Periodic Reporting for period 3 - SYMPLEXITY (Symbiotic Human-Robot Solutions for Complex Surface Finishing Operations)
Berichtszeitraum: 2018-01-01 bis 2018-12-31
SYMPLEXITY is closing the gap between the highly automated production processes and the manual polishing of complex geometries by creating a safe environment of collaboration between robots and the human workers so that cooperative finishing becomes possible. To ensure relevance to European industry and practical use of the proposed objectives, SYMPLEXITY is strongly driven by end-users from different markets who are involved in the project.
SYMPLEXITY is the consistent continuation of 3 recent EU projects that achieved a technology readiness level (TRL) of TRL 4-5 and dealt with polishing technologies, robot control as well as physical interaction of humans and robots. SYMPLEXITY brings together the results and key partners of these 3 projects to achieve TRL 7 and thereby support the European industry to win the competition in the global market with higher quality, efficient manufacturing and economic production, based on human robot collaboration for polishing complexly shaped metallic surfaces. Case studies show that for many applications todays >90% of manual work can be converted to 80 % of robotic work under human control and 20 % of manual work. Key branches are tool making, medical engineering, aeronautics and automotive industry.
The requirements of the end-users regarding surface quality and finishing processes were collected. Basic investigations for the three surface finishing techniques were performed to adapt the surface finishing techniques to the materials and surfaces of the end-users' parts. This was done by conducting experimental parameter studies. Additionally, investigations for the implementation of the surface finishing techniques into the robot cells have started. Until now, this encompasses the combination of manual and laser polishing (LP), the use of high-pressure fluid-jet polishing for enabling high material removal rates (FP) and the use of the DEL software for pre-processing the parts, combining the metrology device and the robot as well as using process parameters for abrasive finishing that allow a high level of saftey (AF).
For the objective metrology system, metrology standards and surface parameters were determined that can be used for evaluating the polished surfaces. A base metrology device and the corresponding HMI were set up that can be used for fast and contactless measuring of the quality of a surface. The devlopment of measuring strategies and evaluation for the three different types of surfaces (AF, LP, FP) has begun.
The concept for the HMI and the data handling was created. This concept comprises three different interfaces: The pre-process interface for generating the nominal toolpath strategy, the in-process interface for visualizing the current status and online replanning of the polishing strategy as well as the after-process interface for visualizing the surface data acquired with the metrology device after the polishing process. The development of the three interfaces is currently ongoing. Additionally, the development of a data management system for managing the process paramter sets for different materials and surface qualities has been started.
The manual surface finishing processes used by the end-users were analyzed. Additionally, the surface finishing of demonstrator parts from the end-users was started.
A plan for dissemination and publication activities was created. First activities were carried out such as participations in trade fairs, conferences and workshops as well as scientific publications. Additionally, a website was set up containing information on the project and the current progress. Certain project partners also participated in discussions for the planned ISO TC 213 standard which will contain profile and areal descriptors and methods for surface texture metrology.
Several project meetings as well as regular telephone conferences took place to discuss new results and to plan further investigations and devlopments.