首页 /研究 /New Actuation Mechanism for Actively Cooled SMA Springs in a Neurosurgical Robot
SURGICAL

New Actuation Mechanism for Actively Cooled SMA Springs in a Neurosurgical Robot

Shing Shin Cheng, Yeongjin Kim, Jaydev P. Desai

发表年份
2017
引用次数
58

摘要

The paper presents the use of shape memory alloy (SMA) spring actuators with real-time cooling to control the motion of the MINIR-II robot. A new actuation mechanism involving the passage of water as the cooling medium and air as the medium to drive out the water has been developed to facilitate real-time control of the springs. Control parameters, such as current, water flow rates, SMA pre-displacement, and gauge pressure of the compressed air, are identified from the SMA thermal model and from the actuation mechanism. In depth modeling and characterization have been performed regarding these parameters to optimize the robot motion speed. Forced water cooling has also been compared with forced air cooling and proved to be the superior method to achieve higher robot speed. An improved robot design and an MRI-compatible experimental platform have been developed for the implementation of the actuation mechanism.

关键词

SMA*ActuatorMechanism (biology)RobotCompressed airShape-memory alloyWater coolingMotion controlMechanical engineeringEngineering

相关论文

查看 SURGICAL 分类全部论文