Research on Key Technology of New Concept Tyre Building Production Line

Full Text (PDF, 655KB), PP.46-52

Views: 0 Downloads: 0


Menglong Cao 1,* Guangbo Wang 1 Lina Sun 1

1. Dept. of Automation and Electronic Engineering, Qingdao University of Science & Technology, Qingdao, China

* Corresponding author.


Received: 7 Sep. 2011 / Revised: 11 Jan. 2012 / Accepted: 26 Mar. 2012 / Published: 8 Jul. 2012

Index Terms

Tyre Building System, Combined Production Line, rocess Simulation


Tyre building production line gradually transits from stand-alone production to combined production mode. The transformation of work mode from traditional serial intermittent to the parallel continuous has been the key technology research of tire production enterprise. And intelligent robots and other automated equipment have been the first choice of the tyre enterprise’s production line. Considering the combination of the equipment between upper and lower processes in tyre production line, the manual operations in some processes replaced by intelligent robots will improve production efficiency of tyre production enterprise, and will make outstanding contribution in reduce process losses and reduce production costs. This article studies on the key technology of combined application in production line, and makes simulation comparison for the same technical process that using different scheme, to prove the priorities and superiorities of combined production line relatives to the traditional production mode.

Cite This Paper

Menglong Cao, Guangbo Wang, Lina Sun,"Research on Key Technology of New Concept Tyre Building Production Line", International Journal of Intelligent Systems and Applications(IJISA), vol.4, no.8, pp.46-52, 2012.  DOI:10.5815/ijisa.2012.08.06


[1]Xue Peijun. The discussion on development trend of machine manufacturing[J].An yang engineering college academic journal,04 (2005)14-16. 

[2]Weihong Xie, Xiaochao Cheng, Luan Jiang. An Empirical Research of Relationship between Corporate Strategy [J].Manufacturing Flexibility and Performance,(2009)12-14.

[3]D. Shin, R. A. Wysk and L. Rothrock. A formal control-theoretic model of a human-automation interactive manufacturing system control [J]. International Journal of Production Research, 44(2006)4273-4295.

[4]Z. M. Bi, S. Y. T. Lang, W. Shen and L. Wang. Reconfigurable manufacturing systems: The state of the art [J]. International Journal of Production Research, 46(2008)967-992.

[5]Xue Jiabing,E Mingchen. The exploitation of FMS plant control system based on flexsim[J]. Chinese manufacturing informatization,1 (2007)38 - 41.

[6]A. M. Law.How to build valid and credible simulation models[C].In Proceedings of the 2005 Winter Simulation Conference, (2005)24-32.

[7]B.Y. Ekren and A. M. Ornek. A simulation based experimental design to analyze factors affecting production flow time[J].Simulation Modeling Practice and Theory,16(2008)278-293

[8]M. Savsar and M. Aldaihani. Modeling of machine failures in a flexible manufacturing cell with two machines served by a robot[J].Reliability Engineering & System Safety, 93(2008)1551 - 1562.

[9]Zhang Weide, Yan Hongsen, Xu Cheng. The simulation and application of production line based on Flexsim [J]. Industrial control computer,9 (2005) 46-47.