RU66591U1 - WINDING WIRE - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely to designs of winding wires with enamel insulation, which are used, for example, for the manufacture of transformer windings and electrical machines. The technical result of the utility model is to increase the adhesion of insulation to the conductive core, as well as to increase the mechanical strength during installation bends in the manufacture of transformer windings and electrical machines, and as a result, increase the reliability of the winding wire during its operation in transformer windings and electrical machines. The winding wire consists of a conductive core and insulation made of the first varnish layer based on aromatic polyamides with a dry residue of 15-30%, applied to the conductive core, at least one layer of insulating varnish superimposed on the first varnish layer, additionally on the insulating at least one layer of glass or glass polyester yarns may be applied with a varnish layer, with additional impregnation with an insulating varnish. The proposed design of the winding wire allows for increased adhesion of the insulation to the conductive core, reduces the likelihood of delamination of the insulation from the conductive core, increases the mechanical strength of the insulation, and as a result increases the reliability of the winding wire during its operation in the windings of transformers and electrical machines.

Description

The technical field to which the utility model relates.

The utility model relates to the field of electrical engineering, namely to designs of winding wires with enamel insulation, which are used, for example, for the manufacture of transformer windings and electrical machines.

State of the art

Known winding wire containing a conductive core, which is coated with insulation of varnish ("Copper wires with enamel insulation, rectangular with a temperature index of 155" TU 16-705.414-86).

The disadvantage of this winding wire is the low adhesion of the insulation made of insulating varnish to the conductive core, which leads to delamination of the insulation from the conductive core during installation bends in the manufacture of transformer windings and electrical machines, which in turn leads to a decrease in the mechanical strength of the insulation and lower the reliability of the winding wire during its operation in the windings of transformers and electrical machines.

Information revealing the essence of a utility model

The problem to which the claimed utility model is directed is to produce a winding wire, the insulation of which has increased adhesion to the conductive core, which reduces the likelihood of delamination of the insulation from the conductive core, increases mechanical strength during installation bends in the manufacture of transformer windings and electrical machines, and as a result, it increases the reliability of the winding wire during its operation in the windings of transformers and electrical machines.

The technical result of the utility model is to increase the adhesion of insulation to a conductive core, as well as increase the mechanical strength during installation bends in the manufacture of transformer windings and electrical machines, and as a result, increase the reliability of the winding wire during its operation in transformer windings and electrical machines.

The technical result is achieved due to the fact that the winding wire contains a conductive core coated with insulation, consisting of a first layer of varnish based on aromatic polyamides with a dry residue of 15-30%, applied to the conductive core, and at least one layer of insulating varnish applied to the first layer of varnish.

A distinctive feature of the claimed utility model is that the insulation of the winding wire consists of a first layer of varnish based on aromatic polyamides with a dry residue of 15-30%, applied to the conductive core, which provides good adhesion to the conductive core and prepares

the surface of the conductive core to the subsequent application of insulating varnishes, and at least one layer of insulating varnish applied to the first layer of varnish.

In addition, in the particular case of the implementation of the utility model, the insulation of the winding wire may further comprise at least one layer of glass or glass polyester filaments superimposed on the layer of insulating varnish with additional impregnation with insulating varnish.

As a result of a search by patent and scientific and technical sources of information, no solutions were found containing the entire set of essential features of an independent claim of a utility model formula, which allows us to conclude that the claimed utility model meets the patentability criterion of “novelty”.

Utility Model Implementation

The winding wire consists of a conductive core 1 and insulation made of the first layer of varnish 2 based on aromatic polyamides with a dry residue of 15-30%, applied to the conductive core, and at least one layer of insulating varnish 3, applied to the first layer of varnish , in addition, at least one layer of glass or polyester yarn 4 can be applied to the insulating varnish layer, with additional impregnation with insulating varnish.

The conductive core 1 is made by methods known in the cable industry. Application on the conductive core 1 of the first layer of varnish 2 based on aromatic polyamides with a dry residue of 15-30% and insulation varnish 3 applied to the first layer is carried out on enamel units with simultaneous heat treatment. The application of glass or glass-polyester yarn 4 is carried out on winding machines by the method of winding, followed by applying an impregnating insulating varnish with simultaneous heat treatment on enamel units.

Thus, the proposed design of the winding wire provides increased adhesion of the insulation to the conductive core, which reduces the likelihood of delamination of the insulation from the conductive core, increases mechanical strength during installation bends in the manufacture of windings of transformers and electrical machines, and as a result damages the reliability of the winding wire during its operation in windings of transformers and electrical machines.

The claimed technical solution meets the patentability criterion of "industrial applicability", because it can be implemented using well-known means of production, materials and technologies.

Claims (2)

1. A winding wire containing a conductive core coated with insulation, characterized in that the insulation consists of a first layer of varnish based on aromatic polyamides with a dry residue of 15-30% applied to the conductive core, and at least one layer of insulating varnish applied on the first coat of varnish. 2. A winding wire according to claim 1, characterized in that at least one layer of glass or glass-polyester yarns is additionally applied over the insulating varnish with additional impregnation with insulating varnish.