Optimal Design and Experimental Research on Intelligent Traction Plate for Stringing Construction

In order to meet the demand of tension paying off based on continuous process calculation and intelligent sensing, the application of intelligent paying off construction equipment can greatly improve the automation of tension paying off. Due to the limitation of traditional traction plate structure, it is not convenient to add sensing equipment and the problem of large quality. For the main part of the traction plate, the main body of the traction plate, the material analysis and research are carried out, and the optimization constraint conditions are proposed. The simulation model of the traction plate body is established by using software. The main body of the traction plate is designed by adjusting the main material and structural dimension parameters of the traction plate, and the trial production test of the traction plate is carried out. Through the finite element analysis and test method, the paying off pulley that meets the requirements of engineering strength and stiffness and has a light weight is obtained. Compared with the traditional empirical design method, research and development efficiency has been greatly improved. The research results can provide certain feasible conditions for the research of intelligent construction equipment.