摘要
结合山东省肿瘤防治研究院技术创新与临床转化平台项目,从实际应用和理论出发,介绍BIM及三维激光扫描的应用。该项目预埋机电管线及预埋钢板精度要求高,偏差允许范围为0.5~2cm,因此,针对精预埋区域借助BIM技术采用三维激光扫描进行校核,包括现场布置、现场扫描、扫描数据拼接、点云模型与BIM模型对比分析、现场依据结果调整,从而达到质量控制、节省工期、节省成本的目的。
Combining the technology innovation and clinical translation platform project of Shandong Institute of Cancer Prevention and Treatment,starting from practical application and theory,introduce the application of BIM and 3 D laser scanning.The project has high precision requirements for embedded electromechanical pipelines and embedded steel plates,and the allowable range of deviation is 0.5~2 cm.Therefore,three-dimensional laser scanning is used to check the precision embedded area with the help of BIM technology,including field layout,field scanning,scanning data splicing,point cloud model and BIM model comparison analysis,and field adjustment based on results.The project achieved the goals of quality control,time saving and cost saving.
作者
张营
胡立业
宋世栋
沈傲雪
ZHANG Ying;HU Liye;SONG Shidong;SHEN Aoxue(The First Construction Co.,Ltd.,of China Construction First Group,Shanghai 201103,China)
出处
《施工技术》
CAS
2020年第S01期502-504,共3页
Construction Technology
关键词
BIM技术
FARO设备
点云模型
精预埋
BIM technology
FARO equipment
point cloud model
precision embedded
作者简介
张营,助理工程师,E-mail:zhang43488@163.com
