机构地区:[1]江苏大学电气信息工程学院,镇江212013 [2]南通广益机电有限责任公司,南通226631
出 处:《农业工程学报》2021年第13期30-37,共8页Transactions of the Chinese Society of Agricultural Engineering
基 金:国家自然科学基金项目(51975260);江苏省重点研发计划(BE2018372);江苏省自然科学基金(BK20181443);江苏高校青蓝工程项目;镇江市重点研发计划(NY2018001)。
摘 要:针对四轮独立电驱动高地隙喷雾机因轮毂电机控制器遇到较大扰动无法及时响应而导致的转向不稳定问题,该研究提出了一种液压辅助转向方法。通过对四轮独立电驱动高地隙喷雾机的自转向底盘结构原理的分析,设计了液压辅助转向系统,在此基础上建立了简化二自由度车辆转向模型,用于对辅助转向系统转角控制进行分析,并通过仿真分析和试验验证自转向和辅助转向协调控制性能。四轮电驱动喷雾机分别在自转向系统单独作业以及自转向系统和辅助转向系统协同作业的工况下,以1 m/s的速度分别进行了坡度为15°的下坡转向对比试验和水田转向对比试验。试验结果表明:在下坡试验中,单独自转向系统作业的最大跟踪偏差为6.1°,自转向和辅助转向协同作业的最大跟踪偏差为0.9°;水田试验中,单独自转向系统作业的最大跟踪偏差为10.3°,自转向和辅助转向协同作业的最大跟踪偏差为1.5°。研究结果表明该文所设计的液压辅助转向系统具有可行性和较好的稳定性,能够满足实际作业需求。Aiming at the unstable steering of a four-wheel independent electrically driven high clearance sprayer due to the failure of the hub motor controller to respond to a large disturbance,an auxiliary steering method based on electrically controlled hydraulic pressure was proposed.Firstly,the structure and steering principle of the self-steering chassis of the four-wheel independent electrically driven highland gap sprayer were briefly introduced.Secondly,the realization method of the hydraulic assisted steering system was described,including the establishment of the steering resistance moment calculation model,and the analysis of the steering resistance moment required by the wheels under rolling and sliding conditions.The upper limit of the steering resistance moment can be calculated when the two wheels fail turning.Thirdly,based on the structural characteristics of the self-steering chassis,the kinematics model of the hydraulic auxiliary steering was established,the relevant parameters of the important components of the hydraulic system were calculated,the installation position of the hydraulic cylinder was determined,and the key components of the hydraulic system were selected.Finally,the simulation and experiment were carried out to verify the performance of coordinated control of auto steering and auxiliary steering.In the simulation test,the independent operation of self-steering,the independent operation of auxiliary steering,and the collaborative operation of the self-steering and auxiliary steering of the sprayer were simulated and adjusted to make the angle tracking trajectory of the self-steering and the auxiliary steering as consistent as possible.The simulation results showed that,self-steering alone,auxiliary steering alone,and coordinated self-steering and auxiliary steering could all track to the target angle by about 1.8 s.The response of the self-steering is relatively slow in the early stage,but it is a little faster than the auxiliary steering when tracking the target Aangle in the later stage.T
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