中国建设科技网
您现在的位置:建筑结构>> 期 刊>> 2015年>> 第06期>>正文内容
人行荷载下搁置自动扶梯大悬挑平台动力响应分析及舒适度评价
王海,张鑫,陈威文,郑建灿
摘 要

 (华汇工程设计集团股份有限公司, 绍兴 312000)

 

[摘要]为了对楼板在人行荷载激励下的舒适度进行评价,选定了大跨度楼板在人行激励下的舒适度评价的合理标准。通过对楼板的自振频率及其在人行荷载下加速度峰值响应的计算,以金华万达广场的大跨度悬挑扶梯平台为例,采用有限元软件MIDAS建立平台模型,对其进行了动力响应分析及舒适度评价,从梁截面、阻尼比、人群密度等方面研究了其对平台舒适度的影响。实际工程算例结果表明,可通过布置大截面密肋悬臂梁来满足平台舒适度要求,阻尼对结构加速度峰值响应影响明显,结构加速度峰值响应值随人群密度增大而增大。

 

[关键词]舒适度评价; 楼板振动; 自振频率; 峰值加速度; 人群密度

 

中图分类号:TU391     文献标识码:A     文章编号:1002-848X(2015)06-0046-04

 

Dynamic response analysis and comfort level evaluation of large cantilever escalator platform

under walking load

Wang Hai, Zhang Xin, Chen Weiwen, Zheng Jiancan

 (Huahui Engineering Design Group Co., Ltd., Shaoxing 312000, China)

Abstract:In order to estimate the comfort level of the slab under the excitation of walking load, the reasonable standard was selected to evaluate the comfortable level of largespan slab under the walking load. Taking large cantilever escalator platform of Jinhua Wanda Plaza for example, the platform model was set up by finite element software MIDAS, dynamic response analysis and comfort level evaluation were carried out to study the influences of beam section, damping ratio and population density on platform comfort level. The result of real project calculation case shows that arrangement of largesection cantilever waffle beams can meet the requirement of platform comfort level,  damping influences the structural peak acceleration response greatly, and  structural peak acceleration response increases with population density.

Keywords:comfort level evaluation; floor vibration; natural frequency; peak acceleration; population density

 

作者简介:王海,硕士,助理工程师,Email651360229@qq.com

 

                           参考文献

1RAINER J H. Vibrations in structures induced by man and machines J. Canadian Journal of Civil Engineering 1988,15(6):10861087.

2]宋志刚. 基于烦恼率模型的工程结构振动舒适度设计新理论[D. 杭州:浙江大学,2003.

3KERR S C. Human induced loading on staircases D. London: University College London,  1998.

4ALLEN D. Floor vibrations from aerobics J. Canadian Journal of Civil Engineering, 1990, 17(5):771787.

5ELLINGWOOD B, TALLIN A. Structural serviceability: floor vibrations J. Journal of Structural Engineering, 1984, 110(2):401418.

6]陆春华,金伟良,宋志刚.基于振动舒适度要求的混凝土楼板自振频率分析[J. 建筑科学,2010,26(7):4346.

7]旭斌, 孙利民. 人行桥人致振动特性研究[D. 上海:同济大学, 2006.

8]小丁. 复杂结构人行激励动力响应及舒适度研究[D. 长沙:中南大学, 2012.

9JGJ 9998 高层民用建筑钢结构技术规程[S.北京:中国建筑工业出版社,1998.

10CJJ 6995 城市人行天桥与人行地道技术规范[S:北京:中国建筑工业出版社,1996.

11GB 500102010 混凝土结构设计规范[S.北京:中国建筑工业出版社,2011.

12JGJ 32010 高层建筑混凝土结构技术规程[S.北京:中国建筑工业出版社,2011.

13]阳升.行走跳跃激励下大跨度楼面结构振动舒适度分析[D.北京:北京科技大学,2007.

14GB 500092012 建筑结构荷载规范[S.北京:中国建筑工业出版社,2012.

下载地址

    你还没注册?或者没有登录?这篇论文要求至少是本站的注册会员才能阅读!

    如果你还没注册,请赶紧点此注册吧!

    如果你已经注册但还没登录,请赶紧点此登录吧!