摘要
动态称重时秤台防滑纹的垂向起伏会引起车辆发生振动,影响称重准确度。为此,建立了车辆称重过程的动力学模型,考虑轮胎的包容特性,建立弹性滚子接触模型,得出的防滑纹等效路面作为动力学模型的输入激励,分析各种因素作用下平板式汽车衡新型防滑纹对称重准确度的影响。仿真结果表明:随着防滑纹宽度增大,车辆的振动力变大,称重误差随之增大;凹坑型防滑纹间距为235 mm时产生的激励频率接近于车辆的固有频率,引起车辆和秤台共振,称重误差最高可达0.21%。三角形状凹坑类型的防滑纹产生的振动力以及称重误差均低于矩形凹坑;车速越快,防滑纹的产生称重误差越大。
When dynamic weighing is carried out,the vertical undulation of the anti-skid pattern on the scale platform can cause vibrations in the vehicle,affecting weighing accuracy.To address this issue,a dynamic model of the vehicle weighing process was established,considering the compliance characteristics of the tires.An elastic roller contact model was developed,and the equivalent road surface generated by the anti-skid pattern was used as the input excitation for the dynamic model.The influence of a novel symmetrical anti-skid pattern on the accuracy of weighing in a flatbed scale under various factors was analyzed.Simulation results indicate that as the width of the anti-skid pattern increases,the vibration force on the vehicle increases,leading to an increase in weighing error.When the spacing between pit-type anti-skid patterns is 235 mm,the excitation frequency generated approaches the natural frequency of the vehicle,causing resonance between the vehicle and the scale platform.The weighing error can reach a maximum of 0.21%.The vibration force and weighing error generated by triangular pit-type anti-skid patterns are lower than those of rectangular pits.Additionally,at higher speeds,the generation of anti-skid patterns results in larger weighing errors.Contrapose the issue of additional vibration excitation caused by anti-skid stripes on the weighing platform during dynamic weighing,which affects the weighing accuracy.Considering the inclusivity effect of tires,an anti-skid stripes equivalent road surface based on an elastic roller contact model is established.The anti-skid stripes road surface is used as an input excitation for the dynamic model of the vehicle dynamic weighing process.The influence of anti-skid texture size,type,vehicle speed,and other factors on the weighing accuracy of the flat plate truck scale is analyzed.The simulation results show that the excitation frequency generated when the spacing between pit shaped anti-skid grooves is 235 mm is close to the natural frequency of the vehicle,causing resonance between the vehicle and the weighing platform.The weighing error can reach up to 0.21%,and the larger the width,the greater the weighing error;The vibration force and weighing error generated by anti-skid patterns with triangular shaped pits are lower than those with rectangular pits;The faster the vehicle speed,the greater the weighing error caused by anti-skid stripes.
作者
赖征创
池辉
杨晓翔
张伟豪
LAI Zhengchuang;CHI Hui;YANG Xiaoxiang;ZHANG Weihao(College of Mechanical Engineering and Automation,Fuzhou University,Fuzhou,Fujian 350116,China;Fujian Metrology Institute,Fujian Key Laboratory of Force Measurement,Fuzhou,Fujian 350003,China;Key Laboratory of Force Measurement for State Market Regulation,Fuzhou,Fujian 350003,China;Quanzhou Normal University,Quanzhou,Fujian 362000,China)
出处
《计量学报》
CSCD
北大核心
2024年第2期238-245,共8页
Acta Metrologica Sinica
基金
国家自然科学基金(11972005)
福建省属公益类科研院所基本科研专项(2019R1016-2)
泉州市科技局科技计划(2020C055)。
关键词
力学计量
汽车衡
车辆振动
动力学分析
防滑纹
弹性滚子接触模型
称重准确度
mechanical metrology
dynamic weighing instrument
vehicle vibration
dynamic analysis
anti-skid stripes
elastic roller contact model
weighing accuracy
