Simultaneous Calibration of Probe Parameters and Location Errors of Rotary Axes on Multi-axis Machine Tools by Inspecting a Sphere

Congratulations! The Best Paper Award 2015

International Journal of Automation Technology ◽

10.20965/ijat.2015.p609 ◽

2015 ◽

Vol 9 (6) ◽

pp. 609-609

Author(s):

Editorial Office

Keyword(s):

21St Century ◽

Machine Tools ◽

Leading Edge ◽

Paper Award ◽

Rotary Axes ◽

International Conference ◽

Location Errors ◽

Future Success ◽

Automation Technology

The sixth Best Paper Award 2015 ceremony was held in Kyoto, Japan, on October 20 in the 8thsup> International Conference on Leading Edge Manufacturing in 21st Century (LEM21) and the certificate with a prize JPY100,000 was given to the Best Paper Award 2015 winner, Prof. Konrad Wegener. The Best Paper was severely selected from among 88 papers published in Vol.8 (2014). We congratulate the winner and sincerely wish for his future success. Title: Thermally Caused Location Errors of Rotary Axes of 5-Axis Machine Tools Authors: Michael Gebhardt, Alexander Schneeberger, Sascha Weikert, Wolfgang Knapp, and Konrad Wegener Int. J. of Automation Technology Vol.8, No.4 pp. 511-522, 2014

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Calibration of location errors of rotary axes on five-axis machine tools by on-the-machine measurement using a touch-trigger probe

International Journal of Machine Tools and Manufacture ◽

10.1016/j.ijmachtools.2012.03.002 ◽

2012 ◽

Vol 58 ◽

pp. 44-53 ◽

Cited By ~ 74

Author(s):

Soichi Ibaraki ◽

Takeyuki Iritani ◽

Tetsuya Matsushita

Keyword(s):

Machine Tools ◽

Rotary Axes ◽

Location Errors ◽

Touch Trigger Probe ◽

Five Axis

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Identification and verification of location errors of rotary axes on five-axis machine tools by using a touch-trigger probe and a sphere

The International Journal of Advanced Manufacturing Technology ◽

10.1007/s00170-018-2863-3 ◽

2018 ◽

Vol 100 (9-12) ◽

pp. 2653-2667 ◽

Cited By ~ 9

Author(s):

Yu-Ta Chen ◽

Pruthvikumar More ◽

Chien-Sheng Liu

Keyword(s):

Machine Tools ◽

Rotary Axes ◽

Location Errors ◽

Touch Trigger Probe ◽

Five Axis

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Congratulations! The Best Paper Award 2015

International Journal of Automation Technology ◽

10.20965/ijat.2015.p0609 ◽

2015 ◽

Vol 9 (6) ◽

pp. 609-609

Author(s):

Editorial Office

Keyword(s):

21St Century ◽

Machine Tools ◽

Leading Edge ◽

Paper Award ◽

Rotary Axes ◽

International Conference ◽

Location Errors ◽

Future Success ◽

Automation Technology

The sixth Best Paper Award 2015 ceremony was held in Kyoto, Japan, on October 20 in the 8thsup> International Conference on Leading Edge Manufacturing in 21st Century (LEM21) and the certificate with a prize JPY100,000 was given to the Best Paper Award 2015 winner, Prof. Konrad Wegener. The Best Paper was severely selected from among 88 papers published in Vol.8 (2014). We congratulate the winner and sincerely wish for his future success. Title: Thermally Caused Location Errors of Rotary Axes of 5-Axis Machine Tools Authors: Michael Gebhardt, Alexander Schneeberger, Sascha Weikert, Wolfgang Knapp, and Konrad Wegener Int. J. of Automation Technology Vol.8, No.4 pp. 511-522, 2014

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A Study on the Development of a Practical Postprocessor for 5-Axis Machining

ASME 2010 10th Biennial Conference on Engineering Systems Design and Analysis, Volume 4 ◽

10.1115/esda2010-25190 ◽

2010 ◽

Cited By ~ 1

Author(s):

J. D. Hwang ◽

H. C. Jung ◽

K. B. Park ◽

Y. G. Jung

Keyword(s):

Machine Tools ◽

Inverse Kinematics ◽

General System ◽

Visual Basic ◽

Work Piece ◽

Cutting Simulation ◽

Rotary Axes ◽

Data Formats ◽

Data Vector ◽

Nc Data

This paper deals with the development of a practical postprocessor for 5-axis machine tools. Recently, special 5-axis machine tools with non-orthogonal rotary axes as well as typical 5-axis machine tools with orthogonal rotary axes have been introduced. In the present work, the general equations of NC data for 5-axis configurations with non-orthogonal rotary axes are exactly expressed by the inverse kinematics, and a Windows-based postprocessor written in Visual Basic was developed according to the proposed algorithm. The developed postprocessor is a general system suitable for all kinds of 5-axis machine tools not only with orthogonal rotary axes but also with non-orthogonal rotary axes, thereby expanding the range of application of the developed postprocessor. In addition, through implementation of the developed postprocessor and verification by a cutting simulation and machining experiment, the effectiveness of the proposed algorithm was confirmed. Compatibility was improved by allowing exchange of data formats such as RTCP controlled NC data, Vector post NC data, and POF CL data, and convenience was increased by adding the function of work-piece origin offset. Consequently, a practical post-processor for 5-axis machining has been developed.

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A Universal Postprocessor of General Table-Tilting Type of Five-Axis Machine Tools Without Rotational Tool Center Point Function for Actual NC Code Generation

Volume 4: Processes ◽

10.1115/msec2018-6525 ◽

2018 ◽

Author(s):

Guoqiang Fu ◽

Hongli Gao ◽

Tengda Gu

Keyword(s):

Code Generation ◽

Machine Tools ◽

Kinematic Chain ◽

Rotary Axes ◽

Nc Code ◽

Rotation Axes ◽

Cutting Test ◽

Center Point ◽

Rtcp Function ◽

Five Axis

The postprocessor is essential for machining with five-axis machine tools. This paper develops one universal postprocessor for table-tilting type of five-axis machine tools without rotational tool center point (RTCP) function. Firstly, positions of two rotary axes and the workpiece in the machine coordinate system (MCS) are introduced into the kinematic chain of the five-axis machine tools. The uniform product of exponential (POE) formula of the tool relative to the workpiece is established to obtain the universal forward kinematics. On this basis, the postprocessor of table-tilting type of five-axis machine tools is developed. The calculation of rotation angles of rotation axes is proposed in details, including the calculation of double solutions, the determination of rotation angles of C-axis and the selection principle of the shortest path of rotation angles. Movements of linear axes are calculated with rotation angles of rotary axes. The generated movements of all axes are actual positions of all axes relative to their zero positions, which can be used for machining directly. The postprocessor does not rely on RTCP function with positions of rotary axes and the workpiece in MCS. Finally, cutting test in VERICUT and real cutting experiments on SmartCNC500_DRTD five-axis machine tool are carried out to verify the effectiveness of the proposed postprocessor.

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An Analytical C3 Continuous Local Corner Smoothing Algorithm for Four-Axis Computer Numerical Control Machine Tools

Journal of Manufacturing Science and Engineering ◽

10.1115/1.4039116 ◽

2018 ◽

Vol 140 (5) ◽

Cited By ~ 13

Author(s):

Qin Hu ◽

Youping Chen ◽

Jixiang Yang ◽

Dailin Zhang

Keyword(s):

Machine Tools ◽

Numerical Control ◽

Cnc Machine Tools ◽

Smoothing Algorithm ◽

Linear Motion ◽

Tool Orientation ◽

Cnc Machine ◽

B Splines ◽

Rotary Axes ◽

Tip Position

Linear motion commands of multi-axis computer numerical control (CNC) machine tools need to be smoothed at the transition corners, because the velocity discontinuities at corners can result in fluctuations on machine tool motions and lead to poor surface quality. However, no research has been reported on local corner smoothing algorithm for four-axis CNC machine tools with two rotary axes by considering their special kinematic characteristics. To this end, this paper proposes an analytical C3 continuous local corner smoothing algorithm for four-axis CNC machines with two rotary axes. After coordinates transformation, the tool tip positions and tool orientations are smoothed by locally inserting specially designed three-dimensional (3D) quintic B-splines and one-dimensional (1D) quintic B-splines into the corners between linear motion segments, respectively. The smoothing algorithm guarantees C3 continuity of the tool tip position and C3 continuous synchronization of the tool orientation related to the tool tip position, through analytically evaluating control points of the inserted microsplines. The maximum error tolerances of the tool tip position and tool orientation are mathematically constrained. Experiments on an in-house developed four-axis machine verify the efficacy of the proposed algorithm, where maximal errors caused by the local corner smoothing algorithm are constrained, the synchronization of the tool orientation and the tool tip position are achieved, and the proposed C3 continuous corner smoothing algorithm has lower jerk and jounce but higher tracking and contour accuracy than C2 continuous algorithm.

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