基于改进霍尔模型的数字化总装流程规划研究
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摘要
产品的总装流程是产品部件逐步安装、功能逐渐完善的过程,涉及到多种复杂技术的集成应用,对产品的研发周期及最终质量有较大的影响。分析数字化总装流程主要内容及其特点,并在分析实施数字化总装工艺流程规划难点的基础上,将系统工程方法论应用于数字化总装流程规划,改进经典霍尔模型,建立适用于总装流程规划的时间维、逻辑维和认知维三维结构,构建一种改进霍尔模型指导下的总装流程规划应用框架,提升总装流程规划的分析验证能力和数据集成能力。
Final assembly process of product is the process of components gradually installed,function gradually improved,involving a variety of complex technology integration applications. It has a greater impact on the product development cycle and final quality. Based on the analysis of the main contents of digital assembly process and its characteristics,and by analyzing the implementation problems of digital assembly process planning. Applies the method of system engineering theory to the digital assembly process planning,and improves the classical Holzer model to establish a structure with logic dimension,time dimension,cognitive dimension which is suitable for assembly process. Then a framework of assembly process planning based on the modified Holzer model is built to improve capabilities of assembly process planning analysis and data integration.
Final assembly process of product is the process of components gradually installed,function gradually improved,involving a variety of complex technology integration applications. It has a greater impact on the product development cycle and final quality. Based on the analysis of the main contents of digital assembly process and its characteristics,and by analyzing the implementation problems of digital assembly process planning. Applies the method of system engineering theory to the digital assembly process planning,and improves the classical Holzer model to establish a structure with logic dimension,time dimension,cognitive dimension which is suitable for assembly process. Then a framework of assembly process planning based on the modified Holzer model is built to improve capabilities of assembly process planning analysis and data integration.
引文
[1]陈雪梅,刘顺涛.飞机数字化装配技术发展与应用[J].航空制造技术,2014,445(1):58-65.
[2] MAS F,RIOS J,MENENDEZ J L. Conceptual Design of an Aircraft Final Assembly Line:A Case Study[J]. Key Engineering Materials,2012(502):49-54.
[3] JEONGHAN K,EHSAN N,HUI W,et al. An assembly decomposition model for subassembly planning considering imperfect inspection to reduce assembly defect rates[J]. Journal of Manufacturing Systems,2013,32(3):412-416.
[4] SUN H,DENG W G. Research on the Virtual Assembly-Disassembly and Repair of the Automobile Drive Axle[J]. Advanced Materials Research,2013(605/607):646-650.
[5]杨彪,何静,李潮伟,等.数字化装配技术在核动力设备工艺设计中的应用[J].机电信息,2014(9):71-72.
[6] BARATHWAJ N,RAJA P,GOKULRAJ S. Optimization of assembly line balancing using genetic algorithm[J]. School of Mechanical Engineering,SASTRA University,2015,22(10):3957-3969.
[7] MATTHIAS Thürer,MARK Stevenson,CRISTOVAO Silva,et al. The application of workload control in assembly job shops:an assessment by simulation[J]. International Journal of Production Research,2012,50(18):5048-5062.
[8] MA T,WANG S,XU C. Virtual Assembly Method Based on Cad Model Reuse[J]. Information Technology Journal,2012,11(1):160-165.
[9]李思宁,张世炯,李涛.基于系统工程模型的飞机总装数字化集成工艺设计方法浅析[J].航空制造技术,2015,491(21):73-76.
[10](美)防务系统管理学院.系统工程概论[M]. 1版.北京:军用标准化中心,2000.
[2] MAS F,RIOS J,MENENDEZ J L. Conceptual Design of an Aircraft Final Assembly Line:A Case Study[J]. Key Engineering Materials,2012(502):49-54.
[3] JEONGHAN K,EHSAN N,HUI W,et al. An assembly decomposition model for subassembly planning considering imperfect inspection to reduce assembly defect rates[J]. Journal of Manufacturing Systems,2013,32(3):412-416.
[4] SUN H,DENG W G. Research on the Virtual Assembly-Disassembly and Repair of the Automobile Drive Axle[J]. Advanced Materials Research,2013(605/607):646-650.
[5]杨彪,何静,李潮伟,等.数字化装配技术在核动力设备工艺设计中的应用[J].机电信息,2014(9):71-72.
[6] BARATHWAJ N,RAJA P,GOKULRAJ S. Optimization of assembly line balancing using genetic algorithm[J]. School of Mechanical Engineering,SASTRA University,2015,22(10):3957-3969.
[7] MATTHIAS Thürer,MARK Stevenson,CRISTOVAO Silva,et al. The application of workload control in assembly job shops:an assessment by simulation[J]. International Journal of Production Research,2012,50(18):5048-5062.
[8] MA T,WANG S,XU C. Virtual Assembly Method Based on Cad Model Reuse[J]. Information Technology Journal,2012,11(1):160-165.
[9]李思宁,张世炯,李涛.基于系统工程模型的飞机总装数字化集成工艺设计方法浅析[J].航空制造技术,2015,491(21):73-76.
[10](美)防务系统管理学院.系统工程概论[M]. 1版.北京:军用标准化中心,2000.