JP2942432B2 - Steam treatment method for yarn - Google Patents
Steam treatment method for yarnInfo
- Publication number
- JP2942432B2 JP2942432B2 JP1691493A JP1691493A JP2942432B2 JP 2942432 B2 JP2942432 B2 JP 2942432B2 JP 1691493 A JP1691493 A JP 1691493A JP 1691493 A JP1691493 A JP 1691493A JP 2942432 B2 JP2942432 B2 JP 2942432B2
- Authority
- JP
- Japan
- Prior art keywords
- yarn
- steam
- pressure
- steam treatment
- wound layer
- 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.)
- Expired - Fee Related
Links
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- Treatment Of Fiber Materials (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は糸の蒸気処理方法に係わ
り、更に詳細には密閉蒸気処理釜内に装填された巻き層
状の合成繊維から成るサイロスパン紡績糸又は単糸紡績
糸を均一に蒸気処理する方法に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for steam-treating a yarn, and more particularly, to a method for uniformly steaming a silospan spun yarn or a single yarn spun yarn made of wound synthetic fibers loaded in a closed steam treatment kettle. It relates to the method of processing.
【0002】[0002]
【従来の技術】従来より、毛布等として好適に用いられ
る経編カットパイル生地による立毛生地は、例えば図1
に示す構造のカットパイル専用のダブルラッセル機を使
用して編成するもので、フロント側の筬(L1),(L
2)とバック側の筬(L4),(L5)とで挿入糸およ
び鎖糸を前後の針床(11),(12)にそれぞれ導い
て前後つまり表裏2面の地組織を形成するとともに、中
央部にある筬(L3)によりパイル糸(P)を前後針床
に導いてパイル糸(P)を編針(13),(14)に順
次ラッピングさせて前記両地組織とともに編成するもの
であり、こうして前後の両地組織に掛け渡されたパイル
糸(P)を両地組織間の中央でカットしてカットパイル
生地を得、その後パイルを解繊処理して立毛状となし、
毛布等の立毛生地に仕上げるものである。2. Description of the Related Art Conventionally, a raised fabric made of warp-knitted pile fabric, which is preferably used as a blanket, is shown in FIG.
The reeds (L1), (L
2) and the reeds (L4) and (L5) on the back side guide the inserted yarn and the chain yarn to the front and rear needle beds (11) and (12), respectively, to form the front and back, that is, the ground structure of the front and back two surfaces, The pile yarn (P) is guided to the front and rear needle beds by the reed (L3) at the center, and the pile yarn (P) is sequentially wrapped by the knitting needles (13) and (14) and knitted together with the two-layered structure. The pile yarn (P) thus laid over the front and rear fabrics is cut at the center between the two fabrics to obtain a cut pile fabric.
It is to be finished to a napping fabric such as a blanket.
【0003】そして、前記カットパイル生地のパイル糸
としては、編成上の糸切れ防止および張力調整等を考慮
して、通常一般には例えば32番手程度の紡績糸を2本
撚合せた所謂双糸が用いられている。The pile yarn of the cut pile fabric is generally a so-called twin yarn obtained by twisting two spun yarns of, for example, about 32 counts in consideration of yarn breakage in knitting and tension adjustment. Used.
【0004】しかしながら、パイル糸に用いられる上記
の双糸は単糸よりも糸自体の製造コストが高いため、サ
イロスパン紡績糸を用いること(特開平3−10496
9号公報参照)や太番手の単糸紡績糸を用いる試みがな
されてきた。然してサイロスパン紡績糸や単糸紡績糸は
解撚力が大きく、ダブルラッセル機のクリールに仕掛け
た時、クリールからダブルラッセル機の間で撚りトルク
のためにスナルが発生し、円滑な編立てが困難となる。[0004] However, the above-mentioned twin yarn used for the pile yarn is higher in production cost than the single yarn, and therefore, the use of a silospan spun yarn is required (Japanese Unexamined Patent Publication No. 3-10496).
Attempts have been made to use single yarn spun yarns having a high count or a thick yarn. However, silospan spun yarns and single yarn spun yarns have a high untwisting power, and when mounted on the creel of a double raschel machine, a twisting torque is generated between the creel and the double raschel machine due to the twisting torque, making smooth knitting difficult. .
【0005】かかる問題は、糸の蒸気処理により解決が
図られており、蒸気処理釜内に合成繊維から成るサイロ
スパン紡績糸又は単糸紡績糸の巻き層を装填して、蒸気
処理釜内の圧力を大気圧以下に減圧し、次いで蒸気を糸
巻き層を貫いて流通せしめる方法が知られている。しか
しながら、例えば密閉型蒸気処理釜内に2.5kg巻き
のコーン(アクリル短繊維からなるサイロスパン紡績
糸)を装填し、これを密閉し、まず真空ポンプを作動さ
せて処理釜内の圧力を40mmHgまで減圧し、この状
態を10分間継続し、次に真空ポンプを停止し処理釜内
に飽和水蒸気を送入し、糸巻き層に蒸気を流通し、60
℃で25分蒸熱処理した場合には、糸巻き層の内外層の
温度差は20℃以上となり、糸巻き層の内外層において
セット斑が発生する。このセット斑のある糸をパイル糸
として用いて例えば経編地を形成した場合、中央でパイ
ル糸をカットする時と染色する際に撚の解除に斑が発生
し、毛布原布又は毛布に縦筋が発生するという問題があ
った。[0005] Such a problem is solved by steam treatment of the yarn. A winding layer of a silospan spun yarn or a single yarn spun yarn made of synthetic fiber is loaded into the steam treatment kettle, and the pressure inside the steam treatment kettle is reduced. Is reduced to below atmospheric pressure, and then steam is passed through the wound layer. However, for example, a 2.5 kg wound cone (silospin spun yarn made of acrylic staple fiber) is loaded into a closed type steam processing vessel, which is sealed, and a vacuum pump is first operated to reduce the pressure in the processing vessel to 40 mmHg. The pressure is reduced, and this state is continued for 10 minutes. Then, the vacuum pump is stopped, saturated steam is fed into the processing tank, and steam is circulated through the wound layer.
When steamed at 25 ° C. for 25 minutes, the temperature difference between the inner and outer layers of the wound layer becomes 20 ° C. or more, and set unevenness occurs in the inner and outer layers of the wound layer. For example, when a warp knitted fabric is formed by using the yarn having the set unevenness as the pile yarn, unevenness occurs in the twist release when cutting and dyeing the pile yarn at the center, and a vertical blanket or blanket is used. There was a problem that streaks occurred.
【0006】本発明者等は上述の問題点に鑑み、糸の蒸
気処理方法について鋭意研究した結果、蒸気処理釜内の
圧力を大気圧以下に減圧し、次いで蒸気を糸巻き層を貫
いて流通せしめる工程を2回以上繰り返すことによりセ
ット斑がなくなることを知見し、本発明をこの知見に基
いてなしたものである。In view of the above problems, the inventors of the present invention have made intensive studies on a method of steam-treating yarn. As a result, the pressure in the steam treatment vessel is reduced to below atmospheric pressure, and then steam is passed through the wound layer. The inventors have found that the set spots disappear by repeating the process twice or more, and have made the present invention based on this finding.
【0007】即ち、本発明の目的は上記の問題点を解決
し、セット斑のない高品位な糸を提供しうる糸の蒸気処
理方法提供するにある。That is, an object of the present invention is to solve the above-mentioned problems and to provide a steam treatment method for a yarn capable of providing a high-quality yarn without setting unevenness.
【0008】[0008]
【課題を解決するための手段】上述の目的は、密閉蒸気
処理釜内に合成繊維から成るサイロスパン紡績糸又は単
糸紡績糸の巻き層を装填して蒸気処理するに際し、まず
上記蒸気処理釜内の圧力を大気圧以下に減圧し、次いで
蒸気を上記糸巻き層を貫いて流通させる工程を2回以上
繰り返して行うことを特徴とする糸の蒸気処理方法によ
り達成される。SUMMARY OF THE INVENTION An object of the present invention is to load a wound layer of a silospan spun yarn or a single yarn spun yarn made of synthetic fiber into a closed steam treatment pot and carry out steam treatment. Is reduced to atmospheric pressure or less, and then the step of flowing steam through the wound layer is repeated twice or more to achieve a steam treatment method for yarn.
【0009】以下本発明を詳細に説明する。Hereinafter, the present invention will be described in detail.
【0010】本発明において合成繊維とは、たとえばポ
リエチレンテレフタレート,ポリブチレンテレフタレー
ト,ポリオキシエトキシベンゾエート,ポリエチレンナ
フタレート,シクロヘキサンジメチレンテレフタレー
ト,及びこれ等のポリエステルに付加的成分として更に
イソフタル酸,アジピン酸,スルホイソフタル酸のよう
なジカルボン酸成分、プロピレングリコール,ブチレン
グリコール,シクロヘキサンジメタノール,ジエチレン
グリコールの様なジオール成分を共重合したポリエステ
ル;6−ナイロン、6,6−ナイロン、芳香族ナイロン
等のポリアミド;ポリプロピレン;アクリロニトリルを
40重量%以上と、他のビニル系モノマー、例えば、ア
クリル酸,メタクリル酸,あるいはこれらのアルキルエ
ステル類,酢酸ビニル,塩化ビニル,塩化ビニリデン,
アリルスルホン酸ソーダ,メタリルスルホン酸ソーダ,
ビニルスルホン酸ソーダ,スチレンスルホン酸ソーダ,
2−アクリルアミド−2−メチルプロパンスルホン酸ソ
ーダ等を適宜組み合わせたものを60重量%以下の割合
で共重合させたアクリル等が挙げられる。In the present invention, synthetic fibers include, for example, polyethylene terephthalate, polybutylene terephthalate, polyoxyethoxy benzoate, polyethylene naphthalate, cyclohexane dimethylene terephthalate, and polyesters such as isophthalic acid, adipic acid, Polyester obtained by copolymerizing a dicarboxylic acid component such as sulfoisophthalic acid and a diol component such as propylene glycol, butylene glycol, cyclohexanedimethanol, and diethylene glycol; polyamides such as 6-nylon, 6,6-nylon, aromatic nylon; polypropylene An acrylonitrile content of 40% by weight or more and other vinyl monomers such as acrylic acid, methacrylic acid, or their alkyl esters, vinyl acetate; , Vinyl chloride, vinylidene chloride,
Sodium allyl sulfonate, sodium methallyl sulfonate,
Sodium vinyl sulfonate, sodium styrene sulfonate,
Acrylic or the like obtained by copolymerizing 2-acrylamido-2-methylpropanesulfonate sodium or the like in an appropriate proportion at a ratio of 60% by weight or less is exemplified.
【0011】本発明においてサイロスパン紡績糸とは、
特開昭57−51824号公報に記載の方法で紡績され
た糸であって、その方法の概要を図2及び図3を用いて
簡単に説明する。両図はこのサイロスパン紡績法を実施
する装置であって、(1a)は通常の精紡機のドラフト
域(2)に位置するフロントボトムローラー、(1b)
は同じくフトントトップローラーである。然して、異な
る走行路を経てローラードラフト域(2)に導入した2
本の繊維束(粗糸)(3a),(3b)は、このドラフ
ト域(2)でドラフト作用を受けて平行走行する2本の
フリースとなり、前記フロントボトムローラー(1a)
のニップ点を出た直後にリングトラベラー機構(4)の
撚転作用を受けて合撚糸(5)の形でボビン(6)に巻
き取られるのである。In the present invention, the silospan spun yarn is
This is a yarn spun by the method described in JP-A-57-51824, and the outline of the method will be briefly described with reference to FIGS. 2 and 3. Both figures show an apparatus for carrying out this silospan spinning method. (1a) is a front bottom roller located in a draft area (2) of a normal spinning machine, and (1b)
Is also a Futonto Top Roller. However, it was introduced into the roller draft area (2) through different running paths.
The fiber bundles (rovings) (3a) and (3b) are drafted in the draft area (2) to become two fleeces that travel in parallel, and the front bottom roller (1a)
Immediately after leaving the nip point, it is wound around the bobbin (6) in the form of a plied yarn (5) by the twisting action of the ring traveler mechanism (4).
【0012】本発明において巻き層とは、円錐状ボビン
や円筒状ボビン等に上記のサイロスパン紡績糸や一般公
知の単糸紡績糸を巻きつけた状態のものをいう。In the present invention, the wound layer means a state in which the above-mentioned silospan spun yarn or a generally known single yarn spun yarn is wound around a conical bobbin or a cylindrical bobbin.
【0013】本発明においては、かかる合成繊維から成
るサイロスパン紡績糸又は単糸紡績糸の巻き層を蒸気処
理釜内に装填し、蒸気で熱セットするに際し、まず、蒸
気処理釜内の圧力を大気圧以下に減圧し、次いで蒸気を
糸巻き層を貫いて流通せしめる工程を2回以上繰り返し
て行うことを肝要とする。蒸気処理釜内の圧力を大気圧
以下に減圧し、次いで蒸気を糸層を貫いて流通せしめる
工程が1回であると、前述したように糸巻き層の内外層
の温度差が大きく、セット斑が発生するからである。In the present invention, when a wound layer of a silospan spun yarn or a single yarn spun yarn made of such a synthetic fiber is loaded into a steam treatment pot and heat-set with steam, first the pressure in the steam treatment pot is increased. It is essential that the step of reducing the pressure to below the atmospheric pressure and then allowing the steam to flow through the wound layer is repeated twice or more. If the pressure in the steam treatment tank is reduced to the atmospheric pressure or less, and then the steam is circulated through the yarn layer once, the temperature difference between the inner and outer layers of the wound layer is large as described above, and set spots are generated. Because it occurs.
【0014】蒸気処理釜内の圧力、即ち残留空気圧は1
回目及び2回目以降共に160mmHg以下であること
が好ましい。残留空気圧が160mmHgを越えると空
気と蒸気の置換が困難となるからである。また蒸気を巻
層を貫いて流通せしめる温度は1回目及び2回目以降共
に50℃以上、80℃以下が好ましく、特に50℃以
上、70℃以下が好ましい。50℃未満であるとセット
効果が少なく、80℃を越えると低収縮糸と高収縮糸が
混紡されてなる紡績糸等の場合嵩高性が発現するからで
ある。また蒸気を糸層を貫いて流通せしめる時間は5〜
20分程度で良い。The pressure in the steam treatment tank, that is, the residual air pressure is 1
It is preferable that the pressure is 160 mmHg or less in both the first and second times. If the residual air pressure exceeds 160 mmHg, it is difficult to replace the air with steam. The temperature at which the steam is passed through the winding layer is preferably 50 ° C. or more and 80 ° C. or less, and particularly preferably 50 ° C. or more and 70 ° C. or less for both the first and second times. If the temperature is lower than 50 ° C., the setting effect is small. In addition, the time to make the steam flow through the yarn layer is 5 to 5.
About 20 minutes is enough.
【0015】[0015]
【作用】例えば、アクリル繊維の公定水分率は50%で
平衡蒸気圧は数mmHgであり、例えば通常の真空ポン
プの性能の限度である50mmHg程度の残留空気圧に
なるように減圧した場合には40mmHg程度の空気が
残留するようになる。この状態で蒸気処理を行うと蒸気
は糸巻き層にあたって凝縮し、空気は後から入ってくる
蒸気により内部に押し込められ、内部は空気圧が高くな
り蒸気圧が低くなり、糸巻き層の内外層に温度差が生じ
るようになる。しかしながら、再度蒸気処理釜内を減圧
すると糸巻き層内の蒸気圧はかなり高くなっているので
糸巻き層の空気は容易に排除されるようになる。For example, the official moisture regain of acrylic fiber is 50% and the equilibrium vapor pressure is several mmHg. For example, if the pressure is reduced to a residual air pressure of about 50 mmHg which is the limit of the performance of a normal vacuum pump, 40 mmHg is obtained. Some air will remain. When steam treatment is performed in this state, the steam condenses on the wound layer, the air is pushed inside by the steam that enters later, the air pressure increases, the steam pressure decreases, and the temperature difference between the inner and outer layers of the wound layer Will occur. However, when the pressure inside the steam processing tank is reduced again, the vapor pressure in the wound layer becomes considerably high, so that the air in the wound layer can be easily removed.
【0016】[0016]
【実施例】次に本発明の実施態様を実施例をもって更に
詳しく説明する。Next, embodiments of the present invention will be described in more detail with reference to Examples.
【0017】実施例1 4インチバイアスカットのアクリル短繊維を前紡工程に
て1.4ゲレンの粗糸となし、かかる粗糸2本を引き揃
えてチーズに捲取り、精紡工程用の粗糸玉を作製した。
次に、該粗糸玉を精紡機のクリールに仕掛け引き出した
2本1組の粗糸を単一のドラフト域に供給して図1に示
す精紡機を用いて16番手(梳毛式)の合撚糸を得、次
いで2.5kg巻きのコーンに仕立てた。Example 1 A 4 inch bias cut acrylic short fiber was made into a roving of 1.4 gren in the pre-spinning process, and two such rovings were aligned and wound on a cheese to obtain a roving for the spinning process. A ball was made.
Next, the roving balls are set on a creel of a spinning machine, and a set of two roving yarns is supplied to a single drafting area. A twisted yarn was obtained and then tailored into a 2.5 kg wound cone.
【0018】かかるコーンを4段積みで800kg密閉
型蒸気処理釜内に装填し、これを密閉した。まず真空ポ
ンプを作動させて処理釜内の圧力を40mmHgまで減
圧し、この状態を7分間継続し、次に真空ポンプを停止
し処理釜内に飽和水蒸気を送入し、コーン巻き層に蒸気
を流通し、60℃で15分間蒸熱処理した。The cones were stacked in four stages and charged in an 800 kg sealed steam treatment pot, which was sealed. First, the vacuum pump is operated to reduce the pressure in the processing tank to 40 mmHg, and this state is continued for 7 minutes. Next, the vacuum pump is stopped, saturated steam is fed into the processing tank, and steam is supplied to the cone winding layer. It was circulated and steamed at 60 ° C. for 15 minutes.
【0019】次いで、真空ポンプを作動させて処理釜内
の圧力を180mmHgまで減圧しこの状態を7分間継
続し、次に真空ポンプを停止し処理釜内に飽和水蒸気を
送入し、コーンの巻き層に蒸気を流通し、60℃で15
分間蒸熱処理した。尚、この時のコーンの巻き層の内外
層の温度差は3℃以内であった。最後に真空ポンプを作
動させて処理釜内の圧力を80mmHgまで減圧しこの
状態を7分間継続し、処理釜内を常圧に戻してからコー
ンを取り出した。Next, the vacuum pump is operated to reduce the pressure in the processing vessel to 180 mmHg, and this state is continued for 7 minutes. Then, the vacuum pump is stopped, saturated steam is fed into the processing vessel, and the cone is wound. Circulate steam through the bed,
Steamed for minutes. At this time, the temperature difference between the inner and outer layers of the wound layer of the cone was within 3 ° C. Finally, the vacuum pump was operated to reduce the pressure in the processing vessel to 80 mmHg, and this state was continued for 7 minutes. After the inside of the processing vessel was returned to normal pressure, the cone was taken out.
【0020】かかるコーンの外層を取り除き500gの
小コーンを作り、2.5kgのコーンと500gのコー
ンを適宜混合して、ダブルラッセル機のクリールに仕掛
けた。これをパイル糸に用い、200デニール48フィ
ラメントのポリエステルフィラメント糸を鎖糸に、34
0デニール48フィラメントのポリエステルフィラメン
ト糸を挿入糸に用いて図4に示す編組織で両地組織を編
成した(16ゲージカールマイヤ機使用)。次いで、該
両地組織間の中央でパイル糸をカットして経編カットパ
イル生地を得た。かかる生地は染色,熱処理,乾燥を行
った後、5本シリンダー方式の針布起毛機に仕掛け解繊
処理を行い、シャーリングして実施例1の製品を得た。The outer layer of the cone was removed to prepare a small cone of 500 g, and a 2.5 kg cone and a cone of 500 g were appropriately mixed and mounted on a creel of a double Russell machine. This is used as a pile yarn, and a polyester filament yarn of 200 denier 48 filaments is used as a chain yarn.
Using a 0-denier 48 filament polyester filament yarn as an insertion yarn, a knitted structure shown in FIG. 4 was used to knit both fabrics (using a 16-gauge curl Myer machine). Next, the pile yarn was cut at the center between the two ground structures to obtain a warp knit cut pile fabric. The fabric was dyed, heat-treated and dried, and then set in a 5-cylinder needle cloth raising machine, defibrated, and sheared to obtain the product of Example 1.
【0021】比較例1 実施例1において2回目の減圧処理(80mmHgまで
減圧)及び2回目の蒸熱処理を施こさなかった他は実施
例1と同様の処理を行ない比較例1の製品を得た。尚第
1回目の蒸熱処理後のコーンの巻き層の内外層の温度差
は23℃であった。Comparative Example 1 A product of Comparative Example 1 was obtained by performing the same treatment as in Example 1 except that the second decompression treatment (reducing the pressure to 80 mmHg) and the second steaming heat treatment were not performed. . The temperature difference between the inner and outer layers of the wound layer of the cone after the first steaming was 23 ° C.
【0022】実施例1で得られた製品は、表面が均一で
経筋の発生は見られなかったが、比較例1で得られた製
品は、表面が不均一で経筋が強度に発生したものであっ
た。また実施例1においてはカールマイヤ機で編立てす
る場合に編立中にスナルが発生しなかったが、比較例1
においてはスナルが発生し、数多くの停台が発生した。The product obtained in Example 1 had a uniform surface and no generation of warps was observed, whereas the product obtained in Comparative Example 1 had an uneven surface and warps were generated strongly. Was something. Further, in Example 1, when the knitting was performed with a Karl-Meier machine, no snare occurred during knitting.
In, a snarl occurred and many stops occurred.
【0023】[0023]
【発明の効果】以上詳述した通り、本発明方法によれば
糸の蒸気処理工程において、短時間で均一な熱セットを
施すことが可能となり、例えばかかる蒸気処理した糸を
パイル糸として用いて経編地を形成した場合に、編立中
にスナルが発生せず、停台が少なく生産性の向上という
効果を奏する。またかかる経編地のパイル糸を中央で、
カットする時や染色する際に撚の解除に斑が発生しない
ので、毛布原布又は毛布等に縦筋が発生することがなく
品質の向上という効果を奏する。As described in detail above, according to the method of the present invention, it is possible to perform a uniform heat setting in a short time in the yarn steaming step. When a warp knitted fabric is formed, no snare is generated during knitting, and there are fewer stops and an effect of improving productivity. In addition, pile yarn of such warp knitted fabric in the center,
Since no unevenness is generated in the release of the twist at the time of cutting or dyeing, there is no vertical streak on the blanket blanket or blanket, and the effect of improving the quality is exhibited.
【図1】カットパイル専用のダブルラッセル機の主要部
の側面図である。FIG. 1 is a side view of a main part of a double Russell machine dedicated to cut pile.
【図2】サイロスパン紡績糸の紡績方法を示す説明図で
ある。FIG. 2 is an explanatory view showing a method for spinning a silospan spun yarn.
【図3】サイロスパン紡績糸の紡績方法を示す説明図で
ある。FIG. 3 is an explanatory view showing a spinning method of a spun spun yarn.
【図4】本発明実施例のカットパイル生地のラッピング
状態を分解して示す編組織図である。FIG. 4 is a knitting structure diagram showing an exploded wrapping state of the cut pile material according to the embodiment of the present invention.
───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 平2−289168(JP,A) 特開 昭57−21558(JP,A) 特開 昭49−6272(JP,A) 特開 平3−8863(JP,A) 特開 昭47−14483(JP,A) 特公 昭47−42547(JP,B1) (58)調査した分野(Int.Cl.6,DB名) D06B 5/16 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-2-289168 (JP, A) JP-A-57-21558 (JP, A) JP-A-49-6272 (JP, A) 8863 (JP, A) JP-A-47-14483 (JP, A) JP-B-47-42547 (JP, B1) (58) Fields investigated (Int. Cl. 6 , DB name) D06B 5/16
Claims (1)
イロスパン紡績糸又は単糸紡績糸の巻き層を装填して蒸
気処理するに際し、まず上記蒸気処理釜内の圧力を大気
圧以下に減圧し、次いで蒸気を上記糸巻き層を貫いて流
通させる工程を2回以上繰り返して行うことを特徴とす
る糸の蒸気処理方法。When loading a wound layer of a silospan spun yarn or a single yarn spun yarn made of synthetic fiber into a closed steam treatment pot and performing steam treatment, the pressure in the steam treatment pot is first reduced to atmospheric pressure or lower. And a step of flowing steam through the wound layer two or more times.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1691493A JP2942432B2 (en) | 1993-01-06 | 1993-01-06 | Steam treatment method for yarn |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1691493A JP2942432B2 (en) | 1993-01-06 | 1993-01-06 | Steam treatment method for yarn |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH06200467A JPH06200467A (en) | 1994-07-19 |
| JP2942432B2 true JP2942432B2 (en) | 1999-08-30 |
Family
ID=11929408
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP1691493A Expired - Fee Related JP2942432B2 (en) | 1993-01-06 | 1993-01-06 | Steam treatment method for yarn |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2942432B2 (en) |
-
1993
- 1993-01-06 JP JP1691493A patent/JP2942432B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JPH06200467A (en) | 1994-07-19 |
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