摘要
在地下室机电安装工程中,传统的管线二维图纸存在一定的局限性,空间碰撞问题难以暴露。因此,文中通过分析地下机电工程安装的的常见问题,运用BIM技术优化了管线综合的流程,采用BIM技术的三维可视化功能,可以更加直观、准确地展现各个管线的信息,从而在施工图设计阶段解决管线碰撞和困难点管线布置等问题。经过实际应用,结果表明:利用BIM技术辅助管线综合可以合理调整地库中各个困难点管道的排布,提前规避多处施工过程中的返工问题,减少后期施工中管道碰撞的概率,同时,在保证地库净高要求的前提下,还提高了地库管线排布的美观性。
In underground mechanical and electrical installation projects,traditional two-dimensional drawings of pipelines have certain limitations,making it challenging to identify spatial collision problems.Therefore,this paper analyzes common problems in the installation of underground mechanical and electrical engineering and optimizes the pipeline integration process using Building Information Modeling(BIM)technology.The three-dimensional visualization function of BIM technology allows for a more intuitive and accurate representation of information for each pipeline.This approach addresses pipeline collision and layout difficulties during the construction drawing design phase.Through practical application,the results show that using BIM technology to assist pipeline integration can strategically adjust the layout of challenging pipes in the underground structure,proactively avoid rework issues during various construction processes,reduce the probability of pipeline collisions in later construction stages,and,simultaneously,enhance the aesthetic layout of underground pipelines while ensuring the required net height of the underground space.
作者
王桂文
WANG Guiwen(Fuzhou Vanke Development Co.Ltd.,Fuzhou 350007,China)
出处
《应用能源技术》
2023年第8期32-36,共5页
Applied Energy Technology
关键词
地下室
管综调整
管段划分
综合支架
underground
pipeline integration adjustment
pipeline segment division
comprehensive support
