Issue 6
Jun.  2023
Turn off MathJax
Article Contents
Article Navigation >  Manufacturing Technology & Machine Tool  > 2023  >  (6): 105-111
FEI Ya, LI Ying, TAO Wenjian, JIANG Yunfeng, ZHOU Xin. Secondary development of five-axis linkage accuracy evaluation module of CNC machine tool based on Siemens Trace Service[J]. Manufacturing Technology & Machine Tool, 2023, (6): 105-111. doi: 10.19287/j.mtmt.1005-2402.2023.06.018
Citation: FEI Ya, LI Ying, TAO Wenjian, JIANG Yunfeng, ZHOU Xin. Secondary development of five-axis linkage accuracy evaluation module of CNC machine tool based on Siemens Trace Service[J]. Manufacturing Technology & Machine Tool, 2023, (6): 105-111. doi: 10.19287/j.mtmt.1005-2402.2023.06.018
shu

Secondary development of five-axis linkage accuracy evaluation module of CNC machine tool based on Siemens Trace Service

doi: 10.19287/j.mtmt.1005-2402.2023.06.018

  • AVIC Chengdu Aircraft Industrial (Group) Co., Ltd., Chengdu 610091, CHN

  • Received Date: 2022-11-08
  • Accepted Date: 2023-04-07
    Abstract
  • This paper targets the Siemens 840D sl SINUMERIK Operate as the system application framework, and based on the Trace Service data acquisition function, a five-axis linkage accuracy evaluation module for CNC machine tools is developed, which targets the trajectory of S part as the object. Based on data requirements of the trajectory of the S part during operation, this paper analyzes the core principle of the Trace Service data acquisition mechanism, sorts the data acquisition process and designs the sub-module of the coordinate axis data acquisition through the data requirements of the trajectory of the S part during operation, analyzes and extracts the results of the data acquisition to convert the axis coordinates to tool tip points, and completes the display of graph and index of the contour error with the graphical-digital method, so as to achieve the evaluation of the five-axis linkage accuracy of the CNC machine tool. This module uses the excellent linkage accuracy evaluation performance of S part, integrates efficient data acquisition and contour evaluation display, avoids the fussy process of traditional acquisition and evaluation, and effectively improves the economy and efficiency of the evaluation.

     

    • FullText(HTML)
  • loading
    • References(18)
  • [1]
    李杰, 谢福贵, 刘辛军, 等. 五轴数控机床空间定位精度改善方法研究现状[J]. 机械工程学报, 2017, 53(7): 113-128.
    [2]
    赵万华, 张俊, 刘辉, 等. 数控机床精度评价新方法[J]. 中国工程科学, 2013, 15(1): 93-98. doi: 10.3969/j.issn.1009-1742.2013.01.018
    [3]
    谢靖超. A/C双摆角铣头C轴精度控制技术研究与应用[J]. 制造技术与机床, 2021(2): 143-146.
    [4]
    李伟, 梁睿君, 王志强. 基于840D数控系统温度补偿功能的误差补偿系统[J]. 机械制造与自动化, 2021, 50(2): 91-94.
    [5]
    付国强, 饶勇建, 谢云鹏, 等. 几何误差贡献值影响下五轴数控机床运动轴误差灵敏度分析方法[J]. 中国机械工程, 2020, 31(13): 1518-1528.
    [6]
    朱绍维, 李建东, 李连玉. 基于西门子VCS的大型五轴机床空间误差补偿[J]. 制造技术与机床, 2019(12): 36-40.
    [7]
    姚立权, 张萌, 李刚, 等. 五轴联动数控机床空间综合误差解耦技术研究[J]. 机床与液压, 2021, 49(5): 102-106.
    [8]
    向华, 熊成, 陈国华, 等. 机床旋转轴转角定位误差测量与补偿方法[J]. 制造技术与机床, 2019(9): 157-161.
    [9]
    IBS Precision Engineering. Machine tool inspection and analyzer solutions [EB/OL]. http://ibspe.com/category/machine-tool-inspection-and-analyzer-solutions.html.
    [10]
    NAS 979, Uniform Cutting Tests, NAS 900 Series metal cutting equipment specifications[S]. NAS, USA, 1969.
    [11]
    Hong C, Ibaraki S, Matsubara A. Influence of position-dependent geometric errors of rotary axes on a machining test of cone frustum by five-axis machine tools[J]. Precision Engineering, 2011, 35(1): 1-11. doi: 10.1016/j.precisioneng.2010.09.004
    [12]
    Zhang Y, Jianzhong F U, Chen Z. Identification of kinematic errors of five-axis machine tool trunnion axis from finished test piece[J]. Chinese Journal of Mechanical Engineering, 2014, 27(5): 999-1007. doi: 10.3901/CJME.2014.0611.108
    [13]
    NC-Gesellschafte. V. Testing guidelines and testing workpiece for high speed cutting (HSC) part I: milling cutters and machining centre[S]. NC-Gesellschaft-Anwendung Neuer Technologien, 2004.
    [14]
    Ibaraki S, Ota Y. A machining test to evaluate geometric errors of five-axis machine tools with its application to thermal deformation test[J]. Procedia Cirp, 2014, 14(6): 323-328.
    [15]
    Song Z Y Cui Y W. S-shape detection test piece and a detection method for detection the precision of the numerical control milling machine: USA, US20100004777[P]. 2010.
    [16]
    宋智勇, 崔雅文. 综合检测数控铣床精度的“S”形检测试件及其检测方法: 中国, CN100468038[P]. 2009.
    [17]
    浦姣, 周亚雄, 杨林, 等. 基于西门子840D sl系统的回转工作台参与五轴插补的伺服优化[J]. 机械设计, 2019, 36(S1): 437-440.
    [18]
    李杰, 陶文坚, 陈鑫进, 等. 基于内置传感器的数控机床多轴联动精度检测方法[J]. 制造技术与机床, 2020(8): 35-40.
    • Relative Articles
    • Supplements(0)
    • Cited By
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索

    Figures(11)  / Tables(1)

    Get Citation
    PDF
    XML

    Article Metrics

    Article views (85) PDF downloads(36) Cited by()
    Proportional views
    Related
    订阅号
    服务号
    微店

    Copyright © 2018 《 Manufacturing Technology & Machine Tool》

    Address: No.4 Wangjing Road, Chaoyang District, BeijingTel: 010-64739683/79Email: edit@jcs.gt.cn

    Supported by: Beijing Renhe Information Technology Co., Ltd.  

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return