JPS61164214A - Manufacture of amorphous core - Google Patents
Manufacture of amorphous coreInfo
- Publication number
- JPS61164214A JPS61164214A JP496485A JP496485A JPS61164214A JP S61164214 A JPS61164214 A JP S61164214A JP 496485 A JP496485 A JP 496485A JP 496485 A JP496485 A JP 496485A JP S61164214 A JPS61164214 A JP S61164214A
- Authority
- JP
- Japan
- Prior art keywords
- amorphous sheet
- silicon oil
- magnetic field
- amorphous
- field annealing
- 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
Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F41/00—Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties
- H01F41/02—Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils, or magnets
- H01F41/0206—Manufacturing of magnetic cores by mechanical means
- H01F41/0213—Manufacturing of magnetic circuits made from strip(s) or ribbon(s)
- H01F41/0226—Manufacturing of magnetic circuits made from strip(s) or ribbon(s) from amorphous ribbons
Abstract
Description
【発明の詳細な説明】
「産業上の利用分野]
本発明はア−[ルファス鉄心の製11ミ方法に関η−る
bのである。DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method for manufacturing an alpha iron core.
「従来の技術」
変圧器鉄心の一例として柱上変圧器に使用しているラッ
プカッI〜ラミiス心の製作方法を次に述べる。この方
法は第4図に示J一様に、まづ”ドラム1に巻かれてい
る長尺のアモルファス・シー1〜2を巻回してリング状
の巻鉄心3とし、この巻鉄心3の 個所をカッタ4で切
開いて台形状にづる。次にこの台形状に積層7されたア
モルファス・シー1−B¥ Jを複数の711y7り5
Aに分(プてぞの両Ogfの突へ1!個所が次々に階段
1.にラップJるリング状のクツプカツ1〜形呑鉄心6
に1−る。(複数の]IIノックAに別けておこ<2つ
作業を単位作業ブト1ツクと称している。)7はラップ
カッ1へ部である。子の後、角形成形と磁場焼鈍をおこ
ない再度複数のブ[1ツク6Δに分(〕て並置した巻線
8A、8Bに差込み組合Uている。差込み方向を矢印で
示す。``Prior Art'' As an example of a transformer core, a method for manufacturing Lapka I to Lami I cores used in pole-mounted transformers will be described below. This method is shown in Fig. 4. First, long amorphous sheets 1 and 2 wound around a drum 1 are wound to form a ring-shaped wound core 3. Cut it into a trapezoid shape by cutting it with a cutter 4. Next, cut the amorphous sheets laminated into a trapezoid shape into multiple 711y7 layers.
A minute (to the end of both Ogf of Putezo 1! The parts are wrapped one after another on the stairs 1. Ring-shaped Kutsupukatsu 1 ~ Shape cup iron core 6
1-ru. The work is divided into (a plurality of) II knocks A and two works are called a unit work.) 7 is the lap cutter 1. After that, angular shaping and magnetic field annealing are performed, and the wires are inserted into the windings 8A and 8B arranged side by side with a plurality of blocks [1 block 6Δ] again.The direction of insertion is indicated by an arrow.
1発明が解決(/ようとする問題点」
このラップカッ1へラミ鉄心6の素材が珪素鋼板のどぎ
は特に問題にいが、アモルファス・シー1〜2の場合は
その板厚が約0.03mmと珪素綱板に比べ約1 、、
′10ど大変薄く弾性に乏しい。そのため台形状に積層
されlごアモルファス・シー1= n¥ 5からラップ
カット形谷畝心6にリ−る作業工程と磁場焼鈍後のカッ
プカッ1〜形巻畝心6を巻線8A、8Bに差込む作業]
゛稈ではこのアモルファス・シー1〜群5を?u hの
ブロック5Δ、6Aに分(Jての中位作業ブロックがあ
り、そのときアモルファス・シー1〜2がバラバラにな
りやすく作業がしずらい。1. Problems that the invention solves (problems that the invention attempts to solve) This is particularly problematic when the material of the laminated iron core 6 for this wrapper 1 is a silicon steel plate, but in the case of amorphous steel 1 and 2, the thickness of the plate is approximately 0.03 mm. and about 1 compared to silicon steel plate.
'10 is very thin and has poor elasticity. Therefore, the work process of laminating the amorphous sheets in a trapezoidal shape from 5 to the lap-cut valley ridges 6 and the cup cut 1 to the shape-wound ridges 6 after magnetic field annealing to the windings 8A and 8B. Insertion work]
゛What about this amorphous sea 1 to group 5 in the culm? There are medium-sized work blocks in blocks 5Δ and 6A of u h, and at that time, amorphous seas 1 and 2 tend to fall apart and are difficult to work on.
1問題点を解決するだめの手段」
本発明はアモルファス・シー1〜の表面にシリ:1ン油
を11谷してから前記単位1勺丁業10ツクと磁場焼鈍
を実施づ−る。In the present invention, silica oil is applied to the surface of the amorphous sheet 1, and then the above-mentioned unit 1 is subjected to 10 treatments and magnetic field annealing.
「作用」
巻回又は積層されたア1ルーツノ・ス・シー1〜間にシ
リコン浦が1・」着していると、シリ:1ン油の表面張
力によりアモルファス・シー1〜どうしか適度に接着し
た状態と41つ、例えば20枚−組の単位作朶ブ[lツ
クが一枚板の如くに<’LリバラハラにイCりにくい。``Effect'' When a silicone layer is attached between the wound or laminated amorphous sheets, the surface tension of the silicone oil causes the amorphous sheet to somehow moderately form. It is difficult to make a unit work block of 41 pieces, such as a set of 20 pieces, when they are glued together, as if it were a single board.
又シリコン油をイ・1着しA: J、」、焼鈍するとア
モルファス・シー1〜どうしが゛1′−溶損し前記一枚
化がより進む。Further, when silicone oil is applied to A: J, and annealing is performed, amorphous seas 1 to 1 are melted and damaged, and the above-mentioned integration into one piece is further progressed.
「実施例j
第1図・へ・り)3図(J本発明に係るラップカッ1ル
形巻υ、心の製作ブj法の要部を示J略図C、シリ:1
ン油を7 tルーツノ・ス・シー1〜に1」6リーる手
段を承り実施例てあく)。そしでシリコンtill 4
ま300 ’Cから400″Gに渇めても性能安定し炭
素などを光牛已ず畝心特刊に悪影響を与えない。又磁場
焼鈍の最高1晶度j、、1300 ′Cから400 ”
C’rdりる。第1図1,1リング状の杢鉄心11を巻
回づる際、ドラム12からのフ7しルフ7ノ、ス・シー
1〜13(こシリ:1ン油17′Iを塗711する方法
である。第2図はリング状の巻鉄心11をカッタ15で
切断する際にシリコン浦′1/Iをアモルファス・シー
ト13に浸透ざぜる方法−Cある。第3図はリング状の
巻鉄心11を切断しlこ1隻(こ台形ス人(こ積層しI
Cアモルファス・シー1〜1!Y1 ()をシリコン油
14入りのランク17に浸して−iU iMさける方2
人で・ある。そしてこの様(こシリ]ンイ山171をア
−[ルノアス・シー1〜13に1・1着したj受 (こ
161易焼鈍 づ る 。"Example J Figure 1/Here) Figure 3 (JSchematic diagram C showing the main parts of the method for manufacturing the lap cup 1-shaped winding υ and core according to the present invention, Series: 1
An example is given below showing how to add 1"6 oil to 7 tsp.). And silicon till 4
The performance is stable even when the temperature is increased from 300'C to 400''G, and it does not remove carbon or other substances and has no adverse effect on the ridges. Also, the maximum crystallinity of magnetic field annealing is from 1300'C to 400''.
C'rd Rir. When winding the ring-shaped heathered iron core 11, the method of applying 711 oil 17'I to the 7th, 7th, and 1th to 13th sheets from the drum 12 when winding the ring-shaped heathered iron core 11. Fig. 2 shows a method-C in which silicon pores 1/I are permeated into the amorphous sheet 13 when cutting the ring-shaped wound core 11 with the cutter 15. Cut 11 and make one trapezoid (this trapezoid).
C Amorphous Sea 1~1! How to avoid -iU iM by soaking Y1 () in rank 17 containing silicone oil 14
It is a person. And like this, Mt. 171 was placed 1.1 in A-[Runoas Sea 1 to 13].
以l−の実施1!I!l tま巻鉄心に適用し1.:場
合であるが、積鉄心の場合6シリニIン油1/Iをアt
ルフ177ス・シー1−13に1」谷したj支に磁場・
読鈍りる、。Implementation 1 of the following! I! Applicable to round-wound cores: 1. : In the case of a stacked iron core, add 6 cylinders of oil and 1/I of oil.
Magnetic field in the j branch that troughed 1-13
I'm slow at reading.
1ス1の如く、本発明(、J、−j’ IEルフi・ス
・シー1〜133の入面にシリ:1ン油1/lをf」着
してから磁呪焼鈍し、シリ」ン油14の(:1名手段と
変斤器iス心のタイプ−15製作方法はどの様なもので
あってムよい。As shown in 1st 1, the present invention (J, -j') Apply 1/l of silicone oil to the inlet surface of IE Rufils 1 to 133, and then magnetic annealing. The production method for the oil 14 (: 1 person and the type 15 of the loaf holder may be any method).
「発明の効宋」
シリコン油14をア゛しルノアス・シート13にイ・1
着させた後に磁場焼鈍Jると、
(1)アモルフ7・ス・シー1〜13の薄さの関係より
シリコン油14の表面張力により接着状態とイTる。し
かしこの接偶力は容易に刷りことのて゛きる程度である
。又シリコン油1/Iをイ」着した後に磁場焼鈍するの
て゛アモルファス・シー1〜13どうじが半溶着し、ラ
ップカッ1〜部を聞いてもバラバラにならhい1、した
がって単位作業ブロックはスムーズと<Sす11:菓効
率を大幅に向上でさる。``Effect of invention'' Apply silicone oil 14 to Lunoas sheet 13.
When magnetic field annealing is performed after adhesion, (1) Due to the thinness of Amorph 7.S.C. 1 to 13, the surface tension of silicone oil 14 causes an adhesive state. However, this coupling force is at a level that can be easily imprinted. Also, after applying silicone oil 1/I and then annealing in a magnetic field, the amorphous sheets 1 to 13 are half welded, and even if you listen to the lap parts 1 to 1, they do not fall apart, so the unit work block is smooth. <S11: Greatly improves confectionery efficiency.
(2)磁場焼鈍によりシリ:1ン油14が高調になって
も高湿安定なる+/I質を右するので焼鈍中に分離して
鉄心1′)巻線にとって行書な炭素などを発生lず大変
都合がよい。(2) Due to magnetic field annealing, the silicone oil 14 has a +/I quality that is stable at high humidity even when the temperature is high, so it separates during annealing and generates carbon, etc. that is harmful to the windings. It's very convenient.
第1図〜第33図は本発明に係るラップカッ1ル形巻鉄
心の製作方法の要部を示す略図で、共にアモルノj・ス
・シー1〜にシリコン油をイ」着させる別々の実施例を
示す。第4図は従来製e[方法の一例を示1作業T程図
である。
図面中、
11はリング状の冴鉄心
12(まドラム
13はアモルファス・シー1〜
14(まシリコン油
15はカッタ
164よアモルファス・シート群
17はタンク
である。
1゛f許111願大 株式会社 高畠製作所第11訊
爾31以
充L4−団
乙らFigures 1 to 33 are schematic diagrams showing the main parts of the method for manufacturing a lap cup type wound iron core according to the present invention, and each figure shows a separate embodiment in which silicone oil is applied to the Amorno J.S.C. shows. FIG. 4 is a one-work process diagram showing an example of the conventional method. In the drawing, 11 is a ring-shaped saetetsu core 12 (drum 13 is amorphous sheets 1 to 14), silicone oil 15 is a cutter 164, and amorphous sheet group 17 is a tank. Takahata Seisakusho No. 11 Kenji 31 and above L4-Dan Otsu et al.
Claims (1)
ファス鉄心の製作工程において、シリコン油をアモルフ
ァス・シート間に付着してから組立て磁場焼鈍すること
を特徴とするアモルファス鉄心の製作方法。A method for manufacturing an amorphous iron core, which is characterized in that in the process of manufacturing an amorphous iron core made by winding or laminating amorphous sheets, silicone oil is attached between the amorphous sheets, and then assembled and annealed in a magnetic field.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP496485A JPH0244132B2 (en) | 1985-01-17 | 1985-01-17 | AMORUFUASUTETSUSHINNOSEISAKUHOHO |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP496485A JPH0244132B2 (en) | 1985-01-17 | 1985-01-17 | AMORUFUASUTETSUSHINNOSEISAKUHOHO |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS61164214A true JPS61164214A (en) | 1986-07-24 |
JPH0244132B2 JPH0244132B2 (en) | 1990-10-02 |
Family
ID=11598270
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP496485A Expired - Lifetime JPH0244132B2 (en) | 1985-01-17 | 1985-01-17 | AMORUFUASUTETSUSHINNOSEISAKUHOHO |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0244132B2 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111057820A (en) * | 2019-11-29 | 2020-04-24 | 钢铁研究总院 | Efficient annealing method for improving comprehensive performance of iron-based amorphous alloy iron core |
-
1985
- 1985-01-17 JP JP496485A patent/JPH0244132B2/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111057820A (en) * | 2019-11-29 | 2020-04-24 | 钢铁研究总院 | Efficient annealing method for improving comprehensive performance of iron-based amorphous alloy iron core |
CN111057820B (en) * | 2019-11-29 | 2021-01-01 | 钢铁研究总院 | Efficient annealing method for improving comprehensive performance of iron-based amorphous alloy iron core |
Also Published As
Publication number | Publication date |
---|---|
JPH0244132B2 (en) | 1990-10-02 |
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