Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Steel-concrete composite beam erecting system based on deck crane
The invention provides a steel-concrete composite beam erecting system based on a bridge deck crane, which at least comprises the bridge deck crane, the bridge deck crane is supported and anchored on the upper part of an erected steel beam section, the front end of each upper longitudinal beam is movably connected with a front hanging beam, the front hanging beams longitudinally move along the upper longitudinal beams, and the bridge deck crane is provided with a beam transporting vehicle and a construction platform in a matched manner. The beam transporting vehicle is located on the erected steel beam section, reverse hanging wheels and first hanging rods are arranged on the two sides of the rear end of the construction platform, and the construction platform is hung on an I-shaped rail at the bottom of the front end of the erected steel beam section through the reverse hanging wheels or anchored to the bottom of the front end of the erected steel beam section through the first hanging rods. The two sides of the front end of the construction platform are hoisted and fixed to the front hoisting beams of the upper longitudinal beams on the left side and the right side through second hoisting rods, and the whole construction platform is horizontally arranged. According to the erecting system, the construction platform is installed on the bridge, the construction platform, the deck crane and the beam transporting vehicle achieve tail beam feeding together, the construction efficiency is high, and the construction safety is high.
本发明提供了一种基于桥面吊机的钢混组合梁架设系统,至少包括桥面吊机,桥面吊机支承锚固于已架设钢梁段的上部,上纵梁的前端均活动连接有前吊梁,前吊梁沿上纵梁纵向移动,桥面吊机配套设置有运梁车和施工平台,运梁车位于已架设钢梁段上,施工平台的后端的两侧设置有反挂轮和第一吊杆,施工平台通过反挂轮悬挂于已架设钢梁段前端底部的工字型轨道上,或者通过第一吊杆锚固于已架设钢梁段的前端底部,所述施工平台的前端的两侧通过第二吊杆吊起固定于左右两侧上纵梁的前吊梁上,且施工平台整体水平设置。该架设系统通过在桥梁上安装施工平台,施工平台、桥面吊机与运梁车一起实现尾部喂梁,施工效率较高且施工安全性高。
Steel-concrete composite beam erecting system based on deck crane
The invention provides a steel-concrete composite beam erecting system based on a bridge deck crane, which at least comprises the bridge deck crane, the bridge deck crane is supported and anchored on the upper part of an erected steel beam section, the front end of each upper longitudinal beam is movably connected with a front hanging beam, the front hanging beams longitudinally move along the upper longitudinal beams, and the bridge deck crane is provided with a beam transporting vehicle and a construction platform in a matched manner. The beam transporting vehicle is located on the erected steel beam section, reverse hanging wheels and first hanging rods are arranged on the two sides of the rear end of the construction platform, and the construction platform is hung on an I-shaped rail at the bottom of the front end of the erected steel beam section through the reverse hanging wheels or anchored to the bottom of the front end of the erected steel beam section through the first hanging rods. The two sides of the front end of the construction platform are hoisted and fixed to the front hoisting beams of the upper longitudinal beams on the left side and the right side through second hoisting rods, and the whole construction platform is horizontally arranged. According to the erecting system, the construction platform is installed on the bridge, the construction platform, the deck crane and the beam transporting vehicle achieve tail beam feeding together, the construction efficiency is high, and the construction safety is high.
本发明提供了一种基于桥面吊机的钢混组合梁架设系统,至少包括桥面吊机,桥面吊机支承锚固于已架设钢梁段的上部,上纵梁的前端均活动连接有前吊梁,前吊梁沿上纵梁纵向移动,桥面吊机配套设置有运梁车和施工平台,运梁车位于已架设钢梁段上,施工平台的后端的两侧设置有反挂轮和第一吊杆,施工平台通过反挂轮悬挂于已架设钢梁段前端底部的工字型轨道上,或者通过第一吊杆锚固于已架设钢梁段的前端底部,所述施工平台的前端的两侧通过第二吊杆吊起固定于左右两侧上纵梁的前吊梁上,且施工平台整体水平设置。该架设系统通过在桥梁上安装施工平台,施工平台、桥面吊机与运梁车一起实现尾部喂梁,施工效率较高且施工安全性高。
Steel-concrete composite beam erecting system based on deck crane
一种基于桥面吊机的钢混组合梁架设系统
GONG CHENGZHOU (Autor:in) / ZHANG GUANGMING (Autor:in) / LI QING (Autor:in) / HAO YONGGANG (Autor:in) / LI JIWEI (Autor:in) / TANG KUNYUAN (Autor:in) / DU XIAOGANG (Autor:in) / ZU GUODONG (Autor:in) / SU LIUSHUAI (Autor:in) / CAO CUI (Autor:in)
13.05.2022
Patent
Elektronische Ressource
Chinesisch
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