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    董芒, 顾宝兴, 姬长英, 张庆怡, 查启明. 水果采摘机器人智能移动平台的设计与试验[J]. 华南农业大学学报, 2016, 37(4): 128-133. DOI: 10.7671/j.issn.1001-411X.2016.04.021
    引用本文: 董芒, 顾宝兴, 姬长英, 张庆怡, 查启明. 水果采摘机器人智能移动平台的设计与试验[J]. 华南农业大学学报, 2016, 37(4): 128-133. DOI: 10.7671/j.issn.1001-411X.2016.04.021
    shu
    DONG Mang, GU Baoxing, JI Changying, ZHANG Qingyi, CHA Qiming. Design and experiment of an intelligent mobile platform loaded with a fruit picking robot[J]. Journal of South China Agricultural University, 2016, 37(4): 128-133. DOI: 10.7671/j.issn.1001-411X.2016.04.021
    Citation: DONG Mang, GU Baoxing, JI Changying, ZHANG Qingyi, CHA Qiming. Design and experiment of an intelligent mobile platform loaded with a fruit picking robot[J]. Journal of South China Agricultural University, 2016, 37(4): 128-133. DOI: 10.7671/j.issn.1001-411X.2016.04.021
    shu

    水果采摘机器人智能移动平台的设计与试验

    Design and experiment of an intelligent mobile platform loaded with a fruit picking robot

      摘要
    • 摘要:
      目的 基于三自由度水果采摘机械臂,设计一种轮式智能移动平台。
      方法 根据农田工作环境,设计了转向机构和防撞梁机构;借助ANSYS对车架在3种工况下的变形情况进行仿真分析;使用Simulink模块对车载电机进行了基于最大转矩电流比矢量控制(MPTA)以及ID=0模式下的仿真;使用VC++语言编写了运动控制程序,开发人机交互界面;在南京市江浦农场进行样机行走试验。
      结果 弯扭工况下车架变形量最大为14.1 mm,应力值小于材料屈服极限;基于MPTA控制下的电机约0.8 ms达到稳定;该平台最大爬坡角度约为10°,1.5 m·s-1行进时跟踪路径的横向偏差约为0.22 m。
      结论 该移动平台结构合理,强度和刚度较高,运动精度高,符合实际工作要求。

       

      Abstract:
      Objective To design a prototype of wheeled intelligent mobile platform at the basis of a 3-DOF fruit picking robot hand.
      Method According to the working environment of farmland, the steering structure and anti-collision beam structure of the platform were designed. The deformation of the platform frame under three working conditions were simulated using ANSYS, and simulation of the motor was carried out using Simulink module based on MPTA or ID=0. The motion control program and human computer interface were programmed with VC++. The prototype walking experiments were carried out in Jiangpu farm, Nanjing.
      Result The maximum deformation of the platform frame was 14.1 mm under the crankle working condition, and the value of stress was under the yield limit of material. The motor based on MPTA control achieved stability after 0.8 ms. The maximum climbing angle of the platform was 10°, and the tracking path lateral deviation was 0.22 m at a speed of 1.5 meter per second.
      Conclusion This mobile platform has reasonable structure, with high strength, rigidity and motion accuracy, which meets the requirements of practical use.

       

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