Mechanical Foundations provides participants with knowledge and hands-on experiences with a variety of tools and hardware components. By understanding the foundational mechanical principles that underpin robotics, participants develop the ability to design, construct, and maintain these systems with increased confidence and efficacy. The course covers topics such as structure, power transmission, motion, and mechanisms using hands-on activities with REV DUO kits.
As part of the SMART Robotics Technician Program, Mechanical Foundations is aligned to the knowledge, skills, and attitudes that robotics technicians need to be successful. The SMART Robotics Technician Program is endorsed by the ARM Institute.
As part of the SMART Robotics Technician Program, Mechanical Foundations is aligned to the knowledge, skills, and attitudes that robotics technicians need to be successful. The SMART Robotics Technician Program is endorsed by the ARM Institute.
Additional Resources
Mechanical Foundations provides participants with knowledge and hands-on experiences with a variety of tools and hardware components. This unit equips participants with the knowledge and skills needed to assemble stable robotic structures using tools and hardware in the REV DUO building system.
An understanding of transmission of motion and mechanical advantage is fundamental to the design, operation, and maintenance of robotic systems. In this unit, participants will assemble several iterations of a motorized fan and observe the impacts on speed and torque.
Introduction
Mini-Project: Basic Fan
Mini-Project: Gear Train Fan
Mini-Project: Faster Fan
Mini-Project: Stronger Fan
Mini-Project: Even Stronger or Faster
Mini-Project: Chains and Sprockets
Unit Project: Transmitting Motion with the Riverbed Crane
Unit Quiz: Transmissions and Mechanical Advantage with REV DUO
Drivetrains are comprised of the components that enable a robot to move, including the chassis, motors, wheels, gears, and transmission systems. A drivetrain can take many different forms depending on factors such as the terrain, speed requirements, and payload capacity of the robot. In this unit, participants will build and evaluate several types of drivetrains as preparation to design a custom drivetrain that can climb over obstacles.
Introduction
Setup with REV DUO
Mini Project: Basic 2 Motor Drivetrain Build
Mini-Project: Basic Drivetrain
Mini-Project: Omni Wheels
Mini-Project: 4-Motor Drivetrain Build
Mini-Project: 4-Motor Drive
Mini-Project: Traction Wheels
Mini-Project: Mecanum Wheels
Unit Project: Obstacle Climbing Drivetrain
Unit Quiz: Drivetrains with REV DUO