A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Vibration isolation bridge floor of steel trestle and construction method of vibration isolation bridge floor
The invention relates to a vibration isolation bridge deck and a construction method of the vibration isolation bridge deck, and aims to solve the problems that existing bridge deck slabs are spot-connected through electric welding, the bridge deck is large in deformation, inconvenient to disassemble and large in manpower and material resource consumption, each bridge deck slab needs to be fixed through steel bars, and the construction cost is high. Every two adjacent vibration isolation bridge deck slabs are connected through a plurality of connecting tenons, outer plate bodies are installed on inner plate bodies in a buckled mode, U-shaped ribs are fixedly installed on the lower end faces of the inner plate bodies, every two adjacent outer plate bodies are connected and fixed through a plurality of connecting tenons, and the U-shaped ribs are installed on steel pipe piles in a buckled mode and fixedly connected with the steel pipe piles. The method is implemented according to the following steps that firstly, a plurality of U-shaped ribs are laid on steel pipe piles, secondly, vibration isolation bridge deck slabs are sequentially hoisted through a crane, and thirdly, after one vibration isolation bridge deck slab is hoisted, the vibration isolation bridge deck slabs are placed. The invention belongs to the field of building construction.
一种钢栈桥的隔振桥面及隔振桥面施工方法,本发明涉及一种隔振桥面及隔振桥面施工方法,本发明为了解决现有桥面板用电焊点接,桥面变形大,拆卸不便,耗费人力和物力较大,每一块桥面板都要使用钢筋固定,给吊装工作带来极大限制的问题,相邻两个隔振桥面板通过多个连接榫头连接,外板体扣合安装在内板体上,U型肋固定安装在内板体下端面上,相邻两个外板体通过多个连接榫头连接固定,U型肋扣合安装在钢管桩上并与钢管桩固定连接。所述方法是按照以下步骤实现的:步骤一:将钢管桩上铺设多个U型肋,步骤二、使用吊车依次吊装隔振桥面板,步骤三、吊装完成一块隔振桥面板后,安放隔振桥面板。本发明属于建筑施工领域。
Vibration isolation bridge floor of steel trestle and construction method of vibration isolation bridge floor
The invention relates to a vibration isolation bridge deck and a construction method of the vibration isolation bridge deck, and aims to solve the problems that existing bridge deck slabs are spot-connected through electric welding, the bridge deck is large in deformation, inconvenient to disassemble and large in manpower and material resource consumption, each bridge deck slab needs to be fixed through steel bars, and the construction cost is high. Every two adjacent vibration isolation bridge deck slabs are connected through a plurality of connecting tenons, outer plate bodies are installed on inner plate bodies in a buckled mode, U-shaped ribs are fixedly installed on the lower end faces of the inner plate bodies, every two adjacent outer plate bodies are connected and fixed through a plurality of connecting tenons, and the U-shaped ribs are installed on steel pipe piles in a buckled mode and fixedly connected with the steel pipe piles. The method is implemented according to the following steps that firstly, a plurality of U-shaped ribs are laid on steel pipe piles, secondly, vibration isolation bridge deck slabs are sequentially hoisted through a crane, and thirdly, after one vibration isolation bridge deck slab is hoisted, the vibration isolation bridge deck slabs are placed. The invention belongs to the field of building construction.
一种钢栈桥的隔振桥面及隔振桥面施工方法,本发明涉及一种隔振桥面及隔振桥面施工方法,本发明为了解决现有桥面板用电焊点接,桥面变形大,拆卸不便,耗费人力和物力较大,每一块桥面板都要使用钢筋固定,给吊装工作带来极大限制的问题,相邻两个隔振桥面板通过多个连接榫头连接,外板体扣合安装在内板体上,U型肋固定安装在内板体下端面上,相邻两个外板体通过多个连接榫头连接固定,U型肋扣合安装在钢管桩上并与钢管桩固定连接。所述方法是按照以下步骤实现的:步骤一:将钢管桩上铺设多个U型肋,步骤二、使用吊车依次吊装隔振桥面板,步骤三、吊装完成一块隔振桥面板后,安放隔振桥面板。本发明属于建筑施工领域。
Vibration isolation bridge floor of steel trestle and construction method of vibration isolation bridge floor
一种钢栈桥的隔振桥面及隔振桥面施工方法
LYU NIANZE (author) / YU LIQIAN (author) / ZHAO JIAN (author) / WU PENGCHENG (author) / ZHANG WEIBIN (author) / SUN GANG (author)
2023-04-04
Patent
Electronic Resource
Chinese
IPC:
E01D
BRIDGES
,
Brücken
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