The invention discloses a high-rise steel structure corridor lifting synchronous control system and method. The control system comprises a data acquisition module with a sensor network, a lifting driver execution module with a receiver, and a data processing and decision module with a central control unit. The sensor network comprises a coordinate sensor, a tilt angle sensor, a temperature and humidity sensor and a wind speed sensor, continuously acquires coordinate information, tilt angle information and environment information and sends the information to the central control unit; and the central control unit carries out self-optimization and real-time regulation and control on the driver according to continuously collected environment and structure data based on a machine learning or deep learning algorithm. Based on the dynamic regulation and control of an intelligent algorithm, in combination with the application of the Internet of Things technology and the modular design of each component in the system, the defects of the traditional synchronous control system are obviously improved, and the stability and the external factor influence resistance of the system are obviously improved.
本发明公开了一种高层钢结构连廊提升同步控制系统及控制方法。所述控制系统包括含传感器网络的数据采集模块、含配备接收器的提升驱动器执行模块和含中央控制单元的数据处理与决策模块;传感器网络包括坐标传感器、倾角传感器、温湿度传感器、风速传感器,持续获取坐标信息、倾角信息和环境信息发送至中央控制单元;中央控制单元基于机器学习或深度学习算法,根据连续收集的环境与结构数据进行自我优化和实时调控驱动器。本发明基于智能算法的动态调控,结合物联网技术应用和对系统中的各组件采用模块化设计,明显改善了传统同步控制系统的缺陷,显著提升系统的稳定性和抗外界因素影响的能力。
High-rise steel structure corridor lifting synchronous control system and control method
高层钢结构连廊提升同步控制系统及控制方法
2024-09-13
Patent
Electronic Resource
Chinese
High-altitude large-span steel structure corridor and lifting construction method thereof
European Patent Office | 2022
|European Patent Office | 2022
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