机器人颈关节包覆用针织全成形织物结构设计

doi:10.13475/j.fzxb.20250306001

摘要/Abstract

摘要：

针对机器人颈关节柔性包覆材料对颈关节动作的力学性能与形态适应性的特殊需求,提出一种高弹全成形围脖的结构设计与制备方法。在分析机器人颈关节自由度和动作特征的基础上,针对人形机器人颈部形状特征构建了基于三维曲面形变的包覆结构参数模型。用涤纶/氨纶(50 tex/7.8 tex)包覆纱和纵向高弹的双反面组织编织织物主体;用横向高弹的1+1罗纹组织编织夹持式连接件上的织物连接区。根据具体颈部尺寸设置工艺参数,在四针床全成形电脑横机上一体化编织成形。研发的包覆用围脖织物在15 N拉伸力下反复拉伸3次的弹性回复率大于80%、塑性变形率小于15%;拉伸力为50 N时,双反面织物纵向伸长率大于220%;拉伸力小于或等于50 N时,双反面组织的纵横向延伸率均大于纬平针组织,研究结果可为包覆用高弹全成形织物开发提供参考。

关键词: 全成形针织物, 机器人颈关节, 包覆织物, 结构设计, 涤纶/氨纶包覆纱, 电脑横机, 人形机器人

Abstract:

Objective Humanoid robots require highly elastic flexible materials to cover and protect joints such as the neck and shoulders. However, existing flexible covering materials for robots primarily focus on sensor-equipped electronic skins, with limited consideration of shape-conforming and stretchable knitted fabrics for this application. Whole-garment flatbed knitting technology offers advantages like seamless shaping and precise fit, in addition to the intrinsic breathability of the fabrics. This study aimed to develop highly elastic knitted fabrics for covering robot neck joints using the whole garment knitting technology.

Method The multi-degree-freedom movement range and motion patterns of robot neck joints were analyzed to identify the need for high longitudinal elasticity and extensibility in the fabric. A design strategy combining elastic yarns (polyester/polyurethane fiber covered yarns) with purl stitch was adopted to achieve these properties. Based on the neck's 3-D curved shape and attachment requirements, a parameterized structural model for the covering was established. The fabric was integrally knitted on a Shima Seiki MACH2X four-bed flat knitting machine with optimized processing parameters. Post-heat-setting tensile tests were conducted on purl and plain knit fabric samples.

Results A seamless 3-D knitted fabric for neck joint coverage was successfully produced, showing smooth aesthetics and excellent elasticity. Both purl and plain knit samples exhibited tensile breaking strengths exceeding 500 N, breaking elongations over 200%, elastic recovery rates above 80% after three cycles, and plastic deformation rates was below 15%. Under 50 N load, purl-knit samples demonstrated greater longitudinal and transverse extensions than plain knits, with elongations exceeding 120% elongation rate in both directions.

Conclusion This study presents an innovative structural design and development method for high-elasticity whole-garment neck coverings. By integrating elastic yarns, stitch structures, and flatbed whole-garment knitting technology, the developed fabric achieves superior elasticity and shape adaptability. The approach provides new insights for creating seamless, stretchable robotic coverings, demonstrating the potential of knitted textiles in functional robotic applications.

Key words: whole-garment, robot neck joint, covering fabric, structural design, polyester/polyurethane fiber covered yarn, computerized flat knitting machine, humanoid robot

中图分类号:

TS184.5

石彬琳, 董智佳, 马丕波, 丛洪莲, 吴光军, 刘博. 机器人颈关节包覆用针织全成形织物结构设计[J]. 纺织学报, 2025, 46(12): 116-122.

SHI Binlin, DONG Zhijia, MA Pibo, CONG Honglian, WU Guangjun, LIU Bo. Structural design of robot neck joint covering using whole-garment knitting technology[J]. Journal of Textile Research, 2025, 46(12): 116-122.

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链接本文: http://www.fzxb.org.cn/CN/10.13475/j.fzxb.20250306001

http://www.fzxb.org.cn/CN/Y2025/V46/I12/116

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品牌	型号	自由度	包覆方式
特斯拉	Optimus Gen 2	2	柔性包覆
优必选	Worker X	3	硬壳包覆
小米	Cyber one	1	硬壳包覆
傅利叶	GR-2	≥2	柔性包覆
小鹏	IRON	≥2	柔性包覆
智元	远征A2	≥1	无包覆
宇树	H1	0	无包覆
开普勒	K1、K2	2	硬壳包覆
1X Technologies	NEO	≥2	穿着连体服饰
乐聚	KUAVO-MY	2	无包覆
星海图	R1 Pro	2	无包覆
星动纪元	STAR1	2	硬壳包覆

长度编号	尺寸/cm	针数/转数	宽度编号	尺寸/cm	针数/转数
H₁	0.6	9(罗纹)	D₁	18.4	212
	0.9	18(双反面)	D₂	7.5	86
H₂	3.0	60	D₃	11.5	132
H₃	4.0	80	D₄	13.6	156
H₄	5.3	106	D₅	10.8	124
H₅	1.6	33
H₆	1.3	26
H₇	1.1	22
H₈	1.8	36
H₉	1.1	22
H₁₀	1.2	18

试样		断裂强力/N	断裂伸长率/%	弹性回复率/%	塑性变形率/%
双反面	横	620.1	268.10	89.7	10.9
	纵	764.9	278.43	84.7	14.5
纬平针	横	586.2	261.60	89.2	9.1
	纵	797.4	221.00	87.6	9.7