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中国农机化学报

中国农机化学报 ›› 2022, Vol. 43 ›› Issue (2): 15-21.DOI: 10.13733/j.jcam.issn.20955553.2022.02.003

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添加配重的五杆式丹参移栽机构动力学优化设计与试验

徐高伟1,宋裕民1,褚瑞霞1,荐世春2,邱绪云1,高琦1   

  1. 1. 山东交通学院汽车工程学院,济南市,250357; 2. 山东省农业机械科学研究院,济南市,250100
  • 出版日期:2022-02-15 发布日期:2022-03-02
  • 基金资助:
    山东省重点研发计划(2019GNC106112);山东交通学院博士科研启动基金(BS2020002)

Dynamic optimization design and experiment of fivebar transplanting mechanism with counterweight for Salvia miltiorrhiza

Xu Gaowei, Song Yumin, Chu Ruixia, Jian Shichun, Qiu Xuyun, Gao Qi.   


  • Online:2022-02-15 Published:2022-03-02

摘要: 配重法能降低五杆式丹参移栽机构的振动,改善其动力学性能。为获取所添加配重的最优参数,建立五杆式丹参移栽机构的动力学模型,在动力学模型的基础上建立移栽机构的动力学优化模型,运用多目标函数获取机构不同转速下所添加配重的优化参数,通过动力学分析,确定曲柄转速为60 r/min时所对应的配重参数为最优参数组合:曲柄AB添加配重半径r2为116 mm、圆心角α2为155°、厚度d2为21.0 mm,曲柄OD添加配重半径r5为139 mm、圆心角α5为158°、厚度d5为25.8 mm。根据所得的配重参数研制样机,并进行动力学验证试验,将试验结果与动力学模型输出的结果进行比较,结果表明:测定的峰值力为520 N,方差值为752.41 N2,与理论模型输出的曲线比较,两者结果变化趋势基本吻合,验证移栽机构动力学模型和配重参数优化的准确性。

关键词: 丹参, 五杆式移栽机构, 配重, 动力学模型, 动力学优化

Abstract:
Abstract: The counterweight method can reduce the vibration of the fivebar Salvia miltiorrhiza transplanting mechanism and improve its dynamic performance. In order to obtain the optimal parameters of the added counterweight at different speeds, the optimization model on the basis of the dynamic model of fivebar Salvia miltiorrhiza transplanting mechanism was established, and the multiobjective function was used in this paper. Through dynamic analysis, it was determined that the counterweight parameters corresponding to the crank speed of 60 r/min were the optimal parameter combination. The detailed parameters were as follows: the counterweight radius r2 of crank AB was 116 mm, the center angle  α2  was 155°, the thickness d2 was 21.0 mm, the counterweight radius r5 of crank OD was 139 mm, the center angle α5 was 158°, and the thickness d5 was 25.8 mm. According to the obtained counterweight parameters, the prototype was developed and the dynamic verification test was carried out. Comparing the test results with the results output by the dynamic model, the results show that the peak force was 520 N and variance was 752.41 N2. Compared with the output curve of the theoretical model, the changing trend of the two results was approximately consistent, which verifies the accuracy of the dynamic model of transplanting mechanism and optimization of counterweight parameters.

Key words:  Salvia miltiorrhiza, fivebar transplanting mechanism, counterweight, dynamic model, dynamic optimization

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