A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Joint for fabricated building steel structure
The invention relates to a fabricated building steel structure joint which comprises a steel column and a steel beam fixedly connected with the steel column. The energy dissipation assembly is arranged between the steel column and the steel beam; the energy dissipation assembly comprises a mild steel damper and a connecting piece, and the connecting piece is fixedly connected with the mild steel damper; the connecting pieces are used for being fixedly connected with steel beams and steel columns. In the application, when the steel structure building is subjected to the earthquake action, the steel column and the steel beam are relatively positioned, so that the soft steel damper is driven to deform, and the soft steel damper can generate variable damping; therefore, part of earthquake energy can be dissipated through deformation of the mild steel damper, damage of the earthquake energy to steel structure building nodes is reduced, and the purposes of improving the safety of the steel structure building and facilitating post-earthquake repair of workers are achieved.
本申请涉及一种用于装配式建筑钢结构节点,其包括钢柱、钢梁,钢梁与钢柱固定连接;还包括耗能组件,耗能组件设置于钢柱与钢梁之间;耗能组件包括软钢阻尼器和连接件,连接件与软钢阻尼器固定连接;连接件用于与钢梁、钢柱固定连接。在本申请中,当钢结构建筑受到地震作用时,钢柱与钢梁之间会发生相对位于,从而带动软钢阻尼器变形,使得软钢阻尼器会产生变化的阻尼;从而利用软钢阻尼器的变形可耗散部分地震能量,减少地震能量对钢结构建筑节点的损伤,以达到提高钢结构建筑安全性,和便于工作人员震后修复的目的。
Joint for fabricated building steel structure
The invention relates to a fabricated building steel structure joint which comprises a steel column and a steel beam fixedly connected with the steel column. The energy dissipation assembly is arranged between the steel column and the steel beam; the energy dissipation assembly comprises a mild steel damper and a connecting piece, and the connecting piece is fixedly connected with the mild steel damper; the connecting pieces are used for being fixedly connected with steel beams and steel columns. In the application, when the steel structure building is subjected to the earthquake action, the steel column and the steel beam are relatively positioned, so that the soft steel damper is driven to deform, and the soft steel damper can generate variable damping; therefore, part of earthquake energy can be dissipated through deformation of the mild steel damper, damage of the earthquake energy to steel structure building nodes is reduced, and the purposes of improving the safety of the steel structure building and facilitating post-earthquake repair of workers are achieved.
本申请涉及一种用于装配式建筑钢结构节点,其包括钢柱、钢梁,钢梁与钢柱固定连接;还包括耗能组件,耗能组件设置于钢柱与钢梁之间;耗能组件包括软钢阻尼器和连接件,连接件与软钢阻尼器固定连接;连接件用于与钢梁、钢柱固定连接。在本申请中,当钢结构建筑受到地震作用时,钢柱与钢梁之间会发生相对位于,从而带动软钢阻尼器变形,使得软钢阻尼器会产生变化的阻尼;从而利用软钢阻尼器的变形可耗散部分地震能量,减少地震能量对钢结构建筑节点的损伤,以达到提高钢结构建筑安全性,和便于工作人员震后修复的目的。
Joint for fabricated building steel structure
一种用于装配式建筑钢结构节点
TU MINJIE (author) / ZHANG HENGCHUN (author) / YANG ZHENQIN (author) / WANG XUAN (author) / HUANG YAN (author) / SHEN YABO (author) / JIANG NA (author) / WANG NING (author)
2024-03-29
Patent
Electronic Resource
Chinese