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基于变量马达控制的喷雾机驱动防滑系统设计与试验

孙恬恬毛恩荣傅梁起宋正河李臻李平

农业机械学报2024，Vol.55Issue(5)：158-166,9.

农业机械学报2024，Vol.55Issue(5)：158-166,9.DOI:10.6041/j.issn.1000-1298.2024.05.014

基于变量马达控制的喷雾机驱动防滑系统设计与试验

Design and Experiment of Spray Machine Drive Anti-skid System Based on Variable Motor Control

孙恬恬 ¹毛恩荣 ¹傅梁起 ¹宋正河 ¹李臻 ¹李平²

作者信息

1. 中国农业大学工学院,北京 100083||智能农业动力装备全国重点实验室,北京 100083
2. 塔里木大学机械电气化工程学院,阿拉尔 843300
折叠

摘要

Abstract

The self-propelled sprayer for high ground clearance is prone to wheel slippage in complex operating environments,which can affect the flow and pressure stability of the static hydraulic drive system.In severe cases,this can lead to a loss of maneuverability,necessitating the implementation of anti-skid control to ensure stable driving performance and the ability to escape from difficult situations.A static hydraulic drive system anti-skid control scheme was proposed for a large-scale self-propelled sprayer for high ground clearance.It defined the relationship between slip ratio and adhesion coefficient by using a bilinear model,and a sliding mode controller was designed.Field off-road tests were conducted to validate the control performance of the anti-skid system.The experimental results demonstrated that the system can control the sprayer's slip ratio within 0.15.Under conditions of initial acceleration and constant speed,the mean slip ratios were 0.020 and 0.019,respectively.Moreover,under ditch-crossing conditions,the entire machine can be rapidly freed within 2 s.These results confirmed that the designed sliding mode anti-skid system for the sprayer exhibited excellent anti-skid performance,ensuring smooth operation under typical conditions and effectively reducing the impact of unfavorable ground conditions on overall stability.The research did not utilize flow control valves or diverter valves,ensuring high control precision.It held the potential to achieve comprehensive and continuous anti-skid control for large-scale high ground clearance sprayers,thereby enhancing their driving stability,ground traversability,and active escape capability.

关键词

喷雾机/静液压驱动/防滑控制/滑模控制/滑转率

Key words

sprayer/hydraulic driving/anti-skid control/sliding mode control/slip rate

分类

农业科技

引用本文复制引用

孙恬恬,毛恩荣,傅梁起,宋正河,李臻,李平..基于变量马达控制的喷雾机驱动防滑系统设计与试验[J].农业机械学报,2024,55(5):158-166,9.

基金项目

兵团财政科技计划项目(2022DB001)和拼多多-中国农业大学研究基金项目(PC2023B01005) （2022DB001）

农业机械学报

OA北大核心CSTPCD

ISSN：1000-1298

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