Home /Research /A flat torsional spring with corrugated flexible units for series elastic actuators
HRI

A flat torsional spring with corrugated flexible units for series elastic actuators

Yeping Wang, Yanlin Chen, Kaibin Chen, Yingxin Wu, Yanjiang Huang

Year
2017
Citations
11

Abstract

With the fast development in physical Human-Robot Interaction (pHRI), researchers have been focusing on compliant joints to ensure the safety of humanity. Series Elastic Actuator (SEA), basically consisting of a motor in series to a spring connected to the load, is an effective solution of compliant joints. In this paper, a novel flat torsional spring with corrugated flexible units for SEA is proposed to meet the requirement for the elbow joints of humanoid robots. Then a series of tests are performed in Ansys Workbench 15.0. Under 30 N-m torque, the torsional angel is 0.105 rad. The torsional stiffness is 288.5 N· m/rad. Compared to the simulation results of other existing flat torsional springs, the proposed structure has a lower torsional stiffness, which provides workers a better protection. What's more, it has a higher radial stiffness and a higher axial stiffness, which decreases the vibration and increases the control accuracy.

Keywords

StiffnessSpring (device)Torsion springActuatorWorkbenchStructural engineeringTorqueTorsional vibrationSeries (stratigraphy)Vibration

Related papers

Browse all HRI papers