Controlling Floor Vibration with Active and Passive Devices

The Shock and Vibration Digest Pub Date : 2003-09-01 DOI:10.1177/05831024030355001

L. M. Hanagan, T. Murray, K. Premaratne

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引用次数: 30

Abstract

This paper reviews research, conducted by the authors over the last decade, pertaining to the control of ex- cessive floor vibration using active and passive devices. The active device studied uses a proof-mass actuator to deliver the control force to the floor system. Effectiveness and stabil- ity characteristics for a single-input/single-output (SISO) con- trol scheme, using velocity feedback, are explored. The SISO system is shown to increase damping to 40% of critical on an experimental floor when amplitudes remain in the linear range. When implemented on two in-place floors, at least a 70% reduction in vibration amplitudes due to walking was ob- served. Next, the benefits of expanding to a practical single- input/multi-output (SIMO) control system are identified. Ad- ditionally, techniques to optimize the SIMO scheme are presented. Because of the stability characteristics of the controlled system, the improvement noted for the SIMO scheme is most dramatic for floors with fundamental frequen- cies near the natural frequency of the actuator. I na2H zfloor example, a SIMO control scheme provided seven times more reduction than that of the SISO system. The passive device research focuses on the experimental implementation of tuned mass dampers (TMDs) to control floor vibration. Two different configurations are explored. The uniqueness of the first device is that liquid filled bladders are used to provide an economical damping mechanism. When implemented on an office floor, a significant improvement of walking vibration lev- els was observed. Satisfaction with the repair was noted from the occupants. The second device utilizes a configuration that has great flexibility in the field, thus allowing for more eco- nomical mass production. Using two TMDs, a significant re- duction of response was noted for the 5 and 6 Hz modes. Research to improve these active and passive strategies continues and will be reported as significant results are achieved.

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用主动和被动装置控制地板振动

本文综述了近十年来作者在利用主动和被动装置控制楼板过度振动方面所做的研究。所研究的主动装置使用了一个验证质量执行器来将控制力传递给地板系统。研究了采用速度反馈的单输入/单输出(SISO)控制方案的有效性和稳定性。在实验地板上，当振幅保持在线性范围内时，SISO系统被证明可以将阻尼增加到临界的40%。当在两层就地实施时，由于行走造成的振动幅度至少减少了70%。其次，扩展到一个实用的单输入/多输出(SIMO)控制系统的好处是确定的。此外，还介绍了SIMO方案的优化技术。由于被控系统的稳定性特性，对于基频接近执行器固有频率的楼层，SIMO方案的改进最为显著。例如，SIMO控制方案提供了比SISO系统多7倍的减少。无源装置研究的重点是调谐质量阻尼器(TMDs)控制底板振动的实验实现。研究了两种不同的配置。第一种装置的独特之处在于使用充满液体的膀胱来提供经济的阻尼机制。当在办公室地板上实施时，观察到行走振动水平的显着改善。住户对维修表示满意。第二种设备采用了在现场具有很大灵活性的配置，从而允许更经济的大规模生产。使用两个tmd, 5 Hz和6 Hz模式的响应显著降低。改进这些主动和被动策略的研究仍在继续，并将在取得重大成果后报告。

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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The Shock and Vibration Digest

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