EP2689514A2

EP2689514A2 - Manufacturing method of an electrical insulation system of a conductor in a winding head of an electric machine

Info

Publication number: EP2689514A2
Application number: EP12720128.3A
Authority: EP
Inventors: Peter GRÖPPEL; Thomas Hildinger; Steffen Lang; Stefan Kempen; Friedhelm Pohlmann
Original assignee: Voith Patent GmbH; Siemens AG
Current assignee: Voith Patent GmbH; Siemens AG
Priority date: 2011-05-06
Filing date: 2012-04-24
Publication date: 2014-01-29
Also published as: DE102011075425A1; WO2012152580A2; WO2012152580A3; US20140083592A1; CN103765731A

Abstract

A method for producing an electrical insulation system for an electric machine comprises the following steps: applying a porous main insulation paper to a conductor (3) of the electric machine; applying a porous overhang corona shielding paper to the main insulation paper, as a result of which an insulation blank of the insulation system is formed; impregnating the insulation blank with a base resin, wherein the overhang corona shielding paper and the main insulation paper have a porosity such that the insulation blank is impregnated by the base resin to form a homogeneous base resin matrix; completing the insulation system.

Description

description

Method for producing an electrical insulation system for an electrical machine

The invention relates to a method for producing an electrical insulation system for an electrical machine.

A high-voltage machine, such as a turbogenerator in a power plant for generating electrical energy, is exposed to high mechanical, thermal and electrical stress. In particular, the turbogenerator has a turbogenerator stand with a stator core and a plurality of generator winding bars, which are electrical conductors. The stator core has a

Plural on grooves in which the ladder are stored. The ladder stand out of the stator core. The electrical insulation system covers each conductor and has the purpose of electrically insulating each conductor against adjacent conductors, against the stator core and against the environment. The insulation system has a main insulation, which envelops the conductor and forms interfaces with the stator core and the conductor. As a result of thermal or mechanical ^loading during operation of the high-voltage machine, the main insulation can lift off at these boundary surfaces, as a result of which cavities are formed. In these cavities sparks can be formed at high operating voltages, which are caused by partial electrical discharges. This electrical stress on the main insulation can lead to its damage.

To avoid partial discharges at the interface between the main insulation and the conductor, a weakly conductive internal potential control is provided. To avoid partial discharge at the interface between the main insulation and the stator core, a weakly conductive and grounded Außenglimmschutz is provided, which wraps around the main insulation. The external corona protection extends starting from the stator core not completely on the Hauptisola ^¬ tion. The electric field strength is reduced starting from the ^inner potential control in the direction of the external corona protection. To avoid partial discharges, the degradation of the electric field is made more uniform by the provision of an end glow protection. The Endenglimmschutz extends from the stator core facing away from the end of the Außenglimmschutzes to the beginning of the winding head. To Ver ^¬ uniformity of the field strength of the Endenglimmschutz is formed with a material that has an increasing voltage, ie electric field strength, an exponentially decreasing electrical resistance. The Endenglimmschutz thus causes a field control. The Endenglimmschutz has partially conductive particles, wel ^¬ che are embedded in a polymer. The polymer is either part of a varnish or a band. If the polymer is part of the paint, the end corona protection is applied to the main insulation in an additional step after it has been impregnated and cured.

In the form of bands, the partially conductive particles are embedded in the polymer, which soaks through a fabric, a scrim or a non-woven. The polymer has a so-called B-state. This means that the polymer is present in egg ^¬ ner tack-free execution, in order to allow for further proces ^¬ processing of the tape at a high flexibility and strength. The polymer is partially crosslinked, so that the strip can be converted into its final form in a final curing. The final form of the ^belt is characterized by high temperature resistance and dimensional stability. The application of this volume before the ^¬ prägnierung the main insulation is disadvantageous because the polymer is a diffusion barrier that hinders the homogeneous and complete impregnation by the main insulation. For this reason, the end corona protection strip is partly applied after impregnation and hardening of the main insulation and then thermally cured. The application of the Bandes on the main insulation after impregnation and before curing of the main insulation is not relevant for health reasons (contamination of employees with reactive resins).

In the form of paint, the partially conductive particles are suspended in the polymer. The paint is applied by dipping, spraying or painting in the appropriate places on the hardened main insulation. Subsequently, the paint is dried and cured. When applying the

The problem with lacquers is that the layer thickness of the lacquer can fluctuate, which can lead to insufficient field control, which is insufficient to sufficiently prevent partial discharges.

In both cases, ie the application of the Endenglimmschutzes in the form of the bands or the paint is either a subsequent application of Endenglimmschutzes after Im ^¬ embossing and curing of the main insulation consuming in the production, or applied before impregnation Endeglimmschutz reduces the Durchimprägnierbar - speed. Further, solid-solid interfaces Zvi ^¬'s main insulation and Endenglimmmschutz form by the subsequent application of the end corona shielding, which may occur at this interface to air inclusions in which partial discharges are possible. This reduces the life of the end corona shield and the main insulation.

The object of the invention is to provide a method of making an electrical insulation system for an electrical machine with a ^¬ Ma Endenglimmschutz, wherein the life of the insulation system is increased and its Her ^¬ position is easy. The inventive method for producing an electrical insulation system for an electrical machine comprises the following steps: applying a porous Hauptisolati ^¬ onspapiers on a conductor of the electric machine; On- bring a porous Endglimmschutzpapier on the main ^¬ insulation paper, whereby a Isolationsrohkörper of the insulation system is formed; By impregnating the Isolationsroh ^¬ body with a base resin, wherein the Endenglimmschutzpapier and the main insulation paper have such a porosity that the Isolationsrohkörper is saturated with the base resin to form a homogeneous base resin matrix; Completing the insulation system. The fact that the base resin matrix is formed homogeneously, no solid-solid interface between the En ^¬ denglimmschutz and the main insulation is formed, which advantageously causes a high strength of the insulation system towards ^¬ the formation of air bubbles. Furthermore, the end corona protection can advantageously be applied in a reproducible layer thickness for complete field control. In addition, a subsequent Aufbrin ^¬ conditions of Endenglimmschutzsystems is not necessary, so that the production is easy.

The method according to the invention preferably has the step of curing the base resin so that the insulation system is completed. The main insulation paper has before ^¬ Trains t on mica paper, alumina paper and / or crepe paper. The Endenglimmschutzpapier preferably has a Parti ^¬ kelverbund from partially conductive particles, in particular silicon carbide particles, or particles with microvaristors ei ^¬ ner partially conductive coating. The main insulation paper preferably has a support structure which increases the mechanical strength of the main insulation paper. Furthermore, the final corona protection paper preferably has a carrier structure which increases the mechanical strength of the final corona protection paper. The support structure is preferably a woven fabric, a Ge ^¬ put and / or a nonwoven, wherein the support structure is glued to the denklimmschutzpapier ene.

In the following, the invention is explained in more detail with reference to the accompanying schematic drawing. The figure shows one Cross section of a turbogenerator stand with an insulation system produced by the method according to the invention.

As is apparent from the figure, a turbine generators torständer 1, a stator core 2, from which a Genera ^¬ torwicklungsstab 3 protrudes. The generator winding rod 3 is surrounded by a main insulation 4, wherein the winding rod 3 is arranged with its main insulation 4 and with its one end outside of the stator core 2. In the region of the exit point of the winding bar 3 from the Ständerblechpa ^¬ ket 2 a Außenglimmschutz 5 is provided, which sheathed the main insulation 4 and is grounded to a grounding 6. Au ^¬ ßerdem is provided an inner potential controller 7 at the exposed longitudinal end of the main insulation. 4 Starting from the end of the outer corona shield 5 facing away from the stator core 2, the end corona protection 8 envelops the main insulation 4. By way of example, the method according to the invention will be explained in more detail below.

A main insulation paper is applied to the generator winding rod 3. An end corona protection paper is applied to the main insulating paper, starting from the internal potential control up to the distance from the stator core, on which the stator core facing away from the end of the outer corona shielding 5 is provided, whereby an insulation ^¬ raw body is formed. The insulating raw body is impregnated by a base resin, wherein the final corona protection paper and the main insulating paper have a porosity such that the insulating raw body is impregnated by the base resin to form a homogeneous base resin matrix. Finally, the insulation system is cured by applying heat.

Claims

claims

1. A method of manufacturing an electrical insulation system for an electric machine, comprising the steps of:

- Applying a porous main insulation paper on a conductor (3) of the electrical machine;

- Applying a porous Endglimmschutzpapier on the main insulation paper, whereby a Isolationsrohkörper of the insulation system is formed;

- Soaking the Isolationsrohkörpers with a base resin, the Endenglimmschutzpapier and the Hauptisolationspa ^¬ Pier have such a porosity that the Isolationsrohkörper is impregnated by the base resin to form a homogeneous base resin matrix;

- Completing the insulation system.

2. The method according to claim 1, comprising the step:

- Hardening of the base resin, whereby the insulation system is completed.

3. The method according to claim 1 or 2, wherein the Hauptisolati ^¬ onspapier has a mica paper, an alumina paper and / or a crepe paper.

4. The method according to any one of claims 1 to 3, wherein the En ^¬ denglimmschutzpapier a particle composite of partially conductive particles, in particular silicon carbide particles, microvariers or particles with a partially conductive coating, has.

5. The method according to any one of claims 1 to 4, wherein the main insulation paper has a first support structure, which increases the mechanical stability of the main insulation paper.

6. The method according to any one of claims 1 to 5, wherein the En ^¬ denglimmschutzpapier has a second support structure, he ^¬ increases the mechanical strength of the Endglimmschutzpapiers.

7. The method according to claim 5 or 6, wherein the support structure is a fabric, a scrim and / or a nonwoven, wherein the support structure is glued to the final corona protection paper