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    • 12. 发明授权
    • Apparatus for bending tubular glass
    • 用于弯曲管状玻璃的装置
    • US5041152A
    • 1991-08-20
    • US172547
    • 1988-03-24
    • Noriaki NishigakiHisao HosoyaKazuyuki TanakaYouichi IwasakiMorio Tominaga
    • Noriaki NishigakiHisao HosoyaKazuyuki TanakaYouichi IwasakiMorio Tominaga
    • C03B23/06H01J9/24
    • C03B23/06Y02P40/57
    • A glass tube bending apparatus according to the present invention includes a drum for bending a heated/softened glass tube into a circular shape, a first driving device, coupled to the drum, for moving the drum straight, and a second driving device, coupled to the drum, for rotating the drum in a direction, and a control for independently controlling the rotating speed and the moving speed of the drum. According to this apparatus, the operation speeds of rotating and moving of the drum can be controlled independently. Therefore, distortion of glass tubes can be decreased, and thermal bending of tubes can be performed with high precision. Further, various sorts of glass tubes can be treated. Still further, since the first driving device and the second driving device are operated in synchronism, the precision of the thermal bending of glass tubes is enhanced.
    • 根据本发明的玻璃管弯曲装置包括用于将加热/软化的玻璃管弯曲成圆形的滚筒,连接到滚筒上以用于使滚筒直线移动的第一驱动装置和耦合到 用于使滚筒沿一个方向旋转的滚筒,以及用于独立地控制滚筒的旋转速度和移动速度的控制。 根据该装置,可以独立地控制滚筒的旋转和移动的操作速度。 因此,可以降低玻璃管的变形,能够高精度地进行管的热弯曲。 此外,可以处理各种玻璃管。 此外,由于第一驱动装置和第二驱动装置同步地操作,所以玻璃管的热弯曲的精度提高。
    • 14. 发明申请
    • OPTICAL APPARATUS
    • 光学装置
    • US20090161232A1
    • 2009-06-25
    • US12335670
    • 2008-12-16
    • Youichi Iwasaki
    • Youichi Iwasaki
    • G02B7/09
    • G02B7/102G02B7/008
    • An optical apparatus includes a magnification-varying lens, a controller configured to control an actuator, and to move the magnification-varying lens; and a temperature detector configured to detect a temperature of the optical apparatus, wherein the controller sets a telephoto end position of the magnification-varying lens to a first position when the temperature detected by the temperature detector is a first temperature, and the controller sets the telephoto end position of the magnification-varying lens to a second position closer to a wide-angle side than the first position when the temperature detected by the temperature detector is a second temperature higher than the first temperature.
    • 光学装置包括放大率变化透镜,控制器,被配置为控制致动器,并移动放大率变化透镜; 以及温度检测器,被配置为检测所述光学设备的温度,其中当所述温度检测器检测到的温度为第一温度时,所述控制器将所述倍率变化透镜的望远端位置设定为第一位置,并且所述控制器将 当温度检测器检测到的温度是高于第一温度的第二温度时,放大变化透镜的远摄端位置比第一位置更靠近广角侧的第二位置。
    • 15. 发明申请
    • LENS BARREL AND OPTICAL APPARATUS
    • 镜头条和光学装置
    • US20080158692A1
    • 2008-07-03
    • US11961619
    • 2007-12-20
    • Chifuyu TomitaHiroyoshi InabaYouichi IwasakiTomoki Hasegawa
    • Chifuyu TomitaHiroyoshi InabaYouichi IwasakiTomoki Hasegawa
    • G02B7/09
    • G02B7/102
    • A lens barrel includes: first and second movable lens units; first and second drive sources for moving the first and second movable lens units in a direction parallel to an optical axis, respectively; guide members for each retaining the first and second movable lens units and for guiding movements of the first and second movable lens units; and a reference position detector for detecting reference positions for the first and second movable lens units, in which: the reference position detector has light emitting receiving elements; the first and second movable lens units have sleeves each engaged with the guide members and have light blocking portions for detecting the reference positions by the light emitting and receiving elements of the reference position detector; and the first and second lens units can move in the optical axis direction, with their respective light blocking portions passing each other without any interference.
    • 镜筒包括:第一和第二可移动透镜单元; 用于分别沿平行于光轴的方向移动第一和第二可移动透镜单元的第一和第二驱动源; 引导构件,用于保持第一和第二可移动透镜单元并且用于引导第一和第二可移动透镜单元的运动; 以及用于检测第一和第二可移动透镜单元的基准位置的基准位置检测器,其中:基准位置检测器具有发光接收元件; 第一和第二可移动透镜单元具有各自与引导构件接合的套筒,并且具有用于通过基准位置检测器的发光和接收元件检测参考位置的遮光部分; 并且第一透镜单元和第二透镜单元可以在光轴方向上移动,并且它们各自的遮光部分彼此相通而没有任何干涉。
    • 17. 发明授权
    • Image stabilizing device
    • 影像稳定装置
    • US5825545A
    • 1998-10-20
    • US665079
    • 1996-06-14
    • Yoshiki KinoNaoya KanedaKazuya MatsudaYouichi IwasakiHiroyuki WadaTsuneo TakashimaHarunobu Ichinose
    • Yoshiki KinoNaoya KanedaKazuya MatsudaYouichi IwasakiHiroyuki WadaTsuneo TakashimaHarunobu Ichinose
    • G02B27/64
    • G02B27/646
    • The present invention relates to an optical instrument such as an optical axis deflecting device or an image stabilizing device having an optical member supported for rotation about a predetermined axis and rotated about the predetermined axis to thereby deflect the optical axis of passing light, moving means adapted to move in a direction along a plane inclined by a predetermined angle from a plane perpendicular to the predetermined axis to thereby rotate the optical member about the predetermined axis, and driving means for driving the moving means. With such construction, a driving force generated by the driving means acts on that portion of the optical member which is far from the rotational shaft thereof and as a result, a driving torque for driving the optical member can be enhanced without causing the bulkiness and higher cost of the device and an increase in consumed electric power.
    • 本发明涉及一种光学仪器,例如光轴偏转装置或图像稳定装置,其具有被支撑为围绕预定轴线旋转并围绕预定轴线旋转的光学构件,从而偏转通过的光的光轴,适于 沿着从垂直于预定轴线的平面倾斜预定角度的平面的方向移动,从而使光学构件绕预定轴线旋转,以及用于驱动移动装置的驱动装置。 通过这种结构,由驱动装置产生的驱动力作用在远离其旋转轴的光学构件的那部分上,结果,可以提高用于驱动光学构件的驱动扭矩,而不会引起蓬松性和较高的 设备的成本和消耗的电力的增加。
    • 18. 发明授权
    • Focus detecting system
    • 聚焦检测系统
    • US5446494A
    • 1995-08-29
    • US284757
    • 1994-08-02
    • Kouichi UedaMasamichi ToyamaHirofumi SudaNaoya KanedaYouichi Iwasaki
    • Kouichi UedaMasamichi ToyamaHirofumi SudaNaoya KanedaYouichi Iwasaki
    • G02B7/28H04N5/232G03B13/36
    • H04N5/23212G02B7/28
    • A focus detecting system for effecting automatic focusing by detecting the in-focus position of a focusing lens and driving the focusing lens to this position. This system has a signal processing means supplied with a video signal from image pick-up means to output a signal related to the in-focus state, a detection means for detecting the position of a focusing lens for forming an image in the image pick-up means, when the signal output from the signal processing means is processed, and a calculating means for calculating the presupposed in-focus position of the focusing lens from at least two groups of items of data on the signal outputted from the signal processing means and on the position of the focusing lens supplied from the detection means. Each time the deviation of the present position of the focusing lens from the presupposed in-focus position is calculated, the focusing lens is driven to move to an extent smaller than the deviation, thus being focused.
    • 一种焦点检测系统,用于通过检测聚焦透镜的对焦位置并将聚焦透镜驱动到该位置来实现自动聚焦。 该系统具有提供有来自图像拾取装置的视频信号以输出与对焦状态有关的信号的信号处理装置,用于检测用于在图像拾取装置中形成图像的聚焦透镜的位置的检测装置, 当从信号处理装置输出的信号被处理时,上升装置和用于从信号处理装置输出的信号上的至少两组数据中计算聚焦透镜的预先设定的对焦位置的计算装置和 在从检测装置提供的聚焦透镜的位置上。 每次计算聚焦透镜的当前位置与预先设定的对焦位置的偏差时,驱动聚焦透镜移动到比偏差小的程度,从而聚焦。