Andrius Čeponis, Vytautas Jūrėnas, Dalius Mažeika, Dovilė Deltuvienė
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引用次数: 0
摘要
本文对非对称设计的压电线性作动器进行了数值和实验研究。该驱动器基于不对称切割的方形杆和t形夹紧。带滑块的圆柱形导轨位于t形夹紧的对面。压电致动器体积小、质量大,可以直接安装在印刷电路板上。驱动器的工作原理是由两个相位差为π的锯齿形信号激发的第一纵向振动模式所诱发的惯性粘滑工作原理。此外,纵向振动模式引起杆的弯曲变形,增加圆柱轨道的位移。数值和实验结果验证了该驱动器的工作原理,并表明在200 V p -p激励信号下,导轨的位移幅值达到153.6 μm,在相同激励信号下,导轨的直线运动速度达到45.6 mm/s。
Development of inertial piezoelectric linear actuator with asymmetric design
This article represents a numerical and experimental investigation of a piezoelectric linear actuator with asymmetric design. The actuator is based on a square-shaped rod with asymmetrical cut and T-shaped clamping. The cylindrical rail, with slider, is on the opposite side of the T-shaped clamping. The low-volume and mass of piezoelectric actuator allows to mount it directly to printed circuit board (PCB). The actuator operation is based on the inertial stick – slip operation principle inducted by the first longitudinal vibration mode excited by two sawtooth signals with phase difference π. Furthermore, the longitudinal vibration mode induces bending deformations of the rod, increasing the displacements of the cylindrical rail. The results of numerical and experimental investigations have validated the actuator operating principle, as well as shown that the displacement amplitudes of the guidance rail have reached 153.6 μm at the 200 V p -p excitation signal amplitude, while the linear motion speed reached 45.6 mm/s at the same excitation signal.
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