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A platform for research: civil engineering, architecture and urbanism
Pressure-resistant non-transmission-pull steel plate concrete composite wall opposite-pull system
The invention discloses a pressure-resistant non-transmission-pull steel plate concrete composite wall opposite-pull system. The pressure-resistant non-transmission-pull steel plate concrete composite wall opposite-pull system comprises steel pull rods and a plurality of steel sleeves, the steel pull rods are arranged in concrete in rows and columns, the two ends of each steel pull rod penetrate through two oppositely-arranged steel panels, the two ends of each steel pull rod are in threaded connection with fastening nuts correspondingly, and spring gaskets are connected between the fastening nuts and the steel panels in a pressed mode; and the multiple steel sleeves correspondingly sleeve the corresponding steel pull rods, and the two ends of each steel sleeve make contact with the inner walls of the two steel panels. Pressure between the steel panels on the two sides of the steel plate and concrete composite wall can be completely transmitted, pulling force between the steel panels on the two sides can be effectively released, and therefore damage of external impact loads to the steel panels is greatly reduced.
本发明公开了一种抗压不传拉的钢板混凝土组合墙对拉体系,包括:钢拉杆,钢拉杆呈行列布置在混凝土内部,且其两端均穿设在两个相对布置的钢面板上,钢拉杆两端分别螺接有紧固螺帽,紧固螺帽与钢面板之间压接有弹簧垫片;钢套管,钢套管为多个,且分别套设在对应的钢拉杆上,钢套管两端与两个钢面板的内壁均接触设置。本发明能完全传递钢板混凝土组合墙两侧钢面板之间的压力,而有效释放掉两侧钢面板之间的拉力,从而大大降低外部冲击荷载对钢面板的损伤。
Pressure-resistant non-transmission-pull steel plate concrete composite wall opposite-pull system
The invention discloses a pressure-resistant non-transmission-pull steel plate concrete composite wall opposite-pull system. The pressure-resistant non-transmission-pull steel plate concrete composite wall opposite-pull system comprises steel pull rods and a plurality of steel sleeves, the steel pull rods are arranged in concrete in rows and columns, the two ends of each steel pull rod penetrate through two oppositely-arranged steel panels, the two ends of each steel pull rod are in threaded connection with fastening nuts correspondingly, and spring gaskets are connected between the fastening nuts and the steel panels in a pressed mode; and the multiple steel sleeves correspondingly sleeve the corresponding steel pull rods, and the two ends of each steel sleeve make contact with the inner walls of the two steel panels. Pressure between the steel panels on the two sides of the steel plate and concrete composite wall can be completely transmitted, pulling force between the steel panels on the two sides can be effectively released, and therefore damage of external impact loads to the steel panels is greatly reduced.
本发明公开了一种抗压不传拉的钢板混凝土组合墙对拉体系,包括:钢拉杆,钢拉杆呈行列布置在混凝土内部,且其两端均穿设在两个相对布置的钢面板上,钢拉杆两端分别螺接有紧固螺帽,紧固螺帽与钢面板之间压接有弹簧垫片;钢套管,钢套管为多个,且分别套设在对应的钢拉杆上,钢套管两端与两个钢面板的内壁均接触设置。本发明能完全传递钢板混凝土组合墙两侧钢面板之间的压力,而有效释放掉两侧钢面板之间的拉力,从而大大降低外部冲击荷载对钢面板的损伤。
Pressure-resistant non-transmission-pull steel plate concrete composite wall opposite-pull system
一种抗压不传拉的钢板混凝土组合墙对拉体系
ZHANG XINGBIN (author) / LI ZHIPENG (author)
2021-11-16
Patent
Electronic Resource
Chinese
IPC:
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
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