SU1374316A1 - Insulation cone of electric machine commutator - Google Patents

Abstract

The invention relates to the field of engineering. The cone consists of alternating layers: a layer of mica-containing material 1, impregnated with a binder, a layer of synthetic paper 2 and a layer of polyethylene terephthalate film 3. The presence of a layer of synthetic paper eliminates the possibility of delamination and loss of monolithic insulation of the insulating cone during manufacture and operation of the collector. 1 il. (L

Description

The invention relates to electrical engineering.

The aim of the invention is to increase the solidity and reliability of the cone in operation.

Synthetic paper having a loose structure is well impregnated and has high adhesion to mica-containing materials after heat treatment, which eliminates the possibility of delamination and violation of the monolithic cone during the operation of the collector.

The drawing schematically shows an insulating cone.

The insulating cone consists of alternating layers: a layer of mica-containing material I, a layer of synthetic paper 2, a layer of polyethylene terephthalate film 3.

Before assembling into a package of blanks of these materials, a layer of a binder, for example, a resin with a thickness of 0.01-0.02 mm, is applied to the film, and synthetic paper is glued on both sides. Using special rollers, synthetic paper is tightly pressed to the film, after which the binder layer is heat treated at 150-160 ° C for 1-2 hours. Such a thin binder layer only adheres to the film a surface layer of synthetic paper, leaving the inside of the paper loose. able to soak and adhere well with mica-containing materials.

Packed insulation, impregnated with a thermosetting binder, for example polyester resin or BF-2 glue, etc., is preformed in a special mold made in the form of an insulating cone, heated to a temperature of 150-160 ° C for 1-1, 5 hours. The final heat treatment of the insulating cone takes place in the assembled collector during static and dynamic moldings under the influence of the design pressure 600800 kg / cm ^g and a temperature of 160 ° C.

During the operation of the collector, centrifugal forces and the force from the linear expansion of the collector parts act on the insulating cone. picking at. its heating during operation. Synthetic paper, which has high adhesion to mica-containing material and film, resists the action of the indicated forces and protects the insulating cone from delamination and cracks and thereby maintains its monolithicity, electric and mechanical strength throughout the entire operation period.

The technical and economic advantage of the present invention compared to the known one is as follows.

In the known invention, due to the low level of adhesion of the impregnating compositions to polymer films under alternating temperatures, static and dynamic loads arising during the manufacture and operation of the collector, separation of the insulation cones and violation of their monolithic structure occurs, which leads to a decrease in the moisture resistance of the collector and higher heating, its working part. This, in turn, significantly reduces the reliability and life of the collector in operation. In addition, the stratification of the insulating cones eliminates the possibility of their repeated use when disassembling the collector in case of repair.

In the present invention, synthetic paper is introduced between the layers of mica-containing material and the polyethylene terephthalate film, which has high adhesion to both the film and the mica-containing material. This eliminates the stratification of 4Q insulating cones and thereby improves the moisture resistance and operational reliability of the collector, reduce the cost of repairing the collector by increasing its service life.

Claims (1)

• Claim An insulating cone of the collector of an electric machine, containing alternating layers of mica-containing material impregnated with a binder and a polyethylene terephthalate film, characterized in that, in order to increase monolithicity and reliability, a layer of synthetic paper is introduced between the mica-containing material and polyethylene terephthalate film.