EP3076409A1 - Electrical connection between separated windings - Google Patents
Electrical connection between separated windings Download PDFInfo
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- EP3076409A1 EP3076409A1 EP15161614.1A EP15161614A EP3076409A1 EP 3076409 A1 EP3076409 A1 EP 3076409A1 EP 15161614 A EP15161614 A EP 15161614A EP 3076409 A1 EP3076409 A1 EP 3076409A1
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- EP
- European Patent Office
- Prior art keywords
- winding
- electrode
- connecting element
- conductor
- electrical component
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- 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.)
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- 238000004804 winding Methods 0.000 title claims abstract description 138
- 239000004020 conductor Substances 0.000 claims abstract description 38
- 230000001939 inductive effect Effects 0.000 claims abstract description 38
- 238000009413 insulation Methods 0.000 claims description 24
- 230000004888 barrier function Effects 0.000 claims description 22
- 238000002955 isolation Methods 0.000 description 16
- 238000010292 electrical insulation Methods 0.000 description 3
- 230000005684 electric field Effects 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 241000724421 Agrostis castellana Species 0.000 description 1
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 description 1
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 1
- 229910052782 aluminium Inorganic materials 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 239000011248 coating agent Substances 0.000 description 1
- 238000000576 coating method Methods 0.000 description 1
- 229910052802 copper Inorganic materials 0.000 description 1
- 239000010949 copper Substances 0.000 description 1
- 230000001419 dependent effect Effects 0.000 description 1
- 125000006850 spacer group Chemical group 0.000 description 1
- 238000003466 welding Methods 0.000 description 1
Images
Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F27/00—Details of transformers or inductances, in general
- H01F27/34—Special means for preventing or reducing unwanted electric or magnetic effects, e.g. no-load losses, reactive currents, harmonics, oscillations, leakage fields
- H01F27/36—Electric or magnetic shields or screens
- H01F27/363—Electric or magnetic shields or screens made of electrically conductive material
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F27/00—Details of transformers or inductances, in general
- H01F27/28—Coils; Windings; Conductive connections
- H01F27/2823—Wires
- H01F27/2828—Construction of conductive connections, of leads
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F27/00—Details of transformers or inductances, in general
- H01F27/34—Special means for preventing or reducing unwanted electric or magnetic effects, e.g. no-load losses, reactive currents, harmonics, oscillations, leakage fields
- H01F27/36—Electric or magnetic shields or screens
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F5/00—Coils
- H01F5/04—Arrangements of electric connections to coils, e.g. leads
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F27/00—Details of transformers or inductances, in general
- H01F27/28—Coils; Windings; Conductive connections
- H01F27/30—Fastening or clamping coils, windings, or parts thereof together; Fastening or mounting coils or windings on core, casing, or other support
- H01F27/303—Clamping coils, windings or parts thereof together
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F27/00—Details of transformers or inductances, in general
- H01F27/28—Coils; Windings; Conductive connections
- H01F27/32—Insulating of coils, windings, or parts thereof
- H01F27/324—Insulation between coil and core, between different winding sections, around the coil; Other insulation structures
Definitions
- the invention relates to a connecting element for the electrical connection of spaced-apart windings of an inductive electrical component and an inductive electrical component with spaced-apart windings.
- the invention relates to the electrical connection of windings of transformers for high-voltage DC transmission, which are designed for high test AC voltages and test DC voltages of several hundred kilovolts.
- transformers often have a plurality of windings connected in parallel.
- discharges of windings are led out separately in the axial, radial or obliquely out of the winding.
- These leaks are often led out, especially for high test voltages, in an electrode with feedthroughs of the transformer and then out of the boiler of the transformer.
- the connection of the parallel branches preferably also takes place in electrodes.
- the invention has for its object to provide an improved connection element for the electrical connection of spaced-apart windings of an inductive electrical component and an improved inductive electrical component with spaced-apart windings.
- Such a connecting element allows by a corresponding design and electrical insulation of the tubular electrode a particularly space-saving connection of windings of an inductive electrical component, in particular a transformer or a choke coil, and thus a compact design of the respective component.
- the simple design of the connecting element also requires only a small amount of material and is therefore particularly cost-effective.
- An embodiment of the invention provides that the electrode is composed of at least two interconnected electrode parts.
- This embodiment of the invention advantageously facilitates the assembly of the connecting element by the electrode can be assembled by connecting the electrode parts to the conductor after connecting the electrical conductors.
- the electrode has a cross section with a circular or elliptical or rectangular outer contour.
- Cross-sections with a circular or elliptical contour advantageously avoid edges or tips of the electrode, which can lead to high electric field strengths.
- Cross sections with a rectangular contour advantageously facilitate the storage and transport of the electrodes or electrode parts.
- a further embodiment of the invention provides that the electrode has two straight end sections and a bent central section connecting the two end sections, so that longitudinal axes of the two end sections are at an intersection angle which is between 90 degrees and 180 degrees, and is particularly preferably approximately 100 degrees , to cut.
- This embodiment of the invention advantageously allows a particularly space-saving connection of windings by bent connecting elements.
- a further embodiment of the invention provides that the electrode has a cross section whose outer diameter is at least 60 mm and at most 300 mm.
- Electrodes with cross sections of these dimensions have proven to be particularly suitable for connecting windings.
- An outer diameter of a cross section is understood here to be a maximum extent of the cross section.
- each end of the electrode is bent into a cavity surrounded by the electrode.
- This embodiment of the invention advantageously avoids the occurrence of high electric field strengths at the electrode ends caused by peaks or edges of the electrode ends.
- a further embodiment of the invention provides that the electrode outer surface of the electrode is surrounded by an electrically insulating and applied to the electrode outer surface insulating jacket, in particular of an insulating jacket made of a paper.
- the insulating jacket is further surrounded by at least one electrically insulating and spaced from the insulation jacket insulation barrier, which is preferably made of pressboard.
- the connecting element can be given a high electrical insulation capacity and in particular an oil path (in the case of an inductive electrical component with an oil-filled grounded housing) in the region of the connecting element advantageously in a plurality of oil passages are divided, so that the connecting element can be arranged at a relatively small distance from a housing of the inductive electrical component.
- an oil path in the case of an inductive electrical component with an oil-filled grounded housing
- An inductive electrical component according to the invention comprises two windings spaced apart from one another, between which two connecting elements according to the invention are arranged.
- a first winding has a first winding end, which is connected via a conductor of a first connecting element with a first electrical connection, and a second winding end, which is connected via a conductor of the second connecting element with a second electrical connection on.
- Such an inductive electrical component thus has (at least) two windings, which are connected to one another via two connecting elements according to the invention with the advantages already mentioned above, wherein one of the windings is connected to electrical connections via the conductors of the connecting elements.
- this allows a compact and cost-effective connection of the windings of the device.
- the conductor of the first connection element connected to the first winding end of the first winding is preferably connected to the first electrical connection via a first connection conductor which extends through a region of a first winding end of the second winding.
- the conductor of the second connection element connected to the second winding end of the first winding is preferably connected to the second electrical connection via a second connection conductor which extends through a region of a second winding end of the second winding.
- inventions of the invention thus provide for guiding at least one connecting conductor for connecting a winding with an electrical connection through a region of another winding. This advantageously additional space required for the connection of a winding with an electrical connection is avoided.
- the windings are further connected in parallel to each other electrically.
- the inductive electrical component preferably has a magnetizable component core with a plurality of legs, with exactly one winding running around each leg.
- the inductive electrical component is also preferably designed as a transformer or a choke coil.
- FIG. 1 shows an active part 2 of a trained as a transformer inductive electrical component 1 in a section of a perspective view.
- the active part 2 is arranged in a boiler filled with an oil (not shown).
- the inductive electrical component 1 comprises two spaced-apart windings 3, 4, between which two connecting elements 6, 7 are arranged.
- FIG. 2 shows a first embodiment of a arranged between two windings 3, 4 connecting element 6 in a sectional view.
- the connecting element 6 comprises an electrically conductive tubular electrode 10 with open electrode ends 12, which respectively face a winding 3, 4, and an electrical conductor 14 guided through the electrode 10, which is electrically connectable to a winding 3, 4.
- the electrode 10 has two straight end portions 16, 17 and a bent central portion 18 connecting the two end portions 16, 17 so that longitudinal axes of the two end portions 16, 17 intersect at an intersecting angle of about 100 degrees.
- Each end portion 16, 17 is at a right angle from the adjacent winding 3, 4 from.
- the electrode 10 is composed of at least two electrode parts, which are connected to each other for example by screwing, welding or by plugging.
- the two end portions 16, 17 and the middle portion 18 are each formed as an electrode part.
- the entire electrode 10 or its middle section 18 and / or at least one end section 16, 17 may be composed of two respective channel-like electrode parts, which are interconnected in a plane passing through the two electrode ends 12.
- Each electrode end 12 is inwardly, d. H. bent into a cavity surrounded by the electrode 10 inside.
- the electrode 10 has a cross section with a circular or elliptical or rectangular outer contour.
- the outer diameter of the cross section is preferably at least 60 mm and at most 300 mm.
- the electrode 10 is made of an electrically conductive material such as copper or aluminum, or it consists of an electrically non-conductive body with an electrically conductive or semiconductive coating.
- the electrode outer surface of the electrode 10 is surrounded by an electrically insulating and applied to the outer electrode surface insulating jacket 20, which consists for example of a paper.
- the insulating jacket 20 preferably has a thickness between a few millimeters and about 70 mm. Towards the electrode ends 12, the thickness of the insulation jacket 20 may decrease, with the decrease taking place, for example, in a stepped manner. Preferably, the insulation jacket 20 also extends beyond the inwardly bent electrode ends 12 into the cavity surrounded by the electrode 10.
- the insulation jacket 20 is surrounded by a plurality of electrically insulating insulation barriers 22 spaced apart from one another and from the insulation jacket 20.
- spacers (not shown), such as pads or ledges, are disposed between the isolation jacket 20 and the innermost isolation barrier 22, as well as between adjacent isolation barriers 22.
- the isolation barriers 22 are each made of pressboard, for example. The isolation barriers 22 each end in front of the electrode ends 12, so that the electrode ends 12 are not surrounded by the isolation barriers 22.
- the windings 3, 4 are each surrounded by a plurality of spaced-apart electrically insulating insulating walls 24, which are formed substantially cylindrical and have recesses for the electrode ends 12.
- the insulation walls 24 are each made of pressboard, for example.
- each insulation chimney 26 has a hollow-cylindrical section into which at least one barrier end of an insulation barrier 22 protrudes. Further, each insulation chimney 26 on the winding side has a flange-like portion projecting outwardly from its hollow cylindrical portion, which extends around the insulation walls 24 and around edges of the insulation walls 24 forming the recesses for the electrode ends 12 in the insulation walls 24.
- each insulation chimney 26 is arranged between the hollow-cylindrical sections of each two adjacent insulation chimneys 26.
- the insulation chimneys 26 are each made of pressboard, for example.
- isolation barriers 22, insulation walls 24 and insulation chimneys 26 are used to divide oil paths in the region of the electrode 10 and the windings 3, 4.
- One of the windings 3, 4 is analogous to the FIGS. 3 to 6 connected via the conductor 14 with an electrical connection 38.
- FIGS. 3 and 4 schematically show a first embodiment of two electrically parallel connected windings 3, 4 of an inductive electrical component 1. It shows FIG. 3 a sectional view from above and FIG. 4 shows a sectional view of the page.
- each winding 3, 4 each extend around a leg 30 of a component core of the inductive electrical component 1.
- each winding 3, 4 has a first winding end 34, which is located in the region of a first end of the respective leg 30, and a second winding end 35, which is located in the region of a second end of the respective leg 30.
- Each conductor of a winding 3, 4 winds around many times and spirally around the respective leg 30 and is in FIG. 3 only hinted.
- FIG. 3 Analogous to FIG. 1 are between the windings 3, 4, two connecting elements 6, 7 are arranged, of which in FIG. 3 only a first connecting element 6 is visible, which is arranged between the two windings 3, 4 at the height of the first winding ends 34.
- the second connecting element 6 runs parallel to the first connecting element 7 between the two windings 3, 4 at the height of the second winding ends 35.
- the connecting elements 6, 7 of this embodiment are analogous to that in FIG FIG. 2 illustrated connecting member 6 is formed with the difference that their electrodes 10 are each designed as a straight pipe instead of a bent extending pipe.
- the open electrode end 12 of the electrode 10 of the first connecting element 6 faces the first winding end 34 of a first winding 3 and the conductor 14 guided in this electrode 10 is electrically connected to the first winding end 34 of the first winding 3.
- the open electrode end 12 of the electrode 10 of the second connecting member 7 faces the second winding end 35 of the first winding 3, and the conductor 14 guided in this electrode 10 is electrically connected to the second winding end 35 of the first winding 3.
- the conductor 14 of the first connection element 6 is connected via a first connection conductor 36, which extends through a region of the first winding end 34 of the second winding 4, to a first electrical connection 38 to which the first winding end 34 of the second winding 4 is also electrically connected is.
- the conductor 14 of the second connection element 7 is connected via a second connection conductor 37 which extends through a region of the second winding end 35 of the second winding 4 to a second electrical connection 39 to which the second winding end 35 of the second winding 4 is also electrically connected is.
- the two windings 3, 4 are connected in parallel with each other electrically.
- Each electrode 10 is preferably placed at the same electrical potential as the conductor 14 carried therein.
- FIGS. 5 and 6 show schematically analog to Figure 3 in a sectional view from above further embodiments of two electrically parallel connected windings 3, 4 of an inductive electrical component 1, between which two connecting elements 6, 7 are arranged, of which in the FIGS. 5 and 6 only a first connecting element 6 is visible.
- the in the FIGS. 5 and 6 Arrangements shown differ from those in FIG. 3 shown arrangement only by the shape and position of the connecting elements 6, 7th
- the connecting elements 6, 7 of in FIG. 5 The arrangement shown are analogous to that in FIG. 2 illustrated connecting element 6 each bent with the same length end portions 16, 17 of the electrodes 10 executed. In contrast to FIG. 2 However, the connecting elements 6, 7 each extend between two directly opposite points of the windings 3, 4 and the end portions 16, 17 are not each at a right angle from the windings 3, 4 from.
- connecting elements 6, 7 of in FIG. 6 The arrangement shown are also analogous to that in FIG. 2 each connecting element 6 shown bent, however, their electrodes 10 each have different lengths end portions 16, 17.
- FIG. 7 schematically shows three electrically connected in parallel and successively arranged windings 3, 4, 5 of an inductive electrical component 1 in one FIG. 3 analog sectional view from above.
- the windings 3, 4, 5 extend in each case around a leg 30 of a component core of the inductive electrical component 1, and each winding 3, 4, 5 has a first winding end 34, which is located in the region of a first end of the respective leg 30. and a (in FIG. 7 not visible) second winding end 35, which is located in the region of a second end of the respective leg 30.
- Analogous to FIG. 1 are between two adjacent windings 3, 4, 5, two connecting elements 6, 7 are arranged, of which in FIG. 7 only one first connecting element 6 is visible, which is arranged between the respective two windings 3, 4, 5 at the height of the first winding ends 34.
- the respective second connecting element 7 runs parallel to the first connecting element 6 between the two windings 3, 4, 5 at the level of the second winding ends 35.
- connecting elements 6, 7 are each analogous to that in FIG FIG. 2 formed connecting element 6 is formed.
- the first winding end 34 of a first winding 3 is connected via a conductor 14 of a first connecting element 6, which is arranged between the first winding 3 and a second winding 4, and a conductor 14 of a first connecting element 6, between the second winding 4 and the third Winding 5 is arranged, as well as two connection conductors 36 connected to a first electrical connection 38.
- the first winding end 34 of the second winding 4 is connected to the first electrical connection 38 via a further conductor 14 of the first connecting element 6, which is arranged between the second winding 4 and a third winding 5, and a further connecting conductor 36.
- the first electrical terminal 38 is further connected to the first winding end 34 of the third winding 5.
- the second winding end 35 of the first winding 3 via a conductor 14 of a second connecting element 7, which is arranged between the first winding 3 and a second winding 4, and a conductor 14 of a second connecting element 7, which between the second winding 4 and the third winding 5 is connected to a (not shown) second electrical connection 39.
- the second winding end 35 of the second winding 4 is connected to the second electrical connection 39 via a further conductor 14 of the second connecting element 7, which is arranged between the second winding 4 and a third winding 5.
- the second electrical terminal 39 is further connected to the second winding end 35 of the third winding 5.
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Abstract
Die Erfindung betrifft ein Verbindungselement (6, 7) zur elektrischen Verbindung voneinander beabstandeter Wicklungen (3, 4, 5) eines induktiven elektrischen Bauelements (1). Das Verbindungselement (6, 7) umfasst eine elektrisch leitfähige rohrartige Elektrode (10) mit offenen Elektrodenenden (12), die jeweils einer Wicklung (3, 4, 5) zugewandt sind, und wenigstens einen durch die Elektrode (10) geführten elektrischen Leiter (14), der mit einer Wicklung (3, 4, 5) elektrisch verbindbar ist.The invention relates to a connecting element (6, 7) for the electrical connection of spaced-apart windings (3, 4, 5) of an inductive electrical component (1). The connecting element (6, 7) comprises an electrically conductive tubular electrode (10) with open electrode ends (12) which respectively face a winding (3, 4, 5) and at least one electrical conductor (10) guided through the electrode (10). 14) which is electrically connectable to a winding (3, 4, 5).
Description
Die Erfindung betrifft ein Verbindungselement zur elektrischen Verbindung voneinander beabstandeter Wicklungen eines induktiven elektrischen Bauelements und ein induktives elektrisches Bauelement mit voneinander beabstandeten Wicklungen.The invention relates to a connecting element for the electrical connection of spaced-apart windings of an inductive electrical component and an inductive electrical component with spaced-apart windings.
Insbesondere betrifft die Erfindung die elektrische Verbindung von Wicklungen von Transformatoren für Hochspannungs-Gleichstrom-Übertragung, die für hohe Prüfwechselspannungen und Prüfgleichspannungen von mehreren hundert Kilovolt ausgelegt werden. Derartige Transformatoren weisen oft mehrere elektrisch parallel geschaltete Wicklungen auf. Üblicherweise werden Ausleitungen von Wicklungen separat in axialer, radialer Richtung oder auch schräg aus der Wicklung herausgeführt. Diese Ausleitungen werden oft, insbesondere für hohe Prüfspannungen, in einer Elektrode mit Durchführungen des Transformators und danach aus dem Kessel des Transformators herausgeführt. Bei parallel geschalteten Wicklungen erfolgt die Verbindung der parallelen Zweige vorzugsweise ebenfalls in Elektroden.In particular, the invention relates to the electrical connection of windings of transformers for high-voltage DC transmission, which are designed for high test AC voltages and test DC voltages of several hundred kilovolts. Such transformers often have a plurality of windings connected in parallel. Usually discharges of windings are led out separately in the axial, radial or obliquely out of the winding. These leaks are often led out, especially for high test voltages, in an electrode with feedthroughs of the transformer and then out of the boiler of the transformer. In windings connected in parallel, the connection of the parallel branches preferably also takes place in electrodes.
Der Erfindung liegt die Aufgabe zugrunde, ein verbessertes Verbindungselement zur elektrischen Verbindung voneinander beabstandeter Wicklungen eines induktiven elektrischen Bauelements und ein verbessertes induktives elektrisches Bauelement mit voneinander beabstandeten Wicklungen anzugeben.The invention has for its object to provide an improved connection element for the electrical connection of spaced-apart windings of an inductive electrical component and an improved inductive electrical component with spaced-apart windings.
Die Aufgabe wird erfindungsgemäß hinsichtlich des Verbindungselements durch die Merkmale des Anspruchs 1 und hinsichtlich des induktiven elektrischen Bauelements durch die Merkmale des Anspruchs 10 gelöst.The object is achieved with respect to the connecting element by the features of claim 1 and with respect to the inductive electrical component by the features of
Vorteilhafte Ausgestaltungen der Erfindung sind Gegenstand der Unteransprüche.Advantageous embodiments of the invention are the subject of the dependent claims.
Ein erfindungsgemäßes Verbindungselement zur elektrischen Verbindung voneinander beabstandeter Wicklungen eines induktiven elektrischen Bauelements, insbesondere eines Transformators oder einer Drosselspule, umfasst eine elektrisch leitfähige rohrartige Elektrode mit offenen Elektrodenenden, die jeweils einer Wicklung zugewandt sind, und wenigstens einen durch die Elektrode geführten elektrischen Leiter, der mit einer Wicklung elektrisch verbindbar ist.An inventive connecting element for the electrical connection of spaced apart windings of an inductive electrical component, in particular a transformer or a choke coil comprises an electrically conductive tubular electrode with open electrode ends, each facing a winding, and at least one guided through the electrode electrical conductor with a winding is electrically connected.
Ein derartiges Verbindungselement ermöglicht durch eine entsprechende Gestaltung und elektrische Isolierung der rohrartigen Elektrode eine besonders platzsparende Verbindung von Wicklungen eines induktiven elektrischen Bauelements, insbesondere eines Transformators oder einer Drosselspule, und somit eine kompakte Bauweise des jeweiligen Bauelements. Die einfache Gestaltung des Verbindungselements erfordert außerdem einen nur geringen Materialaufwand und ist somit besonders kostengünstig.Such a connecting element allows by a corresponding design and electrical insulation of the tubular electrode a particularly space-saving connection of windings of an inductive electrical component, in particular a transformer or a choke coil, and thus a compact design of the respective component. The simple design of the connecting element also requires only a small amount of material and is therefore particularly cost-effective.
Eine Ausgestaltung der Erfindung sieht vor, dass die Elektrode aus wenigstens zwei miteinander verbundenen Elektrodenteilen zusammengesetzt ist.An embodiment of the invention provides that the electrode is composed of at least two interconnected electrode parts.
Diese Ausgestaltung der Erfindung erleichtert vorteilhaft die Montage des Verbindungselements, indem die Elektrode nach dem Anschließen der elektrischen Leiter durch Zusammenfügen der Elektrodenteile um die Leiter herum zusammengesetzt werden kann.This embodiment of the invention advantageously facilitates the assembly of the connecting element by the electrode can be assembled by connecting the electrode parts to the conductor after connecting the electrical conductors.
Weitere Ausgestaltungen der Erfindung sehen vor, dass die Elektrode einen Querschnitt mit einer kreisförmigen oder ellipsenförmigen oder rechteckigen Außenkontur aufweist.Further embodiments of the invention provide that the electrode has a cross section with a circular or elliptical or rectangular outer contour.
Querschnitte mit kreisförmiger oder ellipsenförmiger Kontur vermeiden vorteilhaft Kanten oder Spitzen der Elektrode, die zu hohen elektrischen Feldstärken führen können. Querschnitte mit einer rechteckigen Kontur erleichtern vorteilhaft die Lagerung und den Transport der Elektroden oder Elektrodenteile.Cross-sections with a circular or elliptical contour advantageously avoid edges or tips of the electrode, which can lead to high electric field strengths. Cross sections with a rectangular contour advantageously facilitate the storage and transport of the electrodes or electrode parts.
Eine weitere Ausgestaltung der Erfindung sieht vor, dass die Elektrode zwei gerade Endabschnitte und einen die beiden Endabschnitte verbindenden gebogenen Mittelabschnitt aufweist, so dass sich Längsachsen der beiden Endabschnitte unter einem Schnittwinkel, der zwischen 90 Grad und 180 Grad liegt und besonders bevorzugt etwa 100 Grad beträgt, schneiden.A further embodiment of the invention provides that the electrode has two straight end sections and a bent central section connecting the two end sections, so that longitudinal axes of the two end sections are at an intersection angle which is between 90 degrees and 180 degrees, and is particularly preferably approximately 100 degrees , to cut.
Diese Ausgestaltung der Erfindung ermöglicht vorteilhaft eine besonders platzsparende Verbindung von Wicklungen durch gebogen gestaltete Verbindungselemente.This embodiment of the invention advantageously allows a particularly space-saving connection of windings by bent connecting elements.
Eine weitere Ausgestaltung der Erfindung sieht vor, dass die Elektrode einen Querschnitt aufweist, dessen Außendurchmesser wenigstens 60 mm und höchstens 300 mm beträgt.A further embodiment of the invention provides that the electrode has a cross section whose outer diameter is at least 60 mm and at most 300 mm.
Elektroden mit Querschnitten dieser Abmessungen haben sich als besonders geeignet zur Verbindung von Wicklungen erwiesen. Unter einem Außendurchmesser eines Querschnitts wird hier eine maximale Ausdehnung des Querschnitts verstanden.Electrodes with cross sections of these dimensions have proven to be particularly suitable for connecting windings. An outer diameter of a cross section is understood here to be a maximum extent of the cross section.
Eine weitere Ausgestaltung der Erfindung sieht vor, dass jedes Elektrodenende in einen von der Elektrode umgebenen Hohlraum hinein umgebogen ist.Another embodiment of the invention provides that each end of the electrode is bent into a cavity surrounded by the electrode.
Diese Ausgestaltung der Erfindung vermeidet vorteilhaft das Auftreten hoher elektrischer Feldstärken an den Elektrodenenden, die durch Spitzen oder Kanten der Elektrodenenden verursacht werden.This embodiment of the invention advantageously avoids the occurrence of high electric field strengths at the electrode ends caused by peaks or edges of the electrode ends.
Eine weitere Ausgestaltung der Erfindung sieht vor, dass die Elektrodenaußenoberfläche der Elektrode von einem elektrisch isolierenden und an der Elektrodenaußenoberfläche anliegenden Isolationsmantel, insbesondere von einem Isolationsmantel aus einem Papier, umgeben ist. Vorzugsweise ist der Isolationsmantel dabei ferner von wenigstens einer elektrisch isolierenden und von dem Isolationsmantel beabstandeten Isolationsbarriere, die vorzugsweise aus Pressspan gefertigt ist, umgeben.A further embodiment of the invention provides that the electrode outer surface of the electrode is surrounded by an electrically insulating and applied to the electrode outer surface insulating jacket, in particular of an insulating jacket made of a paper. Preferably, the insulating jacket is further surrounded by at least one electrically insulating and spaced from the insulation jacket insulation barrier, which is preferably made of pressboard.
Durch den Isolationsmantel sowie eine oder mehrere Isolationsbarrieren, die vorzugsweise konzentrisch um die Elektrode angeordnet sind, kann dem Verbindungselement ein hohes elektrisches Isolationsvermögen verliehen werden und insbesondere eine Ölstrecke (im Falle eines induktiven elektrischen Bauelements mit einem ölbefüllten geerdeten Gehäuses) im Bereich des Verbindungselements vorteilhaft in mehrere Ölstrecken unterteilt werden, so dass das Verbindungselement in einem relativ kleinen Abstand zu einem Gehäuse des induktiven elektrischen Bauelements angeordnet werden kann. Dadurch wird eine besonders kompakte und platzsparende Realisierung des induktiven elektrischen Bauelements ermöglicht.By the insulating jacket and one or more isolation barriers, which are preferably arranged concentrically around the electrode, the connecting element can be given a high electrical insulation capacity and in particular an oil path (in the case of an inductive electrical component with an oil-filled grounded housing) in the region of the connecting element advantageously in a plurality of oil passages are divided, so that the connecting element can be arranged at a relatively small distance from a housing of the inductive electrical component. As a result, a particularly compact and space-saving realization of the inductive electrical component is made possible.
Ein erfindungsgemäßes induktives elektrisches Bauelement umfasst zwei voneinander beabstandete Wicklungen, zwischen denen zwei erfindungsgemäße Verbindungselemente angeordnet sind. Dabei weist eine erste Wicklung ein erstes Wicklungsende, das über einen Leiter eines ersten Verbindungselements mit einem ersten elektrischen Anschluss verbunden ist, und ein zweites Wicklungsende, das über einen Leiter des zweiten Verbindungselements mit einem zweiten elektrischen Anschluss verbunden ist, auf.An inductive electrical component according to the invention comprises two windings spaced apart from one another, between which two connecting elements according to the invention are arranged. In this case, a first winding has a first winding end, which is connected via a conductor of a first connecting element with a first electrical connection, and a second winding end, which is connected via a conductor of the second connecting element with a second electrical connection on.
Ein derartiges induktives elektrisches Bauelement weist also (wenigstens) zwei Wicklungen auf, die über zwei erfindungsgemäße Verbindungselemente mit den oben bereits genannten Vorteilen miteinander verbunden sind, wobei eine der Wicklungen über die Leiter der Verbindungselemente mit elektrischen Anschlüssen verbunden ist. Insbesondere ermöglicht dies eine kompakte und kostengünstige Verbindung der Wicklungen des Bauelements.Such an inductive electrical component thus has (at least) two windings, which are connected to one another via two connecting elements according to the invention with the advantages already mentioned above, wherein one of the windings is connected to electrical connections via the conductors of the connecting elements. In particular, this allows a compact and cost-effective connection of the windings of the device.
Vorzugsweise ist dabei der mit dem ersten Wicklungsende der ersten Wicklung verbundene Leiter des ersten Verbindungselements über einen ersten Verbindungsleiter, der durch einen Bereich eines ersten Wicklungsendes der zweiten Wicklung verläuft, mit dem ersten elektrischen Anschluss verbunden. Entsprechend ist der mit dem zweiten Wicklungsende der ersten Wicklung verbundene Leiter des zweiten Verbindungselements vorzugsweise über einen zweiten Verbindungsleiter, der durch einen Bereich eines zweiten Wicklungsendes der zweiten Wicklung verläuft, mit dem zweiten elektrischen Anschluss verbunden.In this case, the conductor of the first connection element connected to the first winding end of the first winding is preferably connected to the first electrical connection via a first connection conductor which extends through a region of a first winding end of the second winding. Corresponding For example, the conductor of the second connection element connected to the second winding end of the first winding is preferably connected to the second electrical connection via a second connection conductor which extends through a region of a second winding end of the second winding.
Diese Ausgestaltungen der Erfindung sehen also vor, wenigstens einen Verbindungsleiter zur Verbindung einer Wicklung mit einem elektrischen Anschluss durch einen Bereich einer anderen Wicklung zu führen. Dadurch wird vorteilhaft zusätzlicher Platzbedarf für die Verbindung einer Wicklung mit einem elektrischen Anschluss vermieden.These embodiments of the invention thus provide for guiding at least one connecting conductor for connecting a winding with an electrical connection through a region of another winding. This advantageously additional space required for the connection of a winding with an electrical connection is avoided.
Vorzugsweise sind die Wicklungen ferner zueinander elektrisch parallel geschaltet. Außerdem weist das induktive elektrische Bauelement vorzugsweise einen magnetisierbaren Bauelementkern mit mehreren Schenkeln auf, wobei um jeden Schenkel genau eine Wicklung verläuft. Das induktive elektrische Bauelement ist ferner vorzugsweise als ein Transformator oder eine Drosselspule ausgebildet.Preferably, the windings are further connected in parallel to each other electrically. In addition, the inductive electrical component preferably has a magnetizable component core with a plurality of legs, with exactly one winding running around each leg. The inductive electrical component is also preferably designed as a transformer or a choke coil.
Diese Ausgestaltungen der Erfindung sind der üblichen Ausführung induktiver elektrischer Bauelemente und Verschaltung deren Wicklungen angepasst.These embodiments of the invention are adapted to the usual design of inductive electrical components and wiring their windings.
Die oben beschriebenen Eigenschaften, Merkmale und Vorteile dieser Erfindung sowie die Art und Weise, wie diese erreicht werden, werden klarer und deutlicher verständlich im Zusammenhang mit der folgenden Beschreibung von Ausführungsbeispielen, die im Zusammenhang mit den Zeichnungen näher erläutert werden. Dabei zeigen:
- FIG 1
- einen Aktivteil eines induktiven elektrischen Bauelements in einer perspektivischen Darstellung,
- FIG 2
- ein Ausführungsbeispiel eines zwischen zwei Wicklungen eines induktiven elektrischen Bauelements angeordneten Verbindungselements in einer Schnittdarstellung,
- FIG 3
- schematisch ein erstes Ausführungsbeispiel elektrisch parallel geschalteter Wicklungen eines induktiven elektrischen Bauelements in einer Schnittdarstellung von oben,
- FIG 4
- schematisch das in
dargestellte erste Ausführungsbeispiel elektrisch parallel geschalteter Wicklungen eines induktiven elektrischen Bauelements in einer Schnittdarstellung von der Seite,Figur 3 - FIG 5
- schematisch ein zweites Ausführungsbeispiel elektrisch parallel geschalteter Wicklungen eines induktiven elektrischen Bauelements in einer Schnittdarstellung von oben,
- FIG 6
- schematisch ein drittes Ausführungsbeispiel elektrisch parallel geschalteter Wicklungen eines induktiven elektrischen Bauelements in einer Schnittdarstellung von oben,
- FIG 7
- schematisch ein viertes Ausführungsbeispiel elektrisch parallel geschalteter Wicklungen eines induktiven elektrischen Bauelements in einer Schnittdarstellung von oben.
- FIG. 1
- an active part of an inductive electrical component in a perspective view,
- FIG. 2
- an embodiment of one between two windings of an inductive electrical component arranged connecting element in a sectional view,
- FIG. 3
- schematically a first embodiment of electrically parallel-connected windings of an inductive electrical component in a sectional view from above,
- FIG. 4
- schematically the in
FIG. 3 illustrated first embodiment of electrically parallel connected windings of an inductive electrical component in a sectional view from the side, - FIG. 5
- schematically a second embodiment of electrically parallel-connected windings of an inductive electrical component in a sectional view from above,
- FIG. 6
- schematically a third embodiment of electrically parallel-connected windings of an inductive electrical component in a sectional view from above,
- FIG. 7
- schematically a fourth embodiment of electrically parallel connected windings of an inductive electrical component in a sectional view from above.
Einander entsprechende Teile sind in allen Figuren mit den gleichen Bezugszeichen versehen.Corresponding parts are provided in all figures with the same reference numerals.
Das induktive elektrische Bauelement 1 umfasst zwei voneinander beabstandete Wicklungen 3, 4, zwischen denen zwei Verbindungselemente 6, 7 angeordnet sind.The inductive electrical component 1 comprises two spaced-
Das Verbindungselement 6 umfasst eine elektrisch leitfähige rohrartige Elektrode 10 mit offenen Elektrodenenden 12, die jeweils einer Wicklung 3, 4 zugewandt sind, und einen durch die Elektrode 10 geführten elektrischen Leiter 14, der mit einer Wicklung 3, 4 elektrisch verbindbar ist.The connecting
Die Elektrode 10 weist zwei gerade Endabschnitte 16, 17 und einen die beiden Endabschnitte 16, 17 verbindenden gebogenen Mittelabschnitt 18 auf, so dass sich Längsachsen der beiden Endabschnitte 16, 17 unter einem Schnittwinkel, der etwa 100 Grad beträgt, schneiden. Jeder Endabschnitt 16, 17 steht in einem rechten Winkel von der ihm benachbarten Wicklung 3, 4 ab.The
Die Elektrode 10 ist aus wenigstens zwei Elektrodenteilen zusammengesetzt, die beispielsweise durch Verschrauben, Verschweißen oder durch Stecken miteinander verbunden sind. Beispielsweise sind die beiden Endabschnitte 16, 17 und der Mittelabschnitt 18 jeweils als ein Elektrodenteil ausgebildet. Ferner kann die gesamte Elektrode 10 oder ihr Mittelabschnitt 18 und/oder wenigstens ein Endabschnitt 16, 17 aus zwei jeweils rinnenartigen Elektrodenteilen zusammengesetzt sein, die in einer durch die beiden Elektrodenenden 12 verlaufenden Ebene miteinander verbunden sind. Wenn Elektrodenteile miteinander durch Verbindungselemente mit Kanten oder Spitzen, beispielsweise durch Schrauben mit Kanten oder Spitzen, verbunden sind, werden diese Kanten oder Spitzen vorzugsweise durch ein Material mit einem hohen elektrischen Isolationswiderstand abgeschirmt, das auf eine Oberfläche eines betreffenden Elektrodenteils aufgebracht wird.The
Jedes Elektrodenende 12 ist nach innen, d. h. in einen von der Elektrode 10 umgebenen Hohlraum hinein umgebogen.Each
Die Elektrode 10 weist einen Querschnitt mit einer kreisförmigen oder ellipsenförmigen oder rechteckigen Außenkontur auf. Der Außendurchmesser des Querschnitts beträgt vorzugsweise wenigstens 60 mm und höchstens 300 mm.The
Die Elektrode 10 ist aus einem elektrisch leitfähigen Material wie Kupfer oder Aluminium gefertigt, oder sie besteht aus einem elektrisch nicht leitfähigen Grundkörper mit einer elektrisch leitfähigen oder halbleitfähigen Beschichtung.The
Die Elektrodenaußenoberfläche der Elektrode 10 ist von einem elektrisch isolierenden und an der Elektrodenaußenoberfläche anliegenden Isolationsmantel 20, der beispielsweise aus einem Papier besteht, umgeben. Der Isolationsmantel 20 hat vorzugsweise eine Dicke zwischen einigen Millimetern und etwa 70 mm. Zu den Elektrodenenden 12 hin kann die Dicke des Isolationsmantels 20 abnehmen, wobei die Abnahme beispielsweise abgestuft vorgenommen wird. Vorzugsweise erstreckt sich der Isolationsmantel 20 auch über die nach innen umgebogenen Elektrodenenden 12 in den von der Elektrode 10 umgebenen Hohlraum hinein.The electrode outer surface of the
Der Isolationsmantel 20 ist von mehreren elektrisch isolierenden und voneinander und von dem Isolationsmantel 20 beabstandeten Isolationsbarrieren 22 umgeben. Um den Isolationsmantel 20 von einer innersten Isolationsbarriere 22 und benachbarte Isolationsbarrieren 22 voneinander zu beabstanden, werden zwischen dem Isolationsmantel 20 und der innersten Isolationsbarriere 22 sowie zwischen benachbarten Isolationsbarrieren 22 jeweils (nicht dargestellte) Abstandshalter, beispielsweise Klötze oder Leisten, angeordnet. Die Isolationsbarrieren 22 sind beispielsweise jeweils aus Pressspan gefertigt. Die Isolationsbarrieren 22 enden jeweils vor den Elektrodenenden 12, so dass die Elektrodenenden 12 nicht von den Isolationsbarrieren 22 umgeben sind.The
Die Wicklungen 3, 4 sind jeweils von mehreren voneinander beabstandeten elektrisch isolierenden Isolationswänden 24 umgeben, die im Wesentlich zylindrisch ausgebildet sind und Aussparungen für die Elektrodenenden 12 aufweisen. Die Isolationswände 24 sind beispielsweise jeweils aus Pressspan gefertigt.The
Um Barriereenden von Isolationsbarrieren 22 herum und zwischen Barriereenden benachbarter Isolationsbarrieren 22 sind mehrere elektrisch isolierende, voneinander beabstandete und ineinander geschachtelte Isolationskamine 26 angeordnet. Jeder Isolationskamin 26 weist einen hohlzylindrischen Abschnitt auf, in den wenigstens ein Barriereende einer Isolationsbarriere 22 hineinragt. Ferner weist jeder Isolationskamin 26 wicklungsseitig einen von seinem hohlzylindrischen Abschnitt nach außen abstehenden flanschartig ausgebildeten Abschnitt auf, der sich zu den Isolationswänden 24 hin und um Ränder der Isolationswände 24, die die Aussparungen für die Elektrodenenden 12 in den Isolationswänden 24 bilden, herum erstreckt. Vorzugsweise ist zwischen den hohlzylindrischen Abschnitten je zweier benachbarter Isolationskamine 26 jeweils genau ein Barriereende einer Isolationsbarriere 22 angeordnet. Die Isolationskamine 26 sind beispielsweise jeweils aus Pressspan gefertigt.Around barrier ends of
Die Isolationsbarrieren 22, Isolationswände 24 und Isolationskamine 26 dienen der Unterteilung von Ölstrecken im Bereich der Elektrode 10 und der Wicklungen 3, 4. Durch eine Vielzahl von Isolationsbarrieren 22 und Isolationskaminen 26, beispielsweise durch jeweils bis zu zwanzig Isolationsbarrieren 22 und Isolationskamine 26, wird eine entsprechende Vielzahl von Unterteilungen der Ölstrecke im Bereich der Elektrode 10 erreicht, so dass nur ein relativ geringer Abstand d des Verbindungselements 6 zu einer Kesselwand 28 des Kessels erforderlich ist, wodurch die Größe des induktiven elektrischen Bauelements 1 vorteilhaft entsprechend gering gehalten werden kann.The
Eine der Wicklungen 3, 4 ist analog zu den
Die
Die Wicklungen 3, 4 verlaufen jeweils um einen Schenkel 30 eines Bauelementkerns des induktiven elektrischen Bauelements 1. Dabei hat jede Wicklung 3, 4 ein erstes Wicklungsende 34, das sich im Bereich eines ersten Endes des jeweiligen Schenkels 30 befindet, und ein zweites Wicklungsende 35, das sich im Bereich eines zweites Endes des jeweiligen Schenkels 30 befindet. Jeder Leiter einer Wicklung 3, 4 windet sich vielfach und spiralförmig um den jeweiligen Schenkel 30 herum und ist in
Analog zu
Die Verbindungselemente 6, 7 dieses Ausführungsbeispiels sind analog zu dem in
Ferner ist der Leiter 14 des ersten Verbindungselements 6 über einen ersten Verbindungsleiter 36, der durch einen Bereich des ersten Wicklungsendes 34 der zweiten Wicklung 4 verläuft, mit einem ersten elektrischen Anschluss 38 verbunden, mit dem auch das erste Wicklungsende 34 der zweiten Wicklung 4 elektrisch verbunden ist. Entsprechend ist der Leiter 14 des zweiten Verbindungselements 7 über einen zweiten Verbindungsleiter 37, der durch einen Bereich des zweiten Wicklungsendes 35 der zweiten Wicklung 4 verläuft, mit einem zweiten elektrischen Anschluss 39 verbunden, mit dem auch das zweite Wicklungsende 35 der zweiten Wicklung 4 elektrisch verbunden ist. Dadurch sind die beiden Wicklungen 3, 4 zueinander elektrisch parallel geschaltet.Furthermore, the
Jede Elektrode 10 wird vorzugsweise auf dasselbe elektrische Potential wie der in ihr geführte Leiter 14 gelegt.Each
Die
Die Verbindungselemente 6, 7 der in
Die Verbindungselemente 6, 7 der in
Analog zu dem in
Analog zu
Die Verbindungselemente 6, 7 sind jeweils analog zu dem in
Das erste Wicklungsende 34 einer ersten Wicklung 3 ist über einen Leiter 14 eines ersten Verbindungselements 6, das zwischen der ersten Wicklung 3 und einer zweiten Wicklung 4 angeordnet ist, und einen Leiter 14 eines ersten Verbindungselements 6, das zwischen der zweiten Wicklung 4 und der dritten Wicklung 5 angeordnet ist, sowie über zwei Verbindungsleiter 36 mit einem ersten elektrischen Anschluss 38 verbunden. Das erste Wicklungsende 34 der zweiten Wicklung 4 ist über einen weiteren Leiter 14 des ersten Verbindungselements 6, das zwischen der zweiten Wicklung 4 und einer dritten Wicklung 5 angeordnet ist, und einen weiteren Verbindungsleiter 36 mit dem ersten elektrischen Anschluss 38 verbunden. Der erste elektrische Anschluss 38 ist ferner mit dem ersten Wicklungsende 34 der dritten Wicklung 5 verbunden.The first winding
Analog ist das zweite Wicklungsende 35 der ersten Wicklung 3 über einen Leiter 14 eines zweiten Verbindungselements 7, das zwischen der ersten Wicklung 3 und einer zweiten Wicklung 4 angeordnet ist, und einen Leiter 14 eines zweiten Verbindungselements 7, das zwischen der zweiten Wicklung 4 und der dritten Wicklung 5 angeordnet ist, mit einem (nicht dargestellten) zweiten elektrischen Anschluss 39 verbunden. Das zweite Wicklungsende 35 der zweiten Wicklung 4 ist über einen weiteren Leiter 14 des zweiten Verbindungselements 7, das zwischen der zweiten Wicklung 4 und einer dritten Wicklung 5 angeordnet ist, mit dem zweiten elektrischen Anschluss 39 verbunden. Der zweite elektrische Anschluss 39 ist ferner mit dem zweiten Wicklungsende 35 der dritten Wicklung 5 verbunden.Similarly, the second winding
Dadurch sind alle drei Wicklungen 3, 4, 5 elektrisch parallel zueinander geschaltet.As a result, all three
Obwohl die Erfindung im Detail durch bevorzugte Ausführungsbeispiele näher illustriert und beschrieben wurde, so ist die Erfindung nicht durch die offenbarten Beispiele eingeschränkt und andere Variationen können vom Fachmann hieraus abgeleitet werden, ohne den Schutzumfang der Erfindung zu verlassen.Although the invention in detail by preferred embodiments has been illustrated and described in detail, so is the The invention is not limited by the examples disclosed, and other variations can be derived therefrom by those skilled in the art without departing from the scope of the invention.
Claims (15)
dadurch gekennzeichnet, dass die Elektrode (10) aus wenigstens zwei miteinander verbundenen Elektrodenteilen zusammengesetzt ist.Connecting element (6, 7) according to claim 1,
characterized in that the electrode (10) is composed of at least two interconnected electrode parts.
dadurch gekennzeichnet, dass die Elektrode (10) einen Querschnitt mit einer kreisförmigen oder ellipsenförmigen oder rechteckigen Außenkontur aufweist.Connecting element (6, 7) according to one of the preceding claims,
characterized in that the electrode (10) has a cross section with a circular or elliptical or rectangular outer contour.
dadurch gekennzeichnet, dass die Elektrode (10) zwei gerade Endabschnitte (16, 17) und einen die beiden Endabschnitte (16, 17) verbindenden gebogenen Mittelabschnitt (18) aufweist, so dass sich Längsachsen der beiden Endabschnitte (16, 17) unter einem Schnittwinkel, der zwischen 90 Grad und 180 Grad liegt, schneiden.Connecting element (6, 7) according to one of the preceding claims,
characterized in that the electrode (10) comprises two straight end portions (16, 17) and a bent central portion (18) connecting the two end portions (16, 17) such that longitudinal axes of the two end portions (16, 17) are at an intersection angle lying between 90 degrees and 180 degrees intersect.
dadurch gekennzeichnet, dass der Schnittwinkel etwa 100 Grad beträgt.Connecting element (6, 7) according to claim 4,
characterized in that the cutting angle is about 100 degrees.
dadurch gekennzeichnet, dass die Elektrode (10) einen Querschnitt aufweist, dessen Außendurchmesser wenigstens 60 mm und höchstens 300 mm beträgt.Connecting element (6, 7) according to one of the preceding claims,
characterized in that the electrode (10) has a cross section whose outer diameter is at least 60 mm and at most 300 mm.
dadurch gekennzeichnet, dass jedes Elektrodenende (12) in einen von der Elektrode (10) umgebenen Hohlraum hinein umgebogen ist.Connecting element (6, 7) according to one of the preceding claims,
characterized in that each electrode end (12) is bent into a cavity surrounded by the electrode (10).
dadurch gekennzeichnet, dass die Elektrodenaußenoberfläche der Elektrode (10) von einem elektrisch isolierenden und an der Elektrodenaußenoberfläche anliegenden Isolationsmantel (20), insbesondere von einem Isolationsmantel (20) aus einem Papier, umgeben ist.Connecting element (6, 7) according to one of the preceding claims,
characterized in that the electrode outer surface of the electrode (10) by an electrically insulating and applied to the electrode outer surface insulating jacket (20), in particular of an insulating jacket (20) is surrounded by a paper.
dadurch gekennzeichnet, dass der Isolationsmantel (20) von wenigstens einer elektrisch isolierenden und von dem Isolationsmantel (20) beabstandeten Isolationsbarriere (22) umgeben ist.Connecting element (6, 7) according to claim 8,
characterized in that the insulation jacket (20) is surrounded by at least one electrically insulating insulation barrier (22) spaced from the insulation jacket (20).
dadurch gekennzeichnet, dass der mit dem zweiten Wicklungsende (35) der ersten Wicklung (3, 4) verbundene Leiter (14) des zweiten Verbindungselements (7) über einen zweiten Verbindungsleiter (37), der durch einen Bereich eines zweiten Wicklungsendes (35) der zweiten Wicklung (4, 5) verläuft, mit dem zweiten elektrischen Anschluss (39) verbunden ist.Inductive electrical component (1) according to claim 10 or 11,
characterized in that the conductor (14) of the second connection element (7) connected to the second winding end (35) of the first winding (3, 4) is connected via a second connection conductor (37) passing through a region of a second winding end (35) second winding (4, 5) extends, is connected to the second electrical connection (39).
dadurch gekennzeichnet, dass die Wicklungen (3, 4, 5) zueinander elektrisch parallel geschaltet sind.Inductive electrical component (1) according to one of Claims 10 to 12,
characterized in that the windings (3, 4, 5) are connected in parallel to each other electrically.
gekennzeichnet durch einen Bauelementkern mit mehreren Schenkeln (30), wobei um jeden Schenkel (30) genau eine Wicklung (3, 4, 5) verläuft.Inductive electrical component (1) according to one of claims 10 to 13,
characterized by a component core having a plurality of legs (30), wherein exactly one winding (3, 4, 5) extends around each leg (30).
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WO2021209325A1 (en) * | 2020-04-14 | 2021-10-21 | Siemens Aktiengesellschaft | Electrical device having a tank with a bulging/convex portion |
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DE102011008456A1 (en) * | 2011-01-07 | 2012-07-12 | Siemens Aktiengesellschaft | Cable routing for HVDC transformer coils or HVDC choke coils |
EP2819132A1 (en) * | 2013-06-25 | 2014-12-31 | Alstom Technology Ltd | Method of assembling a transformer |
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DE102011008456A1 (en) * | 2011-01-07 | 2012-07-12 | Siemens Aktiengesellschaft | Cable routing for HVDC transformer coils or HVDC choke coils |
EP2819132A1 (en) * | 2013-06-25 | 2014-12-31 | Alstom Technology Ltd | Method of assembling a transformer |
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WO2021209325A1 (en) * | 2020-04-14 | 2021-10-21 | Siemens Aktiengesellschaft | Electrical device having a tank with a bulging/convex portion |
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