A Continuum Structure as Medical Robotic End Effector
January 2005 to August 2009
This work was done when Dr. Kai Xu was with the Advanced Robotics & Mechanism Applications Lab, Department of Mechanical Engineering, Columbia University.
This continuum structures in this research were introduced by Simaan et al. (Simaan, Taylor et al. 2004; Simaan, Taylor et al. 2004). They consist of one or more flexible segments. Each segment consists of multiple superelastic NiTi components (tubes or beams) called backbones and several rigid disks. The figure to the right shows several examples: insets (A) and (B) show a one-segment continuum robot, inset (C) shows a two-segment continuum robot with a detachable gripper and inset (D) shows a three-segment robot with intrinsic force sensing capability.
In these examples, each segment includes one primary backbone, three secondary backbones and a few disks. As the figure below shows, the primary backbone is centrally located and three identical secondary backbones are equidistant from each other and from the primary backbone. The primary backbone is attached to the base disk and the end disk, while the secondary backbones are only attached to the end disk and can slide in appropriately toleranced holes in the base disk and in the spacer disks. Two adjacent disks and the backbones form a subsegment. Each segment possesses two degrees of freedom (DoF) via simultaneous actuation of the three secondary backbones in a push-pull mode. Since three secondary backbones are independently actuated to carry out a 2-DoF motion, these continuum robots feature actuation redundancy.
Multiple segments can be serially stacked through the use of concentric NiTi backbones to form a continuum robot with more DoFs. Three segments of the snake-like continuum robot can be stacked and numbered from the proximal end to the distal end. The end disk of the first segment also acts as the base disk of the second segment, while the end disk of the second segment also serves as the base disk of the third segment. Backbones of the first and second segment are concentric superelastic NiTi tubes, while the third segment’s backbones are superelastic NiTi beams passing through the second segment’s tubes.