EP2400512A1 - Transformateur doté d'une fourche blindée - Google Patents

Transformateur doté d'une fourche blindée Download PDF

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Publication number
EP2400512A1
EP2400512A1 EP10167486A EP10167486A EP2400512A1 EP 2400512 A1 EP2400512 A1 EP 2400512A1 EP 10167486 A EP10167486 A EP 10167486A EP 10167486 A EP10167486 A EP 10167486A EP 2400512 A1 EP2400512 A1 EP 2400512A1
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EP
European Patent Office
Prior art keywords
yoke
electric shielding
transformer
electric
winding
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.)
Withdrawn
Application number
EP10167486A
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German (de)
English (en)
Inventor
Rafael Murillo
Carlos Roy
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.)
ABB Technology AG
Original Assignee
ABB Technology 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 Technology AG filed Critical ABB Technology AG
Priority to EP10167486A priority Critical patent/EP2400512A1/fr
Publication of EP2400512A1 publication Critical patent/EP2400512A1/fr
Withdrawn legal-status Critical Current

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F27/00Details of transformers or inductances, in general
    • H01F27/34Special means for preventing or reducing unwanted electric or magnetic effects, e.g. no-load losses, reactive currents, harmonics, oscillations, leakage fields
    • H01F27/36Electric or magnetic shields or screens
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F27/00Details of transformers or inductances, in general
    • H01F27/34Special means for preventing or reducing unwanted electric or magnetic effects, e.g. no-load losses, reactive currents, harmonics, oscillations, leakage fields
    • H01F27/36Electric or magnetic shields or screens
    • H01F27/363Electric or magnetic shields or screens made of electrically conductive material
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F27/00Details of transformers or inductances, in general
    • H01F27/34Special means for preventing or reducing unwanted electric or magnetic effects, e.g. no-load losses, reactive currents, harmonics, oscillations, leakage fields
    • H01F27/36Electric or magnetic shields or screens
    • H01F27/366Electric or magnetic shields or screens made of ferromagnetic material
    • 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

Definitions

  • the invention relates to electric shielding of yokes of transformers.
  • the invention relates to an electric shielding arrangement for a transformer and a transformer comprising the arrangement.
  • Transformers may be widely used for low, medium, and high voltage applications.
  • the insulation of yokes is made by an insulation film on the yoke without static shielding.
  • a high voltage to yoke insulation is achieved by an airspace between the high voltage surrounded by solid insulation (e.g. casted) and the yoke surface being bare or insulated by some films.
  • the patent application CN-20132312-Y shows a transformer having an iron core provided with a transformer coil at the outer side, and shielded layers arranged between a secondary coil and the iron core and between a secondary coil and a primary coil.
  • an electric shielding arrangement for a transformer is provided with a yoke for connecting limbs of the transformer and an electric shielding device.
  • the electric shielding device is arranged at the yoke between the yoke and a winding of the transformer.
  • the electric shielding device is adapted for shielding the yoke from an electric field of the winding.
  • a cover may be arranged at the yoke facing the windings of the transformer and thereby shielding the yoke from an electric field of the windings.
  • the electric shielding device may act as an electrostatic shield or as a protective shield in order to shield the sharp edges of the yoke itself and all other edges related to the yoke such as edges of yoke laminations, so smoothing the electric field of the transformer with respect to the yoke.
  • This shielding cover is kept bare, not covered by any insulation film.
  • the shielding cover may be insulated according to another embodiment of the invention.
  • the yoke is adapted for connecting at least two limbs. More than one yoke may be provided.
  • the winding may be arranged around at least one of the at least two limbs.
  • the above and below mentioned electric shielding arrangement is applicable to dry transformers with a voltage level above 70kV effectively shielding the yoke of the dry transformer from the electric field generated by the winding of the dry transformer.
  • a dry transformer with HV winding designed as HV disc winding with a voltage level of 70kV and above may be built as compact as a dry transformer with a lower voltage level.
  • This required higher dielectric strength may be provided by the electric shielding device or electric shielding devices which may homogenize the electric field to the ground by a multi-part shielding of the yoke.
  • the yoke is prevented from overheating or losing its required mechanical strength due to discharges of the electric field to the edges of the yoke by the electric shielding device.
  • the electric shielding device may increase the breakdown voltage and may lead to an improvement of shielding between winding of the transformer coil and the yoke compared to a yoke without an electric shielding device.
  • the electric shielding device is adapted to shield the yoke from a winding of the transformer, when the arrangement is mounted to the transformer, thus smoothing an electric field between the winding and the yoke of the transformer.
  • the electric shielding device has a shape corresponding to the shape of the yoke such that the yoke is covered by the electric shielding device.
  • the shape may be partly cylindrical or oval layer like or may be any shape which is adjusted to the edges.
  • the electric shielding device comprises a layer shape adapted to avoid sharp edges.
  • the electric shielding device comprises a conductive material.
  • the electric shielding device comprises a thin rectangular piece of one of aluminium and copper and may be ground connected. According to another embodiment of the invention the electric shielding device is connected to the metallic structure of the transformer (the clamps).
  • the electric shielding device may comprise a mixture of aluminium and copper.
  • the electric shielding device may comprise any other conductive material such as carbon steel or non-magnetic steel, and/or may comprise semiconductive material, since semiconductive material would also smooth the electric field.
  • the electric shielding device covers edges of the transformer yoke which are caused by yoke laminations.
  • the yoke laminations may be steel plates and may have a rectangular form or cross section or generally a polygonal form or cross section.
  • the electric shielding device may act as an electrostatic shield or as a protective shield in order to shield the (sharp) edges of yoke laminations, so smoothing the electric field of the transformer with respect to the yoke.
  • a ground connecting device which is adapted to ground connect the electric shielding device to ground potential.
  • the ground connection device may comprise a first and a second ground connecting part as mentioned below.
  • Such a grounding of the electric shielding device by a ground connecting device to ground potential may provide for the yoke being free of an electric field of the windings with essentially no electric potential.
  • the electric shielding device has the electric potential and is affected by the electric field of the winding and not the yoke.
  • the ground connecting device may be a copper strip.
  • the ground connecting device is covered or shielded by the electric shielding device.
  • an insulation material is provided, the insulation material covering the electric shielding device for increasing the dielectric stability of the transformer.
  • the cover of the electric shielding device with an insulation material such as an insulating film may increase the electrical field that the electric shielding device may withstand without the development of a discharge.
  • the insulating film may be a semitransparent insulating film.
  • the insulating film may be one of a polyester film and a fiberglass film.
  • a dielectric shielding of the yoke from an electric field of the winding is provided by the electric shielding device, which may be a copper sheet or copper foil, and/or an insulating layer applied at the yoke, the insulating layer possibly having a high epsilon, for example an epsilon of 10.
  • the electric field at the yoke may be smoothed.
  • the yoke is a split yoke, comprising a first yoke part and a second yoke part, wherein the electric shielding device comprises a first electric shielding element and a second electric shielding element.
  • the first electric shielding element is arranged at the first yoke part between the first yoke part and the winding of the transformer.
  • the second electric shielding element is arranged at the second yoke part between the second yoke part and the winding of the transformer.
  • the first electric shielding element is adapted for shielding the first yoke part from an electric field of the winding
  • the second electric shielding element is adapted for shielding the second yoke part from an electric field of the winding.
  • a yoke may be split in two halves, a first yoke part, and a second yoke part.
  • a first and second electric shielding element possibly in form of covers, may be arranged at the first and second yoke parts facing the windings of the transformer and thereby shielding the first and second yoke parts from an electric field of the windings.
  • the first and second electric shielding elements may act as electrostatic shields or as protective shields in order to shield the sharp edges of the first and second yoke parts themselves and all other edges related to the first and second yoke parts such as edges of first and second yoke laminations, so smoothing the electric field of the transformer with respect to the first and second yoke parts.
  • This shielding covers may be kept bare, not covered by any insulation film.
  • the shielding covers may be insulated according to another embodiment of the invention.
  • the first and second yoke parts are adapted for connecting at least two limbs. More than one first and second yoke parts may be provided.
  • the winding may be arranged around at least one of the at least two limbs.
  • the above and below mentioned electric shielding arrangement is adapted to effectively shield the first and second yoke parts of a dry transformer (possibly a dry transformer with a voltage level above 70 kV) from the electric field generated by the winding of the dry transformer.
  • a dry transformer with HV winding designed as HV disc winding with a voltage level of 70kV and above may be built as compact as a dry transformer with a lower voltage level.
  • first and second electric shielding elements which may homogenize the electric field to the ground by a multi-part shielding of the first and second yoke parts and may at the same time provide for an efficient cooling by cooling ducts in between the two halves of the split yoke.
  • the first and second yoke part is prevented from overheating or losing its required mechanical strength due to discharges of the electric field to the edges of the first and second yoke parts by the electric shielding elements.
  • the first and/or second electric shielding elements may comprise a mixture of aluminium and copper.
  • the first and/or second electric shielding elements may comprise any other conductive material such as carbon steel or non-magnetic steel, and/or may comprise semiconductive material, since semiconductive material would also smooth the electric field.
  • the first and second electric shielding elements may increase the breakdown voltage and may lead to an improvement of shielding between winding of the transformer coil and the first and second yoke parts compared to first and second yoke parts without electric shielding elements.
  • the first and/or second electric shielding elements are adapted to shield the first and/or second yoke parts from a winding of the transformer, when the arrangement is mounted to the transformer, thus smoothing an electric field between the winding and the first and/or second yoke parts of the transformer.
  • the first and/or second electric shielding elements have a shape corresponding to the shape of the first and/or second yoke parts such that the first and/or second yoke parts are covered by the first and/or second electric shielding elements.
  • the shape may be partly cylindrical or oval layer like or may be any shape which is adjusted to the first and/or second edges.
  • the first and/ or second electric shielding elements comprise a layer shape adapted to avoid sharp edges.
  • the first and/or second electric shielding elements comprise a conductive material.
  • first and/or second electric shielding elements comprise a thin rectangular piece of one of aluminum and copper and may be ground connected. According to another embodiment of the invention the first and/or second electric shielding elements are connected to the metallic structure of the transformer (the clamps).
  • the first and/or second electric shielding elements may comprise a mixture of aluminium and copper.
  • the first and/or second electric shielding elements may comprise any other conductive material such as carbon steel or non-magnetic steel, and/or may comprise semiconductive material, since semiconductive material would also smooth the electric field.
  • a yoke cooling duct may be present between the first and the second yoke part for cooling the transformer by cooling agents such as oil or air or water.
  • cooling agents such as oil or air or water.
  • the cooling agent is air.
  • the arrangement may comprise more than one yoke cooling duct, more than one yoke, and more than one electric shielding device each being arranged at a yoke between the yoke and the winding of the transformer.
  • the first yoke part comprises first yoke laminations which form first edges of the first yoke part, wherein the first electric shielding element is covering the first edges.
  • the second yoke part comprises second yoke laminations which form second edges of the second yoke part, wherein the second electric shielding element is covering the second edges
  • the first and second yoke laminations may be steel plates and may have a rectangular form or cross section or generally a polygonal form or cross section.
  • the first and second electric shielding elements may act as electrostatic shields or as protective shields in order to shield the (sharp) edges of first and second yoke laminations, so smoothing the electric field of the transformer with respect to the first and second yoke parts.
  • the arrangement further comprises a first ground connecting part, which is adapted to ground connect the first electric shielding element to ground potential.
  • the first electric shielding element is connected to the transformer metallic structure, which is ground connected.
  • the arrangement further comprises a second ground connecting part, which is adapted to ground connect the second electric shielding element to ground potential.
  • the second electric shielding element is connected to the transformer metallic structure, which is ground connected.
  • Such a grounding of the first and/or second electric shielding elements by a first and/or second ground connecting part of a ground connecting device to ground potential may provide for the first and/or second yoke part being free of an electric field of the windings with essentially no electric potential.
  • the first and/or second electric shielding parts have the electric potential and are affected by the electric field of the winding and not the first and/or second yoke parts.
  • first and/or second ground connecting parts may be copper strips.
  • first and/or second ground connecting parts are covered or shielded by the first and/or second electric shielding elements.
  • one of the first, second, or both electric shielding elements comprises an insulating material covering the first, second, or both electric shielding elements for increasing the dielectric stability of the transformer.
  • the cover of the first and/or second electric shielding element with a first and/or second insulation material such as an insulating film may increase the electrical field that the first and/or second electric shielding element may withstand without the development of a discharge.
  • the insulating film may be a semitransparent insulating film.
  • the insulating film may be one of a polyester film and a fiberglass film.
  • a dielectric shielding of the first and/or second yoke part from an electric field of the winding is provided by the first and/or second electric shielding element, which may be a copper sheet or copper foil, and/or an insulating layer applied at the first and/or second yoke part, the insulating layer possibly having a high epsilon, for example an epsilon of 10.
  • the electric field at the first and/or second yoke part may be smoothed.
  • a third electric shielding element is provided with a clamp attached at the yoke and stabilizing the yoke.
  • the third electric shielding element is arranged at the clamp between the clamp and the winding of the transformer and is adapted for shielding the clamp from an electric field of the winding.
  • a cover may be placed on a clamp facing the winding, and the cover may act as an electrostatic shield or as a protective shield in order to shield the sharp edges of the clamp itself and all other metallic edges related to the clamp, so smoothing the electric field of the transformer with respect to the clamps.
  • This shielding cover is kept bare, not covered by any insulation film.
  • the shielding cover may be insulated according to another embodiment of the invention.
  • the clamp is adapted for holding together or mechanically fixing or stabilizing a yoke of the transformer to the coil(s) of the transformer.
  • the third electric shielding element may cover the clamp and/or may have a vat- or trough-like form covering the clamp.
  • the above mentioned third electric shielding element is applicable to dry transformers with a voltage level above 70kV effectively shielding the clamp of the dry transformer from the electric field generated by the winding of the dry transformer.
  • a dry transformer with HV winding designed as HV disc winding with a voltage level of 70kV and above may be built as compact as a dry transformer with a lower voltage level.
  • This required higher dielectric strength may be provided by the third electric shielding element which may homogenize the electric field to the ground such that the clamp is prevented from overheating or losing its required mechanical strength due to discharges of the electric field to the edges of the clamp by the third electric shielding element.
  • the third electric shielding element may comprise a material selected from the group consisting of steel, and aluminium, and generally any conducting material with stabilizing mechanical properties.
  • the third electric shielding element may increase the breakdown voltage and may lead to a 25% improvement of shielding between winding of the transformer coil and the clamps compared to clamps without a third electric shielding element according to impulse voltage tests.
  • the clamp may have rounded edges forming a rounded clamp that may have the function of the third electric shielding element, shielding the clamp from an electric field generated by the winding or windings of the transformer.
  • the third electric shielding element comprises rounded edges.
  • Such a third electric shielding element with rounded edges may smooth an electric field of the winding of a transformer with respect to the transformer clamp by avoiding field peaks or discharges at edges of the clamp, thus preventing the clamp from overheating or losing its required mechanical strength.
  • the first and/or second electric shielding element comprises a first electric shielding element part and a second electric shielding element part which are separate from each other.
  • a transformer comprising an arrangement of anyone of the above-mentioned embodiments, at least two limbs, a winding arranged around at least one of the at least two limbs, and a yoke connecting the at least two limbs.
  • Such a transformer with an electric shielding arrangement may effectively shield the yoke or the first and/or second yoke parts of a transformer from the electric field generated by the winding of the transformer.
  • a dry transformer with HV winding designed as HV disc winding with a voltage level of 70kV and above may be built as compact as a dry transformer with a lower voltage level.
  • This required higher dielectric strength may be provided by the electric shielding device or the first and/or second electric shielding element which may homogenize the electric field to the ground such that the yoke or the first and/or second yoke part is prevented from overheating or losing its required mechanical strength due to discharges of the electric field to the edges of the yoke or first and/or second yoke part by the electric shielding device or first and/or second electric shielding element.
  • the following embodiments may all have the above mentioned advantages compared to a transformer without the above and below mentioned electric shielding arrangement.
  • a transformer is provided with the yoke being a split yoke with a first yoke part and a second yoke part as mentioned according to embodiments above.
  • the transformer further comprises at least one cooling duct and at least one spacer.
  • the at least one spacer is adapted for defining a space between the first yoke part and the second yoke part.
  • the at least one cooling duct is defined by the space between the first yoke part and the second yoke part.
  • the at least one spacer is adapted for pressing the first electric shielding element and the second electric shielding element both partly extending in the cooling duct to the first yoke part and to the second yoke part thus fastening the first and second electric shielding elements.
  • the transformer may be a dry type transformer.
  • the windings of the transformer are high voltage windings or low voltage windings.
  • the transformer is adapted for electrically shielding the high voltage and/or low voltage windings from the yoke.
  • the transformer is applicable at a 72.5 kV level and at a level above and/or below 72.5 kV level.
  • Fig. 1 schematically shows a cross-sectional view of an electric shielding arrangement for a transformer 101 with a yoke 109, 124, 126 connecting limbs 113 and an electric shielding device 112.
  • the electric shielding device 112 is arranged at the yoke 109, 124, 126 covering the yoke 109 between the yoke 109 and a winding 103 of the transformer 101.
  • the electric shielding device 112 is adapted for shielding the yoke 109, 124, 126 from an electric field of the winding 103.
  • the electric shielding device 112 may be a rounded cover or an electrostatic shield being placed onto the yoke 109, 124, 126 in an area facing the winding 103 of the transformer 101 and is adapted to shield the sharp edges of the yoke 109, 124, 126 and thus smoothing the electric field of the transformer 101.
  • the electric shielding device 112 may be covered with an insulation film.
  • the electric shielding device 112 may be adapted to shield the yoke 109, 124, 126 from a winding 103 of the transformer 101, when the arrangement is mounted to the transformer 101, thus smoothing an electric field between the windings 103 and the yoke 109, 124, 126 of the transformer 101.
  • the electric shielding device 112 may have a cylindrical or an oval layer shape or a shape corresponding to the shape of the yoke 109, 124, 126 such that the yoke 109, 124, 126 is covered by the electric shielding device 112.
  • the electric shielding device 112 may further comprise a layer shape adapted to avoid sharp edges.
  • the electric shielding device may have a conductive material and may be a thin rectangular piece of aluminium or copper or a mixture thereof or may have a semiconductive material, and may be ground connected by a ground connecting device 114.
  • the ground connecting device 114 is adapted to ground connect the electric shielding device 112 to ground potential.
  • the electric shielding device 112 may comprise an insulating film covering the electric shielding device 112 in order to avoid a short circuit between yoke steel plates that would lead to higher limb 113 losses.
  • the cover with an insulating material or film of the electric shielding device 112 may increase the electric field that the electric shielding device 112 can withstand without the development of a discharge.
  • the insulating film may be a semitransparent insulating film.
  • the electric shielding device 112 may comprise a first electric shielding element part and a second electric shielding element part which are separate from each other, meaning that the electric shielding device 112 may be separated in several parts.
  • the transformer 101 is adapted for electrically shielding the windings 103, which may be high voltage or low voltage windings 103, from the yoke 109, 124, 126.
  • the transformer 101 of Fig. 1 may be applicable at a 72.5 kV level or at a level lower or higher than a 72.5 kV level.
  • a clamp 102, 130, 132 is attached at the yoke 109, 124, 126, and stabilizes the yoke 109, 124, 126 of the transformer 101, and a third electric shielding element 100, 140, 142 is arranged at the clamp 102, 130, 132 between the yoke 109, 124, 126 and a winding 103 of the transformer 101.
  • the third electric shielding element 100, 140, 142 is adapted for shielding the clamp 102, 130, 132 from an electric field of the winding 103.
  • the clamp 102, 130, 132 is adapted for holding together or mechanically fixing the yoke 109, 124, 126 of the transformer 101.
  • the yoke 109, 124, 126 connects at least two limbs 113 of the transformer 101.
  • the third electric shielding element 100, 140, 142 may comprise rounded edges 105, 106.
  • the third electric shielding element 100, 140, 142 may project over the clamp edges 104.
  • the transformer 101 comprises the above mentioned arrangement and at least two limbs 113, in particular three limbs 113, each comprising a first limb end 120 and a second limb end 122.
  • a winding 103 is arranged around at least one of the at least two limbs 113, in particular a winding 103 is arranged at three limbs 113.
  • a first yoke 109, 124 connects the three limbs 113 at the first limb ends 120.
  • a second yoke 109, 126 connects the three limbs 113 at the second limb ends 122.
  • the electric shielding arrangement comprises first clamps 102, 130 attached at the first yoke 109, 124 to stabilize the first yoke 109, 124, and second clamps 102, 132 attached at the second yoke 109, 124 to stabilize the second yoke 109, 126.
  • First third electric shielding elements 100, 140 are arranged at the first clamps 102, 130 between the first yoke 109, 126 and three windings 103 each of the windings 103 arranged around each of the three limbs 113.
  • Second third electric shielding elements 100, 142 are arranged at the second clamps 102, 132 between the second yoke 109, 126 and the three windings 103.
  • First rounded edges 105 are arranged at a longitudinal side 150 of the clamp 102, 130, 132 facing the windings 103 of the transformer 101, wherein the windings 103 may be high voltage or low voltage windings.
  • the longitudinal side 150 may be horizontal, and parallel to the yoke 109, 124, 126 limb 113 connecting side and perpendicular to the limbs 113 as indicated in Fig. 1 .
  • the first rounded edges 105 may arranged at clamp edges 104 which may be metallic clamp edges 104 related to the clamp 102, 130, 132.
  • the third electric shielding element 100, 140, 142 may act as an electrostatic shield to shield the sharp clamp edges 104 itself and all other metallic clamp edges 104 related to the clamp 102, 130, 132, thus smoothing the electric field of the transformer 101.
  • Second rounded edges 106 are arranged at the first end 107 and at the second end 108 of the third electric shielding element 100, 140, 142 at a transverse side 152 of the clamp 102, 130, 132.
  • the transverse side 152 may be horizontal, perpendicular to the longitudinal side 150 and to a vertical side parallel to the limbs 113.
  • the first or second rounded edges 105, 106 may have a radius of 10-45 mm, in particular 30 mm.
  • the first rounded edges 105 have a different radius at a first region 110 at a yoke 109, 109, 124, 126 of the transformer 101 then at a second region 111 that is not at the yoke 109, 124, 126.
  • the third electric shielding element 100, 140, 142 may be grounded by being connected to the clamp 102, 130, 132, for example by being welded to the clamp 102, 130, 132.
  • the first rounded edges 105 may have a length of 1/8 of a circumference of a sphere defined by the radius of the first rounded edges 105 or in other words the first rounded edges 105 may have a length of 1/8 of a sphere.
  • the transformer 101 may be a dry type transformer 101.
  • the third electric shielding element 100, 140, 142 is arranged on all clamps 102, 130, 132 of the transformer 101, wherein the transformer 101 is adapted for electrically shielding the windings 103 which may be high voltage windings 103 or low voltage windings 103, or both, to the clamp 102, 130, 132.
  • Fig. 2 schematically shows a cross-sectional view of the yoke 109 of Fig. 1 with two clamps 102 being arranged at the yoke 109.
  • the yoke 109 comprises yoke laminations 202 which form edges 201 of the yoke 109.
  • the electric shielding device 112 is covering the edges 201.
  • Fig. 3 schematically shows a cross-sectional view of an electric shielding arrangement for a transformer 101 with a first yoke part 109 and a first electric shielding element 112 and a second yoke part 301 and a second electric shielding element 302.
  • Fig. 3 thus shows a split yoke 109, 301 with two halves, a first yoke part 109, and a second yoke part 301.
  • the first electric shielding element 112 is arranged at the first yoke part 109 between the first yoke part 109 and a winding of the transformer (not shown, see Fig. 1 ).
  • the first electric shielding element 112 is adapted for shielding the first yoke part 109 from an electric field of the winding.
  • the second electric shielding element 302 is arranged at the second yoke part 301 between the second yoke part 301 and a winding of the transformer (not shown, see Fig. 1 ).
  • the second electric shielding element 302 is adapted for shielding the second yoke 301 from an electric field of the winding.
  • a yoke cooling duct 312 may be present between the first yoke part 109 and the second yoke part 301 for cooling the transformer 101 by a cooling agent such as oil, water or air. Any suitable cooling agent may be used which is adapted for cooling the transformer 101 via a yoke cooling duct 312.
  • the first yoke part 109 comprises first yoke laminations 202 which form first edges 201 of the first yoke part 109, wherein the first electric shielding element 112 is covering the first edges 201.
  • the second yoke part 301 comprises second yoke laminations 303 which form second edges 303 of the second yoke part 301, wherein the second electric shielding element 302 is covering the second edges 303.
  • the first and second yoke laminations 202, 304 may be steel plates and may have a rectangular form or cross-section or generally a polygonal form or cross-section.
  • the first electric shielding element 112 is adapted to shield the first yoke part 109 from a winding of a transformer, when the arrangement is mounted to the transformer, thus smoothing an electric field between the winding and the first yoke part 109 of the transformer.
  • the second electric shielding element 302 is adapted to shield the second yoke part 301 from a winding of the transformer, when the arrangement is mounted to the transformer, thus smoothing an electric field between the winding and the second yoke part 301 of the transformer 101.
  • the first and the second electric shielding elements 112, 302 may have a cylindrical-like oval layer shape.
  • the form of the first and second electric shielding elements 112, 302 may comprise a layer shape adapted to avoid sharp edges.
  • the first and second electric shielding elements 112, 302 extend for a distance D, which may be 100 mm, and possibly 15 mm in a bottom yoke (see 109, 126 of Fig. 1 ) and 50 mm in an upper yoke (see 109, 124 of Fig. 1 ), in a direction inside the cooling duct 312.
  • the first and the second electric shielding elements 112, 302 may comprise a conductive material such as aluminium or copper, or a mixture of both, and may be ground connected.
  • the yoke 109, 301 is split in two halves by means of placing some insulating strips or spacers 314, with a strip width of typically 14-18mm.
  • the strips or spacers 314 may be placed vertically every 70 mm along the length of the yoke 109, 301.
  • the strips or spacers 314 may have the same height as the yoke 109, 301.
  • the insulating films of the electric shielding elements 112, 302 and the electric shielding elements 112, 302 itself may be introduced partially into the duct 312 (for the distance D of possibly 15, 50, 100 mm).
  • the strips or spacers 314 may be fibre-glass rods 314 providing a defined space between the two halves of the yoke 109, 301, the first yoke part 109, and the second yoke part 301, respectively, and providing cooling ducts 312.
  • the fibre-glass rods 314 may press first electric shielding element 112 and the second shielding element 302, which may both be copper sheets, and/or the insulating films of the electric shielding elements 112, 302 to the first and second yoke parts 109, 301 in the region of the cooling duct 312.
  • the fibre-glass rods 314 may be fastening means for the electric shielding elements 112, 302.
  • a first ground connecting part 114 is adapted to ground connect the first electric shielding element 112 to ground potential.
  • the first ground connecting part 114 may be connected to the first electric shielding element 112 and to a first earthing point 308 which is attached to the clamp 102.
  • a second ground connecting part 306 is adapted to ground connect the second electric shielding element 302 to ground potential.
  • the second ground connecting part 306 may be connected to the second electric shielding element 302 and to a second earthing point 310 which is attached to the clamp 102.
  • the yoke 109, 301 is a split yoke 109, 301 with a first yoke part 109 and a second yoke part 301.
  • the transformer 101 further comprises at least one cooling duct 312 and at least one spacer 314, wherein the at least one spacer 314 is adapted for defining a space between the first yoke part 109 and the second yoke part 301, wherein the at least one cooling duct 312 is defined by the space between the first yoke part 109 and the second yoke part 301, wherein the at least one spacer 314 is adapted for pressing the first electric shielding element 112 and the second electric shielding element 302 both partly extending into the cooling duct 312 to the first yoke part 109 and to the second yoke part 301 thus fastening the first and second electric shielding elements 112, 301.
  • the first and second electric shielding elements 112, 302 may comprise an insulating film covering the first and second electric shielding elements 112, 302 in order to avoid a short circuit between first and second yoke steel plates or yoke laminations 202, 304 that would lead to higher core losses.
  • the cover with an insulating film of the first and second electric shielding elements 112, 302 may increase the electrical field that the first and second electric shielding elements 112, 302 may withstand without the development of a discharge.
  • the insulating film may be a semitransparent insulating film.
  • Fig. 4 schematically shows a perspective view of a bottom part of a transformer 101 with an electric shielding arrangement for the transformer 101 comprising a first yoke part 109 and a second yoke part (not shown), and a first electric shielding element 112 and a second electric shielding element 302 as described in Fig. 3 .
  • a yoke cooling duct 312 is present between the first yoke part 109 and the second yoke part 301 for cooling the transformer 101 by a cooling agent such as oil or air.
  • Insulating strips or spacers 314 are placed vertically to the first and second yoke parts 109, 301 heights, possibly every 70 mm along the length of the first and second yoke parts 109, 301 as described in Fig. 3 .
  • the first electric shielding element 112 is arranged at a first yoke part 109 covering the first yoke part 109 and facing a winding 103 of the transformer 101.
  • the second electric shielding element 302 is arranged at the second yoke part covering the second yoke part and facing a winding 103 of the transformer 101.
  • a first ground connecting part 114 which may be a copper strip 114, is ground connecting the first electric shielding element 112 to ground potential, and connected to the clamp 102.
  • a second ground connecting part 306, which may be a copper strip 306, is ground connecting the second electric shielding element 302 to ground potential, and connected to the clamp 102.
  • the first and second electric shielding elements 109, 302 are covered by an insulating film, which may be a semitransparent insulating film increasing the electric field that the first and second electric shielding elements 112, 302 can withstand without the development of a discharge.
  • FIG. 5 shows in a different perspective view the bottom part of the transformer 101 as shown in Figure 4 .
  • the third electric shielding elements 100 covering the clamp 102 and the ground connecting parts 114, 306 are shown.
  • Fig. 6 schematically shows a perspective view of a part of a transformer 101 depicting the third electric shielding element 100 which is covering in a vat like shape the clamp 102 and the first ground connecting part 114.
  • the first ground connecting part 114 made of a copper strip is grounding the first electric shielding element 112 to the clamp 102 and may be fixed to the electric shielding element 112 by a screw (not shown).
  • insulators 601 supporting mechanically the coils of the transformer 101 are arranged above the third electric shielding element 100 insulators 601 supporting mechanically the coils of the transformer 101 are arranged.
  • the word “comprising” does not exclude other elements or steps, and the indefinite article “a” or “an” does not exclude a plurality.
  • a single electric shielding arrangement, , or a single transformer, a single yoke or clamp, or a single electric shielding device, or a single first, second, or third electric shielding element may fulfil the function of several items recited in the claims.
  • the mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures may not be used to advantage. Any reference signs in the claims should not be construed as limiting the scope.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Regulation Of General Use Transformers (AREA)
EP10167486A 2010-06-28 2010-06-28 Transformateur doté d'une fourche blindée Withdrawn EP2400512A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP10167486A EP2400512A1 (fr) 2010-06-28 2010-06-28 Transformateur doté d'une fourche blindée

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Application Number Priority Date Filing Date Title
EP10167486A EP2400512A1 (fr) 2010-06-28 2010-06-28 Transformateur doté d'une fourche blindée

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EP2400512A1 true EP2400512A1 (fr) 2011-12-28

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EP10167486A Withdrawn EP2400512A1 (fr) 2010-06-28 2010-06-28 Transformateur doté d'une fourche blindée

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106373761A (zh) * 2016-10-11 2017-02-01 山东电力设备有限公司 一种变压器漏磁控制屏蔽结构
US10243452B2 (en) 2014-11-05 2019-03-26 Abb Schweiz Ag Electromagnetic shield for use in a power system

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH347573A (de) * 1955-10-12 1960-07-15 Gen Electric Abgeschirmte Induktionseinrichtung
DE1563219A1 (de) * 1966-05-12 1969-11-27 Licentia Gmbh Anordnung zur Abschirmung der Joche von Eisenkernen von Transformatoren
US4725804A (en) * 1984-05-24 1988-02-16 Square D Company Electrostatic fork shield
CN201323124Y (zh) 2008-12-19 2009-10-07 天津市特变电工变压器有限公司 一种变频启动用整流变压器

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH347573A (de) * 1955-10-12 1960-07-15 Gen Electric Abgeschirmte Induktionseinrichtung
DE1563219A1 (de) * 1966-05-12 1969-11-27 Licentia Gmbh Anordnung zur Abschirmung der Joche von Eisenkernen von Transformatoren
US4725804A (en) * 1984-05-24 1988-02-16 Square D Company Electrostatic fork shield
CN201323124Y (zh) 2008-12-19 2009-10-07 天津市特变电工变压器有限公司 一种变频启动用整流变压器

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10243452B2 (en) 2014-11-05 2019-03-26 Abb Schweiz Ag Electromagnetic shield for use in a power system
CN106373761A (zh) * 2016-10-11 2017-02-01 山东电力设备有限公司 一种变压器漏磁控制屏蔽结构

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