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一种柔性振动供料器产品平台的研究 被引量:2

Research on a Flexible Vibratory Bowel Feeders Platform
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摘要 利用可适应设计理论和方法,文章对传统振动料斗进行了再设计,即机械解耦合和数字化控制耦合,提出了一种更具适应性振动料斗产品平台构造,以适应系列工件和不同材料工件的最佳的输送要求。分析了可适应振动料斗产品平台的解耦式机械结构和工作原理,通过解耦,实现了扭转振动和直线振动的独立控制。通过理论分析和仿真,给出了振动料斗的工作面运动轨迹和振动角的工作空间。在此基础上,成功研制了钕铁硼磁片振动供料器,满足了其对高速、低破损、低噪音等性能要求。 Due to short life cycles of products, assembly plants have to be adapted quickly to toth changing products and methods of production. Modularly designed vibratory bowel-feeding systems can play a roll in a solution to this problem. Such feeders are not only flexible in controller but also offer adaptable working vibration platform and screw bowels. This paper describes the development and design of a configurable modular feeding system utilized decoupled principles and product platform concepts, This system consists of vibration platform and adds on modules. The vibration platform includes all modules that are necessary to generate parts movements. The add-on modules include modules to attach container and different tracks, designed for the feeding parts. The interfaces (mechanical bus) between the platform and add-on modules are uniform. The two drive modules provide rotational and linear vibration independently. Composite motion of the feeding parts is working in line by the fact that two control systems for both the magnitude and phase can be changed independently. The real experiment plant is built and tested for some breakable magnet parts.
作者 陈永亮 焦明生 李云梅
机构地区 天津大学机械工程学院
出处 《组合机床与自动化加工技术》 2005年第9期83-85,共3页 Modular Machine Tool & Automatic Manufacturing Technique
基金 国家自然科学基金资助(50305022)
关键词 柔性振动料斗 可适应设计 产品平台 工作空间 modular vibratory bowl feeders adaptable design product platform work space
分类号 TH132 [机械工程—机械制造及自动化]
  • 相关文献

参考文献5

  • 1闻邦椿 等.振动机械的理论与动态设计方法[M].北京:机械工业出版社,2001..
  • 2Shinko Electric Co Ltd. Advanced Vibratory technology, Dual Motion Parts Feeders. http://www.shinko - elec. co. jp.
  • 3Han, L., Tso, S.K. Meehatronic design of a flexible vibratory feeding system. [ in] Proceedings of the Institution of Mechanical Engineers- Part B - Engineering Manufacture, 2003, 217(6) :837- 843.
  • 4P Gu, M Hashemian, A Y C. Nee . Adaptable Design[J]. CIRP, 2004. 53(2) : 1 - 19.
  • 5P Gu, M Slevinsky. Mechanical Bus for Modular Product Design[J], Annals of CIRP. 2003, 52(1): 1-4.

共引文献146

同被引文献19

  • 1周亮.新型直线解耦式电磁振动供料器的控制系统设计[J].化学工程与装备,2008(3):63-66. 被引量:1
  • 2李云梅,陈永亮.电磁振动供料器的技术发展[J].现代制造工程,2005(5):109-111. 被引量:3
  • 3高晖.解耦式振动料斗产品化设计的关键技术研究[D].南京:东南大学机械工程学院,2008.
  • 4Boothroyd G., Polio C. and Murch L. E. Automatic As- sembly[M]. Marcel Dekker, New York, 1982.
  • 5Du W. Y., Stephen P. E. and Dickerson L. Modeling and Control of a Novel Vibratory Feeder[C]. Proceedings of the 1999 IEEE/ASME International Conference on Ad- vanced Intelligent Mechatronics, Sept. 19-23, 1999, At- lanta, USA, pp. 496-501.
  • 6Cokayne A. The Way of the World A Review of Current Practice in Automatic Parts Recognition, Feeding and Orientation, Assembly Automation[M], vl 1, 1991 : 29-32.
  • 7L. Han, W. L. Xu, S. K. Tso, Decoupled Vibratory BowlFeeder 5th International Conference on Mechatronics and Machine Vision in Practice [C], Nanjing, China, Sept. 10-12, 1998: 481-486.
  • 8L. Han, S. K. Tso, Mechatronic Design and Control of a Flexible Vibratory Feeding System[J], Proceedings - IEEE M2VIP, 2001 : 206-213.
  • 9日本神钢电机株式会社产品样本.Advanced Vibratorytechnology,Dual Motion Parts Feedershttp://www.Shinko-elec.CO.jP,2003.
  • 10南京工学院无线电专用机械设备教研组.电磁式振动料斗的设计与计算[M].南京:出版社,1981.

引证文献2

二级引证文献2

组合机床与自动化加工技术
2005年 第9期

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