Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Fully-fabricated concrete building structure
A main body supporting structure of a main body frame structure and a prefabricated main beam are fixedly assembled and connected through a prefabricated cantilever beam section integrally formed with the main body supporting structure, and an assembly point is transferred to the end of a cantilever beam from an intersection point (beam column joint) of a traditional beam and the supporting structure; construction is facilitated, and meanwhile the problems that reinforcing steel bars are dense, the binding difficulty is large, the concrete pouring efficiency is low, the construction quality is difficult to control, and later detection is difficult in a beam-column intersection assembling node area are solved; assembly including cast-in-place construction can be completed by installing components in place and fixedly connecting the components, factory processing and assembly construction of a main body supporting structure and beams are achieved, the construction process is simplified, and the problems that the construction process is complex and the construction efficiency is low due to on-site steel bar binding and on-site pouring caused by beam column (shear wall) node assembly are solved; the construction cost is reduced; and the connection quality of assembly points is ensured.
本发明公开了一种全装配式混凝土建筑构造,本发明的主体框架结构的主体支撑结构与预制主梁之间通过与主体支撑结构一体成形的预制悬臂梁节段固定装配连接,装配点由传统的梁与支撑结构的交点(梁柱节点)转移至悬臂梁端部,方便施工的同时,避免了在梁柱交点装配节点区钢筋密集,绑扎难度大,混凝土浇筑效率低,施工质量难以控制,后期检测困难等问题;构件安装就位固定连接即可完成包括现浇施工在内的装配,主体支撑结构和梁均实现工厂化加工、装配化施工,简化施工过程,避免在梁柱(剪力墙)节点装配使得现场绑扎钢筋以及现场浇筑问题导致的施工过程复杂、施工效率低的问题,减少施工成本以及保证装配点的连接质量。
Fully-fabricated concrete building structure
A main body supporting structure of a main body frame structure and a prefabricated main beam are fixedly assembled and connected through a prefabricated cantilever beam section integrally formed with the main body supporting structure, and an assembly point is transferred to the end of a cantilever beam from an intersection point (beam column joint) of a traditional beam and the supporting structure; construction is facilitated, and meanwhile the problems that reinforcing steel bars are dense, the binding difficulty is large, the concrete pouring efficiency is low, the construction quality is difficult to control, and later detection is difficult in a beam-column intersection assembling node area are solved; assembly including cast-in-place construction can be completed by installing components in place and fixedly connecting the components, factory processing and assembly construction of a main body supporting structure and beams are achieved, the construction process is simplified, and the problems that the construction process is complex and the construction efficiency is low due to on-site steel bar binding and on-site pouring caused by beam column (shear wall) node assembly are solved; the construction cost is reduced; and the connection quality of assembly points is ensured.
本发明公开了一种全装配式混凝土建筑构造,本发明的主体框架结构的主体支撑结构与预制主梁之间通过与主体支撑结构一体成形的预制悬臂梁节段固定装配连接,装配点由传统的梁与支撑结构的交点(梁柱节点)转移至悬臂梁端部,方便施工的同时,避免了在梁柱交点装配节点区钢筋密集,绑扎难度大,混凝土浇筑效率低,施工质量难以控制,后期检测困难等问题;构件安装就位固定连接即可完成包括现浇施工在内的装配,主体支撑结构和梁均实现工厂化加工、装配化施工,简化施工过程,避免在梁柱(剪力墙)节点装配使得现场绑扎钢筋以及现场浇筑问题导致的施工过程复杂、施工效率低的问题,减少施工成本以及保证装配点的连接质量。
Fully-fabricated concrete building structure
全装配式混凝土建筑构造
WANG ZIQUAN (Autor:in) / LIU JING'AN (Autor:in)
18.04.2023
Patent
Elektronische Ressource
Chinesisch
Fully-fabricated concrete multi-story building system
Europäisches Patentamt | 2024
|