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Lifting type elevator structure of shock insulation building
The invention belongs to the technical field of vibration isolation building engineering, and particularly relates to a lifting type elevator structure of a vibration isolation building, which is applied to the vibration isolation building that the height of an elevator shaft above a vibration isolation layer is smaller than that of an elevator shaft below the vibration isolation layer. The lifting type elevator structure of the shock insulation building comprises a lifting frame, a filling partition wall A and an elevator shaft. The lifting frame is of a cuboid frame structure with an opening in the bottom face and is vertically arranged on the shock insulation layer bottom plate, and the opening area in the bottom of the lifting frame faces the lower portion of an elevator shaft opening. A partition wall C is embedded and filled in the lifting frame; filling partition walls B are arranged on the periphery of the joint of the floor below the shock insulation layer bottom plate and the elevator shaft. The lifting frame is higher than the shock insulation layer; a filling partition wall A is arranged around the lifting frame, and the bottom of the filling partition wall A is supported on the shock insulation layer bottom plate; the bottom end face of the lifting frame is vertically aligned with the top end face of the filling partition wall B, and a complete vertical elevator shaft is jointly formed.
本发明属于隔振建筑工程技术领域,具体涉及一种隔震建筑的托举式电梯结构,应用在隔震层以上电梯井高度小于隔震层以下电梯井高度的隔震建筑中。该隔震建筑的托举式电梯结构包括托举框架、填充隔墙A和电梯井筒;托举框架为底面开口的长方体框架结构,竖直设置在隔震层底板上,托举框架底部开口区域朝向电梯井口的下方;所述托举框架内嵌填充隔墙C;在隔震层底板下方楼层与电梯井筒连接处的四周设有填充隔墙B;托举框架的高度超出隔震层高度;托举框架的周围设有填充隔墙A,填充隔墙A底部支撑在隔震层底板上;托举框架的底部端面与填充隔墙B的顶部端面竖直对齐,共同形成一个完整的竖直电梯井筒。
Lifting type elevator structure of shock insulation building
The invention belongs to the technical field of vibration isolation building engineering, and particularly relates to a lifting type elevator structure of a vibration isolation building, which is applied to the vibration isolation building that the height of an elevator shaft above a vibration isolation layer is smaller than that of an elevator shaft below the vibration isolation layer. The lifting type elevator structure of the shock insulation building comprises a lifting frame, a filling partition wall A and an elevator shaft. The lifting frame is of a cuboid frame structure with an opening in the bottom face and is vertically arranged on the shock insulation layer bottom plate, and the opening area in the bottom of the lifting frame faces the lower portion of an elevator shaft opening. A partition wall C is embedded and filled in the lifting frame; filling partition walls B are arranged on the periphery of the joint of the floor below the shock insulation layer bottom plate and the elevator shaft. The lifting frame is higher than the shock insulation layer; a filling partition wall A is arranged around the lifting frame, and the bottom of the filling partition wall A is supported on the shock insulation layer bottom plate; the bottom end face of the lifting frame is vertically aligned with the top end face of the filling partition wall B, and a complete vertical elevator shaft is jointly formed.
本发明属于隔振建筑工程技术领域,具体涉及一种隔震建筑的托举式电梯结构,应用在隔震层以上电梯井高度小于隔震层以下电梯井高度的隔震建筑中。该隔震建筑的托举式电梯结构包括托举框架、填充隔墙A和电梯井筒;托举框架为底面开口的长方体框架结构,竖直设置在隔震层底板上,托举框架底部开口区域朝向电梯井口的下方;所述托举框架内嵌填充隔墙C;在隔震层底板下方楼层与电梯井筒连接处的四周设有填充隔墙B;托举框架的高度超出隔震层高度;托举框架的周围设有填充隔墙A,填充隔墙A底部支撑在隔震层底板上;托举框架的底部端面与填充隔墙B的顶部端面竖直对齐,共同形成一个完整的竖直电梯井筒。
Lifting type elevator structure of shock insulation building
一种隔震建筑的托举式电梯结构
FENG YUAN (author) / FU KANLIN (author) / LIU YI (author) / LIU XIAODONG (author) / WEI ZHONG (author) / WEI HUILAN (author) / JIN LI (author) / WANG FEI (author) / LI YAFEI (author) / FAN GUOFENG (author)
2024-07-05
Patent
Electronic Resource
Chinese
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