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A platform for research: civil engineering, architecture and urbanism
BIM (Building Information Modeling)-based integrated assembly piping shaft and construction method thereof
The invention provides an integrated assembly piping shaft based on BIM and a construction method thereof.The integrated assembly piping shaft comprises a vertical well wall, a low-position floor slab, a low-position positioning mechanism, a high-position floor slab, a high-position positioning mechanism, a low-position pipe fitting and a high-position pipe fitting, the low-position pipe fitting is arranged on the low-position positioning mechanism, and the high-position pipe fitting is arranged on the high-position positioning mechanism; after the ends, close to each other, of the low-position pipe fitting and the high-position pipe fitting are connected, through cooperation of the high-position positioning mechanism and the low-position positioning mechanism, the low-position pipe fitting and the high-position pipe fitting are arranged in the direction perpendicular to the low-position floor slab and the high-position floor slab at the same time after being connected, pipe sleeves do not need to be pre-buried layer by layer from bottom to top, and multiple reference systems exist during pre-burying; the influence of the construction precision of a main body structure is small, the influence of accumulated errors is reduced, layer-by-layer cutting of reinforcing steel bars and layer-by-layer pouring of tube well floors are not needed when the pipe sleeve is installed, manpower and material resources are saved, and the advantages of being convenient to operate, improving the construction precision of the tube well and being low in implementation cost are achieved.
本申请提供一种基于BIM的一体式装配管道井及其施工方法,包括竖直井壁,低位楼板,低位定位机构,高位楼板,高位定位机构,低位管件,以及高位管件,通过将低位管件设于低位定位机构上,将高位管件设于高位定位机构上,再将低位管件和高位管件相互靠近的一端连接后,通过高位定位机构和低位定位机构的配合,使得低位管件和高位管件连接后沿同时垂直低位楼板和高位楼板的方向设置,无需将管套自下而上逐层预埋,预埋时参考系多,受主体结构施工精度影响小,降低累计误差的影响,无需在管套安装时需进行钢筋逐层切割,无需逐层浇筑管井楼板,节省人力物力,具有便于操作,提升管井施工精度,实施成本低的优点。
BIM (Building Information Modeling)-based integrated assembly piping shaft and construction method thereof
The invention provides an integrated assembly piping shaft based on BIM and a construction method thereof.The integrated assembly piping shaft comprises a vertical well wall, a low-position floor slab, a low-position positioning mechanism, a high-position floor slab, a high-position positioning mechanism, a low-position pipe fitting and a high-position pipe fitting, the low-position pipe fitting is arranged on the low-position positioning mechanism, and the high-position pipe fitting is arranged on the high-position positioning mechanism; after the ends, close to each other, of the low-position pipe fitting and the high-position pipe fitting are connected, through cooperation of the high-position positioning mechanism and the low-position positioning mechanism, the low-position pipe fitting and the high-position pipe fitting are arranged in the direction perpendicular to the low-position floor slab and the high-position floor slab at the same time after being connected, pipe sleeves do not need to be pre-buried layer by layer from bottom to top, and multiple reference systems exist during pre-burying; the influence of the construction precision of a main body structure is small, the influence of accumulated errors is reduced, layer-by-layer cutting of reinforcing steel bars and layer-by-layer pouring of tube well floors are not needed when the pipe sleeve is installed, manpower and material resources are saved, and the advantages of being convenient to operate, improving the construction precision of the tube well and being low in implementation cost are achieved.
本申请提供一种基于BIM的一体式装配管道井及其施工方法,包括竖直井壁,低位楼板,低位定位机构,高位楼板,高位定位机构,低位管件,以及高位管件,通过将低位管件设于低位定位机构上,将高位管件设于高位定位机构上,再将低位管件和高位管件相互靠近的一端连接后,通过高位定位机构和低位定位机构的配合,使得低位管件和高位管件连接后沿同时垂直低位楼板和高位楼板的方向设置,无需将管套自下而上逐层预埋,预埋时参考系多,受主体结构施工精度影响小,降低累计误差的影响,无需在管套安装时需进行钢筋逐层切割,无需逐层浇筑管井楼板,节省人力物力,具有便于操作,提升管井施工精度,实施成本低的优点。
BIM (Building Information Modeling)-based integrated assembly piping shaft and construction method thereof
一种基于BIM的一体式装配管道井及其施工方法
ZHANG JUNGUO (author) / YANG MINGMING (author) / ZHOU LIANGHUI (author) / WANG YANGUANG (author) / QIU CONG (author) / ZHANG HAIWU (author) / LUO CHENGYU (author) / WANG YONGFANG (author) / SUN MENG (author) / TIAN JIE (author)
2024-02-23
Patent
Electronic Resource
Chinese
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