Litcius/Paper detail

Design of a 2RRU-RRS Parallel Kinematic Mechanism for an Inner-Cavity Machining Hybrid Robot

Lingmin Xu, Xinxue Chai, Ye Ding

2023Journal of Mechanisms and Robotics12 citationsDOI

Abstract

Abstract This article presents a hybrid robot for machining the inner cavity of large-scale workpiece, and it is composed of three parts: a mobile device with 1T degree-of-freedom (DoF), a serial module with 1R1T DoFs, and a 2RRU-RRS parallel kinematic mechanism (PKM) with 2R1T DoFs. The 2RRU-RRS PKM has some advantages with a folding structure, only one S joint, two certain rotational axes, and all the fixed actuators. In this article, the conceptual design, theoretical kinematic and dynamic modeling, performance evaluation, and optimization of the parallel system are investigated. A 3D printing model is built to demonstrate the application potential. This article plays an exemplary role in the design of inner-cavity machining hybrid robots.

Topics & Concepts

KinematicsMechanism (biology)MachiningActuatorRobotMechanical engineeringComputer scienceMechanism designKinematic chainParallel manipulatorRobot kinematicsControl theory (sociology)Folding (DSP implementation)EngineeringControl engineeringSimulationMobile robotPhysicsArtificial intelligenceMathematicsClassical mechanicsControl (management)Quantum mechanicsMathematical economicsRobotic Mechanisms and DynamicsSoft Robotics and ApplicationsManufacturing Process and Optimization