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A platform for research: civil engineering, architecture and urbanism
Steel structure high-precision intelligent hoisting construction method
The invention discloses a high-precision intelligent hoisting construction method for a steel structure. The high-precision intelligent hoisting construction method comprises the following steps that S101, a camera, a proximity sensing alarm and a monitoring device are installed; s102, manual identification is carried out through a site construction environment, and a path is analyzed; s103, an alarm device is established for the crane according to the multiple prefabricated parts; s104, analyzing according to the image, and finding out an optimal hoisting path; s105, the equipment calculates data required by specific hoisting, and the tower crane operates the prefabricated part to hoist; s106, drawing parameters of the route of the crane; s107, image processing helps to judge the optimal hoisting path conforming to the set prefabricated part; s108, a field monitoring device monitors and judges the hoisting work; the optimal hoisting method is analyzed through the electronic camera, secondary hoisting can be effectively avoided, the hoisting precision can be effectively improved, the hoisting efficiency and accuracy of the steel structural component are effectively improved, and fabricated building hoisting intellectualization is achieved.
本发明公开了一种钢结构高精度智能化吊装施工方法,包括以下步骤:S101、安装摄像头、接近传感报警器、监控装置;S102、通过现场施工环境进行人工辨别,分析路径;S103、根据多个预制构件、吊机建立报警装置;S104、根据图像进行分析,找出最佳吊装路径;S105、设备算出具体吊装所需数据,塔吊操作预制件吊装;S106、画出吊机路线参数;S107、图像处理帮助判断符合设定预制件的最佳吊装路径;S108、现场的监控装置对吊装工作进行监控判断;本发明利用电子摄像头分析出吊装的最佳方法,可有效避免二次吊装以及吊装精度,有效的提高了钢结构构件的吊装效率和准确性,实现装配式建筑吊装智能化。
Steel structure high-precision intelligent hoisting construction method
The invention discloses a high-precision intelligent hoisting construction method for a steel structure. The high-precision intelligent hoisting construction method comprises the following steps that S101, a camera, a proximity sensing alarm and a monitoring device are installed; s102, manual identification is carried out through a site construction environment, and a path is analyzed; s103, an alarm device is established for the crane according to the multiple prefabricated parts; s104, analyzing according to the image, and finding out an optimal hoisting path; s105, the equipment calculates data required by specific hoisting, and the tower crane operates the prefabricated part to hoist; s106, drawing parameters of the route of the crane; s107, image processing helps to judge the optimal hoisting path conforming to the set prefabricated part; s108, a field monitoring device monitors and judges the hoisting work; the optimal hoisting method is analyzed through the electronic camera, secondary hoisting can be effectively avoided, the hoisting precision can be effectively improved, the hoisting efficiency and accuracy of the steel structural component are effectively improved, and fabricated building hoisting intellectualization is achieved.
本发明公开了一种钢结构高精度智能化吊装施工方法,包括以下步骤:S101、安装摄像头、接近传感报警器、监控装置;S102、通过现场施工环境进行人工辨别,分析路径;S103、根据多个预制构件、吊机建立报警装置;S104、根据图像进行分析,找出最佳吊装路径;S105、设备算出具体吊装所需数据,塔吊操作预制件吊装;S106、画出吊机路线参数;S107、图像处理帮助判断符合设定预制件的最佳吊装路径;S108、现场的监控装置对吊装工作进行监控判断;本发明利用电子摄像头分析出吊装的最佳方法,可有效避免二次吊装以及吊装精度,有效的提高了钢结构构件的吊装效率和准确性,实现装配式建筑吊装智能化。
Steel structure high-precision intelligent hoisting construction method
一种钢结构高精度智能化吊装施工方法
YUAN LONGJUN (author) / MIAO ENXIN (author) / LIU TINGYU (author) / LUO XUANZHONG (author) / GAO XING (author) / PENG SHU (author)
2022-09-30
Patent
Electronic Resource
Chinese
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