Simulation Analysis and Performance Evaluation of a Vibratory Feeder Actuated by Dielectric Elastomers

2018 14th IEEE/ASME International Conference on Mechatronic and Embedded Systems and Applications (MESA) Pub Date : 2018-07-01 DOI:10.1109/MESA.2018.8449148

A. Bonci, G. Rizzello, S. Longhi, D. Naso, M. Pirani, S. Seelecke, Emanuele Lorenzoni

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引用次数: 6

Abstract

The present paper deals with a novel, alternative excitation device for vibratory feeders which is based on the use of smart materials for motion generation. In particular, the paper investigates how to improve the performance of a vibratory conveyor by replacing the traditional electromagnetic actuator with a new excitation system based on innovative dielectric elastomer membranes. One of the main research goals consists in the design of the dielectric elastomer actuator (geometry, number of membrane layers) in order to ensure to the conveyor the same basic vibratory performance of a conveyor driven by electromagnetic actuator. At the same time, it is expected that the novel actuator solution leads to improved characteristics in terms of energy consumption and weight. A comparative performance analysis has been carried out in terms of frequency, transient, energy, and power responses. The simulation tests performed to characterize the dynamic behavior of the system have been described along with the promising preliminary results.

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介电弹性体驱动振动给料机仿真分析及性能评价

本文讨论了一种基于智能材料运动产生的振动给料机的新型替代激励装置。特别是，本文研究了如何用新型介电弹性体膜激励系统取代传统的电磁致动器来提高振动输送机的性能。介质弹性体作动器的设计(几何形状、膜层数)是输送机的主要研究目标之一，目的是保证输送机具有与电磁作动器驱动的输送机相同的基本振动性能。同时，预计新的执行器解决方案将在能耗和重量方面改善特性。在频率、瞬态、能量和功率响应方面进行了比较性能分析。为了描述系统的动态特性而进行的模拟试验，以及有希望的初步结果，已经进行了描述。

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2018 14th IEEE/ASME International Conference on Mechatronic and Embedded Systems and Applications (MESA)

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