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    • 1. 发明申请
    • Ultrasonic motor and electronic device using the same
    • 超声波电机和电子设备使用相同
    • US20080246371A1
    • 2008-10-09
    • US12077660
    • 2008-03-20
    • Akihiro IinoSatoshi Watanabe
    • Akihiro IinoSatoshi Watanabe
    • H01L41/09H02N2/00H01L41/047
    • H01L41/0913H02N2/026
    • Disclosed is an ultrasonic motor whose output is improved by enhancing the exciting force of a vibration caused on a vibrating body having a rectangular portion. The ultrasonic motor includes the vibrating body having a piezoelectric element, and a moving body which contacts the vibrating body. The phases of two difference vibrations caused on the vibrating body are changed to make the moving direction of the moving body or the vibrating body itself variable by selecting whether to apply a drive signal to first electrodes provided at one side of the piezoelectric element or to apply a drive signal to second electrodes provided at a portion whose polarization direction differs from that of the first electrodes.
    • 公开了一种通过增强在具有矩形部分的振动体上引起的振动的激励力来提高输出的超声波马达。 超声波马达包括具有压电元件的振动体和与振动体接触的移动体。 改变在振动体上引起的两个差异振动的相位,使得移动体或振动体本身的移动方向可变,通过选择是否对设置在压电元件一侧的第一电极施加驱动信号,或施加 向与第一电极的偏振方向不同的部分设置的第二电极的驱动信号。
    • 4. 发明授权
    • Ultrasonic motor and electronic apparatus having ultrasonic motor
    • 超声波电机和具有超声波电机的电子设备
    • US06218769B1
    • 2001-04-17
    • US09369089
    • 1999-08-05
    • Akihiro IinoMasao KasugaSatoshi Watanabe
    • Akihiro IinoMasao KasugaSatoshi Watanabe
    • H01L4104
    • H01L41/0913H02N2/004H02N2/026H02N2/103
    • An ultrasonic motor comprises first piezoelectric oscillators alternately arranged with first polarized regions having a first direction of polarization and second polarized regions having a second direction of polarization opposite to the first direction of polarization. The first piezoelectric oscillators undergo bending vibration in a first direction upon input of drive signals having a same phase to the first polarized regions and the second polarized regions to thereby excite the first and second polarized regions. Second piezoelectric oscillators are laminated to the first piezoelectric oscillators in a second direction generally perpendicular to the first direction for undergoing elongation and contraction vibration in the first direction. When a driving signal is applied to the first and second piezoelectric oscillators a drive force is generated by a combination of the bending vibration of the first piezoelectric oscillators and the elongation and contraction vibration of the second piezoelectric oscillators.
    • 超声波马达包括交替布置的第一压电振荡器,其具有具有第一偏振方向的第一偏振区域和具有与第一偏振方向相反的第二偏振方向的第二偏振区域。 第一压电振荡器在向第一偏振区域和第二偏振区域输入具有相同相位的驱动信号时,在第一方向上经历弯曲振动,从而激发第一和第二偏振区域。 第二压电振荡器在大致垂直于第一方向的第二方向上层压到第一压电振荡器,以在第一方向上进行伸长和收缩振动。 当驱动信号施加到第一和第二压电振荡器时,通过第一压电振荡器的弯曲振动和第二压电振荡器的伸长和收缩振动的组合产生驱动力。
    • 5. 发明授权
    • Ultrasonic motor and electronic device using the same
    • 超声波电机和电子设备使用相同
    • US07642697B2
    • 2010-01-05
    • US12077660
    • 2008-03-20
    • Akihiro IinoSatoshi Watanabe
    • Akihiro IinoSatoshi Watanabe
    • H01L41/08
    • H01L41/0913H02N2/026
    • Disclosed is an ultrasonic motor whose output is improved by enhancing the exciting force of a vibration caused on a vibrating body having a rectangular portion. The ultrasonic motor includes the vibrating body having a piezoelectric element, and a moving body which contacts the vibrating body. The phases of two difference vibrations caused on the vibrating body are changed to make the moving direction of the moving body or the vibrating body itself variable by selecting whether to apply a drive signal to first electrodes provided at one side of the piezoelectric element or to apply a drive signal to second electrodes provided at a portion whose polarization direction differs from that of the first electrodes.
    • 公开了一种通过增强在具有矩形部分的振动体上引起的振动的激励力来提高输出的超声波马达。 超声波马达包括具有压电元件的振动体和与振动体接触的移动体。 改变在振动体上引起的两个差异振动的相位,使得移动体或振动体本身的移动方向可变,通过选择是否对设置在压电元件一侧的第一电极施加驱动信号,或施加 向与第一电极的偏振方向不同的部分设置的第二电极的驱动信号。
    • 6. 发明授权
    • Electric motor and electronic apparatus
    • 电机及电子仪器
    • US07667361B2
    • 2010-02-23
    • US11820932
    • 2007-06-21
    • Tetsuya NobeTakayuki SatodateAyako InoueAkihiro Iino
    • Tetsuya NobeTakayuki SatodateAyako InoueAkihiro Iino
    • H02K5/16
    • H02K5/1672F16C35/02H02K7/083H02K21/145H02K37/14
    • An electric motor has a rotor having an end portion and a recessed portion formed at the end portion. A rotational shaft is mounted to the rotor. A stator covers an outer peripheral portion of the rotor and forms a magnetic field that generates a torque around the rotational shaft to thereby rotate the rotational shaft and the rotor. A bearing rotatably supports the rotational shaft and is entirely spaced-apart from the end portion of the rotor in an axial direction of the rotational shaft. A slider is slidably mounted around the rotational shaft and supports rotation of the rotational shaft about a rotational axis thereof. The slider is interposed between the bearing and the rotor so that a portion of the slider is entirely contained in the recessed portion of the rotor and the remaining portion of the slider is disposed in the space between the bearing and the rotor and in contact with the bearing.
    • 电动机具有在端部形成有端部和凹部的转子。 旋转轴安装在转子上。 定子覆盖转子的外周部分并形成围绕旋转轴产生转矩从而使旋转轴和转子旋转的磁场。 轴承可旋转地支撑旋转轴,并且在旋转轴的轴向方向上与转子的端部完全间隔开。 滑块可滑动地安装在旋转轴周围并且支撑旋转轴绕其旋转轴线旋转。 滑块被插入在轴承和转子之间,使得滑块的一部分完全容纳在转子的凹部中,并且滑块的剩余部分设置在轴承和转子之间的空间中,并与滑块接触 轴承。
    • 10. 发明授权
    • Ultrasonic motor and electronic device having the ultrasonic motor
    • 超声波电机和具有超声波马达的电子装置
    • US06717330B2
    • 2004-04-06
    • US10187570
    • 2002-07-02
    • Akihiro IinoKouji NitadoriMasao Kasuga
    • Akihiro IinoKouji NitadoriMasao Kasuga
    • H02N200
    • H02N2/163H02N2/14
    • A control portion always monitors a present-position signal from a position sensor and monitors whether the present position of a moving body is a desired position, or not (Step 101). In the case where the control portion detects that the present position of the moving body reaches the desired position, the control portion generates a stop command signal and gives the stop command signal to an oscillation drive circuit (S102). Then, the control portion checks whether overshooting occurs, or not (S103), and in the case where the control portion judges that overshooting occurs, the control portion retains a stop command signal as it is for a stop command retaining time t (S104). After the stop command retaining time t elapses, the control portion gives a reverse command signal to the oscillation drive circuit to conduct reverse operation (S105). After Step S105, the control is returned to Step S101 and the above operation is repeated. Then, in the case where the control portion judges that overshooting does not occur in Step S103, position correcting operation is completed.
    • 控制部分总是监视来自位置传感器的当前位置信号,并且监视移动体的当前位置是否为期望位置(步骤101)。 在控制部检测到移动体的当前位置达到期望位置的情况下,控制部产生停止指令信号,并向振荡驱动电路送出停止命令信号(S102)。 然后,控制部检查是否发生过冲(S103),在控制部判断为过冲的情况下,控制部按照停止指令保持时间t保持停止指令信号(S104) 。 在停止命令保持时间t过去之后,控制部分向振荡驱动电路给出反向指令信号以进行反向操作(S105)。 在步骤S105之后,控制返回到步骤S101,并重复上述操作。 然后,在步骤S103中控制部判断为不发生过冲的情况下,完成位置校正动作。