Module 3. Risk analysis and design of robotic cells using cobots
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Duration: 25 hours
EQF: 4
ECVET: 0,9 C
Activity 1 - Face-to-face presentation. Theoretical background (5 hours)
Step 1: Present students with Robotic cell design fundamentals
Step 2: Present students with the risk analysis management.
Step 3: Present students the maintenance approaches.
Activity 2 - Group work for solving an industrial case of the study by simulation (8 hours)
Step 1: Introduce students to robotic cell simulation activity.
Step 2: Divide students into small groups asking them to solve the risk analysis of the case of use.
Activity 3 - Group work studying an actual industrial case of study (10 hours).
Step 1. Show the students a description of the layout and elements of the robotics cell, focusing on Failure mode and effects (FMEA) analysis.
Step 2. Divide students into small groups to develop the FMEA analysis.
Step 3. Ask the groups to diagnose and solve a failure.
Activity 4 - Open discussion about the obtained solutions of activity 2 (2 hours)
Step 1. Ask each group to present the results (solutions found).
Step 2. Lead the discussion as a whole class based on the results shown.
Step 3. Ask each group to evaluate the work done by the other groups using a checklist provided by the teacher.
Tools and materials needed:
Internet connection
laptop
free simulation software
Key Learning Outcome(s)
K3 To list the advantages and disadvantages of collaborative robotics
K6 To describe maintenance indicators and diagnostic techniques
S3 To be able to detect risks and safety problems while a robot is running
S4 To do basic maintenance operations
Assessment methodology: Evaluation of the quality and contents of the presentations and Final test.
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