大规模定制家具柔性制造系统构建与关键技术
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摘要
通过分析柔性制造系统(FMS)的基本原理和运行特点,结合大规模定制家具生产中的问题,阐述搭建大规模定制家具FMS系统平台的必要性和可行性,提出构建大规模定制家具FMS系统的三大关键技术:标准化产品设计与工艺规范、模块化柔性生产、信息化动态管控,并对关键过程进行解读,为我国大规模定制家具企业实施柔性制造提供参考。
This paper presented theoretical principles and operational configuration of flexible manufacturing system(FMS). Applications of the FMS platform in furniture industry were explored based on feasibility and necessary study results. Three key elements of the FMS were further discussed in detail, including standardized product design and process regulations, modularized flexible manufacturing system, and dynamic information management and control. Working process of the FMS model was also explained for reference to furniture industries in China.
This paper presented theoretical principles and operational configuration of flexible manufacturing system(FMS). Applications of the FMS platform in furniture industry were explored based on feasibility and necessary study results. Three key elements of the FMS were further discussed in detail, including standardized product design and process regulations, modularized flexible manufacturing system, and dynamic information management and control. Working process of the FMS model was also explained for reference to furniture industries in China.
引文
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[2]熊先青,刘慧,朱卿卿,包瑜亮,吴智慧.定制家居产业链协同发展的思考[J].木材工业,2018, 32(2):18-27.
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[6] Li R, Cao P, Zhang S, Xu W, Ekevad M, Guo X. Prediction of cutting force during gypsum fiber composite milling process using response surface methodology[J]. Wood and Fiber Science, 2017, 49(4):453-460.
[7] Li R, Guo X, Cao P, Wang X. Optimization of laser cutting parameters for recombinant bamboo based on response surface methodology[J].Wood Research, 2016, 61(2):275-285.
[8]熊先青,吴智慧.大规模定制家具的发展现状与应用技术[J].南京林业大学学报:自然科学版,2002, 26(5):87-92.
[9] Xiong Xian-qing, Guo Wei-juan, Fang Lu, Zhang Min, Wu Zhi-hui.Rong Lu, Tetsuo Miyakoshi. Current state and development trend of Chinese furniture industry[J]. Journal of Wood Science, 2017, 64(5):433-444.
[10] Jiamin Wu, Yan Wu, Feng Yang, Caiyun Tang, Qiongtao Huang, Jilei Zhang. Impact of delignification on morphological, optical and mechanical properties of transparent wood[J]. Composites Part A, 2019,117:324-331. DOI:10.1016/j.compositesa.2018.12.004.
[11]熊先青,郭伟娟,黄琼涛,等.家具数字化制造质量管控技术研究[J].林业工程学报,2017, 2(4):152-157.
[12]毛磊,闫超.面向大规模定制下的家具柔性化制造体系[J].林业机械与木工设备,2015, 43(7):35-37.
[13]郭伟娟,熊先青,唐远明,庞小仁.基于2020软件的大规模定制衣柜信息交互技术[J].林业工程学报,2018, 3(2):153-158.
[14]龙天南,徐伟,沈忠民,吴智慧.实木橱柜门标准化结构设计研究[J].家具,2018, 39(6):11-14.
[15]吴智慧,朱剑刚.家具企业实现大规模定制的技术体系第四讲:大规模定制的工艺规划体系[J].家具,2011,32(4):111-114.
[16]贾晔,李军,丁艳.基于模糊聚类算法的定制厨柜零件分类制造技术[J].林业工程学报,2016, 1(3):133-138.
[17]徐立城,徐伟,黄琼涛.基于人-机作业分析的梳齿榫开榫工序优化研究[J].家具,2018, 39(6):6-10.
[18]熊先青,蔡琦,吴智慧,黄琼涛.大规模定制家具生产线规划与车间管理关键技术的研究[J].林产工业,2013, 40(2):17-21.
[19]熊先青,庞小仁,吴智慧,黄琼涛.可视化木家具生产车间全程监控系统的构建[J].林业科技开发,2014, 28(6):109-113.
[2]熊先青,刘慧,朱卿卿,包瑜亮,吴智慧.定制家居产业链协同发展的思考[J].木材工业,2018, 32(2):18-27.
[3]吴智慧.工业4.0时代家具产业的制造模式[J].林产工业,2016,43(3):6-10.
[4]许香穗,蔡建国.成组技术(2版)[M].北京:机械工业出版社,2003.
[5]熊先青,赵琳琪,王承飞,黄琼涛,张圣清.基于成组技术的儿童家具实木零部件标准化设计研究[J].林业工程学报,2018, 3(1):135-140.
[6] Li R, Cao P, Zhang S, Xu W, Ekevad M, Guo X. Prediction of cutting force during gypsum fiber composite milling process using response surface methodology[J]. Wood and Fiber Science, 2017, 49(4):453-460.
[7] Li R, Guo X, Cao P, Wang X. Optimization of laser cutting parameters for recombinant bamboo based on response surface methodology[J].Wood Research, 2016, 61(2):275-285.
[8]熊先青,吴智慧.大规模定制家具的发展现状与应用技术[J].南京林业大学学报:自然科学版,2002, 26(5):87-92.
[9] Xiong Xian-qing, Guo Wei-juan, Fang Lu, Zhang Min, Wu Zhi-hui.Rong Lu, Tetsuo Miyakoshi. Current state and development trend of Chinese furniture industry[J]. Journal of Wood Science, 2017, 64(5):433-444.
[10] Jiamin Wu, Yan Wu, Feng Yang, Caiyun Tang, Qiongtao Huang, Jilei Zhang. Impact of delignification on morphological, optical and mechanical properties of transparent wood[J]. Composites Part A, 2019,117:324-331. DOI:10.1016/j.compositesa.2018.12.004.
[11]熊先青,郭伟娟,黄琼涛,等.家具数字化制造质量管控技术研究[J].林业工程学报,2017, 2(4):152-157.
[12]毛磊,闫超.面向大规模定制下的家具柔性化制造体系[J].林业机械与木工设备,2015, 43(7):35-37.
[13]郭伟娟,熊先青,唐远明,庞小仁.基于2020软件的大规模定制衣柜信息交互技术[J].林业工程学报,2018, 3(2):153-158.
[14]龙天南,徐伟,沈忠民,吴智慧.实木橱柜门标准化结构设计研究[J].家具,2018, 39(6):11-14.
[15]吴智慧,朱剑刚.家具企业实现大规模定制的技术体系第四讲:大规模定制的工艺规划体系[J].家具,2011,32(4):111-114.
[16]贾晔,李军,丁艳.基于模糊聚类算法的定制厨柜零件分类制造技术[J].林业工程学报,2016, 1(3):133-138.
[17]徐立城,徐伟,黄琼涛.基于人-机作业分析的梳齿榫开榫工序优化研究[J].家具,2018, 39(6):6-10.
[18]熊先青,蔡琦,吴智慧,黄琼涛.大规模定制家具生产线规划与车间管理关键技术的研究[J].林产工业,2013, 40(2):17-21.
[19]熊先青,庞小仁,吴智慧,黄琼涛.可视化木家具生产车间全程监控系统的构建[J].林业科技开发,2014, 28(6):109-113.