摘要
针对陶瓷过滤机搅拌机构存在的问题,综合优化理论及搅拌原理分析了搅拌机构的运动学参数对搅拌性能的影响,利用 ADAMS 软件对搅拌机构进行优化。在 ADAMS 中生成虚拟样机模型,进行运动学与动力学仿真,在此基础上实现了陶瓷过滤机曲柄摇杆机构的优化配置。结果表明,通过 ADAMS 软件30次迭代优化能够使搅拌耙架的平均速度提升40.7%,为陶瓷过滤机的实际改造提供了参考依据。
Aiming at the existing problems of the agitating mechanism of ceramic filter and combining with the optimal theory and agitating principle, the influences on the agitating performance of kinematics parameters of agitating mechanism are analyzed. The agitating mechanism is optimized by using the ADAMS software. The virtual prototyping model is established in ADAMS and the kinematics and dynamics simulation is carried out. On these bases(, an optimization design of crank- rocker mechanism of ceramic filter is obtained. The results show that the average velocity of the agitator can be increased by 40. 7% after 30 iterations in ADAMS, which provides a reference for the practical optimization of ceramic filters.
出处
《矿山机械》
北大核心
2008年第19期114-117,共4页
Mining & Processing Equipment
基金
江西理工大学博士启动基金
安徽铜都特种环保设备有限公司科学研究合作项目([2007]012号)