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JPH06295838A - Coil winder and winding method - Google Patents

Coil winder and winding method

Info

Publication number
JPH06295838A
JPH06295838A JP6014664A JP1466494A JPH06295838A JP H06295838 A JPH06295838 A JP H06295838A JP 6014664 A JP6014664 A JP 6014664A JP 1466494 A JP1466494 A JP 1466494A JP H06295838 A JPH06295838 A JP H06295838A
Authority
JP
Japan
Prior art keywords
winding
flyer
wire rod
spindle
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
JP6014664A
Other languages
Japanese (ja)
Other versions
JP3418641B2 (en
Inventor
Minoru Tsuchiya
実 土谷
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.)
TAGA Manufacturing
Taga Manufacturing Co Ltd
Original Assignee
TAGA Manufacturing
Taga Manufacturing Co 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 TAGA Manufacturing, Taga Manufacturing Co Ltd filed Critical TAGA Manufacturing
Priority to JP01466494A priority Critical patent/JP3418641B2/en
Publication of JPH06295838A publication Critical patent/JPH06295838A/en
Application granted granted Critical
Publication of JP3418641B2 publication Critical patent/JP3418641B2/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
    • B65H54/28Traversing devices; Package-shaping arrangements
    • B65H54/2896Flyers

Landscapes

  • Coil Winding Methods And Apparatuses (AREA)

Abstract

PURPOSE:To enhance general purpose performance and winding efficiency by providing a shifting means on the wire winding side and/or the wire feeding side and making the angle between the spindle and the rotating shaft of a flyer variable through a relative motion between the wire winding side and the wire feeding side. CONSTITUTION:Means 3 for shifting a beam 11 back and forth, to the right and left, or up and down is provided on the wire winding side 1. Means 4 for shifting a beam 21 back and forth, to the right and left, or up and down and rotating the beam 21 by 90 deg. is provided on the wire feeding side 2. Each of the shifting means 3, 4 is a combination of a plurality of actuators, e.g. servo motors or air cylinders, and controlled automatically. The axis of a coil wound around the core can be altered by altering the angle between a spindle 12 and the rotary shaft of a flyer 22. This structure allows winding of coils having diverse axes.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、巻線装置および巻線方
法に関する。さらに詳しくは、単一のコアに対して軸線
が異なる複数巻のコイルを巻線する巻線装置の汎用性,
巻線効率等に係る改良と、この巻線装置を使用した巻線
方法とに関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a winding device and a winding method. More specifically, the versatility of a winding device that winds a plurality of coils with different axes on a single core,
The present invention relates to improvements in winding efficiency and the like, and a winding method using this winding device.

【0002】[0002]

【従来の技術】従来、巻線装置としては、例えば、特公
昭57−42207号公報に記載のものが知られてい
る。
2. Description of the Related Art Conventionally, as a winding device, for example, one described in Japanese Patent Publication No. 57-42207 is known.

【0003】この従来の巻線装置は、線材が巻線される
コア(ボビン)を回動可能に支持するスピンドルを備え
た線材巻取側と、コアに線材を旋回供給するフライヤを
備えた線材供給側とからなる。
This conventional winding apparatus has a wire rod winding side provided with a spindle for rotatably supporting a core (bobbin) around which the wire rod is wound, and a wire rod provided with a flyer for swirling and supplying the wire rod to the core. It consists of the supply side.

【0004】この従来の巻線装置では、コアのからげ用
突起に線材のコイル端末線を巻線する際にスピンドルの
回転を停止しフライヤを回転させてフライヤ巻し、コア
の本体に線材を巻線する際にフライヤの回転を停止しス
ピンドルを回転させてスピンドル巻することが行われ
る。このため、フライヤ巻,スピンドル巻を切換えるこ
とによって、スピンドルにコアを支持したまま単一のコ
アに対して軸線が異なる複数巻のコイルを巻線すること
が可能になる。この結果、各コイルの巻線ごとのコア着
脱の手間が省略され、巻線効率が高くなることが期待さ
れる。
In this conventional winding device, when the coil end wire of the wire rod is wound on the core protrusion, the rotation of the spindle is stopped and the flyer is rotated to wind the flyer, and the wire rod is wound around the main body of the core. When winding, the flyer is stopped and the spindle is rotated to wind the spindle. Therefore, by switching between the flyer winding and the spindle winding, it is possible to wind a plurality of windings having different axes with respect to a single core while supporting the core on the spindle. As a result, it is expected that the work of attaching and detaching the core for each winding of each coil is omitted and the winding efficiency is increased.

【0005】[0005]

【発明が解決しようとする課題】前述の従来の巻線装置
では、コイルの巻線の軸線の選択がフライヤ巻,スピン
ドル巻の切換えによって行われ、スピンドルの回転軸と
同一線上,直交線上にある軸線のコイルしか巻線するこ
とができないため、汎用性が低いという問題点がある。
さらに、スピンドル巻の際にはフライヤの回転を停止し
なければならないため、回転を停止しているフライヤと
線材との抵抗等によって巻線効率が低くなるという問題
点を有している。
In the above-mentioned conventional winding device, the axis of the coil winding is selected by switching between the flyer winding and the spindle winding, and is on the same line or orthogonal to the rotation axis of the spindle. Since only the coil of the axial line can be wound, there is a problem that versatility is low.
Further, since the flyer must be stopped when the spindle is wound, there is a problem that the winding efficiency becomes low due to the resistance between the flyer which is not rotating and the wire.

【0006】本発明は、このような問題点を考慮してな
されたもので、汎用性,巻線効率の高い巻線装置を提供
すること、この巻線装置を使用して巻線効率の高い巻線
を行う巻線方法とを提供することを課題とする。
The present invention has been made in consideration of the above problems, and provides a winding apparatus having high versatility and high winding efficiency, and using this winding apparatus, high winding efficiency is provided. An object of the present invention is to provide a winding method for winding.

【0007】[0007]

【課題を解決するための手段】前述の課題を解決するた
め、本発明に係る巻線装置は、線材が巻線されるコアを
回動可能に支持するスピンドルを備えた線材巻取側と、
コアに線材を旋回供給するフライヤを備えた線材供給側
とからなる巻線装置において、線材巻取側,線材供給側
の一方または双方に移動手段を設け、線材巻取側,線材
供給側の相対移動によりスピンドル,フライヤの回転軸
のなす角度を変更可能にしたことを特徴とする手段を採
用する。
In order to solve the above-mentioned problems, a winding device according to the present invention comprises a wire rod winding side provided with a spindle for rotatably supporting a core around which a wire rod is wound,
In a winding device comprising a wire rod supply side provided with a flyer for swirling and supplying a wire rod to a core, a moving means is provided on one or both of the wire rod winding side and the wire rod supplying side, and the wire rod winding side and the wire rod supplying side are provided relative to each other. A means characterized in that the angle formed by the rotation axis of the spindle and flyer can be changed by movement is adopted.

【0008】また、前述の課題を解決するため、本発明
に係る巻線方法は、線材が巻線されるコアを回動可能に
支持するスピンドルを備えた線材巻取側と、コアに線材
を旋回供給するフライヤを備えた線材供給側と、線材巻
取側,線材供給側の一方または双方に設けられた移動手
段とからなる巻線装置を用い、スピンドル,フライヤの
回転軸を同一線上に設定し、スピンドル,フライヤを互
いに逆方向へ回転させてコアに線材を巻線することを特
徴とする手段を採用する。
In order to solve the above-mentioned problems, the winding method according to the present invention includes a wire rod winding side provided with a spindle for rotatably supporting a core around which the wire rod is wound, and a wire rod on the core. A winding device consisting of a wire rod supply side equipped with a flyer for swirling and feeding and a moving means provided on one or both of the wire rod winding side and the wire rod supply side is used, and the rotation axes of the spindle and flyer are set on the same line. Then, the spindle and the flyer are rotated in opposite directions to wind the wire on the core.

【0009】[0009]

【作用】前述の手段によると、移動手段を作動させるこ
とで、スピンドル,フライヤの回転軸のなす角度を変更
することができる。スピンドル,フライヤの回転軸のな
す角度の変更は、コアに巻線されるコイルの軸線の変更
となる。スピンドル,フライヤの回転軸を同一線上に設
定した場合、スピンドル,フライヤを互いに逆方向へ回
転させると、コアに線材が高速で巻線される。
According to the above-mentioned means, the angle formed by the rotating shafts of the spindle and the flyer can be changed by operating the moving means. Changing the angle formed by the rotation axes of the spindle and flyer changes the axis of the coil wound around the core. When the spindle and flyer rotation axes are set on the same line, when the spindle and flyer are rotated in opposite directions, the wire is wound around the core at high speed.

【0010】[0010]

【実施例】以下、本発明に係る巻線装置および巻線方法
の実施例を図面に基いて説明する。
Embodiments of a winding device and a winding method according to the present invention will be described below with reference to the drawings.

【0011】図1〜図8は、本発明に係る巻線装置およ
び巻線方法の第1実施例を示すものである。
1 to 8 show a first embodiment of a winding device and winding method according to the present invention.

【0012】この実施例では、レーザディスク用ピック
アップコイルに用いられるコイル素子Aを巻線形成する
ものを示してある。
In this embodiment, a coil element A used in a laser disk pickup coil is formed into a winding.

【0013】このコイル素子Aは、図5〜図7に示すよ
うに、鉄材等で形成されたコアBにコイルCを巻線して
なる。コアBは、取付孔Baと、取付孔Baを中芯とす
る中空形の胴部Bbと、胴部Bbを介して相対する2枚
の張出板Bc,Bdとからなる。コイルCは、コアBの
胴部Bbに巻線される1巻のメインコイルCaと、メイ
ンコイルCaの軸線と直交して張出板Bc,Bdの端部
に掛渡し巻線される2巻のサブコイルCb,Ccとから
なる。
As shown in FIGS. 5 to 7, the coil element A is formed by winding a coil C around a core B made of an iron material or the like. The core B includes a mounting hole Ba, a hollow body portion Bb having the mounting hole Ba as a core, and two protruding plates Bc and Bd facing each other with the body portion Bb interposed therebetween. The coil C includes one main coil Ca wound around the body Bb of the core B, and two turns wound around the ends of the overhang plates Bc and Bd orthogonal to the axis of the main coil Ca. Sub-coils Cb and Cc.

【0014】この実施例は、コイルCを形成する線材S
が巻線される線材巻取側1と、この線材Sが供給される
線材供給側2とで構成されている。
In this embodiment, the wire rod S forming the coil C is used.
The wire rod winding side 1 around which the wire is wound, and the wire rod supply side 2 to which the wire rod S is supplied.

【0015】線材巻取側1は、水平方向に配設されたビ
ーム11と、ビーム11に支持されたスピンドル12と
からなる。このスピンドル12は、後端部が図示しない
モータ等に連結して回転駆動され、先端部が内拡型コレ
チャック等の把持部に形成されてコアBの取付孔Baを
嵌合取付けするようになっている。
The wire winding side 1 comprises a beam 11 arranged in the horizontal direction and a spindle 12 supported by the beam 11. The spindle 12 has a rear end connected to a motor or the like (not shown) and is driven to rotate, and a front end formed on a gripping portion such as an inner expansion core chuck so that the core B can be fitted and mounted in the mounting hole Ba. Has become.

【0016】この線材巻取側1には、ビーム11を前
後,左右,上下に移動させる移動手段3が付設されてい
る。この移動手段3は、サーボモータ,エアシリンダ等
のアクチュエータを単基または複数基組合せたもので、
後述の動作において自動制御されるようになっている。
The wire winding side 1 is provided with a moving means 3 for moving the beam 11 back and forth, left and right, and up and down. The moving means 3 is composed of a single actuator or a combination of a plurality of actuators such as a servo motor and an air cylinder.
It is adapted to be automatically controlled in the operation described later.

【0017】線材供給側2は、水平方向に配設されたビ
ーム21と、ビーム21に支持されたフライヤ22とか
らなる。このフライヤ22は、ビーム21に回転可能に
支持された中空のフライヤ軸22aと、フライヤ軸22
aの先端に取付けられたL字形のフライヤアーム22b
と、フライヤアーム22bの先端に取付けられたフライ
ヤノズル22cとからなる。フライヤ22のフライヤ軸
22aは、後端部が図示しないモータ等に連結して回転
駆動されるようになっている。また、フライヤ22のフ
ライヤ軸22a,フライヤノズル22cは、図示しない
供給部から供給される線材Sが挿通されるようになって
いる。
The wire feed side 2 is composed of a beam 21 arranged horizontally and a flyer 22 supported by the beam 21. The flyer 22 includes a hollow flyer shaft 22a rotatably supported by the beam 21 and a flyer shaft 22.
L-shaped flyer arm 22b attached to the tip of a
And a flyer nozzle 22c attached to the tip of the flyer arm 22b. The flyer shaft 22a of the flyer 22 has its rear end connected to a motor or the like (not shown) so as to be rotationally driven. The wire rod S supplied from a supply unit (not shown) is inserted into the flyer shaft 22a and the flyer nozzle 22c of the flyer 22.

【0018】この線材供給側2には、ビーム21を前
後,左右,上下に移動させ90度回転させる移動手段4
が付設されている。この移動手段4は、サーボモータ,
エアシリンダ等のアクチュエータを複数基組合せたもの
で、後述の動作において自動制御されるようになってい
る。
On this wire feed side 2, a moving means 4 for moving the beam 21 forward and backward, left and right and up and down and rotating 90 degrees.
Is attached. This moving means 4 is a servo motor,
It is a combination of a plurality of actuators such as air cylinders, and is automatically controlled in the operation described later.

【0019】この実施例では、運転使用に際して、ま
ず、スピンドル12にコアBを取付ける。次に、図2,
図3に示すように、移動手段3,4を駆動して、スピン
ドル12,フライヤ22の回転軸X,Yが水平で同一線
上にあるように設定する。なお、このとき、移動手段
3,4の一方または双方を駆動して、フライヤ22のフ
ライヤノズル22cがコアBの張出板Bc,Bdの延長
の間に位置するように、スピンドル12,フライヤ22
の間隔を調整する。また、線材Sをフライヤノズル22
cまで引き出し必要な端末処理を行っておく。
In this embodiment, at the time of operation and use, first, the core B is attached to the spindle 12. Next, in FIG.
As shown in FIG. 3, the moving means 3 and 4 are driven to set the spindle 12 and the flyer 22 so that the rotation axes X and Y are horizontal and on the same line. At this time, one or both of the moving means 3 and 4 are driven so that the flyer nozzle 22c of the flyer 22 is positioned between the extensions of the overhanging plates Bc and Bd of the core B so that the spindle 12 and the flyer 22 are positioned.
Adjust the interval of. Further, the wire rod S is attached to the flyer nozzle 22.
Draw up to c and perform necessary terminal processing.

【0020】そして、スピンドル12,フライヤ22を
逆方向へ回転させる。
Then, the spindle 12 and the flyer 22 are rotated in opposite directions.

【0021】このスピンドル12,フライヤ22の逆方
向への回転は、線材Sの巻速度を加速させて、コアBの
胴部Bbにメインコイル7aを極めて高速で巻線させる
ことになる。なお、このとき、移動手段3,4の一方ま
たは双方を駆動して、スピンドル12,フライヤ22を
接近または離間させ、コアBの胴部Bbへの線材Sの巻
き付き位置を順次移動させ巻揃えを行う。
The rotation of the spindle 12 and the flyer 22 in the opposite directions accelerates the winding speed of the wire rod S to wind the main coil 7a around the body portion Bb of the core B at an extremely high speed. At this time, one or both of the moving means 3 and 4 are driven to move the spindle 12 and the flyer 22 closer to or away from each other, and the winding position of the wire S around the body portion Bb of the core B is sequentially moved to perform winding alignment. To do.

【0022】コアBの胴部Bbへのメインコイル7aの
巻線が終了した後には、スピンドル12,フライヤ22
の回転を停止させ、図4に示すように、移動手段4を駆
動してフライヤ22の回転軸Yを上方へ90度回転させ
る。即ち、スピンドル12の回転軸Xを水平にしフライ
ヤ22の回転軸Yを垂直にして、両回転軸X,Yのなす
角度を90度とする。なお、このとき、移動手段3,4
の一方または双方を移動させて、フライヤ22のフライ
ヤノズル22cがコアBの張出板Bc,Bdのの外側に
位置するように、スピンドル12,フライヤ22の間隔
を調整する。
After the main coil 7a is wound around the body Bb of the core B, the spindle 12 and the flyer 22 are wound.
4 is stopped, and the moving means 4 is driven to rotate the rotation axis Y of the flyer 22 upward by 90 degrees as shown in FIG. That is, the rotation axis X of the spindle 12 is horizontal and the rotation axis Y of the flyer 22 is vertical, and the angle formed by both rotation axes X and Y is 90 degrees. At this time, the moving means 3, 4
By moving one or both of them, the distance between the spindle 12 and the flyer 22 is adjusted so that the flyer nozzle 22c of the flyer 22 is located outside the projecting plates Bc and Bd of the core B.

【0023】そして、スピンドル12の回転を停止させ
たまま、フライヤ22を回転させる。
Then, the flyer 22 is rotated while the rotation of the spindle 12 is stopped.

【0024】このフライヤ22の回転は、コアBの張出
板Bc,Bdの一端部に一方のサブコイル7bを巻線さ
せることになる。なお、このとき、移動手段3,4の一
方または双方を駆動して、スピンドル12,フライヤ2
2を接近または離間させ、コアBの張出板Bc,Bdへ
の線材Sの巻き付き位置を順次移動させ巻揃えを行う。
The rotation of the flyer 22 causes one subcoil 7b to be wound around one end of each of the overhanging plates Bc and Bd of the core B. At this time, one or both of the moving means 3 and 4 are driven to drive the spindle 12 and the flyer 2
2 are moved close to or apart from each other, and the winding positions of the wire S on the overhanging plates Bc and Bd of the core B are sequentially moved to perform winding alignment.

【0025】コアBの張出板Bc,Bdの一端部への一
方のサブコイル7bの巻線が終了した後には、フライヤ
22を回転を停止させ、スピンドル12を180度の回
転させてから、図4と同様にしてコアBの張出板Bc,
Bdの他端部に他方のサブコイル7cを巻線させること
になる.
After the winding of one of the subcoils 7b on one end of the overhanging plates Bc, Bd of the core B is completed, the flyer 22 is stopped from rotating and the spindle 12 is rotated by 180 degrees. In the same manner as in 4, the overhanging plate Bc of the core B,
The other subcoil 7c is wound around the other end of Bd.

【0026】コアBの張出板Bc,Bdの他端部への他
方のサブコイル7cの巻線が終了すると、前述のコイル
素子Aが巻線形成されることになる。従って、この後に
は、このコイル素子Aをスピンドル12から取外して、
スピンドル12に新たなコアBを取付けることになる。
When the winding of the other sub-coil 7c to the other ends of the overhanging plates Bc and Bd of the core B is completed, the coil element A described above is formed. Therefore, after this, the coil element A is removed from the spindle 12,
A new core B will be attached to the spindle 12.

【0027】なお、この実施例では、図8に示すよう
に、コアBの胴部Bbにメインコイル7aを巻線する際
に、従来例と同様に図4に示す位置からフライヤ22の
フライヤノズル22cがコアBの張出板Bc,Bdの延
長の間に位置するように移動させ、フライヤ22の回転
を停止させてスピンドル12のみを回転させることもで
きる。
In this embodiment, as shown in FIG. 8, when the main coil 7a is wound around the body portion Bb of the core B, the flyer nozzle of the flyer 22 is moved from the position shown in FIG. It is also possible to move 22c so that it is positioned between the extensions of the overhanging plates Bc and Bd of the core B, stop the rotation of the flyer 22 and rotate only the spindle 12.

【0028】図8に示す巻線手段を採ると、線材Sの巻
速度が低下するが、メインコイル7aの巻数が少ない場
合等には有効である。
When the winding means shown in FIG. 8 is adopted, the winding speed of the wire rod S is reduced, but it is effective when the number of turns of the main coil 7a is small.

【0029】図9は、本発明に係る巻線装置および巻線
方法の第2実施例を示すものである。
FIG. 9 shows a second embodiment of the winding device and winding method according to the present invention.

【0030】この実施例では、線材供給側2のビーム2
1を垂直方向へ配設し、ビーム21,フライヤ22を水
平方向へ90度回転させる構成としてある。
In this embodiment, the beam 2 on the wire feed side 2 is
1 is arranged in the vertical direction, and the beam 21 and the flyer 22 are rotated 90 degrees in the horizontal direction.

【0031】この実施例の構成は、周囲部材との衝突回
避等の設計上の問題で選択することができる。ただし、
作用,効果は、第1実施例と同様に奏される。
The configuration of this embodiment can be selected in view of design problems such as avoiding collision with surrounding members. However,
The action and effect are similar to those of the first embodiment.

【0032】以上、図示した実施例の外に、スピンドル
12,フライヤ22の回転軸X,Yのなす角度を変更す
れば、単一のコアBに対して軸線が90度以外に異なる
複数巻のコイルを巻線することも可能である。
As described above, in addition to the illustrated embodiment, if the angle formed by the rotation axes X and Y of the spindle 12 and the flyer 22 is changed, a plurality of windings whose axis is different from 90 degrees with respect to a single core B are provided. It is also possible to wind the coil.

【0033】さらに、軸線が90度以外に異なる複数巻
のコイルは、コアB本体のみならずコアB本体とからげ
よう突起との間においても実施例することができる。
Further, a plurality of turns of coils whose axes are different from each other than 90 degrees can be used not only in the core B body but also between the core B body and the tangling protrusion.

【0034】[0034]

【発明の効果】以上のように本発明に係る巻線装置は、
スピンドル,フライヤの回転軸のなす角度を変更するこ
とにより、コアに巻線されるコイルの軸線を異ならせる
ことができ、多様の軸線のコイルの巻線が可能となるた
め、汎用性が高くなる効果がある。
As described above, the winding device according to the present invention is
By changing the angle between the spindle and flyer's rotation axis, the axis of the coil wound on the core can be made different, which makes it possible to wind coils with various axes, increasing versatility. effective.

【0035】さらに、本発明に係る巻線装置および巻線
方法は、スピンドル,フライヤの回転軸を同一線上に設
定して両者を逆回転させることができるため、線材の巻
速度が高速となり巻線効率が高くなる効果がある。
Further, in the winding device and winding method according to the present invention, since the spindle and the flyer can be set on the same rotation axis and both can be rotated in the opposite direction, the winding speed of the wire becomes high and the winding speed increases. This has the effect of increasing efficiency.

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

【図1】本発明に係る巻線装置の第1実施例を示す斜視
図である。
FIG. 1 is a perspective view showing a first embodiment of a winding device according to the present invention.

【図2】図1の運転使用の最初の動作状態および本発明
に係る巻線方法の実施例を示す斜視図である。
2 is a perspective view showing an initial operating state of the driving use of FIG. 1 and an embodiment of a winding method according to the present invention. FIG.

【図3】図2の側面図である。FIG. 3 is a side view of FIG.

【図4】図2に続く動作状態の側面図である。FIG. 4 is a side view of the operating state following FIG.

【図5】本発明に係る巻線装置および巻線方法によって
巻線形成されたコイル素子の正面図である。
FIG. 5 is a front view of a coil element formed by a winding device and a winding method according to the present invention.

【図6】図5の側面図である。FIG. 6 is a side view of FIG.

【図7】図5,図6の斜視図である。FIG. 7 is a perspective view of FIGS. 5 and 6;

【図8】図2,図3の変形動作状態を示す側面図であ
る。
FIG. 8 is a side view showing a modified operation state of FIGS. 2 and 3.

【図9】本発明に係る巻線装置の第2実施例を示す斜視
図である。
FIG. 9 is a perspective view showing a second embodiment of the winding device according to the present invention.

【符号の説明】[Explanation of symbols]

1 線材巻取側 11 ビーム 12 スピンドル 2 線材供給側 21 ビーム 12 フライヤ 3,4 移動手段 B コア S 線材 X,Y 回転軸 1 wire rod winding side 11 beam 12 spindle 2 wire rod supply side 21 beam 12 flyer 3,4 moving means B core S wire rod X, Y rotating shaft

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 線材が巻線されるコアを回動可能に支持
するスピンドルを備えた線材巻取側と、コアに線材を旋
回供給するフライヤを備えた線材供給側とからなる巻線
装置において、線材巻取側,線材供給側の一方または双
方に移動手段を設け、線材巻取側,線材供給側の相対移
動によりスピンドル,フライヤの回転軸のなす角度を変
更可能にしたことを特徴とする巻線装置。
1. A winding device comprising a wire rod winding side provided with a spindle for rotatably supporting a core around which a wire rod is wound, and a wire rod supply side provided with a flyer for rotatingly feeding the core rod. A moving means is provided on one or both of the wire rod winding side and the wire rod supplying side, and the angle formed by the spindle and the rotary shaft of the flyer can be changed by relative movement of the wire rod winding side and the wire rod supplying side. Winding device.
【請求項2】 線材が巻線されるコアを回動可能に支持
するスピンドルを備えた線材巻取側と、コアに線材を旋
回供給するフライヤを備えた線材供給側と、線材巻取
側,線材供給側の一方または双方に設けられた移動手段
とからなる巻線装置を用い、スピンドル,フライヤの回
転軸を同一線上に設定し、スピンドル,フライヤを互い
に逆方向へ回転させてコアに線材を巻線することを特徴
とする巻線方法。
2. A wire rod winding side having a spindle for rotatably supporting a core around which the wire rod is wound, a wire rod supplying side having a flyer for swinging and feeding the wire rod to the core, and a wire rod winding side, Using a winding device consisting of moving means provided on one or both of the wire rod supply sides, the rotation axes of the spindle and flyer are set on the same line, and the spindle and flyer are rotated in opposite directions to load the wire rod on the core. A winding method characterized by winding.
JP01466494A 1993-02-09 1994-02-08 Winding device and winding method Expired - Fee Related JP3418641B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP01466494A JP3418641B2 (en) 1993-02-09 1994-02-08 Winding device and winding method

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
JP355293 1993-02-09
JP5-3552 1993-02-09
JP01466494A JP3418641B2 (en) 1993-02-09 1994-02-08 Winding device and winding method

Publications (2)

Publication Number Publication Date
JPH06295838A true JPH06295838A (en) 1994-10-21
JP3418641B2 JP3418641B2 (en) 2003-06-23

Family

ID=26337168

Family Applications (1)

Application Number Title Priority Date Filing Date
JP01466494A Expired - Fee Related JP3418641B2 (en) 1993-02-09 1994-02-08 Winding device and winding method

Country Status (1)

Country Link
JP (1) JP3418641B2 (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2007157946A (en) * 2005-12-02 2007-06-21 Tdk Corp Wire winding apparatus, winding method and method of manufacturing coil
JP2007157945A (en) * 2005-12-02 2007-06-21 Tdk Corp Method of manufacturing split winding coil and method of winding wire
WO2018188878A1 (en) * 2017-04-13 2018-10-18 Siemens Aktiengesellschaft Coil former for producing an eddy current sensor, eddy current sensor and apparatus in order to wind a coil wire onto the coil former for producing such an eddy current sensor

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2007157946A (en) * 2005-12-02 2007-06-21 Tdk Corp Wire winding apparatus, winding method and method of manufacturing coil
JP2007157945A (en) * 2005-12-02 2007-06-21 Tdk Corp Method of manufacturing split winding coil and method of winding wire
JP4544149B2 (en) * 2005-12-02 2010-09-15 Tdk株式会社 Wire winding apparatus, winding method, and manufacturing method of coil component
WO2018188878A1 (en) * 2017-04-13 2018-10-18 Siemens Aktiengesellschaft Coil former for producing an eddy current sensor, eddy current sensor and apparatus in order to wind a coil wire onto the coil former for producing such an eddy current sensor
RU2729404C1 (en) * 2017-04-13 2020-08-06 Сименс Акциенгезелльшафт Coil main body for making eddy current sensor, eddy current sensor, as well as coil wire coil reeling device on coil main body for making such eddy current sensor

Also Published As

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