Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Cantilever scaffold and construction method thereof
The cantilever scaffold comprises I-shaped steel and a building wall, an I-shaped steel base is fixed to the building wall through a plurality of first bolt and nut assemblies, and a force bearing plate frame is fixed to a building laminate through a plurality of second bolt and nut assemblies. The I-shaped steel base is fixed to the building wall through the first bolt and nut assemblies, the length of the I-shaped steel is reduced, and therefore use of steel is greatly reduced; the bearing plate frame is fixed to a building laminate through a plurality of second bolt and nut assemblies, bearing buckling teeth are integrally formed on the top of the I-shaped steel base, bearing tooth groove parts are integrally formed in the outer side ends of the angle steel plate frames, and the bearing tooth groove parts are buckled with the bearing buckling teeth. The bearing tooth groove part arranged at the outer end of the angle steel plate frame bears the bearing of the inner end of the I-shaped steel, the shearing force borne by the first bolt and nut assembly is reduced, and the safety and stability are improved.
本发明提出一种悬挑脚手架及其施工方法,包括工型钢和建筑墙体,工型钢底座通过若干组第一螺栓螺母组件固定于建筑墙体上,承力板架通过若干组第二螺栓螺母组件固定于建筑层板上。本发明将工型钢底座通过若干组第一螺栓螺母组件固定于建筑墙体上,减少工型钢的长度,从而大大降低钢材的使用;将承力板架通过若干组第二螺栓螺母组件固定于建筑层板上,工型钢底座的顶部一体成型有承重扣齿,角钢板架的外侧端一体成型有承重齿槽部,且承重齿槽部与承重扣齿相扣合,由角钢板架外端所设的承重齿槽部承担工型钢内端的承重,降低第一螺栓螺母组件所受到的剪切力,提高安全稳定性。
Cantilever scaffold and construction method thereof
The cantilever scaffold comprises I-shaped steel and a building wall, an I-shaped steel base is fixed to the building wall through a plurality of first bolt and nut assemblies, and a force bearing plate frame is fixed to a building laminate through a plurality of second bolt and nut assemblies. The I-shaped steel base is fixed to the building wall through the first bolt and nut assemblies, the length of the I-shaped steel is reduced, and therefore use of steel is greatly reduced; the bearing plate frame is fixed to a building laminate through a plurality of second bolt and nut assemblies, bearing buckling teeth are integrally formed on the top of the I-shaped steel base, bearing tooth groove parts are integrally formed in the outer side ends of the angle steel plate frames, and the bearing tooth groove parts are buckled with the bearing buckling teeth. The bearing tooth groove part arranged at the outer end of the angle steel plate frame bears the bearing of the inner end of the I-shaped steel, the shearing force borne by the first bolt and nut assembly is reduced, and the safety and stability are improved.
本发明提出一种悬挑脚手架及其施工方法,包括工型钢和建筑墙体,工型钢底座通过若干组第一螺栓螺母组件固定于建筑墙体上,承力板架通过若干组第二螺栓螺母组件固定于建筑层板上。本发明将工型钢底座通过若干组第一螺栓螺母组件固定于建筑墙体上,减少工型钢的长度,从而大大降低钢材的使用;将承力板架通过若干组第二螺栓螺母组件固定于建筑层板上,工型钢底座的顶部一体成型有承重扣齿,角钢板架的外侧端一体成型有承重齿槽部,且承重齿槽部与承重扣齿相扣合,由角钢板架外端所设的承重齿槽部承担工型钢内端的承重,降低第一螺栓螺母组件所受到的剪切力,提高安全稳定性。
Cantilever scaffold and construction method thereof
一种悬挑脚手架及其施工方法
ZHAO QIANG (Autor:in) / SHAO WEIBIAO (Autor:in) / CAO ZHEN (Autor:in) / YU CHANG (Autor:in) / HU WEITENG (Autor:in)
26.11.2024
Patent
Elektronische Ressource
Chinesisch
IPC:
E04G
SCAFFOLDING
,
Baugerüste
Cantilever scaffold system and construction method thereof
| Europäisches Patentamt | 2021
Cantilever scaffold and construction technology thereof
| Europäisches Patentamt | 2021