Litcius/Paper detail

Design of Non-Circular Pulleys for Torque Generation: A Convex Optimisation Approach

Daniele Ludovico, Paolo Guardiani, Francesco Lasagni, Jinoh Lee, Ferdinando Cannella, Darwin G. Caldwell

2021IEEE Robotics and Automation Letters19 citationsDOI

Abstract

Nowadays, robotic research focuses more and more on attaining energy-efficient and safe solutions. They are key-aspects of industrial robots, such as inspection and maintenance robots. The introduction of a mechanism that passively compensates the joint torque caused by the weight of the robot may offer a valid solution. Avoiding the need for actuators to balance gravity torques helps decrease the power consumption and the size of the actuators. Furthermore, a passive gravity compensation mechanism allows the robot to hold a static position without the need for an external power source, hence avoiding the risk of collapsing in case of failure of the actuators. This work focuses on designing a torque generator composed of a non-circular pulley and a spring, which, by solving a convex optimisation problem, offers a new methodology for creating any generic torque and thereby also succeeds in solving gravity compensation problems. This methodology guarantees the outcome of feasible non-circular pulleys which minimise the torque required to perform any specific task.

Topics & Concepts

PulleyTorqueActuatorControl theory (sociology)Compensation (psychology)RobotControl engineeringDamping torqueComputer scienceGenerator (circuit theory)Position (finance)EngineeringPower (physics)Mechanical engineeringDirect torque controlControl (management)Induction motorArtificial intelligencePhysicsVoltageElectrical engineeringEconomicsPsychoanalysisQuantum mechanicsThermodynamicsPsychologyFinanceRobotic Mechanisms and DynamicsPiezoelectric Actuators and ControlRobot Manipulation and Learning