微位移机构在精密机械和精密仪器中应用广泛,种类很多。
With many varieties, micro motion mechanisms have wide applications in precision machines and instruments.
提出了微位移放大机构设计的原则,通过实例说明了位移放大机构合理设计的必要性。
We also presented the design fundamentals for micro-displacement amplifier, and the necessity of reasonable design for micro-displacement amplifier has been illuminated by practical application.
针对一种新型压电舵机的微位移放大机构,提出一种基于刚度分析的设计方法。
A design method of micro-displacement amplifier in a novel piezoelectric servo was proposed based on stiffness analysis of flexure hinges.
微机器人的传动支链采用柔性铰链微位移放大机构,并用细钢丝代替球铰链。
The transmission branch chain of micro-robot adopts flexible hinged minute-displacement enlarging mechanism and USES thin steel wires instead of global hinges.
在有限微量位移机构中,柔性铰链是实现微位移功能的新型机械结构。
In finite and tiny displacement machine, flexural hinges are a new structure machine to implement tiny displacement.
根据对用于镗孔加工刀具补偿的微位移技术的分析以及对柔性铰链机构的研究,研发了一套具有自主知识产权的平行四边形弹性镗杆结构的镗孔刀具微量补偿装置。
Based on the research on micro movement and elastic gemels, a boring cutter micro compensation device amounted on the parallelogram elastic boring rod is developed with self owned intelligence right.
本文针对应用于空间多自由度微位移工作台的双轴柔性铰链机构进行研究,推导柔性铰链柔度计算公式。
This thesis researches on the double-axis flexure hinges which widely used in the space multi-DOF micro-displacement work stage, and presents the compliance equations for double-axis flexure hinges.
研究表明在主体机构中适当减小柔性铰链转角刚度,可以显著改善微位移放大效果。
The resembling points out that the effection of the main mechanism magnifying performance will be improved seriously while the stiffness of flexible hinge of main mechanism is decreased properly.
在微位移技术中,柔性铰链是实现微位移和高分辨率的理想机构。
In the case of micro displacement technology, the flexure hinge is an ideal mechanism to realize the micro displacement and high resolution.
对微位移放大器的动态特性进行了建模分析,将放大机构与压电叠堆执行器相耦合,得到了该微位移放大器系统的传递函数。
The amplifying mechanism is modeled and analyzed with the piezoelectric actuator incorporated, the transfer function of the amplifier system is obtained.
对微位移放大器的动态特性进行了建模分析,将放大机构与压电叠堆执行器相耦合,得到了该微位移放大器系统的传递函数。
The amplifying mechanism is modeled and analyzed with the piezoelectric actuator incorporated, the transfer function of the amplifier system is obtained.
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