Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Laminated slab cantilever I-shaped steel construction method based on BIM (Building Information Modeling) technology
The invention relates to the field of construction engineering technology, and particularly discloses a laminated slab cantilever I-shaped steel construction method based on the BIM (Building Information Modeling) technology. The laminated slab cantilever I-shaped steel construction method based on the BIM technology specifically comprises the steps of establishing models; combining the models; performing collision analysis; according to the design scheme of a cantilever frame, calculating the stress of an anchor ring, and accurately placing the anchor ring to serve as a reference object of a laminated slab model; establishing a laminated slab supporting frame and a cast-in-place belt formwork model, optimizing the positions of vertical rods and supporting beams, enabling the vertical rods of the supporting frame at the anchor ring position to be arranged in an infilling mode, and achieving an jacking effect on a floor slab; performing data analysis and collision optimization; S5, processing, positioning, manufacturing and forming; mounting a laminated slab; binding upper side rebars, pouring concrete, and curing; and erecting the cantilever frame. According to laminated slab cantilever I-shaped steel construction method based on the BIM technology provided by the invention, collision with reinforcing steel bars, embedded pipelines and plate bottom keels can be effectively avoided, the construction efficiency is improved, and waste of manpower, financial resources and time is avoided.
本发明涉及建筑工程技术领域;具体公开了一种基于B I M技术的叠合板悬挑工字钢施工方法,具体包括:建立模型;组合模型;碰撞分析;根据悬挑架设计方案,计算锚环受力,并将锚环位置进行精确放置,作为叠合板模型的参考对象;建立叠合板支撑架和现浇带模板模型,优化立杆及支撑梁位置,对锚环位置支撑架立杆进行加密设置,起到对楼板的回顶作用;数据分析和碰撞优化;步骤S5:加工、定位及制作成型;叠合板安装;面筋绑扎、混凝土浇筑、养护;悬挑架搭设。本发明能够,有效的避免与钢筋、预埋管线、板底龙骨发生碰撞,提高施工效率低,避免人力、财力及时间浪费。
Laminated slab cantilever I-shaped steel construction method based on BIM (Building Information Modeling) technology
The invention relates to the field of construction engineering technology, and particularly discloses a laminated slab cantilever I-shaped steel construction method based on the BIM (Building Information Modeling) technology. The laminated slab cantilever I-shaped steel construction method based on the BIM technology specifically comprises the steps of establishing models; combining the models; performing collision analysis; according to the design scheme of a cantilever frame, calculating the stress of an anchor ring, and accurately placing the anchor ring to serve as a reference object of a laminated slab model; establishing a laminated slab supporting frame and a cast-in-place belt formwork model, optimizing the positions of vertical rods and supporting beams, enabling the vertical rods of the supporting frame at the anchor ring position to be arranged in an infilling mode, and achieving an jacking effect on a floor slab; performing data analysis and collision optimization; S5, processing, positioning, manufacturing and forming; mounting a laminated slab; binding upper side rebars, pouring concrete, and curing; and erecting the cantilever frame. According to laminated slab cantilever I-shaped steel construction method based on the BIM technology provided by the invention, collision with reinforcing steel bars, embedded pipelines and plate bottom keels can be effectively avoided, the construction efficiency is improved, and waste of manpower, financial resources and time is avoided.
本发明涉及建筑工程技术领域;具体公开了一种基于B I M技术的叠合板悬挑工字钢施工方法,具体包括:建立模型;组合模型;碰撞分析;根据悬挑架设计方案,计算锚环受力,并将锚环位置进行精确放置,作为叠合板模型的参考对象;建立叠合板支撑架和现浇带模板模型,优化立杆及支撑梁位置,对锚环位置支撑架立杆进行加密设置,起到对楼板的回顶作用;数据分析和碰撞优化;步骤S5:加工、定位及制作成型;叠合板安装;面筋绑扎、混凝土浇筑、养护;悬挑架搭设。本发明能够,有效的避免与钢筋、预埋管线、板底龙骨发生碰撞,提高施工效率低,避免人力、财力及时间浪费。
Laminated slab cantilever I-shaped steel construction method based on BIM (Building Information Modeling) technology
一种基于BIM技术的叠合板悬挑工字钢施工方法
LIAO YING (Autor:in) / ZHAO YINMING (Autor:in)
06.08.2021
Patent
Elektronische Ressource
Chinesisch
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