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A platform for research: civil engineering, architecture and urbanism
Infilled wall connecting mode with recoverable energy consumption function
The invention discloses an infilled wall connecting mode with a recoverable energy consumption function. The infilled wall connecting mode comprises a frame, an infilled wall and at least one structural unit, wherein the structural unit comprises two pieces of T-shaped steel, the two pieces of T-shaped steel are parallel to each other and are connected between a frame beam and the infilled wall, the two pieces of T-shaped steel can move relatively and transversely, the two pieces of T-shaped steel are in bolted connection with the wall and a flange of the frame beam, the two sides of web plates of the two pieces of T-shaped steel are each provided with a friction outer plate which is in sliding friction with the two pieces of T-shaped steel, and the two friction outer plates are connected with the T-shaped steel through elastic reset assemblies. According to the infilled wall connecting mode, the energy dissipation effect is achieved through friction sliding between the web plates of the T-shaped steel and the friction outer plates, the self-reset function is achieved through the elastic reset assemblies, damage to the infilled wall can be effectively reduced or avoided through a mutual transverse dislocation mechanism of the two pieces of T-shaped steel, the energy dissipation function and the recoverable function of the steel frame-infilled wall structure are achieved, and the anti-seismic requirements of different levels can be met.
本发明公开了一种具备可恢复耗能功能的填充墙连接方式,包括框架、填充墙和至少一个结构单元,该结构单元包括两个T型钢,两个T型钢相互平行且连接于框架梁和填充墙之间,两个T型钢能够相对横向移动,两个T型钢分别与墙体和框架梁的翼缘进行螺栓连接,两个T型钢的腹板两侧各设有一个与其滑动摩擦的摩擦外板,且两个摩擦外板通过弹性复位组件与T型钢连接。本发明通过T型钢的腹板与摩擦外板间的摩擦滑动起到耗能作用,通过弹性复位组件实现自复位功能,通过两个T型钢的相互横向错动机制,可有效减少或避免填充墙产生损伤,实现了钢框架‑填充墙结构的耗能功能和可恢复功能,且能满足不同层次的抗震需求。
Infilled wall connecting mode with recoverable energy consumption function
The invention discloses an infilled wall connecting mode with a recoverable energy consumption function. The infilled wall connecting mode comprises a frame, an infilled wall and at least one structural unit, wherein the structural unit comprises two pieces of T-shaped steel, the two pieces of T-shaped steel are parallel to each other and are connected between a frame beam and the infilled wall, the two pieces of T-shaped steel can move relatively and transversely, the two pieces of T-shaped steel are in bolted connection with the wall and a flange of the frame beam, the two sides of web plates of the two pieces of T-shaped steel are each provided with a friction outer plate which is in sliding friction with the two pieces of T-shaped steel, and the two friction outer plates are connected with the T-shaped steel through elastic reset assemblies. According to the infilled wall connecting mode, the energy dissipation effect is achieved through friction sliding between the web plates of the T-shaped steel and the friction outer plates, the self-reset function is achieved through the elastic reset assemblies, damage to the infilled wall can be effectively reduced or avoided through a mutual transverse dislocation mechanism of the two pieces of T-shaped steel, the energy dissipation function and the recoverable function of the steel frame-infilled wall structure are achieved, and the anti-seismic requirements of different levels can be met.
本发明公开了一种具备可恢复耗能功能的填充墙连接方式,包括框架、填充墙和至少一个结构单元,该结构单元包括两个T型钢,两个T型钢相互平行且连接于框架梁和填充墙之间,两个T型钢能够相对横向移动,两个T型钢分别与墙体和框架梁的翼缘进行螺栓连接,两个T型钢的腹板两侧各设有一个与其滑动摩擦的摩擦外板,且两个摩擦外板通过弹性复位组件与T型钢连接。本发明通过T型钢的腹板与摩擦外板间的摩擦滑动起到耗能作用,通过弹性复位组件实现自复位功能,通过两个T型钢的相互横向错动机制,可有效减少或避免填充墙产生损伤,实现了钢框架‑填充墙结构的耗能功能和可恢复功能,且能满足不同层次的抗震需求。
Infilled wall connecting mode with recoverable energy consumption function
一种具备可恢复耗能功能的填充墙连接方式
HUANG XIAOGANG (author) / LI SHOUZHEN (author) / WANG YUHANG (author) / ZHOU XUHONG (author) / KE KE (author)
2021-07-16
Patent
Electronic Resource
Chinese
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