摘要
液体动静压轴承性能的好坏直接影响着整台磨床的磨削性能。针对一种可调节式的高速轧辊磨床磨头液体动静压轴承,分析了其结构特点和工作原理,并对其结构尺寸和工作参数进行了设计计算。在此基础上,以单位承载量下的总功率损失最小作为优化设计的目标函数,运用遗传算法对该轴承进行了优化设计。优化结果表明:优化后目标函数值从0.0808下降到0.0678,轴承的总功率损失由初始设计的766.9W降低为642.6W,功耗降低约16%,而且轴承的结构尺寸得到减小,其刚度亦得到明显的提高。由此可见,通过优化设计,不仅降低了轴承的制造成本,而且明显改善了轴承的综合性能。
The performances of liquid hybrid bearing affect directly grinding performances of the whole roll grinder. Aiming at a kind of adjustable liquid hybrid bearing in grinding head of high-speed roll grinder,its structural characteristics and working principles were analyzed, and its structural di- mensions and working parameters were calculated. Then, the lowest total power loss per unit loading capacity was regarded as an objective function of optimization design, and optimization design of the bearing was performed based on genetic algorithm. Optimization results are as follows: objective func- tion value decreases from 0. 0808 to 0. 0678,total power loss of the bearing decreases from 766.9 W to 642.6 W, and power consumption is reduced about 16%;moreover, structural dimensions of the bear- ing are reduced,and its stiffness is obviously improved. Therefore, through the optimization design, manufacturing cost of the bearing is reduced,and its comprehensive performances are improved obvi- ously.
出处
《中国机械工程》
EI
CAS
CSCD
北大核心
2015年第18期2496-2500,共5页
China Mechanical Engineering
基金
国家自然科学基金资助项目(51165002
51465008)
清华大学摩擦学国家重点实验室开放基金资助项目(SKLTKF12A11)
贵州省优秀青年科技人才培养对象专项资金项目(黔科合人字(2013)17号)
关键词
高速轧辊磨床
液体动静压轴承
优化设计
遗传算法
high-speed roll grinder
liquid hybrid bearing
optimization design
genetic algorithm
