ANALYSIS AND OPTIMIZATION OF QUICK-RETURN CHARACTERISTICS OF THE BEATING⁃UP SLEY BASED ON MULTIVARIABLE DESIGN

QIU HaiFei

doi:10.16579/j.issn.1001.9669.2024.05.011

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ANALYSIS AND OPTIMIZATION OF QUICK-RETURN CHARACTERISTICS OF THE BEATING⁃UP SLEY BASED ON MULTIVARIABLE DESIGN

Optimzation · Reliability | 更新时间：2025-04-27

- ANALYSIS AND OPTIMIZATION OF QUICK-RETURN CHARACTERISTICS OF THE BEATING⁃UP SLEY BASED ON MULTIVARIABLE DESIGN
- Journal of Mechanical Strength Vol. 46, Issue 5, Pages: 1101-1107(2024)
- 作者机构：
  
  西京学院机械工程学院
- 作者简介：
- 基金信息：
- DOI：10.16579/j.issn.1001.9669.2024.05.011
  CLC： TH122;TS103
- Published：15 October 2024
- 稿件说明：
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QIU HaiFei. ANALYSIS AND OPTIMIZATION OF QUICK-RETURN CHARACTERISTICS OF THE BEATING⁃UP SLEY BASED ON MULTIVARIABLE DESIGN[J]. Journal of mechanical strength , 2024, 46(5): 1101-1107.
DOI：

QIU HaiFei. ANALYSIS AND OPTIMIZATION OF QUICK-RETURN CHARACTERISTICS OF THE BEATING⁃UP SLEY BASED ON MULTIVARIABLE DESIGN[J]. Journal of mechanical strength , 2024, 46(5): 1101-1107. DOI： 10.16579/j.issn.1001.9669.2024.05.011.

摘要

为改进筘座后摆急回特性，通过打纬原理分析与机构学推演，提出了一种针对牵手栓最大曲线位移

的优化数学模型。利用构件长度（

）和曲柄转角

构建多变量设计空间，实现了短牵手四连杆打纬的参数化功能模型开发，并通过机构学仿真对其运动位姿与质心轨迹进行分析验证。实例研究结果表明，曲柄长度

和转角

对目标函数

(

)的敏感度影响更大，多变量（DV_1、DV_2、DV_3）耦合可有效增强打纬筘座急回特性的设计可塑性；当牵手栓最大曲线位移

增大至71.41 mm时，极位夹角

和行程速比系数

分别被提高了10.96°和0.131，筘座急回运动效果得到明显提升。优化结果符合杆长条件和机构传动要求，有助于四连杆打纬系统的设计创新和性能改进。

Abstract

For improving the quick‑return characteristics of the sley movement

an optimal mathematical model for maximum curve displacement Sm of the connectingarm pin was proposed through beating‑up principle analysis and mechanism deduction.A multivariable design space was constructed by use of the component length(lc

lf)and crankangleα.The parametric functional model development of the four‑bar beating‑up with short connecting rod was realized

and its kinematic posture and centroid trajectory were analyzed and verified through mechanism simulation.The results of the case study indicate that the variable lc andαhave more greater influence on the sensitivity of the objective function F(X)

and multivariable(DV_1

DV_2

DV_3)coupling can effectively enhance the design plasticity of the quick‑return characteristics of the sley.When the maximum curve displacement Sm of the connectingarm pin increases to 71.41 mm

the extreme position angleθand the travel speed ratio coefficient K are increased by 10.96°and 0.131 respectively

and the quick-return motion effect of the sley is obviously improved.The optimization results accord with the conditions of rod length and mechanism transmission requirement

which are conductive to the design innovation and performance improvement of the four‑bar beating‑up system.

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Related Institution

西京学院机械工程学院

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