Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Steel structure capable of preventing shaking
The steel structure comprises an energy consumption assembly and two connecting assemblies connected with the two ends of the energy consumption assembly, the energy consumption assembly is low-yield-point steel, the energy consumption assembly comprises two connecting webs and an energy consumption web, and the two connecting webs are connected with the connecting assemblies correspondingly; the two end faces of the energy consumption web are welded to the connecting webs correspondingly, the energy consumption web is in a curved surface shape in the extending direction of the connecting webs, and the energy consumption web is used for bearing deformation energy consumption caused by shaking of the two connecting webs. The energy consumption web can fully play a role in bearing deformation energy consumption under an earthquake, can better bear more deformation energy consumption under the action of the earthquake, particularly can better bear vibration brought by connecting assemblies at the upper end and the lower end, and effectively utilizes the curved surface shape of the energy consumption web to coordinate overall stress deformation, so that the energy consumption performance of the energy consumption web is improved. And the steel structure is prevented from shaking due to an earthquake, so that the energy consumption web can better protect beams and columns at key parts from being damaged.
本申请涉及一种防止晃动的钢结构,包括耗能组件、与耗能组件两端连接的两个连接组件,耗能组件为低屈服点钢,耗能组件包括两个连接腹板、耗能腹板,两个连接腹板分别与一个连接组件连接;耗能腹板的两端面分别与一个连接腹板焊接,耗能腹板沿连接腹板的延伸方向呈曲面形状,耗能腹板用于承担两个连接腹板晃动带来的变形耗能。耗能腹板能够在地震下充分发挥其承担的变形耗能的作用,在地震作用下,能够较好的承担更多变形耗能,尤其是能够更好地承受上下两端的连接组件带来的震动,有效利用耗能腹板自身的曲面形状来协调整体受力变形,防止该钢结构因地震带来的晃动,以达到耗能腹板更好地保护关键部位的梁、柱不被破坏。
Steel structure capable of preventing shaking
The steel structure comprises an energy consumption assembly and two connecting assemblies connected with the two ends of the energy consumption assembly, the energy consumption assembly is low-yield-point steel, the energy consumption assembly comprises two connecting webs and an energy consumption web, and the two connecting webs are connected with the connecting assemblies correspondingly; the two end faces of the energy consumption web are welded to the connecting webs correspondingly, the energy consumption web is in a curved surface shape in the extending direction of the connecting webs, and the energy consumption web is used for bearing deformation energy consumption caused by shaking of the two connecting webs. The energy consumption web can fully play a role in bearing deformation energy consumption under an earthquake, can better bear more deformation energy consumption under the action of the earthquake, particularly can better bear vibration brought by connecting assemblies at the upper end and the lower end, and effectively utilizes the curved surface shape of the energy consumption web to coordinate overall stress deformation, so that the energy consumption performance of the energy consumption web is improved. And the steel structure is prevented from shaking due to an earthquake, so that the energy consumption web can better protect beams and columns at key parts from being damaged.
本申请涉及一种防止晃动的钢结构,包括耗能组件、与耗能组件两端连接的两个连接组件,耗能组件为低屈服点钢,耗能组件包括两个连接腹板、耗能腹板,两个连接腹板分别与一个连接组件连接;耗能腹板的两端面分别与一个连接腹板焊接,耗能腹板沿连接腹板的延伸方向呈曲面形状,耗能腹板用于承担两个连接腹板晃动带来的变形耗能。耗能腹板能够在地震下充分发挥其承担的变形耗能的作用,在地震作用下,能够较好的承担更多变形耗能,尤其是能够更好地承受上下两端的连接组件带来的震动,有效利用耗能腹板自身的曲面形状来协调整体受力变形,防止该钢结构因地震带来的晃动,以达到耗能腹板更好地保护关键部位的梁、柱不被破坏。
Steel structure capable of preventing shaking
一种防止晃动的钢结构
CHEN HUAYONG (Autor:in) / WANG XIAOYU (Autor:in) / CHEN ZHIPENG (Autor:in)
18.08.2023
Patent
Elektronische Ressource
Chinesisch
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