A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Simulation interactive construction method and system for large floating crane girder erection
The invention discloses a large floating crane girder erection simulation interactive construction method. Comprising the following steps: establishing a three-dimensional model in a simulation interaction system, inputting an initial girder erection scheme, carrying out analogue simulation, obtaining a final girder erection scheme, guiding actual girder erection construction through the final girder erection scheme, and carrying out synchronous updating in the simulation interaction system so as to guide girder erection construction in real time. Through the technologies of man-machine interaction, a driving engine, digital twinning and the like, on the premise that a real construction scene is completely simulated, advanced drilling, war game deduction and advanced planning are carried out on a frame beam, and a powerful tool is provided for formulating a reasonable process arrangement, formulating a reasonable construction period and eliminating potential safety hazards; moreover, the simulation interaction system can guide the actual beam erecting operation in real time in the actual beam erecting process, and through reasonable optimization of specific time-consuming procedures, the beam lifting and falling efficiency is greatly improved, the beam falling precision is ensured, the compatibility of precise positioning and efficient beam erecting is achieved, and the purposes of reducing cost and increasing efficiency are achieved.
本发明公开了一种大型浮吊架梁仿真交互施工方法,包括在仿真交互系统中建立三维模型、输入初始架梁方案、进行仿真模拟并获得最终架梁方案、通过最终架梁方案指导实际架梁施工并在仿真交互系统中进行同步更新以实时指导架梁施工。本发明通过人机交互、驱动引擎和数字孪生等技术,在完全模拟真实施工场景的前提下,对架梁进行提前演练,兵棋推演,提前筹划,为制定合理工序安排,制定合理工期,消除安全隐患提供了有力工具;而且,本发明的仿真交互系统能够在实际架梁过程中对实际架梁操作进行实时指导,通过对特定费时工序的合理优化,大大提高了提梁和落梁的效率并保证了落梁精度,实现了精准定位和高效架梁的兼容,达到了降本增效的目的。
Simulation interactive construction method and system for large floating crane girder erection
The invention discloses a large floating crane girder erection simulation interactive construction method. Comprising the following steps: establishing a three-dimensional model in a simulation interaction system, inputting an initial girder erection scheme, carrying out analogue simulation, obtaining a final girder erection scheme, guiding actual girder erection construction through the final girder erection scheme, and carrying out synchronous updating in the simulation interaction system so as to guide girder erection construction in real time. Through the technologies of man-machine interaction, a driving engine, digital twinning and the like, on the premise that a real construction scene is completely simulated, advanced drilling, war game deduction and advanced planning are carried out on a frame beam, and a powerful tool is provided for formulating a reasonable process arrangement, formulating a reasonable construction period and eliminating potential safety hazards; moreover, the simulation interaction system can guide the actual beam erecting operation in real time in the actual beam erecting process, and through reasonable optimization of specific time-consuming procedures, the beam lifting and falling efficiency is greatly improved, the beam falling precision is ensured, the compatibility of precise positioning and efficient beam erecting is achieved, and the purposes of reducing cost and increasing efficiency are achieved.
本发明公开了一种大型浮吊架梁仿真交互施工方法,包括在仿真交互系统中建立三维模型、输入初始架梁方案、进行仿真模拟并获得最终架梁方案、通过最终架梁方案指导实际架梁施工并在仿真交互系统中进行同步更新以实时指导架梁施工。本发明通过人机交互、驱动引擎和数字孪生等技术,在完全模拟真实施工场景的前提下,对架梁进行提前演练,兵棋推演,提前筹划,为制定合理工序安排,制定合理工期,消除安全隐患提供了有力工具;而且,本发明的仿真交互系统能够在实际架梁过程中对实际架梁操作进行实时指导,通过对特定费时工序的合理优化,大大提高了提梁和落梁的效率并保证了落梁精度,实现了精准定位和高效架梁的兼容,达到了降本增效的目的。
Simulation interactive construction method and system for large floating crane girder erection
一种大型浮吊架梁仿真交互施工方法及系统
REN YOUBAO (author) / YU CONG (author) / LIANG BIN (author) / ZHANG SIBING (author)
2023-07-18
Patent
Electronic Resource
Chinese
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