| 1. | Cutter radius compensation method with b - spline curves
样条曲线刀具半径补偿方法 |
| 2. | The research and implementation of algorithm of cutting tool radius compensation in 2 - d surface cnc system
二维数控系统刀具半径补偿算法的研究与实现 |
| 3. | Using the post - process soft , the cutter locus files are converted to the numerical control machining codes with the three - dimension cutter radius compensation algorithm
通过编制后处理软件,将刀路轨迹文件转化为数控机床可以识别的数控加工代码,并实现了三维空间内的刀具半径补偿算法。 |
| 4. | In this paper the c cutter radius compensation has been accomplished . it needs to compute the intersection point of two motion lines ; therefore , the next motion code must be picked out
本课题要实现的刀具补偿为c型刀具补偿,由于c型刀具补偿需要计算两段运动轨迹的相交点,所以必须提前提取下一段运动段代码。 |
| 5. | Machining experiments are finished on a mini precision machining cutter , in the process the nc codes can be used and the cutter radius compensation algorithm of five - axis linked nc machining cutter is turned to be correct
在小型精密数控机床上进行了加工实验,验证数控代码的可行性及五轴联动数控机床刀具补偿算法的正确性 |
| 6. | System correlative theory research and software design : includes application study on mct8000f4 & dsp , cutter radius compensation , line & arc interpolation , motion segment acceleration & deceleration control , etc . 3
系统相关理论研究与软件设计:主要包括mct8000f4及dsp基本原理与应用开发、刀具半径补偿、直线和圆弧数值插补、运动段加减速控制等。 |
| 7. | This paper deduces a general formula of two - dimension cutter radius compensation fit to linear interpolation . and according to the space transition theory , the cutter radius compensation algorithm of cutter position in three - dimension space is obtained
因此本文以提高数控机床加工精度为目的,研究五轴联动数控机床的刀具半径补偿问题既有重大的理论价值,又有重要的现实意义。 |
| 8. | Precision measurement method for spatial cams and probe - radius compensation method are presented in this paper according to spatial cam characteristics , and a specified measure program that can realize real - time probe - radius compensation is programmed
摘要根据空间凸轮的特点,给出了空间凸轮精密测量及刚球半径补偿方法,并编制了可实现实时测球半径补偿的空间凸轮专用测量程序。 |
| 9. | ( 3 ) the direct slicing data are processed in order to accurately extract and reconstruct the data information of the 2d contours . based on it , the radius compensation of laser beam spot , the filling contours and the optimization of the scanning paths are all implemented
( 3 )通过对直接分层轮廓进行处理,实现了层片轮廓数据的提取、层片轮廓的重建、激光光斑的补偿,以及层片轮廓的填充和扫描路径的优化。 |
| 10. | At the same time , for the equidistant surface in practical measurement , special search method is applied for automatic segmentation , so the normal vector of the data at arbitrary position of the space is solved , then radius compensation of probe is implement . so the return is realized from equidistant surface to real measurement surface
针对实际测量中得到的等距曲面,采用空间搜索的方法对数据点分块,求取了任意测量点法矢,提出了测头半径的补偿方案,从而实现了由空间等距曲面到被测曲面的复原。 |
