北京工人体育场大跨度开口单层拱壳钢结构施工关键技术
引用文献:
王猛 李欣 鞠竹 郭雅兴. 北京工人体育场大跨度开口单层拱壳钢结构施工关键技术[J]. 建筑结构,2023,48(06):18-25.
WANG Meng LI Xin JU Zhu GUO Yaxing. Key technology for construction of large-span open single-layer arch shell steel structure in Beijing Workers Stadium[J]. Building Structure,2023,48(06):18-25.
摘要:北京工人体育场改造复建工程屋顶为拱壳结构,平面为椭圆形,长轴271m、短轴205m,矢跨比1/9.3,最大悬挑宽度74m。针对该拱壳结构施工中面临的结构安装面积大、施工作业面广、高空作业量大、交叉作业多等难题,提出了带中心压力环大开口拱壳内外环同步安装施工方法:首先通过方案比选,确定了受压内环分段安装、主拱肋整根吊装的施工方案。其次对施工过程中的关键技术进行了介绍,详细说明了内、外环的分段原则和施工中的稳定性控制措施,并通过MIDAS Gen对主拱肋吊装进行了模拟验算、对钢结构合拢过程中的温度应力进行了分析。经过研究和现场实践证明,受压内环、受拉外环同时施工,吊装作业无交叉,提高了施工效率。采用地面分段拼装,超大吨位吊装的方式,减少了高空焊接作业工作量的同时,提高了安装精度。采用本方法组织施工,构件受力合理,施工安全可靠。
关键词:北京工人体育场;大开口;大跨度;拱壳结构;隔震支座;分段安装;同步施工;
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参考文献[1] 陈林,束伟农.桂林两江国际机场T2航站楼屋盖钢结构节点设计[J].建筑结构,2018,48(20):88-91,97.
[2] 于东晖,高晋栋,尧金金,等.国家会议中心二期屋盖预应力拉索施工关键技术研究[J].建筑技术,2021,52(5):534-536.
[3] 贾尚瑞,邹航,蔡柳鹤,等.河北奥林匹克体育中心钢结构工程施工技术[J].施工技术,2016,45(2):5-8,17.
[4] 张文博.天津商业大学体育馆屋盖拱支单层网壳结构力学性能研究[D].天津:天津大学,2016.
[5] 韩重庆,黄桂新,陈浩曼,等.九江文化中心自由曲面钢屋盖结构设计[J].建筑结构,2013,43(5):29-34.
[6] 钱士元,陈龙,浦志祥,等.基于BIM的多层大跨复杂形式钢结构吊装技术[J].建筑结构,2022,52(S1):1949-1955.
[7] 周观根,肖炽,刘扬.钢结构滑移施工技术研究及工程应用[J].建筑结构,2008,38(12):66-68.
[8] 陈思,葛银萍,吕航光.大跨度钢结构吊装及安装关键技术[J].施工技术(中英文),2022,51(8):26-30.
[9] 盛平,张龑华,甄伟,等.北京工人体育场结构改造设计方案及关键技术[J].建筑结构,2021,51(19):1-6.
[10] 建筑结构荷载规范:GB 50009—2012[S].北京:中国建筑工业出版社,2012.
[2] 于东晖,高晋栋,尧金金,等.国家会议中心二期屋盖预应力拉索施工关键技术研究[J].建筑技术,2021,52(5):534-536.
[3] 贾尚瑞,邹航,蔡柳鹤,等.河北奥林匹克体育中心钢结构工程施工技术[J].施工技术,2016,45(2):5-8,17.
[4] 张文博.天津商业大学体育馆屋盖拱支单层网壳结构力学性能研究[D].天津:天津大学,2016.
[5] 韩重庆,黄桂新,陈浩曼,等.九江文化中心自由曲面钢屋盖结构设计[J].建筑结构,2013,43(5):29-34.
[6] 钱士元,陈龙,浦志祥,等.基于BIM的多层大跨复杂形式钢结构吊装技术[J].建筑结构,2022,52(S1):1949-1955.
[7] 周观根,肖炽,刘扬.钢结构滑移施工技术研究及工程应用[J].建筑结构,2008,38(12):66-68.
[8] 陈思,葛银萍,吕航光.大跨度钢结构吊装及安装关键技术[J].施工技术(中英文),2022,51(8):26-30.
[9] 盛平,张龑华,甄伟,等.北京工人体育场结构改造设计方案及关键技术[J].建筑结构,2021,51(19):1-6.
[10] 建筑结构荷载规范:GB 50009—2012[S].北京:中国建筑工业出版社,2012.
Key technology for construction of large-span open single-layer arch shell steel structure in Beijing Workers Stadium
Abstract: The roof of the reconstruction project of Beijing Workers Stadium is an arch shell structure with an oval plane, 271m long, 205m short. The rise-span ratio is 1/9.3 and the maximum overhang width is 74m. In view of the problems faced in the construction of the arch shell structure, such as large structure installation area, wide construction operation, large high altitude work volume, loads of cross-works, a synchronous installation and construction method of inner and outer ring for large open arch-shell with central pressure ring was proposed. Firstly, through the comparison and selection of the schemes, the construction schemes for the sectional installation of the compression inner ring and the hoisting of the whole main arch-rib were determined. Secondly, the key technologies in the construction process were introduced. The section dividing principle of the inner and outer rings and the stability control measures during construction were described in detail, and the simulation calculation of the main arch-rib hoisting was carried out by MIDAS Gen, and the temperature stress during the steel structure closing process was analyzed. Through research and field practice, it proved that the method of using pressure ring and tension ring construction at the same time makes hoisting operation without crossing, and also improves the construction efficiency. The method of ground sectional assembly and super-large tonnage lifting can reduce the workload of high altitude welding operation and improves the installation accuracy. Using this method, the stress of components is reasonable and the construction is safe and reliable.
Keywords: Beijing Workers Stadium; large opening; large-span; arch shell structure; isolation bearing; sectional installation; synchronous construction
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