仿真和实际加工验证了算法的有效性和实用性,证明算法具有轨迹过渡平稳、非线性误差小的特点。
This algorithm improves machining accuracy and lowers data storage. Finally, the effectiveness and practicality of this method were verified by simulation and actual machining.
本仿真软件已调试成功,在无运动控制器的脱机情况下,实现了数控加工刀具轨迹的三维图形仿真和三视图仿真。
The simulation software has been debugged successfully, and has implemented 3d figure simulation and three views simulation of NC machining tool's locus without any motion controller.
在分析了目前的数控加工自动编程系统后,提出了一种以仿真实现五轴联动机床轨迹控制的新方法。
Based on the analysis of current NC automatic programming systems, a new method for the path control of five-axis linkage machine tools was proposed by means of simulation.
通过仿真和实时加工轨迹的显示,丰富了系统的人机交互功能,便于操作人员掌控当前的加工状态。
So it achieves a variety of functions, such as simulation, processing, file and manual functions, and easy to operate.
此外,测试系统软件通过对机床加工轨迹的动态模拟、坐标反馈以及机床运动速度、加速度数据分析等功能加强了仿真测试系统的测试功能。
Besides, the nc testing system software dynamic simulate machining path, feedback coordinates, analyze speed and acceleration data. These functions strengthen the test function of nc testing system.
此外,测试系统软件通过对机床加工轨迹的动态模拟、坐标反馈以及机床运动速度、加速度数据分析等功能加强了仿真测试系统的测试功能。
Besides, the nc testing system software dynamic simulate machining path, feedback coordinates, analyze speed and acceleration data. These functions strengthen the test function of nc testing system.
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