RU70041U1 - HEAT RESISTANT INSTALLATION WIRE - Google Patents

Abstract

The invention relates to the field of electricity, in particular to insulated wires or cables and to means for protecting insulated wires or cables from damage caused by external factors. The technical result that can be obtained by implementing a utility model is to increase the reliability of the wire and reduce its mass. The specified technical result is achieved by the fact that the wire contains a conductive core with at least one conductor in the form of an aluminum core or its alloys in a sheath, allowing to reduce heat generation, and an insulating sheath in the form of a winding layer with polyimide and fluoroplastic components, due to that the conductive core is silver plated.

Description

The invention relates to the field of electricity, in particular to insulated wires or cables and to means for protecting insulated wires or cables from damage caused by external factors.

Known wires containing a conductive core and an insulating sheath (see, for example, RU N2212721 НВВ 7/04, 2003)

Closest to the claimed object is an assembly wire containing a conductive core formed by at least one conductor in the form of a sheath with an aluminum core and an insulating sheath in the form of a winding layer with polyimide and fluoroplastic components (US 3795760 Н01В 1/02; Н01В 11/02 1974)

The disadvantage of this wire is that the fluoroplastic component, acting as a binder of the windings of the winding of the polyimide component, does not interfere with the direct contact of the conductive core with the polyimide component, which, as a thermoset, does not soften when heated, and after reaching a certain temperature begins to break. This feature becomes a significant obstacle to the use of lightweight bimetallic conductors in the space and aircraft operating conditions in the form, for example, of a copper sheath with an aluminum core, which, all other things being equal, have high electrical resistance and high heat dissipation. To ensure the required reliability of such a technical solution, the thickness of the insulation, the size of the cross section of the conductor and, consequently, the weight of the wire are forced to increase.

The problem to which the claimed utility model is directed is the creation of a relatively lightweight and heat-resistant wire for space and aircraft.

The technical result that can be obtained by implementing a utility model is to increase the reliability of the wire and reduce its mass.

The specified technical result is achieved by the fact that the wire contains a conductive core with at least one conductor in the form of an aluminum core or its alloys in a sheath, allowing to reduce heat generation, and an insulating sheath in the form of a winding layer with polyimide and fluoroplastic components, due to that the conductive core is silver plated.

And also due to the fact that the fluoroplastic component is made in the form of a layer between the conductive core and the winding layer with the polyimide component

And also due to the fact that the fluoroplastic component is made in the form of a winding with fluoroplastic fiber.

And also due to the fact that the fluoroplastic component is made in the form of a winding with a fluoroplastic film.

And also due to the fact that the fluoroplastic component is made in the form of a coating with a fluoroplastic suspension.

And also due to the fact that the winding layer with the polyimide component is made of a polyimide film by overlapping adjacent turns.

And also due to the fact that the winding layer with the polyimide component is made of an arimide or aramid or basalt thread with a polyimide binder.

And also due to the fact that the conductive core is silver plated with artificially increased ductility and conductivity.

The implementation of the utility model is as follows.

Due to the fact that the fluoroplastic has an adhesion value that is more significant than that of polyimide both on the surface of the copper shell and on the surface of the polyimide component, the fluoroplastic component, in the form of a layer between the silver sheath of the aluminum core and the winding layer of the insulating sheath with the polyimide component, ensures the bond strength of all wire components.

Due to the fact that, unlike thermosetting polymer-polyimide, fluoroplastic, being a thermoplastic, softens when heated, prevents the negative thermal effect of the bimetallic conductor on the polyimide component and fills the space of the wire when the shape changes. The latter is especially important to prevent the destruction of the bonds of the winding layer (braid) with an arimide or aramid or basalt thread and a polyimide binder.

The fluoroplastic component, depending on the shape of the core, can be made either in the form of a winding (braid) with a fluoroplastic fiber, or a fluoroplastic film, or in the form of a coating with a fluoroplastic suspension.

In turn, the core of the conductive core made of aluminum or its alloys can be silver plated, for example, grade 99.99 (chemical composition according to GOST 6836-20002).

Claims (9)

1. A wire comprising a conductive core formed by at least one conductor in the form of an aluminum core or its alloys in a sheath and an insulating sheath in the form of a winding layer with polyimide and fluoroplastic components, characterized in that the conductive core is silver plated. 2. The wire according to claim 1, characterized in that the fluoroplastic component is made in the form of a layer between the conductive core and the winding layer with a polyimide component 3. The wire according to claim 1, characterized in that the fluoroplastic component is made in the form of a winding with fluoroplastic fiber. 4. The wire according to claim 1, characterized in that the fluoroplastic component is made in the form of a winding with a fluoroplastic film. 5. The wire according to claim 1, characterized in that the fluoroplastic component is made in the form of a coating with a fluoroplastic suspension. 6. The wire according to claim 1, characterized in that the polyimide-fluoroplastic component is made in the form of a film coating. 7. The wire according to one of claims 1 to 6, characterized in that the winding layer with the polyimide component is made of a polyimide film with overlapping adjacent turns. 8. The wire according to one of claims 1 to 6, characterized in that the winding layer with the polyimide component is made of an arimide or aramid or basalt thread with a polyimide binder. 9. The wire according to one of claims 1 to 5, characterized in that the conductive core is silver plated with artificially increased ductility and conductivity.