合理的半径补偿算法能有效提高逆向工程的最终精度。
Reasonable radius compensation can improve the precision of reverse engineering greatly.
总结出这两种算法的优点及不足之处,并在此基础上设计了一种新的刀具半径补偿算法。
This paper sums up the advantages and deficiencies of two algorithms, and design a new tool radius compensation algorithm based on this.
本文在借鉴国内外数控系统设计的基础上,对现有的两种刀具半径补偿算法进行了深入的研究。
We present two kinds of tool radius compensation algorithm in-depth study, base on the basis of the design at home and abroad CNC system.
刀具半径补偿算法作为数控系统的一个重要组成部分,已经成为数控系统研究领域的热点之一。
As an important part of manipulator, tool radius compensation is already becoming one of the focuses of research field on CNC.
并在此基础上提出一种新型刀具半径补偿算法,该算法融合了现有两种刀具半径补偿算法的优点。
This paper presents a new algorithm for the tool radius base on the analysis of their respective advantages and disadvantages.
基于该算法的空间刀具半径补偿G指令将可避免由于刀具磨损和刀具更换导致的三轴侧铣数控代码重生成。
The space tool radius offset G instructions with the developed approach will avoid NC codes regeneration due to tool wear or tool change during the three-axis NC flank milling process.
提出直接根据单值曲面3维密集测量数据点云进行刀具半径长度补偿,生成刀具加工轨迹并有效清除刀具干涉的新算法。
This paper presents a new algorithm to calculate the CNC tool path directly from the 3D data cloud, eliminating all path interference at the same time.
给出了它们的判别定理和求刀具半径补偿的算法。
An algorithm of princjple for finding path of cutter centre is also described here.
给出了它们的判别定理和求刀具半径补偿的算法。
An algorithm of princjple for finding path of cutter centre is also described here.
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