会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 32. 发明授权
    • Device for operating a parking lock
    • 用于操作停车锁的装置
    • US08931612B2
    • 2015-01-13
    • US13333077
    • 2011-12-21
    • Martin BauerWilhelmus Gieles
    • Martin BauerWilhelmus Gieles
    • B60W10/18F16H63/34F16H63/48
    • F16H63/3483F16H63/48
    • The invention relates to a device for operating a parking lock of an automatic transmission in motor vehicles, with pawl which interacts with a ratchet wheel, which pawl is impinged upon by a spring energy accumulator (24) and for disengaging the parking lock can be hydraulically impinged upon against the preload force of the spring energy accumulator (24) by a hydraulic transmission control with corresponding control valves, wherein the control valves are controllable in accordance with operating parameters of the motor vehicle and a electromagnetically operable locking element (28), which in the controlled state in defined operating conditions additionally holds the pawl in the disengaged position. According to the invention, a purely hydraulically acting self locking valve (40) is integrated in the hydraulic transmission control (10), which locking valve maintains the controlled system pressure when the parking lock operation (14) is pressurized or when the parking lock is disengaged.
    • 本发明涉及一种用于操作机动车辆中的自动变速器的停车锁的装置,其具有与棘轮相互作用的棘爪,该棘爪与弹簧能量蓄能器(24)撞击并且用于分离驻车锁可以液压地 通过具有相应的控制阀的液压传动控制撞击弹簧储能器(24)的预载力,其中控制阀根据机动车辆的操作参数和电磁可操作的锁定元件(28)是可控的,其中 在限定的操作条件下的受控状态下,另外将棘爪保持在脱离位置。 根据本发明,液压作用的自锁阀(40)集成在液压传动控制装置(10)中,当停车锁定操作(14)被加压时,或当停车锁定为 脱离
    • 35. 发明授权
    • Fluid dynamic bearing system
    • 流体动力轴承系统
    • US08115356B2
    • 2012-02-14
    • US12454657
    • 2009-05-21
    • Martin Bauer
    • Martin Bauer
    • H02K5/16
    • F16C17/105F16C33/107F16C33/745F16C2370/12
    • The invention relates to a fluid dynamic bearing system having a first conical bearing and a second conical bearing working in opposition to the first conical bearing, the conical bearings being disposed along a stationary shaft. The first conical bearing has a first bearing cone disposed on the shaft having bearing surfaces extending at an angle α to the rotational axis, and a first bearing bush having a tapered bearing bore and bearing surfaces that are separated by a first bearing gap filled with bearing fluid from the bearing surfaces of the first bearing cone. The second conical bearing has a second bearing cone disposed on the shaft having bearing surfaces extending at an angle β to the rotational axis, and a second bearing bush having a tapered bearing bore and bearing surfaces that are separated by a second bearing gap filled with bearing fluid from the bearing surfaces of the second bearing cone. According to the invention, the bearing surfaces of the first conical bearing are smaller in surface area than the bearing surfaces of the second conical bearing and the angle α is greater than the angle β.
    • 本发明涉及一种具有第一锥形轴承和与第一锥形轴承相对工作的第二锥形轴承的流体动力轴承系统,该锥形轴承沿固定轴设置。 所述第一锥形轴承具有设置在所述轴上的第一轴承圆锥体,所述第一轴承圆锥体具有以与旋转轴线成α角度延伸的轴承表面,以及具有锥形轴承孔的第一轴承衬套和由填充有轴承的第一轴承间隙分开的轴承表面 来自第一轴承锥体的轴承表面的流体。 所述第二锥形轴承具有设置在所述轴上的第二轴承圆锥体,所述轴承表面以角度bgr延伸; 以及第二轴承衬套,其具有锥形轴承孔和轴承表面,所述轴承表面被填充有来自第二轴承锥体的支承表面的轴承流体的第二轴承间隙分开。 根据本发明,第一锥形轴承的轴承表面的表面面积小于第二锥形轴承的轴承表面,并且角度α大于角度&bgr。
    • 37. 发明申请
    • Permanent magnetic motor having a magnetic axial bearing
    • 永磁电动机具有磁轴向轴承
    • US20090051240A1
    • 2009-02-26
    • US12221882
    • 2008-08-07
    • Martin BauerVladimir V. PopovFrank Brechtefeld
    • Martin BauerVladimir V. PopovFrank Brechtefeld
    • H02K21/14
    • H02K7/09F16C17/107F16C25/045F16C2370/12H02K21/22
    • A permanent magnetic motor having a magnetic axial bearing and one or more fluid bearings, wherein a stator unit is disposed on a baseplate, the stator unit being disposed opposite a magnet ring made up of permanent magnets and being separated from the magnet ring by an air gap, and the magnet ring is fixed to the inside circumference of a circumferential hub that is supported with respect to a bearing bush by means of the fluid bearings via a shaft, and at least one fluid dynamic axial bearing is preloaded with an axial attractive force component that is at least partly generated by a ferromagnetic pull ring that is fixed to the baseplate and disposed below the magnet ring and permeated by its field lines, characterized in that, seen magnetically, the stator unit is centered with respect to the magnet ring and has no significant axial offset and that the pull ring has no or only relatively low electrical conductivity at high magnetic permeability.
    • 一种具有磁轴向轴承和一个或多个流体轴承的永磁电动机,其中定子单元设置在基板上,所述定子单元与由永磁体构成的磁环相对设置并且通过空气与磁环分离 间隙,并且磁环固定到通过轴经由流体轴承相对于轴承衬套支撑的周向轮毂的内周,并且至少一个流体动力轴向轴承预加载有轴向吸引力 所述部件至少部分地由铁磁拉环产生,所述铁磁拉环固定到所述基板并且设置在所述磁环下方并被其磁场线渗透,其特征在于,磁力地看到所述定子单元相对于所述磁环居中并且 没有显着的轴向偏移,并且拉环在高磁导率下没有或仅具有相对低的导电性。
    • 40. 发明授权
    • Electric input key
    • 电输入键
    • US08978442B2
    • 2015-03-17
    • US14122016
    • 2012-05-11
    • Harald MerkleinMartin Bauer
    • Harald MerkleinMartin Bauer
    • G01R35/00G01D3/02G01D3/08
    • G01R35/005G01D3/02G01D3/08
    • An electric input key has an actuating surface and a plurality of displacement sensors which are each designed to generate a displacement signal when the actuating surface is touched. The input key also has an evaluation unit for evaluating the displacement signals and outputting a determined switching state. The input key has at least one analog displacement sensor, at least one digital displacement sensor, and a calibration device for calibrating the analog displacement sensor by using displacement signals measured by the digital displacement sensor. The evaluation unit is designed to carry out self-diagnosis by using calibrated and measured displacement signals.
    • 电输入键具有致动表面和多个位移传感器,每个位移传感器被设计成当致动表面被触摸时产生位移信号。 输入键还具有用于评估位移信号并输出​​确定的切换状态的评估单元。 输入键具有至少一个模拟位移传感器,至少一个数字位移传感器和用于通过使用由数字位移传感器测量的位移信号校准模拟位移传感器的校准装置。 评估单元设计为通过使用校准和测量的位移信号进行自我诊断。