An Overview on the Spinning Triangle Based Modifications of Ring Frame to Reduce the Staple Yarn Hairiness

Traditional ring spinning system is associated with the several limitations, one of which is yarn hairiness. The awareness has been vibrantly growing among the spinning mills for reducing staple yarn hairiness because of its detrimental effects on the subsequent processes (i.e., weaving, knitting, dyeing etc.) and the quality of resultant textile products. As a result, modified form of ring frame has attracted a lot of attention among the researchers for making yarn with the lower level of hairiness value. Besides the raw material parameters and some processing variables, spinning triangle (ST) is the most critical region that has decisive influence on the distribution of fiber tensions and their spatial orientations and shapes in staple yarn body. Thus, using appropriate methods to control the spinning triangle geometry actively has been a vital issue in the field of yarn hairiness reduction. In this paper, it is attempted to make an overview on the spinning triangle based modifications of ring frame that have been designed and destined to reduce hairiness. However, agent aided ring spinning system has also been briefly discussed in this paper as well.

The Influence of Elimination of Roving Frame on Ring Spun Cotton Yarn Characteristics

Generally, ring spun yarns are manufactured from roving which is produced by roving frame. In this paper, an experiment has been done producing ring spun cotton yarn directly from finisher drawn sliver eliminating the roving frame. Total 3 types of yarn with the various linear density of 8 Ne, 10 Ne & 12 Ne were produced using a roving frame and without using a roving frame. In the next step, physical and mechanical properties of those yarns including unevenness, imperfections, hairiness & tenacity were investigated. The result showed that ring spun cotton yarns produced from sliver exhibited inferior physical and mechanical properties compared with samples from the conventional ring spinning system.

THE PRACTICE OF ACRYLIC SIROSPUN YARN ON THE SEMI WORSTED SPINNING FRAME

The technique of sirospun process is applied on a modified semi-worsted balloonless spinningframe to investigate the effect of spindle-speed,yarn-twist and strand-spacing on yarn properties.Yarn breaking strength,breaking extension,evenness and imperfection are examined on the basisof CCD experimental design.Yarn hairiness is particularly concerned,being found that all spinningparameters tested have significant effects on hairiness and that the minimum number of hairs oc-curs at the strand-spacing of 14.4 mm.Compared to conventional single spun yarn,experimentshave revealed the greatest advantage of using sirospun process is that all sirospun yarns have muchless hairiness.A new sirospun yarn fault,so called“loop”,has also been examined.The most likely cause forthis yarn fault is the strand-tension unbalance between the two strands when low tension spinningis applied.Further analysis and some initial tests have been carried out in the hope of overcomingthis loop fault which is an important obstacle to the application of balloonless spinning.

A METHOD FOR REDUCING YARN HAIRINESS AT RING SPINNING

In order to improve the quality of yarn,a research was carried out at ring spinning.A modifiedtraveller has been used to reduce the yarn hairiness vastly.According to the statistical analysis ofthe data,it was found that the geometrical shape of travellers is the key factor affecting the yarnhairiness at ring spinning.

VISUAL ESTIMATE OF WORSTED YARN SPINNING TENSION

A method of visual estimate of yarn spinning tension on worsted ring spinning frame is pro-posed. This method is based on pragmatized classical theory of spinning balloon, and is supportedby experimental data.

基于5G技术长丝整经工厂智能化改造

基于5G高带宽、低延时能力,整经设备、AGV采集的大数据可实时传输到数据处理中心,通过后台智能分析算法的快速分析,生成业务所需的数据,达到无人化、精细化、智能化生产的要求。根据拓扑图,规划控制层,以便于各模块的功能设计。设计经轴专用AGV小车以及配套的管控系统,对经轴的运输、存储等环节实现自动化、智能化管理,减少了生产现场人员配置,为企业降低了生产成本;规范生产现场管理以及各工序等业务流程化、规范化,合理选择适用的智能化AGV小车、智能机械手以及配套的管控系统,对丝饼的自动挂取、挂丝车的自动运输等环节实现自动化、智能化管理;规划生产车间功能性区域,在人工作业区域设计人工辅助上料工位和自动上料工位,与智能机械手配合,实现机械手自动挂纱动作。该研究为其他企业旧车间智能化改造、新智能工厂规划提供了有力参考。

三色绒感纱架贾卡提花鞋材一体成形设计

针对传统经编贾卡提花鞋材缺少绒感风格,或者部分经编贾卡织物因增加绒感而导致生产工序冗杂且提花效应不明显的问题,提出在经编机上利用纱架贾卡实施绒感提花鞋材的一体成形编织方法。首先在分析纱架贾卡经编机技术参数的基础上,研究鞋材织物绒感的形成方法与提花原理;然后以双针床纱架经编机RDPJ6/1和WKCAD为开发平台,选用涤纶、阳离子改性涤纶和锦纶纱线进行绒感提花鞋材的贾卡意匠图、排版与工艺一体成形的流程设计,并完成上机织造。结果表明:利用纱架贾卡经编机并采用双针床对绑工艺,可成功实现三色绒感提花鞋材的快速一体成形编织,在简化贾卡鞋材绒感织物复杂生产工序、提高生产效率的同时,也丰富了经编鞋材的种类与风格,并拓宽了贾卡织物的应用范围。

立达G32型环锭细纱机控制系统改造

针对立达G32型环锭细纱机在运行中出现纱线强捻、电气元件老化、系统兼容性差等问题,介绍其CPU、操作面板、驱动器等控制系统以及电控箱电气元件升级换代的具体操作,并对比验证改造前后的技术要求和改造效果。指出:改造后的立达G32型环锭细纱机控制系统稳定可靠、兼容性较高,能保持原车布局结构且操作维修方便;改造成本低,整车性能良好,生产纱线的各项指标合格。

机织织物剪切行为研究

研究了平纹碳纤维机织织物的剪切行为。研究发现,织物的分阶段剪切行为与织物的细观结构有关,不同的剪切阶段具有不同的剪切机理,通过XLT-3400连续变体式显微镜和像框实验结果对不同剪切阶段的剪切机理进行了分析。通过纱线抽出实验获得了织物中纱线之间的摩擦系数,将纱线当作一个悬臂梁安装,通过此方法获得了纱线的抗弯刚度,由这两个实验导出了摩擦力矩。利用像框剪切实验以及力矩平衡,建立了平纹织物初始剪切阶段载荷-剪切角的关系模型。实验结果表明,此模型可以很好地模拟剪切角度超过0.05rad之后的织物初始剪切行为。

竹节纱的生产体会

为了保证竹节纱规格达到要求,成纱质量稳定,根据细纱设备的性能特点、竹节纱纺制原理及竹节纱纺纱工艺实践,总结出竹节纱与普通环锭纱工艺配置的区别.实践表明：竹节纱捻系数应比普通同号纱高10%～20%;细纱机前罗拉速度要低于纯棉同号普通纱;竹节纱节长、节距与细纱机车况关系很大,要进行试纺;竹节纱牵伸效率与普通环锭纺有所不同;生产中要加强竹节纱装置、设备的维护保养.

SCV-Ⅲ型竹节纱装置工艺设计

为开发CJ14.5tex竹节纱、CJ9.7tex竹节纱,在FA502型细纱机上配套安装了SCV-Ⅲ型竹节纱装置进行纺纱实践。分析了竹节纱竹节粗度、竹节间距及竹节长度规格参数的设计方法,对实际纱号、前罗拉速度、竹节纱捻度、产量进行了计算和设计。指出:设计竹节周期和竹节间距等工艺参数时,应反复验算不能出现倍数关系或接近倍数关系,避免出现竹节的规律性排列,以提高竹节纱产品的布面效果。

赛络纺纱技术及纺纱实践

介绍了赛络纺纱技术的原理,在棉纺细纱机上的实现方法,赛络纺纯棉精梳纱、混纺纱和涤粘复合纱的纺纱工艺,对比分析了赛络纺成纱质量与环锭纺成纱质量。认为赛络纱的成纱毛羽、条干、强力优于环锭纱,但细节差于环锭纱。

K44型细纱机纺纱段抖动对成纱质量的影响

探讨K44型细纱机引纱杆处的纱线跳动对成纱质量的影响。通过在引纱杆上添加限位装置1和限位装置2,分别改变纱线的跳动状态和减小纱线的跳动幅度,从而改善纱线的质量。试验发现:添加限位装置1会增加纱线的毛羽数量,但对纱线条干和断裂强力基本没有影响;添加限位装置2能够有效降低纱线的毛羽数量,对纱线的条干和断裂强力影响不大。认为:有效处理引纱杆处纱线的抖动问题有助于提高纱线的质量。

纺制竹节纱的细纱机构改造

探讨在细纱机上纺制竹节纱的机构改造方法。通过在EJM128K型细纱机车头增加一个通用变频器和一个普通电机,由一套减速齿轮直接传动中、后罗拉,由变频器控制电机转速来达到瞬时改变牵伸倍数的目的,从而生产出竹节纱。实践证明:该方法简单易行,成本低廉,适用于各类国产细纱机纺制竹节纱的机构改造。

并条合牵式断续复合纱的纺制

探讨并条合牵式断续复合纱的纺制。在并条机上加装喂入装置,将彩色饰纱喂入并条牵伸机构,经过并条、粗纱、细纱3次牵切纺制出具有段彩效果的复合纱,复合纱彩色片段分布稀疏、细小,具有"丝雨"效果。并对主要设备改造、饰纱选择、工艺配置和成纱效果进行了分析讨论。认为:饰纱根数、强力、有关牵伸倍数和握持能力是影响断续复合纱纺制的关键因素。

浅谈环锭细纱机上纺制竹节纱的几种途径

简述了竹节纱的特征、规格参数 ,并以中后罗拉间歇增速法为主 ,探讨了纺制无规律竹节纱、有规律竹节纱的多种途径 ,以及纺纱过程中应注意的问题。

五罗拉空心锭花式捻线机生产花式线的探讨

简述了五罗拉空心锭花式捻线机的机构组成、工作原理及特点,以及纺制各种特殊花式线的工艺设计。根据生产实践,介绍了圈圈线生产工艺实例,叙述了各种特殊花式线的工艺参数选择依据及其范围。进一步证明了五罗拉空心锭花式捻线机具有一定的市场前景,并提出了增强其市场竞争力的技术措施。

环锭细纱机纺包芯纱的成纱机理研究

探讨了环锭细纱机纺包芯纱的成纱机理,分析了影响包芯纱的成纱机理及影响包芯纱包覆效果的主要因素。实验结果表明,通过改变加捻三角区的高度、宽度以及长丝与短纤维须条在细纱机前钳口处的相对位置,可以显著改善包芯纱的包覆效果。

麻/氨包芯纱纺纱工艺优化

介绍了环锭细纱机纺制麻/氨包芯纱的纺纱工艺的探讨,通过正交试验法得到了最佳的工艺组合。

国产细纱机牵伸加压改造及牵伸工艺配置

要进一步提高纺纱质量 ,满足产品高品质、高档次要求 ,进行设备更新和技术改造、提高设备性能是关键。通过引进SuessenHP系列加压机构和牵伸元件对国产EJM 12 8K型、FA5 0 6型细纱机进行了牵伸机构改造。介绍了HP A 310型摇架和HP C型上销的主要特点 ;分析了针织纱工艺与机织纱工艺的特征、牵伸工艺的可靠性及综合配置问题。指出 :机织纱工艺与针织纱工艺的界限在缩小 ,在先进的牵伸机构条件下 ,稳定可靠的针织纱工艺将成为发展方向 ;牵伸工艺应与牵伸机构性能相适应 ,在确保纱疵稳定、兼顾改善条干质量的条件下 ,各牵伸工艺参数要合理配置。