Practical demonstration of a large-scale active vibration isolation system

Case Studies in Mechanical Systems and Signal Processing Pub Date : 2015-07-01 DOI:10.1016/j.csmssp.2015.03.001

Tiejun Yang , Yao Sun , Liubin Zhou , Michael J. Brennan , Zhigang Liu

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引用次数: 7

Abstract

Small experimental test-rigs are often used to investigate active vibration control concepts in the laboratory because of ease of construction and implementation. However, in marine applications, there is a large gap between this type of experiment and full-scale implementation onboard a ship. In this article a large-scale laboratory based active vibration control system is demonstrated. It involves a floating raft system attached to a hull-like structure by way of four hydraulic actuators, which are placed in parallel with eighteen passive resilient isolators. The flexible hull-like structure is supported on twenty six pneumatic springs to simulate a floating ship. A decentralized feedforward control strategy was implemented resulting in the reduction of vibration levels on the flexible hull-like receiving structure of up to 36 dB at some tonal excitation frequencies. The passive isolation results in broadband control and is most effective at higher frequencies.

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大型主动隔振系统的实际演示

由于易于建造和实施，小型实验试验台经常用于研究实验室中的主动振动控制概念。然而，在船舶应用中，这种类型的实验与在船上全面实施之间存在很大差距。本文介绍了一种基于实验室的大型振动主动控制系统。它包括一个浮筏系统，通过四个液压致动器连接到一个类似船体的结构上，这些致动器与18个被动弹性隔离器平行放置。该柔性船体结构由26个气动弹簧支撑，以模拟浮船。采用分散式前馈控制策略，在某些音调激励频率下，柔性船体接收结构的振动水平降低了36 dB。无源隔离导致宽带控制，并且在更高频率下最有效。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Case Studies in Mechanical Systems and Signal Processing

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