广西乐百弄衣隧道企业级BIM技术应用
|
摘要
广西乐百弄衣隧道属于特长隧道,在隧道施工过程中,由于地质构造异常复杂,对于质量、安全的控制非常严格。隧道开挖的地质预报资料尤为重要,需排除前方不良地质、水纹条件,同时,隧道开挖过程中的超挖、欠挖工程量统计成为了传统施工的一个难点。此外,隧道的不均匀沉降监测数据实时记录更新及现场进度、质量、安全等均急需新型项目管理工具来辅助提升协同管理效率。针对以上隧道的施工重点难点,团队经过多次不同BIM系列软件的比对分析,采取了Revit+Dynamo+Civil3D+BIM5D的BIM解决方案,可解决从BIM模型搭建到项目各阶段的管理应用难题,如:清单工程量统计分析、以日为基准单位的施工进度管理、按每延米桩号定位辅助解决施工质量安全问题等等。利用本隧道BIM解决方案可根据现场施工实际信息数据进行深化模型,并多方位多角度辅助解决各类传统隧道施工的难点。本项目课题研究的成果可供类似公路工程BIM应用提供专业的技术解决参考方案。
The Lebainongyi Tunnel is a super-long tunnel. During the construction of the tunnel,considering the complicated geological structure,the quality and safety of the tunnel are strictly controlled. The geological prediction data of tunnel excavation is particularly important,which is necessary to eliminate the adverse geological water-mark conditions in front. At the same time,the statistics of over-excavation or under-excavation quantities in the process of tunnel excavation has become a difficult point in traditional construction. In addition,new project management tools are urgently needed to help improve the efficiency of collaborative management,such as real-time recording and updating of tunnel uneven settlement monitoring data and on-site progress,quality and safety. In view of the above key difficulties in tunnel construction,the project team adopted the BIM solution of Revit +Dynamo + Civil 3 D + BIM 5 D after several comparisons and analyses of different BIM software series,which can solve the management and application problems from BIM model construction to various stages of the project,such as statistical analysis of bill quantities,construction schedule management based on the daily standard unit,positioning by pile number per extended meter assisting solving the construction quality and safety problems,and etc. The BIM solution used by the tunnel project is able to deepen the model according to the actual construction information data,and to help solve the difficulties of traditional tunnel construction in multi-direction and multiangle. The research results of this project can provide professional technical solutions for similar highway engineering BIM applications.
The Lebainongyi Tunnel is a super-long tunnel. During the construction of the tunnel,considering the complicated geological structure,the quality and safety of the tunnel are strictly controlled. The geological prediction data of tunnel excavation is particularly important,which is necessary to eliminate the adverse geological water-mark conditions in front. At the same time,the statistics of over-excavation or under-excavation quantities in the process of tunnel excavation has become a difficult point in traditional construction. In addition,new project management tools are urgently needed to help improve the efficiency of collaborative management,such as real-time recording and updating of tunnel uneven settlement monitoring data and on-site progress,quality and safety. In view of the above key difficulties in tunnel construction,the project team adopted the BIM solution of Revit +Dynamo + Civil 3 D + BIM 5 D after several comparisons and analyses of different BIM software series,which can solve the management and application problems from BIM model construction to various stages of the project,such as statistical analysis of bill quantities,construction schedule management based on the daily standard unit,positioning by pile number per extended meter assisting solving the construction quality and safety problems,and etc. The BIM solution used by the tunnel project is able to deepen the model according to the actual construction information data,and to help solve the difficulties of traditional tunnel construction in multi-direction and multiangle. The research results of this project can provide professional technical solutions for similar highway engineering BIM applications.
引文
[1]何关培,黄锰钢.十个BIM常用名词和术语解释[J].土木建筑工程信息技术,2010,2(2):112-117.
[2]何关培.“BIM”究竟是什么?[J].土木建筑工程信息技术,2010,2(3):111-117.
[3]陈国佳.基于BIM技术的道路三维设计方法及应用[J].城市建筑,2016,04:282.
[4]李冲. BIM技术在公路工程管理中的应用[J].交通世界,2016(17):94-95.
[5]闫文凯,张国栋.通过BIM平台让数据从设计流动到施工[J].土木建筑工程信息技术,2015,7(1):41-43.
[6]饶平平,梁晓东,刘佳新,等.基于BIM的施工信息管理平台的应用[J].土木建筑工程信息技术,2017,9(3):96-103.
[7]李政,陈杨泽,杨远丰,等.建设方主导的BIM项目管理实践与思考———以保利鱼珠项目为例[J].土木建筑工程信息技术,2018,10(5):1-9.
[8]曹继亮. BIM技术在公路工程造价管理中的应用探索[J].中国科技纵横,2015(22):88-89.
[9]何关培.中国BIM标准个人思考(一)[J].土木建筑工程信息技术,2012,4(3):56-61.
[10]何关培.中国BIM标准个人思考(二)[J].土木建筑工程信息技术,2013,5(2):107-112.
[11]罗嫦玲,李珏.基于内容分析法的中、美、英三国BIM标准的研究[J].土木建筑工程信息技术,2018,10(6):21-26.
[12]黄亚斌.企业级BIM应用实施步骤(一)[J].土木建筑工程信息技术,2011,3(2):56-61.
[13]黄亚斌.企业级BIM应用实施步骤(二)———中建西南设计院BIM应用实施案例介绍[J].土木建筑工程信息技术,2011,3(4):42-50.
[14]黄亚斌. BIM技术在设计中的应用实现[J].土木建筑工程信息技术,2010,2(4):71-78.
[15]许洪春,王丽珂,林基础.工程项目组织自组织性分析[J].土木建筑工程信息技术,2010,2(4):94-98.
[2]何关培.“BIM”究竟是什么?[J].土木建筑工程信息技术,2010,2(3):111-117.
[3]陈国佳.基于BIM技术的道路三维设计方法及应用[J].城市建筑,2016,04:282.
[4]李冲. BIM技术在公路工程管理中的应用[J].交通世界,2016(17):94-95.
[5]闫文凯,张国栋.通过BIM平台让数据从设计流动到施工[J].土木建筑工程信息技术,2015,7(1):41-43.
[6]饶平平,梁晓东,刘佳新,等.基于BIM的施工信息管理平台的应用[J].土木建筑工程信息技术,2017,9(3):96-103.
[7]李政,陈杨泽,杨远丰,等.建设方主导的BIM项目管理实践与思考———以保利鱼珠项目为例[J].土木建筑工程信息技术,2018,10(5):1-9.
[8]曹继亮. BIM技术在公路工程造价管理中的应用探索[J].中国科技纵横,2015(22):88-89.
[9]何关培.中国BIM标准个人思考(一)[J].土木建筑工程信息技术,2012,4(3):56-61.
[10]何关培.中国BIM标准个人思考(二)[J].土木建筑工程信息技术,2013,5(2):107-112.
[11]罗嫦玲,李珏.基于内容分析法的中、美、英三国BIM标准的研究[J].土木建筑工程信息技术,2018,10(6):21-26.
[12]黄亚斌.企业级BIM应用实施步骤(一)[J].土木建筑工程信息技术,2011,3(2):56-61.
[13]黄亚斌.企业级BIM应用实施步骤(二)———中建西南设计院BIM应用实施案例介绍[J].土木建筑工程信息技术,2011,3(4):42-50.
[14]黄亚斌. BIM技术在设计中的应用实现[J].土木建筑工程信息技术,2010,2(4):71-78.
[15]许洪春,王丽珂,林基础.工程项目组织自组织性分析[J].土木建筑工程信息技术,2010,2(4):94-98.