Spiral Tool Path Generation for CNC Machining Using Cloud of Points

Volume 9: 40th Computers and Information in Engineering Conference (CIE) Pub Date : 2020-08-17 DOI:10.1115/detc2020-22032

M. Dhanda, A. Kukreja, S. S. Pande

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Abstract

This paper presents a new method to generate an adaptive spiral tool path for 3-axis CNC machining of the complex freeform surface directly from its representation in the form of the point cloud. The algorithm first constructs the uniform 2D circular mesh-grid to compute the Z (CL) points by applying the tool inverse offset method (IOM). Adaptive grid refinement is carried out iteratively until the surface form errors converge below the prescribed tolerance limits in both circumferential (forward) and radial (step) directions. Adaptive CL points are further refined to minimize the no. of tool lifts and generate an optimum sequence of machining regions. The optimized CL points are post-processed to generate the final CNC part programs in the ISO format. The part programs generated by our algorithm were extensively tested for various case studies using the commercial CNC simulator. The results were compared with those from the commercial CAM software. Our system was found to generate more efficient tool paths in terms of enhanced productivity, part quality, and reduced memory requirement.

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基于点云的数控加工螺旋刀具轨迹生成

提出了一种利用点云的形式直接生成复杂自由曲面三轴数控加工自适应螺旋刀具轨迹的新方法。该算法首先构造均匀的二维圆形网格，利用工具逆偏移法(IOM)计算Z (CL)点;自适应网格细化迭代进行，直到曲面形状误差在周向(正向)和径向(阶跃)方向收敛到规定的公差极限以下。自适应CL点进一步细化，以尽量减少。刀具升降，并生成最佳的加工区域顺序。对优化后的CL点进行后处理，生成ISO格式的最终数控零件程序。我们的算法生成的零件程序在商业CNC模拟器上进行了广泛的案例研究测试。结果与商业CAM软件的结果进行了比较。我们的系统被发现在提高生产率、零件质量和减少内存需求方面产生更有效的刀具路径。

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Volume 9: 40th Computers and Information in Engineering Conference (CIE)

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