Research Of The Intelligent Control And Management System Of Mid-Small Automated Highrise Warehouse

With the continued expansion of the scale of production of a modern enterprise, automated warehouse management and control system has become an important production and logistics system also an indispensable component. Automated Warehouse Management and Control System is a business or company management information system (CIMS) is one of the components integrated logistics of modern technology, computer technology, communication technology and management techniques. It can improve the research and development of three-dimensional warehouse operation and automatic level. Automated warehouse management and control system can improve the efficiency of the storage and transportation of materials, to reduce the space occupied. It has been widely used.This research bases on the projects of 973 nation grand basis prophase research item—"The Research on the RFID-based Logistic Tracing System for the Network-based Cooperative Commerce Chain" (Item No:2005CCA04900), the projects of Zhejiang province grand scientific and technological item—"The System of SYCH Horizontal Mobile Rack" (Item No: 2002C11028) and project of Zhejiang province nature science fund—Research on cooperative enterprise SCM's theory and method which based on concordant ider (Item No:2004Y604281), Huzhou Logistics company is regarded as the research backgroud, automated highrise warehouse of the current small and medium enterprises is set up.Chapter 1,automated warehouse system in modern logistics role and expounded the automated warehouse system in the domestic and international situation and development trend. Combining the background, the proposal to examine the issues and major significance in the study. Finally, it introduces a study of the development process in the development of hardware and software platforms.Chapter 2,overview of the development of automated warehouse system design requirements and functional requirements. Automatic three-dimensional view of the storage system design requirements and functional requirements, detailed analysis of the system developed by the hardware architecture, network architecture, system control mode Construction and development of a practical system overall composition. According to the system and pose a further analysis of the system of information flow overall network structure and information flow in the process of realization.Chapter 3,detailed analysis of the automated warehouse management system needs analysis, and automated warehouse management system overall program and database system design, discussion of automated warehouse management system design principles, together with the automated warehouse management system module. And explore a warehousing operation as an example of the process design, and the JSP-based network management system design. Based on the final study PSO algorithm out storage and scheduling based on multi-threaded system of management and efficient operation pattern.Chapter 4, automated warehouse control program is designed automated warehouse design component. This chapter is discussed in detail automated warehouse control program design process. Focus on the stacker control program design and conveying design, the three stacker of speed, position detection and control system program design. For automated storage and retrieval system of communication programs, and automated warehouse management systems and ground communications console PLC design, ground control's PLC and stacker's PLC communications design, ground control's PLC and touch screen communications design and warehouse management system communications design, and a detailed analysis of the implementation process.Chapter 5, discussed in detail in the automated warehouse system roadway stacking fault on the basis of the phenomenon, Discussion on the application of expert system for fault diagnosis as automated warehouse system failure treatment options. And in light of the actual detailed study of automated warehouse system fault diagnosis expert system building process and the implementation process.Chapter 6, debugging device combining key components of the photograph of test equipment for a brief introduction and then introduced the experimental method. In this based on the experimental study of the final test data analysis, and the results obtained to meet the design requirements conclusions.Chapter 7, all aspects of this study were summarized, and addressed some needs further in-depth study of the work forward.