Tension Control of a Web Fed Machine
Main Article Content
Abstract
The applications of web handling systems such as paper manufacturing, printing and film process, flexible component, paper manufacturing, textile.. are widely used in processing and manufacturing industry. In the application, tension control of the web plays a very crucial role. The mathematical model of the continuous web transport system is developed thanks to energy balance method. The paper presents a method of designing a tension control based on Linear Quadratic control. Several numerical simulation results are given to prove the effectiveness of the closed-loop system. In addition, the simulation results show incorrectness of another study in term of tension regulation.
Keywords
web tension control, web-fed machine, winding systems, roll-to-roll process
Article Details
References
[1]. Kang, H., Baumann, R.R. Mathematical modeling
and simulations for machine directional register in
hybrid roll-to-roll printing systems. Int. J. Precis. Eng.
Manuf. 15, 2109–2116 (2014).
https://doi.org/10.1007/s12541-014-0570-z
[2]. Li J, Mei X, Tao T, Liu S. Research on the register
system modelling and control of gravure printing
press. Proceedings of the Institution of Mechanical
Engineers, Part C: Journal of Mechanical Engineering
Science. 2012;226(3):626-635.
https://doi.org/10.1177/0954406211415914.
[3]. H. Koç, D. Knittel, M de Mathelin and G. Abba,
Modeling and Robust Control of Winding Systems
for Elastic Webs, IEEE Trans. Contr. Syst. Technol.,
Vol. 10, March 2002, pp. 197-208.
[4]. Nguyen, vi & Nguyen, Hung & Tran, Thanh. (2019).
Robust control design of nonlinear roll-to-roll
dynamic system in printed electronics technology.
Journal of Intelligent & Fuzzy Systems. 38. 1-12.
https://doi.org/10.3233/JIFS-190368.
[5]. T. Zhang, Y. Zheng, Z. Chen and Z. Deng, ""A Direct-Decoupling Closed-Loop Control Method for Roll-to-Roll Web Printing Systems,"" in IEEE Transactions on
Automation Science and Engineering,
https://doi.org/10.1109/TASE.2020.3005977.
[6]. D. Knittel, and al., Tension Control for Winding
Systems with Two-Degrees of Freedom H∞
Controllers, IEEE Trans. Ind. Applicat. Syst., Vol. 39,
January/February 2003, pp. 113-120.
[7]. B.T. Boulter, Y. Hou, Z. Gao and F. Jiang., Active
Disturbance Rejection Control for Web Tension
Regulation and Control, IEEE Conference on
Decision and Control, Orlando, USA, December
2001, pp. 4974-4979.
[8]. B.-M. Chung, S.-G. Lee, and C.-S. Cho, Active
tension control of high-speed splitting Machines
using fuzzy PID, in Proceedings of the IEEE
International Conference on Mechatronics (ICM ’05),
Taipei, Taiwan, July 2005, pp. 72–77.
[9]. C. Wang, Y. Wang, R. Yang, and H. Lu, Research on
precision tension control system based on neural
network, IEEE Transactions on Industrial Electronics,
vol. 51, no. 2, 2004, pp. 381–386.
[10]. N. R. Abjadi, J. Soltani, J. Askari, and G. R. Arab
Markadeh, Nonlinear sliding-mode Control of a
multi-motor web-winding system without tension
sensor, IET Control Theory and Applications, vol. 3,
no. 4, 2009, pp. 419–427.
[11]. P. R. Pagilla, N. B. Siraskar, and R. V. Dwivedula,
Decentralized control of web processing lines, in
Proceedings of the IEEE International Conference on
Control Applications, Toronto, Canada, 2005, pp. 940
945.
[12]. P.R.Pagilla, N.B.Siraskar, and R.V.Dwivedula,
Decentra lized control of web processing lines, IEEE
Transactions on Control Systems Technology, vol.
15, no. 1, 2007, pp. 106–117.
[13]. P. R. Pagilla, N. B. Siraskar, and R. V. Dwivedula, A
de decentralized model reference Adaptive controller for
large-scale systems, in Proceedings of the 16th
Triennial World Congress of International Federation
of Automatic Control (IFAC ’05), Prague, Czech
republic, July 2005, pp. 112–117.
[14]. C. L. Chen, K. M. Chang, and C. M. Chang.
Modeling and control of a web-fed machine, Applied
Mathematical Modelling, vol. 28, 2004, pp. 863-876.
and simulations for machine directional register in
hybrid roll-to-roll printing systems. Int. J. Precis. Eng.
Manuf. 15, 2109–2116 (2014).
https://doi.org/10.1007/s12541-014-0570-z
[2]. Li J, Mei X, Tao T, Liu S. Research on the register
system modelling and control of gravure printing
press. Proceedings of the Institution of Mechanical
Engineers, Part C: Journal of Mechanical Engineering
Science. 2012;226(3):626-635.
https://doi.org/10.1177/0954406211415914.
[3]. H. Koç, D. Knittel, M de Mathelin and G. Abba,
Modeling and Robust Control of Winding Systems
for Elastic Webs, IEEE Trans. Contr. Syst. Technol.,
Vol. 10, March 2002, pp. 197-208.
[4]. Nguyen, vi & Nguyen, Hung & Tran, Thanh. (2019).
Robust control design of nonlinear roll-to-roll
dynamic system in printed electronics technology.
Journal of Intelligent & Fuzzy Systems. 38. 1-12.
https://doi.org/10.3233/JIFS-190368.
[5]. T. Zhang, Y. Zheng, Z. Chen and Z. Deng, ""A Direct-Decoupling Closed-Loop Control Method for Roll-to-Roll Web Printing Systems,"" in IEEE Transactions on
Automation Science and Engineering,
https://doi.org/10.1109/TASE.2020.3005977.
[6]. D. Knittel, and al., Tension Control for Winding
Systems with Two-Degrees of Freedom H∞
Controllers, IEEE Trans. Ind. Applicat. Syst., Vol. 39,
January/February 2003, pp. 113-120.
[7]. B.T. Boulter, Y. Hou, Z. Gao and F. Jiang., Active
Disturbance Rejection Control for Web Tension
Regulation and Control, IEEE Conference on
Decision and Control, Orlando, USA, December
2001, pp. 4974-4979.
[8]. B.-M. Chung, S.-G. Lee, and C.-S. Cho, Active
tension control of high-speed splitting Machines
using fuzzy PID, in Proceedings of the IEEE
International Conference on Mechatronics (ICM ’05),
Taipei, Taiwan, July 2005, pp. 72–77.
[9]. C. Wang, Y. Wang, R. Yang, and H. Lu, Research on
precision tension control system based on neural
network, IEEE Transactions on Industrial Electronics,
vol. 51, no. 2, 2004, pp. 381–386.
[10]. N. R. Abjadi, J. Soltani, J. Askari, and G. R. Arab
Markadeh, Nonlinear sliding-mode Control of a
multi-motor web-winding system without tension
sensor, IET Control Theory and Applications, vol. 3,
no. 4, 2009, pp. 419–427.
[11]. P. R. Pagilla, N. B. Siraskar, and R. V. Dwivedula,
Decentralized control of web processing lines, in
Proceedings of the IEEE International Conference on
Control Applications, Toronto, Canada, 2005, pp. 940
945.
[12]. P.R.Pagilla, N.B.Siraskar, and R.V.Dwivedula,
Decentra lized control of web processing lines, IEEE
Transactions on Control Systems Technology, vol.
15, no. 1, 2007, pp. 106–117.
[13]. P. R. Pagilla, N. B. Siraskar, and R. V. Dwivedula, A
de decentralized model reference Adaptive controller for
large-scale systems, in Proceedings of the 16th
Triennial World Congress of International Federation
of Automatic Control (IFAC ’05), Prague, Czech
republic, July 2005, pp. 112–117.
[14]. C. L. Chen, K. M. Chang, and C. M. Chang.
Modeling and control of a web-fed machine, Applied
Mathematical Modelling, vol. 28, 2004, pp. 863-876.