Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Telescopic cantilever scaffold
The invention relates to the field of constructional engineering, and particularly relates to a telescopic cantilever scaffold. The telescopic cantilever scaffold comprises a cantilever beam and a connecting steel plate welded to one end of the cantilever beam; the connecting steel plate is connected with a shear wall through high-strength bolts; a hinge support is welded to the other end of the cantilever beam; an adjustable supporting rod is hinged to the hinge support; the end, away from a hinge shaft, of the supporting rod is in threaded connection with a welded spherical universal hinge; the spherical universal hinge is welded to angle steel; the angle steel is connected with the shear wall through high-strength bolts; and the cantilever beam is connected with the supporting rod, and a triangular structure is formed by the cantilever beam and the shear wall. The telescopic cantilever scaffold solves the problem that when the cantilever beam cannot be pulled upwards through a steel wire rope, a lower support at the corner is difficult to arrange, and safety is greatly improved; meanwhile, the length and direction of the supporting rod are adjusted, and assembling and disassembling are easy; the leakage risk is lowered, and the engineering quality is improved; and steel is saved, the telescopic cantilever scaffold can be repeatedly used, the construction period is shortened, and the construction cost is reduced.
本发明涉及建筑工程领域,特别涉及一种可伸缩式悬挑脚手架。包括悬梁及焊接在所述悬梁一端的连接钢板,所述连接钢板通过高强螺栓与剪力墙连接,所述悬梁的另一端焊接有铰支座,所述铰支座上铰接有可调节的支撑杆,所述支撑杆远离所述铰接轴的一端螺纹连接有焊接球形万向铰,所述球形万向铰焊接在角钢上,所述角钢通过高强螺栓与剪力墙连接,所述悬梁与支撑杆连接,且与剪力墙形成三角形结构。本发明解决了挑梁无法采用钢丝绳上拉时转角处下支撑难以设置的难题,安全性大大提高;同时支撑杆的长度及方向调节,装拆简易;降低渗漏风险,提高工程质量;节省钢材,可重复利用,节省工期,降低施工成本。
Telescopic cantilever scaffold
The invention relates to the field of constructional engineering, and particularly relates to a telescopic cantilever scaffold. The telescopic cantilever scaffold comprises a cantilever beam and a connecting steel plate welded to one end of the cantilever beam; the connecting steel plate is connected with a shear wall through high-strength bolts; a hinge support is welded to the other end of the cantilever beam; an adjustable supporting rod is hinged to the hinge support; the end, away from a hinge shaft, of the supporting rod is in threaded connection with a welded spherical universal hinge; the spherical universal hinge is welded to angle steel; the angle steel is connected with the shear wall through high-strength bolts; and the cantilever beam is connected with the supporting rod, and a triangular structure is formed by the cantilever beam and the shear wall. The telescopic cantilever scaffold solves the problem that when the cantilever beam cannot be pulled upwards through a steel wire rope, a lower support at the corner is difficult to arrange, and safety is greatly improved; meanwhile, the length and direction of the supporting rod are adjusted, and assembling and disassembling are easy; the leakage risk is lowered, and the engineering quality is improved; and steel is saved, the telescopic cantilever scaffold can be repeatedly used, the construction period is shortened, and the construction cost is reduced.
本发明涉及建筑工程领域,特别涉及一种可伸缩式悬挑脚手架。包括悬梁及焊接在所述悬梁一端的连接钢板,所述连接钢板通过高强螺栓与剪力墙连接,所述悬梁的另一端焊接有铰支座,所述铰支座上铰接有可调节的支撑杆,所述支撑杆远离所述铰接轴的一端螺纹连接有焊接球形万向铰,所述球形万向铰焊接在角钢上,所述角钢通过高强螺栓与剪力墙连接,所述悬梁与支撑杆连接,且与剪力墙形成三角形结构。本发明解决了挑梁无法采用钢丝绳上拉时转角处下支撑难以设置的难题,安全性大大提高;同时支撑杆的长度及方向调节,装拆简易;降低渗漏风险,提高工程质量;节省钢材,可重复利用,节省工期,降低施工成本。
Telescopic cantilever scaffold
一种可伸缩式悬挑脚手架
ZHOU YIMIN (Autor:in) / FENG SONGMING (Autor:in) / LUO JINLIANG (Autor:in) / NONG JIAN (Autor:in)
01.06.2021
Patent
Elektronische Ressource
Chinesisch
IPC:
E04G
SCAFFOLDING
,
Baugerüste