Effect of taper tension profile on the telescoping in a winding process of high speed roll to roll printing systems
Changwoo Lee/Hyunkyoo Kang/Hojoon Kim/Keehyun Shin
The Journal of Mechanical Science and Technology, vol. 23, no. 11, pp.3036-3048, 2009
Abstract : Winding is an integral operation in almost every roll to roll system. A center-wound roll is one of the suitable and
general schemes in a winding mechanism. In general, the quality of wound roll is known to be related to the lateral
displacement error and starring defect of a wound roll. Especially, a telescoping within a center-wound roll can cause
damages such as misalignment between layers, folding, wrinkle, etc. Taper tension is known to be one of the major
factors which affect the shape of a wound roll. It is therefore necessary to analyze the relationship between taper tension
profile and telescoping within the center-wound roll to prevent winding failure and to sustain high quality of the
printed materials. It is hard to compensate for undesirable winding roll shapes such as telescoping, because a winding is
commonly a final process in roll to roll systems and has no feedback control mechanism to correct winding roll shape
directly during winding operation. Therefore, an optimal taper tension profile and the accurate control of it in a winding
section could be one way to shape the fail-safe of a wound roll. Through the correlation between taper tension profile
and telescoping in a winding process, a mathematical model for the telescoping due to tension distribution in cross
machine direction was developed, and verified by experimental study. A new logic to determine the proper taper tension
profile was designed by combining and analyzing the winding mechanism which includes nip induced tension
model, relationship between taper tension profile and telescoping, relationship between taper value and telescoping.
Numerical simulations and experimental results show that the proposed method is very useful for determining the desirable
taper tension profile during the winding process and preventing defects of winding roll shape such as telescoping.
Keyword : Lateral displacement; Roll to roll system; Taper tension profile; Telescoping; Winding process; Wound roll |