A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Cantilever beam construction monitoring system and monitoring method
The invention relates to the technical field of constructional engineering, in particular to a cantilever beam construction monitoring system and method, and the method comprises the steps: simulation analysis: carrying out the modeling of a cantilever beam through a finite element, and carrying out the simulation analysis, and obtaining a construction simulation analysis result; linear control: according to a construction simulation analysis result, determining a linear control point of the cantilever beam in each construction stage, and determining a linear shape and displacement of each control point in an ideal construction state to obtain a linear ideal value and a displacement ideal value; and construction monitoring: detecting the line shape and displacement of each control point in an actual construction state to obtain a line shape actual value and a displacement actual value, judging whether the deviation between the line shape actual value and the line shape ideal value and the deviation between the displacement actual value and the displacement ideal value are greater than a preset threshold value or not, and if so, feeding back to a construction site operator for adjustment. The technical problem that the quality of the cantilever beam in the construction process cannot be ensured in the prior art is solved.
本发明涉及建筑工程技术领域,具体涉及一种悬挑梁施工监控系统及监控方法,其中方法包括:仿真分析:利用有限元对悬挑梁进行建模,并进行仿真分析,得到施工仿真分析结果;线形控制:根据施工仿真分析结果,确定各个施工阶段的悬挑梁线形控制点,在理想施工状态下确定各个控制点的线形及位移,得到线形理想值与位移理想值;施工监控:在实际施工状态下检测各个控制点的线形及位移,得到线形实际值与位移实际值,判断线形实际值与线形理想值以及位移实际值与位移理想值的偏差是否大于其预设阈值,若是,反馈施工现场操作人员进行调整。本发明解决了现有技术不能确保施工过程中的悬挑梁质量的技术问题。
Cantilever beam construction monitoring system and monitoring method
The invention relates to the technical field of constructional engineering, in particular to a cantilever beam construction monitoring system and method, and the method comprises the steps: simulation analysis: carrying out the modeling of a cantilever beam through a finite element, and carrying out the simulation analysis, and obtaining a construction simulation analysis result; linear control: according to a construction simulation analysis result, determining a linear control point of the cantilever beam in each construction stage, and determining a linear shape and displacement of each control point in an ideal construction state to obtain a linear ideal value and a displacement ideal value; and construction monitoring: detecting the line shape and displacement of each control point in an actual construction state to obtain a line shape actual value and a displacement actual value, judging whether the deviation between the line shape actual value and the line shape ideal value and the deviation between the displacement actual value and the displacement ideal value are greater than a preset threshold value or not, and if so, feeding back to a construction site operator for adjustment. The technical problem that the quality of the cantilever beam in the construction process cannot be ensured in the prior art is solved.
本发明涉及建筑工程技术领域,具体涉及一种悬挑梁施工监控系统及监控方法,其中方法包括:仿真分析:利用有限元对悬挑梁进行建模,并进行仿真分析,得到施工仿真分析结果;线形控制:根据施工仿真分析结果,确定各个施工阶段的悬挑梁线形控制点,在理想施工状态下确定各个控制点的线形及位移,得到线形理想值与位移理想值;施工监控:在实际施工状态下检测各个控制点的线形及位移,得到线形实际值与位移实际值,判断线形实际值与线形理想值以及位移实际值与位移理想值的偏差是否大于其预设阈值,若是,反馈施工现场操作人员进行调整。本发明解决了现有技术不能确保施工过程中的悬挑梁质量的技术问题。
Cantilever beam construction monitoring system and monitoring method
一种悬挑梁施工监控系统及监控方法
WANG CHAO (author) / FAN ZHIJUN (author) / LIU JIE (author) / AI QING (author) / YANG GUOCHUAN (author) / YANG GUANGLIANG (author) / ZHENG ZHONGCHAO (author) / YUE PAN (author) / YU JIANG (author) / ZHANG QI (author)
2023-12-12
Patent
Electronic Resource
Chinese
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