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    • 2. 发明授权
    • Image blur correcting device and camera
    • 图像模糊校正装置和相机
    • US07869702B2
    • 2011-01-11
    • US12096103
    • 2006-11-20
    • Takayuki HayashiEiichi NagaokaKeiji SakamotoHideyuki HashiKenichi HayashiDaisuke Ito
    • Takayuki HayashiEiichi NagaokaKeiji SakamotoHideyuki HashiKenichi HayashiDaisuke Ito
    • G03B17/00G02B27/64G02B7/02H04N5/228
    • G03B5/00H04N5/23248H04N5/23287
    • It is an object of the present invention to provide an image blur correcting device having a dimension reduced in any one direction perpendicular to the optical axis of the incident light, and a camera equipped with this device. The image blur correcting device 300 includes a pitching movement frame 205, a pitching guide mechanism 304, a yawing guide mechanism 306, a pitching direction electromagnetic actuator 312, and a yawing direction electromagnetic actuator 314. The pitching movement frame 205 supports a third lens group G3 for performing image blur correction. The pitching guide mechanism 304 guides the pitching movement frame 205 in the pitching direction. The yawing guide mechanism 306 guides the pitching movement frame 205 in the yawing direction. The electromagnetic actuator 312 drives the pitching movement frame 205 in the pitching direction. The electromagnetic actuator 314 drives the pitching movement frame 205 in the yawing direction. The electromagnetic actuator 312 and the electromagnetic actuator 314 are provided substantially opposed to each other and with a second optical axis A2 interposed therebetween.
    • 本发明的目的是提供一种具有在垂直于入射光的光轴的任何一个方向上减小的尺寸的图像模糊校正装置和配备有该装置的相机。 图像模糊校正装置300包括俯仰运动框架205,俯仰引导机构304,偏航引导机构306,俯仰方向电磁致动器312和偏航方向电磁致动器314.俯仰运动框架205支撑第三透镜组 G3进行图像模糊校正。 俯仰引导机构304在俯仰方向上引导俯仰移动框架205。 偏航引导机构306在俯仰方向上引导俯仰运动框架205。 电磁致动器312以俯仰方向驱动俯仰移动框架205。 电磁致动器314沿偏航方向驱动俯仰运动框架205。 电磁致动器312和电磁致动器314基本上彼此相对设置,并且其间插入第二光轴A2。
    • 7. 发明授权
    • Imaging device and camera
    • 成像设备和相机
    • US07787193B2
    • 2010-08-31
    • US12092505
    • 2006-11-02
    • Keiji SakamotoTakayuki HayashiEiichi NagaokaKenichi HayashiDaisuke ItoAkio KonishiKeishi Iwasaki
    • Keiji SakamotoTakayuki HayashiEiichi NagaokaKenichi HayashiDaisuke ItoAkio KonishiKeishi Iwasaki
    • G02B15/14G03B15/00
    • G03B17/17G02B7/102G03B17/04G03B19/02G03B2217/002G03B2219/02H04N5/2254
    • The present invention aims to provide an imaging device and a camera realizing simultaneously a high magnification zoom lens system and the miniaturization of the device. The imaging device (2) includes a first lens group (G1), a second group frame unit (42), a first group frame unit (41), a motor unit (32), a third lens group (G3), and a CCD unit (33). The first lens group (G1) takes in a light flux incident along a first optical axis (A1). The second group frame unit (42) bends the light flux incident along the first optical axis (A1) to a direction along a second optical axis (A2). The first group frame unit (41) retains the first lens group (G1), and moves the first lens group (G1) in the direction along the first optical axis (A1). The motor unit (32) drives the first group frame unit (41). The first group frame unit (41) includes a driving frame (51) movable in the direction along the first optical axis (A1), and a first group frame retaining the first lens group (G1) and able to move in the direction along the first optical axis (A1) with respect to the driving frame (51).
    • 本发明的目的在于提供一种同时实现高倍率变焦透镜系统的摄像装置和照相机以及装置的小型化。 成像装置(2)包括第一透镜组(G1),第二组框单元(42),第一组框单元(41),电机单元(32),第三透镜​​组(G3) CCD单元(33)。 第一透镜组(G1)沿着第一光轴(A1)入射光束。 第二组框单元(42)使沿着第一光轴(A1)入射的光束沿着第二光轴(A2)的方向弯曲。 第一组框单元(41)保持第一透镜组(G1),并使第一透镜组(G1)沿着第一光轴(A1)的方向移动。 马达单元(32)驱动第一组框单元(41)。 第一组框架单元(41)包括沿着第一光轴(A1)的方向可移动的驱动框架(51)和保持第一透镜组(G1)的第一组框架,并且能够沿着沿着第一光轴 第一光轴(A1)相对于驱动框架(51)。
    • 8. 发明申请
    • CAMERA
    • 相机
    • US20090322927A1
    • 2009-12-31
    • US12158008
    • 2006-12-01
    • Daisuke ItoTakayuki HayashiEiichi NagaokaKeiji SakamotoKenichi HayashiHideyuki HashiTetsurou Tani
    • Daisuke ItoTakayuki HayashiEiichi NagaokaKeiji SakamotoKenichi HayashiHideyuki HashiTetsurou Tani
    • H04N5/225G02B7/02
    • G03B17/17G02B15/173G03B17/02H04N5/2254
    • The present invention has an object in providing a camera with which further miniaturization is realized, in a camera having the bending optical system. A digital camera (301) has an imaging device (2), an outer case (302), a battery (22), a memory card (24), and a sub-substrate (21). The imaging device (2) includes a lens barrel (31) having a bending optical system bending a light flux incident along a first optical axis (A1) into a direction along a second optical axis (A2) intersecting the first optical axis (A1), and a CCD unit (32) receiving a light flux taken in by the bending optical system. The outer case (302) retains the imaging device (2). At least one of the battery (22), the memory card (24), and the sub-substrate (21) is disposed so that the section thereof parallel to a plane including the first optical axis (A1) and the second optical axis (A2) is approximately rectangular, and the longitudinal direction of the section is approximately parallel to a direction along the first optical axis (A1).
    • 本发明的目的在于提供一种在具有弯曲光学系统的相机中实现进一步小型化的照相机。 数码相机(301)具有成像装置(2),外壳(302),电池(22),存储卡(24)和副基板(21)。 成像装置(2)包括具有弯曲光学系统的镜筒(31),所述弯曲光学系统将沿着第一光轴(A1)入射的光束弯曲成沿着与第一光轴(A1)相交的第二光轴(A2)的方向, 以及接收由弯曲光学系统吸入的光束的CCD单元(32)。 外壳(302)保持成像装置(2)。 电池(22),存储卡(24)和子基板(21)中的至少一个被布置成使得其平行于包括第一光轴(A1)和第二光轴(A)的平面的部分 A2)近似矩形,并且该部分的纵向近似平行于沿着第一光轴(A1)的方向。
    • 9. 发明申请
    • IMAGE BLUR CORRECTING DEVICE AND CAMERA
    • 图像修正装置和摄像机
    • US20090129764A1
    • 2009-05-21
    • US12096103
    • 2006-11-20
    • Takayuki HayashiEiichi NagaokaKeiji SakamotoHideyuki HashiKenichi HayashiDaisuke Ito
    • Takayuki HayashiEiichi NagaokaKeiji SakamotoHideyuki HashiKenichi HayashiDaisuke Ito
    • G03B17/00G02B27/64
    • G03B5/00H04N5/23248H04N5/23287
    • It is an object of the present invention to provide an image blur correcting device having a dimension reduced in any one direction perpendicular to the optical axis of the incident light, and a camera equipped with this device. The image blur correcting device 300 includes a pitching movement frame 205, a pitching guide mechanism 304, a yawing guide mechanism 306, a pitching direction electromagnetic actuator 312, and a yawing direction electromagnetic actuator 314. The pitching movement frame 205 supports a third lens group G3 for performing image blur correction. The pitching guide mechanism 304 guides the pitching movement frame 205 in the pitching direction. The yawing guide mechanism 306 guides the pitching movement frame 205 in the yawing direction. The electromagnetic actuator 312 drives the pitching movement frame 205 in the pitching direction. The electromagnetic actuator 314 drives the pitching movement frame 205 in the yawing direction. The electromagnetic actuator 312 and the electromagnetic actuator 314 are provided substantially opposed to each other and with a second optical axis A2 interposed therebetween.
    • 本发明的目的是提供一种具有在垂直于入射光的光轴的任何一个方向上减小的尺寸的图像模糊校正装置和配备有该装置的相机。 图像模糊校正装置300包括俯仰运动框架205,俯仰引导机构304,偏航引导机构306,俯仰方向电磁致动器312和偏航方向电磁致动器314.俯仰运动框架205支撑第三透镜组 G3进行图像模糊校正。 俯仰引导机构304在俯仰方向上引导俯仰移动框架205。 偏航引导机构306在俯仰方向上引导俯仰运动框架205。 电磁致动器312以俯仰方向驱动俯仰移动框架205。 电磁致动器314沿偏航方向驱动俯仰运动框架205。 电磁致动器312和电磁致动器314基本上彼此相对设置,并且其间插入第二光轴A2。
    • 10. 发明授权
    • Imaging apparatus and driving method of its imaging optical system
    • 其成像光学系统的成像设备及其驱动方法
    • US07483219B2
    • 2009-01-27
    • US11407709
    • 2006-04-20
    • Kenichi HayashiTakayuki HayashiEiichi NagaokaKeiji SakamotoNaoto YumikiDaisuke Ito
    • Kenichi HayashiTakayuki HayashiEiichi NagaokaKeiji SakamotoNaoto YumikiDaisuke Ito
    • G02B15/14G02B7/02
    • G02B15/173G02B7/102
    • An imaging optical system is configured with a first lens group disposed on a first optical axis and capturing a luminous flux from a subject along the first optical axis, a prism that folds the luminous flux passed through the first lens group toward a direction along a second optical axis that is substantially perpendicular to the first optical axis and second to fifth lens groups disposed on the second optical axis. At the end of the operation, while the first lens group is driven in a direction of the prism along the first optical axis, the second to the fourth lens groups are driven to an initial angle of view position where these lens groups are to be present at the start of the operation. Thereby, an imaging apparatus whose chassis is very thin and that can realize a high pixel counter and a large magnification, while enabling the speeding-up of the starting operation and the ending operation, can be provided.
    • 成像光学系统被配置为具有设置在第一光轴上的第一透镜组并且沿着第一光轴捕获来自被摄体的光束;棱镜,其将穿过第一透镜组的光束朝向第二光轴的方向 光轴基本上垂直于设置在第二光轴上的第一光轴和第二至第五透镜组。 在操作结束时,当第一透镜组沿着第一光轴沿棱镜的方向被驱动时,第二至第四透镜组被驱动到要存在这些透镜组的初始视角位置 在操作开始时。 由此,能够提供其底盘非常薄并能够实现高像素计数器和大放大率的成像装置,同时能够实现启动操作和结束操作的加速。