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Inicio  /  Applied Sciences  /  Vol: 10 Par: 23 (2020)  /  Artículo
ARTÍCULO
TITULO

Trajectory Optimization of Industrial Robot Arms Using a Newly Elaborated ?Whip-Lashing? Method

Rabab Benotsmane    
László Dudás and György Kovács    

Resumen

The application of the Industry 4.0's elements?e.g., industrial robots?has a key role in the efficiency improvement of manufacturing companies. In order to reduce cycle times and increase productivity, the trajectory optimization of robot arms is essential. The purpose of the study is the elaboration of a new ?whip-lashing? method, which, based on the motion of a robot arm, is similar to the motion of a whip. It results in achieving the optimized trajectory of the robot arms in order to increase velocity of the robot arm?s parts, thereby minimizing motion cycle times and to utilize the torque of the joints more effectively. The efficiency of the method was confirmed by a case study, which is relating to the trajectory planning of a five-degree-of-freedom RV-2AJ manipulator arm using SolidWorks and MATLAB software applications. The robot was modelled and two trajectories were created: the original path and path investigate the effects of using the whip-lashing induced robot motion. The application of the method?s algorithm resulted in a cycle time saving of 33% compared to the original path of RV-2AJ robot arm. The main added value of the study is the elaboration and implementation of the newly elaborated ?whip-lashing? method which results in minimization of torque consumed; furthermore, there was a reduction of cycle times of manipulator arms? motion, thus increasing the productivity significantly. The efficiency of the new ?whip-lashing? method was confirmed by a simulation case study.

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