Journal of the Korean Society of Manufacturing Technology Engineers (한국생산제조학회지)

The Korean Society of Manufacturing Technology Engineers (한국생산제조학회)
권호 표지

A study on the Tool Path Generation of High-Speed Machining by the Distortion of Original Tool Path

지령 경로의 왜곡에 의한 고속가공 경로의 생성에 관한 연구

  • 이철수 (전남대학교 산업공학과) ;
  • 이제필 (전남대학교 산업공학과 대학원)
  • Published : 1998.10.01
Download PDF
⟨ Previous Next ⟩

Abstract

Recently may investigations have been studied on the high-speed machining by using machine tools. A CNC machine tool makes some tool path errors caused by software acceleration/deceleration. The faster a cutting feedrate is, the bigger the tool path errors are. Some known methods reduce these kinds of errors, but they make the total cutting time increased. This paper presents a feed-forward algorithm that can be generated by distorting the original tool path, and reduces the tool path errors and the total cutting time. The algorithm to generate a new tool path is represented as following; 1)calculating each distance of software acceleration/deceleration between two adjacent blocks, 2) estimating the distorted distance which is the adjacent-ratio-constant(k1, k2) multiply the distance of software acceleration/deceleration, 3) generating a 3-degree Bezier curve approximating the distorted tool path, 4) symmetrically transforming the Bezier curve about the intersection point between two blocks, and 5) connecting the transformed Bezier curve with the original tool path. The algorithm is applied to FANUC 0M. The study is to promote the high-precision machining and to reduce the total cutting time.

Keywords

References

  1. 機械技術 機械技術편집부
  2. 95 NC 공작기계 기술세미나 NC工作機械(머시닝센타)의 高機能化 吉田 嘉太郞
  3. 대한기계학회논문집 v.11 no.4 고속가공을 위한 절삭공구의 최적화 梁民陽
  4. CIRP v.40 no.1 Cutting Performance and Wear Characetristics of an Aumina-Zirconia Ceramic Tool in high-Speed Face Milling N. Narutaki;Y. Yamane
  5. ASME v.107 On a Methology for Establishing the Machine Tool System Requirements Machining R. Komanduri;J.McGee;R.A.Thomson
  6. CIRP v.41 no.2 High Speed Machining H. Schulz;T. Moriwaki
  7. CIRP v.41 no.1 Rearch on the Efficiency of Feedforward Controllers in M Direct Drives G.Pritschow;W.Philipp
  8. CIRP v.41 no.2 Advanced Controls for Feed Drives Y.Korean;C.C.Lo
  9. CIRP v.43 no.1 New Predictive Solutions to Very High Speed Machining D.Dumur;P.Boucher
  10. CIRP v.45 no.1 Constrained Predictive Control for Motor Drives D.Dumur;P.Bourcher
  11. RAPID PRODUCT DEVELOPMENT High-speed High-precision servo system H.Uchida;M.Sogabe;H.Kougami
  12. CIRP v.46 no.1 An Open Architecture CNC CAD-CAM Machining System with Sata-Base Sharing and Mutual Information Feedback Mamoru Mitsushi;Takaai Nagao
  13. CIRP v.46 no.1 Feed-Rate Optimization of Ball end Milling Considering Local Shape Features C.N.Chu;S.Y.Kim;J.M.Lee
  14. CIRP v.38 no.1 Computation of Nominal Path Values to Generate Various Spacial Curves for Machine Tools R.Stadelmann;P.Gygax
  15. 조선대학교 석사학위 논문 선박용 CNC의 샘플링 보간법을 적용한 스플라인 보간기 류제국
  16. FANUC Series 15-MA Operation's manual FANUC
  17. 電氣學會 論文誌 v.41 no.5 Software Acceleration/Deceleration Methods for Industrial Robots and CNC Machine Tools D.I. Kim;J.I. Song;S.K. Kim
  18. KACC' 91 Software Linear and Exponential Acceleration/Deceleration Methods for Industrial Robots and CNC Machine Tools D.I. Kim;J.I. Song;Y.G. Lim;S. Kim
  19. IECON' 91 Digital Signal Processor System for CNC Systems D.I. Kim;J.I. Song;S. Kim
  20. Computer Graphics for CAD/CAM Systems Jack E.Zecher
  21. Computer Graphics and Geometric Modeling for Engineers Vera B.Anand