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JPH0671956B2 - Automatic cutting and winding device for strips such as films - Google Patents
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JPH0671956B2 - Automatic cutting and winding device for strips such as films - Google Patents

Automatic cutting and winding device for strips such as films

Info

Publication number
JPH0671956B2
JPH0671956B2 JP61058818A JP5881886A JPH0671956B2 JP H0671956 B2 JPH0671956 B2 JP H0671956B2 JP 61058818 A JP61058818 A JP 61058818A JP 5881886 A JP5881886 A JP 5881886A JP H0671956 B2 JPH0671956 B2 JP H0671956B2
Authority
JP
Japan
Prior art keywords
film
winding
core
cutter
cutting
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 - Lifetime
Application number
JP61058818A
Other languages
Japanese (ja)
Other versions
JPS62215452A (en
Inventor
勉 鈴木
勝巳 中村
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.)
Mitsubishi Heavy Industries Ltd
Original Assignee
Mitsubishi Heavy Industries Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Mitsubishi Heavy Industries Ltd filed Critical Mitsubishi Heavy Industries Ltd
Priority to JP61058818A priority Critical patent/JPH0671956B2/en
Priority to EP87103356A priority patent/EP0237903B1/en
Priority to DE198787103356T priority patent/DE237903T1/en
Priority to DE8787103356T priority patent/DE3760871D1/en
Priority to US07/024,382 priority patent/US4770358A/en
Priority to KR1019870002336A priority patent/KR900007808B1/en
Priority to CN87101973.6A priority patent/CN1004201B/en
Publication of JPS62215452A publication Critical patent/JPS62215452A/en
Publication of JPH0671956B2 publication Critical patent/JPH0671956B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Description

【発明の詳細な説明】 (産業上の利用分野) 本発明は、例えば2軸延伸フィルム製造装置、無延伸フ
ィルム製造装置等に適用されるフィルム等帯状物を自動
的に切断して連続的に巻替えを行ない、また紙、布等の
巻取りにも使用可能なフィルム等帯状物の自動切断巻取
装置に関するものである。
DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention is applied to, for example, a biaxially stretched film manufacturing apparatus, a non-stretched film manufacturing apparatus, etc., to automatically cut a strip of film or the like and continuously. The present invention relates to a device for automatically cutting and winding a belt-like material such as a film that can be rewound and used for winding paper, cloth, and the like.

(従来の技術) フィルム等帯状物(以後フィルムと称する)の巻取りに
おいて、コアに粘着テープ等の粘着力を与えたものを使
用えずに、直接コアに巻き付ける方式(以下テープレス
巻取りと称す)のものは、粘着テープ等によるコア表面
の凹凸に起因するミルロール内層フィルムの損傷がな
く、コア再使用時点の残存した粘着物除去の作業も不要
である為、多方面で注目されつつあるが、フィルム切断
端に擦過傷が発生する等の問題があるため、より完全な
ものの開発が強く望まれていた。
(Prior Art) In winding a band-like material such as a film (hereinafter referred to as a film), a method of directly winding the tape around the core without using an adhesive tape or other adhesive force applied to the core (hereinafter referred to as tapeless winding The type) has no damage to the inner layer film of the mill roll due to the unevenness of the core surface due to the adhesive tape or the like, and the work of removing the remaining sticky substances at the time of reusing the core is not necessary, so it is attracting attention in various fields. However, since there are problems such as scratches on the cut end of the film, the development of a more perfect one has been strongly desired.

以下従来のテープレス巻取機について概要を第5図〜第
7図によって説明すると、1はフィルム、2はコアを示
し、同コア2はターレット4に図示しない駆動装置によ
って図示矢印A方向に回転するように装着されている。
3はガイドロールで、ターレット4の前記コア2と90゜
隔って設けられたアーム4a端に回転可能に軸支されてい
る。5も同じくガイドロールであるが、このガイドロー
ル5はフレーム10のフィルム1供給端に軸支されてお
り、また同ガイドロール5と前記コア2の中間部を横切
って、図示B方向に旋回する巻込みロール6が設けられ
ており、同ロール6は揺動アーム7の先端に軸支され、
同揺動アーム7の他端部は、前記フレーム10のフィルム
巻取側に枢支されている。そして前記巻込みロール6
は、前述の通りガイドロール5とコア2の中間部を横切
って旋回し、コア2の後部側まで到るようになってい
る。
An outline of a conventional tapeless winder will be described below with reference to FIGS. 5 to 7. 1 is a film, 2 is a core, and the core 2 is a turret 4 which is rotated in a direction indicated by an arrow A by a driving device (not shown). It is installed to do.
3 is a guide roll, which is rotatably supported by the end of an arm 4a which is provided 90 ° apart from the core 2 of the turret 4. Reference numeral 5 is also a guide roll, but this guide roll 5 is pivotally supported on the film 1 supply end of the frame 10, and traverses the intermediate portion between the guide roll 5 and the core 2 and turns in the direction B in the figure. A winding roll 6 is provided, and the roll 6 is pivotally supported on the tip of a swing arm 7.
The other end of the swing arm 7 is pivotally supported on the film winding side of the frame 10. And the winding roll 6
As described above, the roller is swung across the intermediate portion between the guide roll 5 and the core 2 and reaches the rear side of the core 2.

8はカッタで、他端を同じくフレーム10の適所に枢着さ
れたアーム9の先端部に装着され、同アーム9は図示し
ない駆動装置によって前記巻込みロール6の旋回と同期
して揺動し、その先端部の前記カッタ8がフィルム1を
切断するようになっている。
Reference numeral 8 is a cutter, the other end of which is attached to the tip of an arm 9 which is also pivotally mounted at a proper position on the frame 10. The arm 9 is rocked by a drive device (not shown) in synchronism with the rotation of the winding roll 6. The cutter 8 at the tip portion thereof cuts the film 1.

さて第5図に於いて、フィルム1はターレット4の他端
に装着されているコア(図示せず)に巻き取られてお
り、同コアで巻き取られているミルロールが満量に達す
ると、巻込みロール6が矢印B方向へ旋回し、フィルム
1でコア2を抱き込み、第6図の状態となる。
Now, in FIG. 5, the film 1 is wound around a core (not shown) attached to the other end of the turret 4, and when the mill roll wound by the core reaches a full amount, The winding roll 6 rotates in the direction of arrow B, and the film 1 holds the core 2 in the state shown in FIG.

次に第7図の如くカッタ8を下降させ、フィルム1を切
断すると共に、フィルム端aをコア2と巻込みロール6
の間のb部へ押し込み、巻取けを終了する。
Next, as shown in FIG. 7, the cutter 8 is lowered to cut the film 1, and the film end a is attached to the core 2 and the winding roll 6.
Then, push it into part b between the two to finish the winding.

しかしながら前記従来の場合は、このように新しいコア
への巻替え時に切断したフィルム端aを巻き込むため、
第6図に示す如く切断に先立ってフィルム1でコア2を
抱き込む必要があったが、フィルム1は第5図に於いて
巻込みロール6及びガイドロール3の間で巻取りの為に
発生する一定の張力を有し、第5図の状態から第6図の
状態に到達させるには、フィルム1に無理な力をかけ
て、破断や、蛇行、シワ等の発生を防ごうとする為、時
間をかけて徐々にロール6を移動させる必要があった。
However, in the case of the above-mentioned conventional case, since the cut film end a is wound at the time of rewinding to the new core,
As shown in FIG. 6, it was necessary to wrap the core 2 with the film 1 before cutting, but the film 1 was generated due to the winding between the winding roll 6 and the guide roll 3 in FIG. In order to reach the state shown in FIG. 6 from the state shown in FIG. 5 with a constant tension, an excessive force is applied to the film 1 in order to prevent breakage, meandering, wrinkling, etc. It was necessary to gradually move the roll 6 over time.

しかるにコア2の表面は平滑ロールの如く平滑でなく、
且つコア2の表面速度は巻取り直後のフィルムのたるみ
を防ぐ為に、フィルムの速度よりもやや速く設定されて
いるので、フィルム1とコア2間にスリップを生じ、フ
ィルム1に擦り傷を発生される虞れがあった。従ってコ
ア2によって擦過された部分は、製品として扱うことが
出来ず、しかもこのロス分はフィルム速度が高くなる程
多くなる欠点があった。
However, the surface of the core 2 is not smooth like a smooth roll,
Moreover, the surface speed of the core 2 is set to be slightly higher than the speed of the film in order to prevent the slack of the film immediately after winding, so that a slip occurs between the film 1 and the core 2 and scratches are generated on the film 1. There was a risk that Therefore, the portion rubbed by the core 2 cannot be handled as a product, and the loss increases as the film speed increases.

さて第7図に示すように、フィルム1はコア2、ガイド
ロール3によって支えられ、アーム9が下降し、前記の
如くカッタ8がフィルム1に侵入して切断する。なお、
通常カッタ8は第8図、第9図に示すような鋸刃状を使
用している。
Now, as shown in FIG. 7, the film 1 is supported by the core 2 and the guide rolls 3, the arm 9 descends, and the cutter 8 enters the film 1 and cuts as described above. In addition,
Normally, the cutter 8 has a saw-tooth shape as shown in FIGS. 8 and 9.

第5図に示す従来のフィルム巻取機において、フィルム
材の良好な切断面を得るには、カッタの切れ味がよいこ
と、フィルムの走行速度が速くなる程カッタ8の作動速
度が速くなること、切断時、フィルムがカッタに押され
て逃げにくいようにフィルムの張力を増すか、或はフィ
ルムを支える手段が設けられること等の対策が必要であ
ったが、これらの対策が満たされない場合は、第10図に
示すように、切断部9に短冊状の切り残しを発生させ、
新しいコアに巻き付ける時に、同切断部9の各短冊状部
が折れたり、重なったりして凹凸を生じ、この凹凸がそ
の上層に巻き付くことによりフィルム1に凹凸のくせを
つけ、巻き戻したフィルム1の平面性を損じて、多くの
不良部が発生することになる。この不良切断部の長さl
は、フィルム1の走行速度が速い程、カッタ作動速度が
遅い程、フィルムの張力が少ない程長くなって、凹凸の
くせのついた不良フィルムを長くする欠点があった。
In the conventional film winder shown in FIG. 5, in order to obtain a good cut surface of the film material, the sharpness of the cutter is good, the operating speed of the cutter 8 becomes faster as the traveling speed of the film increases, At the time of cutting, it was necessary to take measures such as increasing the tension of the film so that the film is not easily escaped by the cutter, or a means for supporting the film was provided, but if these measures are not satisfied, As shown in FIG. 10, a strip-shaped uncut portion is generated in the cutting portion 9,
When wound around a new core, the strip-shaped portions of the cutting portion 9 are folded or overlapped to form irregularities, and the irregularities wrap around the upper layer to give the film 1 a concave-convex shape and rewind the film. The flatness of No. 1 is impaired, and many defective parts are generated. Length l of this defective cutting part
The longer the running speed of the film 1, the slower the cutter operating speed, and the lower the tension of the film, the longer the length of the defective film.

(発明が解決しようとする問題点) 本発明は、従来のフィルム等帯状物の巻取機におけるフ
ィルム切断端の擦過傷の発生、切断部に凹凸ぐせがつく
などの問題点を解決しようとするものである。
(Problems to be Solved by the Invention) The present invention is intended to solve problems such as the generation of scratches on the cut end of a film in a conventional winder for winding a strip of film or the like, and the unevenness of the cut portion. Is.

(問題点を解決するための手段) このため本発明は、フィルム等帯状物を押えロール、押
え部材とカッタにより自動切断して巻取るターレット式
自動切断巻取機において、揺動可能なアームに装着さ
れ、フィルム等帯状物の切断端上流部に静電荷を与える
静電荷付与手段を有し、カッタと、一対からなる押え部
材とを帯状物に対向させて回動可能に配置すると共に、
切断位置において予め待機中の前記カッタの前後に前記
押え部材が進入するように構成してなるもので、これを
問題点解決のための手段とするものである。
(Means for Solving the Problems) For this reason, the present invention provides a swingable arm in a turret type automatic cutting and winding machine that automatically cuts and winds a band-shaped material such as a film with a pressing roll, a pressing member and a cutter. It has a static charge imparting means that is mounted and applies an electrostatic charge to the upstream end of the cut end of the band-shaped material such as a film, and the cutter and the pair of pressing members are rotatably arranged so as to face the band-shaped material.
The pressing member is configured to enter before and after the cutter that is waiting in advance at the cutting position, and this is a means for solving the problem.

(作用) フィルム巻替え時、揺動アームが揺動し、同揺動アーム
に装着した静電荷付与手段によってフィルム切断端部に
電荷を付与し、同フィルム切断端部を新規のコア表面に
付着させると同時に巻取りを開始する。次にフィルム切
断時、カッタとフィルムを挟んで対向している一対の押
え部材が、フィルムを両方で支えながらカッタ方向に押
しさげて、フィルムの張力を増大させて切断する。
(Operation) When the film is rewound, the swing arm swings, and the static charge imparting means mounted on the swing arm imparts an electric charge to the film cutting end portion, and the film cutting end portion is attached to the new core surface. At the same time, the winding is started. Next, at the time of cutting the film, the cutter and a pair of pressing members opposed to each other with the film interposed therebetween press down the film in the direction of the cutter while supporting the film by both, and increase the tension of the film to cut the film.

(実施例) 以下本発明を図面の実施例について説明すると、第1図
乃至第3図は本発明の実施例を示すもので、11はフィル
ム、12,13はコアであり、同コア12,13は、フレーム19に
図示C方向に回転可能に装架されたターレット16の両端
部に、矢印A方向に図示しない駆動装置によって回転で
きるように軸支されている。またターレット16の中央両
側部にはアーム18,18が突設され、同アーム18,18の各先
端部にはガイドロール17,17がそれぞれ軸支されてい
る。14はコア12にフィルム11を巻きあげたミルロールで
ある。
(Embodiment) The present invention will be described below with reference to embodiments of the drawings. FIGS. 1 to 3 show an embodiment of the present invention, in which 11 is a film and 12 and 13 are cores. 13 is rotatably supported at both ends of a turret 16 mounted on a frame 19 so as to be rotatable in the C direction in the figure so as to be rotatable in the A direction by an unillustrated driving device. Arms 18 and 18 are projectingly provided on both sides of the center of the turret 16, and guide rolls 17 and 17 are pivotally supported at the respective tip ends of the arms 18 and 18. 14 is a mill roll in which the film 11 is wound around the core 12.

また前記フレーム19のフィルム11供給側に、別のフレー
ム28が設置されており、同フレーム28にはフィルム送給
通路上にガイドロール27、更に同フレーム28同一軸伸D
を中心に揺動する揺動アーム23,26が枢着されている。
揺動アーム2の先端にはカッタ22を装着している。また
揺動アーム26には押えロール25及び静電荷付与手段20を
装着している。更に揺動アーム26の先端部には、E点を
中心に同じく揺動するアーム29が枢着され、同アーム29
の先端には、押えバー30aと押え棒30bからなる一対の押
え部材30を装着している。また押え部材30には、エア吹
出しノズル30cを形成して、第4図の如くエアによって
フィルム端aをコア13に押付ける様にしてもよい。前記
静電荷付与手段20は、公知のコロナ放電による帯電タイ
プで、静電荷付与装置の電極部を使用している。なお、
同装置の電源部及び配線等は図示を省略してある。
Further, another frame 28 is installed on the film 11 supply side of the frame 19, and the frame 28 has a guide roll 27 on the film feeding path, and the frame 28 has the same axial extension D.
Swing arms 23 and 26 swinging around the are pivotally attached.
A cutter 22 is attached to the tip of the swing arm 2. Further, a pressing roll 25 and an electrostatic charge applying means 20 are attached to the swing arm 26. Further, an arm 29 that also swings around the point E is pivotally attached to the tip of the swing arm 26.
A pair of presser members 30 including a presser bar 30a and a presser bar 30b is attached to the tip of the. Further, an air blowing nozzle 30c may be formed in the pressing member 30 so that the film end a is pressed against the core 13 by air as shown in FIG. The electrostatic charge imparting means 20 is of a known charging type by corona discharge and uses an electrode portion of an electrostatic charge imparting device. In addition,
Illustration of the power supply unit and wiring of the device is omitted.

次に以上のような本発明の実施例による装置を使用して
フィルム11のテープレス巻取りを行なう場合について作
用を説明すると、第1図は図示右側のコア12上のミルロ
ール14が満量状態に到達した時点の状態を示す。そして
図示しない巻長カウンタで巻長を計測して、これが満量
に達すると、アーム23を起動して、第2図の位置に待機
させ、次いで揺動アーム26を起動して、押えロール25に
より、フィルム11を新しいコア13に押しつけると同時
に、揺動アーム29を下降させて一対の押え部材30がフィ
ルム11をカッタ22の方向に押しさげて、フィルム11の張
力を増大させて、一気に切断する。
The operation of the tapeless winding of the film 11 using the apparatus according to the embodiment of the present invention as described above will be described below. FIG. 1 shows that the mill roll 14 on the core 12 on the right side of the drawing is in a full state. The state at the time of reaching is shown. A winding length counter (not shown) measures the winding length. When the winding length reaches a full amount, the arm 23 is activated to wait at the position shown in FIG. As a result, the film 11 is pressed against the new core 13, and at the same time, the swinging arm 29 is lowered and the pair of pressing members 30 press the film 11 toward the cutter 22, increasing the tension of the film 11 and cutting at a stretch. To do.

切断と同時に、静電荷付与手段20からフィルム切断端a
に電荷を与え、コア13に吸着させて巻取けを行ない、自
動切断、巻替えをテープレスで行なう。なお、第4図に
おけるエア吹出しノズル30cからのエア吹付けは、静電
荷付与手段20からの電荷付与と同時に実施する。
Simultaneously with the cutting, the film cutting end a from the electrostatic charge applying means 20
A charge is applied to the core 13 to attract it to the core 13 for winding, and automatic cutting and rewinding are performed without a tape. The air blowing from the air blowing nozzle 30c in FIG. 4 is carried out at the same time as the charge application from the electrostatic charge applying means 20.

このような構成を採用することにより、第2図に示すよ
うに、フィルム端aを最小にするため、カッタ22の停止
位置を可能な限りコア13に接近させることが出来る。ま
たアーム26の先方に腕長さが短く、重量の小さいアーム
29を枢着することにより、小さい揺動動作で、高速切断
が可能になる。次いで巻取けが終了したら、アーム23と
29を起動して、第3図の状態に戻し、新しいコア13上
で、ミルロール15とフィルム11の巻取りが行なわれる。
By adopting such a configuration, as shown in FIG. 2, since the film end a is minimized, the stop position of the cutter 22 can be brought as close to the core 13 as possible. In addition, the arm length is short at the end of the arm 26, and the weight of the arm is small.
By pivotally attaching 29, high-speed cutting is possible with a small swinging motion. Next, when winding is completed,
29 is started and returned to the state of FIG. 3, and the mill roll 15 and the film 11 are wound on the new core 13.

また以上の実施例に於いて、押えローラ25は、ミルロー
ルの巻き硬さをコントロールするレイオンロールとして
使用することが出来る。更に静電荷付与手段としては、
送風タイプ静電荷付与手段を採用してもよい。また押え
バー30aと押え棒30bの間隔を変更可能にして、フィルム
の種類、厚さの変更に対応可能にしてもよく、エア吹出
しノズルを、押え部材30と別体に設けることもできる。
Further, in the above embodiments, the pressing roller 25 can be used as a reion roll for controlling the winding hardness of the mill roll. Furthermore, as means for imparting electrostatic charge,
Blower type electrostatic charge imparting means may be adopted. Further, the distance between the presser bar 30a and the presser bar 30b may be made changeable so that the type and thickness of the film can be changed, and the air blowing nozzle can be provided separately from the presser member 30.

(発明の効果) 以上詳細に説明した如く本発明によると、フィルム切断
と同時にフィルムに電荷を与えることにより、コアにフ
ィルムを吸着させて巻取けを行なうことができるので、
テープレス巻取において、切断前にフィルムでコアを抱
き込む必要がなく、ミルロール巻き終り部でコアに接触
して擦過傷を受けてロスとなるフィルムがなくなり、フ
ィルムの歩留りが大巾に向上する。
(Effect of the invention) As described in detail above, according to the present invention, the film can be adsorbed to the core to be wound up by applying an electric charge to the film at the same time as cutting the film.
In tapeless winding, it is not necessary to wrap the core around the film before cutting, and there is no film that comes into contact with the core at the end of the mill roll winding to be scratched and becomes a loss, and the yield of the film is greatly improved.

また本発明は、カッタと一対からなる押え部材とを帯状
物に対向さて回動可能に配置すると共に、切断位置にお
いて予め待機中の前記カッタの前後に前記押え部材が進
入するようにしたので、切断時には一対の押え部材がフ
ィルムをカッタの前後に押し付ける効果が生じ、これに
よりフィルム張力が増大し、カッタからフィルムが逃げ
ないように押し付けられる。従ってフィルムの切断端を
良好な切断形状にすることができ、フィルムの歩留りが
向上する。本発明では、この切断手段と、切断端に静電
荷を与える静電荷付与手段との組合せにより、安定した
テープレス巻取りが可能となる。
Further, according to the present invention, the cutter and the pressing member formed of a pair are rotatably arranged so as to face the strip, and the pressing member enters before and after the cutter that is in standby at the cutting position in advance. At the time of cutting, the pair of pressing members has an effect of pressing the film to the front and rear of the cutter, which increases the film tension and presses the film so as not to escape from the cutter. Therefore, the cut end of the film can be formed into a favorable cut shape, and the yield of the film is improved. In the present invention, stable tapeless winding is possible by combining this cutting means and the electrostatic charge imparting means for imparting an electrostatic charge to the cut end.

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

第1図、第2図及び第3図は夫々作動状態を異にする本
発明の実施例を示すフィルム等帯状物の自動切断巻取装
置の側面図、第4図は他の実施例を示す要部の側面図、
第5図は従来装置によるフィルム巻取り状態を示す要部
側面図、第6図は同上巻替え準備状態図、第7図は同上
切断状態図、第8図は従来のカッタの平面図、第9図は
第8図の側断面図、第10図は従来装置によるフィルムの
切断端形状を示す平面図である。 図の主要部分の説明 11……フィルム 12,13……コア 16……ターレット 20……静電荷付与手段 22……カッタ 23,26,29……アーム 30……押え部材
FIGS. 1, 2 and 3 are side views of an automatic cutting and winding apparatus for a belt-shaped film or the like showing an embodiment of the present invention in which the operating states are different, and FIG. 4 shows another embodiment. Side view of the main part,
FIG. 5 is a side view of essential parts showing a film winding state by a conventional apparatus, FIG. 6 is a rewinding preparation state diagram of the same as above, FIG. 7 is a cutting state diagram of the same above, FIG. 8 is a plan view of a conventional cutter, FIG. 9 is a side sectional view of FIG. 8, and FIG. 10 is a plan view showing a cut end shape of a film by a conventional device. Description of main parts of the figure 11 …… Film 12,13 …… Core 16 …… Turret 20 …… Static charge imparting means 22 …… Cutter 23,26,29 …… Arm 30 …… Pressing member

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】フィルム等帯状物を押えロール、押え部材
とカッタにより自動切断して巻取るターレット式自動切
断巻取機において、揺動可能なアームに装着され、フィ
ルム等帯状物の切断端上流部に静電荷を与える静電荷付
与手段を有し、かつカッタと一対からなる押え部材を帯
状物に対向させて回動可能に配置すると共に、切断位置
において予め待機中の前記カッタの前後に前記押え部材
が進入するように構成してなることを特徴とするフィル
ム等帯状物の自動切断巻取装置。
1. A turret type automatic cutting and winding machine for automatically cutting and winding a band-shaped material such as a film by a pressing roll, a pressing member and a cutter, which is mounted on a swingable arm and is upstream of a cut end of the band-shaped material such as a film. And a pressing member composed of a pair of cutters and a pressing member facing each other so as to be rotatable, and at the cutting position, before and after the cutter waiting in advance. An automatic cutting and winding device for a belt-shaped material such as a film, characterized in that the pressing member is configured to enter.
JP61058818A 1986-03-17 1986-03-17 Automatic cutting and winding device for strips such as films Expired - Lifetime JPH0671956B2 (en)

Priority Applications (7)

Application Number Priority Date Filing Date Title
JP61058818A JPH0671956B2 (en) 1986-03-17 1986-03-17 Automatic cutting and winding device for strips such as films
EP87103356A EP0237903B1 (en) 1986-03-17 1987-03-09 Automatic cutting and winding apparatus for a web-like material such as a film
DE198787103356T DE237903T1 (en) 1986-03-17 1987-03-09 AUTOMATIC SEPARATOR AND WRAPPER FOR TAPE MATERIAL, SUCH AS FILM.
DE8787103356T DE3760871D1 (en) 1986-03-17 1987-03-09 Automatic cutting and winding apparatus for a web-like material such as a film
US07/024,382 US4770358A (en) 1986-03-17 1987-03-10 Automatic cutting and winding apparatus for a web-like material such as a film
KR1019870002336A KR900007808B1 (en) 1986-03-17 1987-03-16 Automatic cutting and winding apparatus for a web-like material such as film
CN87101973.6A CN1004201B (en) 1986-03-17 1987-03-17 Equipment for automatically cutting and winding film and other materials

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP61058818A JPH0671956B2 (en) 1986-03-17 1986-03-17 Automatic cutting and winding device for strips such as films

Publications (2)

Publication Number Publication Date
JPS62215452A JPS62215452A (en) 1987-09-22
JPH0671956B2 true JPH0671956B2 (en) 1994-09-14

Family

ID=13095197

Family Applications (1)

Application Number Title Priority Date Filing Date
JP61058818A Expired - Lifetime JPH0671956B2 (en) 1986-03-17 1986-03-17 Automatic cutting and winding device for strips such as films

Country Status (1)

Country Link
JP (1) JPH0671956B2 (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPWO2008047546A1 (en) * 2006-09-29 2010-02-25 日立化成工業株式会社 Automatic film winding device, slit winding system, and method for manufacturing wound film
CN107881563B (en) * 2017-12-15 2023-05-12 常熟市百联自动机械有限公司 Velvet stabilizing box

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS4947989A (en) * 1972-05-23 1974-05-09
JPS58220038A (en) * 1982-06-14 1983-12-21 Kataoka Kikai Seisakusho:Kk Sheet end winding method and device

Also Published As

Publication number Publication date
JPS62215452A (en) 1987-09-22

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