coaxial tubular members in the transmission, moving the torque converter toward the transmission in the horizontal direction so as to engage an engaging portion of the turbine runner with an end portion of an inner one of two coaxial tubular members of the transmission, positioning further the torque converter to cause an imaginary axis of a stator in the torque converter to coincide with the common imaginary axis of two tubular members; and moving further the torque converter toward the transmission in the horizontal direction so as to engage an engaging portion of the stator with an end portion of an outer one of two tubular members of the transmission.
    • 将变矩器安装在变速器上的方法包括以下步骤:将变速器设置成使管状构件水平延伸,通过在垂直和水平方向上可移动的保持装置保持变矩器,定位变矩器以产生假想轴 在所述变矩器中的涡轮转轮与所述变速器中的两个同轴管状构件的共同假想轴线重合,以使所述变矩器在水平方向上朝向所述变速器移动,以使所述涡轮机转轮的接合部分与端部 传动装置的两个同轴管状构件的内部一个,进一步定位变矩器以使变矩器中的定子的假想轴线与两个管状构件的共同假想轴线重合; 并且使变矩器在水平方向上朝向变速器进一步移动,以使定子的接合部分与变速器的两个管状构件的外部的端部接合。
    • 26. 发明授权
    • Ophthalmic apparatus
    • 眼科仪器
    • US08752962B2
    • 2014-06-17
    • US12831137
    • 2010-07-06
    • Shigeaki OnoMasao ShikaumiKyoji SekiguchiKoji Uchida
    • Shigeaki OnoMasao ShikaumiKyoji SekiguchiKoji Uchida
    • A61B3/10A61B3/14A61B3/12A61B3/00
    • A61B3/12A61B3/0008A61B3/1225A61B3/14A61B3/152
    • When the fundus camera is positioned on the same side as the subject's eye relative to an appropriate position (front-focus state), the positioning index light source turned on in blue produces most-focused positioning index images. The positioning index light sources become more blurred in order of green and red. When the camera is positioned on the opposite side of the subject's eye relative to the appropriate position (rear-focus state), the positioning index light source turned on in red produces most-focused images. The positioning index light sources become more blurred in order of green and blue. Based on a degree of the blur of the individual positioning index images in red, green, and blue reflected by the cornea of the subject's eye, the calculation unit calculates whether to move the camera body closer to or farther away from the subject's eye and allows the display unit to display the information.
    • 当眼底相机相对于适当的位置(前焦点状态)位于与被检者的眼睛相同的一侧时,以蓝色打开的定位指示光源产生最集中的定位索引图像。 定位指标光源以绿色和红色的顺序变得更加模糊。 当相机相对于适当的位置(后焦点状态)将相机定位在被摄体眼睛的相对侧时,以红色打开的定位索引光源产生最聚焦的图像。 定位指标光源以绿色和蓝色的顺序变得更加模糊。 基于由被检者的眼睛的角膜反射的红色,绿色和蓝色的各个定位索引图像的模糊度,计算单元计算是否将相机机体移动到离被摄体的眼睛更远或更远的位置,并允许 显示单元显示信息。
    • 28. 发明授权
    • Backing-up apparatus, backing-up method, and backing-up program
    • 备份设备,备份方法和备份程序
    • US08176273B2
    • 2012-05-08
    • US12230390
    • 2008-08-28
    • Hidenori YamadaHirotomo TokoroKoji Uchida
    • Hidenori YamadaHirotomo TokoroKoji Uchida
    • G06F12/00
    • G06F11/1451G06F2201/84
    • A backing-up apparatus, upon receiving an instruction to execute backing up, allocates a storage area to store a snapshot to be produced to each time point indicated by the instruction. When the original data is updated after the time point indicated by the instruction, it is checked that the original data corresponding to the place to which the updating has been executed at a time point immediately before the time point indicated by the instruction is stored in the storage area allocated as the storage area to store the latest snapshot produced for the immediately previous time point. When it has been confirmed that the original data is not stored, the original data immediately before the updating corresponding to the place to which the updating has been executed is stored in only the storage area to store the latest snapshot.
    • 备份装置在接收到执行备份的指令时,分配存储区域以存储要产生的快照到由指令指示的每个时间点。 当在由指令指示的时间点之后更新原始数据时,检查在紧接指令指示的时间点之前的时间点处对应于更新已经执行的地点的原始数据被存储在 作为存储区域分配的存储区域来存储针对紧接的上一时间点生成的最新快照。 当确认原始数据未被存储时,紧接在与执行更新的地方相对应的更新之前的原始数据仅存储在存储区域中以存储最新的快照。
    • 29. 发明授权
    • Fundus camera
    • 眼底相机
    • US07896494B2
    • 2011-03-01
    • US12641760
    • 2009-12-18
    • Hiroyuki InoueKoji Uchida
    • Hiroyuki InoueKoji Uchida
    • A61B3/14A61B3/10
    • A61B3/12
    • A fundus camera includes an illumination optical system including an illumination unit configured to illuminate a fundus of a subject's eye, a fundus observation photographing optical system including an image sensor and is configured to observe a fundus image, a focus index projection unit configured to project a focus index on a center region of a photographing portion of the fundus of the subject's eye, a display unit configured to display the fundus image captured by the image sensor, an enlargement unit configured to electrically enlarge the center region of the image captured by the image sensor on which the focus index is projected, an image synthesis unit configured to synthesize an output of the enlargement unit and an image output of a peripheral portion of the image captured by the image sensor, and an output unit configured to output an output of the image synthesis unit to the display unit.
    • 眼底照相机包括照明光学系统,包括被配置为照亮被检眼的眼底的照明单元,包括图像传感器的眼底观察拍摄光学系统,并且被配置为观察眼底图像;焦点指标投影单元,被配置为投影 被摄体眼睛的眼底拍摄部分的中心区域的焦点指标,被配置为显示由图像传感器拍摄的眼底图像的显示单元,被配置为电图放大由图像拍摄的图像的中心区域的放大单元 传感器,其上投影聚焦指标的图像合成单元,被配置为合成放大单元的输出和由图像传感器捕获的图像的周边部分的图像输出的图像合成单元,以及输出单元, 图像合成单元到显示单元。
    • 30. 发明申请
    • STORAGE SYSTEM, BACKUP STORAGE APPARATUS, AND BACKUP CONTROL METHOD
    • 存储系统,备份存储设备和备份控制方法
    • US20100180094A1
    • 2010-07-15
    • US12684016
    • 2010-01-07
    • Zhongzhong MINKoji UCHIDA
    • Zhongzhong MINKoji UCHIDA
    • G06F12/16G06F12/00
    • G06F11/2058G06F11/2064G06F11/2066G06F11/2074
    • A storage system includes a first storage apparatus and a second storage apparatus including a second controller for sequentially transferring a copy of the part of the segments of data from a second buffer into a second storage device segment by segment in the same sequence as the second buffer have received a copy of the part of segments of data from a first buffer of the first storage apparatus. The second controller producing a backup copy in a backup data storage portion by copying a copy of one of the segments of the data stored in the second storage device that has been transferred from the second buffer into the second storage device while transferring a copy of the subsequent segment of the data next to said one of the segments of the data in the sequence from the second buffer to the second storage device.
    • 存储系统包括第一存储装置和第二存储装置,该第二存储装置包括第二控制器,用于将数据段的一部分的副本从第二缓冲器顺序地以与第二缓冲器相同的顺序分段传送到第二存储装置 已经从第一存储装置的第一缓冲器接收到数据段的一部分的副本。 第二控制器通过将存储在第二存储装置中的第二存储装置中的数据的一个段的副本拷贝到第二存储装置中而在备份数据存储部分中产生备份副本,同时转移副本 在从第二缓冲器到第二存储设备的序列中的所述数据段之一的旁边的数据的后续段。