RU2003110430A - INSULATION SYSTEM WITH STEPS ELECTRIC FIELD FOR DYNAMO-ELECTRIC MACHINE - Google Patents

Claims (13)

1. The insulation of the winding element for a dynamoelectric machine, comprising a first inner insulation layer deposited on a conductor and having a first predetermined thickness and a first predetermined dielectric constant, a second insulation layer deposited on a first inner insulation layer and having a second predetermined thickness and a second predetermined a certain dielectric constant, and the second dielectric constant is less than the first dielectric constant, characterized in that the first int the first insulation layer and the second insulation layer contain mica paper tape, and the mica for each tape is a different type of mica selected from the group consisting of anandite, annite, biotite, bitite, boromuscovite, celadonite, chernichite, clintonite, ephesite, ferriannite, glauconite , hendrixite, cinositalite, lepidolite, masutomilite, muscovite, nanpingite, paragonite, phlogopite, polyilitionite, priceworkite, roskolite, siderophyllite, sodium phlogopite, tenilinolt, vermiculate, vonesite and cynvaldite. 2. The insulation of the winding element according to claim 1, characterized in that each first inner and second insulation layer contains several layers of wrapped or overlapping insulation tape. 3. The insulation of the winding element according to claim 2, characterized in that the first inner and second layers of insulation contain coronostic material. 4. The insulation of the winding element according to claim 1, characterized in that the first insulation layer is a layer of coil insulation applied to each conductor of a plurality of conductors forming the winding, and the second insulation layer is a layer of casing insulation applied to the first insulation layer of the plurality conductors. 5. The insulation of the winding element according to claim 4, characterized in that it further comprises at least one additional insulation layer applied sequentially to the second insulation layer and having a dielectric constant that is less than that of the previously applied insulation layer. 6. The insulation of the winding element according to claim 1, characterized in that it further comprises at least one subsequent insulation layer deposited sequentially on the second insulation layer and having a dielectric constant that is less than that of the previously applied insulation layer. 7. Housing insulation for a dynamoelectric machine conductor having a stepped electric field across the housing insulation and comprising a first inner insulation layer deposited on the conductor and having a first predetermined thickness and a first predetermined dielectric constant, a second insulation layer deposited on the first inner insulation layer forming a transition with it, and having a second predetermined thickness and a second predetermined dielectric constant, the second dielectric permeability is less than the first dielectric constant, and forms a stepwise increase in the electric field in the housing insulation at the junction of the first inner and second insulation layers, characterized in that the first inner and second insulation layers contain a tape of mica paper, and mica for each tape is mica of various types selected from the group consisting of anandite, annite, biotite, bitite, boromuscovite, celadonite, chernichite, clintonite, ephesite, ferriannite, glauconite, hendrixite, cinema ita, lepidolite, masutomilite, muscovite, nanpingite, paragonite, phlogopig, polylithionite, priceworkite, roscolite, siderophyllite, sodium phlogopite, teniolite, vermiculate, woneite and cynvaldite. 8. Case insulation according to claim 7, characterized in that each first inner and second layer of insulation of the body insulation contains several layers of wrapped or overlapping insulation tape. 9. Case insulation according to claim 8, characterized in that the first inner and second layers of insulation are impregnated with a resin that contains particles of corona-resistant material. 10. Housing insulation according to claim 8, characterized in that it further comprises at least one additional insulation layer deposited sequentially on the second insulation layer, each subsequent insulation layer having a dielectric constant that is less than that of the earlier applied insulation layer. 11. Case insulation according to claim 8, characterized in that the winding is designed to withstand voltages above 4 kV. 12. Case insulation according to claim 11, characterized in that the winding is designed to withstand voltages equal to at least 13.8 kV. 13. Case insulation according to claim 8, characterized in that the insulation thickness is less than 3.2 mm