科技与创新
科技與創新
과기여창신
Science and Technology & Innovation
2015年
8期
76-78
,共3页
行李控制系统%垂直连续输送机%速度模型%跟踪模型
行李控製繫統%垂直連續輸送機%速度模型%跟蹤模型
행리공제계통%수직련속수송궤%속도모형%근종모형
baggage control system%vertical continuous conveyors%velocity model%tracking model
将垂直连续输送机引入行李控制系统,并结合速度模型、跟踪模型和参考模型,有效控制行李在连接输送过程中的间距,进而提高系统的稳定性。在此基础上,结合系统的实际运行情况,及时预测其与模型之间的偏差,发现和判断系统存在的故障,大大提高系统的可靠性,降低系统的运行成本和维护成本。
將垂直連續輸送機引入行李控製繫統,併結閤速度模型、跟蹤模型和參攷模型,有效控製行李在連接輸送過程中的間距,進而提高繫統的穩定性。在此基礎上,結閤繫統的實際運行情況,及時預測其與模型之間的偏差,髮現和判斷繫統存在的故障,大大提高繫統的可靠性,降低繫統的運行成本和維護成本。
장수직련속수송궤인입행리공제계통,병결합속도모형、근종모형화삼고모형,유효공제행리재련접수송과정중적간거,진이제고계통적은정성。재차기출상,결합계통적실제운행정황,급시예측기여모형지간적편차,발현화판단계통존재적고장,대대제고계통적가고성,강저계통적운행성본화유호성본。
The vertical continuous introduction of baggage conveyor control system, combined with the velocity model, tracking model and reference model, effective control of the pitch in connection baggage transportation process, thereby increasing the stability of the system. On this basis, the actual operation of the system in a timely manner with the model prediction error between the discovery and determine the existence of a fault system, which greatly improve system reliability, reduce operating costs and maintenance costs of the system.
