Robotic automation can improve efficiency in switchgear manufacturing, but fully automating the wiring phase remains challenging. A key limitation is the unstructured organization of cables after production, which hinders robotic integration. This paper introduces a cost-effective, modular warehouse system that bridges the gap between automated cable production and robotic wiring. The proposed system combines a custom gripper, capable of handling cables of various diameters, with a structured storage solution using adaptive clips optimized via finite element analysis. By enabling deterministic cable placement, the system aims to eliminate the need for complex vision-based identification. Experimental results confirm its robustness and repeatability, paving the way toward fully automated cable assembly in industrial applications.
Govoni, A., Cavuoto, M., Alunni, M.M., Indovini, M., Palli, G. (2025). Design and Integration of a Robotic Gripper and Warehouse System for Automated Cable Assembly. IEEE Computer Society [10.1109/case58245.2025.11163907].
Design and Integration of a Robotic Gripper and Warehouse System for Automated Cable Assembly
Govoni, Andrea
;Cavuoto, Michela;Alunni, Miriam Massini;Palli, Gianluca
2025
Abstract
Robotic automation can improve efficiency in switchgear manufacturing, but fully automating the wiring phase remains challenging. A key limitation is the unstructured organization of cables after production, which hinders robotic integration. This paper introduces a cost-effective, modular warehouse system that bridges the gap between automated cable production and robotic wiring. The proposed system combines a custom gripper, capable of handling cables of various diameters, with a structured storage solution using adaptive clips optimized via finite element analysis. By enabling deterministic cable placement, the system aims to eliminate the need for complex vision-based identification. Experimental results confirm its robustness and repeatability, paving the way toward fully automated cable assembly in industrial applications.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
