基于生物力学模型的拖拉机离合踏板人机工程设计  被引量：14

作　　者：杨洋[1,2] 李宛骏 李延凯 许良元 王亚平[3] 陈黎卿 Yang Yang;Li Wanjun;Li Yankai;Xu Liangyuan;Wang Yaping;Chen Liqing(School of Engineering,Anhui Agricultural University,Hefei 230036,China;Anhui Province Engineering Laboratory of Intelligent Agricultural Machinery and Equipment,Hefei 230036,China;School of Mechanical Engineering,Nanjing University of Science and Technology,Nanjing 210094,China)

机构地区：[1]安徽农业大学工学院,合肥230036 [2]安徽省智能农机装备工程实验室,合肥230036 [3]南京理工大学机械工程学院,南京210094

出　　处：《农业工程学报》2019年第3期82-91,共10页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家重点研发计划项目(2017YFD0700104);安徽省自然科学基金项目(1808085QE168)

摘　　要：针对拖拉机离合踏板人机工程设计不足导致驾驶员容易产生疲劳的问题,该文搭建了驾驶员-离合踏板人机交互特性测试系统,基于试验结果分析了拖拉机驾驶员-离合踏板人机交互特性。在Any Body生物力学软件中建立了拖拉机驾驶员-踏板生物力学模型,并采用表面肌电测试结果验证了仿真模型的合理性。提出下肢关节出力程度为舒适性主观感受评价指标,基于仿真结果定量研究了离合踏板阻力和踏板布局对驾驶员踏板操纵舒适性影响规律和驾驶员人体尺寸对踏板布局的影响,给出不同人体百分位尺寸前提下踏板布局极限尺寸的推荐范围。通过优化踏板连杆长度、连杆夹角以及踏板-座椅布局降低踏板阻力,驾驶员下肢受力最大值从154 N降低到120 N,降低了22%,驾驶员下肢关节出力程度降低了20.98%,本文提出的研究方法及其研究结果可为拖拉机踏板人机工程设计提供参考。Aiming at the problem of driver fatigue caused by insufficient ergonomics design of tractor clutch pedal,the driver-clutch pedal human-computer interaction test system was built in this paper to reveal dynamic characteristics of pedal manipulation and biomechanical characteristics of driver's lower limb.The test results showed that knee and hip joint movement drive pedal rotation,while ankle joint remained in the neutral position with no foot pronation and eversion.In the process of pedal rotation,feedback force of pedal increases approximately linearly.Muscle activation of thigh muscle was significantly greater than that of calf muscle,and calf muscle was mainly used to maintain ankle joint in the neutral position,while thigh muscle drive pedal rotation.Based on characteristics of human-computer interaction of clutch pedal,the tractor driver-pedal musculoskeletal biomechanical model includes main bones and muscle of human body was built in AnyBody biomechanics software.GB 10000-1988"Human Size of Chinese Adults"and the Scaling-Length-Mass-Fat body size/weight scaling method were used to build tractor driver musculoskeletal biomechanics model.Based on the considering of parallel passive elasticity of muscle,serial elasticity of tendon and fibre angle,Hill muscle model was adopted.In order to solve problem of redundant muscles,inverse dynamics method and maximum/minimum optimization model of muscle activity were used to calculate muscle stress,which considere that the distribution of muscle strength follows the principle of maximum activity minimum optimization.In simulation process of driver's pedal manipulation,kinematics constraints of driver's pedal manipulation motion characteristics were applied to the model,and reliability of the model was verified by the surface electromyography test.Lower limb joint output was put forward to describe comfortable of clutch pedal handling process for different pedal layouts and pedal resistance condition.The influence of pedal ergonomics parameters on driver's pedal handlin

关 键 词：人机工程学 生物力学 拖拉机 驾驶员 离合踏板 

分 类 号：S229.1[农业科学—农业机械化工程]