基于AMESim旋耕机耕深控制研究
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摘要
旋耕机作为重要的耕整机械在用于田间作业时,控制其耕深稳定是提高耕作质量的重要措施之一。对旋耕机耕深控制系统进行了分析,通过仿真AMESim旋耕机典型工况下动力学特性,结果表明:旋耕机的旋耕作业需要花费1.8s的时间,来完成液压缸活塞杆位移变化,将旋耕深度稳定在158毫米,系统响应特性十分优异。
As an important tillage machine,rotary tiller is used in field operations.The stability of tillagedepth controlis one of the important measures to improve the quality of farming. The tillage depth control system of the rotary tiller was analyzed.The dynamic characteristics of the rotary tiller under typical working conditions were simulated. The results show that the rotary tiller of the rotary tiller takes 1.8 seconds to complete the piston rod displacement of the hydraulic cylinder. The change,the depth of the rotary tillage is stabilized at 158 mm, and the system response characteristics are excellent.
As an important tillage machine,rotary tiller is used in field operations.The stability of tillagedepth controlis one of the important measures to improve the quality of farming. The tillage depth control system of the rotary tiller was analyzed.The dynamic characteristics of the rotary tiller under typical working conditions were simulated. The results show that the rotary tiller of the rotary tiller takes 1.8 seconds to complete the piston rod displacement of the hydraulic cylinder. The change,the depth of the rotary tillage is stabilized at 158 mm, and the system response characteristics are excellent.
引文
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[2]高蕾.棚室电动旋耕机自动控制系统设计[D].东北农业大学,2013.
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[2]高蕾.棚室电动旋耕机自动控制系统设计[D].东北农业大学,2013.
[3]李博.微耕机耕深自动控制系统的设计与研究[D].2015.