单边双针双线摆动缝合轨迹设计及实验验证

doi:10.3969/j.issn.1004-132X.2024.01.010

中国机械工程 ›› 2024, Vol. 35 ›› Issue (01): 102-108.DOI: 10.3969/j.issn.1004-132X.2024.01.010

单边双针双线摆动缝合轨迹设计及实验验证

高子乔1,2;董九志1,2;陈云军3;蒋秀明1,2

1.天津工业大学机械工程学院，天津，300387
2.天津工业大学天津市现代机电装备技术重点实验室，天津， 300387
3.天津工业大学控制科学与工程学院，天津， 300387

出版日期:2024-01-25 发布日期:2024-02-29
通讯作者: 董九志（通信作者），男，1981年生，副教授、博士研究生导师。研究方向为高性能纤维复合材料预制体成形工艺及智能装备、复合材料缝合连接技术、机电一体化技术。E-mail：gzqyyds@126.com。
作者简介:高子乔，男，1998年生，硕士研究生。研究方向为碳纤维复合材料预制体成形装备。

Design and Experimental Verification of Unilateral Double-needle Double-thread Oscillating Stitching Trajectories

GAO Ziqiao1,2;DONG Jiuzhi1,2;CHEN Yunjun3;JIANG Xiuming1,2

1.School of Mechanical Engineering,Tiangong University,Tianjin，300387
2.Advanced Mechatronics Equipment Technology Tianjin Area Major Laboratory，
Tiangong University,Tianjin，300387
3.School of Electrical Engineering and Automation,Tiangong University,Tianjin，300387

Online:2024-01-25 Published:2024-02-29

摘要/Abstract

摘要： 针对单边双针双线缝合头插刺机构无法缝制3 mm以上厚度预制体的问题，提出一种不对称的8字形运动轨迹并对插刺机构的运动轨迹进行了设计。首先，基于单边双针双线缝合工艺对插刺机构运动学进行分析，确定摆动插刺机构各构件的尺寸；其次，在ADAMS中构建机构模型并进行轨迹分析；最后，通过实验样机进行缝合实验。实验结果表明，设计的缝合机构可将实际缝合厚度不足3 mm提高到8 mm，并在缝合过程中形成稳定线环，验证了不对称8字形缝合工艺及摆动插刺机构的可靠性。

关键词: 单边双针双线缝合, 轨迹设计, 摆动插刺机构设计, 实验验证

Abstract: Due to a thickness of more than 3 mm could not be sewed using the single-sided double-needle double-thread stitching head insertion mechanism, an asymmetrical 8-shaped motion trajectory was proposed and the motion trajectory of the needle insertion mechanisms was designed. Firstly, the dimensions of various components of the oscillating insertion mechanisms were determined based on the kinematic analysis of the single-sided double-needle double-thread stitching processes. Then, a mechanism model was constructed in ADAMS and a trajectory analysis was performed. Finally, stitching experiments were conducted using the prototype. The results show that the designed stitching mechanisms may increase the actual stitching thickness from less than 3 mm to 8 mm and form a stable loop during the stitching processes, confirming the reliability of the asymmetric 8-shaped stitching technique and the oscillating insertion mechanisms.

Key words: single-sided double-needle double-thread stitching, trajectory design, design of oscillating needle insertion mechanism, experimental verification

中图分类号:

TS103.1

高子乔, 董九志, 陈云军, 蒋秀明, . 单边双针双线摆动缝合轨迹设计及实验验证[J]. 中国机械工程, 2024, 35(01): 102-108.

GAO Ziqiao, DONG Jiuzhi, CHEN Yunjun, JIANG Xiuming, . Design and Experimental Verification of Unilateral Double-needle Double-thread Oscillating Stitching Trajectories[J]. China Mechanical Engineering, 2024, 35(01): 102-108.

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http://www.cmemo.org.cn/CN/Y2024/V35/I01/102

参考文献

［1］GNABA I,LEGAND X,WANG P,et al. Through-the-thickness Reinforcement for Composite Structure:a Review［J］. Journal of Industrial Textiles, 2019, 49(1):71-96.
［2］王显峰,高天成,肖军.复合材料缝合技术的研究进展［J］. 纺织学报,2019,40(12)：169-177.
WANG Xianfeng，GAO Tiancheng，XIAO Jun. Research Progress of Stitching Technology of Composite Materials［J］. Journal of Textile Research, 2019, 40(12):169-177.
［3］BANNISTER M K. Developmentand Application of Advanced Textile Composites［J］. Proceedings of the Institution of Mechanical Engineers, Part L:Journal of Materials:Design and Applications, 2004, 218(3):253-260.
［4］DONG J, JI L, LA X, et al. Design and Study of the Action of the Yarn-pulling Mechanism of a Carbon-fiber One-sided Stitching Device Based on Improved Technology［J］. Textile Research Journal， 2020， 90(11/12):1372-1384.
［5］BIGAUD J, ABOURA Z, MARTINA T, et al. Analysis of the Mechanical Behavior of Composite T-joints Reinforced by One Side Stitching［J］. Composite Structures, 2018, 184(249/255):0263-8223.
［6］FRACOIS P R. Investigation of Vartm Resin Flow Through 3D Near Net-shape Aerospace Preforms［D］. Ottawa：University of Ottawa, 2017.
［7］KRISTOPHER P, LI Tong. An Experimental Study on Mode Ⅰ and Ⅱ Fracture Toughness of Laminates Stitched with a One-sided Stitching Technique［J］.Composites Part A:Applied Science and Manufacturing, 2011;42(2):203-210.
［8］刘华峰, 赵凯辉, 王佩艳,等. 缝合复合材料泡沫夹层结构的平压和剪切性能研究［J］.中国机械工程, 2011, 22(10):1213-1215.
LIU Huafeng，DIAO Kaihui，WANG Peiyan, et al. Study on Mechanical Behavior of Composites Stitched Foam Sandwich Panels under Flatwise Compression and Shear［J］. China Mechanical Engineering, 2011, 22(10):1213-1215.
［9］吴刚, 赵龙, 高艳秋, 等. 缝合技术在复合材料液体成型预制体中的应用研究［J］. 航空制造技术, 2012, 55(1/2):70-72.
WU Gang, ZHAO Long, GAO Yanqiu, et al. Application Research of Stitching Technology on Fabric Preform for Composites Liquid Forming［J］. Aeronautical Manufacturing Technology, 2012, 55(1/2):70-72.
［10］SONG Chenyang, WEI Fan, TAO Liu, et al. A Review on Three-dimensional Stitched Composites and Their Research Perspectives［J］. Composites Part A:Applied Science and Manufacturing, 2022,153, 106730.
［11］LINKE M,GREB C,KLINGELE J. Automating Textile Preforming Technology for Mass Production of Fibre-reinforced Polymer (FRP) Composites［J］. The Global Textile and Clothing Industry, 2016, 9(1):171-195.
［12］丁锋, 田会方, 徐德帆, 等. 一种基于双凸轮的单面缝合机构设计［J］. 机械研究与应用, 2016, 29(2):155-157.
DING Feng, TIAN Huifang, XU Defan, et al. Design of a Single-side Stitching Mechanism Based on Double Cam［J］. Mechanical Research & Application, 2016, 29(2):155-157.
［13］林东, 董九志, 陈云军, 等. 硬质夹层三明治结构复合材料预制体缝合头参数化设计［J］.复合材料科学与工程,2021(6):94-101.
LIN Dong, DONG Jiuzhi, CHEN Yunjun, et al. Parametric Design of Suture Head of Composite Material Preform with Rigid Sandwich Structure［J］. Composites Science and Engineering, 2021(6):94-101.
［14］田会方, 苏晓伟, 吴迎峰, 等. 玻璃纤维布单边缝合装置与实验研究［J］. 复合材料科学与工程, 2020(9):61-67.
TIAN Huifang, SU Xiaowei, WU Yingfeng, et al. One-sided Stitching Device and Experimental Research for Glass Fabric［J］. Composites Science and Engineering, 2020(9):61-67.
［15］姚福林, 李亮玉, 岳建锋, 等. 复合材料单边缝合机械手线迹稳定成型技术研究［J］. 机械工程学报, 2016, 52(13):60-67.
YAO Fulin, LI Liangyu, YUE Jianfeng, et al. The Stitch Stable Forming Technology of Oneside Sewing Manipulator Applied in Composite Material［J］. Journal of Mechanical Engineering, 2016, 52(13):60-67.
［16］封桥桥, 文立伟, 肖军, 等. 复合材料预制体单边弯针缝合装备技术研究［J］. 玻璃钢 / 复合材料, 2019(11):86-94.
FENG Qiaoqiao, WEN Liwei, XIAO Jun, et al. Research on The Technology of Single-sided Curved Needle Stitching Equipment of the Composites Preform［J］. Composite Materials Science and Engineering, 2019(11):86-94.
［17］董九志, 耿争言, 王立文, 等. 复合材料预制体单边缝合技术研究进展［J］. 航空制造技术, 2022, 65(16):46-53.
DONG Jiuzhi，GENG Zhengyan，WANG Liwen，et al. Research Progress on One-sided Stitching Technology for Composite Preforms［J］. Aeronautical Manufacturing Technology, 2022, 65(16):46-53.
［18］MOLL K U. Method and Device for Producing Seams:DE 10255812.4［P］. 1999-03-20.
［19］VANESSA S,CONOR J,ROBERT J. Wood Textile Technology for Soft Robotic and Autonomous Garments［J］. Advanced Functional Materials, 2021, 31(6):2008278.
［20］KRUSE F F, ECKERS V, Henkel F, et al. Modelling the Seam Architectures for Textile Preforming［J］. Materials Science, 2008:13566525.
［21］LAOURINE E. Single-sided Sewing Technology for the Production of Three-dimensional Fibre Composite Components［D］. Aachen:RWTH Aachen University,2005.
［22］KRISTOPHER P, TONG Liyong. Traction Law for Inclined Through-thickness Reinforcement Using a Geometrical Approach［J］. Composite Structures, 2009,4(88)：558-569.

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单边双针双线摆动缝合轨迹设计及实验验证

Design and Experimental Verification of Unilateral Double-needle Double-thread Oscillating Stitching Trajectories

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