Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The invention relates to the technical field of bridge reinforcing, in particular to a bridge reinforcing compression-resistant structure which comprises a bridge body, a first pier and a second pier are mounted on the two sides of the lower end face of the bridge body respectively, two positioning columns are clamped to the upper end face of each of the first pier and the second pier, and X-shaped reinforcing plates are connected to the upper end faces of the four positioning columns. Shock force is buffered and consumed through the elastic force of the first connecting spring, meanwhile, the first round rod stretches and retracts on the second round rod for buffering through the elastic force of the second connecting spring, in this way, pressure borne by a bridge can be relieved, the strength and the anti-pressure capacity of the bridge structure are improved, and the service life of the bridge is prolonged; through mutual installation of the first bolts and the connecting insertion plates, connection of the bridge and the bridge pier can be reinforced, then the embedded plate and the two supporting rotary plates can form a triangular state, the bridge is more stable, and the stability of the bridge reinforcing compression-resistant structure is improved.
本发明涉及桥梁加固技术领域,具体的是一种桥梁加固抗压结构,包括桥梁主体,桥梁主体的下端面两侧分别安装有第一桥墩、第二桥墩,第一桥墩、第二桥墩的上端面均卡接有两个定位柱,四个定位柱的上端面连接有X型加固板,本发明通过利用第一连接弹簧的弹力来缓冲消耗震动力,同时利用第二连接弹簧的弹力而让一号圆杆在二号圆杆上伸缩缓冲,这样就可以缓解桥梁受到的压力,提高桥梁结构的强度以及抗压能力,延长桥梁的使用寿命,通过第一螺栓和连接插板的相互安装可以用于加固桥梁和桥墩的连接,接着嵌入板和两个支撑旋板都可以分别形成三角形的状态,让桥梁更加稳固,以便提高桥梁加固抗压结构的稳定性。
The invention relates to the technical field of bridge reinforcing, in particular to a bridge reinforcing compression-resistant structure which comprises a bridge body, a first pier and a second pier are mounted on the two sides of the lower end face of the bridge body respectively, two positioning columns are clamped to the upper end face of each of the first pier and the second pier, and X-shaped reinforcing plates are connected to the upper end faces of the four positioning columns. Shock force is buffered and consumed through the elastic force of the first connecting spring, meanwhile, the first round rod stretches and retracts on the second round rod for buffering through the elastic force of the second connecting spring, in this way, pressure borne by a bridge can be relieved, the strength and the anti-pressure capacity of the bridge structure are improved, and the service life of the bridge is prolonged; through mutual installation of the first bolts and the connecting insertion plates, connection of the bridge and the bridge pier can be reinforced, then the embedded plate and the two supporting rotary plates can form a triangular state, the bridge is more stable, and the stability of the bridge reinforcing compression-resistant structure is improved.
本发明涉及桥梁加固技术领域,具体的是一种桥梁加固抗压结构,包括桥梁主体,桥梁主体的下端面两侧分别安装有第一桥墩、第二桥墩,第一桥墩、第二桥墩的上端面均卡接有两个定位柱,四个定位柱的上端面连接有X型加固板,本发明通过利用第一连接弹簧的弹力来缓冲消耗震动力,同时利用第二连接弹簧的弹力而让一号圆杆在二号圆杆上伸缩缓冲,这样就可以缓解桥梁受到的压力,提高桥梁结构的强度以及抗压能力,延长桥梁的使用寿命,通过第一螺栓和连接插板的相互安装可以用于加固桥梁和桥墩的连接,接着嵌入板和两个支撑旋板都可以分别形成三角形的状态,让桥梁更加稳固,以便提高桥梁加固抗压结构的稳定性。
Compression-resistant reinforcing structure and method for masonry wall
| Europäisches Patentamt | 2024