基于IEC 61499的分布式智能楼宇控制系统设计与开发
目录
摘要..................................................................................................................................... I ABSTRACT ......................................................................................................................III 目录.................................................................................................................................. IX CONSTENS ..................................................................................................................... IX 第一章绪论 (1)
1.1 智能楼宇概述 (1)
1.2 课题的研究背景及意义 (2)
1.3 智能楼宇国内外发展现状以及趋势 (2)
1.3.1国外发展状况 (2)
1.3.2国内发展状况 (4)
1.3.3 国内外智能楼宇发展现状总结 (4)
1.4 IEC 61499标准 (5)
1.4.1 IEC 61499发展概述 (5)
1.4.2 IEC 61499标准内容 (5)
1.4.3 IEC61499标准的优点 (9)
1.5 本课题的来源以及主要研究内容 (9)
第二章智能楼宇控制系统总方案 (10)
2.1 智能楼宇总需求和设计原则 (10)
2.1.1智能楼宇的设计原则 (10)
2.1.2 智能楼宇的总需求 (10)
2.2 分布式控制系统 (11)
2.2.1 分布式控制系统的简介 (11)
2.2.2智能楼宇分布式系统结构 (12)
2.2.3智能楼宇分布式控制网络系统 (14)
2.3智能楼宇系统体系架构 (14)
2.3.1楼宇自动化系统的组成 (14)
2.3.1.1 智能照明系统 (15)
2.3.1.2 供水系统 (16)
2.3.1.4精密机房监控系统 (17)
2.3.2楼宇自动化系统设计依据 (17)
2.4智能楼宇自动化系统的网络技术 (18)
2.4.1现场总线 (18)
2.4.1.1Modbus协议 (18)
2.4.2Web集成技术 (19)
第三章智能楼宇控制系统软硬件介绍 (21)
3.1智能楼宇控制系统的硬件架构 (21)
3.1.1系统的硬件架构 (21)
3.1.2系统硬件的选型 (22)
3.1.2.1 现场控制器 (22)
3.1.2.2 网络控制器 (25)
3.1.2.3 管理层计算机 (26)
3.2 智能楼宇系统应用软件 (26)
3.2.1组态软件介绍 (26)
3.2.2分布式系统软件平台 (27)
3.2.2.1 功能块开发工具与编辑环境 (27)
3.2.2.2 工控软件一体化设计工具 (27)
3.2.2.3 功能块应用程序系统配置 (28)
第四章分布式子系统设计 (31)
4.1智能照明控制系统 (31)
4.1.1光照传感器的布置方法 (31)
4.1.1.1室内照度比例模型 (31)
4.1.1.2 照度变化传递比的唯一性以及确定值 (33)
4.1.1.3照度传递比影响因素仿真分析 (35)
4.1.2照明系统硬件系统 (36)
4.1.3照明系统软件设计 (37)
4.1.3.1 照明系统程序设计 (37)
4.1.3.2 照明系统上位机设计 (42)
4.2 供水控制系统 (44)
4.2.1供水系统简介 (45)
4.2.1.1 供水方式 (45)
4.2.1.2 供水系统的基本特性 (45)
4.2.1.3 变频系统节能原理分析 (46)
4.2.2供水系统的控制算法 (47)
4.2.2.1供水系统的基本模型 (47)
4.2.2.2 PID模糊控制仿真 (48)
4.2.3供水控制系统设计 (50)
4.2.3.1 供水系统的原理和方案 (50)
4.2.3.2 供水系统的硬件架构 (51)
4.2.3.3 供水系统的软件设计 (53)
4.2.4供水系统节能效果分析 (55)
4.2.4.1 第一组水泵和第二组水泵节能对比 (55)
4.3 精密机房监控系统 (55)
4.3.1列头柜监控 (55)
4.3.2不间断电源监控 (58)
第五章系统实际运行效果 (59)
5.1 智能楼宇登录界面 (59)
5.2智能照明控制系统运行效果 (60)
5.3供水系统运行效果 (62)
5.4精密机房控制系统运行效果 (62)
总结与展望 (64)
参考文献 (66)
攻读硕士学位期间取得的研究成果 (69)
学位论文独创性声明 (70)
致谢 (71)
CONSTENS
ABSTRACT(Chinese) ....................................................................................................... I ABSTRACT(English) ......................................................................................................III CONTENTS(Chinese) .................................................................................................... IX CONSTENS(English) ..................................................................................................... IX Charter1Introduction .. (1)
1.1 Intelligent Building Outline (1)
1.2 Research Background and Significance (2)
1.3 Development Status and Trend of Intrlligent Building at Home and Abroad (2)
1.3.1 Development Status at Abroad (2)
1.3.2 Development Status at Home (4)
1.3.3 Intelligent Building Development Situation at Home and Abroad (4)
1.4 IEC 61499 Standard (5)
1.4.1 Development Overview of IEC 61499 (5)
1.4.2 Standard Content of IEC 61499 (5)
1.4.3 Advantages of IEC 61499 Standard (9)
1.5 Research Source and Main Contents (9)
Charter 2 Overall Scheme of Intelligent Building Control System (10)
2.1 Intelligent Building Requirements and Design Principles (10)
2.1.1 Intelligent Building Design Principles (10)
2.1.2 Intelligent Building Requirements (10)
2.2 Distributed Control System (11)
2.2.1 Introduction of Distributed Control System (11)
2.2.2 Distributed System Structure Intelligent Building (12)
2.2.3 Distributed Control Network System of Intelligent Building (14)
2.3 System Architecture of Intelligent Building (14)
2.3.1 Composition of Building Automation System (14)
2.3.1.1 Intelligent Lighting System (15)
2.3.1.2 Water Supply System (16)
2.3.1.3 Air Conditioning Monitoring System (17)
2.3.1.4 Precision Machine Room Monitoring System (17)
2.3.2 Design Basis of Building Automation System (17)
2.4 Network Technology of Intelligent Building Automation System (18)
2.4.1 Fieldbus (18)
2.4.1.1 Modbus Protocol (18)
2.4.2 Web Integration Technology (19)
Charter 3 Introduction of Software and Hardware of Intelligent Building System. 21 3.1 Hardware Architecture of Intelligent Building Control System (21)
3.1.1 Hardware Structure Design of System (21)
3.1.2 Selection of Hardware (22)
3.1.2.1 Directly Digital Controller (22)
3.1.2.2 Network Controller (25)
3.1.2.3 Management Computer (26)
3.2 Application Software Design of Intelligent Building System (26)
3.2.1 Introduction of Configuration Software (26)
3.2.2 Software Platform of Distributed System (27)
3.2.2.1 Function Block Development Tools and Editing Environment (27)
3.2.2.2 Integration of Industrial Control Software Design Tools (27)
3.2.2.3 Function Block Application System Configuration (28)
Charter 4 Distributed Control Subsystem Design (31)
4.1 Intelligent Lighting Control System (31)
4.1.1 Layout Method of Light Sensor (31)
4.1.1.1 Indoor Illumination Scale Model (31)
4.1.1.2 Illumination Changes and Determine Uniqueness of Transfer Value (33)
4.1.1.3 Influencing Factors of Simulation Analysis of Illumination Transfer (35)
4.1.2 Hardware System of Lighting System (36)
4.1.3 Software Design of Lighting System (37)
4.1.3.1 PLC Program Design of Lighting System (37)
4.1.3.2 Upper Machine Design of Lighting System (42)
4.1.4 Energy Saving Effect Analysis of Lighting System (44)
4.2 Water Supply Control System (44)
4.2.1 Introduction of Water Supply Control System (45)
4.2.1.1 Way of Water Supply (45)
4.2.1.2 Basic Characteristic of Water Supply System (45)
4.2.1.3 Energy-Saving Principle of Frequency Conversion System (46)
4.2.2 Water System Control Algorithm (47)
4.2.2.1 Basic Model of Water Supply System (47)
4.2.2.2 PID Fuzzy Control Simulation (48)
4.2.3 Design of Water Supply System (50)
4.2.3.1 Principle and Scheme of Water Supply System (50)
4.2.3.2 Hardware System of Water Supply System (51)
4.2.3.3 Software Systems of Water Supply System (53)
4.2.4 Energy Saving Effect Analysis of Water Supply System (55)
4.2.4.1 Energy Saving Contrast of First and Second Group of Pump (55)
4.3 Precision Machine Room Monitoring System (55)
4.3.1 Column Header Tank Monitoring (55)
4.3.2 Uninterruptible Power Supply Monitoring (58)
Charter 5 System Operation Effect (59)
5.1 Login Interface of Intelligent Building (59)
5.2 Running Effect of Lighting Control System (60)
5.3 Running Effect of Water Supply System (62)
5.4 Running Effect of Precision machine control system (62)
Conclusions and Prospects (64)
References (66)
Published and Authorized Patents (69)
Announcement (70)
Acknowledgement (71)