JPH10102342A - Production of combined filament yarn - Google Patents

Production of combined filament yarn

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Publication number
JPH10102342A
JPH10102342A JP25884596A JP25884596A JPH10102342A JP H10102342 A JPH10102342 A JP H10102342A JP 25884596 A JP25884596 A JP 25884596A JP 25884596 A JP25884596 A JP 25884596A JP H10102342 A JPH10102342 A JP H10102342A
Authority
JP
Japan
Prior art keywords
section
yarn
fibers
fiber
regenerated
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP25884596A
Other languages
Japanese (ja)
Other versions
JP3748090B2 (en
Inventor
Yasuaki Moriya
恭亮 守谷
Ikuharu Nishida
郁春 西田
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Toyobo Co Ltd
Original Assignee
Toyobo Co Ltd
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Filing date
Publication date
Application filed by Toyobo Co Ltd filed Critical Toyobo Co Ltd
Priority to JP25884596A priority Critical patent/JP3748090B2/en
Publication of JPH10102342A publication Critical patent/JPH10102342A/en
Application granted granted Critical
Publication of JP3748090B2 publication Critical patent/JP3748090B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Abstract

PROBLEM TO BE SOLVED: To obtain a combined filament yarn suitable for a woman's inner, etc., excellent in touch, hygroscopicity and dimensional stability, by superposing a fixed polyamide multifilament yarn on a rove composed of regenerated fiber staple under specific conditions, twisting and winding. SOLUTION: In this method for spinning a rove composed of staple of regenerated fibers such as polynosic fibers having a modified section such as a triangular section of 0.10-0.95 degree of modification and >=400 average degree of polymerization, a polyamide multifilament comprising a filament having 1-3 denier is superposed, while being opened, on the rove drafted from just ahead the upper stream of a front roller of a spinning frame and spun together, twisted and wound to give the objective combined filament yarn.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、婦人用のインナ
ー、ジャケット、パンツなどに好適に用いられる寸法安
定性に優れ、肌ざわりが良く、吸湿性に富んだ混繊糸の
製造法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing a mixed fiber having excellent dimensional stability, good texture and good moisture absorption, which is suitably used for innerwear, jackets and pants for women.

【0002】[0002]

【従来の技術】従来、綿繊維、羊毛繊維などはポリエス
テルフィラメントと混繊して複合糸として用いられてき
た。例えば、特公昭54−13537は、ポリエステル
系フィラメントと綿繊維との複合糸を開示している。こ
の複合糸は、綿とポリエステル系フィラメントとの両者
の特徴を遺憾なく発揮した糸として優れたものである。
しかしながら、この複合糸といえども用途によっては、
不向きな場合もあった。例えば、婦人用のインナーなど
には吸湿性の少ないポリエステル系フィラメントよりも
ポリアミドフィラメントの方が好ましいが、寸法安定性
が悪く、そのためポリアミドフィラメントが用いられる
ことはなかった。2. Description of the Related Art Conventionally, cotton fibers, wool fibers and the like have been used as composite yarns by blending with polyester filaments. For example, Japanese Patent Publication No. 54-13537 discloses a composite yarn of a polyester filament and a cotton fiber. This composite yarn is excellent as a yarn that satisfactorily exhibited the characteristics of both cotton and polyester-based filaments.
However, even with this composite yarn, depending on the application,
In some cases it was not suitable. For example, polyamide filaments are more preferable than polyester-based filaments having low hygroscopicity for women's innerwear, but their dimensional stability is poor, and therefore polyamide filaments have not been used.

【0003】[0003]

【発明が解決しようとする課題】本発明は、ポリアミド
フィラメントと組み合わせる繊維を選択することによっ
て、かかる問題を解決しうるか否かを鋭意研究の結果開
発されたもので、ポリアミドフィラメントと特殊な再生
繊維と組み合わせて、婦人用のインナー、ジャケット、
パンツなどに好適に用いられる寸法安定性に優れ、肌ざ
わりが良く、吸湿性に富んだ混繊糸の製造法を提供する
ことを課題とする。DISCLOSURE OF THE INVENTION The present invention has been developed as a result of intensive studies as to whether or not such a problem can be solved by selecting a fiber to be combined with a polyamide filament. In combination with, women's inner, jacket,
An object of the present invention is to provide a method for producing a mixed fiber having excellent dimensional stability, good texture, and high hygroscopicity, which is suitably used for pants and the like.

【0004】[0004]

【課題を解決するための手段】本発明は、前記課題を解
決するために次の手段をとるものである。すなわち、本
発明は、異形断面の平均重合度400以上の再生繊維の
ステープルからなる粗糸を精紡機で紡出する際に、1〜
3dのフィラメントからなるポリアミドマルチフィラメ
ント糸を開繊しながら前記精紡機のフロントローラー直
前上流から前記ドラフトされている粗糸に重ねて一緒に
紡出して加撚して巻き取ることを特徴とする混繊糸の製
造法である。The present invention employs the following means to solve the above-mentioned problems. That is, the present invention, when spinning a roving composed of staples of recycled fibers having an average degree of polymerization of 400 or more of irregular cross-section by a spinning machine,
A polyamide multifilament yarn composed of 3d filaments, while being spread, is superposed on the drafted roving yarn immediately upstream of a front roller of the spinning machine, is spun together, twisted and wound. This is a method for producing woolen yarn.

【0005】[0005]

【発明の実施の形態】以下に本発明を詳細に説明する。
なお、本発明において、平均重合度400以上の再生繊
維がポリノジック繊維であること、異形断面が異形度
0.10〜0.95の異形断面が三角断面であることも
好ましい実施の形態である。DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail.
In the present invention, it is also a preferred embodiment that the regenerated fiber having an average degree of polymerization of 400 or more is a polynosic fiber, and the irregular cross section has an irregular degree of 0.10 to 0.95 and a triangular cross section.

【0006】ポリアミドフィラメントと混繊される再生
繊維は異形断面で平均重合度400以上でなければなら
ない。これは、ヌメリ感がなく肌ざわりの良いさわやか
なタッチと洗濯などの寸法安定性を得るためである。[0006] Regenerated fibers mixed with polyamide filaments must have an average degree of polymerization of 400 or more in irregular cross sections. This is to obtain a crisp touch without slimy feeling and a dimensional stability such as washing.

【0007】再生繊維として、ポリノジック繊維、キュ
プラ繊維などが挙げられるが、そのうちでもポリノジッ
ク繊維が寸法安定性を得る上で好ましい。前記再生繊維
は異形断面を有しなければならない。この異形断面は、
ヌメリ感を解消し、ポリアミドフィラメントと混繊した
ときに空隙を増してポリアミドフィラメントの吸湿性と
相俟って肌ざわりを良好なものとするものである。[0007] Regenerated fibers include polynosic fibers and cupra fibers, and among them, polynosic fibers are preferred for obtaining dimensional stability. The recycled fibers must have an irregular cross section. This irregular cross section is
It eliminates sliminess and increases voids when blended with polyamide filaments, which in combination with the hygroscopicity of polyamide filaments improves the texture.

【0008】異形断面の例としては、図1〜4に示すも
のが示され、図1はまゆ形断面を、図2は三角断面を、
図3は変形四角断面を、図4は四角断面を示す。FIGS. 1 to 4 show examples of irregular cross sections. FIG. 1 shows a cocoon cross section, FIG. 2 shows a triangular cross section,
FIG. 3 shows a modified square section, and FIG. 4 shows a square section.

【0009】異形断面の異形度は、異形断面の程度を示
すもので、例えば図5に示されるように、外接円直径を
2 、内接円直径をT1 として、T1 /T2 で示され
る。[0009] modification degree of the modified cross-section, shows a degree of modified cross section, for example as shown in FIG. 5, the circumscribed circle diameter T 2, the inscribed circle diameter as T 1, at T 1 / T 2 Is shown.

【0010】異形度が0.10未満になると、張り、腰
が不足しがちになりやすく、且つヌメリ感のある風合い
になりやすく、他方、0.95をこえると紡糸しにくく
なって好ましくないので0.10〜0.95の範囲とす
るのが好ましい。さらに好ましくは0.2〜0.95、
特に好ましくは0.2〜0.75である。When the degree of irregularity is less than 0.10, tension and waist tend to be insufficient, and the texture tends to be slimy. On the other hand, when it exceeds 0.95, spinning becomes difficult, which is not preferable. It is preferred to be in the range of 0.10 to 0.95. More preferably 0.2 to 0.95,
Particularly preferably, it is 0.2 to 0.75.

【0011】前記再生繊維は、繊度として0.7〜3デ
ニールが好ましく、1〜3デニールがさらに好ましく、
1.2〜2.5デニールが特に好ましい。0.7デニー
ル未満になると、張り、腰が不足しがちで好ましくな
く、他方3デニールをこえると風合が粗硬となって好ま
しくない。The regenerated fiber preferably has a fineness of 0.7 to 3 denier, more preferably 1 to 3 denier,
1.2 to 2.5 denier is particularly preferred. If it is less than 0.7 denier, the tension and waist tend to be insufficient, and if it exceeds 3 denier, the hand becomes coarse and hard, which is not preferable.

【0012】平均繊維長としては、35mm以上が好ま
しく、上限としては51mm以下が好ましい。糸斑を下
げるためである。The average fiber length is preferably 35 mm or more, and the upper limit is preferably 51 mm or less. This is to reduce the spots.

【0013】他方、前記再生繊維と混紡されるポリアミ
ドフィラメントは、1〜3デニールの太さのものでなけ
ればならない。1デニール未満になると張り、腰が失な
われて好ましくない。On the other hand, the polyamide filament blended with the recycled fiber must have a thickness of 1 to 3 denier. If it is less than 1 denier, it is unfavorable because it is stretched and the waist is lost.

【0014】このようにして得られた混繊糸の太さは、
10〜60Ne(英式綿番手)が好ましい。なお、前記
再生繊維のステープルとポリアミドフィラメントの混繊
割合(重量%)は、25〜75:75〜25が好まし
い。再生繊維が25重量%未満になると吸湿性が悪くな
り、風合いもフィラメントライクになって肌ざわりが悪
くなって好ましくない。他方、75重量%をこえると混
繊効果が悪くなって、張り、腰も劣ることになって好ま
しくない。[0014] The thickness of the mixed fiber thus obtained is
10 to 60 Ne (English cotton count) is preferable. The staple and polyamide filament mixture ratio (% by weight) of the recycled fiber is preferably 25 to 75:75 to 25. If the content of the regenerated fibers is less than 25% by weight, the moisture absorption becomes poor, the texture becomes filament-like, and the texture becomes unfavorable. On the other hand, if it exceeds 75% by weight, the fiber-mixing effect becomes poor, and the tension and waist become poor, which is not preferable.

【0015】ここで、本発明の混繊糸の製造法について
説明する。例えば、図6に示すように紡糸ノズル1、
2、3を近接して設け、この紡糸ノズルから平均重合度
400以上の再生繊維を紡出する。紡糸ノズルを2個、
3個、4個と近接して設けることによりまゆ形、三角断
面、四角断面の再生繊維を紡糸する。Here, the method for producing the mixed fiber of the present invention will be described. For example, as shown in FIG.
The regenerated fibers having an average degree of polymerization of 400 or more are spun from these spinning nozzles. 2 spinning nozzles,
By providing three or four pieces in close proximity, regenerated fibers having a cocoon-shaped, triangular or square cross section are spun.

【0016】ついで、このようにして製造した前記再生
繊維のフィラメントの束をスタファホックスに供給して
クリンプを製造する。不等長カットの場合には、フィラ
メントの束(トウ)をターボステープラに仕掛けてバリ
アブルカットするか、アッテネーターに仕掛けて、バリ
アブルカットしてステープルを製造する。Next, the bundle of the filaments of the regenerated fibers produced as described above is supplied to STAFAHOX to produce a crimp. In the case of unequal length cut, a bundle of filaments (tow) is set on a turbo stapler to perform variable cut, or set on an attenuator to perform variable cut to produce staples.

【0017】このようにして製造した原綿を混打綿工程
に仕掛け、ついでカード、練条、粗紡、精紡工程をへて
紡出する際に、ポリアミドフィラメントからなるマルチ
フィラメント糸を開繊して好ましく3000ボルト以上
の電圧を付加して電気開繊して前記精紡機のフロントロ
ーラの上流に供給して紡出中のフリースに重ねて一緒に
フロントローラから紡出して撚係数(インチ方式)3〜
5の実撚をかけて混繊糸を製造する。The raw cotton thus produced is set in a blended cotton process, and then, when it is spun through a card, drawing, roving and spinning process, a multifilament yarn comprising polyamide filaments is opened. Preferably, a voltage of 3000 volts or more is applied, the fiber is spread, supplied to the upstream of the front roller of the spinning machine, superimposed on the fleece being spun, and spun from the front roller together to obtain a twist coefficient (inch method) of 3. ~
5 is subjected to a real twist to produce a mixed fiber.

【0018】本発明の混繊糸は、ポリアミドフィラメン
トと特定の再生繊維からなり、常圧95℃で容易に染色
されるので、該再生繊維が損なわれることもなく、高品
位のものとなる。The mixed fiber of the present invention comprises polyamide filaments and a specific regenerated fiber, and is easily dyed at a normal pressure of 95 ° C., so that the regenerated fiber is of high quality without being damaged.

【0019】[0019]

【実施例】以下に本発明を実施例によりさらに詳しく説
明する。なお、実施例に用いた測定方法を下記に示す。 (イ) 平均重合度 JIS L 1015−1992の7.29の平均重合
度にしたがい、王研式粘度計を用い、窒素気流で大気を
断ちながら行なう。The present invention will be described in more detail with reference to the following examples. The measurement method used in the examples is shown below. (B) Average degree of polymerization According to the average degree of polymerization of 7.29 of JIS L 1015-1992, the polymerization is carried out using an Oken viscometer while cutting off the atmosphere with a nitrogen stream.

【0020】(ロ) 異形度 良く引き揃えた糸状サンプルのメタルセクションを作成
し、描画装置付きの顕微鏡で倍率600倍の描画を行な
う。なお、描画はN=100とする。100ケ所の描画
について、テンプレートを使用して各々の内接円直径T
1 、外接円直径T2 及びT1 /T2 を求め、平均値を異
形度とする。(B) Degree of Deformation A metal section of a well-aligned thread-like sample is created, and drawing is performed at a magnification of 600 times with a microscope equipped with a drawing device. Note that N = 100 for drawing. For 100 plots, each inscribed circle diameter T
1. The circumscribed circle diameters T 2 and T 1 / T 2 are determined, and the average value is defined as the irregularity.

【0021】(ハ) 吸湿性 10人の官能検査により、着用感で判断した。◎印は9
人以上、○印は6〜8人、△印は4〜5人、×印は3人
以下が吸湿性ありと判断した。(C) Hygroscopicity The wearability was judged by a sensory test of 10 persons. ◎ is 9
6 or 8 people, ○ or 4 or 5 people, and X or less 3 people or less were judged as hygroscopic.

【0022】(ニ) 肌ざわり 10人の官能検査により、着用感で判断した。◎印は9
人以上、○印は6〜8人、△印は4〜5人、×印は3人
以下が肌ざわりが良いと判断した。(D) Skin texture A sensory test was conducted by ten persons to judge the feeling of wearing. ◎ is 9
6 or 8 people, ○ or 4 to 5 people, and X or less 3 people judged that the skin was good.

【0023】(ホ) 寸法安定性 JIS L 1042 F−1法により、洗濯機にたて
45cm(L1 )×よこ45cm(L2 )のマークをつ
けた50cm×50cmの2枚の試験片が覆われるのに
十分な量の約40℃の水を入れ、試験片2枚と他の布を
合わせて1.36kgになるようにして、その中に投入
し、同時にJIS K3303(粉末石鹸)(1種)の
ものを約0.1%溶液になるように加え、15分間運転
する。続いて新しい約40℃の水に替えて5分間運転
し、再び新しい水に替えて10分間運転する。排水後試
験片を取り出して、吊し干し乾燥する。ついで、乾燥後
の試験片のたてに相当するマークL1 ′、よこに相当す
るマークL2 ′を測定し、たてについては〔(L1 −L
1 ′)/L1 〕×100の式により、よこについては
〔(L2 −L2 ′)/L2 〕×100の式により、求め
た値をそれぞれ2枚の平均値で求めた。(E) Dimensional stability According to JIS L 1042 F-1 method, two 50 cm × 50 cm test pieces having a mark of 45 cm (L 1 ) × 45 cm (L 2 ) on a washing machine are prepared. A sufficient amount of water at about 40 ° C. to cover is added, and two test pieces and another cloth are combined to a total weight of 1.36 kg, which is then charged therein, and at the same time, JIS K3303 (powder soap) ( (1) is added to a solution of about 0.1% and run for 15 minutes. Subsequently, the water is replaced with fresh water of about 40 ° C. for 5 minutes, and then replaced with fresh water again for 10 minutes. After draining, remove the test specimen, hang it and dry it. Next, a mark L 1 ′ corresponding to the length of the dried test piece and a mark L 2 ′ corresponding to the width were measured, and for the length, [(L 1 −L
'The equation) / L 1] × 100, [(L 2 -L 2 for horizontal' 1 by the formula) / L 2] × 100, was calculated value calculated by the average value of two, respectively.

【0024】実施例1 図6に示す紡糸口金(子孔1、2、3)を用いて図2に
示す3角断面で平均重合度500以上の繊度2デニール
のポリノジック繊維を製造した。子孔面積総和(mm
2 )は、0.0058mm2 で、吐出量(g/min・
孔)は840g/min・孔、剪断速度は2.4×10
4 sec-1であった。なお、紡糸速度(m/min)は
23m/min、子孔群の孔長(mm)は1.8mm、
吐出線速度(m/min)は15.3m/min、ノズ
ルドラフトは1.0倍、L12、L23、L31は0.01m
mにし、子孔群の数は27,000とした。このように
して所定の太さのトウにしてから、スタッファボックス
にて38mm(等長)の原綿にした後、混打綿機に仕掛
け、ついでカード、練条、粗紡に通し、さらに精紡機に
通してフロントローラより紡出する際に、ナイロン6の
マルチフィラメント糸(25d/14f、70d/48
f、210d/96f)に5000Voltの電圧を印
荷して開繊し紡出中の再生繊維のフリースに重ねて2
0'S/1(英式綿番手)の混繊糸を製造した。Example 1 A polynosic fiber having a denier of 2 denier and an average degree of polymerization of 500 or more in a triangular cross section shown in FIG. 2 was produced using a spinneret (pore holes 1, 2, 3) shown in FIG. Total pore area (mm
2 ) is 0.0058 mm 2 and the discharge rate (g / min ·
Hole) is 840 g / min. Hole, and the shear rate is 2.4 × 10
It was 4 sec -1 . The spinning speed (m / min) was 23 m / min, the hole length (mm) of the subhole group was 1.8 mm,
The discharge linear velocity (m / min) is 15.3 m / min, the nozzle draft is 1.0 times, and L 12 , L 23 and L 31 are 0.01 m.
m, and the number of pit groups was 27,000. After making the tow of a predetermined thickness in this way, it is made into 38 mm (equal length) raw cotton in a stuffer box, then set on a blending cotton machine, then passed through a card, a drawing, a roving, and further a spinning machine. And nylon 6 multifilament yarns (25d / 14f, 70d / 48
f, 210d / 96f) to apply a voltage of 5000 Volt, open the fiber, superimpose it on the fleece of the regenerated fiber being spun,
A mixed fiber yarn of 0'S / 1 (English type cotton count) was produced.

【0025】ついで、該糸を経糸および緯糸に使用して
経糸密度85本/インチ、緯糸密度65本/インチの生
機密度で2/2ツイルを織成して、染色整理加工を施し
てフラノを得た。Next, the yarn is used as a warp and a weft, and a 2/2 twill is woven at a density of a warp of 85 yarns / inch and a weft density of 65 yarns / inch, and dyed and arranged to obtain a furano. .

【0026】[0026]

【表1】 [Table 1]

【0027】表1から次のことが確認された。すなわ
ち、NO1は吸湿性、肌ざわりは良好であるもののポリ
アミドフィラメントが少ないため寸法安定性が悪く、他
方、NO5は寸法安定性が良いものの、ポリノジック繊
維が少ないため吸湿性、肌ざわりが非常に悪かった。こ
れに対しNO2〜4は、本発明の条件を満たし吸湿性、
肌ざわりとも非常に良好でしかも寸法安定性に優れてい
た。The following is confirmed from Table 1. That is, NO1 has good hygroscopicity and texture, but has poor polyamide dimensional stability due to few polyamide filaments. On the other hand, NO5 has good dimensional stability, but very poor hygroscopicity and texture due to few polynosic fibers. . On the other hand, NO2 to NO4 satisfy the conditions of the present invention,
The texture was very good and the dimensional stability was excellent.

【0028】[0028]

【発明の効果】本発明の混繊糸の製造法によれば、婦人
のインナー、ジャケット、コート、スラックス用とし
て、吸湿性に優れ、肌ざわりが良好でさらっとした風合
いと繰り返し洗濯による寸法安定性の良い織編物を得る
ことが混繊糸が得られる効果が奏する。According to the method for producing a mixed fiber of the present invention, it is excellent in moisture absorption, has a good texture, has a dry texture, and has dimensional stability due to repeated washing for women's inners, jackets, coats and slacks. Obtaining a good woven or knitted material has an effect of obtaining a mixed fiber.

【図面の簡単な説明】[Brief description of the drawings]

【図1】図1は、本発明に係る再生繊維のまゆ形断面で
ある。FIG. 1 is a cocoon-shaped cross section of a regenerated fiber according to the present invention.

【図2】図2は、本発明に係る再生繊維の三角断面であ
る。FIG. 2 is a triangular cross section of a regenerated fiber according to the present invention.

【図3】図3は、本発明に係る再生繊維の変形四角断面
である。FIG. 3 is a deformed square cross section of the recycled fiber according to the present invention.

【図4】図4は、本発明に係る再生繊維の四角断面であ
る。FIG. 4 is a square cross section of the regenerated fiber according to the present invention.

【図5】異形度を説明するための説明図である。FIG. 5 is an explanatory diagram for explaining an irregularity.

【図6】紡糸ノズルの断面図である。FIG. 6 is a sectional view of a spinning nozzle.

【符号の説明】[Explanation of symbols]

1、2、3 子孔 1, 2, 3

Claims (4)

【特許請求の範囲】[Claims] 【請求項1】 異形断面の平均重合度400以上の再生
繊維のステープルからなる粗糸を精紡機で紡出する際
に、1〜3dのフィラメントからなるポリアミドマルチ
フィラメント糸を開繊しながら前記精紡機のフロントロ
ーラー直前上流から前記ドラフトされている粗糸に重ね
て一緒に紡出して加撚して巻き取ることを特徴とする混
繊糸の製造法。1. A roving yarn comprising staples of regenerated fibers having an average degree of polymerization of 400 or more in a modified cross section, which is spun by a spinning machine while opening a polyamide multifilament yarn comprising 1 to 3d filaments. A method for producing a mixed fiber, wherein the yarn is superimposed on the drafted roving yarn, spun together, twisted and wound from just upstream of a front roller of a spinning machine. 【請求項2】 平均重合度400以上の再生繊維がポリ
ノジック繊維である請求項1に記載の混繊糸の製造法。2. The method according to claim 1, wherein the regenerated fibers having an average degree of polymerization of 400 or more are polynosic fibers. 【請求項3】 異形断面が異形度0.10〜0.95の
異形断面である請求項1又は2に記載の混繊糸の製造
法。3. The method for producing a mixed fiber according to claim 1, wherein the irregular cross section is a irregular cross section having a degree of irregularity of 0.10 to 0.95. 【請求項4】 異形断面が三角形断面である請求項1又
は2に記載の混繊糸の製造法。4. The method according to claim 1, wherein the irregular cross section is a triangular cross section.
JP25884596A 1996-09-30 1996-09-30 Manufacturing method of blended yarn Expired - Lifetime JP3748090B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP25884596A JP3748090B2 (en) 1996-09-30 1996-09-30 Manufacturing method of blended yarn

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP25884596A JP3748090B2 (en) 1996-09-30 1996-09-30 Manufacturing method of blended yarn

Publications (2)

Publication Number Publication Date
JPH10102342A true JPH10102342A (en) 1998-04-21
JP3748090B2 JP3748090B2 (en) 2006-02-22

Family

ID=17325835

Family Applications (1)

Application Number Title Priority Date Filing Date
JP25884596A Expired - Lifetime JP3748090B2 (en) 1996-09-30 1996-09-30 Manufacturing method of blended yarn

Country Status (1)

Country Link
JP (1) JP3748090B2 (en)

Also Published As

Publication number Publication date
JP3748090B2 (en) 2006-02-22

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