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    • 2. 发明申请
    • Piezoelectric motors and methods for the production and operation thereof
    • 压电电动机及其生产和操作的方法
    • US20050127790A1
    • 2005-06-16
    • US10971862
    • 2004-10-22
    • Bjoern MagnussenPeter VaradiKai WolfBenjamin HagemannDieter SchulerErick Davidson
    • Bjoern MagnussenPeter VaradiKai WolfBenjamin HagemannDieter SchulerErick Davidson
    • H01L41/09H02N2/00
    • H01L41/0906
    • The invention relates to a piezoelectric motor comprising a piezoelectric component that is connected to a resonator and a two-dimensional resonator that interacts with a movable element, the resonator having principal surfaces that are parallel to each other and that are also identical in shape and size. The invention further relates to methods for producing such piezoelectric motors, wherein the resonators are manufactured by cutting a profiled, extruded bar into lengths or by cutting, preferably by punching, from sheet metal having constant thickness. Finally, this invention relates to a method for exciting such a piezoelectric motor, wherein the excitation frequency or frequencies is/are generated by the control electronics as a function of time in response to the respective peak current and/or in response to the respective phase minimum between current and voltage and/or in response to the change in phase.
    • 本发明涉及一种压电电动机,其包括连接到谐振器的压电元件和与可移动元件相互作用的二维谐振器,所述谐振器具有彼此平行的主表面,并且形状和尺寸也相同 。 本发明还涉及用于制造这种压电电动机的方法,其中通过将成型的挤压棒切割成长度或通过从具有恒定厚度的金属板冲切切割来制造谐振器。 最后,本发明涉及一种激励这种压电电动机的方法,其中响应于相应的峰值电流和/或响应相应的相位,激励频率或频率由控制电子装置产生作为时间的函数 电流和电压之间的最小值和/或响应于相位的变化。
    • 8. 发明授权
    • Vibratory motors and methods of making and using same
    • 振动电机及其制造和使用方法
    • US07173362B2
    • 2007-02-06
    • US10936052
    • 2004-09-08
    • Bjoern MagnussenPeter VaradiBenjamin HagemannSteven SchofieldErick M. Davidson
    • Bjoern MagnussenPeter VaradiBenjamin HagemannSteven SchofieldErick M. Davidson
    • H01L41/08
    • H01L41/0906
    • A single piezoelectric is excited at a first frequency to cause two vibration modes in a resonator producing a first elliptical motion in a first direction at a selected contacting portion of the resonator that is placed in frictional engagement with a driven element to move the driven element in a first direction. A second frequency excites the same piezoelectric to cause two vibration modes of the resonator producing a second elliptical motion in a second direction at the selected contacting portion to move the driven element in a second direction. The piezoelectric is preloaded in compression by the resonator. Walls of the resonator are stressed past their yield point to maintain the preload. Specially shaped ends on the piezoelectric help preloading. The piezoelectric can send or receive vibratory signals through the driven element to or from sensors to determine the position of the driven element relative to the piezoelectric element or resonator. Conversely, the piezoelectric element can receive vibration or electrical signals passed through the driven element to determine the position of the driven element. The resonator is resiliently urged against the driven element, or vice versa. Plural resonators can drive common driven elements.
    • 单个压电体以第一频率被激发,以在谐振器中产生第一方向上的两个振动模式,在谐振器的选定接触部分处产生第一椭圆运动,该接触部分与被驱动元件摩擦接合以使被驱动元件移动 第一个方向。 第二频率激励相同的压电体,使得谐振器的两个振动模式在所选择的接触部分处沿第二方向产生第二椭圆运动,以沿第二方向移动被驱动元件。 压电体被谐振器压缩预压。 共振器的壁受到压力超过其屈服点,以保持预压。 压电帮助预加载时特殊形状的端部。 压电可以通过从动元件向传感器发送或接收振动信号,以确定从动元件相对于压电元件或谐振器的位置。 相反,压电元件可以接收通过从动元件的振动或电信号,以确定从动元件的位置。 谐振器被弹性地推靠在被驱动元件上,反之亦然。 多个谐振器可以驱动通用的驱动元件。
    • 9. 发明申请
    • Vibratory motors and methods of making and using same
    • 振动电机及其制造和使用方法
    • US20050023933A1
    • 2005-02-03
    • US10936052
    • 2004-09-08
    • Bjoern MagnussenPeter VaradiBenjamin HagemannSteven SchofieldErick Davidson
    • Bjoern MagnussenPeter VaradiBenjamin HagemannSteven SchofieldErick Davidson
    • H01L41/09H02N2/00H02N2/04H02N2/08
    • H01L41/0906
    • A single piezoelectric is excited at a first frequency to cause two vibration modes in a resonator producing a first elliptical motion in a first direction at a selected contacting portion of the resonator that is placed in frictional engagement with a driven element to move the driven element in a first direction. A second frequency excites the same piezoelectric to cause two vibration modes of the resonator producing a second elliptical motion in a second direction at the selected contacting portion to move the driven element in a second direction. The piezoelectric is preloaded in compression by the resonator. Walls of the resonator are stressed past their yield point to maintain the preload. Specially shaped ends on the piezoelectric help preloading. The piezoelectric can send or receive vibratory signals through the driven element to or from sensors to determine the position of the driven element relative to the piezoelectric element or resonator. Conversely, the piezoelectric element can receive vibration or electrical signals passed through the driven element to determine the position of the driven element. The resonator is resiliently urged against the driven element, or vice versa. Plural resonators can drive common driven elements.
    • 单个压电体以第一频率被激发,以在谐振器中产生第一方向上的两个振动模式,在谐振器的选定接触部分处产生第一椭圆运动,该接触部分与被驱动元件摩擦接合以使被驱动元件移动 第一个方向。 第二频率激励相同的压电体,使得谐振器的两个振动模式在所选择的接触部分处沿第二方向产生第二椭圆运动,以沿第二方向移动被驱动元件。 压电体被谐振器压缩预压。 共振器的壁受到压力超过其屈服点,以保持预压。 压电帮助预加载时特殊形状的端部。 压电可以通过从动元件向传感器发送或接收振动信号,以确定从动元件相对于压电元件或谐振器的位置。 相反,压电元件可以接收通过从动元件的振动或电信号,以确定从动元件的位置。 谐振器被弹性地推靠在被驱动元件上,反之亦然。 多个谐振器可以驱动通用的驱动元件。
    • 10. 发明申请
    • Molded piezoelectric apparatus
    • 成型压电装置
    • US20050231071A1
    • 2005-10-20
    • US10827980
    • 2004-04-20
    • Bjoern MagnussenPeter Varadi
    • Bjoern MagnussenPeter Varadi
    • B06B1/06H01L41/053H01L41/09H01L41/22H01L41/08
    • H01L41/0536H01L41/0906H01L41/23Y10T29/42
    • A piezoelectric apparatus comprising a piezoelectric element that is held in static compression is manufactured using moldable materials and a molding process, e.g., injection molding or die casting. The static compression is caused by an intrinsic urge of the moldable material to expand, contract, or deform otherwise, which develops in the material during the hardening phase of the molding process. To enhance the usefulness of the device, a variety of inserts can be connected to the device and various features can be formed by the moldable material at the same time as the molding process takes place. Static preloads may also be caused by mechanically preloaded elements that are introduced during the molding process or by elements that concurrently introduced but that are permanently deformed thereafter.
    • 包括保持静止压缩的压电元件的压电装置使用可模制材料和模制工艺(例如注模或压铸)制造。 静态压缩是由于可模制材料在模制过程的硬化阶段期间在材料中产生的膨胀,收缩或变形的内在冲动引起的。 为了提高装置的有用性,可以将各种插入件连接到装置,并且可以在模制过程发生的同时由可模制材料形成各种特征。 静态预载荷也可能由在模制过程中引入的机械预加载元件或同时引入但在其后永久变形的元素引起。