研制了一种压电弯曲元件型压电驱动器,该驱动器用于电液伺服阀的电-机械转换器。
Developed a new type of piezoelectric bending actuator used as electrics-to-mechanics converter of a piezoelectric hydroelectric servo-valve.
与传统伺服阀相比,以新型功能材料为电-机械转换器的电液伺服阀,具有高频响、高精度和易于微型化等优点。
The electro-hydraulic servo valves in which some novel functional materials are applied to the actuators can have high frequency response and high precision and can be made by micromation.
利用GMM设计新型的电—机转换器,取代传统型电—机转换器,如力矩马达或力马达等,可提高整个电液伺服阀的响应速度和控制精度。
Utilizing GMM to design new-type actuator, replacing traditional actuator such as the torque motor or the force motor, will enhance the response speed and precision of electro-hydraulic servo valve.
电液伺服阀与电液比例阀最大的差别在于电机械转换器。
Electro-hydraulic servo valve and proportional valve biggest difference is that electromechanical converter.
提出了基于振颤信号幅值监测的电液转换器卡涩故障的诊断方法。
A method to diagnose the fault is given based on analyzing the vibration amplitude.
提出了基于振颤信号幅值监测的电液转换器卡涩故障的诊断方法。
A method to diagnose the fault is given based on analyzing the vibration amplitude.
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