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Received:December 15, 2016
Received:December 15, 2016
中文摘要: 为了解决人手动示教提取曲面轨迹困难且操作繁琐的问题,采用Visual Studio对SolidWorks软件进行二次开发的方式进行机器人的曲面离线编程,并且以DLL插件的形式自动加载到SolidWorks中.系统通过将曲面进行UV参数化进而实现离线轨迹的快速提取和机器人控制代码的生成,再以DH参数表示机器人模型,最后通过遍历关节角的方式实现机器人的运动仿真.实践证明,该系统离线编程生成的控制代码能够直接下载到机器人控制器运行并达到了实际预期的效果.上述系统对工业场合的实际开发应用和国内中小型企业快速加工多种零件具有重要的意义.
Abstract:To tackle the problem that the extraction of the curved trajectory is difficult and the operation is complex in manual teaching, this paper uses the way that Visual Studio makes the secondary exploitation for the SolidWorks software to make the off-line programming of the curved surface of robot, and loads it automatically into SolidWorks in the form of DLL plug-in. By using UV parametric curved surface, the system realizes the rapid extraction of off-line trajectory and the generation of robot control code and finally implements the motion simulation of the robot with the model of the robot showed by DH parameter by means of traversing the joint angle. Practice has proven that the control code generated by the off-line programming can be directly downloaded to the robot controller which reaches the expected effect. Such a system is of great significance in the actual development and application of the industrial situations and domestic small and medium-sized enterprises for the rapid machining various parts.
keywords: off-line programming of the curved surface UV parameterization DH parameter traverse the joint angle
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基金项目:国家自然科学基金(51405091);广东省重大专项(2014B090919001);广东省应用专项(2015B090922010);广州市珠江新星专项(201610010054)
引用文本:
蔡奕松,孙克争,苏泽荣,周雪峰.SolidWorks二次开发曲面离线编程及运动仿真.计算机系统应用,2017,26(9):75-81
CAI Yi-Song,SUN Ke-Zheng,SU Ze-Rong,ZHOU Xue-Feng.Off-Line Programming and Motion Simulation of the Curved Surface Based on Secondary Development of SolidWorks.COMPUTER SYSTEMS APPLICATIONS,2017,26(9):75-81
蔡奕松,孙克争,苏泽荣,周雪峰.SolidWorks二次开发曲面离线编程及运动仿真.计算机系统应用,2017,26(9):75-81
CAI Yi-Song,SUN Ke-Zheng,SU Ze-Rong,ZHOU Xue-Feng.Off-Line Programming and Motion Simulation of the Curved Surface Based on Secondary Development of SolidWorks.COMPUTER SYSTEMS APPLICATIONS,2017,26(9):75-81