面向光纤熔融拉伸的电磁力施加装置设计与实验

荣伟彬; 关楠楠; 王乐锋; 孙立宁

doi:10.3788/OPE.20122001.0072

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面向光纤熔融拉伸的电磁力施加装置设计与实验

现代应用光学 | 更新时间：2020-08-12

- 面向光纤熔融拉伸的电磁力施加装置设计与实验
- Design and experiment of electromagnetic force device for optical fiber fusion stretching
- 光学精密工程 2012年20卷第1期页码：72-79
- 作者机构：
  
  哈尔滨工业大学机器人技术与系统国家重点实验室,黑龙江哈尔滨,150080
- 作者简介：
- 基金信息：
  
  国家杰出青年基金资助项目(No.50725518)();国家863高技术研究发展计划资助项目(No.2007AA04Z343,2009AA043103)();新世纪优秀
- DOI：10.3788/OPE.20122001.0072
  中图分类号： TN253
- 收稿日期：2011-08-15，
  
  修回日期：2011-09-28，
  
  网络出版日期：2012-01-25，
  
  纸质出版日期：2012-01-25
- 稿件说明：
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荣伟彬, 关楠楠, 王乐锋, 孙立宁. 面向光纤熔融拉伸的电磁力施加装置设计与实验[J]. 光学精密工程, 2012,20(1): 72-79

RONG Wei-bin, GUAN Nan-nan, WANG Le-feng, SUN Li-ning. Design and experiment of electromagnetic force device for optical fiber fusion stretching[J]. Editorial Office of Optics and Precision Engineering, 2012,20(1): 72-79
荣伟彬, 关楠楠, 王乐锋, 孙立宁. 面向光纤熔融拉伸的电磁力施加装置设计与实验[J]. 光学精密工程, 2012,20(1): 72-79 DOI： 10.3788/OPE.20122001.0072.

RONG Wei-bin, GUAN Nan-nan, WANG Le-feng, SUN Li-ning. Design and experiment of electromagnetic force device for optical fiber fusion stretching[J]. Editorial Office of Optics and Precision Engineering, 2012,20(1): 72-79 DOI： 10.3788/OPE.20122001.0072.

摘要

设计了相应的电磁力施加装置以实现对超细径光纤熔融拉伸力的精确控制。采用有限元法分析不同线圈参数下电磁线圈与永磁铁之间电磁力的大小

获得电磁力与线圈各参数间的数学关系式。以拉伸系统性能要求及线圈骨架的外形尺寸为限制条件建立约束方程及目标函数进行优化求解

得到最优参数。在依据优化参数制作电磁线圈的基础上设计了电磁力控制电路

通过调节线圈电流精确控制电磁力。最后

进行电磁力施加装置性能实验。实验结果表明:光纤拉伸力的范围达到26.073 mN;光纤拉伸力的分辨率达到7.473 N

满足超细径光纤熔融拉伸对拉伸力范围及分辨率的要求。

Abstract

An electromagnetic force device is designed to realize the precise force control in the process of fusion stretching of ultra-thin fibers. First

the electromagnetic force with different coil parameters is calculated based on finite element method

and the relationship between electromagnetic force and coil parameters is derived. With the demand of stretching system performance and the dimension restrictions of the coil frame

constraint equations and objective functions are established to optimize the solution to machine the electromagnetic coil. Then the control circuit for electromagnetic force is designed to regulate the current in the coil and achieve the fine adjustment of electromagnetic force. Finally

experiments of electromagnetic force device are performed. The results indicate that the range of stretching force for the optical fibers can achieve 26.073 mN and the measuring resolution is 7.473 N. It satisfies the demand of the fusion stretching of ultra-thin fibers.

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references

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