Multi-objective Optimization of the Mobile Garbage Compression<italic style="font-style: italic">'</italic>s Turnover Mechanism

Wen Hong; Wang Huqi; Liang Guangming; Zhang Yanqing

doi:10.16578/j.issn.1004.2539.2024.07.009

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Multi-objective Optimization of the Mobile Garbage Compression's Turnover Mechanism

Design· Calculation | 更新时间：2024-07-22

- Multi-objective Optimization of the Mobile Garbage Compression's Turnover Mechanism
- Journal of Mechanical Transmission Vol. 48, Issue 7, Pages: 69-75(2024)
- 作者机构：
  
  1.广西科技大学机械与汽车工程学院，广西柳州 545616
  2.广西柳工机械股份有限公司，广西柳州 545007
- 作者简介：
- 基金信息：
- DOI：10.16578/j.issn.1004.2539.2024.07.009
  CLC：
- Published：15 July 2024，
  
  Received：23 April 2023，
  
  Revised：09 August 2023，
- 稿件说明：
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温鸿,王虎奇,梁光明等.移动式垃圾压缩装置翻转机构的多目标优化[J].机械传动,2024,48(07):69-75.

Wen Hong,Wang Huqi,Liang Guangming,et al.Multi-objective Optimization of the Mobile Garbage Compression's Turnover Mechanism[J].Journal of Mechanical Transmission,2024,48(07):69-75.
温鸿,王虎奇,梁光明等.移动式垃圾压缩装置翻转机构的多目标优化[J].机械传动,2024,48(07):69-75. DOI： 10.16578/j.issn.1004.2539.2024.07.009.

Wen Hong,Wang Huqi,Liang Guangming,et al.Multi-objective Optimization of the Mobile Garbage Compression's Turnover Mechanism[J].Journal of Mechanical Transmission,2024,48(07):69-75. DOI： 10.16578/j.issn.1004.2539.2024.07.009.

摘要

翻转机构的铰点位置直接影响着移动式垃圾压缩装置的整体工作性能和翻转机构各铰点的工作寿命。为提高翻转机构整体工作性能和各铰点的工作寿命，首先，运用Adams软件建立虚拟样机模型并进行仿真，得到翻转机构各铰点的载荷；其次，应用静态应变试验仪对翻转机构进行测试，发现该虚拟样机模型符合实际情况，验证了模型的有效性；在此基础上，进一步分析仿真数据，确定以翻转机构的铰点

、

的最大载荷和最小传动角为优化目标，应用理想点法在Adams软件中构造出一个综合的评价函数，对其进行了优化求解。对比优化前后的数据，翻转机构的铰点

所受最大载荷减小了19.3%，铰点

所受的最大载荷减小了16.2%，最小传动角增大了32.1%。最后，确定了翻转机构各铰点位置的最优设计值，为移动式垃圾压缩装置翻转机构后续设计应用提供参考。

Abstract

The hinge position of the turnover mechanism directly affects the overall working performance of the mobile garbage compression device and the working life of each hinge point of the turnover mechanism. To improve the overall working performance of the turnover mechanism and the working life of each hinge point

Adams software is used to establish a virtual prototype model and conduct simulation to obtain the load of each hinge point of the turnover mechanism. Then

the static strain tester is used to test the turnover mechanism

and it is found that the virtual prototype model conforms to the actual situation and has verified the validit

y of the model. On this basis

through further analysis of simulation data

the maximum load and minimum transmission angle of hinge point

and

of the tilting mechanism are determined as the optimization objectives. The ideal point method is applied to construct a comprehensive evaluation function in Adams software and solve it optimally. Through comparing the data before and after the optimization

the maximum load of hinge point

of the tilting mechanism is reduced by 19.3%

the maximum load of hinge point

is reduced by 16.2%

and the minimum transmission angle is increased by 32.1%. Finally

the optimal design value of the hinge position of the turnover mechanism is determined

which can provide reference for the subsequent design and application of the turnover mechanism of the mobile garbage compression device.

关键词

翻转机构传动角理想点法多目标优化

Keywords

Turnover mechanismTransmission angleIdeal point methodMulti-objective optimization

references

姚小强.农村生活垃圾收运系统调查研究［D］.上海：上海应用技术大学，2021：12-13.

YAO Xiaoqiang.Investigation and research on the collection and transportation system of rural domestic waste［D］.Shanghai：Shanghai Institute of Technology，2021：12-13.

秦东晨，胡朋磊，王婷婷，等.后装式压缩垃圾车翻转机构转臂轻量化［J］.机械设计与制造，2021（8）：66-69.

QIN Dongchen，HU Penglei，WANG Tingting，et al.Lightweight rotary arm of flip mechanism of rear-loading garbage compression truck［J］.Machinery Design & Manufacture，2021（8）：66-69.

张玉鹏.移动式垃圾压缩站结构分析及优化［D］.长春：吉林大学，2019：10-22.

ZHANG Yupeng.Structure analysis and optimization of the mobile garbage compression station［D］.Changchun：Jilin University，2019：10-22.

程磊.大型自装卸移动式垃圾压缩装置研究［D］.徐州：中国矿业大学，2020：47-52.

CHENG Lei.Research on large self loading and unloading mobile garbage compression equipment［D］.Xuzhou：China University of Mining and Technology，2020：47-52.

孙允璞.纯电动转运车及车箱电动翻转装置设计［D］.汉中：陕西理工大学，2019：29-51.

SUN Yunpu.Design of electric turning device for pure electric transfer vehicle and car box［D］.Hanzhong：Shaanxi University of Technology，2019：29-51.

尹辉俊.虚拟环境下自卸车举升机构的运动仿真与优化［J］.机械设计，2006（5）：30-33.

YIN Huijun.Movement simulation and optimization on lifting mechanism of tipper under virtual environment［J］.Journal of Machine Design，2006（5）：30-33.

刘鸿文.材料力学［M］.2版.北京：高等教育出版社，1987：247-248.

LIU Hongwen.Mechanics of materials［M］.2nd ed.Beijing：Higher Education Press，1987：247-248.

姜春生，陈韬，张凯，等.车厢可卸式垃圾车拉臂机构动力学仿真及优化分析［J］.中国汽车，2020（7）：17-23.

JIANG Chunsheng，CHEN Tao，ZHANG Kai，et al.Dynamics simulation and optimization analysis of garbage truck hook-lift arm［J］.China Auto，2020（7）：17-23.

李增刚.ADAMS入门详解与实例［M］.2版.北京：国防工业出版社，2014：221-227.

LI Zenggang.Introduction and examples of ADAMS［M］.2nd ed.Beijing：National Defense Industry Press，2014：221-227.

宋振华，周奎，李刚.平面双摇杆机构的优化设计［J］.机械，2019，46（7）：30-35.

SONG Zhenhua，ZHOU Kui，LI Gang.Optimum design of planar double rocker mechanism［J］.Machinery，2019，46（7）：30-35.

苏有良.按最小传动角最大的曲柄摇杆机构优化设计［J］.机械设计，2014，31（6）：29-33.

SU Youliang.Optimization design of crank rocker mechanism based on maximum of minimum transmission angle［J］.Journal of Machine Design，2014，31（6）：29-33.

陈新德.基于ADAMS的平面八连杆机构的优化设计和仿真［J］.机械传动，2015，39（9）：113-116.

CHEN Xinde.Optimization design and simulation of planar eight-link mechanism based on ADAMS［J］.Journal of Mechanical Transmission，2015，39（9）：113-116.

刘华，张秋菊.一种八连杆坐卧姿态变换机构的模型构建及参数优化［J］.机械传动，2018，42（8）：46-50，70.

LIU Hua，ZHANG Qiuju.Model construction and parameter optimization of a eight-link mechanism with posture transformation of sitting and lying ［J］.Journal of Mechanical Transmission，2018，42（8）：46-50，70.

白清顺，孙靖民，梁迎春.机械优化设计［M］.6版.北京：机械工业出版社，2017：219-223.

BAI Qingshun，SUN Jingmin，LIANG Yingchun.Mechanical optimization design［M］.6th ed.Beijing：China Machine Press，2017：219-223.

叶红玲，魏旭豪，郑小龙，等.基于理想点法的液体静压支承系统多目标参数优化设计［J］.计算力学学报，2011，28（增刊1）：117-121.

YE Hongling，WEI Xuhao，ZHENG Xiaolong，et al.Multi-objective parameter optimization design of hydrostatic supporting system using ideal point method［J］.Chinese Journal of Computational Mechanics，2011，28（Suppl. 1）：117-121.

郑江涛，田大鹏，高志良.基于ADAMS的6PSS并联机构多目标优化研究［J］.机电工程，2021，38（6）：712-718，761.

ZHENG Jiangtao，TIAN Dapeng，GAO Zhiliang.Multi-objective optimization of 6PSS parallel mechanism based on ADAMS［J］.Journal of Mechanical ＆ Electrical Engineering，2021，38（6）：712-718，761.

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Multi-objective Optimization of the Mobile Garbage Compression's Turnover Mechanism

DOI：10.16578/j.issn.1004.2539.2024.07.009

摘要

Abstract

关键词

Keywords

references