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基于制造资源能力的装夹工艺分层设计技术 被引量:5

Layered design of manufacturing setup planning based on manufacturing resources capability
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摘要 为发展创成式的计算机辅助工艺设计,研究了计算机辅助工艺设计系统中工件装夹规划的自动生成算法。基于扩展有向图,建立了零件的公差信息和基准—加工特征关系的数学表示模型,基于公差分析和制造资源能力模型,建立了从单件层到多件层的工件装夹工艺生产算法。该数学模型和算法可自动识别工件的加工特征、装夹基准,并根据制造资源能力和公差分析对装夹进行优化分组,实现装夹分组对工件加工精度的影响最小化,进而生成装夹规程。最后以实例证明了该方法的可行性。 To develop generative Computer Aided Process Planning (CAPP), automatic generation of manufacturing setup planning in CAPP was studied. Based on the extended directed graphics, the mathematical model to describe the tolerance information as well as datum-machining feature relationship was constructed. Algorithm to automatically generate setup planning was established by means of tolerance analysis and manufacturing resources capability model. This algorithm could identify the machining features and datum to optimize setup groups based on the manufacturing resources capability and tolerance analysis. It also minimized the influence of the locating error stack-up on the machining quality. Finally, a case study of setup planning was presented to verify the feasibility of the method.
作者 张发平 孙厚芳 沙赫德
机构地区 北京理工大学机械与车辆工程学院 巴基斯坦国立科技大学
出处 《计算机集成制造系统》 EI CSCD 北大核心 2008年第1期11-16,共6页 Computer Integrated Manufacturing Systems
基金 北京市重点学科基金资助项目(XK100070530)~~
关键词 制造资源能力 工艺路线 装夹工艺 分层设计 Manufacturing resource capability process routing manufacturing setup planning layered design
分类号 TH164 [机械工程—机械制造及自动化]
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参考文献5

  • 1王忠宾,王宁生,陈禹六.基于遗传算法的工艺路线优化决策[J].清华大学学报(自然科学版),2004,44(7):988-992. 被引量:38
  • 2CHEN J, ZHANG F Y, NEE A Y C. Setup planning using Hopfield net and simulated annealing[J]. International Journal of Production Research, 1998,36 (4) : 981-1000.
  • 3ZHANG Y, FENG S C,WANG X K. Object-oriented manufacturing resource modeling for adaptive process planning[J]. International Journal of Production Research, 1999, 37 (18) : 4179-4195.
  • 4HUANG S H. Automated setup planning for lathe machining [J]. Journal of Manufacturing Systems, 1998, 17(3):196-208.
  • 5RONG Y, BAI Y. Machining accuracy analysis for computer aided fixture design[J]. Journal of Manufacturing Science and Engineering, 1996,118(3):289-300.

二级参考文献7

  • 1Zhang Y F, Nee A Y C. Using genetic algorithm in processing planning for job shop machining [J]. IEEE Trans on Evolutionary Computation, 1997, (1): 278-289.
  • 2XUE Deyi. A multilevel optimization approach considering product realization process alternatives and parameters for improving manufacturability [J]. J Manufacturing System, 1997, 16(5): 338-351.
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  • 4Kiritsis D, Porchet M. A genetic petri net model for dynamic process planning and sequence optimization [J]. Advances in Eng Software, 1996, 25(1): 61-71.
  • 5Rocha J, Ramos C, Vale Z. Process planning using a genetic algorithm approach [A]. Proc of the 1999 IEEE Int Symp on Assembly and Task Planning [C]. Porto, Portugal: IEEE, 1999. 82-86.
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  • 7吴德中,严隽琪,金烨,马登哲.CAPP与PPC集成研究现状与进展[J].上海交通大学学报,1999,33(7):912-916. 被引量:6

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引证文献5

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计算机集成制造系统
2008年 第1期

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