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    • 1. 发明授权
    • Optical unit and image pickup apparatus utilizing electrostrictive drive elements
    • 使用电致伸缩驱动元件的光学单元和图像拾取装置
    • US08154649B2
    • 2012-04-10
    • US12205003
    • 2008-09-05
    • Natsuko ShiotaYoshihiro HaraAkira KosakaYasutaka Tanimura
    • Natsuko ShiotaYoshihiro HaraAkira KosakaYasutaka Tanimura
    • H04N5/225
    • G02B7/08
    • An optical unit is provided which is characterized by compact configuration, high performance and minimized noise, and which has a drive element to drive a lens cone holding an image pickup optical system, and has the same outside diameter as the lens cone, wherein the optical unit drives the image pickup optical system by expanding and contracting the drive element in a direction of an optical axis of the image pickup optical system. An image pickup apparatus is provided which is characterized by compact configuration, high performance and minimized noise, and which has an optical unit coupled to an image pickup unit through a drive element, and has the same outside diameter as the optical unit, wherein the apparatus drives the optical unit by expanding and contracting the drive unit in a direction of an optical axis of the optical unit.
    • 提供了一种光学单元,其特征在于紧凑的结构,高性能和最小化的噪声,并且具有用于驱动保持摄像光学系统的透镜锥体的驱动元件,并且具有与透镜锥体相同的外径,其中光学 单元通过沿着摄像光学系统的光轴的方向扩展和收缩驱动元件来驱动摄像光学系统。 提供了一种图像拾取装置,其特征在于紧凑的结构,高性能和最小化的噪声,并且具有通过驱动元件耦合到图像拾取单元的光学单元,并且具有与光学单元相同的外径,其中该装置 通过沿着光学单元的光轴的方向扩展和收缩驱动单元来驱动光学单元。
    • 2. 发明申请
    • OPTICAL UNIT AND IMAGE PICKUP APPARATUS
    • 光学单元和图像拾取装置
    • US20090073302A1
    • 2009-03-19
    • US12205003
    • 2008-09-05
    • Natsuko ShiotaYoshihiro HaraAkira KosakaYasutaka Tanimura
    • Natsuko ShiotaYoshihiro HaraAkira KosakaYasutaka Tanimura
    • H04N5/225
    • G02B7/08
    • An optical unit is provided which is characterized by compact configuration, high performance and minimized noise, and which has a drive element to drive a lens cone holding an image pickup optical system, and has the same outside diameter as the lens cone, wherein the optical unit drives the image pickup optical system by expanding and contracting the drive element in a direction of an optical axis of the image pickup optical system. An image pickup apparatus is provided which is characterized by compact configuration, high performance and minimized noise, and which has an optical unit coupled to an image pickup unit through a drive element, and has the same outside diameter as the optical unit, wherein the apparatus drives the optical unit by expanding and contracting the drive unit in a direction of an optical axis of the optical unit.
    • 提供了一种光学单元,其特征在于紧凑的结构,高性能和最小化的噪声,并且具有用于驱动保持摄像光学系统的透镜锥体的驱动元件,并且具有与透镜锥体相同的外径,其中光学 单元通过沿着摄像光学系统的光轴的方向扩展和收缩驱动元件来驱动摄像光学系统。 提供了一种图像拾取装置,其特征在于紧凑的结构,高性能和最小化的噪声,并且具有通过驱动元件耦合到图像拾取单元的光学单元,并且具有与光学单元相同的外径,其中该装置 通过沿着光学单元的光轴的方向扩展和收缩驱动单元来驱动光学单元。
    • 4. 发明授权
    • Drive device
    • 驱动装置
    • US08351141B2
    • 2013-01-08
    • US12863928
    • 2009-01-22
    • Yasutaka TanimuraYasuhiro HondaNatsuko ShiotaYoshihiro Hara
    • Yasutaka TanimuraYasuhiro HondaNatsuko ShiotaYoshihiro Hara
    • G02B7/02G02B15/14
    • F03G7/065G02B7/028G02B7/08
    • A drive device includes a setting unit 12 for setting a control value using a control value-displacement characteristic at a predetermined reference temperature showing a relationship between a control value used to position a movable unit 5 and a displacement of the movable unit 5; a drive unit 20 for supplying drive power corresponding to the control value set by the setting unit 12 to a shape-memory alloy 1 and causing the shape-memory alloy 1 to expand or contract, thereby positioning the movable unit 5; and a correction unit 13 for correcting the control value so as to correct a position shift of the movable unit 5 from a target position resulting from a difference between a control value-displacement characteristic at an ambient temperature and a control value-displacement characteristic at the reference temperature based on the ambient temperature detected by a temperature detection unit 11.
    • 驱动装置包括设置单元12,用于使用表示用于定位可移动单元5的控制值与可移动单元5的位移之间的关系的预定参考温度下的控制值 - 位移特性来设定控制值; 驱动单元20,用于将对应于由设置单元12设置的控制值的驱动力提供给形状记忆合金1,并使形状记忆合金1膨胀或收缩,从而定位可移动单元5; 以及校正单元13,用于校正控制值,以便根据环境温度下的控制值 - 位移特性与控制值 - 位移特性之间的差异来校正可移动单元5从目标位置的位置偏移 基于由温度检测单元11检测到的环境温度的基准温度。
    • 6. 发明申请
    • DRIVE DEVICE
    • 驱动装置
    • US20110032628A1
    • 2011-02-10
    • US12863928
    • 2009-01-22
    • Yasutaka TanimuraYasuhiro HondaNatsuko ShiotaYoshihiro Hara
    • Yasutaka TanimuraYasuhiro HondaNatsuko ShiotaYoshihiro Hara
    • G02B7/02
    • F03G7/065G02B7/028G02B7/08
    • A drive device includes a setting unit 12 for setting a control value using a control value-displacement characteristic at a predetermined reference temperature showing a relationship between a control value used to position a movable unit 5 and a displacement of the movable unit 5; a drive unit 20 for supplying drive power corresponding to the control value set by the setting unit 12 to a shape-memory alloy 1 and causing the shape-memory alloy 1 to expand or contract, thereby positioning the movable unit 5; and a correction unit 13 for correcting the control value so as to correct a position shift of the movable unit 5 from a target position resulting from a difference between a control value-displacement characteristic at an ambient temperature and a control value-displacement characteristic at the reference temperature based on the ambient temperature detected by a temperature detection unit 11.
    • 驱动装置包括设置单元12,用于使用表示用于定位可移动单元5的控制值与可移动单元5的位移之间的关系的预定参考温度下的控制值 - 位移特性来设定控制值; 驱动单元20,用于将对应于由设置单元12设置的控制值的驱动力提供给形状记忆合金1,并使形状记忆合金1膨胀或收缩,从而定位可移动单元5; 以及校正单元13,用于校正控制值,以便根据环境温度下的控制值 - 位移特性与控制值 - 位移特性之间的差异来校正可移动单元5从目标位置的位置偏移 基于由温度检测单元11检测到的环境温度的基准温度。
    • 8. 发明授权
    • Driving device made of shape-memory alloy
    • 由形状记忆合金制成的驱动装置
    • US08434303B2
    • 2013-05-07
    • US12812572
    • 2009-01-14
    • Yasuhiro HondaYasutaka TanimuraNatsuko ShiotaYoshihiro Hara
    • Yasuhiro HondaYasutaka TanimuraNatsuko ShiotaYoshihiro Hara
    • F01B29/10H02N10/00G02B7/04
    • F03G7/065G02B7/08
    • A storing section (70) stores a second initial contact instruction value, which is predefined as an instruction value for positioning a movable portion (5) to a second contact position where the movable portion (5) is contacted with a stopper (8), and an initial standby instruction value, which is predefined as an instruction value for positioning the movable portion (5) to a specified standby position within a moving range of the movable portion (5). A correcting section (42) calculates an actual standby instruction value by correcting the initial standby instruction value, based on a second actual contact instruction value obtained when a contact detection section (41) has detected that the movable portion (5) is positioned to the second contact position, and the second initial contact instruction value. A setting section (43) sets a standby position corresponding to the actual standby instruction value, as an actual standby position of the movable portion (5).
    • 存储部(70)存储第二初始接触指示值,其被预先定义为用于将可动部(5)定位到可动部(5)与止动件(8)接触的第二接触位置的指示值, 以及初始待机指令值,其被预先定义为用于将可动部分(5)定位在可动部分(5)的移动范围内的指定待机位置的指令值。 校正部件(42)基于当接触检测部件(41)检测到可动部分(5)位于所述第二实际接触指令值时获得的第二实际接触指令值,通过校正初始待机指令值来计算实际待机指令值 第二接触位置和第二初始接触指令值。 设定部(43)将与实际待机指示值对应的待机位置设定为可动部(5)的实际备用位置。