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A platform for research: civil engineering, architecture and urbanism
Supporting leg applied to large-span mechanical suspension bridge
The invention discloses a supporting leg applied to a large-span mechanical suspension bridge, which is characterized in that two first supporting plates are hinged to two sides of a suspension bridge body in the length direction above the supporting leg, and the two first supporting plates are connected with a first supporting plate driving assembly; the first supporting plate driving assembly can drive the first supporting plate to be switched between the storage state and the supporting state. The supporting legs comprise the upper supporting leg and the lower supporting leg, the upper supporting leg and the lower supporting leg are connected through a supporting leg telescopic assembly, and the supporting leg telescopic assembly can adjust the distance between the supporting leg and the lower supporting leg so as to support the suspension bridge. The suspension bridge is ingenious in structural design and high in automation degree, the suspension bridge is connected to the lower portion of the suspension bridge body in a hinged mode, the suspension bridge body can be supported, the suspension bridge can be attached to the lower surface of the suspension bridge body, and storage and transportation are convenient; by arranging the telescopic assembly, the device can adapt to rivers or gullies of different depths, and adaptability is high.
本发明公开了一种应用于大跨度机械化吊桥的支撑腿,支撑腿的上方在吊桥本体的长度方向上的两侧铰接有两个第一支撑板,两个第一支撑板与第一支撑板驱动组件相连,第一支撑板驱动组件可驱动第一支撑板在收纳状态和支撑状态之间切换;支撑腿包括上支撑腿和下支撑腿,上支撑腿和下支撑腿通过支撑腿伸缩组件相连,支撑腿伸缩组件可调节支撑腿和下支撑腿之间的距离,以对吊桥形成支撑。本发明结构设计巧妙,自动化程度高,通过铰接的方式连接在吊桥本体的下方,既可以实现对吊桥本体的支撑,又能与吊桥本体的下表面相贴合,方便收纳与运输;通过设置伸缩组件,可适应不同深度的河流或者沟壑,适应性强。
Supporting leg applied to large-span mechanical suspension bridge
The invention discloses a supporting leg applied to a large-span mechanical suspension bridge, which is characterized in that two first supporting plates are hinged to two sides of a suspension bridge body in the length direction above the supporting leg, and the two first supporting plates are connected with a first supporting plate driving assembly; the first supporting plate driving assembly can drive the first supporting plate to be switched between the storage state and the supporting state. The supporting legs comprise the upper supporting leg and the lower supporting leg, the upper supporting leg and the lower supporting leg are connected through a supporting leg telescopic assembly, and the supporting leg telescopic assembly can adjust the distance between the supporting leg and the lower supporting leg so as to support the suspension bridge. The suspension bridge is ingenious in structural design and high in automation degree, the suspension bridge is connected to the lower portion of the suspension bridge body in a hinged mode, the suspension bridge body can be supported, the suspension bridge can be attached to the lower surface of the suspension bridge body, and storage and transportation are convenient; by arranging the telescopic assembly, the device can adapt to rivers or gullies of different depths, and adaptability is high.
本发明公开了一种应用于大跨度机械化吊桥的支撑腿,支撑腿的上方在吊桥本体的长度方向上的两侧铰接有两个第一支撑板,两个第一支撑板与第一支撑板驱动组件相连,第一支撑板驱动组件可驱动第一支撑板在收纳状态和支撑状态之间切换;支撑腿包括上支撑腿和下支撑腿,上支撑腿和下支撑腿通过支撑腿伸缩组件相连,支撑腿伸缩组件可调节支撑腿和下支撑腿之间的距离,以对吊桥形成支撑。本发明结构设计巧妙,自动化程度高,通过铰接的方式连接在吊桥本体的下方,既可以实现对吊桥本体的支撑,又能与吊桥本体的下表面相贴合,方便收纳与运输;通过设置伸缩组件,可适应不同深度的河流或者沟壑,适应性强。
Supporting leg applied to large-span mechanical suspension bridge
应用于大跨度机械化吊桥的支撑腿
FU QIANG (author) / CAO BING (author) / WU HAO (author) / REN HONGPENG (author) / LI MENG (author) / MU MENGFEI (author) / YONG ZHIQIN (author) / LIU CHAOYANG (author)
2023-12-29
Patent
Electronic Resource
Chinese
IPC:
E01D
BRIDGES
,
Brücken
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