| Whole Machine and System Design |
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| Research on control strategy of parking tower hydraulic system and its power-saving technology |
| XIE Miao, LIU Zhi-xiang, MAO Jun |
| College of Mechanical Engineering, Liaoning Technical University, Fuxin 123000, China |
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Abstract Aiming at solving the serious problems about low efficiency and high energy consumption of current parking tower hydraulic system that adopting valve controlled hydraulic power system, a novel energy saving technology based on constant pump directed by servo motor was used. The fuzzy sliding mode control algorithm which combined sliding mode variable structure algorithm with fuzzy PID algorithm was used as control strategy for parking tower in each working condition. Compared with the regular fuzzy PID algorithm, the fuzzy sliding mode control algorithm had rapid response for the flow demand of the system, and also had small fluctuation and fast stability in the process of switching in multiple operating modes. At the same time, the power, energy consumption and system efficiency of parking tower which had used energy-saving technology mentioned here were tested. Compared with parking tower hydraulic system adopting valve controlled hydraulic power system, energy consumption of the system based on constant pump directed by servo motor was reduced by 31.2% and the system efficiency was increased by 33.2%. The system mentioned here has a better energy saving effect.
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Received: 25 May 2015
Published: 28 February 2017
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立体停车位液压系统控制策略及节能控制技术研究
针对目前立体停车位均采用阀控液压动力系统,存在系统效率低、能耗大等问题,将伺服电机直驱定量泵的节能技术应用于立体停车位的液压系统中.采用滑模变结构算法与模糊控制算法相结合的模糊滑模控制算法作为立体停车位各个工况切换的控制策略,相比于工业中常用的模糊PID控制算法,模糊滑模变结构控制能够对系统设定流量需求进行快速响应,在多个工况切换时,波动小、稳定速度快.同时对使用节能技术的立体停车位运行时的功率、能耗及系统效率进行测试,结果表明使用伺服电机直驱定量泵的液压节能系统与使用传统阀控液压系统相比,能耗降低了31.2%,系统效率提高了33.2%,具有较好的节能效果.
关键词:
立体停车位,
节能技术,
模糊控制,
滑模变结构,
伺服驱动
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| [[1]] |
袁壮.城市中心区立体停车库设计研究[D].长沙:湖南大学建筑学院,2010:3-15. YUAN Zhuang.The research of tridimensional parking garage design in city center[D]. Changsha:Hunan University, School of Architecture, 2010:3-15.
|
|
|
| [[2]] |
陈婧,田怀文.大型垂直循环横向平移立体车库的结构设计及稳定性分析[J].机械设计,2013,30(5):67-70. CHEN Jing,TIAN Huai-wen.Stability analysis and structure design of large vertical circulating and transverse translation high-rise parking system[J].Journal of Machine Design,2013,30(5):67-70.
|
|
|
| [[3]] |
刘荣侠,张青柏.采油设备节能降耗实践[J].中国设备工程,2005,21(8):47-48. LIU Rong-xia,ZHANG Qing-bo.The practice of energy saving for oil extraction equipment[J].China Plant Engineering,2005, 21(8):47-48.
|
|
|
| [[4]] |
李晓亮.配重可变式汽车起重机:CN1341524A[P].2002-03-27. LI Xiao-liang.The truck crane with variable counterweight:CN1341524A[P].2002-03-27.
|
|
|
| [[5]] |
林建杰,徐兵,杨华勇.配置蓄能器的变频驱动液压电梯能耗特性研究[J].机械工程学报,2003,39(7):63-67. LIN Jian-jie,XU Bing,YANG Hua-yong.Study on energy consumption characteristics of VVVF controlled hydraulic elevators with pressure accumulators[J].Journal of Mechanical Engineering,2003,39(7):63-67.
|
|
|
| [[6]] |
林建杰.液压电梯闭式回路节能型电液控制系统研究[D].杭州:浙江大学机械与能源工程学院,2005:10-30. LIN Jian-jie.Hydraulic elevator of energy-saving with the closed circuits[D].Hangzhou:Zhejiang University, College of Mechanical and Energy Engineering, 2005:10-30.
|
|
|
| [[7]] |
杨华勇,胡东明,徐兵.变配重的节能技术及其能耗机理分析[J].机械工程学报,2010,46(2):132-138. YANG Hua-yong,HU Dong-ming,XU Bing.Energy-saving technology of variable counterweight and its energy consumption analysis[J].Journal of Mechanical Engineering,2010,46(2):132-138.
|
|
|
| [[8]] |
欧阳小平,徐兵,杨华勇.液压变压器在液压电梯系统中的节能应用[J].中国机械工程,2003,14(19):1660-1662. OUYANG Xiao-ping,XU Bing,YANG Hua-yong.The energy-saving application of hydraulic transform in hydraulic elevators[J].China Mechanical Engineering,2003,14(19):1660-1662.
|
|
|
| [[9]] |
徐兵.采用蓄能器的液压电梯变频节能控制系统研究[D].杭州:浙江大学机械工程学院,2001:12-19. XU Bing.Research on inverter controlled hydraulic elevator energy-saving system applying pressure accumulators[D].Hangzhou:Zhejiang University, College of Mechanical Engineering, 2001:12-19.
|
|
|
| [[10]] |
邓飙,刘连伟.基于变频液压技术的起竖系统节能研究[J].机床与液压,2014,42(20):54-56. DENG Biao,LIU Lian-wei.Study on energy conservation of erecting hydraulic system based on variable frequency technology[J].Machine Tool & Hydraulics,2014,42(20):54-56.
|
|
|
| [[11]] |
徐兵,张斌,林建杰.变频驱动液压电梯系统能耗特性[J].机械工程学报,2006,42(8):137-141. XU Bing,ZHANG Bin,LIN Jian-jie.Energy consumption characteristics of VVVF controlled hydraulic elevators[J].Journal of Mechanical Engineering,2006,42(8):137-141.
|
|
|
| [[12]] |
张永顺. 新型电机融合泵驱动的泵控缸伺服控制策略研究[D]. 秦皇岛:燕山大学电气工程学院,2011:13-15. ZHANG Yong-shun. Research on servo control strategy for pump-control cylinder driven by new integrated motor pump[D]. Qinhuangdao:Yanshan University, School of Electrical Engineering, 2011:13-15.
|
|
|
| [[13]] |
彭勇刚,韦巍.伺服电动机直接驱动定量泵液压系统在精密注塑中的应用及其控制策略[J].机械工程学报,2011,47(2):173-179. PENG Yong-gang,WEI Wei.Application and control strategy of servo motor driven constant pump hydraulic system in precision injection molding[J].Journal of Mechanical Engineering,2011,47(2):173-179.
|
|
|
| [[14]] |
方一鸣,王志杰,解云鹏,等.轧机液压伺服位置系统多模型切换滑模变结构控制[J].电机与控制学报,2010,14(5):92-93. FANG Yi-ming,WANG Zhi-jie,XIE Yun-peng,et al.Sliding mode variable structure control of multi-model switching for rolling mill hydraulic servo position system[J].Electric Machines and Control,2010,14(5):92-93.
|
|
|
| [[15]] |
倪敬.钢管包装电液伺服系统控制策略及其应用研究[D].杭州:浙江大学机械与能源工程学院,2006:25-36. NI Jing.Research on control strategy and its application of steel pipe packing electro-hydraulic servo system[D].Hangzhou:Zhejiang University, College of Mechanical and Energy Engineering, 2006:25-36.
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