Abstract
The use of machining systems by Computer Numerical Control (CNC) has notable advantages in the area of industrial production compared with traditional techniques. This facilitates a significant decrease of time, higher precision and optimization of operation parameters. The control of sequences in these systems is based on codes that define the parameters to produce the machining of a determined piece. However, the generation of these codes presents two major challenges, first, know the tridimensional information of the piece to produce, and second, define the sequence by CNC machining. In this work, the fringe projection technique is used to obtain three-dimensional information from an object and based on this information, automatically generate programming codes for the machining routine of a three-axial CNC milling machine. The results are compared to apply the fringe projection technic to recover three-dimensional shape of an object based on Least Squares Algorithm, using information from three to eight images.
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Acknowledgement
This work was done in two stages, the first in the Centro de Investigaciones en Óptica, México, under the supervision of Guillermo Garnica, J. Ascención Guerrero and Francisco Cuevas; and the second stage in the CIM Laboratory of the Universidad del Bío-bío, Chile, under the supervision of Luis Vera.
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Bustos, S., Aguilera, C., Martínez-García, A. (2017). Automatic Generation of Codes for Routine of CNC Machining Based on Three-Dimensional Information Obtained by Fringe Projection. In: Martínez-García, A., Furlong, C., Barrientos, B., Pryputniewicz, R. (eds) Emerging Challenges for Experimental Mechanics in Energy and Environmental Applications, Proceedings of the 5th International Symposium on Experimental Mechanics and 9th Symposium on Optics in Industry (ISEM-SOI), 2015. Conference Proceedings of the Society for Experimental Mechanics Series. Springer, Cham. https://doi.org/10.1007/978-3-319-28513-9_27
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DOI: https://doi.org/10.1007/978-3-319-28513-9_27
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