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EP0733277A1 - Arrangement for securing winding components in the grooves of a lamination stack in electric machines - Google Patents

Arrangement for securing winding components in the grooves of a lamination stack in electric machines

Info

Publication number
EP0733277A1
EP0733277A1 EP94912474A EP94912474A EP0733277A1 EP 0733277 A1 EP0733277 A1 EP 0733277A1 EP 94912474 A EP94912474 A EP 94912474A EP 94912474 A EP94912474 A EP 94912474A EP 0733277 A1 EP0733277 A1 EP 0733277A1
Authority
EP
European Patent Office
Prior art keywords
wedge
groove
tangential
semiconducting
slot
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Withdrawn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
EP94912474A
Other languages
German (de)
French (fr)
Inventor
Wolfgang Golbig
Horst Höltzel
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.)
VEM-Elektroantriebe GmbH
Original Assignee
VEM-Elektroantriebe GmbH
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 VEM-Elektroantriebe GmbH filed Critical VEM-Elektroantriebe GmbH
Publication of EP0733277A1 publication Critical patent/EP0733277A1/en
Withdrawn legal-status Critical Current

Links

Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K3/00Details of windings
    • H02K3/46Fastening of windings on the stator or rotor structure
    • H02K3/48Fastening of windings on the stator or rotor structure in slots
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K3/00Details of windings
    • H02K3/32Windings characterised by the shape, form or construction of the insulation
    • H02K3/40Windings characterised by the shape, form or construction of the insulation for high voltage, e.g. affording protection against corona discharges
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K3/00Details of windings
    • H02K3/46Fastening of windings on the stator or rotor structure
    • H02K3/48Fastening of windings on the stator or rotor structure in slots
    • H02K3/487Slot-closing devices

Definitions

  • the invention relates to an electrical machine, in particular a synchronous machine of great performance, with a plurality of winding elements per slot, which are installed in the
  • Laminated core is insulated, impregnated and hardened and can be fixed in the grooves of the laminated core of this machine with slot lock rods.
  • a common type of fastening is to press the winding elements after inserting them into the slot by means of slot lock bars (also referred to as slot closure elements or slot wedges) with a trapezoidal cross-section, seen in the radial direction from the bore of the stator core stack on the slot base.
  • the resulting preload is not defined.
  • REPLACEMENT LEAF electromagnetic forces in the groove act radially to the bore.
  • Corrugated springs arranged longitudinally in the groove have the disadvantage that they require great technological effort to achieve large, as precisely defined pre-stresses when inserting the groove locking rods.
  • DE-OS 26 56 373 also describes tangential wedges, which, however, also do not allow a defined prestressing.
  • DE-OS 29 34 178 shows a solution in which several tangential wedges are strung together so that by
  • Moving the top wedges can adjust the preload of the corrugated springs used at the same time.
  • the wave spring is arranged under the lower wedge.
  • the invention has for its object to fix insulated and hardened winding elements vibration-free, easy to assemble and with little technological effort in the slots and at the same time to implement reliable contacting of the corona protection in the slot part with the laminated core.
  • the object for fixing winding elements according to the preamble of claim 1 is achieved according to the invention by the characterizing features of the main claim.
  • Sheet metal packs 13 installed.
  • semiconducting silicone rubber 8 and conductive lateral corrugated spring pieces 9 made of semiconducting laminate are arranged in the gap between winding element 7 and slot wall 2 along the slot in the area of the partial laminated core 13. This arrangement ensures elastic lateral fixation of the winding elements 7.
  • REPLACEMENT LEAF Installation requirements can be adapted and have a very high dimensional accuracy.
  • Figure 1 shows a longitudinal section through the groove of a
  • Figure 2 shows the associated cross section through the groove.
  • the two winding elements 7 are arranged in the slot, separated by an intermediate strip 11.
  • the pretension is inserted by the tangential wedge arrangement 2; Corrugated spring 4 made of semiconducting laminate; Wedge 3; Slip strips 5 and cover strips 6 generated.
  • the sliding strip 5 prevents the laminate structure of the corrugated spring from being destroyed when the insert wedge 2, corrugated spring 4 and clamping wedge 3 are clamped.
  • the bore 16 in the insert wedge 2 serves to support a device for inserting the clamping wedge 3.
  • Several tangential wedge arrangements are axially strung together per groove. They are installed piece by piece over the entire length of the laminated core.
  • the gap between winding element 7 and slot wall 12 is laterally alternating with semiconducting corrugated spring pieces 9 and semiconducting along the slot in the area of the partial laminated core 13
  • the solution according to the invention enables an adjustable, precisely defined pre-tensioning of the wave springs, prevents delamination in the wave spring during assembly, an aging-resistant tight fit of the winding elements 7 in the slots, reliable corona protection with simple assembly without complex devices and a low mechanical

Landscapes

  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Insulation, Fastening Of Motor, Generator Windings (AREA)

Abstract

Preformed winding components are secured in the standard grooves of electric machines by trapezoidal or tangential groove closure wedges together with corrugated washers. A great deal of technological effort is needed to secure them shakeproofly and with corona protection. The effort is reduced and a better seat obtained by fitting corrugated washers (4) with a sliding strip (5) between the fitting wedge (2) and a clamping wedge (3) in the tangential system. In addition, the gap between the groove wall (12) and the winding component (7) along the groove is filled with silicone rubber (8) and lateral corrugated spring sections (9) or with plate-like moulding compound (10) and corrugated spring sections (9). This ensures that the winding components (7) are elastically and shakeproofly secured and a precisely defined prestress on the corrugated washers (4) in the groove of a set of stator laminations (1) of high-powered synchronous generators.

Description

Anordnung zum Festsetzen von Wicklunσselementen in den Nuten eines Blechpaketes elektrischer MaschinenArrangement for fixing winding elements in the grooves of a laminated core of electrical machines
Die Erfindung betrifft eine elektrische Maschine, insbesondere eine Synchronmaschine großer Leistung, mit mehreren Wicklungselementen pro Nut, die vor ihrem Einbau in dasThe invention relates to an electrical machine, in particular a synchronous machine of great performance, with a plurality of winding elements per slot, which are installed in the
Blechpaket isoliert, imprägniert und ausgehärtet sind und in den Nuten des Blechpaketes dieser Maschine mit Nutverschlußstäben festgesetzt werden.Laminated core is insulated, impregnated and hardened and can be fixed in the grooves of the laminated core of this machine with slot lock rods.
Eine übliche Befestigungsart besteht darin, die Wicklungselemente nach dem Einlegen in die Nut mittels im Querschnitt trapezförmiger Nutverschlußstäbe (auch als Nutverschlußelemente oder Nutkeile bezeichnet) von der Bohrung des Ständerblechpaketes her gesehen in radialer Richtung auf den Nutgrund zu pressen. Die dabei entstehende Vorspannung ist nicht definiert. Infolge des alterungsbedingten Schrumpfens der Nutverschlußstäbe und der in der Nut eingesetzten Füllstreifen aus Schichtpreßstoff (Glasseidengewebe mit Kunstharz, verpreßt und gehärtet), verbunden mit Vibrationen der Wicklungselemente durch elektromagnetische Kräfte, erfolgen Lockerungen, in deren Ergebnis sich die Vibrationen weiter vergrößern und schließlich den Koronaschutz der Wicklungselemente in der Nut und die Isolierung zerstören.A common type of fastening is to press the winding elements after inserting them into the slot by means of slot lock bars (also referred to as slot closure elements or slot wedges) with a trapezoidal cross-section, seen in the radial direction from the bore of the stator core stack on the slot base. The resulting preload is not defined. As a result of the age-related shrinkage of the slot locking rods and the filling strips made of laminated material (glass silk fabric with synthetic resin, pressed and hardened) inserted in the slot, combined with vibrations of the winding elements by electromagnetic forces, loosening takes place, as a result of which the vibrations increase further and finally the corona protection Destroy winding elements in the slot and the insulation.
Ausführungen mit dem Ziel, einen Festsitz der Wicklungselemente in der Nut durch einen beim Einlegen der Wicklungselemente saugfähigen kompressiblen, mit halbleitendem Lack vorimprägnierten Koronaschutz zu erreichen, führten ebenfalls nicht zum Ziel, weil auch hier die oben beschriebenen Schrumpfungen und zusätzlich noch die des Koronaschutzes auftraten. Aus der DE-OS 30 16 990 ist bekannt, daß Wicklungselemente mit längs in der Nut und seitlich in der Nut angeordneten Wellfedern unter Vorspannung verkeilt, ein Lockern der Wicklungselemente verhindern sollen. Diese Ausführung hat den Nachteil, daß die seitlichen, in der Regel halbleitenden Wellfedern, nur unwesentlich zum Festsitz beitragen, weil dieDesigns with the aim of achieving a tight fit of the winding elements in the slot by means of a compressible corona protection which is absorbent when the winding elements are inserted and also pre-impregnated with semiconducting lacquer did not lead to the goal either because the shrinkage described above and additionally that of the corona protection also occurred here. From DE-OS 30 16 990 it is known that winding elements with corrugated springs arranged longitudinally in the groove and laterally in the groove wedge under tension to prevent loosening of the winding elements. This version has the disadvantage that the lateral, usually semiconducting wave springs, contribute only insignificantly to the tight fit, because the
ERSATZBLATT elektromagnetischen Kräfte in der Nut radial zur Bohrung wirken.REPLACEMENT LEAF electromagnetic forces in the groove act radially to the bore.
Längs in der Nut angeordnete Wellfedern, wie aus der DE 32 41 410 bekannt, haben den Nachteil, daß sie großen technologischen Aufwand zum Erzielen großer, möglichst genau definierter Vorspannungen beim Einbringen der Nutverschlußstäbe erfordern.Corrugated springs arranged longitudinally in the groove, as known from DE 32 41 410, have the disadvantage that they require great technological effort to achieve large, as precisely defined pre-stresses when inserting the groove locking rods.
In der DD 268 847 werden sogenannte Doppelschrägkeile (hier Tangentialkeile genannt) als Nutverschlußelemente beschrieben, die zwar den Festsitz der Wicklungselemente verbessern, aber ein definiertes Vorspannen nicht gewährleisten.In DD 268 847, so-called double bevel wedges (here called tangential wedges) are described as slot closure elements, which improve the tightness of the winding elements, but do not guarantee a defined pre-tensioning.
Auch die DE-OS 26 56 373 beschreibt Tangentialkeile, die aber ein definiertes Vorspannen ebenfalls nicht ermöglichen.DE-OS 26 56 373 also describes tangential wedges, which, however, also do not allow a defined prestressing.
Die DE-OS 29 34 178 zeigt eine Lösung, bei der mehrere Tangentialkeile so aneinandergereiht sind, so daß durchDE-OS 29 34 178 shows a solution in which several tangential wedges are strung together so that by
Verschieben der Oberkeile die Vorspannung der gleichzeitig eingesetzten Wellfedem nachgestellt werden kann. Die Wellfeder ist dabei unter dem Unterkeil angeordnet. Beim Nachsetzen der Oberkeile besteht die Gefahr, daß sich der Unterkeil dabei mit bewegt und weil die Wellfeder unmittelbar und gegen unzulässige mechanische Beanspruchungen ungeschützt unter dem Unterkeil angeordnet ist, dabei die Laminatstruktur der Wellfeder zerstört.Moving the top wedges can adjust the preload of the corrugated springs used at the same time. The wave spring is arranged under the lower wedge. When repositioning the upper wedges there is a risk that the lower wedge will move with it and because the corrugated spring is arranged directly under the lower wedge and unprotected against inadmissible mechanical stresses, the laminate structure of the corrugated spring is destroyed.
Eine seitlich elastische Befestigung von Wicklungselementen wird in der DE-OS 40 25 439 beschrieben. Dies wird durchA laterally elastic fastening of winding elements is described in DE-OS 40 25 439. This is through
Einbringen einer gummielastischen, elektrisch leitfähigen Masse zwischen Nutwand und Wicklungselement erreicht. Dieser Lösung haftet der Nachteil an, daß auch bei dieser Ausführung die Wicklungselemente in der Nut nicht vibrationsfrei fixiert werden können.Introduced a rubber-elastic, electrically conductive mass between the slot wall and winding element. This solution has the disadvantage that the winding elements in the slot cannot be fixed vibration-free even in this embodiment.
ERSATZBLATT Der Erfindung liegt die Aufgabe zugrunde, isolierte.und ausgehärtete Wicklungselemnte vibrationsfrei, leicht montierbar und mit geringem technologischen Aufwand in den Nuten festzusetzen und gleichzeitig eine zuverlässige Kontaktierung des Koronaschutzes im Nutteil mit dem Blechpaket zu realisieren. Die Aufgabe zum Festsetzen von Wicklungselementen gemäß dem Oberbegriff des Anspruches 1 wird erfindungsgemäß durch die kennzeichnenden Merkmale des Hauptanspruches gelöst.REPLACEMENT LEAF The invention has for its object to fix insulated and hardened winding elements vibration-free, easy to assemble and with little technological effort in the slots and at the same time to implement reliable contacting of the corona protection in the slot part with the laminated core. The object for fixing winding elements according to the preamble of claim 1 is achieved according to the invention by the characterizing features of the main claim.
Dabei werden die Wicklungselemente 7 mit seitlichem Einbauspiel in die das Blechpaket der Maschine bildenden axialenThe winding elements 7 with lateral installation play in the axial forming the laminated core of the machine
Teilblechpakete 13 eingebaut. Abwechselnd sind im Spalt zwischen Wicklungselement 7 und Nutwand 2 längs der Nut im Bereich der Teilblechpakete 13 halbleitender Silikonkautschuk 8 und leitfähige seitliche Wellfederstücke 9 aus halbleitendem Schichtpreßstoff angeordnet. Diese Anordnung gewährleistet eine elastische seitliche Fixierung der Wicklungselemente 7.Sheet metal packs 13 installed. Alternately, semiconducting silicone rubber 8 and conductive lateral corrugated spring pieces 9 made of semiconducting laminate are arranged in the gap between winding element 7 and slot wall 2 along the slot in the area of the partial laminated core 13. This arrangement ensures elastic lateral fixation of the winding elements 7.
Eine gegen Vibration noch widerstandsfähigere Anordnung wird erreicht, wenn anstelle des halbleitenden Silikonkautschuks 8 in den entsprechenden Spalten jeweils halbleitender, tafelförmiger Schichtpreßstoff 10 angeordnet ist. Die endgültige Fixierung in radialer Richtung erfolgt durch Nutverschlußelemente in Tangentialkeilausführung in Verbindung mit einem Gleitstreifen 5 und einer Wellfeder 4 aus nichtleitendem Schichtpreßstoff. Dabei bestehen die an sich bekannten Tangentialkeile aus den Einlegekeilen 2 und den zugehörigen Spannkeilen 3. Zwischen beiden sind vorspannbare Wellfedern 4 und zusätzlich Gleitstreifen 5 angeordnet, die in Verbindung mit dem Deckstreifen 6 zum Einstellen einer genau definierten Vorspannung dienen. Die erfindungsgemäßen Einlegekeile 2 und Spannkeile 3 mit ihren speziellen aufeinander abgestimmten Querschnittsformen werden einzeln stranggezogen. Die Tangentialschrägen sind nachträglich durch mechanische Bearbeitung hergestellt. Dies hat den Vorteil, daß die Tangentialkeile jederzeit den entsprechendenAn arrangement which is even more resistant to vibration is achieved if, instead of the semiconducting silicone rubber 8, semiconducting, tabular laminate material 10 is arranged in the corresponding gaps. The final fixation in the radial direction is carried out by means of tangential wedge closure elements in conjunction with a sliding strip 5 and a corrugated spring 4 made of non-conductive laminate. The known tangential wedges consist of the insert wedges 2 and the associated clamping wedges 3. Between the two, prestressable corrugated springs 4 and additional sliding strips 5 are arranged, which, in conjunction with the cover strip 6, serve to set a precisely defined preload. The insert wedges 2 and clamping wedges 3 according to the invention, with their special cross-sectional shapes that are coordinated with one another, are individually drawn. The tangential bevels are subsequently made by mechanical processing. This has the advantage that the tangential wedges always meet the corresponding requirements
ERSATZBLATT Einbauanforderungen angepaßt werden können und eine sehr hohe Formgenauigkeit besitzen.REPLACEMENT LEAF Installation requirements can be adapted and have a very high dimensional accuracy.
Die Erfindung soll nachstehend an Hand der Figuren 1 und 2 in einem Ausführungsbeispiel näher beschrieben werden.The invention will be described below with reference to Figures 1 and 2 in one embodiment.
Figur 1 zeigt einen Längsschnitt durch die Nut einerFigure 1 shows a longitudinal section through the groove of a
Synchronmaschine großer Leistung im Ständerblechpaket 1 mit zwei Teilblechpaketen 13, getrennt durch einen radialen Ventilationskanal 14.High-performance synchronous machine in the stator core 1 with two partial core 13, separated by a radial ventilation duct 14.
Figur 2 zeigt den zugehörigen Querschnitt durch die Nut. In der Nut sind die zwei Wicklungselemente 7, getrennt durch einen Zwischenstreifen 11, angeordnet.Figure 2 shows the associated cross section through the groove. The two winding elements 7 are arranged in the slot, separated by an intermediate strip 11.
Die Vorspannung wird durch die erfindungsgemäße Tangentialkeilanordnung Einlegekeil 2; Wellfeder 4 aus halbleitendem Schichtpreßstoff; Spannkeil 3; Gleitstreifen 5 und Deckstreifen 6 erzeugt. Der Gleitstreifen 5 verhindert ein Zerstören der Laminatstruktur der Wellfeder beim Verspannen von Einlegekeil 2, Wellfeder 4 und Spannkeil 3. Zwischen Wicklungselement 7 und Spannkeil 3 befindet sich der Deckstreifen 6, dessen Dicke die Einschubrestlänge des Spannkeiles 3 bestimmt und die Vorspannung der Wellfeder 4 ebenfalls beeinflußt. Das Sicherungsstück 15, welches außerhalb des Ständerblechpaketes 1 an der Tangentialkeilanordnung anliegt und mit dem Wicklungselement 7 durch Bandagen fest verbunden ist, verhindert als Zusatzmaßnahme das Entspannen der Tangentialkeilanordnung. Die Bohrung 16 im Einlegekeil 2 dient zur AbStützung einer Vorrichtung zum Einbringen des Spannkeiles 3. Pro Nut sind mehrere Tangentialkeilanordnungen axial aneinandergereiht. Sie werden stückweise über die gesamte Blechpaketlänge eingebaut.The pretension is inserted by the tangential wedge arrangement 2; Corrugated spring 4 made of semiconducting laminate; Wedge 3; Slip strips 5 and cover strips 6 generated. The sliding strip 5 prevents the laminate structure of the corrugated spring from being destroyed when the insert wedge 2, corrugated spring 4 and clamping wedge 3 are clamped. Between the winding element 7 and the clamping wedge 3 there is the cover strip 6, the thickness of which determines the remaining insertion length of the clamping wedge 3 and also influences the pretensioning of the corrugated spring 4 . The securing piece 15, which rests outside the stator core 1 on the tangential wedge arrangement and is firmly connected to the winding element 7 by bandages, prevents the tangential wedge arrangement from relaxing as an additional measure. The bore 16 in the insert wedge 2 serves to support a device for inserting the clamping wedge 3. Several tangential wedge arrangements are axially strung together per groove. They are installed piece by piece over the entire length of the laminated core.
Der Spalt zwischen Wicklungselement 7 und Nutwand 12 ist längs der Nut im Bereich der Teilblechpakete 13 seitlich abwechselnd mit halbleitenden Wellfederstücken 9 und halbleitendemThe gap between winding element 7 and slot wall 12 is laterally alternating with semiconducting corrugated spring pieces 9 and semiconducting along the slot in the area of the partial laminated core 13
ERSATZBLATT Silikonkautschuk 8 ausgefüllt. Anstelle des halbleitenden Silikonkautschuks 8 wird vorzugsweise bei sehr großen elektromagnetischen Kräften auch halbleitender, tafelförmiger Schichtpreßstoff 10 angeordnet.REPLACEMENT LEAF Filled in silicone rubber 8. Instead of the semiconducting silicone rubber 8, semiconducting, tabular laminate 10 is preferably also arranged with very large electromagnetic forces.
Die erfindungsgemäße Lösung ermöglicht eine einstellbare, genau definierte Vorspannung der Wellfedern, verhindert Delaminierungen in der Wellfeder bei der Montage, einen alterungsbeständigen Festsitz der Wicklungselemente 7 in den Nuten, einen sicheren Koronaschutz bei einfacher Montage ohne aufwendige Vorrichtungen sowie eine geringe mechanischeThe solution according to the invention enables an adjustable, precisely defined pre-tensioning of the wave springs, prevents delamination in the wave spring during assembly, an aging-resistant tight fit of the winding elements 7 in the slots, reliable corona protection with simple assembly without complex devices and a low mechanical
Belastung der Wicklungselemente 7 während des Vorspannens.Loading of the winding elements 7 during pretensioning.
ERSATZBLATT REPLACEMENT LEAF

Claims

Patentansprüche Claims
1. Anordnung zum Festsetzen von Wicklungselementen in den Nuten eines Blechpaketes elektrischer Maschinen, insbesondere von Synchrongeneratoren großer Leistung mit mehreren Wicklungselementen pro Nut, die vor ihrem Einbau in das1. Arrangement for fixing winding elements in the grooves of a laminated core of electrical machines, in particular synchronous generators of high power with several winding elements per groove, which before being installed in the
Blechpaket isoliert, imprägniert und ausgehärtet sind und in der Nut mit Nutverschlußelementen in Tangentialkeilausführung kombiniert mit vorspannbaren Wellfedern festgesetzt sind, dadurch gekennzeichnet, - daß eine vorspannbare Wellfeder (4) und ein Gleitstreifen (5) zwischen Einlegekeil (2) und Spannkeil (3) eines Nutverschlußelementes in Tangentialkeilausführung angeordnet istThe laminated core is insulated, impregnated and hardened and fixed in the groove with tangential wedge locking elements combined with pretensionable corrugated springs, characterized in that - a pretensionable corrugated spring (4) and a sliding strip (5) between insertion wedge (2) and tensioning wedge (3) one Groove closure element is arranged in a tangential wedge design
- und daß der Spalt zwischen Wicklungselement (7) und Nutwand (12) längs der Nut im Bereich der Teilblechpakete (13) abwechselnd mit halbleitenden seitlichen Wellfederstücken (9) und halbleitendem Silikonkautschuck (8) ausgefüllt ist- And that the gap between the winding element (7) and slot wall (12) along the slot in the area of the laminated core (13) is alternately filled with semiconducting lateral corrugated spring pieces (9) and semiconducting silicone rubber (8)
- oder daß der Spalt zwischen Wicklungselement (7) und Nutwand (12) längs der Nut im Bereich der Teilblechpakte (13) abwechselnd mit halbleitenden seitlichen Wellfederstücken (9) und halbleitendem tafelförmigen Schichtpreßstoff (10) ausgefüllt ist.- Or that the gap between the winding element (7) and slot wall (12) along the slot in the area of the partial sheet pacts (13) is alternately filled with semiconducting lateral corrugated spring pieces (9) and semiconducting tabular laminate (10).
2. Anordnung zum Festsetzen von Wicklungselementen in den Nuten eines Blechpaketes elektrischer Maschinen nach Anspruch 1, dadurch gekennzeichnet, daß der Einlegekeil (2) und Spannkeil (3) strangezogen und die Tangentialschrägen nachträglich durch mechanische Bearbeitung hergestellt sind.2. Arrangement for fixing winding elements in the grooves of a laminated core of electrical machines according to claim 1, characterized in that the insert wedge (2) and clamping wedge (3) strange drawn and the tangential bevels are subsequently made by mechanical processing.
ERSATZBLATT REPLACEMENT LEAF
EP94912474A 1993-04-23 1994-04-20 Arrangement for securing winding components in the grooves of a lamination stack in electric machines Withdrawn EP0733277A1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
DE19934313265 DE4313265C2 (en) 1993-04-23 1993-04-23 Arrangement for fixing winding elements in the grooves of a laminated core of electrical machines
DE4313265 1993-04-23
PCT/DE1994/000437 WO1994026015A1 (en) 1993-04-23 1994-04-20 Arrangement for securing winding components in the grooves of a lamination stack in electric machines

Publications (1)

Publication Number Publication Date
EP0733277A1 true EP0733277A1 (en) 1996-09-25

Family

ID=6486161

Family Applications (1)

Application Number Title Priority Date Filing Date
EP94912474A Withdrawn EP0733277A1 (en) 1993-04-23 1994-04-20 Arrangement for securing winding components in the grooves of a lamination stack in electric machines

Country Status (3)

Country Link
EP (1) EP0733277A1 (en)
DE (1) DE4313265C2 (en)
WO (1) WO1994026015A1 (en)

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DE19742900A1 (en) * 1997-09-29 1999-04-01 Asea Brown Boveri Groove closure arrangement
DE19921645A1 (en) * 1999-05-10 2000-11-16 Micafil Ag Zuerich Method of making a groove arrangement

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DE2655609C2 (en) * 1976-12-06 1984-05-17 Siemens AG, 1000 Berlin und 8000 München Winding an electrical machine
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DE2934178A1 (en) * 1979-08-23 1981-04-09 Kraftwerk Union AG, 4330 Mülheim Fixing assembly for winding bars of turbogenerator slots - fixes winding bars using adjustable springs between winding bars and double closure pieces
DE3016990A1 (en) * 1980-05-02 1981-11-12 Kraftwerk Union AG, 4330 Mülheim DEVICE FOR FIXING WINDING RODS IN SLOTS OF ELECTRICAL MACHINES, IN PARTICULAR TURBOGENERATORS
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DE4025439A1 (en) * 1990-08-10 1992-02-13 Siemens Ag Slot winding system in machine stator - has two wound bars, with filling of elastic conducting silicone rubber to ensure electrical contact between outer bar and main support

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Title
See references of WO9426015A1 *

Also Published As

Publication number Publication date
WO1994026015A1 (en) 1994-11-10
DE4313265A1 (en) 1994-11-03
DE4313265C2 (en) 1996-03-28

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