Spiral Tool Path Planning for Five-Axis Machining of Multi-patch Island Based on Point Model

2010 International Conference on Manufacturing Automation Pub Date : 2010-12-13 DOI:10.1109/ICMA.2010.46

Xu Zhou, Dinghua Zhang, Baohai Wu, Jianhua Yang, M. Luo

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引用次数: 2

Abstract

The multi-patches structure are widely used in various types of complex structure products such as the snubber of blade in the engine manufacturing industry. These parts are often machined with five-axis machine tool. When using the normal tool path planning method, it will be difficult to offset the surfaces and there will be redundant cutter retraction. In order to solve the above problems, this paper presents a high efficiency planning method for five-axis spiral tool path generation based on the point model of the multi-patch island. Firstly, discrete points are extracted from the initial model to construct the point model of the snubber and they are stored in different regions in order to decrease the range of searching cutter contact points. Secondly, on the basis of creating the control line for searching direction, the cutter center for every cutter location is calculated according to the generated clean-up tool path. Finally, the tool axis of each cutter location is obtained based on the tangent vector of the spiral tool center path. Example and simulation are carried out finally to show the feasible and effectiveness of the presented method.

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基于点模型的多片岛五轴加工螺旋刀轨规划

多贴片结构广泛应用于发动机制造业中各种类型的复杂结构产品，如叶片缓冲器。这些零件通常用五轴机床加工。当采用常规的刀具轨迹规划方法时，将难以对曲面进行偏移，并且会出现冗余的刀具缩回。为了解决上述问题，本文提出了一种基于多片岛点模型的五轴螺旋刀具轨迹生成的高效规划方法。首先，从初始模型中提取离散点，构建缓冲器的点模型，并将离散点存储在不同区域，以减小刀具接触点的搜索范围;其次，在创建搜索方向控制线的基础上，根据生成的清理刀具轨迹计算每个刀位的刀心;最后，根据螺旋刀具中心轨迹的切向量得到各刀位的刀轴。最后通过算例和仿真验证了所提方法的可行性和有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2010 International Conference on Manufacturing Automation

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