Abstract
This paper establishes a semi-physical simulation platform on the basis of massive data analysis and computation according to the characteristics of mining speed-regulating magnetic coupling. The platform can be used to simulate various environment changes in the actual on-load application of magnetic coupling, verify the control strategy for magnetic coupling, provide simulation basis and references for on-site usage, as well as establish a mathematical model for all components of driving system of the entire belt conveyor. Through the experiment analysis, it is proved that this platform can effectively and objectively simulate the speed control situation of coupling, as well as the multi-power balance effect of the belt conveyor during soft startup of belt conveyor, thus providing practical engineering applications with strong data support.
Similar content being viewed by others
References
Wu, X., Lee, D.W.: Magnetic coupling between folded cantilevers for high-efficiency broadband energy harvesting. Sens. Actuators, A 234, 17–22 (2015)
Niu, Y.: Design Theory and Experimental Study of Permanent Magnetic Coupling for Mining Use, pp. 35–45. China University of Mining and Technology, Beijing (2014)
Wang, G.: Soft start performance analysis of magnetic coupling, 3 (2014)
Li, C.: Characteristic Study and Test Platform Design of Magnetic Coupling, pp. 49–61. Daliann Maritime University, Dalian (2014)
Ge, Y., Zhou, K., Liu, Y., Zhao, P.: Speed regulating mechanism research of magnetic coupling. J. Dalian Jiaotong Univ. 35(3), 32–36 (2014)
Yang, Z., Hao, T., Wang, Q.S.: Analysis of dynamometry scheme for semi-physical simulation platform of space docking mechanism. Adv. Eng. Softw. 38(10), 710–716 (2007)
Sheng, X., Liu, X., Sun, Z.: The semi-physical simulation system design of micro-satellite based-on HLA. Proc. Eng. 31, 801–806 (2012)
Research on the visual semi-physical simulation platform of quad-rotor unmanned helicopter
Le, T.: Performance Study of Permanent Magnetic Coupling, pp. 11–17. Daliann Maritime University, Dalian (2012)
Chai, S., Wang, L., Rogers, E.: Model predictive control of a permanent magnet synchronous motor with experimental validation. Control Eng. Pract. 21(11), 1584–1593 (2013)
Liu, Y.F., Zhi, B.J.: Application and energy saving analysis of permanent magnetic speed control in the pump system. Proc. Eng. 15, 549–553 (2011)
Zhang, S., Mao, W.: Energy efficiency optimization of coal conveying systems with consideration of crushers. Energy Proc. 105, 3253–3261 (2017)
He, D., Pang, Y., Lodewijks, G.: Green operations of belt conveyors by means of speed control. Appl. Energy 188, 330–341 (2017)
He, D., Pang, Y., Lodewijks, G.: Speed control of belt conveyors during transient operation. Powder Technol. 301, 622–631 (2016)
Lin, J., Long, Q.: Development of a multi-agent-based distributed simulation platform for semiconductor manufacturing. Expert Syst. Appl. 38(5), 5231–5239 (2011)
Jian, Y.: Design Calculation of Belt Conveyor. Hunan Agric. Mach. 40(5), 72–73 (2013)
Li, G., Cao, L., Li, R.: Dynamics modeling and simulation study of large-scale belt conveyor. Mach. Des. Res. 24(4), 98–106 (2008)
Yu, D., Chen, W., Li, H.: Error modeling of parallel robots for semi-physical simulation platform of space docking mechanism. Proc. Eng. 15(5), 431–435 (2011)
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Lei, W., Yuan, J.Z. & Li, Z. Design of multi-functional simulation platform based on mining speed-regulating magnetic coupling. Cluster Comput 22 (Suppl 2), 4579–4588 (2019). https://doi.org/10.1007/s10586-018-2224-x
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10586-018-2224-x