A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Railway elevated canopy steel column embedding process
The invention discloses a railway elevated canopy steel column embedding process, which comprises a concrete base layer and a platform beam, an elevated canopy integrated steel column is integrally formed at the top of the platform beam, and the railway elevated canopy steel column embedding process comprises the following steps: S1, measuring data such as axis elevation before embedding; s2, after the measurement is completed, the bolt group is fixed; s3, after the concrete base layer in the step S2 is solidified, the platform beam and the elevated canopy integrated steel column are hoisted and fixed in the concrete base layer together; and S4, after the platform beams are connected and fixed through the bolt sets, concrete is poured again. According to the railway elevated canopy steel column pre-burying process, integrated pre-burying of the elevated canopy steel columns is achieved, so that on the premise that the construction requirement is met, overall use is completed, the strength and resistance of the steel columns are improved, the railway elevated canopy steel column pre-burying process is more suitable for supporting, building and using of canopies in multiple environments, the service life is prolonged, and the application range is widened.
本发明公开了一种铁路高架雨棚钢柱预埋工艺,包括混凝土基层和站台梁,所述站台梁的顶部一体成型有高架雨棚一体钢柱,该铁路高架雨棚钢柱预埋工艺的步骤包括如下:S1:预埋前进行轴线标高等数据测量;S2:在测量完毕后,将螺栓组固定;S3:在步骤S2中混凝土基层凝固后,将站台梁连通高架雨棚一体钢柱一同吊装固定在混凝土基层中;S4:在将站台梁通过螺栓组的连接固定后,再次浇筑混凝土。该铁路高架雨棚钢柱预埋工艺,实现了对高架雨棚钢柱的一体式预埋,从而保证施工需求的前提下,完成整体使用,提高自身的强度和抗性,从而更加适合多环境下雨棚的支撑搭建使用,提高使用寿命和增加适用范围。
Railway elevated canopy steel column embedding process
The invention discloses a railway elevated canopy steel column embedding process, which comprises a concrete base layer and a platform beam, an elevated canopy integrated steel column is integrally formed at the top of the platform beam, and the railway elevated canopy steel column embedding process comprises the following steps: S1, measuring data such as axis elevation before embedding; s2, after the measurement is completed, the bolt group is fixed; s3, after the concrete base layer in the step S2 is solidified, the platform beam and the elevated canopy integrated steel column are hoisted and fixed in the concrete base layer together; and S4, after the platform beams are connected and fixed through the bolt sets, concrete is poured again. According to the railway elevated canopy steel column pre-burying process, integrated pre-burying of the elevated canopy steel columns is achieved, so that on the premise that the construction requirement is met, overall use is completed, the strength and resistance of the steel columns are improved, the railway elevated canopy steel column pre-burying process is more suitable for supporting, building and using of canopies in multiple environments, the service life is prolonged, and the application range is widened.
本发明公开了一种铁路高架雨棚钢柱预埋工艺,包括混凝土基层和站台梁,所述站台梁的顶部一体成型有高架雨棚一体钢柱,该铁路高架雨棚钢柱预埋工艺的步骤包括如下:S1:预埋前进行轴线标高等数据测量;S2:在测量完毕后,将螺栓组固定;S3:在步骤S2中混凝土基层凝固后,将站台梁连通高架雨棚一体钢柱一同吊装固定在混凝土基层中;S4:在将站台梁通过螺栓组的连接固定后,再次浇筑混凝土。该铁路高架雨棚钢柱预埋工艺,实现了对高架雨棚钢柱的一体式预埋,从而保证施工需求的前提下,完成整体使用,提高自身的强度和抗性,从而更加适合多环境下雨棚的支撑搭建使用,提高使用寿命和增加适用范围。
Railway elevated canopy steel column embedding process
一种铁路高架雨棚钢柱预埋工艺
MA ZHANWU (author) / SHI GUOQIANG (author) / WANG YEJIA (author) / ZHOU YUNLONG (author) / XUE LIANGWEI (author)
2022-05-10
Patent
Electronic Resource
Chinese
Railway station building steel structure canopy mounting process
| European Patent Office | 2022
Integrated hoisting equipment and process for concrete double-column canopy of railway station
| European Patent Office | 2024
| European Patent Office | 2024
| European Patent Office | 2024
| European Patent Office | 2024