新型仿人迈步式楼梯智能清洁车的设计
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摘要
针对传统清洁车单一平面的工作模式,设计了一种新型仿人迈步式楼梯智能清洁车,其整体运动方式采用仿人迈步式,通过车轮无半径转向模块使车身在狭小的楼梯之间实现无半径转弯,机身升降模块来完成前身升降和后身辅助支撑轮的升降,重心调节模块和辅助支撑轮模块以实现整体机身的稳步前进,清洁系统模块来实现楼梯面的清扫、除尘和烘干等功能。提出一种基于自适应鲁棒控制器的混沌控制方法实现永磁同步电机系统高精度的位置追踪,仿真结果表明,自适应鲁棒非线性反馈控制器对外部负载转矩扰动具有更好的鲁棒性。
Aiming at the flat working mode of traditional cleaning vehicle, a new type of humanoid walking intelligent cleaning vehicle is proposed. The whole motion mode adopts imitating human step, through the wheels without radius steering module, so that the vehicle can achieve a radius-free turn between narrow stairs. It completes the lifting of front body by the fuselage lifting module, and the back body by the auxiliary support wheel, and achieves steady progress of the whole fuselage by the center of gravity adjustment module and auxiliary support wheel module.. A series of functions such as cleaning, dedusting and drying of staircase are realized by the cleaning system module. A chaos control method based on adaptive robust controller is proposed to achieve high accuracy position tracking in permanent magnet synchronous motor system.The simulation results show that the adaptive robust nonlinear feedback controller has better robustness to external load torque disturbance.
Aiming at the flat working mode of traditional cleaning vehicle, a new type of humanoid walking intelligent cleaning vehicle is proposed. The whole motion mode adopts imitating human step, through the wheels without radius steering module, so that the vehicle can achieve a radius-free turn between narrow stairs. It completes the lifting of front body by the fuselage lifting module, and the back body by the auxiliary support wheel, and achieves steady progress of the whole fuselage by the center of gravity adjustment module and auxiliary support wheel module.. A series of functions such as cleaning, dedusting and drying of staircase are realized by the cleaning system module. A chaos control method based on adaptive robust controller is proposed to achieve high accuracy position tracking in permanent magnet synchronous motor system.The simulation results show that the adaptive robust nonlinear feedback controller has better robustness to external load torque disturbance.
引文
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[10]王国志,刘红现,柯坚,等.槽型轨道清洁车行进速度和滚刷转速关系研究[J].铁道标准设计,2017,61(9):165-168.
[2]刘志忠.一种适用于大面积公共区域的智能清洁车的设计[D].南京:东南大学,2017.
[3]周娟,钱稷,李中勇.基于单片机的温室大棚智能清洁机设计[J].安徽农业科学,2009,37(16):7668-7670.
[4]翟富兴.基于模糊神经网络的智能清洁机器人避障系统的研究与设计[D].重庆:重庆大学,2016.
[5]肖新华,袁友利,张文丽,等.多功能智能清洁运动小车的设计[J].湖北理工学院学报,2014,30(2):7-10,26.
[6]谢景一,霍玉倩.新型智能清洁器的设计与改进[J].电子测试,2018(11):27-29,140.
[7]钱思,熊蔡华,熊有伦.一种新型智能清洁机器人测控系统的设计[J].机械与电子,2007(8):46-49.
[8]王清.太阳能电池板智能清洁系统的设计与实现[D].苏州:苏州大学,2015.
[9]刘妓娣,陈建飞,薛峰.清洁车研究的技术难点与对策分析[J].机械管理开发,2012(1):4-6.
[10]王国志,刘红现,柯坚,等.槽型轨道清洁车行进速度和滚刷转速关系研究[J].铁道标准设计,2017,61(9):165-168.
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