Industrial robots offer a good basis for machining from a conceptual point of view. Still they are rarely utilized for machining applications in industry compared to CNC machines due to their low stiffness and the bad achievable work piece quality. Available compensation approaches, like online compensation approaches to increase position accuracy using costly additional hardware and measurement equipment as well as offline compensation approaches using a set of empirical measurement data and models to predict deviation, try to compensate errors whether to already avoid them if possible. In this paper milling and robot strategies are proposed to increase work piece quality without additional hardware or models. Experimental validations of the results have been performed for different kinds of shapes and materials.
Milling strategies optimized for industrial robots to machine hard materials / M., Halbauer; C., Lehmann; J. P., Städter; U., Berger; Leali, Francesco. - STAMPA. - (2013), pp. 1-4. (Intervento presentato al convegno 2013 IEEE 18th International Conference on Emerging Technologies and Factory Automation, ETFA 2013 tenutosi a Cagliari, ita nel 10-13 september 2013) [10.1109/ETFA.2013.6648124].
Milling strategies optimized for industrial robots to machine hard materials
LEALI, Francesco
2013
Abstract
Industrial robots offer a good basis for machining from a conceptual point of view. Still they are rarely utilized for machining applications in industry compared to CNC machines due to their low stiffness and the bad achievable work piece quality. Available compensation approaches, like online compensation approaches to increase position accuracy using costly additional hardware and measurement equipment as well as offline compensation approaches using a set of empirical measurement data and models to predict deviation, try to compensate errors whether to already avoid them if possible. In this paper milling and robot strategies are proposed to increase work piece quality without additional hardware or models. Experimental validations of the results have been performed for different kinds of shapes and materials.
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