[1]王建雯,邱 莉*,陈晓东,等.基于柔性电路的夜间巡检服制作与性能测试[J].服装学报,2025,10(06):491-497.
 WANG Jianwen,QIU Li*,CHEN Xiaodong,et al.Fabrication and Performance Test of a Night Patrol Suit Based on Flexible Circuit[J].Journal of Clothing Research,2025,10(06):491-497.
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基于柔性电路的夜间巡检服制作与性能测试()

《服装学报》[ISSN:2096-1928/CN:32-1864/TS]

卷:
第10卷
期数:
2025年06期
页码:
491-497
栏目:
智能服装
出版日期:
2025-12-30

文章信息/Info

Title:
Fabrication and Performance Test of a Night Patrol Suit Based on Flexible Circuit
作者:
王建雯;  邱 莉*;  陈晓东;  张思婷;  毛龙妹
内蒙古工业大学 轻工与纺织学院,内蒙古 呼和浩特 010080
Author(s):
WANG Jianwen;  QIU Li*;  CHEN Xiaodong;  ZHANG Sitimg;  MAO Longmei
College of Light Industry and Textiles,Inner Mongolia University of Technology,Hohhot 010080,China
分类号:
TS 873; TS 106
文献标志码:
A
摘要:
为保障巡检工人夜间作业时的安全与效率,采用冷光片与反光材料配置光敏传感器,以柔性印刷电路连接制备柔性电路智能巡检服。通过丝网印刷技术,在涤棉平纹布上使用银包铜油墨和银油墨进行印刷电路的制备,将最优工艺制备的银包铜油墨印刷电路和银油墨印刷电路应用于巡检服中。选择色彩照度最高的蓝绿色冷光片作为发光源,制备出黑暗环境下可自动发光的、舒适度高的柔性电路智能巡检服,确保工人在巡检时的舒适性与安全性。研究表明:在通电后,人体视觉对蓝绿色冷光片的感知效果最佳; 随着电阻增加,冷光片发光效果减弱,当电阻在0~10 Ω时,冷光片发光效果最好。
Abstract:
To ensure the safety and efficiency of inspection workers during nighttime operations, a flexible printed circuit-based smart inspection suit was developed. This suit integrates electroluminescent panels and reflective materials with light-sensitive sensors, interconnected via flexible printed circuits. Using screen printing technology, circuits were fabricated on polyester-cotton plain weave fabric with silver-coated copper ink and silver ink. The optimally manufactured circuits from these inks were incorporated into the suit. A blue-green electroluminescent panel, selected for its highest color illuminance, serves as the light source. This results in a flexible-circuit smart inspection suit that automatically illuminates in dark environments while maintaining high comfort, thereby ensuring the wearer’s safety and comfort during inspections. The study shows that blue-green light provides the highest illuminance and the greatest recognition to the human eye。Moreover, as the resistance increases, the luminescent effect of the electroluminescent panel weakens, and the optimal luminous effect is achieved when the resistance is within the range of 0–10 Ω

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更新日期/Last Update: 2025-12-30