The interference-free tool path planning is given.
给出了平头铣刀的无干涉路径规划。
Oriented to NC process, the tool path planning based on STL model is discussed in the thesis.
面向数控加工,本论文讨论了STL模型的刀具路径规划问题。
A study case shows that the algorithm can meet the needs of discretization precision and improve the calculative efficiency of the tool path planning.
实例分析表明,该算法能在保证曲面离散精度的前提下提高无干涉刀具路径规划的效率。
The clamping means, cutter selection, tool path planning and cutting parameters determination using three-axis machine for aluminum windshield pieces were studied.
研究了风栅铝片三轴铣削加工中装夹方法、刀具选择、走刀规划以及切削参数确定方法;
This paper presents the methods to control geometrical errors based on the establishing of the link between geometrical errors and the parameters of tool path planning.
作者基于分析和建立加工曲面的型面几何偏差与加工刀位规划参数的关系,提出几何误差的控制方法。
On the basis of STL slicing, slicing data is interpolated by three degrees subsection NURBS curve. After CL data is computed through CC data, the NC tool path planning is realized.
在STL切片的基础上,对切片数据进行三次分段NURBS曲线插值,通过刀触点计算出刀位点,实现了数控加工路径的规划。
Based on the theory of conformal map, map model is built for planar parametric circle, rectangle and polygon regions. The boundary of parametric region rests with the need of tool path planning.
根据协调映射的理论,建立了平面上圆形域、矩形域、多边形域等参数域的映射模型,可根据轨迹规划的需要来选择映射的边界。
Velocity planning for curved path interpolation in high CNC machining should be bounded by both dynamic properties of the machine tool and the geometrical properties of the curved path.
参数曲线高速数控插补时,进给速度规划需要综合考虑机床动力学特性和曲线几何特征的限制。
Unlike the traditional constant scallop height tool-path planning method, it produces the optimal machining efficiency under the condition of ensuring the tool-path smoothness.
与以往的等残留高度刀具轨迹规划方法不同的是此算法在保证刀具轨迹光顺的前提下使加工效率达到最佳。
A constant scallop-height smooth tool-path planning algorithm based on constant scallop height tool-path was presented.
提出了一种等残留高度光顺刀具轨迹规划算法。
Discussed the planning methods of the tool path, presented the calculating steps and the main cutting parameters in detail.
探讨了适合于义齿的刀具轨迹生成方法,并给出了计算刀具轨迹的具体步骤和主要切削用量。
Furthermore, equation of offset surface from the reconstruction would make easy planning for cutting tool path in NC machining of the radome.
求算的等距面方程,为数控加工中刀具轨迹的规划奠定了基础。
Furthermore, equation of offset surface from the reconstruction would make easy planning for cutting tool path in NC machining of the radome.
求算的等距面方程,为数控加工中刀具轨迹的规划奠定了基础。
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