渐变式液压缓冲器的设计与仿真研究
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摘要
为得到渐变节流液压缓冲器理想缓冲特性,提出一种基于理想缓冲过程的节流杆外部轮廓曲线的建模方法。该方法是在分析渐变式液压缓冲器缓冲机制的基础上,建立了阻尼孔两侧等流量方程,推导出节流杆的外部轮廓尺寸方程,并利用MATLAB数值分析方法,绘制出节流杆轮廓曲线。把所得的轮廓曲线应用于实际缓冲过程中,对得到的缓冲特性曲线进行分析,验证了该建模方法的可行性,并对不同冲击载荷的碰撞情况进行对比。结果表明:通过该建模方法得到的缓冲器具有理想的缓冲特性,并能安全缓冲掉小于额定值的冲击能量。
For the gradual throttling hydraulic buffer ideal buffering characteristics,a modeling method was put forward that based on a kind of ideal buffer processing of throttle lever external contour curve. The method was based on the analysis of buffer mechanism of the gradual hydraulic buffer. The damping hole on both sides of the flow equation was established,the external dimensions equation of the throttle lever was deduced and the outline of the throttle lever curve was drawn using the MATLAB numerical analysis method.The contour curve obtained was applied in the actual process of buffering,by the analysis of buffer characteristic curve obtained,the feasibility of the modeling method was validated,and the collision of different impact load condition were compared. The results show that buffer obtained through this kind of modeling method can achieve ideal buffer properties and can absorbed impact energy less than the rating safely.
For the gradual throttling hydraulic buffer ideal buffering characteristics,a modeling method was put forward that based on a kind of ideal buffer processing of throttle lever external contour curve. The method was based on the analysis of buffer mechanism of the gradual hydraulic buffer. The damping hole on both sides of the flow equation was established,the external dimensions equation of the throttle lever was deduced and the outline of the throttle lever curve was drawn using the MATLAB numerical analysis method.The contour curve obtained was applied in the actual process of buffering,by the analysis of buffer characteristic curve obtained,the feasibility of the modeling method was validated,and the collision of different impact load condition were compared. The results show that buffer obtained through this kind of modeling method can achieve ideal buffer properties and can absorbed impact energy less than the rating safely.
引文
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[3]郝鹏飞,张锡文,何枫.小型液压缓冲器的动态特性分析[J].机械工程学报,2003,39(3):155-158.HAO Pengfei,ZHANG Xiwen,HE Feng.Study on Dynamic Characteristics of Small Hydraulic Bumper[J].Chinese Journal of Mechanical Engineering,2003,39(3):155-158.
[4]张文斌,周晓军.液压缓冲器特性计算与仿真分析[J].农业机械学报,2008,39(7):164-168.ZHANG Wenbin,ZHOU Xiaojun.Simulationand Characteristic Analysis of Hydraulic Bumper[J].Transactions of the Chinese Society of Agricultural Machinery,2008,39(7):164-168.
[5]李艳利,刘志奇.多孔式液压缓冲器的设计与仿真研究[J].液压气动与密封,2014,34(5):22-25.LI Yanli,LIU Zhiqi.Research and Design on Multi-orifice Hydraulic Buffer[J].Hydraulics Pneumatics&Seals,2014,34(5):22-25.
[6]谭宗柒,汪云峰,陈永清.阻尼孔连续型液压缓冲器研究及设计[J].起重运输机械.2008(2):27-29TAN Zongqi,WANG Yunfeng,CHEN Yongqing.Continuous Type Hydraulic Shock Absorber Damping Hole Research and Design[J].Hoisting and Conveying Machinery,2008(2):27-29.
[7]黄红.气动缓冲和液压缓冲器的原理和特性研究[D].杭州:浙江大学,2003.
[8]杨海威,詹永麒,乔俊伟,等.基于结构的神经网络优化结构参数的应用[J].系统仿真学报,2003,15(8):1116-1119.YANG Haiwei,ZHAN Yonglin,QIAO Junwei.Application in Structural Parameter Optimization by Using ArchitectureBased Neural Network[J].Journal of System Simulation,2003,15(8):1116-1119.
[9]林建忠.流体力学[M].北京:清华大学出版社,2005.
[10]姜健飞.数值分析及其MATLAB实验[M].北京.科学出版社,2004.
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