Applied Sciences (Oct 2023)

Wedge Design and Dynamic Characteristics Analysis of Unequal-Length Wedge Slant Support Clutch

  • Chu Zhu,
  • Jiangming Wu,
  • Xueshen Wu,
  • Mingtao Lei,
  • Hongzhi Yan

DOI
https://doi.org/10.3390/app132111718
Journal volume & issue
Vol. 13, no. 21
p. 11718

Abstract

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This article proposes a design method for a “slow connect”-type clutch with unequal-length wedges, which ensures the wedges’ wear life while improving the engagement reliability of the clutch. A finite element model of the dynamics of an unequal-length wedge clutch was constructed. Compared with an ordinary clutch, the output shaft impact was reduced by more than 30%, and the response time and engagement time were reduced by approximately 50%. It was found that for every 0.005 mm increase in the length of the middle section of the wedge, the critical detachment speed of the wedge increased by approximately 2.2%. Finally, the excellent engagement response performance of the unequal-length wedge slant support clutch was verified through experiments.

Keywords