摘要
对于复杂产品的磨削,普遍采用人工加工的方法,其效率低、工作环境恶劣,严重危害工人的身体健康.提出一种CAD/CAM集成的机器人磨削方法,并在研发的装备上实现了自动化磨削.为提高磨削精度,利用机器人作为测量工具,建立CAM空间与作业空间的映射一致性,减少CAM空间产生的轨迹向作业空间的映射偏差.采用单轴旋转法求解安川机器人的几何参数,建立其逆运动学方程,从而将机器人的笛卡尔坐标轨迹转换成与关节角对应的脉冲数,生成轨迹程序.实验结果表明:建立映射一致性后,只需对轨迹点做微小调整,就可以实现压铸件的磨削,磨削尺寸精度达到0.25mm.
At present,the artificial grinding method,which is inefficient and whose working condition hurt the workers’health,is commonly used in grinding complex industrial products.To solve these problems,a CAD/CAM integrated robot grinding method is proposed and applied in a developed equipment to achieve automatic grinding.Further,to improve the grinding accuracy,robot is utilized as a measuring tool to establish the mapping consistency between CAM space and work space.Therefore,the mapping error of the trajectories,which are generated by CAM space mapped to work space,is reduced.Using the single-axis rotation method to solve the geometrical parameters of the robot,the robot inverse kinematics equation is established.With the inverse kinematics equation,descartes coordinate trajectories of the robot can be converted into the number of pulses corresponding to the joint angle,and the robot trajectories program can be generated.Experimental results show that,due to the mapping consistency and making a minor adjustment on the trajectories the grinding accuracy is up to 0.25 mm.
作者
席文明
谢剑阳
梁志鹏
冯亮友
XI Wenming;XIE Jianyang;LIANG Zhipeng;FENG Liangyou(School of Aerospace Engineering,Xiamen University,Xiamen 361102,Fujian,China)
出处
《中国工程机械学报》
北大核心
2019年第4期283-288,共6页
Chinese Journal of Construction Machinery
