摘要
针对产品在实际设计生产过程中存在大量繁琐计算校核、三维模型反复重建等问题,以工业炉炉门支撑梁装配体为研究对象,利用Matlab与Visual Basic6.0(VB)混合编程,Access建立数据库,借助Solidworks2017的二次开发API接口,建立了工业炉炉门支撑梁参数化设计系统。该系统可根据实际设计要求,对支撑梁的零部件刚度及强度进行校核,求解出支撑梁的主要驱动尺寸最优解,完成对零部件三维模型的自动构建及自动装配。结果表明:工业炉炉门支撑梁参数化设计系统可解决复杂重复的计算量,提高设计效率,缩短设计周期,快速满足用户需求,形成一种设计过程“0”成本、设计到制造过程“0”时差的数字化CAD/CAM模式。
In the actual design and production process of industrial products,a lot of complicated parameters should be calculated and many three-dimensional models should be reconstructed.Taking the supporting beam assembly of industrial furnace door as the research object,the parametric design system of industrial furnace door support beam is established by using Matlab and Visual Basic 6.0(VB)mixed programming,access database,and secondary development API interface of SolidWorks2017.The deflection and strength of the support beam can be checked by the system according to the actual design requirements,which solves the optimal solution of the main drive dimensions of the support beam,and complete the automatic construction and automatic assembly of the 3 D model of the components.The results show that the parameterized design system of the industrial furnace door support beam can solve the complex and repeated calculation,improve the design efficiency,shorten the design cycle,and meet the needs of users quickly.It forms a digital CAD/CAM pattern of design process of"0"cost and design to manufacturing process of"0"time difference.
作者
张太绪
张晋西
肖雄
罗双宝
ZHANG Taixu;ZHANG Jinxi;XIAO Xiong;LUO Shuangbao(College of Mechanical Engineering,Chongqing University of Technology,Chongqing 400054,Chin)
出处
《重庆理工大学学报(自然科学)》
CAS
北大核心
2020年第10期104-110,185,共8页
Journal of Chongqing University of Technology:Natural Science
基金
重庆市研究生教育优质课程项目(91)
重庆理工大学研究生创新项目(ycx20192025)
重庆市基础与前沿研究项目(csts2016jcyjA0444)。
