JPH081329U - Grounding device for transformer core - Google Patents
Grounding device for transformer coreInfo
- Publication number
- JPH081329U JPH081329U JP003237U JP323796U JPH081329U JP H081329 U JPH081329 U JP H081329U JP 003237 U JP003237 U JP 003237U JP 323796 U JP323796 U JP 323796U JP H081329 U JPH081329 U JP H081329U
- Authority
- JP
- Japan
- Prior art keywords
- winding
- core
- reinforcing frame
- iron core
- wound
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Manufacturing Cores, Coils, And Magnets (AREA)
Abstract
(57)【要約】
【目的】 非晶質磁性合金薄帯を巻回して形成した巻鉄
心に巻線を嵌装し、前記巻線から突出する巻鉄心の継鉄
部を絶縁物で被覆した状態で、巻鉄心の接地を確実に行
うようにした。
【構成】 巻鉄心27の最内周面に配置した一対の補強
枠17,18のうち、最内補強枠18には、巻鉄心27
と接触する次層の内側補強枠17と電気的に接触する導
電性テープRを貼設し、前記内側補強枠17を含めて巻
線34から露出する巻鉄心27の継鉄部e,fには、非
晶質磁性合金薄帯Tの剥落を防止する絶縁物39を被着
し、前記絶縁物39で被覆した巻鉄心27の継鉄部eに
接地端子41の一方を前記絶縁物39を貫通させて挿入
し、他方は巻鉄心27に取付けたクランプ44に支着
し、絶縁物39で被覆した巻鉄心27を最内補強枠18
も含めて前記導電性テープRにて良好に接地可能とした
ことを特徴とする。
(57) [Summary] [Purpose] A winding is fitted on a winding core formed by winding an amorphous magnetic alloy ribbon, and the yoke portion of the winding core protruding from the winding is covered with an insulator. In this state, the winding core was surely grounded. [Structure] Of the pair of reinforcing frames 17 and 18 arranged on the innermost peripheral surface of the winding iron core 27, the winding iron core 27 is provided on the innermost reinforcing frame 18.
A conductive tape R that is in electrical contact with the inner reinforcing frame 17 of the next layer that is in contact with is attached to the yoke portions e and f of the winding core 27 exposed from the winding 34 including the inner reinforcing frame 17. Is coated with an insulator 39 that prevents the amorphous magnetic alloy ribbon T from peeling off, and one of the ground terminals 41 is attached to the yoke portion e of the wound iron core 27 covered with the insulator 39. The winding core 27, which is inserted through the other side, is supported by a clamp 44 attached to the winding core 27, and the winding core 27 covered with an insulator 39 is attached to the innermost reinforcing frame 18
Including the above, the conductive tape R can be grounded favorably.
Description
【0001】[0001]
本考案は、非晶質磁性合金薄帯を用いて形成した変圧器鉄心における接地装置 の改良に関する。 The present invention relates to improvement of a grounding device in a transformer core formed by using an amorphous magnetic alloy ribbon.
【0002】[0002]
近年、配電用変圧器等の静止誘導電気機器に用いる巻鉄心に、鉄心材料として 非晶質磁性合金薄帯(以下、単に磁性薄帯という。)を用いることが徐々に増え てきている。この磁性薄帯は磁性合金の融体を超急冷して製造するもので、鉄損 が非常に小さく優れた磁気特性を備えている。そして、前記磁性薄帯からなる巻 鉄心を用いて例えば、配電用変圧器の巻鉄心を製造する場合には、磁性薄帯を連 続巻回してなる接合部を有しないノーカット方式の巻鉄心を形成し、この巻鉄心 を外部に鉄心締付バンドを締着して矩形状に成形し、かつ、磁場焼鈍を行ったあ と、その脚鉄部に巻線を直接巻回するか、あるいは、磁性薄帯を1ターン毎に切 断した単位鉄心を複数枚(数10枚)にまとめて単位積層鉄心となし、この単位 積層鉄心を更に複数層に積層して単位積層ブロック(以下、単に積層ブロックと いう。)を形成する。 In recent years, the use of amorphous magnetic alloy ribbons (hereinafter simply referred to as magnetic ribbons) as a core material has been gradually increasing in wound iron cores used in stationary induction electric devices such as distribution transformers. This magnetic ribbon is manufactured by ultra-quenching a melt of a magnetic alloy and has an extremely small iron loss and excellent magnetic characteristics. Then, for example, in the case of manufacturing a winding core of a distribution transformer by using the winding core made of the magnetic ribbon, a non-cut type winding core having no joint formed by continuously winding the magnetic ribbon is used. After forming the coiled iron core into a rectangular shape by tightening an iron core tightening band on the outside and performing magnetic field annealing, the winding is wound directly on the leg iron part, or A plurality of unit cores (several tens of sheets) obtained by cutting the magnetic ribbon every one turn are combined to form a unit laminated core, and this unit laminated core is further laminated into a plurality of layers to form a unit laminated block (hereinafter, simply laminated). It is called a block).
【0003】 そして、巻鉄心の組立に当たっては、前記積層ブロックを円形に巻いて単位積 層鉄心の両端を順次階段状にずらしながら突合せ又は重ね合わせて接合し、この 積層ブロックを、更に、所要層数前記同様に積層して所定の積層厚となした1タ ーンカット方式の巻鉄心を形成したあと、前記突合せ等の接合部を継鉄部の一辺 に位置させて矩形状に成形して磁場焼鈍を行う。このあと、巻鉄心は各積層ブロ ック毎に前記継鉄部の接合部を開き、各積層ブロックを巻線の鉄心挿入孔に順次 組込み、各積層ブロックの接合部を再接合してから、積層ブロックの最外周に締 付バンドを巻締めすることにより、1ターンカット方式の巻鉄心の組立を行って いた。In assembling the wound core, the laminated block is wound in a circular shape, and both ends of the unit laminated core are sequentially staggered while being abutted or superposed and joined to each other. Several layers are laminated in the same manner as above to form a wound core of a 1-turn cut system with a predetermined laminated thickness, and then the joint portion such as the butt and the like is positioned on one side of the yoke portion and formed into a rectangular shape and magnetic field annealed. I do. After that, the wound core opens the joint of the yoke section for each laminated block, sequentially inserts each laminated block into the core insertion hole of the winding, and rejoins the joined portion of each laminated block. A one-turn cut type winding core was assembled by winding a tightening band around the outermost circumference of the laminated block.
【0004】 そして、前記ノーカット方式、あるいは1ターンカット方式で製造した巻鉄心 を用いて変圧器を製造する場合は、前記巻線を施した巻鉄心の上,下部の継鉄部 に、鉄心及び巻線からなる変圧器中身を固定するクランプを取付け、つづいて、 変圧器中身をケースに収納し、前記巻鉄心の上部継鉄部に取付けたクランプの両 端部に設けた中身固定金具を、ケースの内壁面に形成した支持金具に固定ボルト を用いて固定・支持させたあと、絶縁油をケースに充填して配電用の変圧器を製 造していた。When a transformer is manufactured by using the wound core manufactured by the uncut method or the one-turn cut method, the core and the lower part of the wound core are wound on the yoke parts. Attach a clamp that fixes the contents of the transformer consisting of windings, then store the contents of the transformer in a case, and attach the content fixing metal fittings provided at both ends of the clamp attached to the upper yoke part of the winding core, After fixing and supporting the support brackets formed on the inner wall surface of the case with fixing bolts, the case was filled with insulating oil to manufacture a transformer for distribution.
【0005】 又、前記変圧器中身は、ケース内に収納されているものの、その表面と大地間 に存在する静電容量のため、通常変圧器が課電されているとき、その外表面はか なりの高電位となっており、人体が触れたり、近づいたりしたとき感電事故を誘 発するおそれがあったので、変圧器のケース外表面には、アース端子を設け、こ のアース端子を接地させて前記の問題点を解決していた。Further, although the contents of the transformer are housed in a case, the outer surface of the transformer is normally covered by electricity due to the electrostatic capacity existing between the surface and the ground. Since the potential is fairly high and there is a risk of electric shock when touched or approached by the human body, a ground terminal is provided on the outer surface of the transformer case, and this ground terminal is grounded. To solve the above problems.
【0006】[0006]
然るに、前記変圧器において、変圧器中身を構成する巻鉄心をケース外表面に 設けたアース端子に接地させる場合、通常は巻鉄心の外周に巻締めされる締付バ ンドがクランプ上で締着されている関係上、巻鉄心の帯電を、締着バンド→クラ ンプ→中身固定金具→ケースを経てアース端子に導いていた。これは、変圧器の 課電時、高圧巻線に印加される高電圧により巻鉄心は静電誘導が生じて帯電し、 この結果、例えば、巻鉄心とクランプ、あるいは低圧巻線との間で放電現象が生 じ、絶縁油や低圧巻線側の絶縁物が劣化、損傷するのを防ぐためである。 However, in the above transformer, when the wound core that constitutes the inside of the transformer is grounded to the ground terminal provided on the outer surface of the case, the tightening band that is normally wound around the outer circumference of the wound core is tightened on the clamp. Due to this, the electrification of the winding iron core was led to the ground terminal via the fastening band → clamp → contents fixing bracket → case. This is because when the transformer is charged, the high voltage applied to the high-voltage winding causes electrostatic induction in the winding core, which results in charging between the winding core and the clamp, or between the low-voltage winding. This is to prevent the occurrence of a discharge phenomenon that deteriorates or damages the insulating oil and the insulation on the low-voltage winding side.
【0007】 しかし、前記変圧器に使用する巻鉄心を磁性薄帯により巻回形成したものを用 いる場合、磁性薄帯は製造上の理由から非常に薄く、しかも、剛性に乏しいとい う欠点があり、更に、焼鈍を行うことによって非常に脆弱化するため、この状態 で、巻鉄心の組立後その外周に締付バンドを巻締めした場合、前記巻鉄心はその 巻締力に耐えることが困難となり、焼鈍を行ったにもかかわらず、局部的な機械 的歪が生じたり、形崩れ等を起して巻鉄心の磁気特性を損うという大きな問題が あった。However, when the wound iron core used for the transformer is formed by winding the magnetic ribbon, the magnetic ribbon has a drawback that it is very thin and has poor rigidity for manufacturing reasons. In addition, if the tightening band is tightened around the outer circumference of the wound core after it is assembled in this state, it is difficult for the wound core to withstand the tightening force. Therefore, despite the annealing, there was a big problem that local mechanical strain was generated or the shape was deformed and the magnetic characteristics of the wound core were impaired.
【0008】 又、磁性薄帯は前記のように、焼鈍により非常に脆くなっているので、巻線を 巻鉄心に巻回する場合、あるいは、巻鉄心をブロック毎に分解して巻線に組込む ようなとき、更には、巻鉄心の組立後その巻鉄心を用いて変圧器の組立を行う場 合、巻鉄心の積層端面等に外力が加えられたりすると、簡単に巻鉄心の角部や積 層端面が欠損したり剥落して磁性薄帯の破片が生じる。この破片は前記巻鉄心の 組立後に巻線の鉄心挿入孔内に残留していたりすると、変圧器の運転中、絶縁油 の対流に乗じて漂遊し、巻線の層間に侵入した場合、層間短絡事故を誘発すると いう問題があった。Further, since the magnetic ribbon is extremely brittle due to annealing as described above, when the winding is wound around the winding iron core, or the winding iron core is disassembled into blocks and assembled into the winding. In addition, when assembling a transformer using the wound core after assembling the wound core, if an external force is applied to the laminated end surface of the wound core, the corners and the stack of the wound core can be easily The end faces of the layers are chipped or peeled off, resulting in fragments of magnetic ribbons. If the debris remains in the winding core insertion hole after the winding core is assembled, it will stray due to the convection of insulating oil during operation of the transformer, and if it penetrates between the winding layers, an interlayer short-circuit will occur. There was a problem of inducing an accident.
【0009】 このように、磁性薄帯を巻回した巻鉄心を使用して変圧器を製造する場合、前 記鉄心特性の低下はもとより、その製造には非常に手間と熟練を要し、磁性薄帯 の磁気特性を有効に活用した変圧器の生産性向上をはかることが困難であった。 このため、前記巻鉄心から磁性薄帯の破片が剥落した場合、これが外部に散逸し ないように、巻鉄心自体を絶縁物により完全に囲繞して、前記破片が絶縁油中に 散逸するのを阻止することも考えられるが、巻鉄心を絶縁物で囲繞すると、変圧 器の接地が前記絶縁物に妨げられて良好に行え得ない問題があった。As described above, when a transformer is manufactured by using a wound iron core wound with a magnetic ribbon, not only the above-mentioned deterioration of the iron core characteristics but also the manufacturing thereof requires a lot of labor and skill, and It has been difficult to improve the productivity of transformers that effectively utilize the magnetic properties of the ribbon. For this reason, when the magnetic ribbon fragments are separated from the wound core, the wound core itself is completely surrounded by an insulator so that the fragments do not dissipate to the outside. It may be possible to prevent it, but if the wound iron core is surrounded by an insulator, there is a problem that the grounding of the transformer is hindered by the insulator, which cannot be performed well.
【0010】 本考案は、前記の問題点に鑑み、巻鉄心を薄葉の絶縁物で完全に囲繞した場合 でも、接地端子と巻鉄心との電気的接続が良好に行い得、締付バンドを用いるこ とによって生ずる弊害を確実に排除するとともに、巻鉄心の素材である磁性薄帯 の剥落現象を解消し、鉄心特性及び量産性に優れた変圧器の製造を可能とした変 圧器鉄心の接地装置を提供することを目的とする。In view of the above-mentioned problems, the present invention uses a tightening band by making good electrical connection between the ground terminal and the winding iron core even when the winding iron core is completely surrounded by a thin-walled insulator. The grounding device for the transformer core that not only eliminates the adverse effects caused by this, but also eliminates the phenomenon of the magnetic ribbon, which is the material of the wound core, peeling off, enabling the manufacture of a transformer with excellent core characteristics and mass productivity. The purpose is to provide.
【0011】[0011]
本考案は、磁性薄帯を用いて例えば、1ターンカット方式で巻回した円形の巻 鉄心の内周面に、1ターンを形成しない範囲でけい素鋼帯からなる一対の最内及 び内側の補強枠を、その開口端側を互いに入れ違い状にして配設し、外周面には 1ターンを形成させた状態で外側補強枠を、それぞれ磁性薄帯より板厚の厚いけ い素鋼帯により形成して配設し、次に前記巻鉄心を矩形成形し、かつ、磁場焼鈍 を行ってから、脚鉄部と接合部を有しない継鉄部の各直線部分に、前記巻鉄心の 最内周面に位置する最内補強枠のみを除去した状態で薄葉の絶縁物を巻着して巻 鉄心に剥落阻止部を設ける。 The present invention uses a magnetic ribbon, for example, a pair of innermost and innermost layers made of silicon steel strip within a range where one turn is not formed on the inner peripheral surface of a circular wound iron core wound by a one-turn cut method. The reinforcing frames are arranged so that their open end sides are interleaved with each other, and the outer reinforcing frame is formed with one turn on the outer peripheral surface. The coiled core is formed into a rectangular shape, and then the coiled core is rectangular-shaped and magnetic field annealed. A thin-walled insulator is wound around the inner core with only the innermost reinforcement frame removed, and a stripping prevention part is provided on the wound core.
【0012】 つづいて、巻鉄心の接合部を有する継鉄部側を、巻鉄心の形状がU字形となる ように開放し、次に前記開放された継鉄部を利用して、前記一旦除去した最内補 強枠を、そのコーナー部付近の外側に前記剥落阻止部と同厚又はやや肉厚な導電 性テープを貼着した状態で内接した巻線の鉄心挿入孔に巻鉄心の脚鉄部を嵌挿し 、このあと、前記開放した継鉄部を再接合して巻鉄心の組立を終える。Subsequently, the yoke portion side having the joint portion of the winding core is opened so that the shape of the winding core is U-shaped, and then the temporarily removed portion is removed using the opened yoke portion. The innermost reinforcement frame is attached to the outside of the area around the corner with a conductive tape of the same thickness or slightly thicker than the stripping prevention part attached to the core insertion hole of the wound coil. The iron portion is inserted and then the released yoke portion is rejoined to complete the assembly of the wound core.
【0013】 このあと、巻線の軸方向端面側に露出している巻鉄心の継鉄部分を外側から薄 葉の絶縁物で包み込んで鉄心部分を完全に被う。そして、前記被覆された継鉄部 のうち、接合部を有する継鉄部の外周縁において巻鉄心の外周を補強する補強枠 の重合部の隙間に、例えば、銅製で板厚の薄い接地端子を絶縁物の外側からその 半分程圧入し、この端子の継鉄部から露出している部分をU字状に折り曲げ、そ の折曲部分を、巻鉄心の継鉄部に当てがったコイル押えに掛止したあと、前記巻 鉄心に取付けたクランプに、止めねじを利用して止着することにより、薄葉の絶 縁物で被覆した巻鉄心外周の補強枠に接地端子を接続し、この接地端子を備えた 変圧器中身をケースに収納し、クランプ部分に設けた中身固定金具をケースの内 壁部に固定して巻鉄心変圧器を構成したので、その作用は次のとおりである。After that, the yoke portion of the wound core exposed on the axial end face side of the winding is wrapped from the outside with a thin insulator to completely cover the iron core portion. Then, of the covered yoke portions, for example, in the gap of the overlapping portion of the reinforcing frame that reinforces the outer circumference of the wound core at the outer peripheral edge of the yoke portion having the joint portion, for example, a thin ground terminal made of copper is provided. Press in about half of that from the outside of the insulator, bend the part of the terminal exposed from the yoke part into a U shape, and bend the bent part to the coil part of the winding core. After that, the grounding terminal is connected to the reinforcing frame on the outer circumference of the winding core covered with a thin leaf insulator by fixing it to the clamp attached to the winding core using a set screw. The contents of the transformer with terminals are housed in the case, and the metal fixing bracket provided in the clamp part is fixed to the inner wall of the case to form a wound core transformer. Its operation is as follows.
【0014】[0014]
本考案は、巻鉄心の最内周面に位置する最内補強枠には、そのコーナー部付近 の外側に貼設した導電性テープが、最内周面の次層に位置する内側補強枠のコー ナー部内側面に当接して電気的に接続するように構成したので、巻鉄心の組立に 当っては、巻鉄心の脚鉄部と継鉄部とのコーナー部を除く直線部分に、事前に前 記次層の内側補強枠も含めて絶縁物の巻着によって巻鉄心に剥落阻止部を設けて も、前記巻鉄心の最内周面に位置する最内補強枠には、剥落阻止部の絶縁物の肉 厚寸法と同一又はやや肉厚となる導電性テープが、コーナー部付近に貼設されて いるので、この導電性テープが次層に位置する内側補強枠とは、巻鉄心の前記剥 落阻止部の存在しないコーナー部付近で電気的に接触することとなる結果、巻鉄 心に巻回した剥落阻止部が存在していた場合でも、巻鉄心の最内周面に位置する 最内補強枠と巻鉄心とを電気的に良好に接続することができる。 According to the present invention, in the innermost reinforcing frame located on the innermost peripheral surface of the wound iron core, the conductive tape attached to the outer side in the vicinity of the corner portion of the inner reinforcing frame of the inner reinforcing frame located on the next layer of the innermost peripheral surface is used. Since it is configured to contact the inner surface of the corner part to make electrical connection, when assembling the winding core, make sure that the straight part of the winding core excluding the corner part between the leg iron part and the yoke part is in advance. Even if a stripping prevention part is provided on the wound core by winding an insulating material including the inner reinforcement frame of the next layer, the stripping prevention part is provided on the innermost reinforcing frame located on the innermost peripheral surface of the winding core. Since a conductive tape that is the same as or slightly thicker than the thickness of the insulator is attached near the corners, the inner reinforcing frame where this conductive tape is located in the next layer is As a result of electrical contact near the corners where there is no peeling prevention part, the peeling around the winding core Even if the blocking portion is present, the innermost reinforcing frame and the winding core is located in the innermost peripheral surface of the wound core can be electrically connected satisfactorily.
【0015】 又、巻線から露出している巻鉄心の継鉄部分が薄葉の絶縁物で被覆されていて も、接地端子は前記被覆絶縁物の外側から巻鉄心の外周に備えた外側補強枠の重 合部付近に必然的に生じている狭隘な間隙を利用して圧入するとともに、継鉄部 から露出している部分をクランプにねじ止め等により止着するように構成されて いるので、前記巻鉄心の最内周面に位置する最内補強枠を良好に接地させること と相まって、たとえ、巻鉄心が絶縁物で完全に被われている場合でも、接地端子 の存在によって、巻鉄心の帯電を、従前の鉄心締付用の締付バンドを用いること なく、巻鉄心→前記接地端子→クランプ→中身固定金具→ケースを経てアース端 子に容易に導くことが可能になる。その上、巻鉄心自体を締付ける締付バンドを 使用していないので、前記締付バンドを用いることによる弊害を確実に排除する ことができる。Further, even if the yoke portion of the wound core exposed from the winding is covered with a thin insulator, the ground terminal has an outer reinforcing frame provided from the outside of the covered insulator to the outer circumference of the wound core. Since it is press-fitted using the narrow gap that is inevitably generated near the overlapping part of the, and the part exposed from the yoke part is fixed to the clamp by screwing, etc. In addition to good grounding of the innermost reinforcing frame located on the innermost peripheral surface of the winding core, even if the winding core is completely covered with an insulator, the presence of the grounding terminal prevents It is possible to easily guide the electrification to the ground terminal through the winding iron core → the ground terminal → clamp → content fixing metal fitting → case without using the conventional tightening band for tightening the iron core. In addition, since the tightening band for tightening the wound iron core itself is not used, it is possible to surely eliminate the harmful effect of using the tightening band.
【0016】[0016]
以下、本考案を1ターンカット方式の巻鉄心に実施した例を図1ないし図20 により説明する。 図1において、11は図示しない巻取機に駆動連結した巻軸で、この巻軸11 に円形の巻取枠12を着脱自在に取付け、前記巻取枠12を回転させて、非晶質 磁性合金薄帯(以下、磁性薄帯という)Tを巻取枠12に1回分巻取る毎に切断 装置13により、磁性薄帯Tを切断しながら円形に所定回数巻回して1ターンカ ット形巻鉄心の原形となる巻鉄心素体14を形成する。なお、前記巻鉄心素体1 4の巻回に当っては、巻取枠12への巻回時において切断される磁性薄帯Tの単 板が、前記巻取枠12から脱落しないように、巻鉄心素体14の周面にはガイド ローラ15を介して図示しないゴムベルトが巻掛けられている。 An example in which the present invention is applied to a one-turn cut type winding core will be described with reference to FIGS. 1 to 20. In FIG. 1, reference numeral 11 is a winding shaft drivingly connected to a winding machine (not shown). A circular winding frame 12 is detachably attached to the winding shaft 11 and the winding frame 12 is rotated so that the amorphous magnetic Each time an alloy ribbon (hereinafter referred to as a magnetic ribbon) T is wound around the winding frame 12 by a cutting device 13, the magnetic ribbon T is cut in a circular shape a predetermined number of times and cut for one turn. A wound iron core element body 14 that is the original form of the iron core is formed. When the wound core body 14 is wound, the single plate of the magnetic ribbon T, which is cut during winding on the winding frame 12, does not fall off from the winding frame 12. A rubber belt (not shown) is wound around the peripheral surface of the wound core element body 14 via a guide roller 15.
【0017】 前記のようにして巻回した円形の巻鉄心素体14は、その最外周に例えば、図 示しない接着テープ等を貼着して巻軸11から巻取枠12とともに図示しない巻 取機から取外す。巻取機から取外した巻鉄心素体14は、図2で示すように、そ の外周面に磁性薄帯Tより板厚の厚い、例えば、けい素鋼帯を1ターンを少し越 えて巻回し、その重合部を接着テープ等により仮止めして外側の補強枠16を設 ける。一方、内周面には巻取枠12を除去した後、同じく図2で示すように、け い素鋼帯を用いて平面がほぼC形をなした内側補強枠17(開口部分aを巻鉄心 素体14の接合部bの位置と対向させる。又、前記補強枠17は成形加工により U字状となる。)と、1ターンを形成しない範囲でリング状となした最内補強枠 (先端の突合部分cを、内側補強枠17の開口部分aの反対側に位置させる)1 8とをそれぞれ挿入配置して巻鉄心素体14の円形状態を維持させる。The circular wound core element 14 wound in the above-described manner has, for example, an adhesive tape (not shown) attached to the outermost periphery thereof and a winding frame 12 and a winding frame 12 (not shown). Remove from the machine. As shown in FIG. 2, the wound core body 14 removed from the winder is wound on its outer peripheral surface with a thickness larger than that of the magnetic ribbon T, for example, a silicon steel strip slightly over one turn. Then, the overlapping portion is temporarily fixed with an adhesive tape or the like to provide the outer reinforcing frame 16. On the other hand, after removing the winding frame 12 on the inner peripheral surface, as shown in FIG. 2 as well, an inner reinforcing frame 17 having a substantially C-shaped plane (using the opening a) is formed by using a silicon steel strip. It is opposed to the position of the joint b of the iron core body 14. The reinforcing frame 17 is formed into a U shape by molding.), And the innermost reinforcing frame is formed into a ring shape within a range where one turn is not formed. The abutting portion c at the tip is located respectively on the side opposite to the opening portion a of the inner reinforcing frame 17) 18 so as to maintain the circular state of the wound core element body 14.
【0018】 次に、前記円形の巻鉄心素体14を図3で示すように、成形板19,20を介 して油圧プレス等により、前・後及び左・右方向から同時に押圧して長円形に変 形する。そして、前記巻鉄心素体14を図3のように、長円形に押圧保持させた 状態で、巻鉄心の継鉄部に相当する位置において、一対の成形金型21,22を 、該金型21,22に凹設した凹溝23を互いに向い合せて挿入配置し、この状 態で、凹溝23,23間に下端を上端に対して長さ寸法をやや短くしたテーパー 状の型板24,24(図4参照)をプレスにて凹溝23,23間に圧入しながら 、同時に長円加工した巻鉄心素体14を成形板19,20により、更に押圧を続 行し図4で示すように、矩形状に成形する。前記巻鉄心素体14を矩形状に成形 した後、成形板19,20を互いに図示しない締付ボルトを用いて固定し、図4 のように矩形状に枠組して成形保持枠25を形成させることにより、巻鉄心素体 14は矩形状に良好に保持することができる。Next, as shown in FIG. 3, the circular wound core body 14 is pressed by the hydraulic press or the like through the molding plates 19 and 20 simultaneously from the front / rear and left / right directions to extend the length. Transform into a circle. Then, as shown in FIG. 3, the wound core element body 14 is pressed and held in an oval shape, and at a position corresponding to a yoke portion of the wound core, a pair of molding dies 21 and 22 are attached to the dies. The recessed grooves 23 provided in the grooves 21 and 22 are arranged so as to face each other, and in this state, a tapered template 24 having a lower end between the recessed grooves 23 and 23 whose length dimension is slightly shorter than the upper end is formed. , 24 (see FIG. 4) are press-fitted between the recessed grooves 23, 23 by a press, and at the same time, the wound core core element 14 which has been oval-shaped is further pressed by the forming plates 19, 20, and is shown in FIG. So as to form a rectangular shape. After the wound core element body 14 is formed into a rectangular shape, the forming plates 19 and 20 are fixed to each other with tightening bolts (not shown), and the forming holding frame 25 is formed by forming a rectangular frame as shown in FIG. As a result, the wound core element body 14 can be favorably held in a rectangular shape.
【0019】 つづいて、図4に示すように、耐熱性の電線を巻鉄心素体14の一方の脚鉄部 dから前記成形保持枠25にまたがって巻付けることにより、磁場焼鈍用の励磁 コイル26を設け、このあと、巻鉄心素体14を不活性ガスが充満する焼鈍炉に 入れ、前記励磁コイル26に一定の電流を通電させると同時に、所定の加熱温度 で磁場焼鈍を行う。磁場焼鈍後は図5のように、巻鉄心素体14から励磁コイル 26を除去し、かつ、成形保持枠25を解体し、更に、成型金型21,22の凹 溝23,23から型板24を抜取り、該成型金型21,22とともに巻鉄心素体 14から除去することによって前記巻鉄心素体14の矩形保持状態を解き、巻鉄 心27を形成する。前記のように、磁場焼鈍を行うと巻鉄心27は、図5のよう に矩形状態を維持するだけの形付が完了し、かつ、内,外の補強枠16〜18の 存在によって良好に矩形状態を保持することが可能となる。Subsequently, as shown in FIG. 4, a heat-resistant electric wire is wound from one leg iron portion d of the wound core element body 14 over the forming and holding frame 25 to thereby excite the magnetic field annealing coil. 26, and then, the wound core element body 14 is placed in an annealing furnace filled with an inert gas, and a constant current is applied to the exciting coil 26, and at the same time, magnetic field annealing is performed at a predetermined heating temperature. After the magnetic field annealing, as shown in FIG. 5, the exciting coil 26 is removed from the wound core element body 14, the forming holding frame 25 is disassembled, and further, the concave plates 23 and 23 of the forming dies 21 and 22 are formed. By removing 24 and removing it from the wound core element body 14 together with the molding dies 21 and 22, the rectangular holding state of the wound core element body 14 is released to form a wound core 27. As described above, when the magnetic field annealing is performed, the wound iron core 27 is shaped so as to maintain the rectangular shape as shown in FIG. 5, and the presence of the inner and outer reinforcing frames 16 to 18 makes it possible to form the rectangular shape well. It becomes possible to retain the state.
【0020】 次に、前記矩形成形された巻鉄心27から、1ターンを形成しない範囲で矩形 成形された最内補強枠18のみを一旦取外し、この状態で、図6で示すように、 矩形成形された巻鉄心27の窓内に、第2の成形金型28,29を継鉄部e,f 側に配置し、この第2の成形金型28,29間に板状の型板30を凹溝30aを 利用して圧入し、巻鉄心27が外力によって型崩れするのを防止する。第2の成 形金型28,29及び型板30によって巻鉄心27に形崩れしない処置を施した あと、図6で示すように、巻鉄心27脚鉄部dの直線部における積層端面の両側 に、例えば、常温硬化性の接着剤を脚鉄部dの長さ方向に所定の間隔を保って複 数個所塗布して接着部31を形成する。この接着部31を形成したあと、図7の ように接着剤が硬化する前に、脚鉄部dの直線の長さ寸法にほぼ相当する長さを 備えて幅方向側にコ字状に折曲した比較的薄葉な絶縁紙の内側部分に前記同様の 接着剤を塗布し、この絶縁紙を脚鉄部dの積層端面の上下方向から前記脚鉄部d のほぼ全域を内外の補強枠16,17も含めて一体的に包み込むように巻回して 貼着する。Next, only the innermost reinforcing frame 18 having a rectangular shape is temporarily removed from the rectangular shaped wound iron core 27 within a range where one turn is not formed, and in this state, as shown in FIG. In the window of the wound core 27, the second molding dies 28, 29 are arranged on the yoke portion e, f side, and the plate-shaped template 30 is placed between the second molding dies 28, 29. The recessed groove 30a is used for press-fitting to prevent the wound iron core 27 from losing its shape due to an external force. After the winding core 27 is treated by the second molding dies 28 and 29 and the mold plate 30 so as not to lose its shape, as shown in FIG. 6, both sides of the laminated end face in the straight part of the winding core 27 leg iron part d are shown. Then, for example, a room temperature curable adhesive is applied at a plurality of positions in the length direction of the leg iron portion d at a predetermined interval to form the adhesive portion 31. After the adhesive portion 31 is formed, before the adhesive is cured as shown in FIG. 7, the adhesive portion 31 is provided with a length substantially corresponding to the linear length dimension of the leg iron portion d, and is folded in a U shape in the width direction. An adhesive similar to the above is applied to the inside portion of the bent relatively thin insulating paper, and the insulating paper is applied to the reinforcing frame 16 inside and outside almost all the area of the leg iron part d from the vertical direction of the laminated end surface of the leg iron part d. , Including 17 are wrapped so that they can be wrapped together.
【0021】 前記絶縁紙は、絶縁紙自体に塗布した接着剤と、既に脚鉄部dの積層端面側に 塗布した接着剤とが良好に馴染み、脚鉄部dに移動不能に貼着することができる 。このようにして、巻鉄心27の脚鉄部dに、脚鉄部dの積層端面が、外部から の衝撃、あるいは、治具等が衝接して焼鈍により脆くなっている磁性薄帯が欠損 したり、剥落するのを防ぐための剥落阻止部32を形成する。なお、脚鉄部dに 接着部31を形成するのは、剥落阻止部32が移動するのを防ぐためのものであ り、従って、脚鉄部d全体に接着部31を設ける必要はない。For the insulating paper, the adhesive applied to the insulating paper itself and the adhesive already applied to the laminated end face side of the leg iron portion d are well adapted to each other, and the insulating paper should be immovably attached to the leg iron portion d. Can In this way, the laminated iron end surface of the leg iron portion d is not attached to the leg iron portion d of the winding iron core 27, and the magnetic ribbon which is brittle due to the impact from the outside or the impact of the jig or the like on the magnetic ribbon is lost. A peeling-off preventing portion 32 is formed to prevent the peeling-off or peeling-off. The adhesive portion 31 is formed on the leg iron portion d to prevent the peeling prevention portion 32 from moving. Therefore, it is not necessary to provide the adhesive portion 31 on the entire leg iron portion d.
【0022】 そして、前記脚鉄部dに剥落阻止部32を形成したあと、第2の成形金型28 ,29及び型板30を巻鉄心27から除去する。又、巻鉄心27の継鉄部e,f のうち、接合部bを有しない継鉄部f側にも、その直線部の長さ寸法にほぼ相当 する長さを備えた薄葉の絶縁紙を図8で示すように、前記継鉄部fに巻回しこれ をテープ等で仮止して継鉄部fにおける剥落阻止部32aの原形を形成する。Then, after forming the stripping prevention portion 32 on the leg iron portion d, the second molding dies 28, 29 and the template 30 are removed from the wound iron core 27. Also, of the yoke portions e and f of the winding iron core 27, a thin leaf insulating paper having a length substantially equivalent to the length dimension of the straight portion is also provided on the yoke portion f side having no joint b. As shown in FIG. 8, it is wound around the yoke portion f and temporarily fixed with a tape or the like to form the original shape of the exfoliation prevention portion 32a in the yoke portion f.
【0023】 前記のように、巻鉄心27の脚鉄部d及び継鉄部fに剥落阻止部32,32a を形成すると、巻鉄心27の脚鉄部dと継鉄部fの直線部分は、その積層端面が 剥落するのを防ぐことができるとともに、内,外の補強枠16,17が存在して いることと相まって、脚鉄部d及び脚鉄部fの剛性をも強化することができる。 このような状態で、外側補強枠16の重合部(巻鉄心27の上部継鉄部eの上端 面)の仮止を一旦解く。この場合、前記補強枠16は自体の焼鈍温度より約半分 の磁性薄帯Tの焼鈍温度で焼鈍されている関係上、材料自体の弾性力が残存して いることにより、容易に開放でき巻鉄心27の脚鉄部dとほぼ同一線上の位置ま で拡げることができる。As described above, when the stripping prevention portions 32 and 32a are formed on the leg iron portion d and the yoke portion f of the winding iron core 27, the linear portions of the leg iron portion d and the yoke portion f of the winding iron core 27 become It is possible to prevent the laminated end faces from peeling off, and also to enhance the rigidity of the leg iron part d and the leg iron part f together with the presence of the inner and outer reinforcing frames 16 and 17. . In such a state, the temporary fixing of the overlapping portion (the upper end surface of the upper yoke portion e of the winding core 27) of the outer reinforcing frame 16 is temporarily released. In this case, since the reinforcing frame 16 is annealed at the annealing temperature of the magnetic ribbon T which is about half the annealing temperature of itself, the elastic force of the material itself remains so that the reinforcing frame 16 can be easily opened and the wound iron core It can be expanded to a position substantially on the same line as the leg iron part d of 27.
【0024】 一方、磁性薄帯Tを巻回した巻鉄心27は、その接合部bが位置する継鉄部e を、図7の矩形状態から図8で示すように、継鉄部eを脚鉄部dとほぼ同一線上 の位置まで、平面形状がU字状となるように開放する。前記の継鉄部eの開放作 業は、巻鉄心27の脚鉄部d及び継鉄部fに形成した剥落阻止部32、32aと 巻鉄心27の外周面に配置した外側補強枠16及び内周面に配置したU字状の内 側補強枠17によって、巻鉄心27は剛性が十分に保持されているので、自重変 形や形崩れ等を起こすことなく、円滑・良好に巻鉄心27をU字状に開放するこ とができる。On the other hand, in the wound iron core 27 around which the magnetic ribbon T is wound, the yoke portion e 1 where the joint portion b is located is changed from the rectangular state of FIG. 7 to the leg portion of the yoke portion e as shown in FIG. It is opened to a position substantially on the same line as the iron part d so that the planar shape is U-shaped. The opening operation of the yoke portion e is performed by removing the stripping prevention portions 32 and 32a formed on the leg iron portion d and the yoke portion f of the winding iron core 27, the outer reinforcing frame 16 and the inner reinforcing frame 16 arranged on the outer peripheral surface of the winding iron core 27. The U-shaped inner reinforcing frame 17 arranged on the peripheral surface of the wound iron core 27 maintains sufficient rigidity, so that the wound iron core 27 can be smoothly and satisfactorily prevented from being deformed by its own weight or deformed. It can be opened in a U shape.
【0025】 一方、巻鉄心27に組込まれる巻線34には、図8で示すように、巻鉄心27 の脚鉄部dに剥落阻止部32を形成するときに除去した最内補強枠18を、鉄心 挿入孔35の最内側に、図8で示すように、矩形状に成形した状態で嵌め込んで おく。そして、前記最内補強枠18には、例えば図13で示すように、四隅のコ ーナー部に近接して複数個の突起Pが外周面側に突出形成されている。前記突起 Pは最内補強枠18を巻鉄心27の脚鉄部dに剥落阻止部32を形成する際に除 去したあと、簡易プレスやポンチ等を用いて形成するか、あるいは、最内補強枠 18を矩形成形する前の平板状のときに形成しておくとよい。又、突起Pを設け る位置は、図8で示すように、巻鉄心27に剥落阻止部32,32aを設けた場 合、該剥落阻止部32,32a間に存在する絶縁物で被われていない巻鉄心27 の内側コーナー部付近と相対応する位置に形成する。そして、前記突起Pの突出 長は剥落阻止部32,32aの肉厚よりやや長い寸法で形成されている。On the other hand, as shown in FIG. 8, the winding 34 incorporated in the winding iron core 27 is provided with the innermost reinforcing frame 18 removed when the peeling prevention portion 32 is formed on the leg iron portion d of the winding iron core 27. As shown in FIG. 8, the iron core is inserted into the innermost side of the insertion hole 35 in a rectangular shape. Further, as shown in FIG. 13, for example, the innermost reinforcing frame 18 is formed with a plurality of protrusions P in the vicinity of the corner portions at the four corners so as to project toward the outer peripheral surface. The protrusion P is removed by removing the innermost reinforcing frame 18 when the peeling prevention portion 32 is formed on the leg iron portion d of the winding iron core 27, and then is formed by using a simple press or a punch, or the innermost reinforcing portion is formed. It is preferable to form the frame 18 in a flat plate shape before being rectangularly formed. Further, as shown in FIG. 8, when the winding iron core 27 is provided with the stripping prevention portions 32 and 32a, the position where the projection P is provided is covered with an insulator existing between the stripping prevention portions 32 and 32a. It is formed at a position corresponding to the vicinity of the inner corner of the unwound iron core 27. The protrusion length of the protrusion P is formed to be slightly longer than the thickness of the exfoliation preventing portions 32, 32a.
【0026】 又、前記最内補強枠18には、その各コーナー部付近に内側補強枠17と電気 的に接続する突起Pを突設した例について説明したが、この突起Pに代えて、図 20に示すように、前記突起Pと同様の電気的接続手段として、剥落阻止部32 ,32aと同厚あるいはやや肉厚な導電性テープRを最内補強枠18外側のコー ナー部の両側にまたがって貼着する。この導電性テープRによって前記突起Pと 同様に最内補強枠18と次層に位置する内側補強枠17とを、そのコーナー部付 近において電気的に接続するようにしてもよいことは勿論である。In addition, an example in which the innermost reinforcing frame 18 is provided with the protrusions P that are electrically connected to the inner reinforcing frame 17 in the vicinity of the respective corners has been described. As shown in FIG. 20, as the electrical connection means similar to the projection P, a conductive tape R having the same thickness as or slightly thicker than the peeling prevention portions 32, 32a is provided on both sides of the corner portion outside the innermost reinforcing frame 18. Stick again. Of course, the conductive tape R may be used to electrically connect the innermost reinforcing frame 18 and the inner reinforcing frame 17 located in the next layer in the same manner as the protrusion P near the corners. is there.
【0027】 前記のように、巻線34の鉄心挿入孔35に、突起Pあるいは導電性テープを コーナー部付近に有する最内補強枠18を内接した状態で、前記U字状に開放し た巻鉄心27を、開放した継鉄部eの接合部bを図8のように、巻線34の鉄心 挿入孔35と相対向させて巻線34の鉄心挿入孔35に巻鉄心27の接合部bを 備えた継鉄部e側から挿入すると、巻鉄心27は剥落阻止部32が前記最内補強 枠18と摺接して継鉄部eから脚鉄部dにかけてほぼ1動作で巻線34に組込む ことができる。As described above, the innermost reinforcing frame 18 having the projection P or the conductive tape in the vicinity of the corner is inscribed in the iron core insertion hole 35 of the winding wire 34 and opened in the U-shape. As shown in FIG. 8, the winding iron core 27 is arranged such that the joint portion b of the opened yoke portion e faces the iron core insertion hole 35 of the winding wire 34 and the joining portion of the winding iron core 27 to the iron core insertion hole 35 of the winding wire 34. When the winding core 27 is inserted from the side of the yoke portion e, the peeling prevention portion 32 of the winding iron core 27 slides on the innermost reinforcing frame 18 to make the winding 34 move from the yoke portion e to the leg iron portion d in about one operation. Can be incorporated.
【0028】 前記U字状に開放した巻鉄心27を図9で示すように、巻線34に嵌め込んだ あと、最内補強枠18の巻鉄心27の開放端側に位置する外側面に、巻鉄心27 の継鉄部eの直線部分を囲繞する絶縁紙18aを貼着するとともに、巻線34の 軸方向の端部と、最内補強枠18の間の空所には図10で示すように、絶縁物か らなるスペーサ36,37を挿入し、つづいて、開放された巻鉄心27の継鉄部 eをその最内層部分より、順次開放前の状態(内側)に折り曲げ、その開放部片 gを図10で示すように、互いに接合して、接合部bを再度形成する。As shown in FIG. 9, the winding core 27 opened in the U shape is fitted into the winding 34, and then, on the outer surface of the innermost reinforcing frame 18 located on the open end side of the winding core 27, The insulating paper 18a surrounding the linear portion of the yoke portion e of the winding iron core 27 is attached, and the space between the axial end portion of the winding wire 34 and the innermost reinforcing frame 18 is shown in FIG. As described above, the spacers 36 and 37 made of an insulating material are inserted, and then the yoke portion e of the opened wound iron core 27 is sequentially bent from the innermost layer portion to the state before the opening (inner side), and the opening is performed. The pieces g are joined together to form the joint b again, as shown in FIG.
【0029】 そして、巻鉄心27の外周に配置した外側補強枠16の自由端を、接合部bが 位置する継鉄部e外周面において重合し、この部位の端部をスポット溶接等によ り止着したあと、前記継鉄部eの積層端面側に接着剤を適宜塗布して絶縁紙18 aを図11のように継鉄部eの積層端面からその外周側に向けて貼着することに より、剥落阻止部32bを形成する。なお、巻鉄心27の他方の継鉄部f側に仮 止めした薄葉の絶縁紙も、前記同様に継鉄部fの積層端面に接着剤を塗布して貼 着し、剥落阻止部32aを形成することにより、図11,12で示すように、巻 鉄心27の巻線34への組立作業を終える。前記外側補強部16の重合部を止着 し、かつ、剥落阻止部32a,32bを形成したあと、スペ−サ36と最内補強 枠18との間の隙間に、楔38を圧入して巻線34を巻鉄心27の窓内において 固定する。Then, the free end of the outer reinforcing frame 16 arranged on the outer periphery of the wound iron core 27 is superposed on the outer peripheral surface of the yoke portion e where the joint b is located, and the end of this portion is spot-welded or the like. After fixing, the adhesive is appropriately applied to the laminated end surface side of the yoke portion e to attach the insulating paper 18a from the laminated end surface of the yoke portion e toward the outer peripheral side thereof as shown in FIG. Thus, the peeling-off preventing portion 32b is formed. The thin insulating paper temporarily fixed to the other yoke portion f side of the winding iron core 27 is also coated with an adhesive agent and attached to the laminated end surface of the yoke portion f in the same manner as described above to form the peeling prevention portion 32a. By doing so, as shown in FIGS. 11 and 12, the assembling work of the winding core 27 to the winding 34 is completed. After fixing the overlapping portion of the outer reinforcing portion 16 and forming the peeling prevention portions 32a and 32b, the wedge 38 is press-fitted into the gap between the spacer 36 and the innermost reinforcing frame 18 and wound. The wire 34 is fixed in the window of the winding core 27.
【0030】 前記のようにして巻鉄心の組立を行うと、巻鉄心27の継鉄部e側の補強の役 目を果たす巻鉄心27の最内層に位置する最内補強枠18と、その外側に位置す る次層の内側補強枠17との関係は、巻鉄心27の脚鉄部dと継鉄部e,fに絶 縁物を巻回して設けた剥落阻止部32,32a,32bと次層の内側補強枠17 との存在により、最内補強枠18は、図11に示すように、その四隅のコーナー 部と、該コーナー部と対応する巻鉄心27及び次層の内側補強枠17のコーナー 部との間において、前記剥落阻止部32,32a,32bや内側補強枠17の肉 厚によって微少な隙間s1 が生じる。一方、最内補強枠18の巻鉄心27の脚鉄 部dや継鉄部e,fの直線部と対応する部位は、巻鉄心27とに対して絶縁物か らなる剥落阻止部32,32a,32bを介して直接接触することになるため、 巻鉄心27とは直接的に接触することができない。When the winding iron core is assembled as described above, the innermost reinforcing frame 18 located in the innermost layer of the winding iron core 27, which plays a role of reinforcing the yoke portion e side of the winding iron core 27, and the outside thereof. The relationship with the inner reinforcement frame 17 of the next layer located at the position is that the leg iron portion d of the winding iron core 27 and the stripping prevention portions 32, 32a, 32b provided by winding an insulator around the yoke portions e, f. Due to the presence of the inner reinforcement frame 17 of the next layer, the innermost reinforcement frame 18 has four corners, the winding core 27 corresponding to the corners, and the inner reinforcement frame 17 of the next layer, as shown in FIG. A minute gap s 1 is formed between the corner portion of the inner wall and the corner of the inner wall of the inner reinforcement frame 17 by the thickness of the peeling prevention portions 32, 32a, 32b. On the other hand, the portions of the innermost reinforcing frame 18 corresponding to the leg portions d of the winding iron core 27 and the straight portions of the yoke portions e and f are detachment preventing portions 32 and 32a made of an insulator with respect to the winding iron core 27. , 32b, so that they cannot come into direct contact with the wound iron core 27.
【0031】 この結果、最内補強枠18のみが巻鉄心27と直接的に接触させることができ なくなるが、本考案においては、図13に示すように、最内補強枠18のコーナ ー部分に前記隙間s1 に向って突出する突起P、あるいは、導電性テープRが複 数個形成されており、これら突起Pあるいは導電性テープRが、巻鉄心27の組 立を終えた時点では、図14(突起Pの実施例)の拡大断面図で示すように、剥 落阻止部32,32a,32bが存在していない個所(巻鉄心27の内側コーナ ー部付近)において、次層の内側補強枠17と電気的に直接接触することとなる ので、前記最内補強枠18のみが接地できなくなるという問題は確実に解消する 。As a result, only the innermost reinforcing frame 18 cannot directly contact the wound iron core 27. However, in the present invention, as shown in FIG. A plurality of protrusions P or conductive tapes R projecting toward the gap s 1 are formed, and when these protrusions P or conductive tapes R have finished assembly of the winding core 27, As shown in the enlarged cross-sectional view of No. 14 (Example of the protrusion P), the inner reinforcement of the next layer is provided at a portion where the exfoliation prevention portions 32, 32a, and 32b do not exist (in the vicinity of the inner corner portion of the wound iron core 27). Since it comes into direct electrical contact with the frame 17, the problem that only the innermost reinforcing frame 18 cannot be grounded is reliably solved.
【0032】 又、前記外側補強枠16はその自由端同士を、巻鉄心27の接合部bを有する 継鉄部eとの外周面において、互いに重ね合せて止着すると、図11で示すよう に、重合部r端縁と継鉄部e上端面との間に狭隘な間隙sを形成することができ る。Further, when the outer reinforcing frame 16 is fastened by stacking the free ends thereof on each other on the outer peripheral surface of the yoke portion e having the joint portion b of the winding iron core 27, as shown in FIG. It is possible to form a narrow gap s between the edge of the overlapping portion r and the upper end surface of the yoke portion e.
【0033】 前記のように、巻鉄心27を図12で示すように巻線34に挿入して組立てた あと、巻鉄心27の継鉄部e,f全域を薄葉の絶縁物39を用いて、図15で示 す如く包み込んで覆う。そして、前記薄葉の絶縁物39は、弧状部分を備えた巻 鉄心27の継鉄部e,fと良好になじませて包み込むことができるように、耐熱 性及び可撓性に優れ、しかも、絶縁油とは良好に適応する多孔性に富む合成繊維 からなる不織布を使用している。As described above, after the winding iron core 27 is inserted into the winding wire 34 as shown in FIG. 12 to assemble, the whole area of the yoke portions e and f of the winding iron core 27 is covered with a thin leaf insulating material 39. Wrap and cover as shown in FIG. The thin leaf insulator 39 is excellent in heat resistance and flexibility so that it can be well wrapped around the yoke portions e and f of the winding iron core 27 having an arcuate portion, and is also excellent in insulation. A non-woven fabric made of synthetic fibers with high porosity that is well adapted to oil is used.
【0034】 そして、前記薄葉の絶縁物39の包み込みに際しては、それぞれの継鉄部e, fにおいて積層端面と外周縁とが一体的に包み込むことができる面積で前記絶縁 物39をあらかじめ矩形状に裁断し、次に前記裁断された絶縁物39を例えば、 継鉄部eの外周面に当てがいながらコ字状に折り曲げ、その折り曲げ片を継鉄部 e側に当接させるとともに、継鉄部e外周縁側に食み出す部分は、図15で示す ように、継鉄部eの積層端面側からその外周縁側に向けて折曲し、その折曲部を 巻鉄心27の外周縁において粘着テープを貼着する等して、継鉄部eを前記薄葉 の絶縁物39にて完全に被覆する。When wrapping the thin-walled insulator 39, the insulator 39 is preliminarily formed into a rectangular shape in such an area that the laminated end faces and the outer peripheral edges of the respective yoke portions e and f can be integrally wrapped. Then, the cut insulator 39 is bent into a U shape while being applied to the outer peripheral surface of the yoke portion e, and the bent piece is brought into contact with the yoke portion e side, and the yoke portion is cut. As shown in FIG. 15, the portion protruding to the outer peripheral edge side is bent from the laminated end face side of the yoke portion e toward the outer peripheral edge side, and the bent portion is provided on the outer peripheral edge of the wound iron core 27 with an adhesive tape. The yoke portion e is completely covered with the thin leaf insulating material 39 by, for example, attaching.
【0035】 前記継鉄部eの絶縁物39による被覆が完了したら、もう一方の継鉄部fも前 記同様に絶縁物39を用いて被覆する。そして、絶縁物39を前記継鉄部e,f に被覆する場合、事前に継鉄部e,fの積層端面等に接着剤等を適宜塗布してか ら包み込み作業を始めることにより、絶縁物39の継鉄部e,fに対する被覆作 業を円滑・良好に行うことができる。又、絶縁物39の包み込み後、絶縁物39 の上から絶縁ワニス等を塗布して継鉄部e,fに被覆した絶縁物39が抜脱する のを防ぐようにしてもよい。When the covering of the yoke portion e with the insulator 39 is completed, the other yoke portion f is also coated with the insulator 39 in the same manner as described above. When the insulator 39 is coated on the yoke portions e and f, an adhesive or the like is appropriately applied to the laminated end surfaces of the yoke portions e and f in advance, and then the wrapping operation is started, whereby the insulator It is possible to smoothly and satisfactorily cover the 39 yoke portions e and f. Further, after the insulator 39 is wrapped, an insulating varnish or the like may be applied from above the insulator 39 to prevent the insulator 39 covering the yoke portions e and f from coming off.
【0036】 巻鉄心27の継鉄部e,fを薄葉の絶縁物39で被覆したあと、更に、図15 で示すように、巻鉄心27の外周面に、接着剤を半硬化状態で塗布した接着絶縁 紙40を巻線34の鉄心挿入孔35を通して巻着し、薄葉絶縁物39の折曲部分 が外方に剥れたりするのを防ぐ。このあと、巻鉄心27の脚鉄部d外側と巻線3 4との間に存在する図示しない小間隙に、接着絶縁紙40の外側において、プレ スボード等肉厚なガイド板(図示せず)を巻鉄心27の幅方向の中心位置に圧入 する。この結果、巻線34は前記図示しないガイド板,スペーサ36,37,楔 38によって巻鉄心27に揺動することなく固定することができる。After covering the yoke portions e and f of the wound iron core 27 with a thin insulating material 39, an adhesive is applied to the outer peripheral surface of the wound iron core 27 in a semi-cured state, as shown in FIG. The adhesive insulating paper 40 is wound around the iron core insertion hole 35 of the winding wire 34 to prevent the bent portion of the thin insulating material 39 from peeling outward. Thereafter, a thick guide plate (not shown) such as a press board is provided outside the adhesive insulating paper 40 in a small gap (not shown) existing between the outside of the leg iron portion d of the winding iron core 27 and the winding 34. Is press-fitted in the center position of the winding iron core 27 in the width direction. As a result, the winding 34 can be fixed to the winding iron core 27 by the guide plate, spacers 36, 37, and wedge 38 (not shown) without swinging.
【0037】 このように、巻鉄心27はその内、外周面に配設した補強枠16,17,18 と、脚鉄部d及び継鉄部e,fの直線部に巻回形成した剥落阻止部32,32a ,32bと、更に、継鉄部e,fにこれを囲繞するように被着した薄葉の絶縁物 39とによって、剛性強化と剥落防止がはかられているので、外力による衝撃や 振動等によって巻鉄心27が自重変形したり、磁性薄帯Tの破片が外部に散出す るのを確実に阻止することができる。As described above, the wound iron core 27 includes the reinforcing frames 16, 17, 18 arranged on the outer peripheral surface thereof, and the fall prevention member formed by winding around the straight portions of the leg iron portion d and the yoke portions e, f. The portions 32, 32a and 32b and the thin-walled insulator 39 attached to the yoke portions e and f so as to surround them further strengthen the rigidity and prevent peeling, so that impact by external force is exerted. It is possible to reliably prevent the wound iron core 27 from being deformed by its own weight due to vibration, vibration, or the like, and the fragments of the magnetic ribbon T from being scattered to the outside.
【0038】 次に、前記巻鉄心27の上部継鉄部e側の外周面に配置した外側補強枠16の 重合部r端縁と継鉄部e上端面との間に形成されている間隙sに、図16で示す ように、接地端子41を絶縁物39を破って約1/3の長さ分だけ圧入する。接 地端子41の圧入後は絶縁物39の破損部分に接着剤等を塗布して破損部分から 磁性薄帯Tの破片が外部に散出するのを防ぐ。このあと、前記外側補強枠16の 間隙sに圧入した接地端子41は、図17で示すように、巻鉄心27の継鉄部e 表面に突出している部分を、薄葉の絶縁物39上において一定長さの水平な突出 部分oを残した状態で、継鉄部e側と平行させてU字状に曲成し、後述するクラ ンプとの係合部tを形成する。Next, the gap s formed between the overlapping edge r of the outer reinforcing frame 16 and the upper end surface of the yoke portion e of the outer reinforcing frame 16 arranged on the outer peripheral surface of the winding iron core 27 on the side of the upper yoke portion e. Then, as shown in FIG. 16, the ground terminal 41 is pressed through the insulator 39 by a length of about 1/3. After the ground terminal 41 is press-fitted, an adhesive or the like is applied to the damaged portion of the insulator 39 to prevent the fragments of the magnetic ribbon T from scattering outside from the damaged portion. After that, as shown in FIG. 17, the ground terminal 41 press-fitted into the gap s of the outer reinforcing frame 16 has a portion projecting to the surface of the yoke portion e of the winding core 27 fixed on the thin-walled insulator 39. In the state where the horizontal protruding portion o of the length is left, it is bent in a U shape in parallel with the yoke portion e side to form an engaging portion t with a clamp to be described later.
【0039】 接地端子41の圧入後、図18で示すように、巻線34に組込んだ巻鉄心27 を引起し、この状態で、巻鉄心27の積層端面に絶縁物からなる板状の巻線押え 42を巻線34の軸方向の上,下端面に当接させて当てがう。この場合、前記巻 線押え42は図18のように、その高さ寸法が巻鉄心27の継鉄部e,fの外周 面から少し突出する高さ寸法で形成されており、又、接地端子41は前記巻線押 え42の接地端子41が突出する位置に切欠いた切欠孔43に、突出部分oを係 合させてU字状の係合部tが巻線押え42の外側に位置するように形成されてい る。After press-fitting the ground terminal 41, as shown in FIG. 18, the winding iron core 27 incorporated in the winding wire 34 is raised, and in this state, a plate-like winding made of an insulator is formed on the laminated end surface of the winding iron core 27. The wire retainer 42 is applied so as to abut on the upper and lower end surfaces of the winding 34 in the axial direction. In this case, as shown in FIG. 18, the winding retainer 42 is formed such that its height is slightly higher than the outer peripheral surfaces of the yoke portions e and f of the winding iron core 27, and the ground terminal Reference numeral 41 denotes a U-shaped engaging portion t located outside the winding retainer 42 by engaging a protruding portion o with a notch hole 43 notched at a position where the ground terminal 41 of the winding retainer 42 protrudes. Is formed.
【0040】 そして、前述したクランプを巻鉄心27に取付ける場合は、巻鉄心27の幅寸 法より幅広でコ字形に成形加工した上部クランプ44及び下部クランプ45を、 それぞれ巻鉄心27の継鉄部e,fの上下方向から図19で示す如く遊合する。 この場合、接地端子41はU字状の係合部tを備えているので、上部クランプ4 4の遊合時、その一方の折曲片を接地端子41の係合部tに良好に係合させて取 付けることができる。又、前記上,下部のクランプ44,45は、巻線押え42 が巻鉄心27の外周面から、突出する長さで形成されているので、巻鉄心27の 外周面に対して一定の間隔を保って浮上した状態で遊合保持させることが可能と なる。When the above-mentioned clamp is attached to the winding iron core 27, the upper clamp 44 and the lower clamp 45, which are wider than the width dimension of the winding iron core 27 and are formed into a U-shape, are respectively attached to the yoke portions of the winding iron core 27. As shown in FIG. 19, play is made from the vertical direction of e and f. In this case, since the ground terminal 41 is provided with the U-shaped engaging portion t, when the upper clamp 44 is loosely engaged, one of the bent pieces is favorably engaged with the engaging portion t of the ground terminal 41. Can be installed. Further, in the upper and lower clamps 44 and 45, since the winding presser 42 is formed with a length protruding from the outer peripheral surface of the winding iron core 27, a constant space is provided with respect to the outer peripheral surface of the winding iron core 27. It becomes possible to play and hold it while keeping it floating.
【0041】 前記上,下部のクランプ44,45を巻鉄心27に遊合したあと、図19のよ うに、下部クランプ45の下側からクランプ締付バンド46を、下部クランプ4 5に穿孔した透孔47に挿通し、巻鉄心27の脚鉄部dに巻線34との間におい て圧入した図示しないガイド板によって形成される空隙を垂直に貫通し、そのま ま、上部クランプ44の透孔47から巻鉄心27の上方に突出させて、上部クラ ンプ44上で締着させることにより、前記上,下部クランプ44,45を巻線3 4に巻線押え42を介して締付バンド46にて強固に固定・支持する。この結果 、巻鉄心27は巻線押え42の介在によって上,下部クランプ44,45の取付 けによる機械的応力を全く受けることなく巻線34に揺動不能に保持することが できる。After the upper and lower clamps 44 and 45 are loosely fitted to the winding iron core 27, as shown in FIG. 19, a clamp tightening band 46 is drilled from the lower side of the lower clamp 45 to the lower clamp 45. It is inserted through the hole 47 and vertically penetrates the gap formed by a guide plate (not shown) press-fitted into the leg iron portion d of the winding iron core 27 between the winding wire 34 and the through hole of the upper clamp 44. The upper and lower clamps 44 and 45 are projected onto the winding iron core 27 from above 47 and fastened on the upper clamp 44, so that the upper and lower clamps 44 and 45 are attached to the winding band 34 and the tightening band 46 through the winding retainer 42. Firmly fixed and supported. As a result, the wound iron core 27 can be held on the winding 34 in a non-pivotable manner without any mechanical stress due to the attachment of the upper and lower clamps 44 and 45 due to the interposition of the winding retainer 42.
【0042】 前記上,下部のクランプ44,45を取付けたあと、接地端子41の係合部t の自由端を上部クランプ44の折曲部に止ねじ50を用いて止着することにより 、変圧器中身51の組立を完了する。この結果、前記接地端子41は、巻鉄心2 7の巻線34から突出している継鉄部e,fの全域が薄葉の絶縁物39で被覆さ れていても、又、最内補強枠18が次層の補強枠17との間において部分的に絶 縁物が介在していたりしても、巻鉄心27全体と上部クランプ44とを的確に接 地できるように接続することができる。After the upper and lower clamps 44 and 45 are attached, the free end of the engaging portion t 1 of the ground terminal 41 is fixed to the bent portion of the upper clamp 44 by using the set screw 50 to transform the transformer. The assembly of the container contents 51 is completed. As a result, in the ground terminal 41, even if the yoke portions e and f protruding from the winding 34 of the winding iron core 27 are entirely covered with the thin leaf insulator 39, the innermost reinforcing frame 18 However, even if an insulator partially intervenes between it and the reinforcing frame 17 of the next layer, the entire wound iron core 27 and the upper clamp 44 can be connected to each other so that they can be accurately grounded.
【0043】 前記のようにして構成された変圧器中身51は図19で示すように、上部クラ ンプ44の長さ方向の両端部に取付けた中身固定金具52を、図示しないケース の内壁部に形成される取付座に締付ボルトを用いて締着することにより、ケース 内に収納した変圧器中身51をケースと確実に固定することができる。従って、 変圧器の運転中に生ずる巻鉄心27の帯電は、該巻鉄心27に圧着した接地端子 41→上部クランプ44→中身固定金具52→ケース→ケースに設けたアース端 子に良好に導かれて大地に流すことができる。As shown in FIG. 19, the transformer contents 51 configured as described above have the contents fixing metal fittings 52 attached to both ends of the upper clamp 44 in the longitudinal direction on the inner wall portion of the case (not shown). By tightening the formed seat with the tightening bolt, the transformer contents 51 housed in the case can be securely fixed to the case. Therefore, the electrification of the winding iron core 27 that occurs during the operation of the transformer is properly guided to the ground terminal 41 crimped to the winding iron core 27 → the upper clamp 44 → the content fixing metal fitting 52 → the case → the earth terminal provided on the case. It can be flushed to the ground.
【0044】 本考案は、以上説明したように、巻鉄心27の最内補強枠18と、巻鉄心27 と直接接触する内側補強枠17とは、互いに対応するコーナー部において、絶縁 物からなる剥落阻止部32の肉厚寸法に対応して形成した突起P、あるいは、導 電性テープRを貼設することにより、両補強枠17,18を電気的に接続するよ うに構成したので、特に、前記導電性テープRを貼設する場合は、突起Pを突設 する場合に比べ、その作業性は非常に簡易に行うことが可能となる他、最内補強 枠18のコーナー部との間において、前記剥落防止部32の肉厚によって微少な 隙間s1 が生じるものの、この隙間s1 は前記のように導電性テープRを貼設す ることにより、完全に近い状態で埋めることができるため、変圧器の運転中に、 前記隙間s1 が存在することによって変圧器が振動し、騒音を発生するという問 題の解決がはかれるので、至便である。As described above, according to the present invention, the innermost reinforcing frame 18 of the winding iron core 27 and the inner reinforcing frame 17 that is in direct contact with the winding iron core 27 are separated from each other at the corners corresponding to each other by peeling off the insulating material. Since the projections P formed corresponding to the wall thickness of the blocking portion 32 or the conductive tape R are attached, the reinforcing frames 17 and 18 are electrically connected to each other. When the conductive tape R is affixed, the workability is much simpler than in the case where the protrusion P is affixed, and in addition, in the corner portion of the innermost reinforcing frame 18, although minute gap s 1 by the thickness of the exfoliation preventing portion 32 is caused by the affixed to Rukoto the conductive tape R as the gap s 1 is the fully because it is possible to fill in a state close While the transformer is in operation, Transformer is vibrated by a gap s 1 is present, since attained to resolve the problem of generating noise is convenient.
【0045】[0045]
本考案は、1ターンカット方式の巻鉄心を巻線に組込む場合、巻鉄心の材料が けい素鋼帯に比べて1/10程度の薄さの非晶質磁性合金薄帯を使用している関 係上、巻鉄心の接合部を利用して巻鉄心自体をU字状に開放して巻線に挿入する 方式を採用しているので、巻鉄心はその内,外周面に剛性を維持するためのU字 状内側及び外側の各補強枠が、脚鉄部及び継鉄部の直線部において、絶縁部材の 巻回によって一体的に具備してある。一方、巻線側においては、前記開放された 巻鉄心の継鉄部材を再接合した際、その部位を補強するための最内補強枠が事前 に配置されているので、巻鉄心を巻線に組込むと、巻線側に配置した最内補強枠 と巻鉄心側に位置している内側補強枠とは、その間に絶縁部材が部分的に介在し ていることによって電気的な接続が困難となり、最内補強枠と内側補強枠との間 の空所において、変圧器の運転中に部分放電が生じ、これにより、異常音が発生 したり、巻線の絶縁物を劣化損傷させるという問題が生じるおそれがある。しか し、本考案は最内補強枠の絶縁部材が介在していないコーナー部付近において、 前記の空所を埋める導電性テープが貼設され、かつ、この導電性テープが前記最 内補強枠と内側補強枠とを電気的に接続するように構成されているので、前記最 内補強枠を巻鉄心に確実に接地させることができる。従って、前記のように、巻 鉄心の内部で部分放電が生じることは全くなく、又、部分放電による弊害も全く 生ぜず、鉄心特性に優れた変圧器鉄心の提供が可能となる。 According to the present invention, when a one-turn cut type winding core is incorporated into a winding, the material of the winding core is an amorphous magnetic alloy ribbon having a thickness of about 1/10 that of a silicon steel strip. As a result, the winding core itself is opened in a U-shape and inserted into the winding by using the joint of the winding core. Therefore, the winding core maintains its rigidity on its inner and outer peripheral surfaces. The U-shaped inner and outer reinforcing frames are integrally provided by winding the insulating member in the straight portions of the leg iron portion and the yoke portion. On the other hand, on the winding side, when the yoke members of the open wound iron core are rejoined, the innermost reinforcing frame for reinforcing the part is arranged in advance. When assembled, the innermost reinforcement frame located on the winding side and the inner reinforcement frame located on the winding core side have electrical insulation between the inner reinforcement frame and the inner reinforcement frame. In the space between the innermost reinforcing frame and the inner reinforcing frame, partial discharge occurs during operation of the transformer, which causes abnormal noise and deterioration and damage of winding insulation. There is a risk. However, in the present invention, a conductive tape filling the above-mentioned space is attached near the corner of the innermost reinforcing frame where the insulating member is not interposed, and this conductive tape serves as the innermost reinforcing frame. Since it is configured to be electrically connected to the inner reinforcing frame, the innermost reinforcing frame can be reliably grounded to the wound core. Therefore, as described above, partial discharge does not occur inside the wound core, and no adverse effects due to partial discharge occur, and it is possible to provide a transformer core having excellent core characteristics.
【0046】 しかも、本考案は、導電性テープを、最内あるいは内側の補強枠のうち、いづ れか一方の補強枠に貼設して両部材を電気的に接続することができるので、前記 導電性テープによる電気的接続手段を迅速・確実に設けることができる。Moreover, according to the present invention, the conductive tape can be attached to either one of the innermost and innermost reinforcing frames to electrically connect both members. It is possible to quickly and surely provide the electrical connecting means with the conductive tape.
【0047】 その上、本考案は、薄葉の絶縁物で被覆した継鉄部に、前記絶縁物を貫通させ て接地端子自体を直接巻鉄心と接触させるようにした構造を採用しているので、 前記のように、巻鉄心の最内補強枠を巻鉄心と良好に接地させるようにした点と 相まって、外表面が絶縁物で被覆された巻鉄心の接地を円滑・良好に行うことが できる。In addition, the present invention employs a structure in which the yoke portion covered with a thin-walled insulator is pierced with the insulator to directly contact the ground terminal itself with the wound iron core. As described above, in combination with the point that the innermost reinforcing frame of the winding core is properly grounded to the winding core, the winding core whose outer surface is covered with the insulator can be grounded smoothly and satisfactorily.
【図1】非晶質磁性合金薄帯の巻取状態を示す概略図で
ある。FIG. 1 is a schematic view showing a winding state of an amorphous magnetic alloy ribbon.
【図2】円形状に巻回された巻鉄心素体の平面図であ
る。FIG. 2 is a plan view of a wound core element body wound in a circular shape.
【図3】巻鉄心素体の成形途中を示す説明図である。FIG. 3 is an explanatory diagram showing a process of forming a wound core element body.
【図4】巻鉄心素体を矩形成形して焼鈍処理を行う状態
を示す説明図である。FIG. 4 is an explanatory view showing a state where a wound core element body is rectangularly formed and an annealing treatment is performed.
【図5】焼鈍処理を施して矩形状に形付けした巻鉄心の
平面図である。FIG. 5 is a plan view of a wound iron core that is annealed and shaped into a rectangular shape.
【図6】巻鉄心の脚鉄部に形成する絶縁補強部の形成途
中を示す説明図である。FIG. 6 is an explanatory view showing a process of forming an insulating reinforcing portion formed on a leg iron portion of a wound iron core.
【図7】脚鉄部に絶縁補強部を形成した巻鉄心の平面図
である。FIG. 7 is a plan view of a wound iron core in which an insulation reinforcing portion is formed on a leg iron portion.
【図8】U字状に開放した巻鉄心に巻線を組込む場合を
示す説明図である。FIG. 8 is an explanatory view showing a case where a winding is incorporated into a wound iron core opened in a U shape.
【図9】U字状に開放した巻鉄心に巻線を挿入した状態
を示す説明図である。FIG. 9 is an explanatory view showing a state in which a winding is inserted in a wound iron core opened in a U shape.
【図10】巻鉄心の組立途中を示す説明図である。FIG. 10 is an explanatory view showing a state in which the wound core is being assembled.
【図11】巻線を巻鉄心に組込んだ状態を示す説明図で
ある。FIG. 11 is an explanatory diagram showing a state in which a winding is incorporated in a wound core.
【図12】同じく巻鉄心の組立完了状態を示す斜視図で
ある。FIG. 12 is a perspective view showing a state where the wound core is completely assembled.
【図13】最内補強枠の斜視図である。FIG. 13 is a perspective view of an innermost reinforcing frame.
【図14】巻鉄心の要部拡大断面図である。FIG. 14 is an enlarged cross-sectional view of a main part of a wound iron core.
【図15】巻線に組込んだ巻鉄心の継鉄部全域を被覆し
た状態を示す説明図である。FIG. 15 is an explanatory diagram showing a state in which the entire area of a yoke portion of a wound iron core incorporated in a winding wire is covered.
【図16】巻鉄心に本考案の接地端子を取付ける状態を
分解して示す斜視図である。FIG. 16 is an exploded perspective view showing a state in which a grounding terminal of the present invention is attached to a wound iron core.
【図17】本考案における接地端子の取付状態を示す巻
鉄心の斜視図である。FIG. 17 is a perspective view of a wound core showing a mounting state of a ground terminal according to the present invention.
【図18】巻鉄心変圧器の組立途中を示す斜視図であ
る。FIG. 18 is a perspective view showing an assembling process of the wound core transformer.
【図19】本考案における接地端子の取付状態を示す巻
鉄心変圧器の斜視図である。FIG. 19 is a perspective view of a wound core transformer showing a mounting state of a ground terminal according to the present invention.
【図20】最内補強枠の第2の実施例を示す斜視図であ
る。FIG. 20 is a perspective view showing a second embodiment of the innermost reinforcing frame.
16 外側補強枠 17 内側補強枠 18 最内補強枠 18a 絶縁紙 27 巻鉄心 32 剥落阻止部 32a 剥落阻止部 32b 剥落阻止部 34 巻線 39 絶縁物 41 接地端子 44 上部クランプ 45 下部クランプ 46 締付バンド 50 止ねじ b 接合部 d 脚鉄部 e 継鉄部 f 継鉄部 P 突起 s 間隙 s1 隙間 R 導電性テープ16 Outer Reinforcement Frame 17 Inner Reinforcement Frame 18 Innermost Reinforcement Frame 18a Insulating Paper 27 Winding Iron Core 32 Detachment Blocking Part 32a Detachment Blocking Part 32b Detachment Blocking Part 34 Winding 39 Insulation 41 Grounding Terminal 44 Upper Clamp 45 Lower Clamp 46 Tightening Band 50 Set screw b Joint part d Leg iron part e Yoke iron part f Yoke iron part P Protrusion s Gap s 1 Gap R Conductive tape
───────────────────────────────────────────────────── フロントページの続き (51)Int.Cl.6 識別記号 庁内整理番号 FI 技術表示箇所 H01F 27/24 Z ─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. 6 Identification code Office reference number FI technical display location H01F 27/24 Z
Claims (1)
形成した巻鉄心に巻線を嵌装してなる変圧器において、
前記巻鉄心の最内層には、1ターンを形成しない範囲で
けい素鋼帯からなる一対の最内補強枠と内側補強枠と
を、互いに開口部を入れ違い状にして配設し、前記内側
補強枠と巻鉄心のコーナー部を除く脚鉄部の直線部とに
絶縁物を巻回して剥落阻止部を形成し、前記剥落阻止部
が存在しない内側補強枠と最内補強枠との相対応するコ
ーナー部付近においては、最内補強枠と内側補強枠のい
づれか一方、あるいは、両方に導電性テープを貼着し、
前記導電性テープにより、前記最内補強枠と内側補強枠
とを電気的に接続して前記最内補強枠と巻鉄心とを接地
可能に接続するとともに、前記巻鉄心の巻線部分から露
出している部位を薄葉の絶縁物で被覆し、この絶縁物で
被覆した巻鉄心に接地端子の一方端を圧入し、この接地
端子の他方端となる自由端を巻鉄心の継鉄部に取付けた
クランプに止着したことを特徴とする変圧器鉄心の接地
装置。1. A transformer in which a winding is fitted to a wound iron core formed by winding an amorphous magnetic alloy ribbon a predetermined number of times,
In the innermost layer of the wound iron core, a pair of innermost reinforcing frame and inner reinforcing frame made of a silicon steel strip are arranged in a range that does not form one turn, and the openings of the innermost reinforcing frame and the inner reinforcing frame are arranged to be different from each other. An insulating material is wound around the frame and the linear portion of the leg iron portion excluding the corner portion of the winding core to form a stripping prevention portion, and the inner reinforcement frame and the innermost reinforcement frame in which the stripping prevention portion does not exist correspond to each other. In the vicinity of the corner, attach a conductive tape to either or both of the innermost reinforcing frame and the inner reinforcing frame,
The conductive tape electrically connects the innermost reinforcing frame and the inner reinforcing frame to connect the innermost reinforcing frame and the winding core so that they can be grounded, and is exposed from the winding portion of the winding core. The part that is covered with a thin insulator is pressed, one end of the ground terminal is press-fitted into the wound iron core covered with this insulator, and the free end that is the other end of this ground terminal is attached to the yoke part of the wound iron core. A grounding device for a transformer iron core, which is fixed to a clamp.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1996003237U JP2563475Y2 (en) | 1996-03-27 | 1996-03-27 | Transformer core grounding device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1996003237U JP2563475Y2 (en) | 1996-03-27 | 1996-03-27 | Transformer core grounding device |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH081329U true JPH081329U (en) | 1996-08-20 |
JP2563475Y2 JP2563475Y2 (en) | 1998-02-25 |
Family
ID=18158718
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP1996003237U Expired - Lifetime JP2563475Y2 (en) | 1996-03-27 | 1996-03-27 | Transformer core grounding device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2563475Y2 (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002164222A (en) * | 2000-11-28 | 2002-06-07 | Hitachi Ltd | Amorphous transformer |
JP2013008808A (en) * | 2011-06-24 | 2013-01-10 | Hitachi Industrial Equipment Systems Co Ltd | Power transformer and manufacturing method for the same |
US9000877B2 (en) | 2011-02-16 | 2015-04-07 | Hitachi Industrial Equipment Systems Co., Ltd. | Transformer, amorphous transformer and method of manufacturing the transformer |
KR102160183B1 (en) * | 2020-06-09 | 2020-09-25 | 제룡전기 주식회사 | Amorphous outdoor transformer and manufacturing method thereof |
-
1996
- 1996-03-27 JP JP1996003237U patent/JP2563475Y2/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002164222A (en) * | 2000-11-28 | 2002-06-07 | Hitachi Ltd | Amorphous transformer |
US9000877B2 (en) | 2011-02-16 | 2015-04-07 | Hitachi Industrial Equipment Systems Co., Ltd. | Transformer, amorphous transformer and method of manufacturing the transformer |
US9230729B2 (en) | 2011-02-16 | 2016-01-05 | Hitachi Industrial Equipment Systems Co., Ltd. | Transformer, amorphous transformer and method of manufacturing the transformer |
JP2013008808A (en) * | 2011-06-24 | 2013-01-10 | Hitachi Industrial Equipment Systems Co Ltd | Power transformer and manufacturing method for the same |
KR102160183B1 (en) * | 2020-06-09 | 2020-09-25 | 제룡전기 주식회사 | Amorphous outdoor transformer and manufacturing method thereof |
Also Published As
Publication number | Publication date |
---|---|
JP2563475Y2 (en) | 1998-02-25 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
JP2006303334A (en) | Manufacturing method of wound core | |
JP2526915Y2 (en) | Transformer core grounding device | |
JPH0935965A (en) | Reactor | |
JPH081329U (en) | Grounding device for transformer core | |
US2937352A (en) | Magnetic core structure | |
JPH0745939Y2 (en) | Transformer ground terminal attachment device | |
JPH0831667A (en) | Amorphous iron core transformer and manufacture thereof | |
JP3091547B2 (en) | Wound core transformer and method of manufacturing the same | |
JP2894959B2 (en) | Wound core transformer and method of manufacturing the same | |
JP3462935B2 (en) | Oil-filled amorphous core transformer | |
JPH0328494Y2 (en) | ||
JP2987317B2 (en) | Transformer core grounding device | |
JP2764477B2 (en) | Wound core transformer and method of manufacturing the same | |
JPH0135457Y2 (en) | ||
JPH082986Y2 (en) | Transformer coil retainer | |
JPH0656819B2 (en) | Method for manufacturing static induction electrical equipment | |
JPH0332007A (en) | Laminated-iron-core type stationary induction electric apparatus | |
JPH0239404A (en) | Manufacture of transformer iron core | |
JP2541766Y2 (en) | Wound iron core | |
JPS6233290Y2 (en) | ||
JP2539518Y2 (en) | Stationary induction electrical equipment | |
JP2003133141A (en) | Wound core transformer and its manufacturing method | |
JP2003158016A (en) | Wound core transformer | |
JPH0729759A (en) | Method and device for assembling stationary induction electric apparatus | |
JP3247414B2 (en) | Amorphous core transformer |