Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Friction energy dissipation supporting structure, assembly type supporting frame system and construction method
The invention discloses a friction energy dissipation supporting structure, an assembly type supporting frame system and a construction method. The friction energy dissipation supporting structure comprises an energy dissipation gear assembly, and a first supporting rod, a second supporting rod and two third supporting rods that are connected with the energy dissipation gear assembly. According to the friction energy dissipation supporting structure, a first gear and two second gears that are arranged in a meshed mode are used for forming the energy dissipation gear assembly, the first supporting rod is connected with one second gear, the second supporting rod is connected with the other second gear, the two third supporting rods are connected with the first gear, and an upper beam and a lower beam of a frame form a rigid body; four connecting hinges are used as connecting media of the first supporting rod, the second supporting rod and the third supporting rods and the apical corners of the frame and are hinged to the ends of the first supporting rod, the second supporting rod and the third supporting rods correspondingly, and the two third supporting rods are arranged in the frame in an opposite angle mode; and therefore, when an earthquake occurs, the two third supporting rods convert interlayer earthquake force into tension and pressure to be transmitted, and friction can also be generated between the first gear and the second gears so as to consume earthquake energy.
本申请公开了摩擦耗能支撑结构、装配式支撑框架体系及施工方法。包括:耗能齿轮组件和与所述耗能齿轮组件连接的第一支撑杆、第二支撑杆以及两个第三支撑杆;本申请利用啮合设置的第一齿轮和两个第二齿轮构成耗能齿轮组件,将第一支撑杆与一个第二齿轮连接,第二支撑杆与另一个第二齿轮连接,两个第三支撑杆与第一齿轮连接,使框架上下梁形成刚体;利用四个连接铰作为第一支撑杆、第二支撑杆和第三支撑杆与框架顶角的连接介质,将其分别与第一支撑杆、第二支撑杆以及第三支撑杆的端部铰接,且两个第三支撑杆在框架内对角设置;地震时,两个第三支撑杆将层间地震力转换为拉压力进行传递,且第一齿轮、第二齿轮之间也会产生摩擦,以消耗地震能量。
Friction energy dissipation supporting structure, assembly type supporting frame system and construction method
The invention discloses a friction energy dissipation supporting structure, an assembly type supporting frame system and a construction method. The friction energy dissipation supporting structure comprises an energy dissipation gear assembly, and a first supporting rod, a second supporting rod and two third supporting rods that are connected with the energy dissipation gear assembly. According to the friction energy dissipation supporting structure, a first gear and two second gears that are arranged in a meshed mode are used for forming the energy dissipation gear assembly, the first supporting rod is connected with one second gear, the second supporting rod is connected with the other second gear, the two third supporting rods are connected with the first gear, and an upper beam and a lower beam of a frame form a rigid body; four connecting hinges are used as connecting media of the first supporting rod, the second supporting rod and the third supporting rods and the apical corners of the frame and are hinged to the ends of the first supporting rod, the second supporting rod and the third supporting rods correspondingly, and the two third supporting rods are arranged in the frame in an opposite angle mode; and therefore, when an earthquake occurs, the two third supporting rods convert interlayer earthquake force into tension and pressure to be transmitted, and friction can also be generated between the first gear and the second gears so as to consume earthquake energy.
本申请公开了摩擦耗能支撑结构、装配式支撑框架体系及施工方法。包括:耗能齿轮组件和与所述耗能齿轮组件连接的第一支撑杆、第二支撑杆以及两个第三支撑杆;本申请利用啮合设置的第一齿轮和两个第二齿轮构成耗能齿轮组件,将第一支撑杆与一个第二齿轮连接,第二支撑杆与另一个第二齿轮连接,两个第三支撑杆与第一齿轮连接,使框架上下梁形成刚体;利用四个连接铰作为第一支撑杆、第二支撑杆和第三支撑杆与框架顶角的连接介质,将其分别与第一支撑杆、第二支撑杆以及第三支撑杆的端部铰接,且两个第三支撑杆在框架内对角设置;地震时,两个第三支撑杆将层间地震力转换为拉压力进行传递,且第一齿轮、第二齿轮之间也会产生摩擦,以消耗地震能量。
Friction energy dissipation supporting structure, assembly type supporting frame system and construction method
摩擦耗能支撑结构、装配式支撑框架体系及施工方法
RONG XIAN (Autor:in) / ZHANG JIANXIN (Autor:in) / ZHAO QIANYA (Autor:in) / LIU PING (Autor:in) / LI YANYAN (Autor:in) / ZHANG XIAOWEI (Autor:in) / PEI ZONGHU (Autor:in)
10.08.2021
Patent
Elektronische Ressource
Chinesisch
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