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工程设计学报
Chinese Journal of Engineering Design  2016, Vol. 23 Issue (4): 378-384    DOI: 10.3785/j.issn.1006-754X.2016.04.013
Whole Machine and System Design     
Design of control system for core package pins puncture machine of aluminum electrolytic capacitor
ZHENG Tian-chi, SHAO Jian-xin, GUO Lin-na, SUN Xiao-gang, ZHANG Jun, QIU Zi-xue
School of Mechanical Engineering, Nantong University, Nantong 226019, China
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Abstract  

Aiming at the problems existing in the core package pins puncture of aluminum electrolytic capacitor such as low automation degree,great labor intensity and so on,the control system for core package pins puncture machine of aluminum electrolytic capacitor was designed,and the design scheme of the electrical hardware and software system were provided.The system took the Mitsubishi FGA series PLC as the core,combined with the stepper motor,vibrating plate,cylinder,detection and position of the fiber optic sensor and position sensor,to achieve automatic washer loading,core package moving,pins puncture,core package flipping and other processes with automatic continuous running.On-site test and operation show that the system runs reliably and stably,operated simply,and with low labor intensity,which can satisfy the requirement of the production line of high efficiency and quality automation processing.

Key wordsaluminum electrolytic capacitor      puncture machine      PLC      control system     
Received: 19 February 2016      Published: 28 August 2016
CLC:  TP273  
  TB21  
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ZHENG Tian-chi
SHAO Jian-xin
GUO Lin-na
SUN Xiao-gang
ZHANG Jun
QIU Zi-xue
Cite this article:

ZHENG Tian-chi, SHAO Jian-xin, GUO Lin-na, SUN Xiao-gang, ZHANG Jun, QIU Zi-xue. Design of control system for core package pins puncture machine of aluminum electrolytic capacitor. Chinese Journal of Engineering Design, 2016, 23(4): 378-384.

URL:

https://www.zjujournals.com/gcsjxb/10.3785/j.issn.1006-754X.2016.04.013     OR     https://www.zjujournals.com/gcsjxb/Y2016/V23/I4/378


铝电解电容器芯包引脚刺孔机控制系统设计

针对目前铝电解电容器芯包引脚刺孔中存在的自动化程度低、劳动强度大等不足,设计了铝电解电容器芯包引脚刺孔机控制系统,并提供了电气硬件和软件系统设计方案.该系统以三菱FGA系列PLC为核心,结合步进电机、振动盘、气缸以及光纤传感器和位置传感器等元件的检测定位,实现华司自动上料、芯包移动、引脚刺孔、芯包翻转等工序的自动连续运行.现场调试运行表明:该系统运行可靠平稳,操作简单,劳动强度低,能够满足生产线高效率、高质量的自动化加工要求.


关键词: 铝电解电容器,  刺孔机,  PLC,  控制系统 

[1] 唐照建,何荣开.铝电解电容器含浸锅的设计研究[J].机电工程,2013,30(9):1086-1089. TANG Zhao-jian,HE Rong-kai.Research and design of impregnation pot for aluminum electrolytic capacitors[J].Journal of Mechanical & Electrical Engineering,2013,30(9):1086-1089.
[2] PERISSE F,VENET P,ROJAT G,et al.Simple model of an electrolytic capacitor taking into account the temperature and aging time[J].Electrical Engineering,2006,88(2):89-95.
[3] 陈晓军,喜琍.铝电解电容器套管检测自动化生产线控制系统设计[J].制造业自动化,2010,32(4):78-80. CHEN Xiao-jun,XI Li.The design of control system for automatic production line testing Al electrolytic capacitor casing[J].Manufacturing Automation,2010,32(4):78-80.
[4] 邱自学,毛建,姚兴田,等.电容器绝缘套管自动烫印裁切一体机设计[J].机械设计与制造,2006(9):83-85. QIU Zi-xue,MAO Jian,YAO Xing-tian,et al.Development of automatic heat printing and cutting machine for insulating sleeve of capacitor[J].Machinery Design & Manufacture,2006(9):83-85.
[5] AMARAL A M R,CARDOSO A J M.Condition monitoring of electrolytic capacitors[J].International Journal of System Assurance Engineering and Management,2011,2(4):325-332.
[6] 梁亚芹.引线式400 V缩体铝电解电容器电解纸选用研究[J].电子元件与材料,2012,31(5):46-49. LIANG Ya-qin.Electrolytic paper selection for small size 400 V radial aluminum electrolytic capacitor[J].Electronic Components and Materials,2012,31(5):46-49.
[7] FU M,MALLICK P.Fatigue of self-piercing riveted joints in aluminum alloy 6111[J].International Journal of Fatigue,2003,25(3):183-189.
[8] 冯哲圣,陈金菊.铝电解电容器技术现状及未来发展趋势[J].电子元件与材料,2001,20(5):30-31. FENG Zhe-sheng,CHEN Jin-ju.Current technology status and future trends of aluminum electrolytic capacitor[J].Electronic Components and Materials,2001,20(5):30-31.
[9] LEE Y L,OU B L,YI H C.Effect of frequency and current density on A.C.etching of aluminum electrolytic capacitor foil[J].Journal of Materials Science Materials in Electronics,2007,18(6):627-634.
[10] 郁汉琪.电气控制与可编程序控制器应用技术[M].2版.南京:东南大学出版社,2009:143-144. YU Han-qi.Electrical control and programmable logical controller application technology [M].2th ed.Nanjing:Southeast University Press,2009:143-144.
[11] 马巧红,李茜,王孟效,等.PLC在饮用水深度净化控制系统中的应用[J].工程设计学报,2007,14(6):486-489. MA Qiao-hong,LI Qian,WANG Meng-xiao,et al.Application of PLC on control system of deep purification of drinking water[J].Chinese Journal of Engineering Design,2007,14(6):486-489.
[12] LAGUNA S G,LOPEZ G M.On the use of alpha-stable distributions in noise modeling for PLC[J].IEEE Transactions on Power Delivery,2015,30(4):1863-1870.
[13] 张高阳,金鑫,张之敬.步进驱动系统大振荡机理与轨迹优化控制[J].自动化学报,2015,41(1):84-93. ZHANG Gao-yang,JIN Xin,ZHANG Zhi-jing.Large oscillation mechanism and optimization control of stepper systems [J].Acta Automatica Sinica,2015,41(1):84-93.
[14] 孙立军,张子磐,蔡兵新,等.水流量装置电动换向器研究[J].工程设计学报,2015,22(5):487-492. SUN Li-jun,ZHANG Zi-pan,CAI Bing-xin,et al.Study on an electric flow diverter for water flow facility[J].Chinese Journal of Engineering Design,2015,22(5):487-492.
[15] BERNAT J,STEPIEN S,STRANZ A,et al.Infinite time horizon optimal current control of a stepper motor exploiting a finite element model[J].Bulletin of the Polish Academy of Sciences-technical Sciences,2014,62(4):835-841.
[16] 李国厚.步进电机驱动与控制系统的设计[J].煤矿机械,2008,29(2):114-116. LI Guo-hou.Design of drive and control system for stepper motor[J].Coal Mine Machinery,2008,29(2):114-116.
[17] 刁红泉,胡伟雄,颜钢锋.基于单片机的改进型五相混合式步进电机驱动器设计[J].工程设计学报,2004,11(1):19-22. DIAO Hong-quan,HU Wei-xiong,YAN Gang-feng.Design of five-phase hybrid stepping motor reformative driver based on MCU[J].Chinese Journal of Engineering Design,2004,11(1):19-22.
[18] 赵霞,丁小军,赵涛.基于PLC活性炭混捏成型控制系统改造[J].仪表技术与传感器,2013(8):50-53. ZHAO Xia,DING Xiao-jun,ZHAO Tao.Reform of control system of activated carbon kneading and compacting based on PLC[J].Instrument Technique and Sensor,2013(8):50-53.
[19] 姚兴田,邱自学,毛建,等.电容器垫片自动印字机控制系统的研制[J].制造业自动化,2011,33(6):109-111. YAO Xing-tian,QIU Zi-xue,MAO Jian,et al.Design of control system on automatic stamping equipment for capacitor gasket[J].Manufacturing Automation,2011,33(6):109-111.
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