提出了一种等残留高度光顺刀具轨迹规划算法。
A constant scallop-height smooth tool-path planning algorithm based on constant scallop height tool-path was presented.
主要关键技术包括参数化特征建模、数控加工切削用量优化、刀具轨迹规划等。
Adopting the main key technologies including feature-based modeling, optimization of cutting parameters, layout of the cutters tracks etc.
主要关键技术包括参数化特征建模、数控加工切削参数优化、刀具轨迹规划等。
Adopting the main key technologies including feature-based modeling, optimization of cutting parameter, layout of the cutters tracks etc.
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。
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.
在此基础上得到加工后内廓曲面,为数控加工中刀具轨迹的规划奠定了基础。
Using this method, the post-machining inner surface is obtained, and it makes the cutting locus planning in NC machining process possible.
针对自由曲面走刀方向数控加工的研究,建立了简化的刀具轨迹时间模型,并对路径规划的系统进行了讨论。
To aim at the research on cutting direction in NC machining of free-form surfaces, a simplified time model for tool trace is established, and the system of tool path programming is discussed.
分析了离心压气机叶轮的几何结构特点、加工工艺,并在此基础上规划了叶轮的粗、精加工刀具轨迹。
Based on the geometry characteristic and processing technique of centrifugal compressor impeller, the tool path of rough and finish machining are scheduled.
轨迹规划功能是将加工代码所描述的零件轮廓形状转换成刀具中心的运动轨迹。
Trace layout module is to convert the profiles of accessories into the motion routes of the tools center.
多坐标曲面加工是数控加工中的关键技术,而刀具轨迹的规划是数控编程的基础和关键。
The multi-coordinates machining curved face is the pivotal technique in the NC machining, and that planning tool-paths are elements and key of NC codes programming.
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。
Furthermore, equation of offset surface from the reconstruction would make easy planning for cutting tool path in NC machining of the radome.
应用推荐