Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Anti-drawing shock insulation support capable of isolating torsional force
The invention discloses an anti-drawing friction pendulum shock insulation support capable of isolating torsional force, which comprises a lower sliding groove assembly, a lower sliding body assembly, an upper sliding groove assembly, an upper sliding body assembly and a fisheye joint shaft connecting piece, and is characterized in that the lower sliding body assembly and the upper sliding body assembly are connected through a fisheye joint shaft to form a sliding block; the lower sliding body assembly and the upper sliding body assembly can rotate around the fisheye joint shaft so that it can be guaranteed that the sliding block can make full contact with the lower sliding face and the upper sliding face when the fisheye joint shaft is stressed, and meanwhile the fisheye joint shaft can rotate by itself so that it can be guaranteed that torsional force is consumed and isolated on the shock isolation layer when the fisheye joint shaft is stressed. Compared with a traditional friction pendulum support, the anti-drawing shock insulation support capable of isolating torsional force not only has the isolation effect of the traditional shock insulation support, but also can resist rotation and horizontal drawing force generated in an earthquake. Due to the unique design and material selection, the support can bear large force load and keep stable when an earthquake occurs, and higher anti-seismic performance and structural safety are provided for buildings and bridges.
本发明公开了一种可隔离扭转力抗拉拔摩擦摆隔震支座,该支座包括下滑动槽组件、下滑动体组件、上滑动槽组件、上滑动体组件、鱼眼关节轴连接件,所述下滑动体组件、上滑动体组件通过鱼眼关节轴相连形成滑块,下滑动体组件、上滑动体组件可以绕着鱼眼关节轴进行转动,以保证受力时,滑块可以和下滑动面、上滑动面充分接触,同时,鱼眼关节轴可以自身转动,以保证受到扭转力时,在隔震层将其进行消耗隔离。与传统摩擦摆支座相比,可隔离扭转力抗拉拔隔震支座不仅具备传统隔震支座的隔离效果,还能抵御地震中产生的旋转和水平拉拔力。其独特的设计与材料选择使得该支座在地震发生时能够承受较大的力荷载并保持稳定,为建筑物和桥梁提供了更高的抗震性能和结构安全性。
Anti-drawing shock insulation support capable of isolating torsional force
The invention discloses an anti-drawing friction pendulum shock insulation support capable of isolating torsional force, which comprises a lower sliding groove assembly, a lower sliding body assembly, an upper sliding groove assembly, an upper sliding body assembly and a fisheye joint shaft connecting piece, and is characterized in that the lower sliding body assembly and the upper sliding body assembly are connected through a fisheye joint shaft to form a sliding block; the lower sliding body assembly and the upper sliding body assembly can rotate around the fisheye joint shaft so that it can be guaranteed that the sliding block can make full contact with the lower sliding face and the upper sliding face when the fisheye joint shaft is stressed, and meanwhile the fisheye joint shaft can rotate by itself so that it can be guaranteed that torsional force is consumed and isolated on the shock isolation layer when the fisheye joint shaft is stressed. Compared with a traditional friction pendulum support, the anti-drawing shock insulation support capable of isolating torsional force not only has the isolation effect of the traditional shock insulation support, but also can resist rotation and horizontal drawing force generated in an earthquake. Due to the unique design and material selection, the support can bear large force load and keep stable when an earthquake occurs, and higher anti-seismic performance and structural safety are provided for buildings and bridges.
本发明公开了一种可隔离扭转力抗拉拔摩擦摆隔震支座,该支座包括下滑动槽组件、下滑动体组件、上滑动槽组件、上滑动体组件、鱼眼关节轴连接件,所述下滑动体组件、上滑动体组件通过鱼眼关节轴相连形成滑块,下滑动体组件、上滑动体组件可以绕着鱼眼关节轴进行转动,以保证受力时,滑块可以和下滑动面、上滑动面充分接触,同时,鱼眼关节轴可以自身转动,以保证受到扭转力时,在隔震层将其进行消耗隔离。与传统摩擦摆支座相比,可隔离扭转力抗拉拔隔震支座不仅具备传统隔震支座的隔离效果,还能抵御地震中产生的旋转和水平拉拔力。其独特的设计与材料选择使得该支座在地震发生时能够承受较大的力荷载并保持稳定,为建筑物和桥梁提供了更高的抗震性能和结构安全性。
Anti-drawing shock insulation support capable of isolating torsional force
一种可隔离扭转力抗拉拔隔震支座
ZHOU ZHONGYI (Autor:in) / REN ZHIFEI (Autor:in) / ZHANG WENMING (Autor:in) / WANG TAO (Autor:in) / TENG RUI (Autor:in) / LI HAIYANG (Autor:in) / GAO SHENG (Autor:in) / WEI ZHANGCHAO (Autor:in) / ZHAO HONGSHENG (Autor:in) / KOU ZEZHONG (Autor:in)
16.08.2024
Patent
Elektronische Ressource
Chinesisch
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