Abstract
The design and realization of a 7-Function master-slave deep-sea hydraulic manipulator can be used in 7000 meters depth is proposed. Linear actuator, rotary actuator and cycloid motor are the three basic modules of the slave arm. To achieve smooth control result, PI control algorithm with variable gains is applied on the control of the slave arm. The control algorithm is also certified effective in alleviating the movement delay and overshoot jitter of slave-arm. Based on the reliable running experiments on land, a pressure experiment system to test the manipulator’s index of 7000m depth is proposed. The pressure experimenting process is described in detail. Finally, actually application testing in the sea is presented. During the process of application testing, the manipulator movement function was normal and successfully completed the goal underwater fetching tasks. The whole result of experiment shows that the hydraulic manipulator satisfies 7000m design depth index.
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References
Dunnigan, M.W., Lan, D.M., Clegg, A.C., Edwards, I.: Hybrid position/force control of a hydraulic underwater manipulator. IEEE Proceedings: Control Theory and Applications 143, 145–151 (1996)
Marani, G., Choi, S.K., Yuh, J.: Underwater autonomous manipulation forintervention missions AUVs. Ocean Engineering 36, 15–23 (2009)
Shim, H., Jun, B.H., Lee, P.M., Baek, H., Lee, J.: Workspace control system of underwater tele-operated manipulators on an ROV. Ocean Engineering 37, 1036–1047 (2010)
Schilling robotics [EB/OL] (January 4, 2011), http://www.schilling.com/
Hydro-Lek innovative design engineering [EB/OL] (January 4, 2011), http://www.hydro-lek.com
International Submarine Engineering [EB/OL] (January 4, 2011), http://www.ise.bc.ca/
Shim, H., Jun, B.H., Lee, P.M., Kim, B.: Dynamic workspace control method for underwater manipulator of floating ROV. International Journal of Precision Engineering and Manufacturing 14, 387–396 (2013)
Shen, X., Xu, G., Yu, K., Tang, G., Xu, X.: Development of a deep ocean master-slave electric manipulator control system. In: Jeschke, S., Liu, H., Schilberg, D. (eds.) ICIRA 2011, Part II. LNCS, vol. 7102, pp. 412–419. Springer, Heidelberg (2011)
Yao, J.J., Wang, C.J.: Model reference adaptive control for a hydraulic underwater manipulator 18, 893–902 (2012)
Ryu, J.H., Kwon, D.S., Lee, P.M.: Control of underwater manipulators mounted on an rov using base force information. In: Proceedings of the 2001 IEEE International Conference on Robotics and Automation, vol. 4, pp. 3238–3243 (2001)
Levesque, B., Richard, M.: Dynamic Analysis of a Manipulator in a Fluid Environment. International Journal of Robotics Research 13, 221–231 (1994)
Kawamura, S., Sakagami, N.: Analysis on dynamics of underwater robot manipulator basing on iterative learning control and time-scale transformation. In: Proceedings of the 2002 IEEE International Conference on Robotics and Automation, Washington, pp. 1088–1094 (2002)
Yao, J.J., Wang, L.Q., Jia, P., Wang, Z.: Development of a 7-Function hydraulic underwater manipulator system. In: Proceedings of the 2009 IEEE International Conference on Mechatronics and Automation, Changchun, China, pp. 1202–1206 (2009)
Zhang, Q., Chen, J., Huo, L., Sun, B., Zhao, Y., Shengguo, C.: Design and Experiments of a Deep-sea Hydraulic Manipulator System, Oceans, San Diego (2013)
Huo, L., Zhang, Q., Zhang, Z.: A method of inverse kinematics of a 7-Function underwater hydraulic manipulator, Oceans, San Diego (2013)
Li, L., Sun, B., Zhang, Q.: Model and Simulation Analysis of Asymmetrical Hydraulic Cylinder Controlled by Servo-valve. Coal Mine Machinery 32(10), 89–91 (2011)
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Qifeng, Z. et al. (2014). Design and Pressure Experiments of a Deep-Sea Hydraulic Manipulator System. In: Zhang, X., Liu, H., Chen, Z., Wang, N. (eds) Intelligent Robotics and Applications. ICIRA 2014. Lecture Notes in Computer Science(), vol 8917. Springer, Cham. https://doi.org/10.1007/978-3-319-13966-1_12
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DOI: https://doi.org/10.1007/978-3-319-13966-1_12
Publisher Name: Springer, Cham
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