摘要
采用芳纶1313双罗纹针织面料和镀银导电缝纫线为原料制备电子织物,研制基于温湿度监测功能的消防内衣。介绍电子织物缝制参数的设置与制备、消防内衣款式结构设计、温湿度监测系统设计与搭建、温湿度数据采集与校正。通过织物导电性与热湿舒适性优化,以最佳缝制参数进行内衣导线的布线设计。通过传感器模块定位,搭建温湿度监测系统硬件电路,实现数据采集与接收,并利用人工神经网络对预测模型进行校正。最后对消防内衣进行导电稳定性评价。结果表明,传感器置于人体后背部且以直线方式连接时,消防内衣的穿着舒适性与导电稳定性最佳,该研究为智能消防内衣的研制提供了参考。
The electronic fabric was prepared by using aramid 1313 double rib knitting and silver -plated conductive sewing thread as raw materials to develop fire-fighting underwear with temperature and humidity monitoring function. The sewing parameters setting and preparation of electronic fabric,style and structure design of fire-fighting underwear,design and construction of temperature and humidity monitoring system and data acquisition and correction of temperature and humidity were introduced. Through optimizing the electrical conductivity and thermal-moist comfort of fabric,the conductive wire distribution was designed with optimal sewing parameters. Through positioning the sensor module,the hardware circuit of temperature and humidity monitoring system was built to realize data acquisition and reception,and the artificial neural network was used to correct the prediction model. Finally,the electrical stability of the fire-fighting underwear was evaluated. The results show that when the sensor is placed on the back of the human body and connected in straight line,the wearing comfort and conductive stability of fire-fighting underwear are optimal,which provides a reference for the development of intelligent fire-fighting underwear.
作者
谢浩月
唐虹
顾琳燕
孙进
高强
张士兵
Xie Haoyue;Tang Hong;Gu Linyan;Sun Jin;Gao Qiang;Zhang Shibing(School of Textile and Clothing,Nantong University,Nantong,Jiangsu 226019,China)
出处
《针织工业》
北大核心
2019年第5期58-62,共5页
Knitting Industries
基金
国家重点研发计划专项经费资助课题(2018YFC0810302)
江苏省高等学校自然科学研究重大项目(17KJA540001)
南通大学南通智能信息技术联合研究中心开放课题项目(KFKT2017B07)
南通大学纺织服装学院研究生自主创新项目(FZ201815)
关键词
消防内衣
温湿度监测
智能服装
芳纶针织面料
镀银导电缝纫线
传感器
导电稳定性
Fire-fighting Underwear
Temperature and Humidity Monitoring
Smart Clothing
Aramid Knitted Fabric
Silver-plated Conductive Sewing Thread
Sensor
Conductive Stability
