This paper presents a novel design of extensible continuum robots in light of origami-inspired folding techniques. The design starts from a modularized crease pattern, which consists of two triangular bases and three waterbomb bases, and generates a folding process for creating an origami waterbomb parallel structure. This further progresses to generating a compliant module with the origami parallel structure and a helical compression spring. A novel extensible continuum robot with the integrated compliant parallel modules is then proposed to imitate not only the bending motion but also the contraction of continuum creatures in nature. Mapping the origami parallel structure to an equivalent kinematic model, the motion characteristics of the origami structure are explored in terms of kinematic principles. The analysis reveals the mixed rotational and translational motion of the origami parallel module and the virtual axes for yaw and pitch motions. Following kinematics of the proposed continuum robot and features of the integrated helical spring in each module, three actuation schemes and resultant typical working phases with a tendon-driven system are presented. The design and analysis are then followed by a prototype of the extensible continuum robot with six integrated compliant modules connected in serial. The functionality of the proposed continuum robot with the origami parallel structure as its skeleton and the helical springs as the compliant backbone is validated by experimental results.
An Extensible Continuum Robot With Integrated Origami Parallel Modules
Manuscript received July 1, 2015; final manuscript received September 18, 2015; published online March 7, 2016. Assoc. Editor: Robert J. Wood.
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Zhang, K., Qiu, C., and Dai, J. S. (March 7, 2016). "An Extensible Continuum Robot With Integrated Origami Parallel Modules." ASME. J. Mechanisms Robotics. June 2016; 8(3): 031010. https://doi.org/10.1115/1.4031808
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