Parallelism error measurement for the spindle axis of machine tools by two circular tests with different tool lengths
Issued Date
2017-02
Citation
Lee, Kwang-Il. (2017-02). Parallelism error measurement for the spindle axis of machine tools by two circular tests with different tool lengths. International Journal of Advanced Manufacturing Technology, 88(9–12), 2883–2887. doi: 10.1007/s00170-016-8999-0
In this study, parallelism errors between the spindle axis and the linear axis of machine tools were measured using a double ball-bar. Specifically, two circular tests were performed to measure the parallelism errors using tool balls with different tool lengths and a workpiece ball fixed to a workpiece table. Parallelism errors were calculated by analyzing, simultaneously, the measured double ball-bar (DBB) data from the circular tests. The proposed method provides accurate measurements due to a large offset between the circular tests within the working space of machine tools. Additionally, the approach only requires a DBB and adjustment/extension fixtures; thus, it simplifies measurements and is cost-effective.
