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RESEARCH ON MULTI-POINT ASYMMETRIC OVERALL LIFTING TECHNIQUE FOR LONG-SPAN SPACE SPECIAL-SHAPED CURVED STEEL TRUSS STRUCTURE BASED ON CLOUD MONITORING
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摘要: 六安市体育中心体育馆形似十大著名茶品之一"六安瓜片",采用89.7 m跨度的空间异形曲面钢桁架结构。通过对三种施工方案的技术先进性、施工安全性和经济合理性的综合对比,确定了馆内设提升架的多点不对称整体提升同步控制方案。研发了空间异形曲面钢桁架结构多点不对称整体提升同步控制技术,重点研究了提升设备与系统的不对称提升同步控制原理,提升点方案优化和提升架设计等;运用MIDAS进行了同步提升和不同步提升全过程的仿真模拟,为整体提升方案提供了参考。开发了针对体育馆钢结构的云平台海量数据处理和实时传输监测系统,并将实测结果与仿真模拟进行了对比。结果表明:多点不对称整体提升同步控制技术适用于六安体育中心体育馆大跨度钢结构屋盖结构的施工;采用的云监测技术和数值仿真技术可确保施工的安全性和可靠性。
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关键词:
- 空间异形曲面钢桁架结构 /
- 多点不对称整体提升 /
- 云监测 /
- 仿真模拟
Abstract: The shape of the gymnasium of Luan Sports Center is similar to the famous top ten tea products "Luan Guapian", the structure of the gymnasium adopts a space specially-shaped curved steel truss structure with a span of 89.7 m. This paper first proposed three construction plans. Multi-point asymmetrical overall lifting synchronous control scheme with lifting frames in the gymnasium was determined, by comparing the technological advancement, construction safety and economic rationality. Multi-point asymmetric overall lifting synchronous control technique was developed for a space specially-shaped curved steel truss structure. The paper focused on the principle of asymmetric lifting synchronous control of lifting equipment and systems, optimize the lifting point scheme and designed the lifting frame, etc. Using MIDAS, the entire simulation of synchronous lifting and asynchronous lifting was carried out, which provided countermeasures for the overall lifting scheme. Real-time monitoring system based on mass data processing and real-time transmission of cloud platform for stadium steel structures was developed, and the actual measurement results were compared with simulations. The results showed that the multi-point asymmetric overall lifting synchronous control technique was suitable for the construction of the roof structure of the gymnasium of Luan Sports Center. The cloud platform real-time monitoring technology and numerical simulation technology could ensure the safety and reliability of the construction. -
张举涛, 芮佳, 张小方, 等. 甘肃省体育馆比赛馆结构设计与分析[J]. 建筑结构, 2019,49(2):1-6. 赵长军, 范重, 彭翼, 等. 苏州火车站大跨钢屋盖施工过程仿真分析[J]. 建筑结构, 2012,42(1):37-40. 黄季阳, 聂悦, 王树, 等. 中关村国家自主创新展示中心折线形布索预应力钢桁架结构设计研究[J].建筑结构, 2012,42(1):49-54. 焦安亮, 陈泽君. 某综合体育馆的高空散装法施工[J]. 施工技术, 2007, 36(10):32-34. 杨兴明. 现代空间钢结构中高空滑移法施工技术分析[J]. 住宅与房地产, 2017(9):181. 范峰, 王兆勋, 王化杰, 等. 杭州国际博览中心飘带网架结构分块吊装分析[J]. 建筑结构学报, 2014, 35(增刊1):77-82. 郑砚国. 泰山核电二期工程安全壳结构整体性试验[J]. 核工程研究与设计, 2002(41):44-48. 中华人民共和国住房和城乡建设部.钢结构设计标准:GB 50017-2017[S]. 北京:中国建筑工业出版社,2018. FOSTER I, ZHAO Y, RAICU I, et al. Cloud Computing and Grid Computing 360-Degree Compared[C]//2008 Grid Computing Environments Workshop (GCE). Texas:IEEE,2008:1-10. FOX A, GRIFFITH R, JOSEPH A, et al. Above the Clouds:A Berkeley View of Cloud Computing[EB/OL].[2009-02-10]. https://max.book118.com/html/2018/0923/80050621160011-24.shtm. 刘鹏. 云计算的定义和特点[EB/OL].[2009-02-15]. http://www.chinacloud.cn. 卞德志, 吴静, 黎敬涛. 基于云监测平台的实时数据监测[J]. 焊接技术, 2016, 43(9):966-969. 中华人民共和国国家发展和改革委员会.钢弦式应变计:DL/T 1044-2007[S]. 北京:中国电力出版社, 2007. 刘红玲, 于亚鹏, 常龙. 基于物联网技术的大型建筑安全远程监测系统设计[J]. 物联网技术, 2013(10):19-22. -
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