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IJAT Vol.2 No.6 pp. 486-491
doi: 10.20965/ijat.2008.p0486
(2008)

Paper:

A Real-Time Measuring Method of Spindle Center Transition for NC Lathe

Hiroshi Mizuguchi*, Mikio Iwakiri*, Yutaka Ido*, and Hidenori Shinno**

*Development & Manufacturing HQ, MORI SEIKI CO., LTD.
201 Midai, Iga, Mie 519-1414, Japan

**Precision and Intelligence Laboratory, Tokyo Institute of Technology
4259-G2-19 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan

Received:
August 13, 2008
Accepted:
October 14, 2008
Published:
November 5, 2008
Keywords:
thermal deformation, spindle center transition, real-time measurement, NC lathe
Abstract

Thermal displacement in the spindle system has great influence on the machining accuracy. Therefore it is very important to evaluate the thermal displacement of the spindle precisely. In the conventional measurement method for thermal displacement of the spindle, the measurements were taken during no-load running with non-contact sensors put close to the outside of a workpiece. However, in fact, it is essential to evaluate thermal displacement of the spindle while a machine tool is machining a workpiece actually. The measurement of the thermal displacement of the spindle during actual machining is generally difficult. In this paper, we propose a new method by which we measure thermal displacement of the spindle while we are actually machining a workpiece with an NC lathe. The experiment was performed with various cutting conditions and the result of the thermal displacement of the spindle corresponding to each condition was observed. Then, by analyzing the experimental result, we obtained mathematical models that show the relation between thermal displacement and spindle motor output.

Cite this article as:
Hiroshi Mizuguchi, Mikio Iwakiri, Yutaka Ido, and Hidenori Shinno, “A Real-Time Measuring Method of Spindle Center Transition for NC Lathe,” Int. J. Automation Technol., Vol.2, No.6, pp. 486-491, 2008.
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References
  1. [1] K. Takada, "Measurement of the displacement of rotating spindle by means of laser beam," Technical report of the Technological University of Nagaoka, Vol.2, pp. 11-22, 1981.
  2. [2] S. Shimizu, T. Ooi, and S. Yagyu, "Measurement Method of Thermal Deviation for Multi-task Machine - Measurement of Thermal Deviation in Six Axes Directions Caused by Linear Motion in Infeed Direction -," Proceedings of JSPE Spring Semestrial Meeting, pp. 165-166, 2006.
  3. [3] Y. Kawano, S. Yoshimitsu, R. Hikiji, S. Yamashita, and S. Tonon, "In-process Control for Thermal Deformation of Machining Center Structure.," Proceedings of JSPE Autumn Semestrial Meeting, pp. 607-607, 2003.
  4. [4] H. Mizuguchi and H. Saraie, "Observation and Evaluation of Thermal Deformation in NC Lathe Using Spindle Center Transition Chart," Transactions of the Japan Society of Mechanical Engineers, Vol.71, No.710, pp. 3034-3041, 2005.

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Last updated on Sep. 19, 2021