Journal of Textile Research ›› 2019, Vol. 40 ›› Issue (8): 141-145.doi: 10.13475/j.fzxb.20180904005

• Dyeing and Finishing & Chemicals • Previous Articles     Next Articles

Study on pressing of side lying face and design of multifunctional sleeping pillow

ZHANG Lei1, MA Xiaojing1, WANG Xueqin1,2()   

  1. 1. Silk Institute, College of Materials and Textiles, Zhejiang Sci-Tech University, Hangzhou,Zhejiang 310018, China
    2. Silk and Fashion Culture Research Center of Zhejiang Province, Zhejiang Sci-Tech University, Hangzhou, Zhejiang 310018, China
  • Received:2018-09-17 Revised:2019-05-19 Online:2019-08-15 Published:2019-08-16
  • Contact: WANG Xueqin E-mail:907538425@qq.com

Abstract: Aim

ing at whether the normal sleeping pillow has pressing on the face when a person is lying on the side and how to avoid or reduce the pressing, the blood flow microcirculation experiment was performed on three subjects by using a medical blood vessel imager TEKSQRAY-BVI. A four-wing split-type multifunctional sleeping pillow with anti-face embossing effect was designed, and the Tactilus pressure pad was used to compare the new structure sleeping pillow with the common S-type latex pillow for the body pressure distribution test. Whether the pillow can effectively reduce or eliminate this effect was investigated. By comparing the change rate of the pressure point and the non-pressure point, the influence of the sleeping pillow on the side of the face is greater. The results of the pressure distribution map show that the use of the four-wing split type multifunctional sleeping pillow can make the side face suspend in a large area, thereby avoiding the pressing of the side of the sleeping pillow and the corner of the eye.

Key words: blood flow microcirculation experiment, decorative textile, multi-functional pillow, body pressure distribution test, anti-embossing

CLC Number: 

  • TS941.7

Fig.1

Diagram of points A and B"

Tab.1

Mean value of blood flow microcirculation experiment"

受试者 实验次序 血流平均值变化率
A B
1 1.916 1.699
2 1.333 1.007
3 1.392 0.933
1 1.933 1.422
2 1.834 1.511
3 1.966 1.127
1 1.378 1.092
2 1.340 0.868
3 1.333 0.915

Fig.2

Structure of pillow body"

Fig.3

Schematic of side lying"

Fig.4

Set up “Excel hot chart”"

Fig.5

Side test-thermal chart.(a)Subject 1#-sample;(b) Subject 1#-contrast sample;(c) Subject 2#-sample; (d) Subject 2#-contrast sample;(e) Subject 3#-sample;(f) Subject 3#-contrast sample"

[1] 朱芋锭, 申黎明, 张晓春 . 睡姿和床垫对人体睡眠舒适性的影响[J]. 家具与室内装饰, 2013(4):29-31.
ZHU Yuding, SHEN Liming, ZHANG Xiaochun . Effect of sleeping posture and matress on the comfort of sleeping[J]. Furniture and Interior Design, 2013(4):29-31.
[2] 扬天伦, 张宏其 . 生病要用保护性睡姿[J]. 农村新技术, 2017(7):64.
YANG Tianlun, ZHANG Hongqi . Sleep in a protective position for illness[J]. New Rural Technologies, 2017(7):64.
[3] 侯建军, 申黎明 . 符合睡眠舒适性的人机枕头设计研究[J]. 包装工程, 2014,35(8):21-25.
HOU Jianjun, SHEN Liming . Research on the design of man-machine pillow conforming to sleep comfort[J]. Packaging Engineerings, 2014,35(8):21-25.
[4] 侯建军, 申黎明 . 枕头形状对侧卧睡眠舒适性的影响研究[J]. 机械设计, 2013,30(3):107-110.
HOU Jianjun, SHEN Liming . Research on the effect of pillow shape on sleeping comfort on side lying[J]. Journal of Machine Design, 2013,30(3):107-110.
[5] 何艳梅 . 枕型对睡眠舒适性的影响[J]. 北京服装学院学报, 2005(12):40-47.
HE Yanmei . The influences of pillow type on sleeping comfort[J]. Journal of Beijing Institute of Fashion Technology, 2005(12):40-47.
[6] 董妮 . 基于体压分布测试的贵妃椅靠背关键尺寸的人体舒适性研究[D]. 长沙:中南林业科技大学, 2017: 11-12.
DONG Ni . Study on the chaise longue back measurements of body comfort based on the body pressure distribution[D]. Changsha:Central South University of Forestry and Technology, 2017: 11-12.
[7] 侯建军, 申黎明, 宋杰 , 等. 枕芯材料对侧卧睡眠舒适性的影响研究[J]. 西北林学院学报, 2012,27(5):217-221.
HOU Jianjun, SHEN Liming, SONG Jie , et al. Influence of the materials of pillow core on sleeping comfort in lateral position[J]. Journal of Northwest Forestry University, 2012,27(5):217-221.
[8] 王青, 倪晓慧 . 介绍一种多用途静脉血管显像仪[J]. 护理研究, 2017,31(17):2176.
WANG Qing, NI Xiaohui . Introduces a multipurpose venous angiograph[J]. Nursing Research of China, 2017,31(17):2176.
[9] 庄燕子, 蔡萍, 周志锋 , 等. 人体压力分布测量及其传感技术[J]. 传感技术学报, 2005(2):313-317.
ZHUANG Yanzi, CAI Ping, ZHOU Zhifeng , et al. Pressure mapping system and its senseor technology[J]. Journal of Transcluction Technology, 2005(2):313-317.
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[6] . [J]. JOURNAL OF TEXTILE RESEARCH, 1995, 16(02): 19 -22 .
[7] . [J]. JOURNAL OF TEXTILE RESEARCH, 1995, 16(02): 46 -48 .
[8] . [J]. JOURNAL OF TEXTILE RESEARCH, 1993, 14(03): 19 -21 .
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