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    • 1. 发明授权
    • Drive unit
    • 驱动单元
    • US08436513B2
    • 2013-05-07
    • US13079042
    • 2011-04-04
    • Hideaki MukaeEiichi NagaokaYusuke Adachi
    • Hideaki MukaeEiichi NagaokaYusuke Adachi
    • H02N2/04
    • H02N2/026H01L41/0913H02N2/004H02N2/0055
    • A drive unit includes: a shaft; a movable body supported by the shaft so as to be displaceable along the shaft; a vibratory actuator configured to drive the movable body; and a support body configured to support the vibrator actuator. The vibratory actuator includes an actuator main body that contacts the movable body and is configured to vibrate to output a driving force to the movable body, an opposing member that contacts the movable body and is positioned so as to face the actuator main body with the movable body interposed therebetween, and a coupling member that is configured to couple the actuator main body with the opposing member and to bias the actuator main body and the opposing member so as to sandwich the movable body therebetween with the movable body kept displaceable along the shaft. The support body supports the vibratory actuator so that the vibratory actuator is displaceable along a biasing direction of the coupling member.
    • 驱动单元包括:轴; 由所述轴支撑的可移动体,以便能够沿所述轴移动; 构造成驱动所述可动体的振动致动器; 以及构造成支撑所述振动器致动器的支撑体。 振动致动器包括与可移动体接触并构造成振动以向可移动体输出驱动力的致动器主体,与可移动体接触并且被定位成与致动器主体相对的可移动的对置构件 以及耦合构件,其被构造成将致动器主体与相对构件联接并且使致动器主体和相对构件偏置以将可移动体夹在其间,使得可移动体沿着轴保持位移。 支撑体支撑振动致动器,使得振动致动器可沿联接构件的偏压方向移位。
    • 2. 发明申请
    • DRIVE UNIT
    • 驱动单元
    • US20110255185A1
    • 2011-10-20
    • US13086573
    • 2011-04-14
    • Hideyuki HASHIAkira KOGAHideaki MUKAEEiichi NAGAOKA
    • Hideyuki HASHIAkira KOGAHideaki MUKAEEiichi NAGAOKA
    • G02B7/04
    • G02B7/08
    • A drive unit includes a lens frame configured to support a lens, a movable body located outside the lens and configured to be movable with the lens frame, and a vibratory actuator configured to drive the movable body. The vibratory actuator includes an actuator main body contacting the movable body, an opposite member provided at a position which is opposite to the actuator main body so that the movable body is sandwiched between the actuator main body and the opposite member, and a connecting member configured to connect the actuator main body and the opposite member and to bias them toward the movable body. The connecting member is not provided at a side of the movable body where the lens frame is provided, but is provided at an opposite side of the movable body to the side where the lens frame is provided, as viewed in the optical direction.
    • 驱动单元包括被构造成支撑透镜的透镜框,位于透镜外部并被配置为可与透镜框一起移动的可移动体以及构造成驱动移动体的振动致动器。 振动致动器包括与可移动体接触的致动器主体,设置在与致动器主体相对的位置处的相对构件,使得可动体夹在致动器主体和相对构件之间,连接构件 以连接致动器主体和相对的构件,并将它们朝向可动体偏压。 连接构件不设置在可移动体的设置透镜框的一侧,而是设置在可移动体的与设置透镜框的侧相反的一侧,从光学方向观察。
    • 5. 发明授权
    • Piezoelectric element, vibratory actuator and drive unit
    • 压电元件,振动执行器和驱动单元
    • US07646136B2
    • 2010-01-12
    • US12115063
    • 2008-05-05
    • Yusuke AdachiHideaki MukaeMasaru HigashionjiEiichi Nagaoka
    • Yusuke AdachiHideaki MukaeMasaru HigashionjiEiichi Nagaoka
    • H01L41/04H01L41/08
    • H01L41/083H01L41/0913H02N2/004H02N2/006H02N2/026H02N2/06H02N2/065H02N2/103
    • A piezoelectric element is formed by stacking piezoelectric layers and internal electrode layers. The internal electrode layers are positive and negative electrode layers. The positive electrode layers are first and second positive electrode layers. The negative electrode layers are first and second negative electrode layers. Each of the first positive and negative electrode layers includes four divided electrodes and a connecting electrode for connecting a pair of the four divided electrodes formed on diagonally opposite two areas along a first diagonal direction on a principle surface of the associated one of the piezoelectric layers. Each of the second positive and negative electrode layers includes four divided electrodes and a connecting electrode for connecting a pair of the four divided electrodes formed on diagonally opposite two areas along a second diagonal direction on a principle surface of the associated one of the piezoelectric layers.
    • 压电元件通过堆叠压电层和内部电极层形成。 内部电极层是正极层和负极层。 正极层是第一和第二正极层。 负极层是第一负极层和第二负极层。 第一正极层和负极层中的每一个包括四个分隔电极和连接电极,用于在相关联的一个压电层的主表面上沿着第一对角线方向连接形成在对角相对的两个区域上的一对四个分隔电极。 第二正极层和负极层中的每一个包括四个分隔电极和连接电极,用于在相关联的一个压电层的主表面上沿着第二对角线方向连接形成在对角相对的两个区域上的一对四个分隔电极。
    • 6. 发明申请
    • ULTRASONIC ACTUATOR
    • 超声波执行器
    • US20090224631A1
    • 2009-09-10
    • US12469082
    • 2009-05-20
    • Hideaki MUKAE
    • Hideaki MUKAE
    • H02N2/08
    • H01L41/0913H02N2/0055H02N2/026
    • An ultrasonic actuator (2) includes an actuator body (3) generating a driving force, a case (4) containing the actuator body (3), and support rubbers (51) placed between the actuator body (3) and the case (4) to elastically support the actuator body (3) at both sides of the actuator body in a supporting direction. The case (4) includes a first case (8) having an opening at a position where one of the support members (51) is placed and a second case (9) coupled to the first case (8) to cover the opening in the first case (8). The support rubbers (51) are compressed as the second case (9) is coupled to the first case (8) and elastically support the actuator body (3) in the compressed state.
    • 超声波致动器(2)包括产生驱动力的致动器主体(3),容纳该致动器本体(3)的壳体(4)和放置在致动器主体(3)与壳体(4)之间的支撑橡胶 )以在支撑方向上在致动器主体的两侧弹性地支撑致动器主体(3)。 壳体(4)包括在其中一个支撑构件(51)被放置的位置处具有开口的第一壳体(8)和联接到第一壳体(8)的第二壳体(9),以覆盖所述第一壳体 第一例(8)。 当第二壳体(9)联接到第一壳体(8)并且在致动器主体(3)处于压缩状态时,支撑橡胶(51)被压缩。
    • 8. 发明授权
    • Vibratory actuator
    • 振动执行器
    • US08314533B2
    • 2012-11-20
    • US12738353
    • 2008-07-29
    • Masaru HigashionjiHideaki MukaeEiichi NagaokaYusuke Adachi
    • Masaru HigashionjiHideaki MukaeEiichi NagaokaYusuke Adachi
    • H02N2/00
    • H01L41/0906H01L41/053
    • A supporting structure for an actuator body, which can prevent reduction of vibration of an actuator body and maintain a contact state of a driver element with an abutment body in a stable manner even when the driver element receives reactive force from the abutment body is realized.An ultrasonic actuator (2) includes an actuator body (4) for generating vibration, driver elements (8), provided on a mounting surface (40a) of the actuator body (4), for outputting driving force, a pressing rubber (62) for pressing the actuator body (4) to a stage (11), a case (5) to which the actuator body (4) is coupled, and a plate spring (61) for elastically supporting the actuator body (4) relative to the case (5). The plate spring (61) supports the mounting surface (40a) of the actuator body (4) on which the driver elements 8 are provided.
    • 一种用于致动器主体的支撑结构,其可以防止致动器主体的振动的减小,并且即使当驱动元件从抵接体接收到反作用力时,也能够以稳定的方式保持驱动元件与抵接体的接触状态。 超声波致动器(2)包括用于产生振动的致动器主体(4),设置在致动器主体(4)的安装表面(40a)上的用于输出驱动力的驱动元件(8),压紧橡胶(62) 用于将致动器主体(4)按压到台架(11),致动器主体(4)联接到的壳体(5)和用于相对于所述致动器主体(4)弹性地支撑致动器本体 情况(5)。 板簧(61)支撑在其上设置有驱动元件8的致动器本体(4)的安装表面(40a)。
    • 9. 发明授权
    • Control system for oscillatory actuator
    • 振荡执行器控制系统
    • US08183738B2
    • 2012-05-22
    • US12469257
    • 2009-05-20
    • Kenichi HonjoHideaki MukaeYusuke Adachi
    • Kenichi HonjoHideaki MukaeYusuke Adachi
    • H01L41/09
    • H01L41/0913H02N2/004H02N2/026H02N2/028H02N2/062H02N2/065
    • In driving a target body only by one of actuators, the target body is smoothly driven.A drive unit (1) includes a stage (3), a first ultrasonic actuator (4A) for driving the stage (3) in an X direction and a second ultrasonic actuator (4B) for driving the stage (3) in a Y direction. When the stage (3) is driven only in one of the X direction and the Y direction, one of the first and second ultrasonic actuators (4A and 4B) which corresponds to the direction generates composite vibration of longitudinal direction parallel to a contact surface of the stage (3) and bending vibration perpendicular to the contact surface of the stage (3). On the other hand, the other one of the first and second ultrasonic actuators (4A and 4B) generates only longitudinal vibration parallel to the contact surface of the stage (3).
    • 在仅通过致动器中的一个驱动目标体时,目标体平稳地被驱动。 驱动单元(1)包括:阶段(3),用于在X方向上驱动平台(3)的第一超声波致动器(4A)和用于沿Y方向驱动平台(3)的第二超声致动器(4B) 。 当阶段(3)仅在X方向和Y方向中的一个方向上被驱动时,对应于该方向的第一和第二超声致动器(4A和4B)中的一个产生平行于接触表面的纵向的复合振动 舞台(3)和垂直于舞台(3)的接触表面的弯曲振动。 另一方面,第一和第二超声波致动器(4A和4B)中的另一个仅产生平行于载物台(3)的接触表面的纵向振动。