JPS60246860A - Cloth stay treating apparatus - Google Patents
Cloth stay treating apparatusInfo
- Publication number
- JPS60246860A JPS60246860A JP10139584A JP10139584A JPS60246860A JP S60246860 A JPS60246860 A JP S60246860A JP 10139584 A JP10139584 A JP 10139584A JP 10139584 A JP10139584 A JP 10139584A JP S60246860 A JPS60246860 A JP S60246860A
- Authority
- JP
- Japan
- Prior art keywords
- fabric
- conveyance path
- stage
- drive mechanism
- laminate
- 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
Links
Landscapes
- Treatment Of Fiber Materials (AREA)
Abstract
(57)【要約】本公報は電子出願前の出願データであるた
め要約のデータは記録されません。(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.
Description
【発明の詳細な説明】
イ3発明の目的
産業上勿租凰分!
本発明は布帛の滞溜処理装置に関するものであり、更に
詳しくはジグザグ状に折り畳まれた布帛積層体に蒸熱処
理を施す目的で使用される布帛用滞溜処理装置に於ける
布帛移動経路の間隔調整機構に関するものである。[Detailed Description of the Invention] A.3 Purpose of the Invention: Industrially valuable! The present invention relates to a fabric retention treatment apparatus, and more specifically, to an interval between fabric movement paths in a fabric retention treatment apparatus used for the purpose of steam-heating a fabric laminate folded in a zigzag shape. This relates to an adjustment mechanism.
従来曵肢販
系外から連続的に供給される布帛をジグザグ状に折り畳
み、この状態で高温の蒸気に曝し該布帛に糊抜き、精練
、あるいは漂白等の処理を施す布帛加工装置が知られて
いる。斯かる加工装置による布帛の連続処理に際し、蒸
気による処理効果が該布帛の全長に亘って均一に発現す
るように、無熱処理装置内に導入された布帛がジグザグ
状の折り畳み形状を保持したまま所定の速度で移動し得
る連続搬送経路を用意しておく必要があり、このような
要請に答えるため、積極回転する多数のローラあるいは
キャタピラから構成された布帛積層体の積極搬送装置が
種々提案されている。Conventionally, fabric processing equipment has been known that folds fabric continuously supplied from outside the textile sales system into a zigzag pattern, exposes it to high-temperature steam in this state, and subjects the fabric to processes such as desizing, scouring, or bleaching. There is. When the fabric is continuously processed by such a processing device, the fabric introduced into the heatless processing device is held in a predetermined position while maintaining its zigzag folded shape so that the treatment effect by steam is uniformly applied over the entire length of the fabric. It is necessary to prepare a continuous conveyance path that can move at a speed of There is.
(° よ゛と る 、
上記の如き在来の布帛用蒸熱処理装置に於いて、布帛の
搬送経路が水平方向に配設された多数のローラあるいは
キャタピラによって構成された単一の直線経路を有する
場合には、布帛の積層体はジグザグ状の折り畳み形態を
乱されることなく布帛の導入端から排出端に向かって順
次搬送され、該搬送過程で高温の蒸気に曝され所望の処
理効果を与えられる。然しなから、布帛の搬送経路が上
下に平行して配置された2段のローラあるいはキャタピ
ラと、布帛移動方向の変換点に設けられた固定式の案内
部材によって構成されている場合には、上記変換点に布
帛搬送経路の高さ調整機構が設けられていないため、該
変換点を通過する布帛に積層状態の乱れが発生する。即
ち、移動方向の変換点を通過する布帛には上段に位置す
る搬送経路から下段に位置する搬送経路への安定した落
下状態が保証されず、布帛の積層体が蛇行したり、間歇
的にかたまったままの状態で落下し、下段の搬送経路上
に落下した布帛に対しては上記積層形態の乱れに起因し
て蒸気が不均一に作用し、最終製品に精練斑や漂白床等
の障害を発生せしめる。(°) In the conventional steam heat treatment apparatus for fabrics as described above, the conveyance path of the fabric has a single straight path composed of a large number of horizontally arranged rollers or caterpillars. In some cases, the fabric stack is sequentially conveyed from the inlet end to the outlet end of the fabric without disturbing its zigzag folded form, and is exposed to high-temperature steam during the conveyance process to produce the desired treatment effect. However, if the fabric conveyance path is composed of two stages of rollers or caterpillars arranged vertically and in parallel, and a fixed guide member provided at a change point of the fabric movement direction, , Since a height adjustment mechanism of the fabric conveyance path is not provided at the above conversion point, disturbances occur in the stacking state of the fabric passing through the conversion point.In other words, the fabric passing through the conversion point in the moving direction has an upper stage. A stable falling state from the conveyance path located at the top to the conveyance path located at the lower level is not guaranteed, and the stack of fabrics may meander or fall intermittently in clumps, causing them to fall onto the conveyance path located at the lower level. Steam acts unevenly on the fallen fabric due to the disturbance of the laminated form, causing problems such as scouring spots and bleaching floors in the final product.
本発明の主要な目的は、公知の布帛用蒸気処理装置に認
められた上記の如き問題点を解消し得る布帛積層形態の
安定性に優れた布帛の滞溜処理装置を提供することにあ
る。The main object of the present invention is to provide a fabric stagnation treatment apparatus that can solve the above-mentioned problems observed in known fabric steam treatment apparatuses and has excellent stability in the form of laminated fabrics.
本発明の他の主要な目的は、布帛搬送経路の寸法ならび
に形状を連続的に変化させ得る、蒸気雰囲気への曝露の
均一性を向上せしめた布帛の滞溜処理装置を提供するこ
とにある。Another main object of the present invention is to provide a fabric retention treatment apparatus that allows continuous changes in the size and shape of the fabric transport path and improves the uniformity of exposure to a steam atmosphere.
口1発明の構成
゛ るた の
本発明は、ジグザグ状に折り畳まれた状態で缶体内に導
入される布帛(1)に蒸熱処理を施すための布帛積層体
(1)の連続多段搬送経路(R)を形成してなる布帛(
1)の滞溜処理装置であって、前記連続多段搬送経路(
R)上の布帛積層体(1)の移動方向の変換点(2)に
設けられた布帛搬送経路の間隔調整機構(A)を、第1
の布帛案内機構(G1)を水平方向に移動させる第1の
駆動機構(Dl)と、上段に位置する布帛積層体の搬送
経路(R1)の端末部を上下方向に揺動させる第2の駆
動機構(D2)から構成してなる布帛の滞溜処理装置を
要旨とするものである。1. Constitution of the Invention The present invention provides a continuous multi-stage conveyance path (1) for a fabric laminate (1) for subjecting the fabric (1) folded in a zigzag shape to steam heat treatment to the fabric (1) introduced into the can body. A fabric formed by forming R) (
1), the accumulation treatment device, wherein the continuous multi-stage conveyance path (
R) The interval adjustment mechanism (A) of the fabric conveyance path provided at the conversion point (2) of the movement direction of the fabric laminate (1) on the first
A first drive mechanism (Dl) that moves the fabric guide mechanism (G1) in the horizontal direction, and a second drive that swings the end portion of the transport path (R1) of the fabric laminate located in the upper stage in the vertical direction. The gist of the present invention is a fabric retention treatment device comprising a mechanism (D2).
実見桝
第1図は本発明装置の全体構造を説明する布帛用蒸気処
理装置の側面図であり、第2図は本発明装置の要部構造
を例示する部分側面図である。Fig. 1 is a side view of a fabric steam treatment apparatus illustrating the overall structure of the apparatus of the present invention, and Fig. 2 is a partial side view illustrating the main structure of the apparatus of the present invention.
布帛(1)の滞溜処理装置は第1図に見られるように、
高温の蒸気が噴出する缶体内にローラコンベア等の搬送
部材によって形成された布帛積層体(1)用の多段搬送
経路(R1)、(R2を配設したものであって、図示す
る態様に於いては上段に位置する第1の搬送経路(R1
)と下段に位置する第2の搬送経路(R2)とは、布帛
積層体(1)の移動方向の変換点(2)に設けられた布
帛搬送経路の間w1il!整機構(A)を介して接続さ
れ、コの字状に湾曲した連続多段搬送経路(R)を形成
している。、滞溜処理装置内に送り込まれた布帛(1)
は、上記連続多段搬送経路(R)への導入口でジグザグ
状に折り畳まれ、この積層形態を維持したままローラコ
ンベア上に載置され第1の搬送経路(R1)ならびに第
2の搬送経路(R2)に沿って缶体内を移動し、この間
に高温の蒸気に曝され所定の処理効果を与えられる。連
続多段搬送経路(R1)、(R2)は、滞溜処理装置内
に導入された布帛が実用上十分な、例えば20分間乃至
80分間の滞溜時間を維持し得るように布帛積層体(1
)の搬送速度調整機構(図示せず)を備えているが、斯
かる搬送速度の調整機能を有するものであれば、前記ロ
ーラコンベア以外の搬送用部材、例えばキャタピラやラ
チスコンベアあるいは平滑な表面を有するプレートエレ
メント等によりて連続多段搬送経路を形成することも可
能である。布帛搬送経路(R1)および(R2)の間に
配役される間隔調整機構(A)は第2図に例示するよう
に、複数のフリー回転ローラ(3)、(3)・−と該フ
リー回転ローラを回転証左に、且つ布帛積層体(1)の
移動方向の変換点(2)に布帛(1)の落下方向に沿う
湾曲した案内面を形成するように支承する側板(4)と
からなる第1の布帛案内機構(G1)と、該第1の布帛
案内機構を水平方向に移動させる第1の駆動機構(Dl
)と、上段に位置する布帛積層体の搬送経路(R1)の
端末部(11)を前記第1の布帛案内機構(G1)との
連動下に上下方向に揺動させる第2の駆動機構(D2)
から構成されている。前記第1の駆動機構(Dl)は、
モータ (7)、減速機(8)ならびに該減速機の出力
軸(5)に固着された第1の揺動アーム(6)から構成
されており、また前記第2の駆動機構(D2)は、後記
同m機構(S)を介して前記出力軸(5)に対して同調
回転し得るように接続された従動輪(9)、該従動輪に
固着された第2の揺動アーム(10) 、該第2の揺動
アームの先端部(12)と、上段に位置する布帛積層体
(1)の搬送経路(R1)の端末部(11) とを連結
するコネクティングロッド(13)から構成されている
。第1の駆動機構(Dl)と第2の駆動機構(D2)は
、出力軸(5)および従動輪(9)に固着されたチェー
ンスプロケット(14)、(15)ならびに該チェーン
スプロケット間に巻回されたチェーン(16)からなる
同調機構(S)によって同時駆動される。斯(して第1
の布帛案内機構(Gl)が水平方向に移動するのと同時
に、上段に位置する布帛積層体(1)の搬送経路(R1
)の端末部(11)が上方あるいは下方に揺動し、前記
布帛積層体(1)の落下経路の間隔寸法を変化させる。As shown in Fig. 1, the fabric (1) retention treatment device is
A multi-stage conveyance path (R1), (R2) for a fabric laminate (1) formed by a conveyance member such as a roller conveyor is arranged in a can body from which high-temperature steam is spouted, and in the illustrated embodiment. The first transport path (R1
) and the second conveyance path (R2) located at the lower stage are w1il! They are connected via an adjustment mechanism (A) to form a continuous multi-stage conveyance path (R) curved in a U-shape. , fabric (1) sent into the retention treatment device
are folded into a zigzag shape at the inlet to the continuous multi-stage conveyance path (R), and are placed on the roller conveyor while maintaining this layered form to pass through the first conveyance path (R1) and the second conveyance path (R). R2), and during this time it is exposed to high temperature steam and given a predetermined treatment effect. The continuous multi-stage transport paths (R1) and (R2) transport the fabric laminate (1
), but as long as it has such a conveyance speed adjustment function, a conveyance member other than the roller conveyor, such as a caterpillar conveyor, a lattice conveyor, or a smooth surface, may be used. It is also possible to form a continuous multi-stage conveyance path using plate elements and the like. As illustrated in FIG. 2, the spacing adjustment mechanism (A) arranged between the fabric conveyance paths (R1) and (R2) has a plurality of free-rotating rollers (3), (3), and the free-rotating rollers. It consists of a side plate (4) that supports the roller to the left of the rotation direction and forms a curved guide surface along the falling direction of the fabric (1) at the conversion point (2) of the moving direction of the fabric laminate (1). A first fabric guide mechanism (G1) and a first drive mechanism (Dl) that moves the first fabric guide mechanism in the horizontal direction.
) and a second drive mechanism ( D2)
It consists of The first drive mechanism (Dl) is
It is composed of a motor (7), a reducer (8), and a first swinging arm (6) fixed to the output shaft (5) of the reducer, and the second drive mechanism (D2) is , a driven wheel (9) connected to the output shaft (5) via the same mechanism (S) described later so as to be able to rotate in synchrony with the output shaft, and a second swing arm (10) fixed to the driven wheel. ), consisting of a connecting rod (13) that connects the tip (12) of the second swinging arm and the end (11) of the conveyance path (R1) of the fabric laminate (1) located in the upper stage. has been done. The first drive mechanism (Dl) and the second drive mechanism (D2) include chain sprockets (14), (15) fixed to the output shaft (5) and the driven wheel (9), and a winding between the chain sprockets. They are simultaneously driven by a tuning mechanism (S) consisting of a turned chain (16). This is the first
At the same time as the fabric guide mechanism (Gl) moves horizontally, the transport path (R1) of the fabric laminate (1) located in the upper stage moves.
) swings upward or downward to change the interval dimension of the fall path of the fabric laminate (1).
更に詳しく説明すると、前記第1の揺動アーム(6)の
先端部には側板(4)の表面から水平方向に突出したピ
ン(17)が嵌まり込むフォーク状のII (17’
”)が形成されており、該揺動アーム(6)の回転によ
りピン(17)に伝達される水平方向変位に対応して前
記側@(4)を水平移動させるため、咳側板(4)の外
面には案内ピン(18)が略水平方向を指向して取付け
られている。該案内ピン(18)は、滞溜処理装置の缶
体側壁面に固着されたガイドピース(19)の水平溝(
18°)内に滑動自在に嵌まり込み、揺動アーム(6)
が出力軸(5)を回転中心として揺動したとき、水平溝
(18’ )内で水平方向に揺動し側板(4)を水平方
向に移動させる。一方、前記第2の揺動アーム(10)
の先端部(12)と上段に位置する搬送経路(R1)の
端末部(11)とは、コネクティングロッド(13)を
介して上下動自在に連結されており、また該端末部(1
1)は枢軸(20)により搬送経路(R1)の固定配設
部位に対して首振り運動を為し得るように軸支されてい
る。本発明装置は以上の如く構成されているから、モー
タ(7)の起動により減速機(8)ならびに同m機構(
S)を介して出力軸(5)ならびに従動軸(9)に回転
駆動力が伝達されると、第1の揺動アーム(6)および
第2の揺動アーム(10)に揺動変位が発生し、該揺動
変位は複数のフリー回転ローラ(3)、(3)を支承し
ている側板(4)に水平方向への移動を住ぜしめ、これ
と同時に上段に位置している搬送経路(R1)の端末部
(11)に前記枢軸(20)を回転中心とする上下動を
生起させる。第2図に於いて第1および第2の揺動アー
ム(6)、〈10)ならびに側板(4)が二点鎖線で示
すように左側に位置している状態でモータ(7)を起動
したものと仮定すると、対向配置された2枚の側板(4
)間に形成された湾曲した案内面は実線で示すように右
方に水平移動し、また上段に位置している搬送経路(R
1)の端末部(11)は枢軸(20)を回転中心として
下方に変位する。斯くして、布帛積層体(1)の移動方
向の変換点(2)に於ける布帛(1)の通過間隙が挾ま
るから、缶体内への布帛(1)の導入量が少ない場合に
も該変換点を通過する布帛(1)のジグザグ状折り畳み
形態には乱れが発生せず均一な移動速度が保証される。To explain in more detail, the first swing arm (6) has a fork-shaped II (17') into which a pin (17) projecting horizontally from the surface of the side plate (4) is fitted.
”) is formed, and in order to horizontally move said side @ (4) in response to the horizontal displacement transmitted to the pin (17) by the rotation of said swing arm (6), the cough side plate (4) A guide pin (18) is attached to the outer surface of the housing so as to be oriented in a substantially horizontal direction. (
18°), and the swinging arm (6)
When it swings about the output shaft (5), it swings horizontally within the horizontal groove (18') and moves the side plate (4) horizontally. On the other hand, the second swing arm (10)
The distal end portion (12) of the transport path (R1) located at the upper stage is connected to the terminal portion (11) of the transport path (R1) so as to be vertically movable via a connecting rod (13).
1) is pivotally supported by a pivot (20) so as to be able to swing relative to a fixed location on the conveyance path (R1). Since the device of the present invention is configured as described above, the start of the motor (7) causes the reduction gear (8) and the m mechanism (
When the rotational driving force is transmitted to the output shaft (5) and the driven shaft (9) via S), the first swing arm (6) and the second swing arm (10) undergo a swing displacement. This oscillating displacement causes the side plate (4) supporting the plurality of freely rotating rollers (3), (3) to move in the horizontal direction, and at the same time, the conveyor located at the upper stage The end portion (11) of the path (R1) is caused to move up and down about the pivot (20). In Fig. 2, the motor (7) was started with the first and second swing arms (6), <10) and the side plate (4) located on the left side as shown by the two-dot chain line. Assuming that two side plates (4
) is horizontally moved to the right as shown by the solid line, and the curved guide surface formed between
The end portion (11) of 1) is displaced downward about the pivot (20) as the center of rotation. In this way, since the passage gap of the fabric (1) at the change point (2) of the moving direction of the fabric laminate (1) is sandwiched, even when the amount of the fabric (1) introduced into the can body is small, The zigzag folding pattern of the fabric (1) passing through the conversion point is not disturbed and a uniform moving speed is guaranteed.
缶体内への布帛(1)の導入量を増加させる場合には、
上記第1および第2の揺動アーム(6)、(lO)の揺
動方向を反時計方向に反転させることにより、布帛(1
)の通過間隙を拡開する。When increasing the amount of fabric (1) introduced into the can body,
The fabric (1
) to widen the passage gap.
上記の実施例に於いては布帛積層体(1)の移動方向の
変換点(2)ならびに搬送経路(Rs、(R2)に配設
される布帛(1)の案内部材がフリー回転ローラ(3)
あるいはローラコンベア等の搬送部材によって形成され
ているが、本発明の要旨は斯かる例示によって限定され
るものではなく、連続多段搬送経路(R)上の布帛積層
体(1)の移動方向の変換点(2)に於いて間隔調整機
能を発揮し得るものであれば上記以外の布帛案内部材、
例えば対向配置された2枚の側板(4)、(4)間に固
定された図示しない平滑な表面を有するガイドプレート
あるいはラチス等によって布帛(1)の案内面を形成す
ることも可能である。また、第1の駆動機構(Dl)と
第2の駆動機構(D2)とは必ずしも同調させる必要は
なく、個別に操作することもできる。In the above embodiment, the guide member for the fabric (1) disposed at the conversion point (2) of the moving direction of the fabric laminate (1) and the conveyance path (Rs, (R2)) is the freely rotating roller (3). )
Alternatively, it is formed by a conveying member such as a roller conveyor, but the gist of the present invention is not limited to such an example, and the present invention is not limited to such an example, and the present invention is formed by changing the moving direction of the fabric laminate (1) on the continuous multi-stage conveying path (R). Fabric guide members other than those mentioned above, as long as they can perform the spacing adjustment function in point (2),
For example, it is also possible to form the guide surface of the fabric (1) by a guide plate or a lattice (not shown) having a smooth surface fixed between two side plates (4), (4) arranged opposite to each other. Further, the first drive mechanism (Dl) and the second drive mechanism (D2) do not necessarily need to be synchronized and can be operated independently.
ハ0発明の効果
以上の説明に明らかな如く、本発明装置はジグザグ状に
折り畳まれた布帛の多段搬送経路、殊に布帛の移動方向
の変換点に布帛搬送経路の間隔調整機構を設けているか
ら、布帛の導入量、折り畳み寸法もしくは折り畳み形状
の変化に応じて布帛案内面の配役位置を自由に変更する
ことができる。従って、滞溜処理装置内への導入条件の
如何に拘わらず、ジグザグ状に折り畳まれた布帛には移
動方向の変換点に於いて良好な形態保持性能が保証され
る。斯くして上下2段に配設された搬送経路上を移動す
る布帛の積層体は折り畳み形態を乱されることなく高温
の蒸気によって均一に処理される。本発明装置によって
滞溜処理された布帛は、当然のことながら缶体内の加熱
条件の均一性に基づく優れた物性を有し、在来装置によ
って製せられた布帛に比較してその商品価値を大幅に向
上せしめている。Effects of the Invention As is clear from the above explanation, the apparatus of the present invention is provided with a multi-stage conveyance path for a fabric folded in a zigzag shape, and in particular, an interval adjustment mechanism for the fabric conveyance path is provided at a change point of the moving direction of the fabric. Therefore, the position of the fabric guide surface can be freely changed according to changes in the amount of fabric introduced, the folded size, or the folded shape. Therefore, regardless of the conditions under which the fabric is introduced into the retention treatment device, the fabric folded in a zigzag manner is guaranteed to have good shape retention performance at the point of change in the direction of movement. In this way, the stack of fabrics moving on the conveyance path arranged in two upper and lower stages is uniformly treated by high-temperature steam without disturbing its folded form. The fabrics subjected to retention treatment using the apparatus of the present invention naturally have excellent physical properties based on the uniformity of the heating conditions inside the can, and their commercial value is higher than that of fabrics produced using conventional apparatuses. It has improved significantly.
第1図は本発明装置の全体構造を説明する布帛用蒸熱処
理装置の側面図であり、第2図は本発明装置の要部構造
を例示する部分側面図である。
(1)・−布帛、(R)一連続多段搬送経路、(2)
−布帛移動方向の変換点、(A)−間隔調整機構、CG
)−布帛案内機構、(D)−駆動機構、(S)−同調機
構。FIG. 1 is a side view of a fabric steam treatment apparatus illustrating the overall structure of the apparatus of the present invention, and FIG. 2 is a partial side view illustrating the main structure of the apparatus of the present invention. (1) - Fabric, (R) One continuous multi-stage conveyance path, (2)
- Conversion point of fabric movement direction, (A) - Spacing adjustment mechanism, CG
)-fabric guide mechanism, (D)-drive mechanism, (S)-synchronization mechanism.
Claims (1)
される布帛に蒸熱処理を施すための布帛積層体の連続多
段搬送経路を形成してなる布帛の滞溜処理装置であって
、前記連続多段搬送経路上の布帛積層体の移動方向の変
換点に設けられた布帛搬送経路の間隔調整機構を、第1
の布帛安定機構を水平方向に移動させる第1の駆動機構
と、上段に位置する布帛積層体の搬送経路の端末部を上
下方向に揺動させる第2の駆動機構から構成したことを
特徴とする布帛の滞溜処理装置。(1) A fabric accumulating treatment apparatus comprising a continuous multi-stage conveyance path for fabric laminates for applying steam heat treatment to fabrics introduced into a can body in a zigzag-folded state, The interval adjustment mechanism of the fabric conveyance path provided at the change point of the movement direction of the fabric laminate on the multistage conveyance path is
The fabric stabilizing mechanism is comprised of a first drive mechanism that moves the fabric stabilizing mechanism in the horizontal direction, and a second drive mechanism that swings the end portion of the conveyance path of the fabric laminate located in the upper stage in the vertical direction. Fabric retention treatment equipment.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP10139584A JPS60246860A (en) | 1984-05-18 | 1984-05-18 | Cloth stay treating apparatus |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP10139584A JPS60246860A (en) | 1984-05-18 | 1984-05-18 | Cloth stay treating apparatus |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS60246860A true JPS60246860A (en) | 1985-12-06 |
| JPS6319627B2 JPS6319627B2 (en) | 1988-04-23 |
Family
ID=14299549
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP10139584A Granted JPS60246860A (en) | 1984-05-18 | 1984-05-18 | Cloth stay treating apparatus |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS60246860A (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP0275823A1 (en) * | 1986-12-17 | 1988-07-27 | Benninger AG | Apparatus for continuously treating a textile web |
Citations (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5771470A (en) * | 1980-06-23 | 1982-05-04 | Beningeeru Ag Maschf | Stagnant treatment apparatus of textile web |
-
1984
- 1984-05-18 JP JP10139584A patent/JPS60246860A/en active Granted
Patent Citations (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5771470A (en) * | 1980-06-23 | 1982-05-04 | Beningeeru Ag Maschf | Stagnant treatment apparatus of textile web |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP0275823A1 (en) * | 1986-12-17 | 1988-07-27 | Benninger AG | Apparatus for continuously treating a textile web |
Also Published As
| Publication number | Publication date |
|---|---|
| JPS6319627B2 (en) | 1988-04-23 |
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