Development of intelligent integrated design system for hydraulic plane steel gate

Abstract

In this paper, the parametric programming language APDL of structural analysis software ANSYS and python object-oriented intelligent interface development tool pyqt5 are used to develop the intelligent integrated design system of plane steel gate. The system is composed of three parts. In the first part, the preliminary design module of plane gate based on design specification is developed by python. In the second part, APDL parametric language is used to build the database of gate components, loads, constraints and other parameters, and the three-dimensional finite element model of the overall gate is established. In the third part, the finite element structural calculation is carried out by using ANSYS software. According to the finite element calculation results, further optimization analysis is carried out to optimize the component parameters and optimize the stress state of the gate. In these parts, pyqt5 interface development tool, APDL parametric programming language and the powerful structural analysis function of ANSYS are integrated. The visual interface is used for integrated design. The data transmission of the three parts is seamlessly connected through the developed interface module, forming an intelligent and integrated plane steel gate design system, which greatly improves the design quality and design efficiency.