二次调节波浪升沉补偿液压系统设计
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摘要
为实现二次调节技术在波浪升沉补偿起重机的应用,分析二次调节升沉补偿原理,提出一种液压系统关键参数设计计算方法,并根据该方法设计出波浪升沉补偿起重机工程样机,样机试验结果表明,针对陆上模拟波浪升沉信号输入,最大位置补偿精度偏差小于10%;相同补偿波浪升沉参数下,负载增加会导致位置补偿精度下降。
For the application of active heave compensation crane based on secondary regulation,the composition and working principle of the system were described. A method of the design process and formulas for the system was given. According to the method,an engineering prototype was designed and made. The prototype test results showed that the biggest position compensation precision deviation is less than 10% for analog wave heave signal input on the land; under the same compensation wave,the increase of load will lead to the decrease of position compensation precision.
For the application of active heave compensation crane based on secondary regulation,the composition and working principle of the system were described. A method of the design process and formulas for the system was given. According to the method,an engineering prototype was designed and made. The prototype test results showed that the biggest position compensation precision deviation is less than 10% for analog wave heave signal input on the land; under the same compensation wave,the increase of load will lead to the decrease of position compensation precision.
引文
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[2]王哲骏,谢金辉,高剑,等.波浪补偿技术现状和发展趋势[J].舰船科学技术,2014(11):1-7.
[3]王向周,马希榕,郑戍华.二次调节海浪升沉补偿控制技术[J].北京理工大学学报,2016,36(8):838-843,850.
[4]吴金波,宋宇宸,陈冰.二次调节主动升沉补偿系统的控制特性研究[J].液压与气动,2016(8):10-17.
[5]马希榕.二次调节海浪升沉补偿控制技术研究[D].北京:北京理工大学,2016.
[6]P.ALBERS.Motion control in offshore and Dredging[M].Berlin Germany:Springer,2010.
[7]成大先.机械设计手册[M].北京:化学工业出版社,2008.