Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Metal energy dissipation support
The invention discloses a metal energy dissipation support which comprises an outer sleeve connecting end, an inner core rod connecting end and at least one group of energy dissipation modules, the energy consumption module comprises an outer sleeve and an inner core rod, a metal energy consumption plate is arranged on the inner core rod, an energy consumption limiting assembly is arranged on the inner wall of the outer sleeve, the inner core rod is arranged in the outer sleeve, and the metal energy consumption plate on the inner core rod is in limiting fit with the energy consumption limiting assembly on the inner wall of the outer sleeve; the outer sleeve connecting end is connected with one end of the outer sleeve, and a certain gap is formed between the outer sleeve connecting end and the inner core rod in the outer sleeve; the inner core rod is connected with the inner core rod in the other end of the outer sleeve, and a certain gap is formed between the inner core rod and the other end of the outer sleeve. According to the metal energy dissipation support, by adopting an energy dissipation support form and a metal bending deformation earthquake energy dissipation mode, the advantages of a traditional metal damper and a buckling restrained support can be effectively integrated, a modular assembly mode is adopted, and the practicability of the metal energy dissipation support is greatly improved.
本发明公开了一种金属耗能支撑,其包括外套筒连接端,内芯杆连接端,至少一组耗能模块;所述耗能模块包括外套筒和内芯杆,所述内芯杆上设置有金属耗能板,所述外套筒的内壁上设置有耗能限位组件,所述内芯杆安置在所述外套筒中,所述内芯杆上的金属耗能板与所述外套筒内壁上耗能限位组件之间形成限位配合;所述外套筒连接端与外套筒的一端连接,并与外套筒内的内芯杆之间形成一定间隙;所述内芯杆与外套筒的另一端内的内芯杆连接,并与外套筒的另一端之间形成一定间隙。本金属耗能支撑,通过采用耗能支撑形式和金属弯曲变形耗散地震能量的方式,能够有效综合传统金属阻尼器和屈曲约束支撑的优点,并采取了模块化装配式,大大提高其实用性。
Metal energy dissipation support
The invention discloses a metal energy dissipation support which comprises an outer sleeve connecting end, an inner core rod connecting end and at least one group of energy dissipation modules, the energy consumption module comprises an outer sleeve and an inner core rod, a metal energy consumption plate is arranged on the inner core rod, an energy consumption limiting assembly is arranged on the inner wall of the outer sleeve, the inner core rod is arranged in the outer sleeve, and the metal energy consumption plate on the inner core rod is in limiting fit with the energy consumption limiting assembly on the inner wall of the outer sleeve; the outer sleeve connecting end is connected with one end of the outer sleeve, and a certain gap is formed between the outer sleeve connecting end and the inner core rod in the outer sleeve; the inner core rod is connected with the inner core rod in the other end of the outer sleeve, and a certain gap is formed between the inner core rod and the other end of the outer sleeve. According to the metal energy dissipation support, by adopting an energy dissipation support form and a metal bending deformation earthquake energy dissipation mode, the advantages of a traditional metal damper and a buckling restrained support can be effectively integrated, a modular assembly mode is adopted, and the practicability of the metal energy dissipation support is greatly improved.
本发明公开了一种金属耗能支撑,其包括外套筒连接端,内芯杆连接端,至少一组耗能模块;所述耗能模块包括外套筒和内芯杆,所述内芯杆上设置有金属耗能板,所述外套筒的内壁上设置有耗能限位组件,所述内芯杆安置在所述外套筒中,所述内芯杆上的金属耗能板与所述外套筒内壁上耗能限位组件之间形成限位配合;所述外套筒连接端与外套筒的一端连接,并与外套筒内的内芯杆之间形成一定间隙;所述内芯杆与外套筒的另一端内的内芯杆连接,并与外套筒的另一端之间形成一定间隙。本金属耗能支撑,通过采用耗能支撑形式和金属弯曲变形耗散地震能量的方式,能够有效综合传统金属阻尼器和屈曲约束支撑的优点,并采取了模块化装配式,大大提高其实用性。
Metal energy dissipation support
一种金属耗能支撑
GONG SHUNMING (Autor:in) / PING YIWEI (Autor:in) / MA MINGLEI (Autor:in) / ZHANG SHIWU (Autor:in) / FENG JUN (Autor:in) / LI RIYAN (Autor:in) / SHAO JIANTAO (Autor:in) / RUAN SHIPENG (Autor:in)
18.08.2023
Patent
Elektronische Ressource
Chinesisch
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