A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Self-thermal-insulation wall composite ultrathin curtain wall system
The invention relates to the technical field of heat preservation walls, and particularly discloses a self-heat-preservation wall composite ultrathin curtain wall system which comprises heat preservation building blocks and a steel bar framework, fixing holes are formed in the two ends of each heat preservation building block in a penetrating mode, and steel bars in the steel bar framework are inserted into the fixing holes to fix the heat preservation building blocks and the steel bar framework. The two ends of the heat preservation building block are concaved towards the middle to form a through groove used for pouring concrete, the fixing holes are formed in the periphery of the through groove, a communicating groove is formed in the side wall of the heat preservation building block, and the communicating groove is communicated with the through groove. The structural strength of the formed wall body is improved by pouring concrete, the heat preservation building blocks have the heat preservation characteristic, heat preservation plates do not need to be bonded and anchored outside the wall body, the thickness of the wall body is reduced, the construction efficiency is improved, meanwhile, the structural strength of the wall body is guaranteed, and the safety of a building is improved.
本发明涉及保温墙体技术领域,尤其公开了一种自保温墙体复合超薄幕墙系统包括保温砌块和钢筋架构,保温砌块的两端贯通设置有固定孔,钢筋架构中的钢筋插入固定孔内可将保温砌块与钢筋架构固定,所述保温砌块的两端向中部凹陷形成同于浇灌混凝土的贯通槽,固定孔位于贯通槽的四周,保温砌块的侧壁开设有连通槽,连通槽与贯通槽相通,与传统技术相比,本技术方案通过在钢筋架构内安装保温砌块,形成的墙体中还通过浇筑混凝土提高结构强度,由于保温砌块本身具有保温特性,不需要在墙体外粘锚保温板,缩小了墙体的厚度,提高了施工效率的同时保证了墙体的结构强度,提高了建筑物的安全性。
Self-thermal-insulation wall composite ultrathin curtain wall system
The invention relates to the technical field of heat preservation walls, and particularly discloses a self-heat-preservation wall composite ultrathin curtain wall system which comprises heat preservation building blocks and a steel bar framework, fixing holes are formed in the two ends of each heat preservation building block in a penetrating mode, and steel bars in the steel bar framework are inserted into the fixing holes to fix the heat preservation building blocks and the steel bar framework. The two ends of the heat preservation building block are concaved towards the middle to form a through groove used for pouring concrete, the fixing holes are formed in the periphery of the through groove, a communicating groove is formed in the side wall of the heat preservation building block, and the communicating groove is communicated with the through groove. The structural strength of the formed wall body is improved by pouring concrete, the heat preservation building blocks have the heat preservation characteristic, heat preservation plates do not need to be bonded and anchored outside the wall body, the thickness of the wall body is reduced, the construction efficiency is improved, meanwhile, the structural strength of the wall body is guaranteed, and the safety of a building is improved.
本发明涉及保温墙体技术领域,尤其公开了一种自保温墙体复合超薄幕墙系统包括保温砌块和钢筋架构,保温砌块的两端贯通设置有固定孔,钢筋架构中的钢筋插入固定孔内可将保温砌块与钢筋架构固定,所述保温砌块的两端向中部凹陷形成同于浇灌混凝土的贯通槽,固定孔位于贯通槽的四周,保温砌块的侧壁开设有连通槽,连通槽与贯通槽相通,与传统技术相比,本技术方案通过在钢筋架构内安装保温砌块,形成的墙体中还通过浇筑混凝土提高结构强度,由于保温砌块本身具有保温特性,不需要在墙体外粘锚保温板,缩小了墙体的厚度,提高了施工效率的同时保证了墙体的结构强度,提高了建筑物的安全性。
Self-thermal-insulation wall composite ultrathin curtain wall system
一种自保温墙体复合超薄幕墙系统
DU WENZHONG (author) / TENG LINXING (author) / WANG ZHONGBING (author) / ZHAO HONGCHEN (author)
2024-10-01
Patent
Electronic Resource
Chinese