A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Steel-concrete composite beam steel-concrete section splicing self-positioning structure
The invention relates to the technical field of bridge construction, and particularly discloses a steel-concrete composite beam steel-concrete section splicing self-positioning structure which comprises a concrete beam, a plurality of embedded side plates are embedded in the surface of the concrete beam, one end of each embedded side plate is fixedly connected with a mounting bottom plate perpendicular to the embedded side plate, and the other end of each embedded side plate is fixedly connected with a steel-concrete section splicing self-positioning structure. The mounting bottom plate is flush with the end face of the concrete beam, and a positioning piece used for guiding a steel beam web is arranged on the mounting bottom plate. The beneficial effects are that one end of the pre-embedded side plate is fixedly connected with the mounting bottom plate perpendicular to the pre-embedded side plate, the L-shaped positioning clamping plate is rotatably mounted on the surface of the mounting bottom plate, when the steel beam is close to the concrete beam, the end part of the steel beam is clamped into the inner side of the positioning clamping plate, and the positioning clamping plate rotates to enable one side edge to abut against the inner wall of the steel beam so as to play a role in limiting the steel beam; and dislocation after the steel beam and the concrete beam are spliced is avoided.
本发明涉及桥梁施工技术领域,具体公开了一种钢混组合梁钢混段拼接自定位结构,包括:混凝土梁,所述混凝土梁的表面预埋设置有多个预埋侧板,所述预埋侧板的一端固定连接有与之垂直的安装底板,所述安装底板与混凝土梁的端面齐平,所述安装底板上设置有用于对钢梁腹板导向的定位件;有益效果为:通过在预埋侧板的一端固定连接有与之垂直的安装底板,安装底板的表面转动安装有呈“L”型的定位卡板,钢梁靠近混凝土梁时,钢梁端部卡进定位卡板内侧,定位卡板转动可将一侧边抵在钢梁内壁上,以对钢梁起到限位效果,避免钢梁与混凝土梁拼接后发生错位。
Steel-concrete composite beam steel-concrete section splicing self-positioning structure
The invention relates to the technical field of bridge construction, and particularly discloses a steel-concrete composite beam steel-concrete section splicing self-positioning structure which comprises a concrete beam, a plurality of embedded side plates are embedded in the surface of the concrete beam, one end of each embedded side plate is fixedly connected with a mounting bottom plate perpendicular to the embedded side plate, and the other end of each embedded side plate is fixedly connected with a steel-concrete section splicing self-positioning structure. The mounting bottom plate is flush with the end face of the concrete beam, and a positioning piece used for guiding a steel beam web is arranged on the mounting bottom plate. The beneficial effects are that one end of the pre-embedded side plate is fixedly connected with the mounting bottom plate perpendicular to the pre-embedded side plate, the L-shaped positioning clamping plate is rotatably mounted on the surface of the mounting bottom plate, when the steel beam is close to the concrete beam, the end part of the steel beam is clamped into the inner side of the positioning clamping plate, and the positioning clamping plate rotates to enable one side edge to abut against the inner wall of the steel beam so as to play a role in limiting the steel beam; and dislocation after the steel beam and the concrete beam are spliced is avoided.
本发明涉及桥梁施工技术领域,具体公开了一种钢混组合梁钢混段拼接自定位结构,包括:混凝土梁,所述混凝土梁的表面预埋设置有多个预埋侧板,所述预埋侧板的一端固定连接有与之垂直的安装底板,所述安装底板与混凝土梁的端面齐平,所述安装底板上设置有用于对钢梁腹板导向的定位件;有益效果为:通过在预埋侧板的一端固定连接有与之垂直的安装底板,安装底板的表面转动安装有呈“L”型的定位卡板,钢梁靠近混凝土梁时,钢梁端部卡进定位卡板内侧,定位卡板转动可将一侧边抵在钢梁内壁上,以对钢梁起到限位效果,避免钢梁与混凝土梁拼接后发生错位。
Steel-concrete composite beam steel-concrete section splicing self-positioning structure
一种钢混组合梁钢混段拼接自定位结构
HE HONGBO (author) / HU SONGTAO (author) / ZHAO LONGFEI (author) / ZHAO ZHENJIA (author) / ZHANG JIAWEI (author) / ZHANG YAQIN (author) / ZHU RONGSEN (author) / LIANG CHAO (author)
2023-12-01
Patent
Electronic Resource
Chinese
IPC:
E01D
BRIDGES
,
Brücken
| European Patent Office | 2016
| European Patent Office | 2016
| European Patent Office | 2016
European Patent Office | 2016
European Patent Office | 2016