Project Context
As part of the optimization of a robotic production line and the development of new diversities, our team successfully completed this innovative project.
Description of Operation :
The aim of this project was to integrate new trajectories within a restricted environment and across different robot brands: FANUC, KUKA, and KAWASAKI.
These robots were chosen for their precision, robustness, and ability to execute complex tasks, particularly the management of adhesive application trajectories on parts with varied shapes.
Each robot can perform adhesive application autonomously on one or more parts, following predefined trajectories thanks to advanced simulation software.
These trajectories were developed to ensure uniform and precise coverage of the product on each part, which is essential to guarantee the quality of vehicle assembly.
The robots interact with each other and with other equipment on the production line, allowing for seamless integration into the overall manufacturing process.
The diversity of the parts, which vary in size, shape, and material, requires maximum flexibility in the robot trajectories.
Each robot is programmed to adjust its movements based on the specific characteristics of the part it is handling, which allows it to adapt to the requirements of different vehicle models.
Thanks to this flexibility, the station can be easily reconfigured to meet the production demands of new car models, which promotes the agility and adaptability of the industrial process.
Conclusion :
The commissioning of this robotic station for the adhesive bonding of automotive parts represents a significant step towards production optimization, while also facilitating the diversification of vehicle models.
Thanks to the integration of high-performance robots and the development of trajectories adapted to a wide variety of parts, this project improves both the productivity and the quality of the adhesive bonding, while ensuring the necessary flexibility to respond to the evolutions of the automotive market.
This project also demonstrates our commitment to adopting innovative technological solutions to meet the challenges of modern manufacturing and ensure the production of more diverse and adaptable vehicles.