Journal ArticleDOI
Measurement method for volumetric error of five-axis machine tool considering measurement point distribution and adaptive identification process
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TLDR
A method for the geometric error identification of a five-axis machine tool that considers the optimised distribution of measurement points and accurate description of geometric errors to improve the identification accuracy.Abstract:
To improve the machine tool accuracy, geometric error identification is required for volumetric error compensation. This paper presents a method for the geometric error identification of a five-axis machine tool that considers the optimised distribution of measurement points and accurate description of geometric errors. The measurement is performed using a laser tracker that permits rapid error data collection over a large measurement range. In the volumetric error modelling, the geometric errors are described as position-dependent Chebyshev polynomials. Hence, the identification of geometric errors is converted into the identification of polynomial coefficients. In the identification process, a distribution method for measurement points is proposed to improve the identification accuracy by minimising the influence of measurement error on the identification result. At the same time, an adaptive approach is introduced to accurately define the polynomial orders of geometric errors to improve the identification accuracy. Simulations and experiments are conducted to verify the geometric error identification method. In addition, the proposed method is compared with other methods. Based on the identification result of geometric errors and the volumetric error model, the volumetric error of any position in a workspace can be predicted and further compensated.read more
Citations
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Journal ArticleDOI
A novel modeling of volumetric errors of three-axis machine tools based on Abbe and Bryan principles
TL;DR: Experimental results, including faster multi-degree-of-freedom error measurements, volumetric error analysis and compensation on a testbed of small machine tool, validate the correctness and effectiveness of the proposed methodology.
Title Estimation of three-dimensional volumetric errors of machining centers by a tracking interferometer
TL;DR: This paper experimentally investigates the performance of the tracking interferometer prototype, developed by a part of the authors, in estimating the volumetric accuracy of a machining center based on the multilateration principle.
Journal ArticleDOI
Geometric errors identification considering rigid-body motion constraint for rotary axis of multi-axis machine tool using a tracking interferometer
TL;DR: The results show that the PIGEs and PDGEs in the rotary axis can be successfully separated and identified by the new method and a lower uncertainty in the identified errors compared with those obtained by the traditional method and instrument software.
Journal ArticleDOI
An innovative geometric error compensation of the multi-axis CNC machine tools with non-rotary cutters to the accurate worm grinding of spur face gears
TL;DR: In this article , an innovative geometric error compensation method is proposed to the machining with non-rotary cutters based on two main points: 1) the cutter rotation angle is considered to both the modeling and compensation of the geometric errors; 2) the instantaneous ideal contact point, which is calculated according to the generation process of the worm grinding of face gears, is chosen as the reference point to the compensation algorithm rather than the cutter tip point used in the previous method.
Journal ArticleDOI
A machining test to evaluate thermal influence on the kinematics of a five-axis machine tool
Soichi Ibaraki,Rin Okumura +1 more
TL;DR: In this paper, the thermal deformation of a machine tool, typically caused by environmental temperature variations or the heat generated by a rotating spindle, often changes the position and orientation errors of the rotary axis average lines.
References
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Journal ArticleDOI
Geometric error measurement and compensation of machines : an update
Heinrich Schwenke,Wolfgang Knapp,Han Haitjema,Albert Weckenmann,Robert Schmitt,Flm Frank Delbressine +5 more
TL;DR: In this article, the authors review the fundamentals of numerical error compensation and the available methods for measuring the geometrical errors of a machine and discuss the uncertainties involved in different mapping methods and their application characteristics.
Journal ArticleDOI
Geometric Error Measurement and Compensation of Machines
S. Sartori,G.X. Zhang +1 more
TL;DR: In this article, a vectorial equation for geometric error description is presented, which is independent from the machine structure and evaluation of measurement effectiveness is discussed and error compensation methods and strategies are examined.
Journal ArticleDOI
R-Test, a New Device for Accuracy Measurements on Five Axis Machine Tools
TL;DR: The new device measures X, Y., Z deviations of circular and spherical movements simultaneously on continuous paths to calibrate parameter errors like backlash, positioning error, squareness, parallelism, etc.
Journal ArticleDOI
Determination of optimal measurement configurations for robot calibration based on observability measure
Jin-Hwan Borm,Chia-Hsiang Menq +1 more
TL;DR: The selection of measurement configurations in robot cali bration is investigated to select a set of robot measurement configurations that will yield maximum servability of the error parameters in a defined position error model so that the effect of noise in parameter estimation can be minimized.
Journal ArticleDOI
Indirect Measurement of Volumetric Accuracy for Three-Axis and Five-Axis Machine Tools: A Review
Soichi Ibaraki,Wolfgang Knapp +1 more
TL;DR: In this article, the authors present indirect measurement schemes for machine tool kinematics, in which the tool center position is measured as the superposition of error motions of linear or rotary axes.