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    • 3. 发明授权
    • Lens shift mechanism and projection type video display
    • 镜头移位机构和投影式视频显示
    • US07164546B2
    • 2007-01-16
    • US10419777
    • 2003-04-22
    • Yoshiaki MiyashitaHiroki Koba
    • Yoshiaki MiyashitaHiroki Koba
    • G02B7/02
    • G02B7/023
    • A lens mounting plate to which a projection lens unit is fixed is brought into contact with a sliding base. The lens mounting plate is pressed against the sliding base by the urging of a coiled spring. The pressing force is set such that the position of the projection lens unit can be held and shifted. A cover is provided with a pipe-shaped projection so as to surround the projection lens unit with a clearance corresponding to the shifting width of the projection lens unit between the pipe-shaped projection and the projection lens unit. A user shifts the position of the projection lens unit with his or her fingers laid on the pipe-shaped projection and the projection lens unit.
    • 固定有投影透镜单元的透镜安装板与滑动基座接触。 透镜安装板通过螺旋弹簧的推动而压靠滑动基座。 按压力被设定为能够保持和移动投影透镜单元的位置。 盖体设置有管状突起,以围绕投影透镜单元,其间距与投影透镜单元在管状突起和投影透镜单元之间的移动宽度相对应。 用户将他或她的手指放置在管状突起和投影透镜单元上移动投影透镜单元的位置。
    • 4. 发明申请
    • Shutter device and projection type video display
    • 快门设备和投影型视频显示
    • US20050185151A1
    • 2005-08-25
    • US11059699
    • 2005-02-17
    • Hiroki KobaKaoru HoshideMinoru Kouchi
    • Hiroki KobaKaoru HoshideMinoru Kouchi
    • G02B26/02G02F1/13G03B21/14G03B21/16H04N9/31
    • G02B27/285F21V11/04H04N9/3105H04N9/3141
    • Each shading plate comprises a rotating shaft and a driving shaft arranged vertically. First divided shading plate is loosely fitted to and supported by (not adhere to) the rotating shaft and rotates around the shaft. Second divided shading plates are fixed to the rotating shafts and rotate by rotating movement of the shafts. A driving shaft is connected longitudinally to (not adhere to) an edge of the first divided shading plate and supply power to rotate the first divided shading plates. Recesses are formed at the center of upper short side and at the center of lower short side of the first divided shading plate and the first divided shading plate and the second divided shading plates which form one and the same shading plate are so constructed that their short sides are overlapped each other.
    • 每个遮光板包括旋转轴和垂直布置的驱动轴。 第一分开的遮光板松动地安装并支撑(不粘附)旋转轴并围绕轴旋转。 第二分割的遮光板固定在旋转轴上并通过轴的旋转运动而旋转。 驱动轴纵向地连接到第一分开的遮光板的边缘(未附着),并且供应动力以旋转第一分割的遮光板。 凹部形成在第一分割遮光板的上短边的中心和下短边的中心,并且形成同一遮光板的第一遮光板和第二遮光板被构造成使得它们的短 侧面相互重叠。
    • 5. 发明授权
    • Shutter device and projection type video display
    • 快门设备和投影型视频显示
    • US07338174B2
    • 2008-03-04
    • US11059699
    • 2005-02-17
    • Hiroki KobaKaoru HoshideMinoru Kouchi
    • Hiroki KobaKaoru HoshideMinoru Kouchi
    • G03B21/14H04N9/31G02B26/02F21V3/08E06B9/30
    • G02B27/285F21V11/04H04N9/3105H04N9/3141
    • Each shading plate comprises a rotating shaft and a driving shaft arranged vertically. First divided shading plate is loosely fitted to and supported by (not adhere to) the rotating shaft and rotates around the shaft. Second divided shading plates are fixed to the rotating shafts and rotate by rotating movement of the shafts. A driving shaft is connected longitudinally to (not adhere to) an edge of the first divided shading plate and supply power to rotate the first divided shading plates. Recesses are formed at the center of upper short side and at the center of lower short side of the first divided shading plate and the first divided shading plate and the second divided shading plates which form one and the same shading plate are so constructed that their short sides are overlapped each other.
    • 每个遮光板包括旋转轴和垂直布置的驱动轴。 第一分开的遮光板松动地安装并支撑(不粘附)旋转轴并围绕轴旋转。 第二分割的遮光板固定在旋转轴上并通过轴的旋转运动而旋转。 驱动轴纵向地连接到第一分开的遮光板的边缘(未附着),并且供应动力以旋转第一分割的遮光板。 凹部形成在第一分割遮光板的上短边的中心和下短边的中心,并且形成同一遮光板的第一遮光板和第二遮光板被构造成使得它们的短 侧面相互重叠。
    • 6. 发明申请
    • Illuminating device and projection type video display
    • 照明装置和投影型视频显示器
    • US20050117337A1
    • 2005-06-02
    • US10998969
    • 2004-11-30
    • Koji IshiiHiroki Koba
    • Koji IshiiHiroki Koba
    • F21V1/00G02B27/10G02B27/28G03B21/00G03B21/14G03B21/20H04N5/74
    • H04N9/315G02B27/285G03B21/2013G03B21/2073G03B21/208H04N5/7416H04N9/3152
    • Each light path changing member forms a first light flux by reflecting a half of light flux emitted from a particular area (central area or peripheral area) of light source in one direction using a polarizing beam splitter, and forms a second light flux by reflecting the other half of light flux, which has passed through the beamsplitter, in the afore-mentioned direction using the first mirror. Then, each light path changing member transmits a half of a light flux emitted from the other light source and guided by the second mirror in the same direction as that in which the first light flux has been guided using the polarizing beam splitter, and superposes the light flux on the aforementioned first light flux, and reflects the other half of light flux, which has been reflected by the beam splitter, in the aforementioned direction using the first mirror, and superposes the light flux on the second light flux.
    • 每个光路改变构件通过使用偏振分束器在一个方向上反射从光源的特定区域(中心区域或外围区域)发射的光束的一半来形成第一光束,并且通过反射 已经通过分束器的另一半的光通量使用第一反射镜在上述方向上。 然后,每个光路改变构件使用偏振光束分离器将与从第二光束发射的光束的一半透射到与第一光束被引导的方向相同的方向上,由第二反射镜引导的光束的一半, 在上述第一光束上的光通量,并且使用第一反射镜将已经被分束器反射的另一半的光束反射到上述方向,并将光束叠加在第二光通量上。
    • 8. 发明授权
    • Lens moving mechanism and liquid crystal projector
    • 镜头移动机构和液晶投影机
    • US06829108B2
    • 2004-12-07
    • US10636922
    • 2003-08-08
    • Hiroki KobaSusumu TakeharaKaoru HoshideMinoru KouchiKentaro Eto
    • Hiroki KobaSusumu TakeharaKaoru HoshideMinoru KouchiKentaro Eto
    • G02B702
    • G03B5/00
    • The object of the present invention is to further improve a lens barrel moving mechanism of a liquid crystal projector and to provide a lens moving mechanism which has simple structure and is capable of achieving the smooth and high precision movement of a lens barrel, and a liquid crystal projector employing the lens moving mechanism. The present invention provides a lens moving mechanism for moving a lens retaining member 20, which retains a lens barrel 15 provided therein with a projection lens for projecting light with image information, in the directions of Z axis and X axis. The lens moving mechanism comprises first and second guiding mechanisms 23, 23, 24, 24 including a track member, a movable member, and a plurality of rolling members arranged between a rolling member running surface of the track member and a rolling member running surface of the movable member, whereby the lens barrel 15 is guided by the first and the second guiding mechanisms 23, 23, 24, 24 in the directions of Z axis and X axis.
    • 本发明的目的是进一步改进液晶投影仪的镜筒移动机构,并且提供一种透镜移动机构,其结构简单并且能够实现镜筒的平滑和高精度的运动,并且液体 采用透镜移动机构的水晶投影仪。本发明提供了一种透镜移动机构,用于移动透镜保持部件20,该透镜保持部件20在Z轴方向上保持设置有透镜筒15的透镜镜筒15,用于投影具有图像信息的光的投影透镜, X轴。 透镜移动机构包括第一和第二引导机构23,23,24,24,其包括轨道构件,可移动构件和布置在轨道构件的滚动构件行进表面之间的多个滚动构件和滚动构件行进表面 可动构件,由此透镜镜筒15由Z轴和X轴的方向由第一和第二引导机构23,23,24,24引导。
    • 9. 发明授权
    • Lens position adjusting mechanism
    • 镜头位置调节机构
    • US08172408B2
    • 2012-05-08
    • US12417276
    • 2009-04-02
    • Hiromi FujiwaraShigeru MatsumotoHiroki Koba
    • Hiromi FujiwaraShigeru MatsumotoHiroki Koba
    • G03B21/14G02B7/02
    • G02B21/086G02B5/02G03B5/00G03B21/142G03B2205/0015
    • A lens position adjusting mechanism includes a lens, a lens attachment frame that includes a lens holding portion for holding the rim of the lens, and a holding case that sandwiches the lens attachment frame movably in a plane direction perpendicular to an optical axis of the lens. The lens attachment frame includes a shaft portion on the periphery of the lens holding portion, functioning as a fulcrum at a time when the lens attachment frame moves in the plane direction. The holding case includes a shaft supporting portion for supporting the shaft portion and frame guide grooves for sandwiching the lens attachment frame. The position of the lens is adjusted by operating a lug portion by fingers or the like with the shaft portion as a fulcrum. Then the adjusted position is fixed by injecting an adhesive into wedge spaces formed of opposing adhesion grooves.
    • 透镜位置调节机构包括透镜,透镜安装框架,其包括用于保持透镜边缘的透镜保持部分,以及在垂直于透镜的光轴的平面方向上可移动地夹持透镜安装框架的保持壳体 。 透镜安装框架包括在透镜保持部分的周边上的轴部分,当透镜安装框架在平面方向上移动时用作支点。 保持壳体包括用于支撑轴部的轴支撑部和用于夹持透镜附接框架的框架引导槽。 通过以轴部为支点通过手指等操作凸耳部来调节透镜的位置。 然后通过将粘合剂注入由相对的粘合槽形成的楔形空间中来固定调节位置。
    • 10. 再颁专利
    • Lens shift mechanism and projection type video display
    • 镜头移位机构和投影式视频显示
    • USRE42270E1
    • 2011-04-05
    • US12320061
    • 2009-01-15
    • Yoshiaki MiyashitaHiroki Koba
    • Yoshiaki MiyashitaHiroki Koba
    • G02B7/02
    • G02B7/023
    • A lens mounting plate to which a projection lens unit is fixed is brought into contact with a sliding base. The lens mounting plate is pressed against the sliding base by the urging of a coiled spring. The pressing force is set such that the position of the projection lens unit can be held and shifted. A cover is provided with a pipe-shaped projection so as to surround the projection lens unit with a clearance corresponding to the shifting width of the projection lens unit between the pipe-shaped projection and the projection lens unit. A user shifts the position of the projection lens unit with his or her fingers laid on the pipe-shaped projection and the projection lens unit.
    • 固定有投影透镜单元的透镜安装板与滑动基座接触。 透镜安装板通过螺旋弹簧的推动而压靠滑动基座。 按压力被设定为能够保持和移动投影透镜单元的位置。 盖体设置有管状突起,以围绕投影透镜单元,其间距与投影透镜单元在管状突起和投影透镜单元之间的移动宽度相对应。 用户将他或她的手指放置在管状突起和投影透镜单元上移动投影透镜单元的位置。