CENIT North The united states
CENIT extends the technologies portfolio lined by FASTSUITE Version 2 with new functionalities that now also consist of the surface area-based apps for portray, spraying and coating.
Floor-dependent programs are among the the most demanding duties in automotive and aerospace output. They provide a wide variety of processes, commencing with physique protection and area planning to the creation of the last look, which finally has a powerful impact on the perception of the items. The technologies should consequently fulfill the best criteria of high quality and performance.
The use of robots for spraying purposes has now verified itself in observe. Just one of the main benefits is their capacity to comply with advanced 3-dimensional paths. Handbook procedures are unable to assurance this with the same precision and iteration.
Thanks to new surface-based functionalities, FASTSUITE Version 2 allows makers to generate, simulate and assess spray applications and refine spray designs, surface coverage, spray cone growth and software speeds. All this is done regardless of the robotic brand or design – and before the serious robotic technique even exists.
Multipurpose visualization applications this sort of as floor coating time color mapping and spray cone show, which are integrated in FASTSUITE Edition 2, allow visualization of spray protection throughout the offline programming and optimization section.
With FASTSUITE Version 2, brands can overcome the restrictions of on-line programming by utilizing the CAD information of the section to realize exact route arranging on complex 3D surfaces. Process simulation allows the optimization of robotic trajectories to dose the suitable sum of sprayed substance and accomplish uniform deposition alongside the surface, guaranteeing coverage and removing squander.
Simulation plays a vital position through the total undertaking implementation process. Powerful simulation resources are hence an integral section of FASTSUITE Version 2, letting cell layouts and tooling types to be validated for accessibility for the duration of the design section, and cycle (time) estimates to be created even for complicated multi-robot cells. The use of particular tools to assess the total approach consequence assists to stay clear of programming errors and to validate applications before they are downloaded to a actual cell. The simulation outcomes of the developed painting and surface area therapy applications can be exported in 3D PDF format for quickly and helpful communication.