JPH10109824A - Fishline winding device - Google Patents

Fishline winding device

Info

Publication number
JPH10109824A
JPH10109824A JP26730596A JP26730596A JPH10109824A JP H10109824 A JPH10109824 A JP H10109824A JP 26730596 A JP26730596 A JP 26730596A JP 26730596 A JP26730596 A JP 26730596A JP H10109824 A JPH10109824 A JP H10109824A
Authority
JP
Japan
Prior art keywords
winding
fishing line
line
feeding
core
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
JP26730596A
Other languages
Japanese (ja)
Other versions
JP3121547B2 (en
Inventor
Fujita Kimura
冨士太 木村
Takeo Yamamoto
武男 山元
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.)
Individual
Original Assignee
Individual
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 Individual filed Critical Individual
Priority to JP08267305A priority Critical patent/JP3121547B2/en
Publication of JPH10109824A publication Critical patent/JPH10109824A/en
Application granted granted Critical
Publication of JP3121547B2 publication Critical patent/JP3121547B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H54/00Winding, coiling, or depositing filamentary material
    • B65H54/02Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers
    • B65H54/10Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers for making packages of specified shapes or on specified types of bobbins, tubes, cores, or formers
    • B65H54/20Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers for making packages of specified shapes or on specified types of bobbins, tubes, cores, or formers forming multiple packages
    • B65H54/205Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers for making packages of specified shapes or on specified types of bobbins, tubes, cores, or formers forming multiple packages the winding material being continuously transferred from one bobbin to the adjacent one
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2701/00Handled material; Storage means
    • B65H2701/30Handled filamentary material
    • B65H2701/35Ropes, lines
    • B65H2701/355Fishlines

Landscapes

  • Winding Filamentary Materials (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a fishline winding device which is capable of forming a single winding layer without generating overlap winding or a clearance at the core of a small-type spool even if the diameter of a fishline is changed. SOLUTION: A fishline feeding arm 18 is rotatably-fitted onto a fishline feeding base 14 which reciprocates along the core 17 of a small-type spool 5 which conducts winding, and a controller 26 is provided, which controls the feeding speed of the fishline feeding base 14 according to the angle of the fishline feeding arm 18. The angle of the fishline feeding arm 18 can be detected by a permanent magnet fitted at the rear end part of the fishline feeding arm 18, and a sensor 25 fitted onto the fishline feeding base 14, so that the fishline feeding angle is kept in an allowable limit by controlling the rotational speed of a driving motor 15 of the fishline feeding base 14 according to the detected results. It is thus possible to form a single winding layer 20 without generating overlap winding or a clearance at the core 17 of a small-type spool regardless of the fishline diameter.

Description

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

【0001】[0001]

【発明が属する技術分野】本発明は、大型スプールから
繰り出される釣糸を、回転軸上で連結した多数の小型ス
プールに順番に釣糸を小分け巻きする釣糸巻取り装置に
関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fishing line winding device for sequentially winding a fishing line from a large spool on a plurality of small spools connected on a rotating shaft.

【0002】[0002]

【従来の技術】釣糸は、メーカーから大型スプールに巻
かれて供給されたものから、所定の長さごとに小型スプ
ールに小分け巻きした形態で市販されている。2. Description of the Related Art Fishing lines are commercially available in the form of being wound on a large spool from a manufacturer and then divided into small spools at predetermined lengths.

【0003】大型スプールに巻かれた釣糸を多数の小型
スプールに小分け巻きするための釣糸巻取り装置は、回
転軸上で連結した小型スプールを回転駆動し、給糸台か
ら供給される釣糸を小型スプールの巻芯に巻取る巻取り
機構と、巻取りが行われる小型スプールの巻芯上で供給
される釣糸を回転軸方向に往復移動させるため、小型ス
プールと給糸台とを巻取り機構の回転軸方向に相対移動
させる送り機構とを備えている。[0003] A fishing line take-up device for dividing and winding a fishing line wound on a large spool into a number of small spools is configured to rotate a small spool connected on a rotating shaft to reduce the size of the fishing line supplied from a line feeder. A winding mechanism for winding the spool on the core of the spool, and a small spool and a line feed table for reciprocating the fishing line supplied on the core of the small spool on which the winding is performed in the rotation axis direction. A feed mechanism for relatively moving in the direction of the rotation axis.

【0004】上記巻取り機構を駆動して小型スプールを
回転させた状態で、送り機構を駆動して、巻取りが行わ
れる小型スプールの巻芯に沿って巻芯の幅だけ給糸台を
往復移動しながら釣糸を供給することにより、小型スプ
ールの巻芯上に釣糸の巻層が形成される。小型スプール
の巻芯に所定長さの釣糸が巻取られると巻取りが終了
し、給糸台が隣接する次の小型スプールに移動して同様
の往復移動により次の巻取りを行う。In a state where the small spool is rotated by driving the winding mechanism, the feeding mechanism is driven to reciprocate the yarn feeding table by the width of the core along the core of the small spool on which winding is performed. By supplying the fishing line while moving, a winding layer of the fishing line is formed on the winding core of the small spool. When a fishing line of a predetermined length is wound on the winding core of the small spool, the winding is completed, the line feed table moves to the next adjacent small spool, and the next winding is performed by the same reciprocating movement.

【0005】このような釣糸巻取り装置では、小型スプ
ールの巻芯上に釣糸が隙間なく整列して巻取られるよ
う、小型スプールの巻芯に対して釣糸がほぼ直角に供給
され、釣糸の直径に応じて、小型スプールの回転速度と
給糸台の送り速度とが設定されている。即ち、小型スプ
ールが1回転する間に給糸台が釣糸の直径と等しい距離
だけ送られるように設定し、小型スプールが所定回数だ
け回転して1層目の巻取りが終わると、給糸台の送り方
向を逆転させて2層目の巻取りを行うようにしている。In such a fishing line winding device, the fishing line is supplied substantially at right angles to the winding core of the small spool so that the fishing line is wound on the winding core of the small spool without any gap, and the diameter of the fishing line is reduced. , The rotation speed of the small spool and the feed speed of the yarn feeder are set. That is, the line feeder is set so as to be fed by a distance equal to the diameter of the fishing line during one rotation of the small spool, and when the small spool is rotated a predetermined number of times and the winding of the first layer is completed, the line feeder is set. Is reversed so that the second layer is wound up.

【0006】[0006]

【発明が解決しようとする課題】しかし、釣糸の直径に
は変動があるため、小型スプールの回転速度と給糸台の
送り速度が上記のように設定されていても、釣糸の直径
が設定値と異なる場合には、釣糸の巻層先端の移動速度
と給糸台の送り速度の間に差が生じる。However, since the diameter of the fishing line fluctuates, even if the rotation speed of the small spool and the feed speed of the line feeder are set as described above, the diameter of the fishing line is not equal to the set value. If it is different from the above, there is a difference between the moving speed of the leading end of the fishing line and the feed speed of the line feeder.

【0007】釣糸の直径が設定値より大きい場合には、
巻層の先端が先行し、給糸台の給糸口から供給される釣
糸の給糸角度(巻芯に直角な方向に対する釣糸の遅れ角
度)が許容限度以上になると、巻層の先端で釣糸が先に
巻付けられた釣糸に乗り上げて重ね巻きが発生する。ま
た釣糸の直径が設定値より小さい場合には、給糸台の給
糸口が先行するため釣糸が互いに離れた状態で巻芯上に
巻き付けられ、隙間のある巻層が形成される。When the diameter of the fishing line is larger than the set value,
When the leading end of the winding layer advances and the line feeding angle (lag angle of the fishing line with respect to the direction perpendicular to the winding core) of the fishing line supplied from the yarn feeding port of the line feeding table exceeds the allowable limit, the fishing line is Overlapping occurs when riding on the previously wound fishing line. When the diameter of the fishing line is smaller than the set value, the fishing line is wound on the core in a state where the line is separated from each other because the line feeder of the line feeder is ahead, and a winding layer with a gap is formed.

【0008】巻層で重ね巻きが発生すると、その上の巻
かれる釣糸は、直径の大きい部分に移動して巻付く傾向
にあるため、釣糸の給糸角度が許容限度内にあっても巻
層に乱れが発生する。また巻層に隙間が形成されると、
その上に巻かれる釣糸が隙間に食い込んで巻層に乱れが
発生する。これらの乱れは巻層を重ねるに従って増大
し、小型スプールに小分け巻された釣糸の商品価値が低
下する。When lap winding occurs in the wound layer, the fishing line wound thereon tends to move to a portion having a large diameter and be wound around the winding line. Therefore, even if the line feeding angle of the fishing line is within the allowable limit, the wound layer is wound. Is disturbed. When a gap is formed in the winding layer,
The fishing line wound thereon cuts into the gap, and the winding layer is disturbed. These disturbances increase as the winding layers are piled up, and the commercial value of the fishing line divided and wound on the small spool decreases.

【0009】本発明の課題は、釣糸の直径が変化して
も、重ね巻きや隙間のない巻層が形成できる釣糸巻取り
装置を提供することである。An object of the present invention is to provide a fishing line winding device capable of forming a winding layer having no overlapping winding and no gap even if the diameter of the fishing line changes.

【0010】[0010]

【課題を解決するための手段】本発明の釣糸巻取り装置
は、請求項1に記載のとおり、回転軸上で連結した小型
スプールを回転駆動し、給糸台から供給される釣糸を小
型スプールの巻芯に巻取る巻取り機構と、巻取りが行わ
れる小型スプールの巻芯上で釣糸を回転軸方向に往復移
動させるため、小型スプールと給糸台とを巻取り機構の
回転軸方向に相対移動させる送り機構を備え、回転する
小型スプールの巻芯上に供給される釣糸を巻芯の幅だけ
往復移動させて小型スプールの巻芯上に釣糸の巻層を形
成する釣糸巻取り装置において、前記給糸台に、先端に
給糸口を有し前記相対移動方向に旋回な給糸アームを設
け、この給糸アームの角度に応じて前記送り機構の送り
速度を制御する制御装置装置を設けたことを特徴として
いる。According to a first aspect of the present invention, there is provided a fishing line winding device for driving a small spool connected on a rotating shaft to rotate a small fishing line supplied from a line feeder. In order to reciprocate the fishing line in the rotation axis direction on the winding core of the small spool where the winding is performed, the small spool and the line feed table are moved in the rotation axis direction of the winding mechanism. A fishing line winding device that includes a feed mechanism for relatively moving the fishing line and reciprocates the fishing line supplied on the core of the rotating small spool by the width of the core to form a winding layer of the fishing line on the core of the small spool. A yarn feeding arm having a yarn feeding port at a tip thereof, the yarn feeding arm being pivotable in the relative movement direction, and a control device for controlling a feeding speed of the feeding mechanism in accordance with an angle of the yarn feeding arm. It is characterized by that.

【0011】上記の構成によると、釣糸の直径の設定値
との違いにより、巻層先端の移動速度と送り機構の送り
速度の間に差が生じると、その速度差が給糸アームの角
度変化として現れる。従って、給糸アームの角度に応じ
て送り機構の送り速度を制御することにより、上記のよ
うな巻層の乱れを防止することができる。According to the above construction, if a difference between the moving speed of the leading end of the winding layer and the feed speed of the feed mechanism occurs due to a difference from the set value of the diameter of the fishing line, the speed difference is caused by the angle change of the line feed arm. Appear as. Therefore, by controlling the feed speed of the feed mechanism according to the angle of the yarn feeding arm, it is possible to prevent the above-described disturbance of the winding layer.

【0012】釣糸巻取り装置が、請求項2に記載のとお
り、巻取り機構の回転軸方向に移動する給糸台を備えて
いる場合には、前記の送り速度は給糸台の移動速度とな
る。上記の制御については、請求項3に記載のとおり、
巻芯に対する釣糸の給糸角度αを許容限度内に維持する
ように、送り機構の送り速度を制御すればよい。給糸角
度α(巻芯に直角な方向からの釣糸の遅れ角度)の許容
限度は、給糸角度αが0゜以上で且つ巻層の先端で重ね
巻が発生しない角度である。給糸角度αの許容限度角
は、対応する給糸アームの角度で検知することができ
る。In a case where the fishing line winding device includes a line feeder that moves in the direction of the rotation axis of the winding mechanism, the feed speed is equal to the moving speed of the line feeder. Become. Regarding the above control, as described in claim 3,
The feed speed of the feed mechanism may be controlled so that the line feed angle α of the fishing line with respect to the winding core is maintained within an allowable limit. The allowable limit of the line feeding angle α (the angle of delay of the fishing line from a direction perpendicular to the winding core) is an angle at which the line feeding angle α is 0 ° or more and lap winding does not occur at the leading end of the winding layer. The allowable limit angle of the yarn feeding angle α can be detected by the angle of the corresponding yarn feeding arm.

【0013】前記給糸角度αの許容限度は、例えば、請
求項4に記載のとおり、給糸アーム側に設けた永久磁石
と、この永久磁石の位置を検知するための、給糸台側に
設けたセンサによって検知することができる。また、給
糸アームの角度は給糸角度αよりも大きな角度となるた
め、微少な給糸角度αの変化も容易に検知することがで
きる。The permissible limit of the yarn supply angle α is, for example, as described in claim 4, the permanent magnet provided on the yarn supply arm side and the yarn supply table side for detecting the position of this permanent magnet. It can be detected by a provided sensor. Further, since the angle of the yarn supplying arm is larger than the yarn supplying angle α, a slight change in the yarn supplying angle α can be easily detected.

【0014】従って、上記の制御装置は、検知結果に応
じて送り機構の送り速度を制御するだけでなく、請求項
5に記載のとおり、給糸角度αの変化によって巻層の終
点を検知して送り機構の送り方向を逆転させることもで
きる。Therefore, the above-mentioned control device not only controls the feed speed of the feed mechanism in accordance with the detection result, but also detects the end point of the winding layer by changing the yarn feeding angle α. It is also possible to reverse the feed direction of the feed mechanism.

【0015】[0015]

【発明の実施の形態】以下、本発明の実施形態について
図面に基づいて詳細に説明する。Embodiments of the present invention will be described below in detail with reference to the drawings.

【0016】図1、図2に示すように、本発明の釣糸巻
取り装置1は、テーブル2の下方に置かれた大型スプー
ル3から繰り出される釣糸4を多数の小型スプール5に
順番に小分け巻きする装置である。テーブル2上には、
大型スプール3から間欠的に繰り出される釣糸4を一定
張力で連続的に供給する供給機構6、巻取りが行われる
小型スプール6の巻芯上で軸方向に釣糸を往復させるた
めの送り機構7、及び回転軸上で連結された多数の小型
スプール5をモータ8で回転駆動する巻取り機構9を備
えている。As shown in FIGS. 1 and 2, a fishing line winding device 1 according to the present invention winds a fishing line 4 unwound from a large spool 3 placed below a table 2 on a large number of small spools 5 in order. It is a device to do. On table 2,
A supply mechanism 6 for continuously supplying the fishing line 4 intermittently fed from the large spool 3 with a constant tension, a feed mechanism 7 for reciprocating the fishing line in the axial direction on the core of the small spool 6 where winding is performed, And a winding mechanism 9 for rotating a large number of small spools 5 connected on a rotating shaft by a motor 8.

【0017】供給機構6では、アキュムレータ10が大型
スプール3から間欠的に巻取った釣糸4を連続的に繰り
出し、テンショナ11で一定の張力を付与して送り機構7
に供給する。In the supply mechanism 6, the accumulator 10 continuously draws out the fishing line 4 intermittently wound from the large spool 3, applies a constant tension with a tensioner 11, and feeds the fishing line 4.
To supply.

【0018】送り機構7では、巻取り機構9の回転軸12
と平行に設けたレール13上に給糸台14が設置され、正逆
駆動モータ15によって回転駆動されるネジ棒16によって
給糸台14がレール13上を移動して、巻取りが行われる小
型スプールの巻芯17に釣糸4を供給する。給糸台14に
は、図2、3に示すように、その往復移動方向に旋回で
きる給糸アーム18が設けられており、先端の給糸口19か
ら釣糸4を小型スプール5の巻芯17に供給する。In the feed mechanism 7, the rotating shaft 12 of the winding mechanism 9
The yarn feeder 14 is set on a rail 13 provided in parallel with the yarn feeder 14, and the yarn feeder 14 is moved on the rail 13 by a screw rod 16 which is rotationally driven by a forward / reverse drive motor 15 to perform winding. The fishing line 4 is supplied to the spool core 17. As shown in FIGS. 2 and 3, the line feeder 14 is provided with a line feed arm 18 which can be turned in the reciprocating direction of the line feeder. Supply.

【0019】巻取り機構9のモータ8により小型スプー
ル5を回転駆動した状態で、給糸台14が、巻取りが行わ
れる小型スプール6の巻芯17に沿って巻芯17の幅だけ往
復移動しながら巻芯17上に釣糸4を供給することによ
り、小型スプール5の巻芯17上に釣糸4の巻層20が巻き
重ねられる。巻芯17上に所定長さの釣糸4が巻取られる
と巻取りが終了し、給糸台14が隣接する次の小型スプー
ルに移動して同様の往復移動により次の巻取りを行う。While the small spool 5 is driven to rotate by the motor 8 of the winding mechanism 9, the yarn feeder 14 reciprocates by the width of the core 17 along the core 17 of the small spool 6 on which winding is performed. By supplying the fishing line 4 onto the winding core 17, the winding layer 20 of the fishing line 4 is wound on the winding core 17 of the small spool 5. When the fishing line 4 of a predetermined length is wound on the winding core 17, the winding is completed, the line feeder 14 moves to the next small spool adjacent thereto, and the next winding is performed by the same reciprocating movement.

【0020】釣糸4を小分け巻きする小型スプール5
は、図4に示すように、短円筒の巻芯17の両側に端板2
1、22を有し、給糸アーム18の給糸口19から供給される
釣糸4の巻取りは、まず端板21に接した巻芯17の右端か
ら開始され、端板27に向かって図の左方向に1層目の巻
層20が形成されて行く。端板21の外周に釣糸4の滑りを
防止する切り欠き等がない場合には、本出願人の先願
(特願平8-2026号)で開示したガイド棒(図示省略)を
使用して、端板21を越えて移行した釣糸4を端板21の内
側面に押し付けることにより、1層目の巻取りを確実に
巻芯17の右端から開始することができる。Small spool 5 for dividing and winding fishing line 4
As shown in FIG. 4, end plates 2 are provided on both sides of a short cylindrical core 17.
The winding of the fishing line 4 supplied from the yarn feeding port 19 of the fishing line supply arm 18 starts from the right end of the winding core 17 in contact with the end plate 21 and moves toward the end plate 27 as shown in FIG. A first winding layer 20 is formed leftward. When there is no notch or the like on the outer periphery of the end plate 21 for preventing the fishing line 4 from slipping, a guide rod (not shown) disclosed in the prior application (Japanese Patent Application No. 8-2026) of the present applicant is used. By pressing the fishing line 4 having moved beyond the end plate 21 against the inner surface of the end plate 21, the winding of the first layer can be reliably started from the right end of the core 17.

【0021】巻芯17上では、釣糸4の巻取り個所、即ち
巻層20の先端が左方向に移動し、これに合わせて給糸台
14の給糸口19も左方向に移動する。このとき釣糸4の直
径が一定であれば、小型スプール5が1回転する間に給
糸台14が釣糸4の直径に等しい距離だけ送られるように
設定して、巻芯17上では釣糸4が先に巻かれた釣糸と接
して隙間のない1層目の巻層を形成することができる。
そして、小型スプール5が所定の回数だけ回転して給糸
台14が巻芯17の幅だけ送られたとき、駆動モータ15を逆
転して2層目の巻取り開始することができる。On the winding core 17, the winding point of the fishing line 4, that is, the tip of the winding layer 20 moves to the left, and the fishing line 4
The 14 yarn feeders 19 also move to the left. At this time, if the diameter of the fishing line 4 is constant, the line feeder 14 is set so as to be fed by a distance equal to the diameter of the fishing line 4 during one rotation of the small spool 5, and the fishing line 4 is The first wound layer having no gap in contact with the previously wound fishing line can be formed.
When the small spool 5 has been rotated a predetermined number of times and the yarn feeder 14 has been fed by the width of the core 17, the drive motor 15 can be rotated in reverse to start winding the second layer.

【0022】しかし、釣糸4の直径が設定値と異なる場
合には、巻層20の先端の移動速度と給糸台14の送り速度
の間に差が生じ、この速度差によって釣糸の給糸角度α
が許容限度から外れると巻層20に乱れが発生する。即
ち、釣糸4の直径が設定値より大きい場合に、巻層20が
先行して給糸角度αが許容限度以上になると、巻層20の
先端に釣糸4が乗り上げて重ね巻が発生し、その上に巻
かれる釣糸は、釣糸4の給糸角度αが許容限度内にあっ
ても整然と巻取ることができなくなる。また釣糸4の直
径が設定値より小さい場合には、給糸口19が先行して給
糸角度αが0゜以下となると、隙間のある巻層20が形成
されるため、その上に巻かれる釣糸が隙間に食い込んで
次の巻層が乱れることになる。ある巻層でこれらの乱れ
が一旦発生すると、巻層を重ねる従い乱れがますます拡
大される。However, if the diameter of the fishing line 4 is different from the set value, a difference occurs between the moving speed of the leading end of the winding layer 20 and the feed speed of the line feed table 14, and the speed difference causes the line feeding angle of the fishing line. α
Is out of the allowable limit, the winding layer 20 is disturbed. In other words, when the diameter of the fishing line 4 is larger than the set value, if the winding layer 20 precedes and the line feeding angle α exceeds the allowable limit, the fishing line 4 rides on the leading end of the winding layer 20 and lap winding occurs. Even if the line feed angle α of the fishing line 4 is within the allowable limit, the fishing line wound on the upper side cannot be wound up orderly. When the diameter of the fishing line 4 is smaller than the set value, the winding layer 20 having a gap is formed when the line feeding angle α becomes 0 ° or less in advance of the line feeder 19, so that the fishing line wound thereover is formed. Will penetrate into the gaps and the next winding layer will be disturbed. Once these disturbances occur in a given winding layer, the disturbances overlying the winding layers are increasingly magnified.

【0023】本発明の釣糸巻取り装置1では、釣糸4の
直径の変動に起因する巻層20の乱れが防止するため、給
糸台14の送り速度を制御して給糸角度αが許容範囲内に
維持されるようになっている。図2、図3に示すよう
に、給糸アーム18がピン23によって給糸台14に旋回可能
に取り付けられ、小孔状の給糸口19を通じて送られる釣
糸4の張力によって給糸アーム18は給糸台14の送り方向
に旋回する。給糸口19は、釣糸4の張力によって給糸ア
ーム18を旋回駆動するものであれば、小孔以外に溝、滑
車等も使用できる。給糸アーム18の後端には永久磁石24
が取り付けられ、給糸台14に設けたセンサ25が永久磁石
24の位置を検出する。給糸角度αの許容限度に対応する
給糸アーム18の角度を決めておくことにより、センサ25
の検知結果を制御装置26に送り、給糸台14を駆動する正
逆転モータ15の回転数を制御して給糸角度αを常に許容
限度内に維持することができる。この制御により、釣糸
4の直径に変動があっても、小型スプール6の巻芯17に
は重ね巻や隙間のない巻層20を形成することができる。
給糸口19とピン23の距離を小さくすることにより、給糸
アーム18の角度は給糸角度αより大きな角度となるた
め、微少な給糸角度αも容易に検知することができる。In the fishing line winding device 1 according to the present invention, in order to prevent disturbance of the wound layer 20 due to fluctuations in the diameter of the fishing line 4, the feed speed of the line feed table 14 is controlled so that the line feeding angle α is within an allowable range. Is to be maintained within. As shown in FIGS. 2 and 3, the line feed arm 18 is pivotally attached to the line feed table 14 by a pin 23, and the line feed arm 18 is supplied by the tension of the fishing line 4 sent through the small hole-shaped line feed port 19. It turns in the feed direction of the yarn stand 14. In addition to the small holes, grooves, pulleys, and the like can be used as the line feeder 19 as long as the line feed arm 18 is driven to rotate by the tension of the fishing line 4. At the rear end of the yarn feeding arm 18, a permanent magnet 24
Is attached, and the sensor 25 provided on the yarn feeder 14 is a permanent magnet.
24 positions are detected. By determining the angle of the yarn feeding arm 18 corresponding to the allowable limit of the yarn feeding angle α, the sensor 25
Is sent to the control device 26, and the number of rotations of the forward / reverse rotation motor 15 for driving the yarn feeding table 14 is controlled to always maintain the yarn feeding angle α within the allowable limit. By this control, even if the diameter of the fishing line 4 fluctuates, it is possible to form the winding layer 20 with no overlapping winding and no gap on the core 17 of the small spool 6.
By reducing the distance between the yarn supplying port 19 and the pin 23, the angle of the yarn supplying arm 18 becomes larger than the yarn supplying angle α, so that a minute yarn supplying angle α can be easily detected.

【0024】1つの巻層の終了時期、即ち給糸台14を駆
動するモータ15の正逆切換の時期についても、釣糸4の
直径が設定値どおりであれば、巻芯17の幅に対する釣糸
4の巻付回数で設定し、巻取り機構のモータ8が所定回
数だけ回転したとき送り機構のモータ15を逆転すればよ
い。しかし上記のような制御によって釣糸4の巻取りを
行う場合には、巻芯17の幅に対する釣糸4の巻付回数が
特定できないため、釣糸4が端板22に達したことを検知
して給糸台14の送り方向を逆転させる必要がある。Also at the end time of one winding layer, that is, at the time of forward / reverse switching of the motor 15 for driving the line feed stand 14, if the diameter of the fishing line 4 is as set, the fishing line 4 with respect to the width of the winding core 17 And the motor 15 of the feed mechanism may be reversed when the motor 8 of the winding mechanism has rotated a predetermined number of times. However, when the fishing line 4 is wound by the above-described control, the number of windings of the fishing line 4 with respect to the width of the winding core 17 cannot be specified, so that it is detected that the fishing line 4 has reached the end plate 22 and supplied. It is necessary to reverse the feed direction of the yarn stand 14.

【0025】本発明の釣糸巻取り装置1では、小型スプ
ール5の端板21、22の内側面に一致する面を持つ端板セ
ンサ(図示省略)を設けて釣糸4との接触を検知する
か、又は、1層目の巻層20の先端が端板22に達して折り
返したときの、給糸角度αの変化を検知して送り機構7
のモータ15を逆転し2層目の巻取り開始することができ
る。但し、2層目の巻取では巻層20の先端の移動方向及
び移動台14の移動方向が1層目の巻取りの場合と逆方向
となるため、給糸角度αも逆向きの角度となる。In the fishing line winding device 1 according to the present invention, an end plate sensor (not shown) having a surface coinciding with the inner surfaces of the end plates 21 and 22 of the small spool 5 is provided to detect contact with the fishing line 4. Or, when the leading end of the first winding layer 20 reaches the end plate 22 and turns back, the change in the yarn feeding angle α is detected and the feeding mechanism 7 is detected.
The motor 15 can be reversed to start winding the second layer. However, in the winding of the second layer, the moving direction of the leading end of the winding layer 20 and the moving direction of the moving table 14 are opposite to those in the case of the winding of the first layer. Become.

【0026】なお、図1、図2の装置では、給糸台14に
設けたトルク調節装置27により巻取りの各段階で釣糸4
の張力を調節できるようになっている。これにより、例
えば、下層の巻取りを高い張力で行い上層を巻取りを低
い張力で行い、また巻層の端部での巻取りを高い張力行
うことにより、釣糸の伸びを抑えてしかも小型スプール
の巻芯に強固な巻取りができるようになっている。In the apparatus shown in FIG. 1 and FIG. 2, the fishing line
The tension can be adjusted. Thus, for example, the lower layer is wound with a high tension and the upper layer is wound with a low tension, and the winding at the end of the winding layer is performed with a high tension. The core can be wound firmly.

【0027】小型スプールの巻芯17の幅に対する釣糸4
の巻付回数は、釣糸4の直径のみならず、釣糸4の張力
によっても変化するが、本発明の釣糸巻取り装置による
と、釣糸4の張力が変化しても、巻層20に乱れが生じる
ことはない。Fishing line 4 with respect to the width of the core 17 of the small spool
Is changed not only by the diameter of the fishing line 4 but also by the tension of the fishing line 4. According to the fishing line winding device of the present invention, even if the tension of the fishing line 4 changes, the winding layer 20 is not disturbed. Will not occur.

【0028】以上では、小型スプールと給糸台を相対移
動させる送り機構として、給糸台が往復移動する釣糸巻
取り装置について説明したが、給糸台が静止し、小型ス
プールが回転しながら軸方向に往復移動する釣糸巻取り
装置についても、全く同様の制御装置を組み込むことが
できる。In the above, the fishing line winding device in which the line feeder reciprocates has been described as a feed mechanism for relatively moving the small spool and the line feeder. The same control device can be incorporated in a fishing line winding device that reciprocates in a direction.

【0029】[0029]

【発明の効果】本発明の釣糸巻取り装置は、小型スプー
ルの巻芯に沿って往復移動する給糸台に旋回可能な給糸
アームを設け、給糸アームの角度に応じて給糸台の送り
速度を制御する制御装置を設けため、釣糸の給糸角度を
常に許容限度内に維持することができる。従って釣糸の
直径や張力が変化しても、小型スプールの巻芯には乱れ
のない巻層を形成することができる。According to the fishing line winding device of the present invention, a rotatable line feed arm is provided on a line feed table that reciprocates along the winding core of a small spool, and the line feed table is provided in accordance with the angle of the line feed arm. Since the control device for controlling the feed speed is provided, the line feeding angle of the fishing line can always be maintained within an allowable limit. Therefore, even if the diameter and tension of the fishing line change, a winding layer without disturbance can be formed on the core of the small spool.

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

【図1】 本発明の釣糸巻取り装置の概略を示す側面図
である。FIG. 1 is a side view schematically showing a fishing line winding device of the present invention.

【図2】 本発明の釣糸巻取り装置の送り機構と巻取り
機構の概略を示す平面図である。FIG. 2 is a plan view schematically showing a feed mechanism and a winding mechanism of the fishing line winding device of the present invention.

【図3】 本発明の釣糸巻取り装置の給糸アームの構成
を示す側面図である。FIG. 3 is a side view showing the configuration of a line feeding arm of the fishing line winding device of the present invention.

【図4】 小型スプールへの釣糸巻付状況を示す側面図
である。FIG. 4 is a side view showing a situation in which a fishing line is wound around a small spool.

【符号の説明】[Explanation of symbols]

1・・・釣糸巻取り装置 3・・・大型スプール 4・・・釣糸 5・・・小型スプール 6・・・供給機構 7・・・送り機構 9・・・巻取り機構 14・・・給糸台 18・・・給糸アーム 21・・・センサ 24・・・永久磁石 26・・・制御装置 DESCRIPTION OF SYMBOLS 1 ... Fishing line winding device 3 ... Large spool 4 ... Fishing line 5 ... Small spool 6 ... Supply mechanism 7 ... Feeding mechanism 9 ... Winding mechanism 14 ... Line feeding Table 18 ・ ・ ・ Yarn feed arm 21 ・ ・ ・ Sensor 24 ・ ・ ・ Permanent magnet 26 ・ ・ ・ Control device

Claims (5)

【特許請求の範囲】[Claims] 【請求項1】 回転軸上で連結した小型スプールを回転
駆動し、給糸台から供給される釣糸を小型スプールの巻
芯に巻取る巻取り機構と、巻取りが行われる小型スプー
ルの巻芯上で供給される釣糸を回転軸方向に往復移動さ
せるため、小型スプールと給糸台とを巻取り機構の回転
軸方向に相対移動させる送り機構を備え、回転する小型
スプールの巻芯上で供給される釣糸を巻芯の幅だけ往復
移動させて小型スプールの巻芯上に釣糸の巻層を形成す
る釣糸巻取り装置において、前記給糸台に、先端に給糸
口を有し前記相対移動方向に旋回可能な給糸アームを設
け、この給糸アームの角度に応じて前記送り機構の送り
速度を制御する制御装置装置を設けたことを特徴とする
釣糸巻取り装置。1. A winding mechanism for rotating a small spool connected on a rotating shaft to wind a fishing line supplied from a line feeder around a core of the small spool, and a winding core of the small spool on which winding is performed. In order to reciprocate the supplied fishing line in the direction of the rotation axis, a feed mechanism is provided for relatively moving the small spool and the line feeder in the direction of the rotation axis of the winding mechanism, and is supplied on the core of the rotating small spool. A fishing line reciprocatingly moved by the width of the winding core to form a winding layer of the fishing line on the winding core of the small spool. A fishing line take-up device, further comprising: a control device for controlling a feed speed of the feed mechanism in accordance with an angle of the feed arm. 【請求項2】 前記巻取り装置が、巻取り機構の回転軸
方向に移動する給糸台を備えた請求項1記載の釣糸巻取
り装置。2. The fishing line winding device according to claim 1, wherein the winding device includes a line feeding table that moves in a rotation axis direction of the winding mechanism. 【請求項3】 前記制御装置が、巻芯に対する釣糸の給
糸角度αを許容限度内に維持するよう前記送り機構の送
り速度を制御する請求項1又は2記載の釣糸巻取り装
置。3. The fishing line winding device according to claim 1, wherein the control device controls a feed speed of the feed mechanism so as to maintain a line feeding angle α of the fishing line with respect to the winding core within an allowable limit. 【請求項4】 前記給糸角度αの許容限度が、給糸アー
ム側に設けた永久磁石と、この永久磁石の位置を検知す
るための、給糸台側に設けたセンサによって検知される
請求項3記載の釣糸巻取り装置。4. The permissible limit of the yarn supply angle α is detected by a permanent magnet provided on the yarn supply arm side and a sensor provided on the yarn supply table side for detecting the position of the permanent magnet. Item 3. The fishing line winding device according to Item 3. 【請求項5】 前記制御装置が、給糸アームの角度変化
によって巻層の終点を検知して前記送り機構の送り方向
を逆転させる請求項1又は2記載の釣糸巻取り装置。5. The fishing line winding device according to claim 1, wherein the control device detects the end point of the winding layer based on a change in the angle of the line feeding arm and reverses the feeding direction of the feeding mechanism.
JP08267305A 1996-10-08 1996-10-08 Fishing line winding device Expired - Fee Related JP3121547B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP08267305A JP3121547B2 (en) 1996-10-08 1996-10-08 Fishing line winding device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP08267305A JP3121547B2 (en) 1996-10-08 1996-10-08 Fishing line winding device

Publications (2)

Publication Number Publication Date
JPH10109824A true JPH10109824A (en) 1998-04-28
JP3121547B2 JP3121547B2 (en) 2001-01-09

Family

ID=17442990

Family Applications (1)

Application Number Title Priority Date Filing Date
JP08267305A Expired - Fee Related JP3121547B2 (en) 1996-10-08 1996-10-08 Fishing line winding device

Country Status (1)

Country Link
JP (1) JP3121547B2 (en)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2008032420A1 (en) 2006-09-15 2008-03-20 Shimano, Inc. Thread spool, thread spool unit, and method of producing thread spool unit
JP2011153000A (en) * 2010-01-28 2011-08-11 Miyawaki Sharyo Kogyo Kk Winding device for wire
CN106586678A (en) * 2016-11-30 2017-04-26 浙江慧兰服饰有限公司 Yarn collecting device
JP2018020854A (en) * 2016-08-01 2018-02-08 株式会社大垣化工 Thread winding machine
CN108178015A (en) * 2017-12-07 2018-06-19 丁年生 It is a kind of to send yarn reel yarn feeding device and its application method for fiber dyed yarn
CN110015596A (en) * 2019-04-16 2019-07-16 巨石集团有限公司 A kind of automatic poking silk device and its wire drawing method
CN110127438A (en) * 2019-06-24 2019-08-16 叶洪蔚 The uniform feed carrier of reciprocating coil winding machine based on differential principle
CN113800319A (en) * 2021-10-11 2021-12-17 武汉锐科光纤激光技术股份有限公司 Wire take-up device
CN115583534A (en) * 2022-10-31 2023-01-10 华能澜沧江水电股份有限公司 Cable pulling and winding device

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2008032420A1 (en) 2006-09-15 2008-03-20 Shimano, Inc. Thread spool, thread spool unit, and method of producing thread spool unit
US7699256B2 (en) 2006-09-15 2010-04-20 Shimano, Inc. Spool, spool unit, and spool unit production method
JP2011153000A (en) * 2010-01-28 2011-08-11 Miyawaki Sharyo Kogyo Kk Winding device for wire
JP2018020854A (en) * 2016-08-01 2018-02-08 株式会社大垣化工 Thread winding machine
CN106586678A (en) * 2016-11-30 2017-04-26 浙江慧兰服饰有限公司 Yarn collecting device
CN108178015A (en) * 2017-12-07 2018-06-19 丁年生 It is a kind of to send yarn reel yarn feeding device and its application method for fiber dyed yarn
CN110015596A (en) * 2019-04-16 2019-07-16 巨石集团有限公司 A kind of automatic poking silk device and its wire drawing method
CN110015596B (en) * 2019-04-16 2021-03-16 巨石集团有限公司 Automatic wire drawing device and wire drawing method thereof
CN110127438A (en) * 2019-06-24 2019-08-16 叶洪蔚 The uniform feed carrier of reciprocating coil winding machine based on differential principle
CN113800319A (en) * 2021-10-11 2021-12-17 武汉锐科光纤激光技术股份有限公司 Wire take-up device
CN113800319B (en) * 2021-10-11 2023-09-01 武汉锐科光纤激光技术股份有限公司 Wire winding device
CN115583534A (en) * 2022-10-31 2023-01-10 华能澜沧江水电股份有限公司 Cable pulling and winding device
CN115583534B (en) * 2022-10-31 2024-04-05 华能澜沧江水电股份有限公司 Cable pulling and winding device

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