THREE DAYS | R 13 800 (Incl VAT) PER DELEGATE
Course Overview:
The Introduction to Robotics course provides participants with comprehensive knowledge and practical skills in working with industrial robots. This course covers the fundamental principles of industrial robotics; robot programming, maintenance procedures, systems integration, safety considerations and explores various applications of robotics across industries. Participants will acquire hands-on experience in programming, operating, and maintaining industrial robots.
Course Duration: 3 days (8:30 – 16:00)
Course Cost: R13 800.00 per delegate
Target Audience:
- Engineers and technicians involved in industrial automation and control systems
- Automation and control systems professionals
- Maintenance personnel
- Individuals seeking to enhance their skills in industrial robotics
Prerequisites:
- Basic understanding of industrial automation systems
- Familiarity with electrical circuits and programming concepts
PROSPECTUS
INTRO TO ROBOTICS
Course Objectives:
By the end of this course, participants will be able to:
- Understand the principles and types of industrial robots
- Program industrial robots to perform specific tasks
- Perform maintenance and troubleshooting procedures on industrial robots
- Introduction to the integration of robots into manufacturing processes and automation systemsÂ
- Ensure safety when working with industrial robots
- Explore various applications of industrial robotics in different industries
- Stay updated with current trends and future developments in robotics
Course Outline:
Day 1: Introduction to Industrial Robotics
Overview of industrial robots and their components
Types of industrial robots: articulated, SCARA, Cartesian, etc.
Advantages and disadvantages of industrial robots
Applications of industrial robots in manufacturing and other industries
Safety considerations when working with industrial robots
Introduction to robot programming
Types of robot programming languages: teach pendant, offline programming, etc.
Programming methods: online vs. offline programming
Robot control systems and software
Programming a robot to perform specific tasks
Troubleshooting robot programs
Day 2: Robot Programming and Maintenance
Introduction to advanced programming techniques for industrial robots
Path planning and trajectory generation
Coordination of multiple robots
Sensor integration and feedback control
Optimization and efficiency in robot programming
Preventative maintenance procedures for industrial robots
Routine maintenance tasks: cleaning, lubrication, etc.
Troubleshooting and fault finding in robot systems
Safety considerations when performing maintenance on industrial robots
Introduction to Robotic Systems Integration
Day 3: Robot Safety, Applications, and Future Developments
Safety regulations and standards for industrial robots
Risk assessment and hazard identification
Safety systems and features of industrial robots
Emergency stop systems and safety considerations
Ensuring compliance with safety guidelines
Case studies of industrial robot applications in automotive, food and beverage, medical, and other industries
Emerging trends and advancements in industrial robotics
Collaborative robots (cobots) and human-robot interaction
Introduction to integration of artificial intelligence and machine learning in robotics
Implications of robotics in the future job market
Delivery Method:
The course will be delivered through a combination of lectures, demonstrations, hands-on exercises, case studies, and practical sessions. Participants will have access to industrial robots, programming software, and simulation tools to gain practical experience. The course will also include interactive discussions and Q&A sessions to ensure a comprehensive understanding of the topics covered.
Course Materials:
- Course handouts and lecture notes
- Reference materials and recommended readings
- Access to Robot programming software and sample programs
- Access to industrial robots, simulators, and troubleshooting tools
Assessment and Certification:
Participants will be evaluated based on their understanding of the course content through practical exercises and a final assessment. A certificate of completion will be awarded to participants who successfully fulfil the course requirements.