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A platform for research: civil engineering, architecture and urbanism
Measuring and processing system for adjusting overall lifting synchronism of steel structure
The invention particularly relates to a measuring and processing system for adjusting the overall lifting synchronism of a steel structure. The method is characterized by comprising the steps of 1, determining lifting points, 2, determining the number and positions of measuring robots (3) according to the structural form and the arrangement of the lifting points; 3, installing a prism (5) for lifting the position of a lower lifting point for data acquisition; 4, automatically measuring the prism (5) through the measuring robots (3), and automatically transmitting data to a control room data processing system; 5, directly outputting a synchronous data control index after the data is automatically processed; and 6, carrying out synchronous data feedback. According to the method, the time ofdata measurement, transmission, analysis and result index output in the lifting process is shortened, the overall time span of lifting operation is reduced, and the lifting construction risk is reduced; and the accuracy of data is improved, and precision errors of manual measurement and operation are avoided.
本发明具体是用于钢结构整体提升同步性调整的测量及处理系统;其特征是:包括步骤1、确定提升吊点,步骤2、根据结构形式及提升吊点布置,确定测量机器人(3)的数量及位置;步骤3、安装提升下吊点位置的棱镜(5),用于数据采集;步骤4、通过测量机器人(3)对棱镜(5)进行自动测量,并数据自动传输至控制室数据处理系统;步骤5、数据自动处理后直接输出同步数据控制指标;步骤6、同步数据反馈。本发明缩短提升过程中的数据测量、传输、分析、结果指标输出的时间,减少提升作业的整体时间跨度,降低了提升施工风险;提高数据的准确性,避免了人工测量、操作的精度误差。
Measuring and processing system for adjusting overall lifting synchronism of steel structure
The invention particularly relates to a measuring and processing system for adjusting the overall lifting synchronism of a steel structure. The method is characterized by comprising the steps of 1, determining lifting points, 2, determining the number and positions of measuring robots (3) according to the structural form and the arrangement of the lifting points; 3, installing a prism (5) for lifting the position of a lower lifting point for data acquisition; 4, automatically measuring the prism (5) through the measuring robots (3), and automatically transmitting data to a control room data processing system; 5, directly outputting a synchronous data control index after the data is automatically processed; and 6, carrying out synchronous data feedback. According to the method, the time ofdata measurement, transmission, analysis and result index output in the lifting process is shortened, the overall time span of lifting operation is reduced, and the lifting construction risk is reduced; and the accuracy of data is improved, and precision errors of manual measurement and operation are avoided.
本发明具体是用于钢结构整体提升同步性调整的测量及处理系统;其特征是:包括步骤1、确定提升吊点,步骤2、根据结构形式及提升吊点布置,确定测量机器人(3)的数量及位置;步骤3、安装提升下吊点位置的棱镜(5),用于数据采集;步骤4、通过测量机器人(3)对棱镜(5)进行自动测量,并数据自动传输至控制室数据处理系统;步骤5、数据自动处理后直接输出同步数据控制指标;步骤6、同步数据反馈。本发明缩短提升过程中的数据测量、传输、分析、结果指标输出的时间,减少提升作业的整体时间跨度,降低了提升施工风险;提高数据的准确性,避免了人工测量、操作的精度误差。
Measuring and processing system for adjusting overall lifting synchronism of steel structure
用于钢结构整体提升同步性调整的测量及处理系统
YANG SONGJIE (author) / YOU MAOYUN (author) / LI MIN (author) / ZHU BAOLIANG (author) / HUANG WENHUA (author) / LIU MINGLU (author) / DENG ZAICHUN (author)
2020-09-18
Patent
Electronic Resource
Chinese
IPC:
E04G
SCAFFOLDING
,
Baugerüste
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