A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Construction method for layered lifting and high-altitude splicing of steel structure corridor
According to the construction method for layered lifting and high-altitude splicing of the steel structure corridor, construction of the large-dead-weight steel structure corridor is achieved in a layered lifting and in-situ splicing mode, and the construction quality, efficiency and cost are all considered. The steel structure corridor is divided into the lifting translation section on the lower portion and the in-situ assembly section on the upper portion, the lifting translation section is installed through overall lifting and translation, then the high-altitude assembly operation of the in-situ assembly section is conducted with the lifting translation section as the high-altitude operation face, the requirement of the lifting translation operation mode is met, and the construction efficiency is improved. And economical efficiency and safety are achieved, a working face for high-altitude construction is provided for a high-altitude working face through the lifting translation section, and meanwhile the assembling quality and progress of the in-situ assembling section are guaranteed.
本发明提供一种钢结构连廊分层提升及高空拼装的施工方法,采用分层提升以及原位拼装的方式实现大自重钢结构连廊的施工,兼顾了施工质量、效率和成本。本发明将钢结构连廊分为下部的提升平移段和上部的原位拼装段,提升平移段通过整体提升并平移进行安装,然后以提升平移段为高空作业面进行原位拼装段的高空拼装作业,既满足了提升平移作业方式的需求,而且具有经济性和安全性,并且以提升平移段为高空作业面提供了高空施工的作业面,同时也保证了原位拼装段的拼装质量和进度。
Construction method for layered lifting and high-altitude splicing of steel structure corridor
According to the construction method for layered lifting and high-altitude splicing of the steel structure corridor, construction of the large-dead-weight steel structure corridor is achieved in a layered lifting and in-situ splicing mode, and the construction quality, efficiency and cost are all considered. The steel structure corridor is divided into the lifting translation section on the lower portion and the in-situ assembly section on the upper portion, the lifting translation section is installed through overall lifting and translation, then the high-altitude assembly operation of the in-situ assembly section is conducted with the lifting translation section as the high-altitude operation face, the requirement of the lifting translation operation mode is met, and the construction efficiency is improved. And economical efficiency and safety are achieved, a working face for high-altitude construction is provided for a high-altitude working face through the lifting translation section, and meanwhile the assembling quality and progress of the in-situ assembling section are guaranteed.
本发明提供一种钢结构连廊分层提升及高空拼装的施工方法,采用分层提升以及原位拼装的方式实现大自重钢结构连廊的施工,兼顾了施工质量、效率和成本。本发明将钢结构连廊分为下部的提升平移段和上部的原位拼装段,提升平移段通过整体提升并平移进行安装,然后以提升平移段为高空作业面进行原位拼装段的高空拼装作业,既满足了提升平移作业方式的需求,而且具有经济性和安全性,并且以提升平移段为高空作业面提供了高空施工的作业面,同时也保证了原位拼装段的拼装质量和进度。
Construction method for layered lifting and high-altitude splicing of steel structure corridor
一种钢结构连廊分层提升及高空拼装的施工方法
WANG GUANGXIN (author) / FU ZHIHUA (author) / HE YANG (author) / WANG BO (author) / WANG PING (author) / LI RENJIE (author) / ZHOU LIANGMING (author)
2024-09-06
Patent
Electronic Resource
Chinese
High-altitude steel structure corridor splicing structure
| European Patent Office | 2024
Splicing construction method for high-altitude large-span steel structure corridor
| European Patent Office | 2024
High-altitude large-span steel structure corridor and lifting construction method thereof
| European Patent Office | 2022
High-altitude full-transparent steel ring corridor lifting and mounting method
| European Patent Office | 2021
Reverse construction method for high-altitude cantilever steel structure corridor
| European Patent Office | 2024