TY - GEN

T1 - An analysis process to improve the mobility of a parallel robot for assembly tasks

AU - Borchert, Gunnar

AU - Raatz, Annika

PY - 2015

Y1 - 2015

N2 - An analysis tool is presented to design extension mechanisms that will enhance the motion capability of delta robots by means of enabling additional, rotational degrees of freedom. For this purpose, a tool is shown that is based on a task-oriented decision analysis process for designing such extension mechanisms. This is necessary, since assembly processes have significant effects on the required functionality of the production device. The variety of drive concepts is just one example that has to be considered due to specific kinematics and dynamics which result from additional masses of the power train for each degree of freedom. To counter these issues, general task-oriented system requirements are initially defined. Thereafter, available industrial robots are analyzed to derive deficiencies so that possible design concepts could be worked out. Based on these findings, the framework of the implemented decision process is addressed, that is an analytic hierarchy process, along with exemplary decision criteria to decide in favor of a beneficial overall design. The last component includes the final design process of the extension mechanism where a sensitivity analysis is used for the optimization of the dynamics. Finally, possibilities for future developments are identified to enhance the benefit of the analysis tool. Underlying mathematical calculations are not subject of this contribution.

AB - An analysis tool is presented to design extension mechanisms that will enhance the motion capability of delta robots by means of enabling additional, rotational degrees of freedom. For this purpose, a tool is shown that is based on a task-oriented decision analysis process for designing such extension mechanisms. This is necessary, since assembly processes have significant effects on the required functionality of the production device. The variety of drive concepts is just one example that has to be considered due to specific kinematics and dynamics which result from additional masses of the power train for each degree of freedom. To counter these issues, general task-oriented system requirements are initially defined. Thereafter, available industrial robots are analyzed to derive deficiencies so that possible design concepts could be worked out. Based on these findings, the framework of the implemented decision process is addressed, that is an analytic hierarchy process, along with exemplary decision criteria to decide in favor of a beneficial overall design. The last component includes the final design process of the extension mechanism where a sensitivity analysis is used for the optimization of the dynamics. Finally, possibilities for future developments are identified to enhance the benefit of the analysis tool. Underlying mathematical calculations are not subject of this contribution.

KW - Decision analysis process

KW - Extension mechanism

KW - Motion capability

KW - Parallel robot

UR - http://www.scopus.com/inward/record.url?scp=85019008454&partnerID=8YFLogxK

U2 - 10.6567/IFToMM.14TH.WC.OS3.029

DO - 10.6567/IFToMM.14TH.WC.OS3.029

M3 - Conference contribution

AN - SCOPUS:85019008454

T3 - 2015 IFToMM World Congress Proceedings, IFToMM 2015

SP - 672

EP - 680

BT - 2015 IFToMM World Congress Proceedings, IFToMM 2015

PB - National Taiwan University of Science and Technology

T2 - 14th International Federation for the Promotion of Mechanism and Machine Science World Congress, IFToMM 2015

Y2 - 25 October 2015 through 30 October 2015

ER -