3. malting plant layout parameters: the establishment of basic plant body, the use of multi-objective genetic algorithm to adjust the position of the main equipment plant layout, and then inserted into the process conveying equipment, workshop equipment layout is formed;
4. malting plant piping layout: use pdsoft software according to specific equipment requirements for the necessary equipment nozzle insert operation, then the devices according to the characteristics of the layout of piping piping;
5. interference checking: In the workshop layout is compact case, the interaction of equipment and piping layout makes part of the equipment and piping layout unreasonable, we use interference checking will effectively ruled out the workshop layout unreasonable;
6. animated simulation: fully furnished for equipment and piping good workshop animated simulation, layout fully understand every aspect of the workshop.
Keywords:Parametric modeling;Multi-objective Genetic Algorithms;Production line layout; Animated simulation
目录
第一章 绪论 1
1.1选题的理论意义与实际价值 1
1.2国内外制麦生产线布局研究现状分析 2
1.2.1国外领域车间布局研究发展趋势和国内研究现状 2
1.2.2制麦车间布局发展趋势 3
1.3制麦车间布局研究目标与主要内容 3
1.3.1制麦车间布局的研究目标 3
1.3.2制麦车间布局的研究内容 3
第二章 制麦车间设备参数化建模 5
2.1参数化设计概述 5
2.1.1参数化设计概念 5
2.1.2参数化设计的实现 5
2.1.3参数化设计方法的意义 5
2.2制麦车间设备参数化建模的意义 6
2.3制麦车间布局设备参数化建模方法及过程 6
2.3.1参数化建模软件的选择 6
2.3.2制麦车间设备参数化设计步骤 7
2.4设备建模参数化设计的优点 10
第三章 制麦车间布局的多目标遗传算法 11
3.1 多目标遗传算法概述 11
3.2面向工艺规划多目标遗传速算法车间布局设计 11
3.2.1多目标遗传算法的特点 11
3.2.1变量模型的建立 12
3.2.3约束函数的建立 14
3.3工艺规划多目标遗传算法的相关操作 15
第四章 制麦车间布局 17
4.1车间布局概述 17
4.2制麦生产设备介绍 18
4.2.1制麦生产设备概述 18
4.2.2制麦各工艺输送装置 20
4.2.3制麦各工艺过程输送方式选择 23
4.3制麦车间布局 24
4.3.1厂房选择 24
4.3.2多目标优化在制麦车间布局的运用