Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Formwork erecting construction method for shaped steel formwork of edge anti-collision wall of high-speed bridge
The invention provides a high-speed bridge edge anti-collision wall shaping steel formwork erecting construction method, and relates to the field of anti-collision wall building. The construction method comprises the following operation steps that S1, a combined steel formwork is designed according to the size of the anti-collision wall needing to be constructed, the steel formwork comprises an inner side steel formwork and an outer side steel formwork, the inner side steel formwork corresponds to the inner side of the anti-collision wall to be poured, and the outer side steel formwork corresponds to the outer side of the anti-collision wall to be poured; s2, outer side steel formworks are hoisted to a bridge through a crane and placed on the outer side of the anti-collision wall to be poured, and the adjacent outer side steel formworks are fixed through connecting mechanisms; s3, the inner side steel formworks are hoisted to the bridge through a crane and placed on the inner side of the anti-collision wall to be poured, and the adjacent inner side steel formworks are also fixed through connecting mechanisms; and S4, the outer side steel formwork and the opposite inner side steel formwork are connected and fixed through screws and nuts. The steel template splicing device has the effect of improving the splicing efficiency of the outer side steel template and the inner side steel template.
本申请提供了高速桥梁临边防撞墙定型化钢模板支模施工方法,涉及防撞墙建造领域。其包括如下操作步骤:S1:根据所需施工的防撞墙尺寸设计组合钢模板,钢模板包括:内侧钢模板和外侧钢模板,且内侧钢模板与待浇筑防撞墙的内侧对应,外侧钢模板与待浇筑防撞墙的外侧对应;S2:将外侧钢模板通过吊机吊至桥梁上,并放置于待浇筑防撞墙的外侧,且相邻之间的外侧钢模板通过连接机构进行固定;S3:将内侧钢模板通过吊机吊至桥梁上,并放置于待浇筑防撞墙的内侧,且相邻之间的内侧钢模板也通过连接机构进行固定;S4:利用螺杆和螺母,将外侧钢模板与自身相对的内侧钢模板进行连接固定。本申请具有提高对外侧钢模板以及内侧钢模板的拼接效率的效果。
Formwork erecting construction method for shaped steel formwork of edge anti-collision wall of high-speed bridge
The invention provides a high-speed bridge edge anti-collision wall shaping steel formwork erecting construction method, and relates to the field of anti-collision wall building. The construction method comprises the following operation steps that S1, a combined steel formwork is designed according to the size of the anti-collision wall needing to be constructed, the steel formwork comprises an inner side steel formwork and an outer side steel formwork, the inner side steel formwork corresponds to the inner side of the anti-collision wall to be poured, and the outer side steel formwork corresponds to the outer side of the anti-collision wall to be poured; s2, outer side steel formworks are hoisted to a bridge through a crane and placed on the outer side of the anti-collision wall to be poured, and the adjacent outer side steel formworks are fixed through connecting mechanisms; s3, the inner side steel formworks are hoisted to the bridge through a crane and placed on the inner side of the anti-collision wall to be poured, and the adjacent inner side steel formworks are also fixed through connecting mechanisms; and S4, the outer side steel formwork and the opposite inner side steel formwork are connected and fixed through screws and nuts. The steel template splicing device has the effect of improving the splicing efficiency of the outer side steel template and the inner side steel template.
本申请提供了高速桥梁临边防撞墙定型化钢模板支模施工方法,涉及防撞墙建造领域。其包括如下操作步骤:S1:根据所需施工的防撞墙尺寸设计组合钢模板,钢模板包括:内侧钢模板和外侧钢模板,且内侧钢模板与待浇筑防撞墙的内侧对应,外侧钢模板与待浇筑防撞墙的外侧对应;S2:将外侧钢模板通过吊机吊至桥梁上,并放置于待浇筑防撞墙的外侧,且相邻之间的外侧钢模板通过连接机构进行固定;S3:将内侧钢模板通过吊机吊至桥梁上,并放置于待浇筑防撞墙的内侧,且相邻之间的内侧钢模板也通过连接机构进行固定;S4:利用螺杆和螺母,将外侧钢模板与自身相对的内侧钢模板进行连接固定。本申请具有提高对外侧钢模板以及内侧钢模板的拼接效率的效果。
Formwork erecting construction method for shaped steel formwork of edge anti-collision wall of high-speed bridge
高速桥梁临边防撞墙定型化钢模板支模施工方法
GU CHANGCHENG (Autor:in) / WU ANGUO (Autor:in)
22.08.2023
Patent
Elektronische Ressource
Chinesisch
IPC:
E01D
BRIDGES
,
Brücken
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