Using this method, the post-machining inner surface is obtained, and it makes the cutting locus planning in NC machining process possible.
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。
Based on viewpoint of post-processing, non-linear error of five-axis NC machining was analyzed and its influencing factors were presented.
从后处理的角度,分析了五轴数控加工的非线性误差,指出了其影响因素;
Finally, picking milling machine control system HEIDENHAIN for example , elebrated post-processing settings may finally be the actual NC machine tools and can be used for CNC machining code.
本文最后以铣床控制系统HEIDENHAIN为例进行了详细的后处理设置最终得到了可用于实际数控机床进行数控加工的数控程序代码。
Based on the function of UG CAM in machining simulation and post processing, one kind of frame-part was machining in 5-axis milling center and the nc codes was obtained.
基于UGCAM软件强大的仿真加工及后处理功能,运用5轴数控高速铣削中心完成了某框架零件的加工并生成NC代码程序。
Researching the method of isoparametric to creat the tool path, and through post-processing generate a reasonable NC code.
系统的研究了等参数线法的刀具轨迹技术方式,并通过后置处理生成了合理的NC代码。
As an important part in the nc programming, the function of post-processing is to transfer the cutter location file into the nc program suitable to nc machine tools.
作为数控编程技术的重要内容,后置处理的作用是将通用的刀位文件转换成适合于数控机床加工的NC程序。
Post-processing of CNC machine tools is the important component of the CAD/CAM technology and NC programming system. Also, it is important way of compensating geometric error by software.
数控加工后置处理不仅是CAD/CAM技术和数控编程系统的重要组成部分,而且也是实现数控机床几何误差软件补偿的重要途径。
In the process of designing Post-Processor, our aim is converting STEP-NC file to some type CNC control code, and in this way verifying the STEP-NC file gained from Pre_Processor.
在后处理器的设计中,我们的主要目的是把STEP -NC文件转换成某种类型的数控机床控制系统的数据指令,以此来验证前处理器中得到的STEP - NC文件的正确性。
The NC code generated by software post-processer can be used to complete the high speed machining of mould.
利用软件的后置处理功能得到了NC代码,并使用高速加工技术完成了模具的高速切削加工。
Finally, CL data transformed to NC code through post-process. Then the theory and algorithms are proved to be validity through putting the the results into the practical 5-axis NC machining.
最后,对刀位文件进行后置处理,将课题研究中提出的理论和算法应用到了叶轮的加工中,通过在五坐标数控机床上对实际工件的加工,验证理论分析的正确性。
Finally, CL data transformed to NC code through post-process. Then the theory and algorithms are proved to be validity through putting the the results into the practical 5-axis NC machining.
最后,对刀位文件进行后置处理,将课题研究中提出的理论和算法应用到了叶轮的加工中,通过在五坐标数控机床上对实际工件的加工,验证理论分析的正确性。
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