Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Self-resetting metal and friction composite energy dissipation support
The invention discloses a self-resetting metal and friction composite energy dissipation support, which belongs to the technical field of energy dissipation and shock absorption of building structures, and comprises a self-resetting system, a friction energy dissipation system, a metal yield energy dissipation system, a first end part connecting piece and a second end part connecting piece, the self-resetting systems are oppositely arranged in parallel, and the friction energy dissipation system is connected between the self-resetting systems through bolts. The self-resetting system is internally provided with a sliding component capable of relatively sliding and self-resetting; the friction energy dissipation system can enable the sliding parts to generate friction force during relative sliding; the metal yield energy dissipation system is arranged between the self-resetting systems; the two ends of the self-resetting system and the two ends of the metal yield energy dissipation system are fixedly connected with the first end connecting piece and the second end connecting piece correspondingly. The first end connecting piece and the second end connecting piece can be connected with an anti-seismic main body structure. According to the self-resetting metal and friction composite energy dissipation support, staged efficient energy dissipation is achieved, and the anti-seismic requirements of different seismic oscillation strengths can be better met.
本发明公开了一种自复位金属与摩擦复合耗能支撑,属于建筑结构消能减震技术领域,包括自复位系统、摩擦耗能系统、金属屈服耗能系统、第一端部连接件以及第二端部连接件;自复位系统平行相对设置,且在自复位系统之间通过螺栓连接有摩擦耗能系统;自复位系统中具有可相对滑移且能够自复位的滑移部件;摩擦耗能系统能够使滑移部件在相对滑移时产生摩擦力;金属屈服耗能系统设置于自复位系统之间;自复位系统和金属屈服耗能系统的两端均分别与第一端部连接件和第二端部连接件固接;第一端部连接件和第二端部连接件能够与抗震主体结构连接。该自复位金属与摩擦复合耗能支撑实现了分阶段高效耗能,能更好地满足不同地震动强度抗震要求。
Self-resetting metal and friction composite energy dissipation support
The invention discloses a self-resetting metal and friction composite energy dissipation support, which belongs to the technical field of energy dissipation and shock absorption of building structures, and comprises a self-resetting system, a friction energy dissipation system, a metal yield energy dissipation system, a first end part connecting piece and a second end part connecting piece, the self-resetting systems are oppositely arranged in parallel, and the friction energy dissipation system is connected between the self-resetting systems through bolts. The self-resetting system is internally provided with a sliding component capable of relatively sliding and self-resetting; the friction energy dissipation system can enable the sliding parts to generate friction force during relative sliding; the metal yield energy dissipation system is arranged between the self-resetting systems; the two ends of the self-resetting system and the two ends of the metal yield energy dissipation system are fixedly connected with the first end connecting piece and the second end connecting piece correspondingly. The first end connecting piece and the second end connecting piece can be connected with an anti-seismic main body structure. According to the self-resetting metal and friction composite energy dissipation support, staged efficient energy dissipation is achieved, and the anti-seismic requirements of different seismic oscillation strengths can be better met.
本发明公开了一种自复位金属与摩擦复合耗能支撑,属于建筑结构消能减震技术领域,包括自复位系统、摩擦耗能系统、金属屈服耗能系统、第一端部连接件以及第二端部连接件;自复位系统平行相对设置,且在自复位系统之间通过螺栓连接有摩擦耗能系统;自复位系统中具有可相对滑移且能够自复位的滑移部件;摩擦耗能系统能够使滑移部件在相对滑移时产生摩擦力;金属屈服耗能系统设置于自复位系统之间;自复位系统和金属屈服耗能系统的两端均分别与第一端部连接件和第二端部连接件固接;第一端部连接件和第二端部连接件能够与抗震主体结构连接。该自复位金属与摩擦复合耗能支撑实现了分阶段高效耗能,能更好地满足不同地震动强度抗震要求。
Self-resetting metal and friction composite energy dissipation support
一种自复位金属与摩擦复合耗能支撑
DUAN SHUKUN (Autor:in) / TANG LIANG (Autor:in) / ZHANG YONGBO (Autor:in) / ZHANG XUQIAO (Autor:in) / CHEN XIAODONG (Autor:in) / QIAO HAOYUE (Autor:in) / CHENG TAO (Autor:in) / WANG WEI (Autor:in) / DENG YANGPENG (Autor:in) / SU RUI (Autor:in)
18.08.2023
Patent
Elektronische Ressource
Chinesisch
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