DOI: 10.1126/scirobotics.adj7246 ISSN: 2470-9476

Elastic energy-recycling actuators for efficient robots

Erez Krimsky, Steven H. Collins
  • Artificial Intelligence
  • Control and Optimization
  • Computer Science Applications
  • Mechanical Engineering

Electric motors are widely used in robots but waste energy in many applications. We introduce an elastic energy-recycling actuator that maintains the versatility of motors while improving energy efficiency in cyclic tasks. The actuator comprises a motor in parallel with an array of springs that can be individually engaged and disengaged, while retaining stored energy, by pairs of low-power electroadhesive clutches. We developed a prototype actuator and tested it in five repetitive tasks with features common in robotic applications but difficult to perform efficiently. The actuator reduced power consumption by at least 50% in all cases and by 97% in the best case. Elastic energy recovery, controlled by low-power clutches, can improve the efficiency of mobile robots, assistive devices, and other engineered systems.

More from our Archive