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The International Journal of Advanced Manufacturing Technology
Erschienen in: The International Journal of Advanced Manufacturing Technology 5-8/2019

22.04.2019 | ORIGINAL ARTICLE

Accurate compensation method for probe pre-travel errors in on-machine inspections

verfasst von: Simi Li, Long Zeng, Pingfa Feng, Yamin Li, Chao Xu, Yuan Ma

Erschienen in: The International Journal of Advanced Manufacturing Technology | Ausgabe 5-8/2019

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Abstract

On-machine inspection (OMI) systems have been widely used for the automatic setting of workpieces and the determination of the kinematic errors of a machine tool. Touch-trigger probes are commonly used in OMI systems due to their high reliability and low cost. However, the associated pre-travel error, which is inherent by nature, often severely affects the measurement accuracy and must be compensated during the measuring process in order to ensure the required measurement precision. This paper proposes a compensation method for probe errors using a 3D error map. To construct the 3D error map of the probe, a weighted least squares (WLS) method based on the probe’s mechanical model was first employed to accurately fit the reference sphere center; subsequently, the errors of the calibrated directions could be obtained. Finally, the bicubic Coons patch (BCP) interpolation method was used to calculate the errors of the uncalibrated directions. To validate the proposed method, calibration tests were conducted on an OMI system mounted with a strain gauge probe. The compensation results indicated an increase of 57.40% in the accuracy compared to that of the existing method.
Vorheriger Artikel The effect of weld line on tensile strength of polyphenylsulfone (PPSU) in ultrasonic micro-moulding technology
Nächster Artikel Prediction and optimization of machining time and surface roughness of AISI O1 tool steel in wire-cut EDM using robust design and desirability approach

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Literatur
1.
Huang N, Yin C, Liang L, Hu J, Wu S (2018) Error compensation for machining of large thin-walled part with sculptured surface based on on-machine measurement. Int J Adv Manuf Technol 96(9–12):4345–4352CrossRef
2.
Jiang ZX, Bao S, Zhou XD, Tang XQ, Zheng SQ (2015) Identification of location errors by a touch-trigger probe on five-axis machine tools with a tilting head. Int J Adv Manuf Technol 81(1–4):149–158CrossRef
3.
Guiassa R, Mayer JRR, St-Jacques P, Engin S (2014) Calibration of the cutting process and compensation of the compliance error by using on-machine probing. Int J Adv Manuf Technol 78(5–8):1043–1051
4.
Huang N, Zhang S, Bi Q, Wang Y (2016) Identification of geometric errors of rotary axes on 5-axis machine tools by on-machine measurement. Int J Adv Manuf Technol 84(1–4):505–512CrossRef
5.
Chen Y-T, More P, Liu C-S (2018) Identification and verification of location errors of rotary axes on five-axis machine tools by using a touch-trigger probe and a sphere. Int J Adv Manuf Technol 100(9–12):2653–2667
6.
Chen Y-T, More P, Liu C-S, Cheng C-C (2019) Identification and compensation of position-dependent geometric errors of rotary axes on five-axis machine tools by using a touch-trigger probe and three spheres. Int J Adv Manuf Technol
7.
Yang H, Huang X, Ding S, Yu C, Yang Y (2017) Identification and compensation of 11 position-independent geometric errors on five-axis machine tools with a tilting head. Int J Adv Manuf Technol 94(1–4):533–544
8.
Jankowski M, Wozniak A (2016) Mechanical model of errors of probes for numerical controlled machine tools. Measurement 77:317–326CrossRef
9.
Achiche S, Wozniak A (2011) Three-dimensional modeling of coordinate measuring machines probing accuracy and settings using fuzzy knowledge bases: application to TP6 and TP200 triggering probes. Artif Intell Eng Des Anal Manuf 26(04):425–441CrossRef
10.
Achiche S, Wozniak A, Fan Z (2008) 3D CMM strain-gauge triggering probe error characteristics modeling using fuzzy logic. Ann Meeting North Am Fuzzy Inform Process Soc:194–197
11.
Shen YL, Zhang XP (1997) Pretravel compensation for vertically oriented touch-trigger probes with straight styli. Int J Mach Tool Manu 37(3):249–262CrossRef
12.
Shen YL, Zhang XP (1999) Pretravel compensation for horizontally oriented touch trigger probes with straight styli. J Manuf Syst 18(3):175–186CrossRef
13.
Shen YL, Zhang XP (1997) Modelling of pretravel for touch trigger probes on indexable probe heads on coordinate measuring machines. Int J Adv Manuf Technol 13(3):206–213CrossRef
14.
Woźniak A, Dobosz M (2003) Metrological feasibilities of CMM touch trigger probes. Part I: 3D theoretical model of probe pretravel. Measurement 34(4):273–286CrossRef
15.
Dobosz M, Woźniak A (2003) Metrological feasibilities of CMM touch trigger probes part II: experimental verification of the 3D theoretical model of probe pretravel. Measurement 34(4):287–299CrossRef
16.
Wozniak A, Jankowski M (2015) Wireless communication influence on CNC machine tool probe metrological parameters. Int J Adv Manuf Technol 82(1–4):535–542
17.
Wozniak A (2006) Simple method of 3d error compensation of triggering probes on coordinate measuring machine. Metrol Meas Syst 13:289–299
18.
Sładek J, Gąska A (2012) Evaluation of coordinate measurement uncertainty with use of virtual machine model based on Monte Carlo method. Measurement 45(6):1564–1575CrossRef
19.
Mayer JRR, Ghazzar A, Rossy O (1996) 3D characterisation, modelling and compensation of the pre-travel of a kinematic touch trigger probe. Measurement 19:83–94CrossRef
20.
Jankowski M, Woźniak A, Byszewski M (2014) Machine tool probes testing using a moving inner hemispherical master artefact. Precis Eng 38(2):421–427CrossRef
21.
Farin G (1988) The shape of surface. CAD 20(6):306
Metadaten
Titel
Accurate compensation method for probe pre-travel errors in on-machine inspections
verfasst von
Simi Li
Long Zeng
Pingfa Feng
Yamin Li
Chao Xu
Yuan Ma
Publikationsdatum
22.04.2019
Verlag
Springer London
Erschienen in
The International Journal of Advanced Manufacturing Technology / Ausgabe 5-8/2019
Print ISSN: 0268-3768
Elektronische ISSN: 1433-3015
DOI
https://doi.org/10.1007/s00170-019-03729-8

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