摘要
为提高换绳装置送绳的安全性和可靠性,针对现有换绳装置在送绳过程中存在的冲击振动问题,分析其产生机制,提出了防冲击送绳理想控制曲线,并对现有换绳装置送绳液压系统进行改造,利用AMESim和ADAMS联合仿真技术对防冲击送绳系统进行仿真研究。仿真结果表明:采用防冲击送绳技术后,送绳过程冲击明显减小,有效解决了换绳过程中的冲击振动问题。
To improve the safety and reliability of rope-replacing device during the rope-sending process,the mechanism of the impact and vibration problem was analyzed. The anti-impact rope-sending curve was proposed,and the rope-sending hydraulic system was reformed. Based on the AMESim and ADAMS co-simulation technology,the anti-impact rope-sending technology was simulated and studied. The simulation result illustrates that the impact during the rope-sending process decreases drastically after using the antiimpact rope-sending technology and the impact problem is solved effectively.
出处
《机床与液压》
北大核心
2015年第17期191-194,共4页
Machine Tool & Hydraulics