摘要
阐述了一种新型刷辊式采棉机的基本结构及工作原理,运用三维设计软件建立了采摘装置三维实体模型,并利用ADAMS虚拟样机分析软件对采摘部件进行了初步的运动学仿真,获得了刷棉辊作用元件——纵向刷板的运动规律。仿真结果表明:传动系统中滚子链传动的多边形效应,使纵向刷板在采摘物料时具有一定的振动和冲击力;此外,提高刷棉辊的旋转速度,能够显著地提高纵向刷板的加速度。仿真分析的结果为刷辊式采棉机工作机理的研究,以及刷棉辊结构特征、配置参数的研究,提供了一定的理论分析依据和参考。
This paper presents the essential structures and working principle of a brand new roller stripping -type cotton picker .It concerns the modeling of three-dimensional picker unit using three-dimensional design software;and primary kinematics simulation of the picker under ADAMS-based virtual prototype environment and acquiring the motion relation-ship of axial-direction cotton beaters of roller .The simulated conclusion indicates that the polygonal effect in roller chain drive makes bats produce the vibration and strike on touched cotton plants .Moreover , the increase of the rotation speed of stripping roller is observably capable of obtaining an acceleration rise on beaters .The result of simulation provides a certain foundation and reference for theory analysis .
出处
《农机化研究》
北大核心
2015年第12期63-65,69,共4页
Journal of Agricultural Mechanization Research
基金
现代农业装备重点实验室开放基金项目(201303001)
"十二五"国家科技支撑计划项目(2013BAD08B02)
中国农业科学院科技创新项目(2013-2018)
关键词
刷辊式采棉机
刷棉辊
刷板
运动学
仿真
roller stripping-type cotton harvester
cotton-beated roller
cotton bat
kinematics
simulation
