JP2005306588A - Belt-like member carrying-cutting method and device - Google Patents

Belt-like member carrying-cutting method and device Download PDF

Info

Publication number
JP2005306588A
JP2005306588A JP2004129309A JP2004129309A JP2005306588A JP 2005306588 A JP2005306588 A JP 2005306588A JP 2004129309 A JP2004129309 A JP 2004129309A JP 2004129309 A JP2004129309 A JP 2004129309A JP 2005306588 A JP2005306588 A JP 2005306588A
Authority
JP
Japan
Prior art keywords
belt
shaped member
cutting
changing
conveyor
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
JP2004129309A
Other languages
Japanese (ja)
Other versions
JP4201736B2 (en
Inventor
Hironobu Anzai
宏宣 安齋
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.)
Bridgestone Corp
Original Assignee
Bridgestone Corp
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 Bridgestone Corp filed Critical Bridgestone Corp
Priority to JP2004129309A priority Critical patent/JP4201736B2/en
Publication of JP2005306588A publication Critical patent/JP2005306588A/en
Application granted granted Critical
Publication of JP4201736B2 publication Critical patent/JP4201736B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Images

Landscapes

  • Registering, Tensioning, Guiding Webs, And Rollers Therefor (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To improve working efficiency when changing a cutting angle of a belt-like member 12, while reducing a space. <P>SOLUTION: When changing the cutting angle of the belt-like member 12, a cylindrical body 50 is rocked, and a large number of oscillation rollers 53 contacting with a bending part 12a of the belt-like member 12 are rotated so that a plane vertical to its rotational axis becomes parallel to the traveling direction of the belt-like member 12. As a result, the belt-like member 12 can travel without causing frictional resistance and dislocation. At this time, since the cylindrical body 50 and the oscillation rollers 53 being a small part are respectively preferably rocked and rotated, work can be easily performed in a short time, and an installation space may also be sufficient in a narrow type. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

この発明は、帯状部材を走行させながら方向を変更した後、斜め切断する帯状部材の搬送切断方法および装置に関する。     The present invention relates to a method and an apparatus for conveying and cutting a belt-shaped member that is obliquely cut after the direction is changed while the belt-shaped member is traveling.

従来の帯状部材の搬送切断方法・装置としては、例えば以下の特許文献1に記載されているようなものが知られている。
特開平10−258932号公報
As a conventional belt-shaped member conveying and cutting method / apparatus, for example, the one described in Patent Document 1 below is known.
JP-A-10-258932

このものは、帯状部材を長手方向に搬送する第1コンベアと、第1コンベアの下流端部に上流端部が交差するとともに、前記交差点を中心として水平面内で揺動することで第1コンベアとの交差角を変更することができる第2コンベアと、第1コンベアの下流端部上において帯状部材の始端部を長手方向に対して斜め切断してシート片を切り出す切断手段と、前記切り出されたシート片を第1コンベアの下流端部上から第2コンベアの上流端部上に移送する移送手段とを備えたもので、前記切断手段による帯状部材の斜め切断角度を変更するときには、切断手段をその長手方向中央を中心として、一方、第2コンベアを前記交差点を中心として水平面内で揺動させるようにしている。   The first conveyor conveys the belt-shaped member in the longitudinal direction, and the upstream end intersects with the downstream end of the first conveyor, and the first conveyor is swung in the horizontal plane around the intersection. A second conveyor capable of changing the crossing angle of the first conveyor, a cutting means for cutting a sheet piece by obliquely cutting a start end of a belt-like member with respect to the longitudinal direction on a downstream end of the first conveyor, and the cut And a transfer means for transferring the sheet piece from the downstream end of the first conveyor to the upstream end of the second conveyor. When changing the oblique cutting angle of the belt-like member by the cutting means, the cutting means is With the center in the longitudinal direction as the center, the second conveyor is swung in the horizontal plane around the intersection.

しかしながら、このような従来の帯状部材の搬送切断方法・装置にあっては、帯状部材の斜め切断角度を変更する際、切断手段および長尺で大型である第2コンベアを揺動させる必要があるため、その作業に多大の時間と労力が必要となって作業能率が低下するとともに、揺動のための広い設置スペースが必要になってしまうという課題があった。     However, in such a conventional belt-shaped member conveying and cutting method and apparatus, when changing the oblique cutting angle of the belt-shaped member, it is necessary to rock the cutting means and the long and large second conveyor. Therefore, a great amount of time and labor are required for the work, and the work efficiency is lowered, and a large installation space for swinging is required.

この発明は、省スペース化を図りながら、帯状部材の切断角度変更時における作業能率を向上させることができる帯状部材の搬送切断方法および装置を提供することを目的とする。   An object of the present invention is to provide a method and an apparatus for transporting and cutting a belt-shaped member that can improve work efficiency when changing the cutting angle of the belt-shaped member while saving space.

このような目的は、第1に、帯状部材を長手方向に走行させながら該帯状部材の走行経路上に設置された変更手段に斜めに掛け回すことで、帯状部材を螺旋の一部を構成するよう屈曲させながらその走行方向を変更させた後、該帯状部材の始端部を切断手段により長手方向に対して斜め切断してシート片を切り出し、該切り出されたシート片をコンベアにより下流側に向かって搬送するようにするとともに、角度変更手段によって前記変更手段を走行方向変更前の帯状部材に平行な平面内で揺動させることで、走行方向変更前の帯状部材と走行方向変更後の帯状部材との間の交差角を変更し、切断手段による帯状部材の斜め切断角度を変更したとき、前記変更手段を構成する、帯状部材の屈曲部の内側に該屈曲部に沿って設置され、外周を前記帯状部材が接触しながら走行する多数の回転可能な首振りローラと、各首振りローラを回転可能に支持するとともに、前記屈曲部に対する法線を中心として回動できるよう支持体に支持された多数のホルダとを、回動機構により首振りローラの回転軸線に垂直な平面と帯状部材の走行方向とが平行となるよう回動させるようにした帯状部材の搬送切断方法により、     The purpose of this is as follows. First, the belt-like member is formed as a part of a spiral by obliquely looping the belt-like member around the changing means installed on the travel route of the belt-like member while traveling in the longitudinal direction. Then, the running direction is changed while being bent, and the starting end portion of the belt-like member is cut obliquely with respect to the longitudinal direction by a cutting means to cut out a sheet piece, and the cut sheet piece is moved downstream by a conveyor. And the angle changing means swings the changing means in a plane parallel to the belt-like member before the travel direction change, so that the belt-like member before the travel direction change and the belt-like member after the travel direction change. When the oblique cutting angle of the belt-like member by the cutting means is changed, the change means is installed along the bent portion inside the bent portion of the belt-like member, and the outer periphery is Previous A number of rotatable swing rollers that run while contacting the belt-shaped member, and a number of swing rollers that rotatably support each swing roller and that are supported by a support so as to be rotatable about a normal to the bent portion. The belt member is rotated by a rotation mechanism so that the plane perpendicular to the rotation axis of the swing roller and the traveling direction of the belt member are parallel to each other,

第2に、長手方向に走行する帯状部材の走行経路上に設置され、該帯状部材が斜めに掛け回されることで、帯状部材を螺旋の一部を構成するよう屈曲させながらその走行方向を変更する変更手段と、走行方向変更後の帯状部材の始端部を長手方向に対して斜め切断してシート片を切り出す切断手段と、該切り出されたシート片を下流側に向かって搬送するコンベアと、前記変更手段を走行方向変更前の帯状部材に平行な平面内で揺動させることで、走行方向変更前の帯状部材と走行方向変更後の帯状部材との間の交差角を変更して、切断手段による帯状部材の斜め切断角度を変更する角度変更手段とを備え、前記変更手段は、帯状部材の屈曲部の内側に該屈曲部に沿って設置され、外周を前記帯状部材が接触しながら走行する多数の回転可能な首振りローラと、各首振りローラを回転可能に支持するとともに、前記屈曲部に対する法線を中心として回動可能な多数のホルダと、前記螺旋の中心軸に沿って延び、前記多数のホルダを回動可能に支持する支持体と、変更手段が揺動されたとき、前記多数のホルダを、首振りローラの回転軸線に垂直な平面と帯状部材の走行方向とが平行となるよう回動させる回動機構を有する帯状部材の搬送切断装置により、達成することができる。   Second, it is installed on the travel path of the belt-like member that runs in the longitudinal direction, and the belt-like member is slanted so that the belt-like member is bent so as to form a part of the spiral, and the traveling direction is changed. A changing means for changing; a cutting means for cutting a sheet piece by obliquely cutting a starting end portion of the belt-like member after changing the running direction with respect to the longitudinal direction; and a conveyor for conveying the cut sheet piece toward the downstream side The crossing angle between the belt-shaped member before the travel direction change and the belt-shaped member after the travel direction change is changed by swinging the changing means in a plane parallel to the belt-shaped member before the travel direction change, Angle changing means for changing the oblique cutting angle of the band-shaped member by the cutting means, the changing means being installed along the bent portion inside the bent portion of the band-shaped member, while the band-shaped member is in contact with the outer periphery Numerous rotations that can travel A swinging roller, a plurality of swinging rollers that rotatably support each of the swinging rollers, and a plurality of holders that can rotate about a normal line to the bent portion, and extending along the central axis of the spiral. When the support member rotatably supported and the changing means are swung, the plurality of holders are rotated so that the plane perpendicular to the rotation axis of the swing roller and the traveling direction of the belt-like member are parallel to each other. This can be achieved by a belt-shaped member conveying and cutting device having a rotating mechanism.

帯状部材を長手方向に走行させながら該帯状部材の走行経路上に設置された変更手段に斜めに掛け回すと、該帯状部材は変更手段によって螺旋の一部を構成するよう屈曲しながらその走行方向が変更される。その後、帯状部材の始端部を切断手段により長手方向に対して斜め切断してシート片を切り出し、該切り出されたシート片をコンベアにより下流側に向かって搬送する。このとき、支持体に回動可能に支持された多数のホルダおよび該ホルダに回転可能に支持された多数の首振りローラは、回動機構により、屈曲部に対する法線を中心として、首振りローラの回転軸線に垂直な平面と帯状部材の走行方向とが平行となるよう回動されているため、帯状部材は変更手段(首振りローラ)から摩擦抵抗を殆ど受けることなく、また、幅方向(螺旋の中心軸方向)にずれることなく走行方向が変更される。   When the belt-like member travels in the longitudinal direction and is slanted around the changing means installed on the travel path of the belt-like member, the belt-like member is bent so as to form a part of the spiral by the changing means, and its running direction Is changed. Thereafter, the starting end of the belt-like member is cut obliquely with respect to the longitudinal direction by a cutting means to cut out a sheet piece, and the cut sheet piece is conveyed toward the downstream side by a conveyor. At this time, a large number of holders rotatably supported by the support and a large number of swing rollers rotatably supported by the holders are swung around the normal to the bent portion by the rotation mechanism. Since the belt is rotated so that the plane perpendicular to the rotation axis of the belt and the traveling direction of the belt-like member are parallel to each other, the belt-like member receives almost no frictional resistance from the changing means (swing roller), and the width direction ( The traveling direction is changed without shifting in the direction of the central axis of the spiral.

次に、切断手段による帯状部材の斜め切断角度を変更する場合には、角度変更手段によって変更手段を走行方向変更前の帯状部材に平行な平面内で揺動させ、走行方向変更前の帯状部材と走行方向変更後の帯状部材との間の交差角を変更する。なお、このとき、変更手段の揺動角度は、前記交差角の変更角度(変更後の交差角から変更前の交差角を減じた角度)の 1/2である。   Next, when changing the oblique cutting angle of the belt-like member by the cutting means, the angle changing means swings the changing means in a plane parallel to the belt-like member before changing the running direction, and the belt-like member before changing the running direction. And the crossing angle between the belt-like member after changing the traveling direction. At this time, the swing angle of the changing means is ½ of the change angle of the crossing angle (the angle obtained by subtracting the crossing angle before the change from the crossing angle after the change).

また、このとき、回動機構により各ホルダ、首振りローラを帯状部材の屈曲部に対する法線を中心として、首振りローラの回転軸線に垂直な平面と帯状部材の走行方向とが平行となるよう回動させる。この結果、前述のように変更手段が揺動されても、帯状部材は変更手段(首振りローラ)から摩擦抵抗を殆ど受けることなく、また、幅方向にずれることなく走行することができる。   At this time, the rotation mechanism causes each holder and the swing roller to be parallel to the plane perpendicular to the rotation axis of the swing roller and the traveling direction of the strip member, with the normal to the bent portion of the strip member as the center. Rotate. As a result, even if the changing means is swung as described above, the belt-like member can travel without receiving any frictional resistance from the changing means (swing roller) and without shifting in the width direction.

このように帯状部材の斜め切断角度を変更するときには、小型部品である変更手段(支持体)およびホルダ、首振りローラをそれぞれ角度変更手段、回動機構により揺動、回動させるだけで良いため、作業を短時間で簡単に行うことができ、作業能率が向上するとともに、設置スペースも狭いもので充分であり、省スペース化を図ることもできる。   In this way, when changing the oblique cutting angle of the belt-like member, it is only necessary to swing and rotate the changing means (support), the holder, and the swing roller, which are small parts, by the angle changing means and the turning mechanism, respectively. Therefore, the work can be easily performed in a short time, the work efficiency is improved, and the installation space is small, and the space can be saved.

また、請求項3に記載のように構成すれば、首振りローラ、ホルダが整然と配置され、これにより、製作が容易となるとともに、回動機構の構造を簡単とすることができる。
さらに、請求項4に記載のように構成すれば、首振りローラの一部(半径方向外端部)が円筒体から突出しているだけであるため、作業の安全性を向上させることができる。
また、請求項5に記載のように構成すれば、回動機構を構造簡単で安価とすることができる。
According to the third aspect of the present invention, the swinging roller and the holder are arranged in an orderly manner, thereby facilitating the manufacture and simplifying the structure of the rotating mechanism.
Furthermore, if it comprises as described in Claim 4, since only a part (radial direction outer end part) of the swing roller protrudes from the cylindrical body, the safety of work can be improved.
Moreover, if comprised as described in Claim 5, a structure of a rotation mechanism can be made simple and cheap.

以下、この発明の実施例1を図面に基づいて説明する。
図1において、11は前後方向に延びる水平な第1コンベアであり、この第1コンベア11は間欠的に作動して前後方向に延びる帯状部材12をその長手方向に(前方に向かって)搬送する。ここで、前述の帯状部材12としては、例えば、多数本の前後方向に延びる非伸張性の補強コードを前方に向かって走行させながら、その周囲をカレンダー装置によりゴムで被覆し、帯状としたものである。そして、このような帯状部材12はカレンダー装置からそのまま(巻き取られることなく)第1コンベア11に搬入され、該第1コンベア11によって前方に送り出される。
Embodiment 1 of the present invention will be described below with reference to the drawings.
In FIG. 1, reference numeral 11 denotes a horizontal first conveyor extending in the front-rear direction. The first conveyor 11 is intermittently operated to convey a belt-like member 12 extending in the front-rear direction in the longitudinal direction (toward the front). . Here, as the above-described band-shaped member 12, for example, a plurality of non-stretchable reinforcing cords extending in the front-rear direction are run forward, and the periphery thereof is covered with rubber by a calendar device to form a band-like shape. It is. Then, such a belt-like member 12 is carried from the calendar device as it is (without being wound up) to the first conveyor 11 and sent forward by the first conveyor 11.

15は前記第1コンベア11の側方に平行関係を保って近接配置された第2コンベアであり、この第2コンベア15の上流端部と前記第1コンベア11の下流端部とは重なり合っている。このような位置に第2コンベア15を配置すれば、第1、第2コンベア11、15が、従来のように帯状部材12の切断角度で交差している場合に比較して、設置スペースを低減させることができる。そして、この第2コンベア15には第1コンベア11の下流端から送り出された帯状部材12が、該帯状部材12の走行経路上に設置された後述する変更手段によって走行方向が変更された後、上流端部(後端部)上に第1コンベア11側から斜めに送り込まれる。   Reference numeral 15 denotes a second conveyor which is arranged close to the side of the first conveyor 11 in a parallel relationship. The upstream end of the second conveyor 15 and the downstream end of the first conveyor 11 overlap each other. . If the 2nd conveyor 15 is arrange | positioned in such a position, compared with the case where the 1st, 2nd conveyors 11 and 15 cross | intersect at the cutting angle of the strip | belt-shaped member 12 like the past, installation space is reduced. Can be made. And after the strip | belt-shaped member 12 sent out from the downstream end of the 1st conveyor 11 to this 2nd conveyor 15 has changed the traveling direction by the changing means mentioned later installed on the travel path | route of this strip | belt-shaped member 12, It is fed obliquely from the first conveyor 11 side onto the upstream end (rear end).

16は第2コンベア15に送り込まれる直前の帯状部材12を下方から支持しながらガイドするガイドプレートであり、このガイドプレート16は第2コンベア15の上流端部から第1コンベア11側に向かって斜めに延びるとともに、第2コンベア15に対する帯状部材12の送り込み角度Aが変更となったときには、この送り込み角度Aの変更に追従して揺動させる。   Reference numeral 16 denotes a guide plate that guides the belt-like member 12 immediately before being fed into the second conveyor 15 while supporting it from below, and this guide plate 16 is inclined from the upstream end of the second conveyor 15 toward the first conveyor 11 side. And when the feeding angle A of the belt-like member 12 with respect to the second conveyor 15 is changed, it is swung following the change of the feeding angle A.

18は前記ガイドプレート16より第1コンベア11側に設置され帯状部材12を上下から挟持している一対の送り込みローラであり、これら一対の送り込みローラ18は図示していない駆動モータから駆動力を受けて間欠的に回転し、帯状部材12を送り込み角度Aで一定長だけ第2コンベア15に向かって第1コンベア11と同一搬送速度で送り込む。   Reference numeral 18 denotes a pair of feed rollers that are installed on the first conveyor 11 side of the guide plate 16 and sandwich the belt-like member 12 from above and below. The pair of feed rollers 18 receives a driving force from a drive motor (not shown). The belt-shaped member 12 is fed intermittently at a feeding angle A toward the second conveyor 15 at the same conveying speed as the first conveyor 11.

19は第2コンベア15の上流端部に設置された切断手段であり、この切断手段19は第2コンベア15の上流端部上に送り込まれた走行方向変更後の帯状部材12の始端部を長手方向に対して斜めに、ここでは第2コンベア15の長手方向と平行に切断して該帯状部材12からシート片20を切り出す。この結果、切り出されたシート片20はその切断始端および切断終端が第2コンベア15の長手方向に平行な平行四辺形を呈し、第2コンベア15の作動により下流側(前方)に向かって搬送される。   19 is a cutting means installed at the upstream end of the second conveyor 15, and this cutting means 19 extends the start end of the belt-like member 12 after being changed in the traveling direction sent onto the upstream end of the second conveyor 15. The sheet piece 20 is cut out from the strip-shaped member 12 by cutting obliquely with respect to the direction, here in parallel with the longitudinal direction of the second conveyor 15. As a result, the cut sheet piece 20 has a parallelogram shape whose cutting start end and cutting end are parallel to the longitudinal direction of the second conveyor 15, and is conveyed toward the downstream side (forward) by the operation of the second conveyor 15. The

22は前記切断手段19より下流側の第2コンベア15に設置された接合手段であり、この接合手段22は隣接するシート片20の搬送側前端と搬送側後端とを接合して帯状プライ23を成形する。このようにして成形された帯状プライ23は、第2コンベア15によって下流側に搬送された後、所定長に切断されて成形ドラムにベルトプライとして巻き付けられたり、あるいは、一旦ロール状に巻き取られた後、巻き出されるとともに所定長に切断され成形ドラムにベルトプライとして巻き付けられる。   22 is a joining means installed on the second conveyor 15 on the downstream side of the cutting means 19, and this joining means 22 joins the transport-side front end and the transport-side rear end of the adjacent sheet piece 20 to form a belt-like ply 23 Is molded. The belt-like ply 23 thus formed is conveyed downstream by the second conveyor 15, and then cut into a predetermined length and wound as a belt ply around a forming drum, or once wound into a roll. After that, it is unwound and cut to a predetermined length and wound around a forming drum as a belt ply.

図1、2において、26は第1コンベア11より前方に敷設された前後方向に延びる一対のレールであり、これらのレール26の直上には水平な矩形の移動プレート27が設けられている。この移動プレート27の下面には前記レール26に摺動可能に係合する複数のスライドベアリング28が取付けられており、この結果、該移動プレート27はレール26にガイドされながら第1コンベア11の長手方向、即ち前後方向に移動することができる。   In FIGS. 1 and 2, reference numeral 26 denotes a pair of rails that extend in the front-rear direction and is laid forward from the first conveyor 11. A horizontal rectangular moving plate 27 is provided immediately above these rails 26. A plurality of slide bearings 28 that are slidably engaged with the rail 26 are attached to the lower surface of the moving plate 27. As a result, the moving plate 27 is guided by the rail 26 while the length of the first conveyor 11 is increased. It can move in the direction, that is, the front-rear direction.

29は移動プレート27の中央部下面に固定されたねじブロックであり、このねじブロック29にはレール26に平行に延びるねじ軸30がねじ込まれている。31は駆動モータであり、この駆動モータ31の出力軸32は前記ねじ軸30の前端に連結されている。この結果、前記駆動モータ31が作動して出力軸32、ねじ軸30が回転すると、移動プレート27はレール26にガイドされながら前後方向に移動する。   Reference numeral 29 denotes a screw block fixed to the lower surface of the central portion of the moving plate 27, and a screw shaft 30 extending parallel to the rail 26 is screwed into the screw block 29. Reference numeral 31 denotes a drive motor, and an output shaft 32 of the drive motor 31 is connected to the front end of the screw shaft 30. As a result, when the drive motor 31 operates and the output shaft 32 and the screw shaft 30 rotate, the moving plate 27 moves in the front-rear direction while being guided by the rail 26.

35は移動プレート27に下端部が挿入された上下方向に延びる垂直ポストであり、この垂直ポスト35は軸受36を介して移動プレート27に回転可能に支持されている。37は水平で両端が閉止された円筒状の円筒部材であり、この円筒部材37の軸方向一端部外周には前記垂直ポスト35の上端が固定されている。38は前記垂直ポスト35より第2コンベア15側の移動プレート27上に摺動可能に支持された上下方向に延びるスライド部材であり、このスライド部材38の上端部には前記円筒部材37の軸方向他端が固定されている。この結果、前記円筒部材37は非回転である(中心軸回りに回転することはできない)が、垂直軸(垂直ポスト35)を中心として水平面内で揺動することができる。   Reference numeral 35 denotes a vertical post extending in the vertical direction with a lower end inserted in the moving plate 27. The vertical post 35 is rotatably supported by the moving plate 27 via a bearing 36. 37 is a cylindrical cylindrical member that is horizontal and closed at both ends, and the upper end of the vertical post 35 is fixed to the outer periphery of one end of the cylindrical member 37 in the axial direction. Reference numeral 38 denotes a sliding member extending in the vertical direction supported slidably on the moving plate 27 on the second conveyor 15 side from the vertical post 35, and the axial direction of the cylindrical member 37 is at the upper end of the sliding member 38. The other end is fixed. As a result, the cylindrical member 37 is non-rotating (cannot rotate about the central axis), but can swing in the horizontal plane about the vertical axis (vertical post 35).

ここで、この円筒部材37は第2コンベア15に接近するに従い第1コンベア11から離隔するよう第1コンベア11に対し傾斜しているため、前記帯状部材12は円筒部材37に対して斜めに(侵入角度Mで)供給されることになる。そして、この帯状部材12は、円筒部材37に支持された多数の後述する首振りローラに接触した状態で円筒部材37の周囲に約半周だけ掛け回され、これにより、該帯状部材12は螺旋の一部(約半周)を構成するよう屈曲しながら、その走行方向が第2コンベア15に向かうよう変更(反転)される。このとき、前記螺旋の一部を構成する帯状部材12の屈曲部12aと、該屈曲部12aの内側に配置された円筒部材37とは中心軸が同軸である。   Here, since the cylindrical member 37 is inclined with respect to the first conveyor 11 so as to be separated from the first conveyor 11 as the second conveyor 15 is approached, the belt-like member 12 is inclined with respect to the cylindrical member 37 ( Will be supplied at an intrusion angle M). Then, the belt-like member 12 is wound around the cylindrical member 37 by about a half turn while being in contact with a large number of swinging rollers (described later) supported by the cylindrical member 37, whereby the belt-like member 12 is spirally wound. The travel direction is changed (reversed) toward the second conveyor 15 while bending so as to constitute a part (about a half circumference). At this time, the central axis of the bent portion 12a of the band-shaped member 12 constituting a part of the spiral and the cylindrical member 37 disposed inside the bent portion 12a are coaxial.

40は角度変更手段としての水平なシリンダであり、このシリンダ40のヘッド側端は前記移動プレート27の上面に回動可能に連結され、一方、該シリンダ40のピストンロッド41の先端は前記スライド部材38に回動可能に連結されている。この結果、前記シリンダ40が作動してピストンロッド41が突出したり引っ込んだりすると、スライド部材38、円筒部材37は垂直ポスト35を中心として第1コンベア11から円筒部材37に至る帯状部材12、即ち、走行方向変更前の帯状部材12に平行な平面、ここでは水平面内で揺動する。   40 is a horizontal cylinder as an angle changing means, the head side end of this cylinder 40 is rotatably connected to the upper surface of the moving plate 27, while the tip of the piston rod 41 of the cylinder 40 is the slide member 38 is rotatably connected. As a result, when the cylinder 40 is operated and the piston rod 41 is protruded or retracted, the slide member 38 and the cylindrical member 37 are the belt-like member 12 extending from the first conveyor 11 to the cylindrical member 37 around the vertical post 35, that is, It swings in a plane parallel to the belt-like member 12 before the traveling direction is changed, here in a horizontal plane.

このように円筒部材37が揺動すると、走行方向変更前の帯状部材12と、円筒部材37から第2コンベア15に至る帯状部材12、即ち走行方向変更後の帯状部材12との間の交差角Kが変更され、切断手段19による帯状部材12の斜め切断角度S(前記送り込み角度Aと同じ)が変更される。ここで、前記円筒部材(変更手段)37の揺動角度は、前記交差角Kの変更角度(変更後の交差角Kから変更前の交差角Kを減じた角度)の 1/2であり、これにより、省スペース化を図ることができる。前述したレール26、スライドベアリング28、ねじブロック29、ねじ軸30、駆動モータ31は全体として、前記斜め切断角度Sを変更する際、円筒部材(変更手段)37を第1コンベア11に対して接近離隔させる接離手段42を構成する。   When the cylindrical member 37 swings in this way, the crossing angle between the belt-like member 12 before the traveling direction is changed and the belt-like member 12 from the cylindrical member 37 to the second conveyor 15, that is, the belt-like member 12 after the traveling direction is changed. K is changed, and the oblique cutting angle S (same as the feeding angle A) of the belt-like member 12 by the cutting means 19 is changed. Here, the swing angle of the cylindrical member (changing means) 37 is 1/2 of the change angle of the crossing angle K (the angle obtained by subtracting the crossing angle K before the change from the crossing angle K after the change), Thereby, space saving can be achieved. The rail 26, the slide bearing 28, the screw block 29, the screw shaft 30, and the drive motor 31 as a whole approach the cylindrical member (changing means) 37 to the first conveyor 11 when changing the oblique cutting angle S. The contacting / separating means 42 for separating is configured.

このように斜め切断角度Sを変更する際、接離手段42によって円筒部材(変更手段)37を第1コンベア11に対し接近離隔させるようにすれば、第2コンベア15に対する帯状部材12の送り込み位置を送り込み角度A(斜め切断角度S)の変更に拘わらず一定とすることができ、これにより、大型である切断手段19の移動が不要となって切換え作業が容易となる。   Thus, when the oblique cutting angle S is changed, if the cylindrical member (changing means) 37 is moved closer to and away from the first conveyor 11 by the contact / separation means 42, the feeding position of the belt-like member 12 with respect to the second conveyor 15 Can be kept constant regardless of the change in the feeding angle A (oblique cutting angle S), and thus the movement of the large cutting means 19 becomes unnecessary, and the switching operation is facilitated.

図2、3、4において、前記帯状部材12の屈曲部12aに重なり合う円筒部材37の前方側半周には貫通した多数の矩形窓45が形成され、これら矩形窓45は一辺が屈曲部12aの走行方向に平行に延びている。また、これら矩形窓45は螺旋状をした屈曲部12aの中心軸方向に等距離離れて配列されるとともに、このような配列が周方向に等距離離れて複数配置され、この結果、平面状に展開したときには碁盤目状に配置されていることになる。   2, 3, and 4, a plurality of rectangular windows 45 penetrating through the front half of the cylindrical member 37 that overlaps the bent portion 12 a of the belt-like member 12 are formed. It extends parallel to the direction. The rectangular windows 45 are arranged at equal distances in the central axis direction of the spiral bent portion 12a, and a plurality of such arrangements are arranged at equal distances in the circumferential direction. When deployed, it will be arranged in a grid pattern.

47は断面コの字形をした多数(矩形窓45と同数)のブラケットであり、これらのブラケット47は両端が円筒部材37の内周で各矩形窓45の軸方向両側にそれぞれ固定されている。48は前記屈曲部12aに対する法線に沿って延びる多数のホルダであり、これらのホルダ48は、円柱状をした半径方向内側部が前記ブラケット47に挿入されるとともに、これらの間に軸受49が介装されることで、ブラケット47に回動可能に支持される。前述した円筒部材37、ブラケット47は全体として、前記多数のホルダ48を屈曲部12aに対する法線を中心として回動できるよう支持する支持体としての円筒体50を構成する。   Reference numeral 47 denotes a large number of brackets (the same number as the rectangular windows 45) having a U-shaped cross section, and both ends of the brackets 47 are fixed to both sides in the axial direction of the rectangular windows 45 at the inner periphery of the cylindrical member 37. Reference numeral 48 denotes a number of holders extending along a normal line to the bent portion 12a. These holders 48 are inserted in the bracket 47 with a cylindrical inner side in the radial direction, and a bearing 49 is interposed between them. By being interposed, the bracket 47 is rotatably supported. The cylindrical member 37 and the bracket 47 described above constitute a cylindrical body 50 as a support body that supports the large number of holders 48 so as to be rotatable about a normal to the bent portion 12a.

前記ホルダ48の半径方向外側部は二股に分岐するとともに、この二股部には多数(ホルダ48と同数)の首振りローラ53がピン54を介して回転可能に支持されている。そして、これら多数の首振りローラ53はその半径方向中央部が前記矩形窓45内にそれぞれ位置し、一方、その半径方向外端部は前記矩形窓45から半径方向外側に突出している。このようにすれば、首振りローラ53の一部が円筒体50の外周から突出しているだけであるため、帯状部材12を円筒体50の周囲に手作業で巻き付けるときの作業の安全性を向上させることができる。   The radially outer portion of the holder 48 is bifurcated, and a large number of swing rollers 53 (the same number as the holder 48) are rotatably supported via pins 54 at the bifurcated portion. The large number of swing rollers 53 have their radial center portions located in the rectangular window 45, respectively, while their radially outer end portions protrude radially outward from the rectangular window 45. In this way, since only a part of the swing roller 53 protrudes from the outer periphery of the cylindrical body 50, the work safety when the belt-like member 12 is manually wound around the cylindrical body 50 is improved. Can be made.

また、前述のような位置に首振りローラ53、ホルダ48が設置されると、前記矩形窓45と同様に、これら首振りローラ53、ホルダ48の一部は、螺旋状をした前記屈曲部12aの中心軸方向に複数個並べて配置されることになり、ローラ・ホルダ群55を構成する。そして、このようなローラ・ホルダ群55は周方向に離れて複数個配置されており、この結果、全体として首振りローラ53、ホルダ48は碁盤目状に配置される。そして、このようにすれば、首振りローラ53、ホルダ48が整然と配置され、これにより、製作が容易となるとともに、後述する回動機構の構造を簡単とすることができる。   Further, when the swing roller 53 and the holder 48 are installed at the positions as described above, like the rectangular window 45, a part of the swing roller 53 and the holder 48 is formed into the spiral bent portion 12a. Are arranged side by side in the direction of the central axis, and constitute a roller holder group 55. A plurality of such roller / holder groups 55 are arranged apart from each other in the circumferential direction. As a result, the swing roller 53 and the holder 48 are arranged in a grid pattern as a whole. In this way, the swing roller 53 and the holder 48 are arranged in an orderly manner, thereby facilitating the manufacture and simplifying the structure of the rotating mechanism described later.

さらに、前記首振りローラ53の外周には前記帯状部材12が接触しながら螺旋に沿って走行しており、この結果、これら首振りローラ53は帯状部材12の屈曲部12aの内側に該屈曲部12aに沿って設置されていることになり、また、これら首振りローラ53の回転軸線は円筒部材37と同軸である単一の仮想円筒面に対する接線となる。そして、前述のように帯状部材12を首振りローラ53の外周に接触させるようにすると、接触領域が若干の幅がある線接触となって広くなり、帯状部材12に付与される接触痕を低減させることができる。   Further, the belt-like member 12 travels along a spiral while contacting the outer periphery of the swing roller 53, and as a result, the swing roller 53 is located on the inner side of the bent portion 12a of the belt-like member 12. The rotation axis of the swing roller 53 is a tangent to a single virtual cylindrical surface that is coaxial with the cylindrical member 37. When the belt-like member 12 is brought into contact with the outer periphery of the swing roller 53 as described above, the contact area becomes wide as a line contact with a slight width, and the contact mark applied to the belt-like member 12 is reduced. Can be made.

58は円筒体50内に設置された複数、詳しくは前記ローラ・ホルダ群55の群数と同数のラックであり、これらのラック58は該円筒体50の中心軸に沿って延びるとともに、周方向に等距離だけ離れて配置されている。そして、これらラック58は円筒体50の内周にブラケット59を介して取付けられたスライドベアリング60に軸方向に移動可能に支持されている。61は各ホルダ48の半径方向内端に設けられた多数のピニオンであり、これらピニオン61のうち、各ローラ・ホルダ群55を構成する全ホルダ48のピニオン61は、対応する1本のラック58に噛み合っている。   58 is a plurality of racks installed in the cylindrical body 50, more specifically, the same number of racks as the roller holder group 55, and these racks 58 extend along the central axis of the cylindrical body 50, and are arranged in the circumferential direction. Are arranged at equal distances. The racks 58 are supported by a slide bearing 60 attached to the inner periphery of the cylindrical body 50 via brackets 59 so as to be movable in the axial direction. 61 is a large number of pinions provided at the radially inner ends of the holders 48. Of these pinions 61, the pinions 61 of all the holders 48 constituting each roller holder group 55 are one corresponding rack 58. Are engaged.

64は円筒体50の一端部内周に固定された複数、詳しくは前記ローラ・ホルダ群55の群数と同数のモータであり、これらのモータ64の出力軸65には前記ラック58に噛み合うピニオン66が取付けられている。この結果、全てのモータ64が同期作動してラック58が同一方向に等距離だけ同期移動すると、全てのホルダ48は、首振りローラ53の回転軸線を通り、かつ、帯状部材12の屈曲部12aに対する法線である直線を中心として首振りローラ53を回動させ、首振りローラ53の回転軸線に垂直な平面と帯状部材12(屈曲部12a)の走行方向とを平行とする。   64 is a plurality of motors fixed to the inner periphery of one end of the cylindrical body 50, specifically, the same number of motors as the number of groups of the roller holder group 55, and the pinion 66 meshing with the rack 58 on the output shaft 65 of these motors 64 Is installed. As a result, when all the motors 64 are synchronously operated and the racks 58 are synchronously moved in the same direction by an equal distance, all the holders 48 pass through the rotation axis of the swing roller 53 and the bent portion 12a of the belt-like member 12 The swing roller 53 is rotated about a straight line that is a normal to the plane, and the plane perpendicular to the rotation axis of the swing roller 53 and the traveling direction of the belt-like member 12 (bending portion 12a) are made parallel.

前述したラック58、ピニオン61、66、モータ64は全体として、円筒体50が揺動されたとき、前記多数のホルダ48を、首振りローラ53の回転軸線に垂直な平面と帯状部材12(屈曲部12a)の走行方向とが平行となるよう回動させる回動機構69を構成する。このように回動機構69をラック58、ピニオン61、66、モータ64から構成するようにすれば、回動機構69を構造簡単で安価とすることができる。また、前述したホルダ48、円筒体(支持体)50、首振りローラ53、回動機構69は全体として、長手方向に走行する帯状部材12の走行経路上に設置され、該帯状部材12が斜めに掛け回されることで、帯状部材12を螺旋の一部を構成するよう屈曲させながらその走行方向を変更する変更手段70を構成する。   The rack 58, the pinions 61 and 66, and the motor 64 described above as a whole, when the cylindrical body 50 is swung, the multiple holders 48 are arranged so that the plane member perpendicular to the rotation axis of the swing roller 53 and the belt-like member 12 (bending The rotating mechanism 69 is configured to rotate so that the traveling direction of the portion 12a) is parallel. If the rotation mechanism 69 is constituted by the rack 58, the pinions 61 and 66, and the motor 64 in this way, the structure of the rotation mechanism 69 can be simple and inexpensive. In addition, the holder 48, the cylindrical body (support body) 50, the swing roller 53, and the rotation mechanism 69 described above are installed on the traveling path of the strip member 12 that travels in the longitudinal direction, and the strip member 12 is inclined. The change means 70 is configured to change the traveling direction while bending the belt-like member 12 so as to form a part of the spiral.

次に、前記実施例1の作用について説明する。
今、第1コンベア11が作動し、カレンダー装置によってゴム被覆された直後の帯状部材12がそのまま前方に向かって搬送されているとする。このとき、第1コンベア11の下流端から送り出された帯状部材12は、第1コンベア11に対して傾斜している円筒体50に向かって走行した後、円筒体50の周囲に約半周だけ斜めに掛け回され、これにより、首振りローラ53の外周に接触している帯状部材12は螺旋の一部を構成するよう屈曲しながらその走行方向が反転( 180度変更)されるとともに、交差角Kだけ傾斜した状態で第2コンベア15に向かうよう変更される。その後、該帯状部材12は一対の送り込みローラ18によって第2コンベア15の上流端部上に送り込まれる。
Next, the operation of the first embodiment will be described.
Now, it is assumed that the first conveyor 11 is operated and the belt-like member 12 immediately after being covered with rubber by the calendar device is being conveyed forward as it is. At this time, the belt-like member 12 sent out from the downstream end of the first conveyor 11 travels toward the cylindrical body 50 inclined with respect to the first conveyor 11, and then is slanted about half a circumference around the cylindrical body 50. As a result, the belt-like member 12 that is in contact with the outer periphery of the swing roller 53 is bent so as to form a part of the spiral, and its traveling direction is reversed (changed 180 degrees), and the crossing angle It changes so that it may go to the 2nd conveyor 15 in the state inclined only K. Thereafter, the belt-like member 12 is fed onto the upstream end of the second conveyor 15 by a pair of feed rollers 18.

そして、帯状部材12が第2コンベア15上に所定の送り込み角度Aで一定長だけ送り込まれると、該帯状部材12の始端部を切断手段19により斜め切断角度Sで斜め切断しシート片20を切り出す。このとき、円筒体(支持体)50に回動可能に支持された多数のホルダ48および該ホルダ48に回転可能に支持された多数の首振りローラ53は、回動機構69により、帯状部材12の屈曲部12aに対する法線を中心として、首振りローラ53の回転軸線に垂直な平面と帯状部材12(屈曲部12a)の走行方向とが平行となるよう回動されているため、帯状部材12が前述のような粘着性を有する帯状ゴムであっても、該帯状部材12は幅方向(螺旋の中心軸方向)にずれることなく、また、変更手段70(首振りローラ53)から摩擦抵抗を殆ど受けることなく走行方向が変更される。   When the belt-like member 12 is fed onto the second conveyor 15 by a predetermined feed angle A for a certain length, the starting end portion of the belt-like member 12 is obliquely cut at the oblique cutting angle S by the cutting means 19 and the sheet piece 20 is cut out. . At this time, a large number of holders 48 rotatably supported by the cylindrical body (support body) 50 and a large number of swing rollers 53 rotatably supported by the holders 48 are moved by the rotation mechanism 69 to the belt-like member 12. Since the plane perpendicular to the rotation axis of the swing roller 53 and the running direction of the strip member 12 (bend portion 12a) are rotated about the normal to the bent portion 12a, the strip member 12 is rotated. Even if it is a band-like rubber having an adhesive property as described above, the band-like member 12 does not shift in the width direction (in the direction of the central axis of the helix), and the friction resistance is changed from the changing means 70 (swing roller 53). The traveling direction is changed with little reception.

このようにカレンダー装置によってゴム被覆された直後の帯状部材12をそのまま変更手段70に供給して走行方向を変更し、その後、切断するようにしたので、該帯状部材12をゴム被覆の直後に一旦ロール状に巻き取り、その後、該ロールから巻き出して切断する場合に比較し、巻き取り、巻き出し用の装置が不要となって製作費が安価となるとともに、巻取った状態で保管することによる巻き癖等の品質低下を防止することができる。   In this way, the belt-like member 12 immediately after being rubber-coated by the calender device is supplied to the changing means 70 as it is to change the running direction, and then cut. Compared with the case of winding in a roll and then unwinding and cutting from the roll, a winding and unwinding device is not required and the production cost is reduced, and it is stored in a wound state. It is possible to prevent quality degradation such as curl due to.

前述のように切断手段19によって切り出されたシート片20は第2コンベア15によって下流側に搬送された後、接合手段22によって接合されて帯状プライ23に成形される。その後、帯状プライ23は第2コンベア15によって搬送された後、所定長に切断されて成形ドラムにベルトプライとして巻き付けられたり、あるいは、一旦ロール状に巻き取られた後、巻き出されるとともに所定長に切断され成形ドラムにベルトプライとして巻き付けられる。   The sheet piece 20 cut out by the cutting means 19 as described above is conveyed downstream by the second conveyor 15, and then joined by the joining means 22 to be formed into the belt-like ply 23. Thereafter, the belt-like ply 23 is transported by the second conveyor 15 and then cut into a predetermined length and wound around a forming drum as a belt ply. Alternatively, the belt-like ply 23 is once wound up in a roll shape and then unwound and has a predetermined length. And is wound around a forming drum as a belt ply.

次に、帯状部材12の斜め切断角度Sを、例えば図5に示すような小角度に変更する場合には、シリンダ40のピストンロッド41を突出させ、垂直ポスト35を中心として円筒体50を走行方向変更前の帯状部材12に平行な平面内において、図1の反時計回りに揺動させ、走行方向変更前の帯状部材12と走行方向変更後の帯状部材12との間の交差角Kを小角度に変更する。なお、このときの円筒体50の揺動角度は、前記交差角Kの変更角度(変更後の交差角Kから変更前の交差角Kを減じた角度)の 1/2である。   Next, when the oblique cutting angle S of the belt-like member 12 is changed to a small angle as shown in FIG. 5, for example, the piston rod 41 of the cylinder 40 is protruded and the cylindrical body 50 travels around the vertical post 35. 1 is swung counterclockwise in a plane parallel to the belt-like member 12 before the direction change, and an intersection angle K between the belt-like member 12 before the traveling direction change and the belt-like member 12 after the traveling direction change is set. Change to a small angle. The swing angle of the cylindrical body 50 at this time is ½ of the change angle of the crossing angle K (the angle obtained by subtracting the crossing angle K before the change from the crossing angle K after the change).

このとき、駆動モータ31によりねじ軸30を回転させて移動プレート27、円筒体50をレール26に沿って前方に一体的に移動させるとともに、円筒体50の移動に同調させて第1コンベア11を作動することで、第1コンベア11から帯状部材12を円筒体50に向かって送り出し、また、ガイドプレート16、送り込みローラ18、接合手段22の角度および位置を斜め切断角度S(送り込み角度A)の変更に追従して調節する。   At this time, the screw shaft 30 is rotated by the drive motor 31 so that the moving plate 27 and the cylindrical body 50 are integrally moved forward along the rail 26, and the first conveyor 11 is moved in synchronization with the movement of the cylindrical body 50. By operating, the belt-like member 12 is sent from the first conveyor 11 toward the cylindrical body 50, and the angle and position of the guide plate 16, the feeding roller 18, and the joining means 22 are set to the oblique cutting angle S (feeding angle A). Adjust to follow changes.

また、このとき、回動機構69により各ホルダ48、首振りローラ53を帯状部材12の屈曲部12aに対する法線を中心として、首振りローラ53の回転軸線に垂直な平面と帯状部材12(屈曲部12a)の走行方向とが平行となるよう、即ち屈曲部12aのリード角の変更分だけ回動させる。この結果、前述のように円筒体50が揺動しても、帯状部材12は変更手段70(首振りローラ53)から摩擦抵抗を殆ど受けることなく、また、幅方向にずれることなく走行することができる。   Further, at this time, the rotating mechanism 69 causes the holder 48 and the swinging roller 53 to have a plane perpendicular to the rotation axis of the swinging roller 53 and the strip-shaped member 12 (bending) around the normal to the bending portion 12a of the strip-shaped member 12. The portion 12a) is rotated by the amount corresponding to the change in the lead angle of the bent portion 12a so that the traveling direction of the portion 12a) is parallel. As a result, even when the cylindrical body 50 swings as described above, the belt-like member 12 travels without receiving frictional resistance from the changing means 70 (swing roller 53) and without shifting in the width direction. Can do.

このように帯状部材12の斜め切断角度Sを変更するときには、小型部品である円筒体50およびホルダ48、首振りローラ53をそれぞれシリンダ40、回動機構69により揺動、回動させるだけで良いため、作業を短時間で簡単に行うことができ、作業能率が向上するとともに、設置スペースも狭いもので充分であり、省スペース化を図ることもできる。   In this way, when changing the oblique cutting angle S of the belt-like member 12, the cylindrical body 50, the holder 48, and the swing roller 53, which are small parts, may be simply swung and rotated by the cylinder 40 and the rotation mechanism 69, respectively. Therefore, the work can be easily performed in a short time, the work efficiency can be improved, the installation space is narrow, and the space can be saved.

なお、前述の実施例においては、帯状部材12を円筒体50の周囲に半周( 180度)だけ掛け回すようにしたが、この発明においては、例えば 1/4周(90度)だけ掛け回して下方に方向転換させ、その後、該円筒体50の直下に配置され該円筒体50と平行に延びるガイドローラに 1/4周(90度)だけ接触させて帯状部材12の走行方向を反転させるようにしてもよい。また、前述の実施例においては、斜め切断角度Sを変更する際、接離手段42によって円筒体50を第1コンベア11に対し接近離隔させるようにしたが、この発明においては、円筒体50と第1コンベア11との間の距離を一定とする一方、交差角Kの変更に合わせて切断手段19を第2コンベア15の搬送方向に移動させ、対応するようにしてもよい。     In the above-described embodiment, the belt-like member 12 is hung around the cylindrical body 50 by a half turn (180 degrees). However, in the present invention, for example, it is hung by a quarter turn (90 degrees). The direction of the belt-shaped member 12 is reversed by changing the direction downward, and then contacting the guide roller disposed just under the cylindrical body 50 and extending in parallel with the cylindrical body 50 by 1/4 turn (90 degrees). It may be. In the above-described embodiment, when changing the oblique cutting angle S, the cylindrical body 50 is moved closer to and away from the first conveyor 11 by the contact / separation means 42. In the present invention, While making the distance from the first conveyor 11 constant, the cutting means 19 may be moved in the transport direction of the second conveyor 15 in accordance with the change of the crossing angle K, so as to respond.

さらに、前述の実施例においては、カレンダー装置によってゴム被覆した直後の帯状部材12をそのまま変更手段70に供給するようにしたが、この発明においては、前記帯状部材を一旦ロール状に巻き取り、必要に応じて該ロールから巻き出して変更手段に供給するようにしてもよい。また、前述の実施例においては、支持体(円筒体)50を、円筒部材37と、該円筒部材37の内周に固定された多数のブラケット47とから構成したが、この発明においては、支持体を、円筒部材または多角柱状部材と、該円筒部材または多角柱状部材の外周に固定された多数のブラケットから構成するようにしてもよい。   Further, in the above-described embodiment, the belt-like member 12 immediately after being rubber-coated by the calender device is supplied to the changing means 70 as it is. However, in the present invention, the belt-like member is once wound up in a roll shape and necessary. Depending on the situation, it may be unwound from the roll and supplied to the changing means. In the embodiment described above, the support body (cylindrical body) 50 is composed of the cylindrical member 37 and a number of brackets 47 fixed to the inner periphery of the cylindrical member 37. You may make it comprise a body from a cylindrical member or a polygonal columnar member, and many brackets fixed to the outer periphery of this cylindrical member or a polygonal columnar member.

さらに、前述の実施形態においては、回動機構69をラック58、ピニオン61、66、モータ64から構成したが、この発明においては、各ホルダの半径方向内端に設けられた多数のウォームホイールと、各ローラ・ホルダ群を構成する全ホルダのウォームホイールに噛み合うウォームが外周に形成された軸方向に延びる複数のウォーム軸と、該ウォーム軸に回転駆動力を付与する複数のモータとから構成してもよい。なお、このとき、前記モータを1個だけとするとともに、各ウォーム軸にプーリを取付け、前記1個のモータの出力軸に固定されたプーリと前記各ウォーム軸のプーリとにタイミングベルトを掛け渡してウォーム軸を同期回転させるようにしてよい。   Further, in the above-described embodiment, the rotation mechanism 69 is configured by the rack 58, the pinions 61 and 66, and the motor 64. However, in the present invention, a large number of worm wheels provided at the radially inner ends of the holders and A plurality of worm shafts extending in the axial direction with worms meshing with worm wheels of all the holders constituting each roller / holder group, and a plurality of motors for applying a rotational driving force to the worm shafts. May be. At this time, only one motor is used, a pulley is attached to each worm shaft, and a timing belt is passed between the pulley fixed to the output shaft of the one motor and the pulley of each worm shaft. The worm shaft may be rotated synchronously.

この発明は、帯状部材を走行させながら方向を変更した後、斜め切断する産業分野に適用できる。   The present invention can be applied to the industrial field in which the direction is changed while the belt-shaped member is traveled and then obliquely cut.

この発明の実施例1を示す概略平面図である。1 is a schematic plan view showing Embodiment 1 of the present invention. 図1のI−I矢視断面図である。It is II sectional view taken on the line of FIG. 図2のII−II矢視断面図である。It is II-II arrow sectional drawing of FIG. 図3のIII−III矢視断面図である。It is the III-III arrow sectional drawing of FIG. 帯状部材の斜め切断角度を変更した状態を説明する概略平面図である。It is a schematic plan view explaining the state which changed the diagonal cutting angle of the strip | belt-shaped member.

符号の説明Explanation of symbols

12…帯状部材 12a…屈曲部
15…コンベア 19…切断手段
20…シート片 40…角度変更手段
45…窓 48…ホルダ
50…支持体(円筒体) 53…首振りローラ
55…ローラ・ホルダ群 58…ラック
61…ピニオン 64…モータ
65…出力軸 66…ピニオン
69…回動機構 70…変更手段
S…斜め切断角度 K…交差角
12 ... strip member 12a ... bent portion
15 ... Conveyor 19 ... Cutting means
20 ... sheet piece 40 ... angle changing means
45 ... Window 48 ... Holder
50 ... support (cylindrical) 53 ... swing roller
55 ... Roller holder group 58 ... Rack
61 ... Pinion 64 ... Motor
65 ... Output shaft 66 ... Pinion
69 ... Rotating mechanism 70 ... Changing means S ... Diagonal cutting angle K ... Crossing angle

Claims (5)

帯状部材を長手方向に走行させながら該帯状部材の走行経路上に設置された変更手段に斜めに掛け回すことで、帯状部材を螺旋の一部を構成するよう屈曲させながらその走行方向を変更させた後、該帯状部材の始端部を切断手段により長手方向に対して斜め切断してシート片を切り出し、該切り出されたシート片をコンベアにより下流側に向かって搬送するようにするとともに、角度変更手段によって前記変更手段を走行方向変更前の帯状部材に平行な平面内で揺動させることで、走行方向変更前の帯状部材と走行方向変更後の帯状部材との間の交差角を変更し、切断手段による帯状部材の斜め切断角度を変更したとき、前記変更手段を構成する、帯状部材の屈曲部の内側に該屈曲部に沿って設置され、外周を前記帯状部材が接触しながら走行する多数の回転可能な首振りローラと、各首振りローラを回転可能に支持するとともに、前記屈曲部に対する法線を中心として回動できるよう支持体に支持された多数のホルダとを、回動機構により首振りローラの回転軸線に垂直な平面と帯状部材の走行方向とが平行となるよう回動させるようにしたことを特徴とする帯状部材の搬送切断方法。     While the belt-like member is traveling in the longitudinal direction, the running direction is changed while the belt-like member is bent so as to form a part of a spiral by being obliquely hung on the changing means installed on the travel route of the belt-like member. After that, the starting end of the belt-shaped member is cut obliquely with respect to the longitudinal direction by a cutting means to cut out a sheet piece, and the cut sheet piece is conveyed toward the downstream side by a conveyor, and the angle is changed. By swinging the changing means in a plane parallel to the belt-like member before the traveling direction change by means, the crossing angle between the belt-like member before the traveling direction change and the belt-like member after the traveling direction change, When the oblique cutting angle of the band-shaped member by the cutting means is changed, the belt is installed along the bent portion inside the bent portion of the band-shaped member constituting the change means, and the belt-shaped member runs while contacting the outer periphery. A plurality of rotatable swinging rollers, and a plurality of holders supported by the support so as to be rotatable about a normal to the bent portion A method of conveying and cutting a belt-shaped member, characterized in that the mechanism rotates the plane perpendicular to the rotation axis of the swing roller so that the traveling direction of the belt-shaped member is parallel. 長手方向に走行する帯状部材の走行経路上に設置され、該帯状部材が斜めに掛け回されることで、帯状部材を螺旋の一部を構成するよう屈曲させながらその走行方向を変更する変更手段と、走行方向変更後の帯状部材の始端部を長手方向に対して斜め切断してシート片を切り出す切断手段と、該切り出されたシート片を下流側に向かって搬送するコンベアと、前記変更手段を走行方向変更前の帯状部材に平行な平面内で揺動させることで、走行方向変更前の帯状部材と走行方向変更後の帯状部材との間の交差角を変更して、切断手段による帯状部材の斜め切断角度を変更する角度変更手段とを備え、前記変更手段は、帯状部材の屈曲部の内側に該屈曲部に沿って設置され、外周を前記帯状部材が接触しながら走行する多数の回転可能な首振りローラと、各首振りローラを回転可能に支持するとともに、前記屈曲部に対する法線を中心として回動可能な多数のホルダと、前記螺旋の中心軸に沿って延び、前記多数のホルダを回動可能に支持する支持体と、変更手段が揺動されたとき、前記多数のホルダを、首振りローラの回転軸線に垂直な平面と帯状部材の走行方向とが平行となるよう回動させる回動機構を有することを特徴とする帯状部材の搬送切断装置。     Changing means for changing the traveling direction of the belt-shaped member that is installed on the traveling route of the belt-shaped member that travels in the longitudinal direction and that the belt-shaped member is slanted so as to bend so as to form a part of the spiral. Cutting means for obliquely cutting the starting end of the belt-like member after changing the running direction with respect to the longitudinal direction to cut out the sheet piece, a conveyor for conveying the cut sheet piece toward the downstream side, and the changing means Is swung in a plane parallel to the belt-like member before the traveling direction change, thereby changing the crossing angle between the belt-like member before the traveling direction change and the belt-like member after the traveling direction change, and by the cutting means Angle changing means for changing the oblique cutting angle of the member, and the changing means is installed along the bent portion inside the bent portion of the belt-shaped member, and travels while the belt-shaped member is in contact with the outer periphery of the belt-shaped member. Rotatable head swing A plurality of holders that can rotate about the normal to the bent portion, and extend along the central axis of the spiral. When the support member movably supported and the changing means are swung, the plurality of holders are rotated so that the plane perpendicular to the rotation axis of the swing roller and the traveling direction of the belt-like member are parallel to each other. A belt-shaped member conveying and cutting device comprising a moving mechanism. 前記首振りローラ、ホルダを前記螺旋の中心軸方向に複数個並べて配置することでローラ・ホルダ群を構成するとともに、該ローラ・ホルダ群を周方向に離して複数個配置するようにした請求項2記載の帯状部材の搬送切断装置。     A roller holder group is formed by arranging a plurality of the swinging rollers and holders in the direction of the central axis of the spiral, and a plurality of the roller holder groups are arranged apart in the circumferential direction. 3. A device for conveying and cutting strip-like members according to item 2. 前記支持体を前記螺旋の中心軸と同軸の非回転である円筒体から構成するとともに、該円筒体に多数の貫通した窓を形成し、該窓から首振りローラの半径方向外端部を外側に突出させるようにした請求項2記載の帯状部材の搬送切断装置。     The support is composed of a non-rotating cylindrical body coaxial with the central axis of the spiral, and a number of through windows are formed in the cylindrical body, and the radially outer end portion of the swing roller is formed outside the window. The belt-like member conveying and cutting device according to claim 2, wherein the belt-like member is made to project. 前記回動機構を、各ホルダに設けられたピニオンと、各ローラ・ホルダ群を構成する全ホルダのピニオンに噛み合い、軸方向に延びる複数のラックと、該ラックに噛み合うピニオンが出力軸に取付けられた複数のモータとから構成した請求項3記載の帯状部材の搬送切断装置。     The rotating mechanism meshes with pinions provided in each holder and pinions of all holders constituting each roller / holder group, and a plurality of racks extending in the axial direction and a pinion meshing with the racks are attached to the output shaft. The belt-shaped member conveying and cutting device according to claim 3, comprising a plurality of motors.
JP2004129309A 2004-04-26 2004-04-26 Method and apparatus for conveying and cutting strip member Expired - Fee Related JP4201736B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2004129309A JP4201736B2 (en) 2004-04-26 2004-04-26 Method and apparatus for conveying and cutting strip member

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2004129309A JP4201736B2 (en) 2004-04-26 2004-04-26 Method and apparatus for conveying and cutting strip member

Publications (2)

Publication Number Publication Date
JP2005306588A true JP2005306588A (en) 2005-11-04
JP4201736B2 JP4201736B2 (en) 2008-12-24

Family

ID=35435779

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2004129309A Expired - Fee Related JP4201736B2 (en) 2004-04-26 2004-04-26 Method and apparatus for conveying and cutting strip member

Country Status (1)

Country Link
JP (1) JP4201736B2 (en)

Also Published As

Publication number Publication date
JP4201736B2 (en) 2008-12-24

Similar Documents

Publication Publication Date Title
EP1687225B1 (en) Web guide and method
FI77433B (en) UPPRULLNINGSMASKIN FOER BANOR, SAERSKILT PAPPERSBANOR.
FI75786B (en) FOERFARANDE ATT KAPA EN MATERIALBANA SAMT ANORDNING FOER GENOMFOERANDE AV FOERFARANDET.
US10000351B2 (en) Splicer device
JP5121835B2 (en) Method and apparatus for producing unvulcanized tire
JP5681794B2 (en) Belt junction conveyor
US1939581A (en) Machine for making spiral pipe
CN107364751A (en) The machine and method of winding band with transverse cuts and anchor
JP2008280159A (en) Paperboard supply device
US9604788B2 (en) Freewheel assist for a spiral conveyor belt system
JP4201736B2 (en) Method and apparatus for conveying and cutting strip member
JP4208746B2 (en) Method and apparatus for conveying and cutting strip member
ITFI20070230A1 (en) &#34;TUBE WITH A MAGNETIC SUPPORT FOR THE WINDING SPINDLE&#34;
JP2012041171A (en) Method and device for folding/loading belt-like rubber member
US2536412A (en) Feed table
JP5006767B2 (en) Method and apparatus for conveying and winding a rubbery sheet
CN210709241U (en) Belt storage bin with belt turning structure and tunnel belt conveyor
JP6584163B2 (en) Branching device
JP4576987B2 (en) Branch equipment
KR101536729B1 (en) Pinting object sevicing-discharging device
KR102219005B1 (en) Slitter for cutting cord band
JP2005280941A (en) Wire winding device
JP2009214202A (en) Cutting device, and rotary press provided with it
JP6419630B2 (en) Direction changing mechanism and roller conveyor device
CN216129085U (en) Rewinding machine convenient to switch between cored and coreless working modes

Legal Events

Date Code Title Description
A621 Written request for application examination

Effective date: 20061222

Free format text: JAPANESE INTERMEDIATE CODE: A621

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20080926

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Effective date: 20081007

Free format text: JAPANESE INTERMEDIATE CODE: A01

A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20081007

R150 Certificate of patent (=grant) or registration of utility model

Free format text: JAPANESE INTERMEDIATE CODE: R150

FPAY Renewal fee payment (prs date is renewal date of database)

Free format text: PAYMENT UNTIL: 20111017

Year of fee payment: 3

LAPS Cancellation because of no payment of annual fees