清棉

qīng mián
  • scutching
清棉清棉
清棉[qīng mián]
  1. 根据两种纤维长度和细度较为相近、都不含杂的特点,选择了在清棉工序进行混和的纺纱方案。

    Based on having similar fiber length and fiber fineness and no impurities contained , a spinning plan of mixing them in scutching process is selected .

  2. 研究认为:清棉过程中棉结数量增加,刺辊对棉结的去除作用很大,后罩板处加固定盖板和棉网清洁器的作用则不大。

    It is believed that if nep number increases during scutching process , the taker-in plays a more active role in eliminating the neps while the stationary flat and web purifier do not .

  3. 本文叙述在开清棉工序配套应用PC控制、自调匀整、新型成卷机、综合滤尘器等新技术的应用效果。

    Abstract It is briefed the operation effects of domestic opening and cleaning section complemented with PC controlling and auto-levelling system , new-type lapper and compound dust filter .

  4. 英国Crosrol公司新的开清棉生产线

    New Opening & Cleaning Production Line of Crosrol

  5. 从引进的TOH系列清棉机组生产实践谈国产气流纺纱清梳设备配套

    Based on The Produetion Practice of Introduced TOH Cleaning Machines Talk about the Mating of Native Cleaning and Carding Equipments

  6. 开清棉生产线异纤清除机使用情况分析

    Application of foreign matter cleaner in cotton opening and scutching line

  7. 色纺纱单流程开清棉工艺实践

    Technology Practice of Single Circulation Opening Cleaning of Colored Spun Yarn

  8. 清棉双转笼滤尘系统的实践

    The Practice of the Rotary Double-Cage Filter System in Blowing Room

  9. 清棉金属探除器的设计原理与应用

    The Design and Use of the Metal Detecting Device in Picking

  10. 开清棉流程组合的新技术与新设备

    The New Technique and Component Equipment for Cotton Opening and Cleaning Systems

  11. 气流纺开清棉工艺初步探讨

    Discussing the Processing of Opening and Cleaning of Rotor Spinning

  12. 关于清棉滤尘几个问题的探讨

    A Discussion of Several Air Filtration Problems in Blowing Room

  13. 开清棉布袋式滤尘的改造

    Reformation of the Bag Filtering in Opening and Picking Processes

  14. 清棉工程纤维混和技术的分析

    Analyses of Fibre Blending Technique in Picking Process

  15. 国产开清棉技术改造问题粗议

    Technological Reformation of Domestic Openning and Cleaning Machine

  16. 开清棉工艺新进展探讨

    An Investigation on Recent Progress of Opening Process

  17. 开清棉除尘系统管网改造及工艺研究

    Pipe-net reformation and technology research of dust extraction system in cotton opening and cleaning

  18. 开清棉除尘系统正压运行的设计与应用

    Design and Application of Opening and Picking Dust Collecting System Running in Positive Pressure

  19. 提高开清棉除杂效率的技术措施

    Technology Measures in Enhancing Opening-blowing Clean Efficiency

  20. 纺织厂开清棉车间除尘系统的自动设计计算

    Automatic calculation and design on the extraction systemof opening and picking workshop in textile mill

  21. 清棉工序有关工艺点棉样梳理力的测试与探讨

    Measurement and Discussion of Carding Force about the Fibres Sampled from Different Points in Scutching Process

  22. 纤维在开清棉过程中被破坏。

    Fiber rupture at blow room .

  23. 贯彻工艺基本原则,提高开清棉整体效能

    Carry Out the Basic Principles of Processing and Improve the Whole Efficacy of Opening and Picking

  24. 针对纯棉赛络纺竹节纱生产中存在的问题,采取一系列工艺技术措施:开清棉控制打手速度;

    According to the problem of producing pure cotton siro slub yarn , a series of processing technology measures were adopted .

  25. 应用表明新型开清棉联合机所生产出的制成品的含杂、棉结、短绒率、正卷率和不匀率等指标均优于传统开清棉联合机。

    The application shows that the targets in percentage of foreign impurities , neps and linters , acceptable lap rate and unevenness etc.

  26. 在非连续化生产系统中,清棉棉卷放置在梳棉机的机尾处,为梳棉机提供原料。

    In the intermittent or discontinuous system , the picker lap is placed at the rear of the card frame to supply fibers .

  27. 为了免除异性纤维对成纱及成品造成疵点,在开清棉流程中广泛采用异性纤维在线检出装置。

    To avoid the product defects of profile fiber , online profile fiber checking set was used in opening and cleaning circulation widely .

  28. 介绍了开清棉设备在非织造生产过程中的工作原理、工艺要求及对产品质量的影响因素。

    In the article , the work principle , technology of the opening and picking machine , influence factors on the production quality for nonwovens production were introduced .

  29. 作者探讨了开清棉工艺中的开松、混和、清除和均匀四个主要作用及其相互关系;

    The investigation is conducted into four main technical functions of opening process : opening , blending , cleaning and evening as well as relationships between one another .

  30. 文章介绍了上海第二十二棉纺织厂与上海市棉纺织科学技术研究所研制的清棉双转笼滤尘系统使用情况。

    This article introduces the performance of the rotary double-cage filter system developed through Shanghai Cotton Mill No. 22 in cooperation with Shanghai Textile Science and Technology Research Institute .