A Study of Self Powered Active Seismic Isolation Floor Device Using Rotational Inertia Mass Damper

Volume 8: Seismic Engineering Pub Date : 2018-07-15 DOI:10.1115/PVP2018-84354

Keitaro Aoshima, N. Miura, A. Sone

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引用次数: 1

Abstract

In recent years, active seismic isolations have been developed actively, but they have a problem of running when external power supply is cut off. To solve this problem, we proposed a self-powered active seismic isolation floor device based on the idea of electric power regeneration. This device can control using regenerated vibration energy from earthquakes, and doesn’t require external energy to produce control force. However, when long-period earthquakes occur, this device can’t regenerate enough electric power to decrease vibration of equipment. The aim of this paper is to propose a new model using a rotating inertia mass damper (inerter) which can decrease vibration of equipment and regenerate electric power more effectively than the previous model. The inerter is a mechanical element corresponding to capacitor in electrical circuits. In this paper, we compared the response and amount of energy regeneration of previous model with those of the new model adding inerter to the previous model. By using its characteristic of rotation of the spindle, the effect of electric power regeneration can be improved for long-period earthquakes. We discuss the usefulness of inerter in self-powered active isolation floor device for long-period earthquakes.

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基于转动惯量阻尼器的自供电主动隔震楼板装置研究

近年来，主动隔震装置得到了积极的发展，但存在着在切断外部电源时无法正常运行的问题。为了解决这一问题，我们提出了一种基于电力再生思想的自供电主动隔震楼板装置。该装置可以利用地震产生的再生振动能量进行控制，不需要外部能量来产生控制力。然而，当长周期地震发生时，该装置不能再生足够的电力来减少设备的振动。本文的目的是提出一种使用旋转惯性质量阻尼器的新模型，该模型可以比以前的模型更有效地降低设备的振动并回收电力。干涉器是一种机械元件，相当于电路中的电容器。本文将原有模型的响应和能量回收量与在原有模型基础上加入干扰的新模型进行了比较。利用其主轴旋转的特性，可以提高长周期地震的电力再生效果。讨论了干涉器在自供电有源隔震装置中的作用。

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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来源期刊

Volume 8: Seismic Engineering

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