CN101709524A - Functional polyester-cotton conducting fiber blended yarn and processing method thereof - Google Patents

Functional polyester-cotton conducting fiber blended yarn and processing method thereof Download PDF

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Publication number
CN101709524A
CN101709524A CN200910232000A CN200910232000A CN101709524A CN 101709524 A CN101709524 A CN 101709524A CN 200910232000 A CN200910232000 A CN 200910232000A CN 200910232000 A CN200910232000 A CN 200910232000A CN 101709524 A CN101709524 A CN 101709524A
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China
Prior art keywords
cotton
fibre
yarn
fiber
blended yarn
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Pending
Application number
CN200910232000A
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Chinese (zh)
Inventor
杨广泽
吉宜军
顾仁发
邵国东
崔益怀
乐荣庆
邓春荣
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SHUANGHONG TEXTILE CO Ltd NANTONG
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SHUANGHONG TEXTILE CO Ltd NANTONG
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Publication date
Application filed by SHUANGHONG TEXTILE CO Ltd NANTONG filed Critical SHUANGHONG TEXTILE CO Ltd NANTONG
Priority to CN200910232000A priority Critical patent/CN101709524A/en
Publication of CN101709524A publication Critical patent/CN101709524A/en
Pending legal-status Critical Current

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Abstract

The invention discloses a functional polyester-cotton conducting fiber blended yarn and a processing method thereof, relating to the technical field of spinning engineering. The processing method comprises the following steps of: mixing polyester fibers with compound light-colored chinlon base organic conducting short fibers to manufacture mixed organic polyester conducting fiber raw strips; manufacturing cotton fibers into raw strips and fine combing the raw strips to manufacture fine combing cotton strips; then mixing the fine combing cotton strips and the mixed organic polyester conducting fiber raw strips and then processing the mixed strips through a coarse spinner and a spun yarn spinner; and finally, spooling. The functional polyester-cotton conducting fiber blended yarn can be manufactured into special clothes and textiles being static-free, dust-free, microwave protective, radiation protective, and the like. Proved by detection, the yarn has good electric conduction property and cannot be influenced by environment humidity. After the yarn is spun and processed, the yarn has stiff, smooth and flexible handfeel, drapability, good size stability, good abrasion resistance, comfort, skin fit, good coloring and bright and abundant color and conforms to the application requirement of high-grade clothing fabrics and fashionable dress fabrics.

Description

Functional polyester-cotton conducting fiber blended yarn and processing method thereof
Technical field
The present invention relates to the technology of spinning engineering technical field, particularly blended yarn.
Background technology
Electrostatic problem greatly influences the wearability of fabric, not only in particular job place security hidden trouble is arranged, and also has problems such as appearance of fabrics and wearing comfort in daily taking.In fabric, add conductive fiber, can effectively improve the antistatic property of fabric, and by with the combination of other fiber, thereby improve the wearability of fabric.
Produce anti-static fabric in the market and use the more two kinds of methods that have, the first interweaves conductive fiber long filament and fabric, electrically conductive filament is spaced apart at a certain distance on the cloth cover, although fabric also has tangible conducting function, but electrically conductive filament distributes obviously, fabric appearance, style are greatly affected, and audient's scope is less.It two is with the low ratio of conductive fiber and other fiber blend resultant yarns, by rational spinning process, conductive fiber is uniformly distributed in fabric, make product have antistatic effect and do not manifest conductive fiber, the conduction good uniformity of fabric integral body, be not only applicable to the unique fabric lining, meet the application requirements of high-grade clothing fabric panel and fashionable dress lining more.
Domestic have minority producer application polyamide fibre compound organic conductive medium-length fibre of base carbon black and cotton or terylene to carry out the blending resultant yarn at present, because this conductive fiber is black, be difficult for dying, make yarn, textile dyeing scope restricted greatly, and all be with conductive fiber and cotton or the independent blending of terylene, the wearability of aspects such as fabric moisture gas permeability, DIMENSIONAL STABILITY, drapability does not obtain comprehensive embodiment, and snugness of fit is not strong, and applicability is wideless.
Raising along with people's living standard, people expect a kind of excellent conductive capability that both had, the appearance of good moisture permeability, DIMENSIONAL STABILITY, drapability and rich color, pleasant wearing fabric next to the shin is arranged again, therefore, we have spinned the present domestic terylene of not seeing as yet, cotton, compound light polyamide fibre base organic conductive spun-blend.
Summary of the invention
It is better to the present invention proposes a kind of conducting function, and have moisture absorption preferably, permeability is good, soft, chromatophilous functional polyester-cotton conducting fiber blended yarn.
The present invention includes polyster fibre, cotton fiber and compound light polyamide fibre base organic conductive staple fibre.
The mass percent that described polyster fibre, cotton fiber and compound light polyamide fibre base organic conductive staple fibre account for blended yarn respectively is: polyster fibre 20%~60%, cotton fiber 35%~78%, compound light polyamide fibre base organic conductive staple fibre 1%~5%.Preferably: polyster fibre 56%, cotton fiber 40%, compound light polyamide fibre base organic conductive staple fibre 4%.
Described compound light polyamide fibre base organic conductive staple fibre specification is 3.0dtex * 38mm.
The present invention can make extraordinary dress ornament and textiless such as antistatic, dustproof, anti-microwave, radiation proof, has good electric conductivity after testing, and not influenced by ambient humidity, this yarn is after weaving processing, and feel is well-pressed soft again, drapability, DIMENSIONAL STABILITY is good, ABRASION RESISTANCE is good, pleasant next to the shin, paint, lining is bright in luster, abundant, also meets the application requirements of high-grade clothing fabric panel and fashionable dress lining.
The present invention also provides the processing method of above functional polyester-cotton conducting fiber blended yarn:
With polyster fibre, cotton fiber and compound light polyamide fibre base organic conductive staple fibre with match network spinning process resultant yarn.
The processing step of described blended yarn is:
1) polyster fibre is mixed with compound light polyamide fibre base organic conductive staple fibre, make the terylene electrically conductive organic fibre mixing carded sliver;
2) cotton fiber is made the carded sliver, and make the combing sliver through combing;
3) combing sliver and the terylene electrically conductive organic fibre mixing carded sliver are mixed and after, through rove, spun yarn, last winder.
Technology of the present invention is simple, reasonable, can adopt prior art equipment to process, and quality stability is good, can reach purpose of design.
The specific embodiment
Below for the embodiment of production dacron cotton electrically conductive organic fibre blended yarn 12.2tex.
Proportioning raw materials:
Polyster fibre: 56%, specification: 1.33dtex * 38mm.
Combing cotton fibre: 40%, average rank: 1.8 grades.
Compound light polyamide fibre base organic conductive staple fibre (Japanese clock spins company and produces): 4%, specification: 3.0dtex * 38mm.
Processing process:
1, polyster fibre is mixed with compound light polyamide fibre base organic conductive staple fibre,, form the terylene electrically conductive organic fibre mixing carded sliver through blowing, comb and parallel cotton fibers prior to spinning.
2, with the cotton carded sliver through in advance also, bar and volume, combing, form the combing sliver.
3, with the terylene electrically conductive organic fibre mixing carded sliver and combing sliver and close, through once and mix, secondary and mix, three times and mix, four times and mix, again through Speed frames, fine spining machine, bobbin winder, form a tube yarn.The resultant yarn twist factor is 300~330.
Because electrically conductive organic fibre content in yarn is low, and its price is tens of times of the ordinary polyester fiber, and this fiber is firmly, very smooth for making process, guarantees the resultant yarn performance, reaches yarn quality purpose preferably, take following measure:
1, opening and cleaning step reduces hired roughneck's speed, and hired roughneck's dirt rod spacer suitably dwindles, to reduce noil.Fan airstream speed suitably improves, and to strengthen air quantity, prevents that the moment of fiber block is detained, and the assurance sheet cotton is evenly exported.
2, carding step web tension draft multiple suitably reduces, weight of card sliver is laid particular stress on grasp slightly, adopts the technological principle of " many branches comb, low velocity, good transfer ", dwindles inlet and licker-in spacer at the bottom of the little leakage, receive little front knife plate and cylinder and space, to reduce noil.
3, mixing in doubling step adopts four roads and closes because the ribbon that multiple tracks is mixed is riper, in the production process easily around roller, around rubber roll, therefore, reduce the front roller output speed, and suitably reduce the doff fixed length, keep circle of inclined tube bright and clean, prevent ripe stick.
4, spinning process adopts match network spinning process, further improves the conductive fiber degree that is evenly distributed, and adopts the steel traveler that opening is less, frictional force is little, hardness is higher and mellow and full, reaches resultant yarn little breakage, filoplume is few, bar makes a good job of purpose.
5, winding procedure adopts photoelectric-type electronic yarn clearer, and influence of winding tension is wanted grasp less than normal, rationally regulates the parameter of splicing, and the doff passage requires bright and clean.
6, in the spinning process, the workshop temperature is controlled in 20 ℃~34 ℃ scopes, and relative humidity is controlled in 50%~70% scope.

Claims (6)

1. functional polyester-cotton conducting fiber blended yarn is characterized in that: comprise polyster fibre, cotton fiber and compound light polyamide fibre base organic conductive staple fibre.
2. according to the described functional polyester-cotton conducting fiber blended yarn of claim 1, it is characterized in that the mass percent that described polyster fibre, cotton fiber and compound light polyamide fibre base organic conductive staple fibre account for blended yarn respectively is: polyster fibre 20%~60%, cotton fiber 35%~78%, compound light polyamide fibre base organic conductive staple fibre 1%~5%.
3. according to the described functional polyester-cotton conducting fiber blended yarn of claim 2, it is characterized in that the mass percent that described polyster fibre, cotton fiber and compound light polyamide fibre base organic conductive staple fibre account for blended yarn respectively is: polyster fibre 56%, cotton fiber 40%, compound light polyamide fibre base organic conductive staple fibre 4%.
4. according to claim 1 or 2 or 3 described functional polyester-cotton conducting fiber blended yarns, it is characterized in that described compound light polyamide fibre base organic conductive staple fibre specification is 3.0dtex * 38mm.
5. the processing method of functional polyester-cotton conducting fiber blended yarn according to claim 1 is characterized in that polyster fibre, cotton fiber and compound light polyamide fibre base organic conductive staple fibre with match network spinning process resultant yarn.
6. according to the processing method of the described functional polyester-cotton conducting fiber blended yarn of claim 5, it is characterized in that the processing step of described blended yarn is:
1) polyster fibre is mixed with compound light polyamide fibre base organic conductive staple fibre, make the terylene electrically conductive organic fibre mixing carded sliver;
2) cotton fiber is made the carded sliver, and make the combing sliver through combing;
3) combing sliver and the terylene electrically conductive organic fibre mixing carded sliver are mixed and after, through rove, spun yarn, last winder;
The percentage that preceding each fiber of described mixing accounts for total amount is: polyster fibre 20%~60%, cotton fiber 35%~78%, compound light polyamide fibre base organic conductive staple fibre 1%~5%.
CN200910232000A 2009-12-07 2009-12-07 Functional polyester-cotton conducting fiber blended yarn and processing method thereof Pending CN101709524A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN200910232000A CN101709524A (en) 2009-12-07 2009-12-07 Functional polyester-cotton conducting fiber blended yarn and processing method thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN200910232000A CN101709524A (en) 2009-12-07 2009-12-07 Functional polyester-cotton conducting fiber blended yarn and processing method thereof

Publications (1)

Publication Number Publication Date
CN101709524A true CN101709524A (en) 2010-05-19

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101942732A (en) * 2010-07-05 2011-01-12 丹阳市丹盛纺织有限公司 Production method of shape memory radiation-proof double-layer woven fabric
CN102181977A (en) * 2011-04-11 2011-09-14 浙江春江轻纺集团有限责任公司 Antistatic yarns and processing method
CN102431251A (en) * 2011-09-30 2012-05-02 江苏博欧伦家纺有限公司 Antistatic metal fabric
CN102493052A (en) * 2011-11-22 2012-06-13 浙江龙源纺织股份有限公司 Technique for spinning blended yarns containing ultralow-ratio antistatic conductive polyester fibers
CN103924357A (en) * 2014-05-06 2014-07-16 南通田野服装有限公司 Anti-electromagnetic-radiation fabric
CN107964789A (en) * 2017-11-26 2018-04-27 新乡市护神特种织物有限公司 A kind of fire-retardant preparation process for washing canvas of water pressure resistance
CN111485312A (en) * 2020-04-28 2020-08-04 安徽宏祥丝绸织造有限公司 Preparation method of anti-static silk fabric

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101942732A (en) * 2010-07-05 2011-01-12 丹阳市丹盛纺织有限公司 Production method of shape memory radiation-proof double-layer woven fabric
CN101942732B (en) * 2010-07-05 2012-02-29 丹阳市丹盛纺织有限公司 Production method of shape memory radiation-proof double-layer woven fabric
CN102181977A (en) * 2011-04-11 2011-09-14 浙江春江轻纺集团有限责任公司 Antistatic yarns and processing method
CN102181977B (en) * 2011-04-11 2012-09-05 浙江春江轻纺集团有限责任公司 Antistatic yarns and processing method
CN102431251A (en) * 2011-09-30 2012-05-02 江苏博欧伦家纺有限公司 Antistatic metal fabric
CN102493052A (en) * 2011-11-22 2012-06-13 浙江龙源纺织股份有限公司 Technique for spinning blended yarns containing ultralow-ratio antistatic conductive polyester fibers
CN102493052B (en) * 2011-11-22 2014-04-30 浙江龙源纺织股份有限公司 Technique for spinning blended yarns containing ultralow-ratio antistatic conductive polyester fibers
CN103924357A (en) * 2014-05-06 2014-07-16 南通田野服装有限公司 Anti-electromagnetic-radiation fabric
CN107964789A (en) * 2017-11-26 2018-04-27 新乡市护神特种织物有限公司 A kind of fire-retardant preparation process for washing canvas of water pressure resistance
CN111485312A (en) * 2020-04-28 2020-08-04 安徽宏祥丝绸织造有限公司 Preparation method of anti-static silk fabric

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