作者:解金芳1, 王延超2, 张强2, 肖峻2
作者单位:1. 湖北省计量测试技术研究院,湖北 武汉 430223;
2. 武汉理工大学机电工程学院,湖北 武汉 430070
关键词:车载平台;调平;平面变形;水平倾角;分布式测量
摘要:
为保证重型车载平台调平过程的稳定性和平台水平精度,研究平台调平过程中支点支撑力引起的平台变形,以及对平台空间位置变化和平台水平倾角检测的影响。分析基于水平倾角检测的平台调平时各支点垂直位移量约束关系,提出平台在最大稳定裕量状态下支点支撑力约束条件。利用ansys有限元分析方法对实车平台在稳定状态下因支撑力变化所产生的平台变形进行讨论,分析得到平台平面局部水平倾角变化范围超过3′。提出分布式水平倾角传感器安装和测量方案,并通过实验验证该方法有效。结果表明:车载平台调平精度高于1′,并保证平台快速、稳定和准确的调平要求。
research on heavy vehicle platform leveling and its detection method
xie jinfang1, wang yanchao2, zhang qiang2, xiao jun2
1. hubei institute of measurement and testing technology, wuhan 430223, china;
2. school of mechanical and electrical engineering, wuhan university of technology, wuhan 430070, china
abstract: to ensure stability and accuracy of a vehicle platform in leveling process, the platform deformation caused by support forces of fulcrums during the leveling process and its influence on the spatial position change and the horizontal inclination of the platform are studied. vertical displacement constraint condition of multi-supporting points of the platform in a stable state are analyzed, and constraint conditions of fulcrum support force under the condition of maximum stability margin are proposed. using ansys, the platform deformation caused by support forces under stable state is discussed, and the horizontal inclination change in a local range is more than 3′. a distributed mounting scheme of horizontal inclination sensors is proposed. the experimental results show that the design ensures that the vehicle platform meets the requirements of fast, stable and accurate leveling, and the leveling accuracy of the platform is better than 1′.
keywords: vehicle platform;leveling;plane deformation;horizontal inclination;distributed measurement
2022, 48(8):40-45 收稿日期: 2022-01-12;收到修改稿日期: 2022-03-05
基金项目: 国家市场监督管理总局科学技术计划项目基金(2019mk047)
作者简介: 解金芳(1965-),女,天津市人,正高级工程师,硕士,主要从事光电计量测试技术研究
参考文献
[1] lee y s, kim s h, seo j w, et al. blade control in cartesian space for leveling work by bulldozer[j]. automation in construction, 2020, 118(10): 1-9
[2] li s l, zhou y, ou d m, et al. research on electromechanical four-point leveling control system[j]. frontiers of mechatronical engineering, 2020, 2(1): 20-24
[3] 夏鑫, 王海波, 李雪峰, 等. 某军用雷达车高精度自动调平控制系统研究[j]. 机械设计与制造, 2019(9): 158-164
[4] 何兵怀. 多点调平系统的研究[d]. 成都: 电子科技大学, 2014.
[5] 张启俊. 导弹发射车调平起竖系统建模及控制算法研究[d]. 哈尔滨: 哈尔滨工业大学, 2016.
[6] li h, shi x h, wang b, et al, design and study of leg automatic leveling control system of military bridge [c]. ieee international conference on information systems, wuhan, china 2017, 311-314.
[7] 李兆星. 重载车辆平台变形实时测量系统[d]. 武汉: 武汉大学, 2017.
[8] 赵新宇, 赵则祥, 刘如意, 等. 圆周法平面度误差测量与评定[j]. 中国测试, 2021, 47(7): 1-5
[9] 吴常铖, 杨德华, 曹青青, 等. 基于视觉和最大长度序列的旋转角度测量系统[j]. 中国测试, 2022, 48(1): 122-128
