Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Impact-resistant aluminum alloy formwork structure
The invention belongs to the technical field of aluminum alloy formwork structures, and discloses an impact-resistant aluminum alloy formwork structure. The impact-resistant aluminum alloy formwork structure comprises an aluminum alloy formwork, connecting blocks are fixedly installed on the left side and the right side of the aluminum alloy formwork correspondingly, fixing mechanisms are arranged on the two connecting blocks, a protection mechanism is arranged on the outer side of the aluminum alloy formwork, and an inserting hydraulic assembly and a reinforcing rib assembly are arranged in each fixing mechanism. The protection mechanism internally comprises a pressing inflation assembly and a hydraulic supporting assembly. According to the impact-resistant aluminum alloy formwork structure, through cooperation of the inserting hydraulic assemblies and the reinforcing rib assemblies, impact force reduction can be achieved at the positions, most prone to deformation, of the left side and the right side of an aluminum alloy module in the impact state, and through rotatable cooperation of rotating rods and L-shaped plates, deformation of the connecting positions can be achieved; and the deformation of the side edge of the aluminum alloy module main body is reduced to the minimum, so that the impact resistance of the aluminum alloy module is improved.
本发明属于铝合金模板结构技术领域,公开了一种耐冲击的铝合金模板结构。该耐冲击的铝合金模板结构,包括铝合金模板,所述铝合金模板的左右两侧均固定安装有连接块,两个所述连接块上设置有固定机构,所述铝合金模板的外侧设置有保护机构,所述固定机构内包括插接液压组件、加强筋组件,所述保护机构内包括按压充气组件、液压支撑组件。该耐冲击的铝合金模板结构,通过插接液压组件与加强筋组件的配合,可以实现在受到冲击状态下,铝合金模块的左右两侧最易变形的位置实现冲击力削减,通过转动杆与L形板的可转动配合,从而可以实现连接处的形变,对铝合金模块主体侧边的形变降到最低,从而提高了铝合金模块本身的抗冲击性能。
Impact-resistant aluminum alloy formwork structure
The invention belongs to the technical field of aluminum alloy formwork structures, and discloses an impact-resistant aluminum alloy formwork structure. The impact-resistant aluminum alloy formwork structure comprises an aluminum alloy formwork, connecting blocks are fixedly installed on the left side and the right side of the aluminum alloy formwork correspondingly, fixing mechanisms are arranged on the two connecting blocks, a protection mechanism is arranged on the outer side of the aluminum alloy formwork, and an inserting hydraulic assembly and a reinforcing rib assembly are arranged in each fixing mechanism. The protection mechanism internally comprises a pressing inflation assembly and a hydraulic supporting assembly. According to the impact-resistant aluminum alloy formwork structure, through cooperation of the inserting hydraulic assemblies and the reinforcing rib assemblies, impact force reduction can be achieved at the positions, most prone to deformation, of the left side and the right side of an aluminum alloy module in the impact state, and through rotatable cooperation of rotating rods and L-shaped plates, deformation of the connecting positions can be achieved; and the deformation of the side edge of the aluminum alloy module main body is reduced to the minimum, so that the impact resistance of the aluminum alloy module is improved.
本发明属于铝合金模板结构技术领域,公开了一种耐冲击的铝合金模板结构。该耐冲击的铝合金模板结构,包括铝合金模板,所述铝合金模板的左右两侧均固定安装有连接块,两个所述连接块上设置有固定机构,所述铝合金模板的外侧设置有保护机构,所述固定机构内包括插接液压组件、加强筋组件,所述保护机构内包括按压充气组件、液压支撑组件。该耐冲击的铝合金模板结构,通过插接液压组件与加强筋组件的配合,可以实现在受到冲击状态下,铝合金模块的左右两侧最易变形的位置实现冲击力削减,通过转动杆与L形板的可转动配合,从而可以实现连接处的形变,对铝合金模块主体侧边的形变降到最低,从而提高了铝合金模块本身的抗冲击性能。
Impact-resistant aluminum alloy formwork structure
一种耐冲击的铝合金模板结构
LIU WENGUANG (Autor:in) / XIONG SAIHUI (Autor:in)
14.07.2023
Patent
Elektronische Ressource
Chinesisch
IPC:
E04G
SCAFFOLDING
,
Baugerüste