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机构地区:[1]集美大学机械与能源工程学院,福建厦门361021
出 处:《机床与液压》2015年第3期119-122,71,共5页Machine Tool & Hydraulics
基 金:国家自然科学基金项目(51105171)
摘 要:通过三轴液压转向实验平台,利用AMESim软件,建立了转向液压系统模型。分析了压力、流量、管路长度、管路内径以及管路材料等单因素对转向油缸响应特性的影响规律,并针对压力、流量、管路内径等非线性影响因素以及系统PID参数进行了正交仿真实验,给出了优化结果和PID参数。结果表明:压力升高、响应速度加快,但在10~11 MPa范围内较为稳定;流量在14 L/min时响应速度最快且最不稳定;管路内径在11~17 mm范围内有较好的响应速度和稳定性;管路长度增加,响应滞后,稳定性减弱;比例系数P对响应时间的影响比较敏感、积分系数I对平滑性影响较大、微分系数D对稳定性较为敏感。Through the three-axis hydraulic steering experiment platform, the steering hydraulic system model was established by using AMEsim software. The influence rules of the pressure, flow, pipe length, pipe inner diameter and material and such as single factor on steering cylinder response characteristics were analyzed. The orthogonal simulation experiment was performed by aimed at the nonlinear influence factors such as pressure, flow, pipe inner diameter and the system PID parameters, and the optimization results and the PID parameters were presented. The results show that : with increasing of pressure, the response speed is accelerated, but it is rela- tively stable within the range of 10 -11 MPa. When the flow is at 14 L/min, response is fastest and most unstable. It has high response speed and stability for pipe diameter in the range of 11 to 17 mm. With increasing of pipe length, the response is lagged with lower sta- bility. Proportion coefficient P is sensitive to the response time, integral coefficient I has larger influence to the smoothness, and differ- ential coefficient D is quite sensitive to stability.
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