全成形运动护膝结构设计及成形方法

doi:10.13475/j.fzxb.20210906207

纺织学报 ›› 2023, Vol. 44 ›› Issue (01): 112-118.doi: 10.13475/j.fzxb.20210906207

全成形运动护膝结构设计及成形方法

冯英杰¹, 蒋高明¹(), 吴光军¹, 金帅²

1.江南大学针织技术教育部工程研究中心, 江苏无锡 214122
2.山东如意科技集团有限公司, 山东济宁 272000

收稿日期:2021-09-17 修回日期:2022-07-28 出版日期:2023-01-15 发布日期:2023-02-16
通讯作者: 蒋高明(1962—),男,教授,博士。主要研究方向为新型针织工艺、智能针织装备与针织结构材料。E-mail:jgm@jiangnan.edu.cn。
作者简介:冯英杰(1996—),女,硕士生。主要研究方向为全成形针织产品设计。
基金资助:
国家自然科学基金项目(61772238);泰山产业领军人才项目(20180224)

Structural design and forming method for one-piece sports knee pads

FENG Yingjie¹, JIANG Gaoming¹(), WU Guangjun¹, JIN Shuai²

1. Engineering Research Center for Knitting Technology, Ministry of Education, Jiangnan University, Wuxi,Jiangsu 214122, China
2. Shandong Ruyi Technology Group Co., Ltd., Jining, Shandong 272000, China

Received:2021-09-17 Revised:2022-07-28 Published:2023-01-15 Online:2023-02-16

摘要/Abstract

摘要：

为探究电脑横机开发全成形针织产品的更多可能性,以针织运动护膝为研究对象,探究全成形局部结构变化原理,并进行工艺实践。首先通过三维扫描系统获取膝盖数据,确定护膝的二维纸样尺寸,将工艺参数代入二维纸样中的尺寸获得护膝整体的针织工艺模型;再对护膝局部变化组织进行开发设计,通过双针床电脑横机和SDS-ONE APEX3系统开发全成形局部多层结构,在护膝的髌骨部分和侧边设计不同的线圈结构来实现保护功能。结果表明:在膝盖髌骨部位用全成形方法编织的3层线圈结构来代替传统的防护材料,质量减少68.2%;同时,全成形编织方法省去了编织后裁剪与缝合等工序,减少原料损耗,节约人工成本。

关键词: 全成形, 双针床电脑横机, 运动护膝, 多层结构

Abstract:

Objective In order to explore possibilities of developing whole garment knitted products with computerized flat knitting machines, different design methods and forming processes of whole garment products were explored. Taking the knitted sports knee pads as the research object, the design method of the one-piece local multi-layer structure was established by local structure manipulation, leading to the development of various fully formed products with required functionalities.
Method The knee data was obtained by the three-dimensional scanning system, the two-dimensional paper sample size of the knee pads was determined, and the dimensions of the process parameters were substituted into the two-dimensional paper sample to obtain the knitting process parameters for the one-piece knee pads. Local change stitch for knee pads was experimented and designed, and the one-piece partial multi-layer structure was developed by the double needle bed computerized flat knitting machine and the SDS-ONE APEX3 software system. Different loop structures were designed in the patella part and sides of the knee pads to achieve the required protection.
Results With the cooperation of the special yarn self-propelling mouth of the double needle bed computerized flat knitting machine, density triangle and elastic yarn feeder, a three-layer loop structure was knitted at the knee patella (Fig.6), to knit a section of knitted fabric with certain thickness and good elasticity to replace the conventional protective materials.High elastic rubber band and camel hair (Fig.10) were used to increase the elasticity of the overall and local multi-layer structures of the whole garment motion knee pad. Through orthogonal test, the best knitting scheme was determined, and the knee pads with the highest elastic recovery rate (Tab.2) was obtained.
Using the double needle bed computerized flat knitting machine, a section of plain/ring/plain local multi-layer structure was knitted in the knee pad to replace the silicone protective sheet of the conventional sports knee pad. On both sides of the knee pad, and the lower end of this section of air layer was closed and the upper end was open. A section of air layer structure with two ends connected and the middle separated was knitted to fix the spring strip (Fig.12).
The three-layer patella protective layer knitted by the whole garment method was found 68.2% lighter than the conventional silicone patella protective sheet (Fig.13). In addition, the whole garment method eliminated the necessity for cutting and sewing after knitting, and avoided the loss of raw materials in the cutting process, resulting in benefits in saving labor costs, shortening production process, and reducing the loss of raw materials.
Conclusion This paper explores a local multi-layer knitting method of a double needle bed computerized flat knitting machine. By structural design and technological practice, three layers of three-dimensional spacer tissue are used as the patella protective layer at the front of the knee instead of the conventional sports knee pad. A double-layer air layer structure is knitted at the side to fix the spring strip, changing the conventional fixation method of hot-melt adhesive bonded cloth. Sports knee pads knitted with whole garment technology have greatly improved the comfort, shortened the processing flow in production, reduced the consumption of raw materials, and met the requirements of current green development.The development of one-piece sports knee pads expands the application direction of whole garment technology. The experimented knitting method of one-piece partial multi-layer structure can be applied for more applications, with required functionality and high added value.

Key words: one-piece, double-needle bed computerized flat knitting machine, sports knee pad, multi-layer structure

中图分类号:

TS184.5

冯英杰, 蒋高明, 吴光军, 金帅. 全成形运动护膝结构设计及成形方法[J]. 纺织学报, 2023, 44(01): 112-118.

FENG Yingjie, JIANG Gaoming, WU Guangjun, JIN Shuai. Structural design and forming method for one-piece sports knee pads[J]. Journal of Textile Research, 2023, 44(01): 112-118.

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参考文献 11

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项目	身高	KUL	KL	KDL
均值/cm	174.7	42.9	36.3	34.2
标准差	3.5	1.7	1.6	1.5

样品	组织	横密	横向弹性回复率/%
1	A₁	B₁	84.72
2	A₁	B₂	85.02
3	A₁	B₃	85.20
4	A₂	B₁	85.37
5	A₂	B₂	85.99
6	A₂	B₃	86.54
7	A₃	B₁	87.05
8	A₃	B₂	88.55
9	A₃	B₃	89.26
显著性	0.002	0.059
最优水平	A₃	B₃

纱嘴编号	纱线线密度/tex	纱线种类	编织区域
1	21	羊毛	—
2	4.4	抗菌涤纶	—
1+2	—	—	髌骨保护层B层
3	66.67	驼毛	髌骨保护层C层
4	21	蓝色羊毛	—
5	4.4	抗菌涤纶	—
4+5	—	—	髌骨保护层A层
6	55.6	涤纶	分离线
7	66.7	涤纶	空气层
8	48	橡筋	护膝圆筒起头和平收空气层起头和平收
10	48	橡筋	—
7+10	—	—	护膝圆筒

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全成形运动护膝结构设计及成形方法

Structural design and forming method for one-piece sports knee pads

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