Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
High-performance friction pendulum shock insulation support structure and shock insulation process thereof
The high-performance friction pendulum shock insulation support structure comprises the following steps that firstly, spherical sinking grooves are symmetrically machined in the upper surface and the lower surface of a spherical crown lining plate, then non-metal sliding panels are manufactured and installed in the spherical sinking grooves in a matched mode, support plate sinking grooves are machined in the inner surfaces of an upper support plate and a lower support plate, and the non-metal sliding panels are installed in the support plate sinking grooves in a matched mode. And the metal sliding panel is embedded, and through the design of the brake groove and the inclined groove in the spherical crown lining plate, the connection stability of the nonmetal sliding panel and the spherical crown lining plate is enhanced. The support plate adopts a structure that a metal sliding panel is fixed by a pressing plate, so that the defects caused by screw fixation can be overcome, the structures and steps jointly realize a high-performance shock insulation effect, and the support plate has high-performance reliability, stability and durability, so that when a building generates horizontal displacement under the action of an earthquake or external force, the horizontal displacement can be prevented from falling off. Energy transmission is absorbed and slowed down through movement of the friction pendulum shock insulation support, so that the structure is protected, and the influence of shock on a building is reduced.
本发明公开了一种高性能摩擦摆隔震支座结构及其隔震工艺,其包括以下步骤:首先,在球冠衬板上下表面对称加工球面形沉槽,然后制作非金属滑动面板并与球面形沉槽相适配安装,接着,在上下支座板内表面加工支座板沉槽,并镶嵌金属滑动面板,通过球冠衬板上的制动槽和斜槽的设计,增强了非金属滑动面板与球冠衬板的连接稳定性。支座板采用压板固定金属滑动面板结构,能改善使用螺钉固定会产生的缺陷,这些结构和步骤共同实现了高性能隔震效果,具有高性能的可靠性和稳定性及耐用性,使建筑在地震或外力作用下产生水平位移时,通过摩擦摆隔震支座的运动来吸收和减缓能量传递,从而保护结构和降低震动对建筑物的影响。
High-performance friction pendulum shock insulation support structure and shock insulation process thereof
The high-performance friction pendulum shock insulation support structure comprises the following steps that firstly, spherical sinking grooves are symmetrically machined in the upper surface and the lower surface of a spherical crown lining plate, then non-metal sliding panels are manufactured and installed in the spherical sinking grooves in a matched mode, support plate sinking grooves are machined in the inner surfaces of an upper support plate and a lower support plate, and the non-metal sliding panels are installed in the support plate sinking grooves in a matched mode. And the metal sliding panel is embedded, and through the design of the brake groove and the inclined groove in the spherical crown lining plate, the connection stability of the nonmetal sliding panel and the spherical crown lining plate is enhanced. The support plate adopts a structure that a metal sliding panel is fixed by a pressing plate, so that the defects caused by screw fixation can be overcome, the structures and steps jointly realize a high-performance shock insulation effect, and the support plate has high-performance reliability, stability and durability, so that when a building generates horizontal displacement under the action of an earthquake or external force, the horizontal displacement can be prevented from falling off. Energy transmission is absorbed and slowed down through movement of the friction pendulum shock insulation support, so that the structure is protected, and the influence of shock on a building is reduced.
本发明公开了一种高性能摩擦摆隔震支座结构及其隔震工艺,其包括以下步骤:首先,在球冠衬板上下表面对称加工球面形沉槽,然后制作非金属滑动面板并与球面形沉槽相适配安装,接着,在上下支座板内表面加工支座板沉槽,并镶嵌金属滑动面板,通过球冠衬板上的制动槽和斜槽的设计,增强了非金属滑动面板与球冠衬板的连接稳定性。支座板采用压板固定金属滑动面板结构,能改善使用螺钉固定会产生的缺陷,这些结构和步骤共同实现了高性能隔震效果,具有高性能的可靠性和稳定性及耐用性,使建筑在地震或外力作用下产生水平位移时,通过摩擦摆隔震支座的运动来吸收和减缓能量传递,从而保护结构和降低震动对建筑物的影响。
High-performance friction pendulum shock insulation support structure and shock insulation process thereof
一种高性能摩擦摆隔震支座结构及其隔震工艺
LIU WENBING (Autor:in) / LI TINGZHOU (Autor:in) / ZUO ZHENGFA (Autor:in) / WU JIANWEI (Autor:in) / GUAN QINGSONG (Autor:in) / LI TAO (Autor:in)
26.07.2024
Patent
Elektronische Ressource
Chinesisch
Shock-resistant friction pendulum shock insulation support
| Europäisches Patentamt | 2022