Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Tensile friction pendulum shock insulation support convenient to reset
The tensile friction pendulum shock insulation support convenient to reset comprises an upper sliding rail, a lower sliding rail and a connecting sliding block, the connecting sliding block is arranged in a reserved gap between the upper sliding rail and the lower sliding rail and comprises a body, a buffer block and a tensile flange, a groove is formed in the top face of the body, the buffer block is matched with the sliding rail and the groove, and the tensile flange is arranged in the groove. And the tensile flanges and the tensile grooves are matched with each other to form a reverse buckling mechanism. According to the shock insulation support, the tensile flanges and the tensile grooves are matched with each other to form a reverse buckling mechanism, the connecting sliding blocks are prevented from falling off from the upper sliding rails and the lower sliding rails, and therefore the overall tensile capacity is improved, and the situation that the shock insulation support is lifted off in a rare earthquake is avoided; the part, exposed out of the body, of the buffer block and the tensile flange are both in the corresponding height of the tensile groove, the buffer block slides in the groove in a staggered mode, then the buffer block is attached to the upper sliding rail or the lower sliding rail, meanwhile, effective matching of the tensile flange and the tensile groove is guaranteed, and structural damage and reset influence are avoided.
本发明公开了一种便于复位的抗拉摩擦摆隔震支座,包括上滑轨、下滑轨和连接滑块,连接滑块设于上滑轨和下滑轨之间的预留间隙内,包括本体、缓冲块和抗拉翼缘,本体顶面开设凹槽,缓冲块分别与滑轨和凹槽相配合,抗拉翼缘和抗拉槽相互配合,形成反扣机构。本发明通过抗拉翼缘和抗拉槽相互配合,形成反扣机构,防止连接滑块从上滑轨和下滑轨上脱落,从而提高整体的抗拉能力,避免隔震支座在罕遇地震中发生提离情况,通过连接滑块的分体设计,缓冲块露出本体的部分与抗拉翼缘均在抗拉槽的对应高度内,通过缓冲块在凹槽内错位滑动,进而保持缓冲块与上滑轨或下滑轨的贴合,同时保证了抗拉翼缘和抗拉槽的有效配合,避免发生结构损坏,影响复位。
Tensile friction pendulum shock insulation support convenient to reset
The tensile friction pendulum shock insulation support convenient to reset comprises an upper sliding rail, a lower sliding rail and a connecting sliding block, the connecting sliding block is arranged in a reserved gap between the upper sliding rail and the lower sliding rail and comprises a body, a buffer block and a tensile flange, a groove is formed in the top face of the body, the buffer block is matched with the sliding rail and the groove, and the tensile flange is arranged in the groove. And the tensile flanges and the tensile grooves are matched with each other to form a reverse buckling mechanism. According to the shock insulation support, the tensile flanges and the tensile grooves are matched with each other to form a reverse buckling mechanism, the connecting sliding blocks are prevented from falling off from the upper sliding rails and the lower sliding rails, and therefore the overall tensile capacity is improved, and the situation that the shock insulation support is lifted off in a rare earthquake is avoided; the part, exposed out of the body, of the buffer block and the tensile flange are both in the corresponding height of the tensile groove, the buffer block slides in the groove in a staggered mode, then the buffer block is attached to the upper sliding rail or the lower sliding rail, meanwhile, effective matching of the tensile flange and the tensile groove is guaranteed, and structural damage and reset influence are avoided.
本发明公开了一种便于复位的抗拉摩擦摆隔震支座,包括上滑轨、下滑轨和连接滑块,连接滑块设于上滑轨和下滑轨之间的预留间隙内,包括本体、缓冲块和抗拉翼缘,本体顶面开设凹槽,缓冲块分别与滑轨和凹槽相配合,抗拉翼缘和抗拉槽相互配合,形成反扣机构。本发明通过抗拉翼缘和抗拉槽相互配合,形成反扣机构,防止连接滑块从上滑轨和下滑轨上脱落,从而提高整体的抗拉能力,避免隔震支座在罕遇地震中发生提离情况,通过连接滑块的分体设计,缓冲块露出本体的部分与抗拉翼缘均在抗拉槽的对应高度内,通过缓冲块在凹槽内错位滑动,进而保持缓冲块与上滑轨或下滑轨的贴合,同时保证了抗拉翼缘和抗拉槽的有效配合,避免发生结构损坏,影响复位。
Tensile friction pendulum shock insulation support convenient to reset
一种便于复位的抗拉摩擦摆隔震支座
LEI YUANDE (Autor:in) / ZHAO YUANZHENG (Autor:in) / YU YINQUAN (Autor:in) / DENG XUAN (Autor:in) / LI QIQI (Autor:in) / YUE HONGYUAN (Autor:in) / WEN AOHAN (Autor:in)
08.07.2022
Patent
Elektronische Ressource
Chinesisch
Composite tensile friction pendulum shock insulation support
| Europäisches Patentamt | 2024
| Europäisches Patentamt | 2024