Design a shape-shifting robot gripper with granular material

Document Type : Original Article

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Abstract

In this paper, a new kind of gripper is designed. This universal gripper is proposed where different objects should be gripped easily, reliably within rapid succession without any feedback. By adding an annular balloon around the granular bag, a lateral force pushes the main membrane and increases the friction force between the bag and the load. According to the acquired test results reported in this paper, the modification on this new robotic gripping mechanism is effective and the success rate of the gripper is formulated considering the influential parameters and it can provide a good estimation for a gripper design.

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References

1. Monkman, G. J., Hesse, S., Steinmann, R., and Schunk, H., "Robot grippers", Wiley-VCH, (2007).
2. Kaneko, M., Higashimori, M., Takenaka, R., Namiki, A. and Ishikawa, M., "The 100 G capturing robot-too fast to see", Mechatronics, IEEE/ASME Transactions on, Vol. 8, pp. 37-44, (2003).
3. Tsourveloudis, N., Valavanis, K., Kolluru, R. and Nikolos, I.K., "Position and suction control of a reconfigurable robotic gripper", Machine Intelligence and Robotic Control, 11(2), pp. 53-62, (1999).
4. Roy, D., "Design and Developmental Metrics of a ‘Skin-Like’ Multi-Input Quasi-Compliant Robotic Gripper Sensor Using Tactile Matrix", Journal of Intelligent and Robotic Systems, 46(4), pp. 305-337, (2006)
5. Droessler, N.J., Hall, D.K., Tyler, M.E., Ferrier, N.J., "Tongue-based electrotactile feedback to perceive objects grasped by a robotic manipulator", IEEE Conf. on EMBS, (2001).
6. Rienmüller, T. and Weissmantel, H., "A shape adaptive gripper finger for robots", Proc 18th International Symposium on Industrial Robots, Switzerland, pp. 241–250, (1988).
7. Angel selles, M., perez-bernabeu, E. and sanchez-caballero, S., "A design approach to a standard manipulator", Scientific Bulletin of the Petru Maior, University of Tîrgu Mureş, Vol. 9, .pp. 2, (2012).
8. Perovskii AP, "Universal grippers for industrial robots", Russ Eng J 60:3–4, (1980).
9. Schmidt, I., "Flexible moulding jaws for grippers", Industrial Robot, Vol. 5, pp. 24-26, (1978).
10. Korayem, M.H., Bamdad, M. and Saadat, M., "Workspace analysis of cable-suspended robots with elastic cable", IEEE Robotics and Biomimetics, (2007).
11. Hirose, S. and Umetani, Y., "Development of soft gripper for the versatile robot hand", Mechanism and Machine Theory, Vol. 13, pp. 351–359, (1978).
12. Majmudar, T.S., Sperl, M., Luding, S. and Behringer, R.P., "Jamming transition in granular Systems", Phys Rev Lett., (2007).
13. Corwin, E.I., Jaeger, H.M. and Nagel, S.R., "Structural signature of jamming in granular media", Nature Report, No. 435, pp. 1075–1078, (2005).
14. O’Hern, C.S., Silbert, L.E., Liu, A.J. and Nagel, S.R., "Jamming at zero temperature and zero applied stress", Phys Rev E., (2003).
15. Jaeger, H.M., Nagel, S.R. and Behringer, R.P., "Granular solids, liquids, and gases", Rev Mod Phys., Vol. 68, pp. 1259–1273, (1996).
16. Liu, A.J. and Nagel, S.R. "Jamming is not just cool any more", Nature .Report, No. 396, .pp. 21–22, (1998).
17. Amend, J.R., Brown, E.M., Rodenberg, N., Jaeger, H.M. and Lipson, H., "A positive pressure universal gripper based on the jamming of granular material", Robotics, IEEE Transactions on,
Vol. 28, pp. 341-350, (2012).
18. Brown, E., Rodenberg, N., Amend, J., Mozeika, A., Steltz, E., Zakin, M.R. and Jaeger, H.M., "Universal robotic gripper based on the jamming of granular material", Proceedings of the National Academy of Sciences, 107(44), .pp. 18809-18814, (2010).
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