Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Building shock insulation support
The invention relates to the technical field of shock insulation, and discloses a building shock insulation support which comprises a first connecting plate, a second connecting plate, a third connecting plate and a fourth connecting plate. The damping assembly is connected with the first connecting plate and used for absorbing impact force generated by shaking of the support; the auxiliary assembly is linked with the damping assembly and is used for discharging accumulated water in the support; and the shock insulation assembly is connected with the first connecting plate and used for further reducing damage to the support caused by building shaking. Through the cooperation between the high-damping rubber and the damping assembly, the effect that the load can be braked while the impact force generated by a building on the support is absorbed is achieved, and the dynamic self-adaptive braking load adjusting function is achieved, so that the adaptability of the support under different load working conditions is improved, the problem that the support is overfatigued under high-frequency vibration is solved, and the service life of the support is prolonged. And the service life of the support is prolonged.
本申请涉及隔震技术领域,公开了一种建筑隔震支座,包括:连接板一,其下表面固定有橡胶块一,所述橡胶块一的下表面设置有橡胶块二,所述橡胶块二的下表面固定有连接板二;减震组件,其与连接板一连接,用于吸收支座晃动产生的冲击力;辅助组件,其与减震组件联动,将支座内部的积水排出;隔震组件,其与连接板一连接,用于进一步减小建筑晃动对支座造成危害。通过高阻尼橡胶和减震组件之间的配合,达到了吸收建筑对支座产生的冲击力的同时能够制动荷载的作用,实现了动态自适应的制动荷载调节功能,从而提高了支座在不同荷载工况下的适应性,解决了支座在高频振动下过度疲劳的问题,延长了支座的使用寿命。
Building shock insulation support
The invention relates to the technical field of shock insulation, and discloses a building shock insulation support which comprises a first connecting plate, a second connecting plate, a third connecting plate and a fourth connecting plate. The damping assembly is connected with the first connecting plate and used for absorbing impact force generated by shaking of the support; the auxiliary assembly is linked with the damping assembly and is used for discharging accumulated water in the support; and the shock insulation assembly is connected with the first connecting plate and used for further reducing damage to the support caused by building shaking. Through the cooperation between the high-damping rubber and the damping assembly, the effect that the load can be braked while the impact force generated by a building on the support is absorbed is achieved, and the dynamic self-adaptive braking load adjusting function is achieved, so that the adaptability of the support under different load working conditions is improved, the problem that the support is overfatigued under high-frequency vibration is solved, and the service life of the support is prolonged. And the service life of the support is prolonged.
本申请涉及隔震技术领域,公开了一种建筑隔震支座,包括:连接板一,其下表面固定有橡胶块一,所述橡胶块一的下表面设置有橡胶块二,所述橡胶块二的下表面固定有连接板二;减震组件,其与连接板一连接,用于吸收支座晃动产生的冲击力;辅助组件,其与减震组件联动,将支座内部的积水排出;隔震组件,其与连接板一连接,用于进一步减小建筑晃动对支座造成危害。通过高阻尼橡胶和减震组件之间的配合,达到了吸收建筑对支座产生的冲击力的同时能够制动荷载的作用,实现了动态自适应的制动荷载调节功能,从而提高了支座在不同荷载工况下的适应性,解决了支座在高频振动下过度疲劳的问题,延长了支座的使用寿命。
Building shock insulation support
一种建筑隔震支座
LI GUORUI (Autor:in) / DING YIWEI (Autor:in)
17.12.2024
Patent
Elektronische Ressource
Chinesisch
Overturn-preventing building shock insulation support
| Europäisches Patentamt | 2023