Abstract
This paper investigates a Deburring process which is integrated with a robotics application. Conventional tumble deburring processes have been used for years in the surface finishing industries. The manual process is tedious, inconsistent and inaccurate. Automation in the finishing process has been proved very beneficial. Integration of robots in the process provides more flexible and convenient process. We investigate the off-line simulation of finishing edges using the Product Life Cycle tool DELMIA®. The process extracts the feature to generate a part finishing process plan. Collisions with the environment are detected and avoided through the simulation of cutting the path before the path is downloaded to the actual hardware. Either the tool or the part is being fixed on the robot’s end effector and simulated with respect to the defined path. This paper presents the complete off-line simulation of the Part in Hand as well as Tool in Hand approaches for the deburring process.
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References
Keith A. Stouffer and Robert Russell, Jr “ADACS: An Advanced Deburring and Chamfering System”, prepared at Intelligent Systems Division, National Institute of Standards and Technology, USA.
Shiakolas, PS., Labalo, D., Fitzgerald, J.M., "RobSurf: A Near Real OLP System for Robotic Surface Finishing", Proceedings of the 7th Mediterranean Conference on Control and Automation (MED99). Haifa, Israel, June, 1999.
Engel, T. W., Roberts, R. K., Proctor, F. M. “Specification of an Active Force Control Tool for Performing Deburring and Chamfering on a Robot Platform,” Proceedings of the International Conference on Industrial Electronics, Control, Instrumentation, and Automation, San Diego, California, November 9-13, 1992.
Lester E. Godwin, “ Programming with Force Control”, presented at “The RIA Grinding, Deburring and Finishing workshop St. Paul, Minnesota June 1996.
Deburring, www.robots.com/applications.php.
Robotic deburring, www.manufacturingcenter.com.
Flexiburr, www.ati-ia.com.
Lawly, T.J., Erlbacher, Edwin A., “Robotic Grinding of Parts to Remove Machine tool Scallops and Mismatch”, Maintaining and Supporting an Aircraft Fleet Conference, Dayton, Ohio, June, 1992.
Automated deburring with the finesse if hand Finishing, www.robotworx.com.
Erlbacher, Edwin A.,” A Discussion of Passive And Active Pneumatic Constant Force Devices”, session Twenty of the International Robots & Vision Automation Conference, Detroit, Michigan, April, 1993.
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Mohammad, M., Babriya, V., Sobh, T. (2010). Modeling A Deburring Process, Using DELMIA V5®. In: Iskander, M., Kapila, V., Karim, M. (eds) Technological Developments in Education and Automation. Springer, Dordrecht. https://doi.org/10.1007/978-90-481-3656-8_100
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DOI: https://doi.org/10.1007/978-90-481-3656-8_100
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