Dynamic behavior analysis of the winding system during filament reversing pushed by the traverse mechanism

Ma, Xunxun; Wang, Shengze; Chen, Feng; Wang, Haitao; Wang, Yongxing

doi:10.1177/00405175221143326

Textile Research Journal

2022

DOI: 10.1177/00405175221143326

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Dynamic behavior analysis of the winding system during filament reversing pushed by the traverse mechanism

Xunxun Ma

Shengze Wang

Feng Chen³

et al.

Abstract: The filament bundle is a kind of fiber assembly with an ultrahigh length–diameter ratio. For textiles, the filament is an intermediate product in the textile production process. For ease of storage, transportation and subsequent processing, the filament is wound to form a disc-shaped package with a certain size. During winding, the high-speed moving filament is placed precisely on the cylindrical surface of the package with the spiral shape by the traverse mechanism. Unfortunately, uneven tension of the filame… Show more

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2024

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Cited by 1 publication

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“…Finally, by adjusting the structural parameters, the reciprocating velocity of the filament changed more uniformly. Ma et al 7 conducted a simulation analysis of the dynamic behavior of the filament winding system during the reversing process, and found that the filament does not contact the blade at the moment of reversal. Koranne et al 8 developed three kinds of improved blades for the three major defects of the existing blade leading filament mechanism from the structure.…”

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Improvement design of blade profile on rotary wings of winder for synthetic filament: Analysis and experiment

Liu,

Li,

Wang

et al. 2024

Textile Research Journal

Self Cite

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The synthetic filament winder drives the filament through the traverse mechanism with rotary wings so that it can complete the transverse reciprocating motion when it is continuously wound and achieve the spiral distribution on the cylindrical package. When the existing traverse mechanism leads the filament, the filament is easy to oscillate and breaks away from the control of the rotary blade during the reversing process at both ends of the package, which directly affects its forming on the package. In this study, firstly, the filament leading process is analyzed from the filament leading principle of the traverse mechanism with rotary wings and the key points of the profile are identified. Secondly, we applied parameter constraints of key points and developed a blade profile that can not only meet the demand of filament reversing but also improve the above abnormal phenomena by curve-fitting, so that the blade can continuously and stably lead and control the filament during the reversing process. Finally, through the actual winding experiment, we contrasted the state of the filament leading process of the original blades with the improved blades, and verified the improvement effect. This study provides a design basis and optimization reference for realizing a smooth and stable relay between the filament and blades.

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mentioning

confidence: 99%

“…Ma et al. 7 conducted a simulation analysis of the dynamic behavior of the filament winding system during the reversing process, and found that the filament does not contact the blade at the moment of reversal. Koranne et al.…”

mentioning

confidence: 99%

Improvement design of blade profile on rotary wings of winder for synthetic filament: Analysis and experiment

Liu,

Li,

Wang

et al. 2024

Textile Research Journal

Self Cite

View full text Add to dashboard Cite

show abstract

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Dynamic behavior analysis of the winding system during filament reversing pushed by the traverse mechanism

Cited by 1 publication

References 28 publications

Improvement design of blade profile on rotary wings of winder for synthetic filament: Analysis and experiment

Improvement design of blade profile on rotary wings of winder for synthetic filament: Analysis and experiment

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