Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Intelligent monitoring and balancing method for unbalance loading of cantilever beam
The invention discloses an intelligent monitoring and balancing method for unbalance loading of a cantilever beam, and belongs to the technical field of constructional engineering. Comprising the following steps that 1, a series of measuring sensors are arranged at the two cantilever ends of the cantilever beam respectively, and loads, deflection and inclination data of the two cantilever ends are obtained in real time and transmitted to an on-site monitoring analysis platform; 2, the stress state of the beam body is calculated in real time, and whether the obvious unbalance loading condition exists or not is judged; 3, generating a plurality of balance schemes according to the unbalance loading degree and the construction stage factors; the factors of construction convenience, economy and safety are considered, and an optimal balance scheme is solved; step 4, decomposing the optimal balance scheme into specific construction operation processes and issuing the specific construction operation processes to a construction site for execution; 5, the load, deflection and inclination data in the balance adjustment process are monitored in real time, and it is ensured that the stress state of a beam body is effectively improved; and step 6, continuously monitoring the state of the beam body, and if new significant unbalance loading occurs, automatically repeating the steps 3-5 to carry out a new round of active balance.
本申请公开了悬浇梁偏载智能监测及平衡方法,属于建筑工程技术领域。包括以下步骤:步骤1,在悬浇梁的两个悬臂端分别布置一系列测量传感器,实时获取两悬臂端的载荷、挠度和倾斜数据并传输至现场监测分析平台;步骤2,实时计算梁身的受力状态,判断是否存在显著偏载情况;步骤3,根据偏载程度与施工阶段因素,生成多个平衡方案;考虑施工便利性、经济性和安全性因素,求解最优平衡方案;步骤4,将最优平衡方案分解为具体的施工作业流程并下发至施工现场执行;步骤5,实时监测平衡调整过程中的载荷、挠度和倾斜数据,确保梁身受力状态得到有效改善;步骤6,持续监测梁身状态,如出现新的显著偏载,则自动重复步骤3‑5,进行新一轮主动平衡。
Intelligent monitoring and balancing method for unbalance loading of cantilever beam
The invention discloses an intelligent monitoring and balancing method for unbalance loading of a cantilever beam, and belongs to the technical field of constructional engineering. Comprising the following steps that 1, a series of measuring sensors are arranged at the two cantilever ends of the cantilever beam respectively, and loads, deflection and inclination data of the two cantilever ends are obtained in real time and transmitted to an on-site monitoring analysis platform; 2, the stress state of the beam body is calculated in real time, and whether the obvious unbalance loading condition exists or not is judged; 3, generating a plurality of balance schemes according to the unbalance loading degree and the construction stage factors; the factors of construction convenience, economy and safety are considered, and an optimal balance scheme is solved; step 4, decomposing the optimal balance scheme into specific construction operation processes and issuing the specific construction operation processes to a construction site for execution; 5, the load, deflection and inclination data in the balance adjustment process are monitored in real time, and it is ensured that the stress state of a beam body is effectively improved; and step 6, continuously monitoring the state of the beam body, and if new significant unbalance loading occurs, automatically repeating the steps 3-5 to carry out a new round of active balance.
本申请公开了悬浇梁偏载智能监测及平衡方法,属于建筑工程技术领域。包括以下步骤:步骤1,在悬浇梁的两个悬臂端分别布置一系列测量传感器,实时获取两悬臂端的载荷、挠度和倾斜数据并传输至现场监测分析平台;步骤2,实时计算梁身的受力状态,判断是否存在显著偏载情况;步骤3,根据偏载程度与施工阶段因素,生成多个平衡方案;考虑施工便利性、经济性和安全性因素,求解最优平衡方案;步骤4,将最优平衡方案分解为具体的施工作业流程并下发至施工现场执行;步骤5,实时监测平衡调整过程中的载荷、挠度和倾斜数据,确保梁身受力状态得到有效改善;步骤6,持续监测梁身状态,如出现新的显著偏载,则自动重复步骤3‑5,进行新一轮主动平衡。
Intelligent monitoring and balancing method for unbalance loading of cantilever beam
悬浇梁偏载智能监测及平衡方法
GENG TAO (Autor:in) / SHEN FAYU (Autor:in) / SUN YAQI (Autor:in) / XIE WENQIAN (Autor:in) / ZHANG XING (Autor:in) / NIE JIANXING (Autor:in) / LIU HU (Autor:in) / MA YAN (Autor:in) / DING FENG (Autor:in)
26.07.2024
Patent
Elektronische Ressource
Chinesisch
| Europäisches Patentamt | 2024
Balancing device and method for asymmetric stress cantilever beam
| Europäisches Patentamt | 2022
| Europäisches Patentamt | 2024
Cantilever beam construction monitoring system and monitoring method
| Europäisches Patentamt | 2023
Cantilever beam fixing structure, cantilever system and mounting method of cantilever beam
| Europäisches Patentamt | 2020