Abstract
Feature recognition is a key technology of the automatic intelligent turning machining method. This paper provides an intelligent turning machining method based on geometrical feature recognition, including putting up viewpoint, direction and cylindrical co-ordinate. For real-loops and unreal-loops in projection, an algorithm is taken forward to recognize the straight faces, turning circle (cone, frustum and cylinder) and slot, and creates a relationship functions among all the loops, determine the machinable turning cutting regions respectively according to the relationship functions. The study resolves the machinable problem in design stage, a method is supported to cooperative design and decreases the cost and save time. a hierarchy architecture of the center controller is constructed including integration process planning.
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References
Kamer, T.R., Huang, H., Messina, E., Proctor, F.M., Scott, H.: A feature-based inspection and machining system. Computer-Aided Design 33, 653–669 (2001)
Balasubramaniam, M., Laxmiprasad, P., Sarma, S., Shaikh, Z.: Generating 5-axis NC roughing paths directly from a tessellated representation. Computer-Aided Design 32, 261–277 (2000)
Lo, C.-C.: Two-stage cutter-path scheduling for ball-end milling of concave and wall-bounded surfaces. Computer-Aided Design 32, 597–603 (2000)
Yan, X., Yamazaki, K., Liu, J.: Recognition of machining features and feature topologies from NC programs. Computer-Aided Design 32, 605–616 (2000)
Kim, B.H., Choi, B.K.: Guide surface based tool path generation in 3-axis milling: an extension of the guide plan method. Computer-Aided Design 32, 191–199 (2000)
Park, S.C., Choi, B.K.: Uncut free pocketing tool-paths generation using pair-wise offset algorithm. Computer-Aided Design 33, 739–746 (2001)
Flutter, A., Todd, J.: A machining strategy for toolmaking. Computer-Aided Design 33, 1009–1022 (2001)
Park, S.C., Choi, B.K.: Tool path planning for direction-parallel area milling. Computer-Aided Design 32, 17–23 (2000)
Chen, K.-Z., Feng, X.-A., Lu, Q.-S.: Intelligent dimensioning for mechanical parts based on feature extraction. Computer-Aided Design 33, 949–965 (2001)
Sun, G., Sequin, C.H., Wright, P.K.: Operation decomposition for freeform surfaces in process planning. Computer-Aided Design 33, 621–636 (2001)
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© 2005 Springer-Verlag Berlin Heidelberg
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Qin, G., Li, Q. (2005). Study of the Intelligent Turning Machining Method Based on Geometrical Feature Recognition. In: Luo, Y. (eds) Cooperative Design, Visualization, and Engineering. CDVE 2005. Lecture Notes in Computer Science, vol 3675. Springer, Berlin, Heidelberg. https://doi.org/10.1007/11555223_28
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DOI: https://doi.org/10.1007/11555223_28
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-28948-7
Online ISBN: 978-3-540-31976-4
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