A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Modularized steel structure beam end multi-stage energy consumption connecting joint and steel structure building
The invention relates to a modular steel structure beam end multi-stage energy consumption connecting joint and a steel structure building thereof, and the connecting joint comprises a first energy consumption structure and a second energy consumption structure which are symmetrically arranged, and a shearing force transmission structure arranged between the first energy consumption structure and the second energy consumption structure; one ends of the first energy dissipation structure and the second energy dissipation structure are connected with the first building component, and the other ends of the first energy dissipation structure and the second energy dissipation structure are connected with the second building component; the first end of the shearing force transmission structure is connected with the first building component and the second end is connected with the second building component; the first energy dissipation structure and the second energy dissipation structure can gradually generate buckling and yielding deformation when the connecting joint is stressed; the shearing force transmission structure can transmit shearing force between the first building component and the second building component when being stressed. The method has the beneficial effects that the rigidity and the bearing capacity of the energy consumption node are independently adjusted while the initial rigidity of the node is equivalent to the initial rigidity of an existing node.
本发明涉及一种模块化钢结构梁端多阶耗能连接节点及其钢结构建筑,其中,连接节点,包括对称设置的第一耗能结构和第二耗能结构,以及设置在第一耗能结构和第二耗能结构之间的剪力传递结构;第一耗能结构和第二耗能结构水平设置,二者均一端连接第一建筑构件,另一端连接第二建筑构件;剪力传递结构的第一端连接第一建筑构件,第二端连接第二建筑构件;第一耗能结构和第二耗能结构在连接节点受力时均能够逐步发生屈曲和屈服形变;剪力传递结构在受力时能够在第一建筑构件和第二建筑构件之间传递剪切力。其有益效果是,其在保证与现有节点初始刚度等效的同时,实现了耗能节点的刚度与承载力的独立调整。
Modularized steel structure beam end multi-stage energy consumption connecting joint and steel structure building
The invention relates to a modular steel structure beam end multi-stage energy consumption connecting joint and a steel structure building thereof, and the connecting joint comprises a first energy consumption structure and a second energy consumption structure which are symmetrically arranged, and a shearing force transmission structure arranged between the first energy consumption structure and the second energy consumption structure; one ends of the first energy dissipation structure and the second energy dissipation structure are connected with the first building component, and the other ends of the first energy dissipation structure and the second energy dissipation structure are connected with the second building component; the first end of the shearing force transmission structure is connected with the first building component and the second end is connected with the second building component; the first energy dissipation structure and the second energy dissipation structure can gradually generate buckling and yielding deformation when the connecting joint is stressed; the shearing force transmission structure can transmit shearing force between the first building component and the second building component when being stressed. The method has the beneficial effects that the rigidity and the bearing capacity of the energy consumption node are independently adjusted while the initial rigidity of the node is equivalent to the initial rigidity of an existing node.
本发明涉及一种模块化钢结构梁端多阶耗能连接节点及其钢结构建筑,其中,连接节点,包括对称设置的第一耗能结构和第二耗能结构,以及设置在第一耗能结构和第二耗能结构之间的剪力传递结构;第一耗能结构和第二耗能结构水平设置,二者均一端连接第一建筑构件,另一端连接第二建筑构件;剪力传递结构的第一端连接第一建筑构件,第二端连接第二建筑构件;第一耗能结构和第二耗能结构在连接节点受力时均能够逐步发生屈曲和屈服形变;剪力传递结构在受力时能够在第一建筑构件和第二建筑构件之间传递剪切力。其有益效果是,其在保证与现有节点初始刚度等效的同时,实现了耗能节点的刚度与承载力的独立调整。
Modularized steel structure beam end multi-stage energy consumption connecting joint and steel structure building
一种模块化钢结构梁端多阶耗能连接节点及钢结构建筑
SHI WEIXIAO (author) / YAO XINGHAI (author) / ZHANG QIANRU (author) / ZHU XIAODONG (author) / LI ZUOHUA (author) / TIAN DEYUAN (author) / WANG HAIDONG (author)
2024-12-17
Patent
Electronic Resource
Chinese
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