机床与液压
機床與液壓
궤상여액압
MACHINE TOOL & HYDRAULICS
2015年
8期
76-78
,共3页
臂架疲劳试验台%液压伺服系统%位移传感器%AMESim仿真%控制策略
臂架疲勞試驗檯%液壓伺服繫統%位移傳感器%AMESim倣真%控製策略
비가피로시험태%액압사복계통%위이전감기%AMESim방진%공제책략
Boom fatigue test-bed%Hydraulic servo system%Displacement sensor%AMESim simulation%Control strategy
基于臂架实测载荷及其响应信号的分析结论,设计出了满足要求加载形式的臂架疲劳试验台系统,并且利用AMESim软件,建立试验台液压系统的计算机仿真模型,进行了必要的系统动态仿真分析,为疲劳试验台的运行提供适合的控制策略。
基于臂架實測載荷及其響應信號的分析結論,設計齣瞭滿足要求加載形式的臂架疲勞試驗檯繫統,併且利用AMESim軟件,建立試驗檯液壓繫統的計算機倣真模型,進行瞭必要的繫統動態倣真分析,為疲勞試驗檯的運行提供適閤的控製策略。
기우비가실측재하급기향응신호적분석결론,설계출료만족요구가재형식적비가피로시험태계통,병차이용AMESim연건,건립시험태액압계통적계산궤방진모형,진행료필요적계통동태방진분석,위피로시험태적운행제공괄합적공제책략。
Based on the analysis conclusions about the actual measured load of the boom and its response signals, the fatigue test?bed system that met the load type of the boom was designed. By using AMESim software, a computer simulation model of the test?bed hydraulic system was built, necessary system dynamic simulation analyses were carried out. It provides appropriate control strategy for the operation of the boom fatigue test?bed.
