作　　者： ; ;

机构地区： 深圳大学

出　　处： 《机床与液压》 2011年第3期114-116,120,共4页

摘　　要： 提出一种能实现快速、高精度打磨的方法。该方法使用开源代码将CAD/CAM系统中的实体模型进行格式转换后导入到通用计算机系统中,以实现对模型的重建和可视化;在人机交互界面中,提取所需要的三维坐标点以及相关的物理参数信息后,操纵外围打磨平台按照提取的坐标点对铸件进行打磨。利用VC++和OpenCASCADE实现了铸件打磨的三维动态仿真。仿真结果表明:该方法准确性高,具有较好的实时性,实现方法简单易行,能够充分发挥CAD/CAM模型的数字参数化特点。为低成本自动化打磨生产线的实现提供了一种解决思路。 A method for fast and high-precision grinding work was presented. In this method, open source code was used to import solid models from CAD/CAM system into a personal computer system to achieve the model＇s reconstruction and visualization, then the required three-dimensional coordinates of points and the associated physical parameters were extracted in the human-machine inter- face to manipulate the external grinding platform. Three-dimensional dynamic simulations of casting grinding were realized by VC ＋ ＋ and OpenCASCADE. The simulated results show that the method has high accuracy, good real-time, easy implementation and can effectively take advantage of the digital characteristics of CAD/CAM model. It provides a solution for low-cost automated grinding production line.

关 键 词： 动态仿真 打磨

领　　域： [机械工程]