EP2618347B1 - Noyau de transformateur - Google Patents

Noyau de transformateur Download PDF

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Publication number
EP2618347B1
EP2618347B1 EP12000264.7A EP12000264A EP2618347B1 EP 2618347 B1 EP2618347 B1 EP 2618347B1 EP 12000264 A EP12000264 A EP 12000264A EP 2618347 B1 EP2618347 B1 EP 2618347B1
Authority
EP
European Patent Office
Prior art keywords
transformer
core
area
slanted
areas
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.)
Active
Application number
EP12000264.7A
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German (de)
English (en)
Other versions
EP2618347A1 (fr
Inventor
Martin Carlen
Benjamin Weber
Burak Esenlik
Stephane Schaal
Jens Tepper
Jong-Yun Lim
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.)
Hitachi Energy Ltd
Original Assignee
ABB Power Grids Switzerland AG
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 ABB Power Grids Switzerland AG filed Critical ABB Power Grids Switzerland AG
Priority to EP12000264.7A priority Critical patent/EP2618347B1/fr
Priority to ES12000264T priority patent/ES2841062T3/es
Priority to CN201280067489.3A priority patent/CN104040651B/zh
Priority to PCT/EP2012/005058 priority patent/WO2013107480A1/fr
Publication of EP2618347A1 publication Critical patent/EP2618347A1/fr
Application granted granted Critical
Publication of EP2618347B1 publication Critical patent/EP2618347B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F27/00Details of transformers or inductances, in general
    • H01F27/24Magnetic cores
    • H01F27/25Magnetic cores made from strips or ribbons
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F27/00Details of transformers or inductances, in general
    • H01F27/24Magnetic cores
    • H01F27/26Fastening parts of the core together; Fastening or mounting the core on casing or support
    • H01F27/263Fastening parts of the core together
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F30/00Fixed transformers not covered by group H01F19/00
    • H01F30/06Fixed transformers not covered by group H01F19/00 characterised by the structure
    • H01F30/12Two-phase, three-phase or polyphase transformers
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F41/00Apparatus 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
    • H01F41/02Apparatus 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
    • H01F41/0206Manufacturing of magnetic cores by mechanical means
    • H01F41/0213Manufacturing of magnetic circuits made from strip(s) or ribbon(s)
    • H01F41/0226Manufacturing of magnetic circuits made from strip(s) or ribbon(s) from amorphous ribbons

Definitions

  • the invention relates to a transformer-core, comprising at least three hollow-cylindrical rectangular shaped core-parts wound from a magnetic band-like material, wherein two opposed limb areas and an upper and lower yoke area are formed along a circumferential path, wherein the core-parts comprise one first and at least one second slanted area parallel to the circumferential path in the respective limb area and wherein the at least three core-parts are connected according to a polygonal layout at their respective first slanted areas, which are arranged adjacently face to face.
  • FIG. 2 of EP 2 395 521 A1 and Fig. 3 or Fig. 4 of KR 101 026 357 B1 shows three core-parts whereas each core-parts is wound from a band-like material so that the core-parts has rounded corners and is shaped essentially like a rectangle.
  • transformers for power transmission are rated for voltage levels of for example 10kV, 60kV 110kV or above, whereas the rated power amounts for example 1MVA, 10MVA or even 100MVA.
  • Transformer cores for such transformers are typically based on stacked metal sheets of a thickness of for example 0,2mm ... 0.3mm Due to a permanent magnetic re-orientation during operation of such transformer core magnetic losses are produced, which have also a heating effect on the transformer core.
  • a transformer core made from an amorphous material provides reduced core-losses in comparison to a standard transformer core.
  • Amorphous material is available typically as band-like refractory material, which is extremely sensitive against any mechanical stress and has a thickness of for example 30 ⁇ m or less.
  • an amorphous transformer core has to be wound from such a band-like material, whereas the width of such band might amount for example 30cm and whereas several thousand layers have to be wound.
  • a wound amorphous transformer core is sensitive to any mechanical stress produced for example also by mechanical collisions. But also wearing the weight of the transformer as such has considered being mechanical stress.
  • Transformer cores of an amorphous material have to be cooled during operation, since the effect of reduced core losses is only gained in a temperature range of lower than 140° for example, otherwise the core losses will increase disadvantageously. Due to the high fragility of an amorphous transformer core and due to the limitation of the available width of the band-like amorphous material the maximum rated power of a transformer with amorphous transformer core is limited to 10MVA in the moment.
  • transformer cores can be constructed according to a polygonal layout, a three phase transformer preferably according to a triangular layout. Due to such a preferably complete symmetrical construction also the electrical behavior of such a transformer is symmetrical. Additional advantages are gained by a more compact and space-saving arrangement.
  • a polygonal respectively triangular transformer-core is subject to a reduced stability, especially in the case that it is formed by belonging core parts.
  • core parts are easier to manufacture, on the other hand the core parts as such are more fragile due to the slanted areas and a mechanically stable connection of adjacent core parts is difficult.
  • Patent application EP 2 395 521 A1 is disclosing is disclosing a transformer-core comprising three hollow-cylindrical rectangular shaped core-parts wound from an amorphous magnetic band-like material, wherein two opposed limb areas and an upper and lower yoke area are formed along a circumferential path, wherein the core-parts comprise one first and at least one second slanted area parallel to the circumferential path in the belonging limb area and wherein the at least three core-parts are connected according to a polygonal layout at their belonging first slanted areas which are arranged adjacently face to face.
  • Patent application KR 101 026 357 B1 is disclosing a transformer with triangular core composed of three core parts, wherein a gap is foreseen inbetween adjacent core parts to keep a respective magnetic flux in the respective core part.
  • a transformer core with polygonal layout has a reduced stability and in case of an amorphous transformer core which is made from a wound band-like amorphous material moreover an extremely fragile structure.
  • a polygonal transformer core especially an amorphous polygonal transformer core, with increased mechanical stability.
  • This problem is solved by a transformer core of the aforementioned kind. This is characterized in that at least one flat plate is foreseen in each limb area, which is connected even and stiff with a respective adjacent slanted area.
  • the basic idea of this invention consists in increasing the mechanical stability respectively stiffness of such a transformer core by connecting a flat plate on a belonging slanted area, which is characterized by a reduced mechanical stability compared to a non-slanted area.
  • the flat plate and the slanted area have to be adapted concerning their basic shape.
  • the cross section in the limb area of a belonging core part is shaped in that way that no or at least nearly no gap is built inbetween first slanted areas of adjacent core parts.
  • the adjacent core-parts are easier and more stable to connect on one side and on the other side the magnetic active cross section of a limb, which is formed by two belonging limb sections of adjacent core-parts, is increased.
  • a core part with round corners, that's layout corresponds more to an oval than to a rectangular shape has also to be seen as rectangular shaped within the frame of this invention.
  • the magnetic band-like material is comparable to typical metal sheets of stacked transformer cores and has a thickness of for example 0,2mm or 0,3mm.
  • the mechanical stability of a wound core-part is reduced compared to a stacked transformer core and is stabilized in an advantageous way by the invention.
  • transformer core The principles of a transformer core according to the invention can also be used for a reactor core for example.
  • the wound magnetic band-like material is an amorphous material, which is significantly more fragile than comparable shaped metal sheets. Moreover, the thickness of layers of such amorphous material is significantly lower, for example 30 ⁇ m or less. Thus the effect of mechanical stabilization of an amorphous core-part according to the invention is once more increased.
  • At least one plate is connected even and stiff at least on one of their both flat sides with the belonging adjacent slanted area by a glued bond.
  • a glue based connection is rather easy to manufacture whereas at least most of the layers of the wound band-like material are fixed therewith.
  • Glue in its liquid state is filling any unevenness on the slanted areas and enables a mechanical connection with a high mechanical stability.
  • the flat plate connected to a slanted area of a core-part comprises some holes, long-holes or other cut-outs.
  • the mechanical stability is not reduced therewith, but the weight of the transformer is reduced in an advantageous way therewith.
  • the belonging first slanted areas are connected even and stiff with a belonging flat plate.
  • the mechanical stabilizing effect of a plate is highest at the first slanted areas since also the connection inbetween adjacent core-parts are realized by using those first areas.
  • Such a connection could be realized for example by a tape-like material, which is wound around adjacent core sections of adjacent core-parts so that a permanent pressure force is applied on adjacent plates.
  • first slanted areas are connected even and stiff to the same plate inbetween them.
  • Such connection could be realized for examples from both sides by a glue bond.
  • the mechanical stability of the transformer core will be once more increased. It is not required to reopen such a core for arranging a coil on a belonging transformer limb since a conductor of such a coil can also be wound around a limb of a closed core.
  • adjacent first slanted areas are connected even and stiff to belonging individual and stacked plates inbetween them.
  • each belonging first area of a transformer-part is connected to an individual flat plate, whereas the belonging plates are arranged face to face, respectively optionally with one or more additional plates inbetween them.
  • each core-part with connected flat plates thereon can be manufactured separately whereas the core-parts can be connected later on.
  • the process of manufacturing the transformer core is simplified therewith in an advantageous way.
  • the individual and stacked plates are connected by a glued bond, screws or welding. All kinds of connections provide a high mechanical stability, whereas a screw connection is resolvable, so that the core could become demounted.
  • At least one plate is connected even and stiff to a first slanted area and is extending over the dimension of the respective first area so that an overlaying area is formed. Since the desired magnetic characteristics of an amorphous transformer core strongly depend of not exceeding a certain temperature range, an adequate cooling of the transformer is required. By forming such overlapping areas, an additional surface for heat exchange with the environment is gained.
  • At least one extending plate is bent in the overlaying area.
  • the mechanical stability of such a plate for example connected to a respective first slanted area, is increased once again.
  • an additional cooling effect is gained with less required space.
  • the limbs formed in the respective limb areas are surrounded by respective second slanted areas which are connected even and stiff with belonging plates. Connecting also the second slanted areas, which are forming the outer surface of a limb composed from two limb areas, will additionally increase the mechanical stability of the transformer core. Furthermore a mechanical protection of the limb is provided therewith. Such a protection is of special interest, if the conductor of a belonging coil is wound around the limb of a ready manufactured transformer coil. In this case rotating movement is applied on the coil
  • adjacent second slanted areas are connected even and stiff with a common plate.
  • a common plate is overlapping slanted areas of both adjacent core-parts so that the mechanical connection of the core-parts is improved therewith.
  • the common plate is bent, so that an angle inbetween two adjacent slanted areas is compensated therewith. It has to be avoided, that an electrical conducting loop around the circumference of the limb is build by adjacent plates to avoid a short-circuit current there through.
  • the at least one plate consists at least predominantly of stainless steel. This material has a high mechanical stability and can easily become glued together with slanted areas of the amorphous transformer core.
  • At least one of the glued bonds comprises a fibre structure.
  • a glued bond is typically applied in the wet state, so that a mat of for example glass fibre can be arranged therein. Glass fibre will once more increase mechanical strength of the glued bond and of the transformer-core therewith.
  • transformer-core shaped polygonal adapter plates fitted to the polygonal layout are foreseen within the upper and lower yoke areas, which are clamped together each to each other. Due to the shape of the adapter plates a kind of plug is formed therewith within each yoke area, so that a pressure force is applicable thereon. This pressure force additionally increases the mechanical stability of the transformer core.
  • a thread-rod is for example a suitable means for applying such pressure force.
  • a transformer comprising a transformer-core according to the invention and at least three transformer coils, which are arranged around the each limb area.
  • a transformer is characterized by reduced core losses and by an increased efficiency factor therewith.
  • the improved transformer-core furthermore provides an increased mechanical stability of the transformer, so that as well the transport as the arrangement on site is improved therewith in an advantageous way.
  • Fig. 1 shows an exemplary first core part 10 from a wound amorphous band-like material, whereas belonging different layers are indicated with the reference numbers 12, 14, 16.
  • a real core disc comprises for example several thousand of those layers.
  • the core part 10 is hollow rectangular shaped, whereas a core part with round corners, that's layout corresponds more to an oval than to a rectangular shape, has also to be seen as rectangular shaped within the frame of this invention.
  • the core part is characterized by two opposed limb areas 20, 22 an upper 24 and a lower 26 yoke area, which are arranged along a circumferential path 18a, 18b, 18c, 18d. Slanted areas are not explicitly visible in this drawing.
  • Fig. 2 shows a schematic first transformer core 30 in a simplified three-dimensional sketch.
  • Three exemplary core parts 42, 44, 46 are arranged according to a polygonal respectively triangular layout 48.
  • Three limb areas 36, 38, 40 are formed by the respective sections of two adjacent core parts 42, 44, 46 each.
  • the limb areas 36, 38, 40 are foreseen to arrange a belonging coil of the transformer around them.
  • An upper 32 and lower 34 yoke area is formed by the upper respectively lower yokes of the adjacent core parts 42, 44, 46.
  • the triangular corresponds to an equilateral triangle.
  • Fig. 3 shows an exemplary second transformer core 50 from a top view and partly as cross section.
  • Three core parts 52, 54, 56 are arranged according to an equilateral triangular layout.
  • the cross sections of the core parts 52, 54, 56 comprise within their respective limb areas second slanted areas 58, 62 which are forming the outside surface of the respective composed limb.
  • First slanted areas 60, 64 are foreseen, which are arranged face to face. The arrangement face to face enables for example putting a pressure force thereon, so that a mechanical connection of the core discs 52, 54, 56 is simplified therewith.
  • An exemplary first plate 66 is arranged inbetween two adjacent first slanted areas of the transformer parts 52, 54, 56.
  • This plate 66 is for example connected by a glued bond with the belonging first slanted areas.
  • An exemplary second plate 68 is foreseen inbetween two adjacent other first slanted areas.
  • This plate 68 is characterized by bent section 72, so that an overlaying area 70 is formed, which is on one side stabilizing the mounted transformer core and which on the other side has a cooling effect on the transformer core.
  • a real transformer core 50 has to be arranged preferably symmetrically concerning the arrangement of the plates 66, 68.
  • Fig. 4 shows an exemplary third transformer core 80 from a top view and partly as cross section.
  • Two core parts 82, 84 are arranged adjacently face to face at their belonging first slanted areas 90, 94, whereas also second slanted areas 86 are foreseen at the outside surface of the composed limb.
  • first slanted areas 90, 94 U-shaped plates 88, 92 are connected with a glued bond.
  • the U-shape indicated for example by an bent section 96, improves especially mechanical stability of the transformer core 80.
  • Fig. 5 shows an exemplary fourth transformer-core 100 from a top view and partly as cross section.
  • Two core parts 102, 104 are arranged adjacently face to face at their respective first slanted areas.
  • a composed limb is formed by the belonging sections of the core parts 102, 104 and is surrounded by a virtual path, which is indicated with the reference number 108.
  • Common bent plates 106 are foreseen along the path 108 and connected with belonging second slanted areas of the composed limb, for example with a belonging glued bond.
  • the mechanical connection of the core parts 102, 104 is increased therewith.
  • the composed limb is mechanically protected by those plates 106, for example if a coil is wound around such a limb of a mounted transformer core during manufacturing.
  • Fig. 6 shows an exemplary fifth transformer core 110 with a clamping fixture 118 + 120 + 122 + 124 + 126 from a side view.
  • a core part 112 is shown from its side, whereas two other core parts, which all three are mounted together to a transformer core, are not shown.
  • An upper 114 and lower 116 yoke area is formed by the three upper and lower yokes of the core discs.
  • a upper 118 and lower 120 adapter plate is inserted in the inner yoke areas 114 respectively 116, whereas adapter plates 118, 120 and inner yoke areas 114, 116 are adapted concerning their shapes.
  • a pressure force can be applied inbetween both adapter plates 118, 120, which clamps them together.
  • the pressure force is applied by a threaded rod 122 with upper 124 and lower screw nut. Applying such a pressure force increases the mechanical stability of the transformer core 110 in an advantageous way.

Landscapes

  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Manufacturing Cores, Coils, And Magnets (AREA)
  • Coils Of Transformers For General Uses (AREA)

Claims (13)

  1. Noyau de transformateur (30, 50, 80, 100, 110), comprenant au moins trois parties de noyau enroulées creuses de forme rectangulaire (10, 42, 44, 46, 52, 54, 56, 82, 84, 102, 104, 112) enroulées à partir d'un matériau tel que de la bande magnétique amorphe (12, 14, 16), dans lequel deux zones de branches opposées (20, 22) et une zone de culasse supérieure (24) et inférieure (26) sont formées le long d'un chemin périphérique (18a, 18b, 18c, 18d), les parties de noyau (10, 42, 44, 46, 52, 54, 56, 82, 84, 102, 104, 112) comprenant une première (60, 64, 90, 94) et au moins une deuxième (58, 62, 86) zone inclinée parallèles au chemin périphérique (18a, 18b, 18c, 18d) dans la zone de branche respective (20, 22) et
    dans lequel les au moins trois parties de noyau (10, 42, 44, 46, 52, 54, 56, 82, 84, 102, 104, 112) sont connectées selon une disposition polygonale (48) au niveau de leurs premières zones inclinées (60, 64, 90, 94) respectives, lesquelles sont disposées face à face en adjacence,
    caractérisé en ce que
    au moins une plaque plate (66, 68, 88, 92, 106) est prévue dans chaque zone de branche (20, 22), laquelle est connectée à niveau et de manière rigide à une zone inclinée adjacente associée (58, 60, 62, 64, 86, 90, 94), tandis que les premières zones inclinées respectives (60, 64, 90, 94) sont connectées à niveau et de manière rigide à une plaque plate respective (66, 68, 88, 92) et tandis qu'au moins une plaque (66, 68, 88, 92) connectée à niveau et de manière rigide à la première zone inclinée (60, 64, 90, 94) s'étend sur toute la dimension de la première zone respective de telle sorte qu'une zone de recouvrement (70) soit formée et qu'une surface supplémentaire d'échange thermique avec l'environnement soit ainsi obtenue.
  2. Noyau de transformateur selon la revendication 1, caractérisé en ce que l'au moins une plaque (66, 68, 88, 92) est connectée à niveau et de manière rigide au niveau au moins d'un de ses deux côtés plats à la zone inclinée adjacente respective (58, 60, 62, 64, 86, 90, 94) par une liaison collée.
  3. Noyau de transformateur selon la revendication 1 ou 2, caractérisé en ce que des premières zones inclinées adjacentes (60, 64, 90, 94) sont connectées à niveau et de manière rigide à la même plaque (66, 68) située entre elles.
  4. Noyau de transformateur selon l'une quelconque des revendications précédentes, caractérisé en ce que des premières zones inclinées adjacentes (60, 64, 90, 94) sont connectées à niveau et de manière rigide à des plaques individuelles et empilées respectives (88, 92) situées entre elles.
  5. Noyau de transformateur selon la revendication 4, caractérisé en ce que les plaques individuelles et empilées (88, 92) sont connectées par une liaison collée, vissage ou soudage.
  6. Noyau de transformateur selon l'une quelconque des revendications précédentes, caractérisé en ce que l'au moins une plaque étendue est incurvée (72, 96) dans la zone de recouvrement (70).
  7. Noyau de transformateur selon l'une quelconque des revendications précédentes, caractérisé en ce que des branches formées dans les zones de branches respectives sont entourées (108) par des secondes zones inclinées respectives (58, 62, 86) qui sont connectées à niveau et de manière rigide à des plaques respectives (106).
  8. Noyau de transformateur selon la revendication 7, caractérisé en ce que des secondes zones inclinées adjacentes (58, 62, 86) sont connectées à niveau et de manière rigide à une plaque commune (106).
  9. Noyau de transformateur selon la revendication 8, caractérisé en ce que la plaque commune (106) est incurvée.
  10. Noyau de transformateur selon l'une quelconque des revendications précédentes, caractérisé en ce que l'au moins une plaque (66, 68, 88, 92, 106) consiste au moins essentiellement en acier inoxydable.
  11. Noyau de transformateur selon l'une quelconque des revendications 2 à 10, caractérisé en ce qu'au moins une des liaisons collées comprend une structure de fibres.
  12. Noyau de transformateur selon l'une quelconque des revendications précédentes, caractérisé en ce que des plaques d'adaptation polygonales (118, 120) montées selon la disposition polygonale (48) sont prévues à l'intérieur des zones de culasse supérieure (114) et inférieure (116), qui sont serrées l'une contre l'autre.
  13. Transformateur, comprenant un noyau de transformateur (30, 50, 80, 100, 110) selon l'une quelconque des revendications 1 à 12 et trois bobines de transformateur, lesquelles sont agencées autour de chaque zone de branche (20, 22).
EP12000264.7A 2012-01-18 2012-01-18 Noyau de transformateur Active EP2618347B1 (fr)

Priority Applications (4)

Application Number Priority Date Filing Date Title
EP12000264.7A EP2618347B1 (fr) 2012-01-18 2012-01-18 Noyau de transformateur
ES12000264T ES2841062T3 (es) 2012-01-18 2012-01-18 Núcleo de transformador
CN201280067489.3A CN104040651B (zh) 2012-01-18 2012-12-07 变换器芯
PCT/EP2012/005058 WO2013107480A1 (fr) 2012-01-18 2012-12-07 Noyau de transformateur

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP12000264.7A EP2618347B1 (fr) 2012-01-18 2012-01-18 Noyau de transformateur

Publications (2)

Publication Number Publication Date
EP2618347A1 EP2618347A1 (fr) 2013-07-24
EP2618347B1 true EP2618347B1 (fr) 2020-11-18

Family

ID=47469862

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EP12000264.7A Active EP2618347B1 (fr) 2012-01-18 2012-01-18 Noyau de transformateur

Country Status (4)

Country Link
EP (1) EP2618347B1 (fr)
CN (1) CN104040651B (fr)
ES (1) ES2841062T3 (fr)
WO (1) WO2013107480A1 (fr)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US9620280B2 (en) 2014-01-06 2017-04-11 William Alek Energy management system
CN108028120A (zh) * 2015-07-10 2018-05-11 詹姆斯·米尔萨普 磁芯以及具有该磁芯的扼流圈或变压器
KR102368210B1 (ko) * 2021-12-17 2022-03-02 주식회사 케이피일렉트릭 변압기 철심

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Publication number Priority date Publication date Assignee Title
GB879730A (en) * 1958-10-21 1961-10-11 Bbc Brown Boveri & Cie Magnetic core
FR2518306B1 (fr) * 1981-12-11 1986-11-28 Transfix Soc Nouv Transformateur electrique et procede pour sa fabrication
JPH0935973A (ja) * 1995-07-21 1997-02-07 Aichi Electric Co Ltd アモルファス鉄心変圧器及びその製造方法
WO2005027155A1 (fr) * 2003-09-17 2005-03-24 Vijai Electricals Limited Procede de fabrication d'un transformateur triphase a structure centrale triangulaire et transformateur ^triphase possedant une structure centrale triangulaire
DE202007007130U1 (de) * 2007-05-18 2007-08-16 Sunrise Power Transformers Gmbh Amorphe Metallegierung und Alufolien verwendete Transformatoren
ES2406808T3 (es) * 2010-06-08 2013-06-10 Abb Technology Ag Método para la fabricación de núcleos de transformador triangular fabricados de metal amorfo
KR101026357B1 (ko) * 2010-09-10 2011-04-05 주식회사 케이피 일렉트릭 3상 델타형 변압기
CN102290201B (zh) * 2011-04-28 2012-11-21 上海固缘电力科技有限公司 一种非晶合金立体三相变压器铁芯

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Title
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Also Published As

Publication number Publication date
ES2841062T3 (es) 2021-07-07
CN104040651B (zh) 2017-04-05
WO2013107480A1 (fr) 2013-07-25
CN104040651A (zh) 2014-09-10
EP2618347A1 (fr) 2013-07-24

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