A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Intelligent supporting system for bridge construction
The invention relates to the field of building construction, in particular to an intelligent supporting system for bridge construction, which is provided with a supporting device, a straightening device, a detection module and a central control processor, the central control processor analyzes the stress condition of the prefabricated bridge plate based on the stress variation of the hydraulic supporting rod, the stress variation of the first hydraulic fixing arm and the stress variation of the second hydraulic fixing arm detected by the detection module, and under the first stress condition, the hydraulic pressure of the hydraulic supporting rod is adjusted based on the stress variation of the hydraulic supporting rod; under the second stress condition, the extension length of the swing arm is judged based on a depth image shot by the image acquisition unit, the swing direction of the swing arm is judged based on the stress of the first hydraulic fixed arm and the second hydraulic fixed arm, and the support effect of the support device is improved. The swinging force of the swinging arm is adjusted based on stress changes of the first hydraulic fixing arm and the second hydraulic fixing arm, and the straightening effect of the straightening device is improved.
本发明涉及建筑施工领域,尤其涉及一种用于桥梁施工的智能支撑系统,本发明通过设置支撑装置、摆正装置、检测模组以及中控处理器,中控处理器基于检测模组检测的液压支撑杆受力变化量、第一液压固定臂受力变化量以及第二液压固定臂受力变化量解析预制桥梁板的受力状况,在第一受力状况下,基于液压支撑杆受力变化量对液压支撑杆的液压压力进行调整,以提高支撑装置的支撑效果,在第二受力状况下,基于图像采集单元拍摄的深度图像判定摆动臂的伸长长度,基于第一液压固定臂以及第二液压固定臂的受力大小判定摆动臂的摆动方向,以及,基于第一液压固定臂以及第二液压固定臂受力变化调整摆动臂的摆动力度,以及提高摆正装置的摆正效果。
Intelligent supporting system for bridge construction
The invention relates to the field of building construction, in particular to an intelligent supporting system for bridge construction, which is provided with a supporting device, a straightening device, a detection module and a central control processor, the central control processor analyzes the stress condition of the prefabricated bridge plate based on the stress variation of the hydraulic supporting rod, the stress variation of the first hydraulic fixing arm and the stress variation of the second hydraulic fixing arm detected by the detection module, and under the first stress condition, the hydraulic pressure of the hydraulic supporting rod is adjusted based on the stress variation of the hydraulic supporting rod; under the second stress condition, the extension length of the swing arm is judged based on a depth image shot by the image acquisition unit, the swing direction of the swing arm is judged based on the stress of the first hydraulic fixed arm and the second hydraulic fixed arm, and the support effect of the support device is improved. The swinging force of the swinging arm is adjusted based on stress changes of the first hydraulic fixing arm and the second hydraulic fixing arm, and the straightening effect of the straightening device is improved.
本发明涉及建筑施工领域,尤其涉及一种用于桥梁施工的智能支撑系统,本发明通过设置支撑装置、摆正装置、检测模组以及中控处理器,中控处理器基于检测模组检测的液压支撑杆受力变化量、第一液压固定臂受力变化量以及第二液压固定臂受力变化量解析预制桥梁板的受力状况,在第一受力状况下,基于液压支撑杆受力变化量对液压支撑杆的液压压力进行调整,以提高支撑装置的支撑效果,在第二受力状况下,基于图像采集单元拍摄的深度图像判定摆动臂的伸长长度,基于第一液压固定臂以及第二液压固定臂的受力大小判定摆动臂的摆动方向,以及,基于第一液压固定臂以及第二液压固定臂受力变化调整摆动臂的摆动力度,以及提高摆正装置的摆正效果。
Intelligent supporting system for bridge construction
一种用于桥梁施工的智能支撑系统
ZHANG LIWEN (author) / LIN DONGWEI (author) / ZHANG XIAOMING (author) / ZHANG LUOCHUAN (author) / ZHANG WENJIE (author) / ZHU HAIJIANG (author) / DENG YUANXIN (author) / ZHANG ZIHUI (author)
2023-06-09
Patent
Electronic Resource
Chinese