Analytical research of displacement measuring unit of the precise raster-forming systems
Abstract
The precision raster-forming systems creation and development must be based on research in the specific work environment. In not ideal metrological conditions the precision raster-forming system allows to achieve high accuracy of the calibration, when used dynamic calibration method.The paper analyzes the possibility of analytical modeling of one main part (steel tape displacement measuring unit) of precise raster forming systems. In the work, a linear mechanical model of steel tape was applied to the load. The work described the equation, which describes the steel tape deformation model under loads with boundary conditions.
Article in Lithuanian.
Keyword : raster formation, displacement measurement, dynamic mode
This work is licensed under a Creative Commons Attribution 4.0 International License.
References
Jakštas, A. 2006. Precizinių ilgio kalibravimo sistemų tyrimas: Daktaro disertacija. KTU, Kaunas.
Jakštas, A.; Kaušinis, S.; Barauskas, R.; Barakauskas, A.; Kasparaitis, A. 2008. Software based control techniques for precision line scale calibration, in Proceedings of the 11th Biennial Baltic Electronics Conference 5(8): 223–226.
Jurevičius, M.; Skeivalas, J.; Kilikevičius, A.; Turla, V. 2017. Vibrational analysis of length comparator, Measurement 103: 10–17. https://doi.org/10.1016/j.measurement.2017.02.010
Kasparaitis, A.; Vekteris, V.; Kilikevichius, A. 2006. A vibration source in comparator, in Seventh International Conference on Vibration Measurements by Laser Techniques: Advances and Applications, 2006, Ancona, Italy, Proceedings of SPIE 6345, 6345O-1.
Kilikevičius, A. 2009. Ilgio matavimo mechatroninio komparatoriaus dinaminių paklaidų tyrimas: Daktaro disertacija. VGTU, Vilnius.
Kilikevičius, A.; Jurevičius, M.; Berba, M. 2010. Research of dynamics of a vibration isolation platform, Journal of Vibroengineering 12(3): 361–367.
Kilikevičius, A.; Jurevičius, M.; Skeivalas, J.; Kilikevičienė, K.; Turla, V. 2016a. Vibrational analysis of angle measurement comparator, Signal, Image and Video Processing 10(7): 1287–1294. https://doi.org/10.1007/s11760–016–0956–8
Kilikevičius, A.; Kasparaitis, A.; Lazdinas, R.; Kilikevičienė, K. 2016b. Kinematic and dynamic errors during the measurement of linear displacements using the angle transducers, Mechanika 22(3): 212–216. https://doi.org/10.5755/j01.mech.22.3.14180
Kilikevičius, A.; Petraška, A.; Juraitis, S. 2009. Measurement errors of comparator on carriage vibrations, Journal of Vibroengineering 11(4): 658–664.
Kilikevičius, A.; Kasparaitis, A. 2017. Dynamic research of multi-body mechanical systems of angle measurement, International Journal of Precision Engineering and Manufacturing 18(8): 1065–1073. https://doi.org/10.1007/s12541–017–0125–1
Šiaudinytė, L.; Kilikevičius, A.; Sabaitis, D.; Grattan, K. T. V. 2016. Modal analysis and experimental research into improved centering – leveling devices, Measurement 88: 9–17. https://doi.org/10.1016/j.measurement.2016.01.044