RU160994U1 - SILICON ORGANIC RUBBER - Google Patents

Abstract

1. A wire containing a conductive core with silicone rubber insulation, characterized in that the insulation is made of silicone rubber with a tensile strength of at least 11 MPa, an elongation at break of at least 380%, a specific volume resistance of at least 1 · 10 Ohm · cm and with a temperature index of 180 to 250 ° C. 2. A wire according to claim 1, characterized in that the conductive core is made of twisted copper wires. 3. A wire according to claim 1, characterized in that the conductive core is made of one copper wire. 4. A wire according to claim 1, characterized in that the conductive core is made of twisted copper silver-plated wires. The wire according to claim 1, characterized in that the conductive core is made of one silver-plated copper wire. 6. A wire according to claim 1, characterized in that the conductive core is made of twisted aluminum wires. A wire according to claim 1, characterized in that the conductive core is made of one aluminum wire. Wire according to any one of paragraphs. 1-7, characterized in that the conductive core is made of enameled wires. 9. Wire according to any one of paragraphs. 1-7, characterized in that the conductive core is made of sealed wires coated with enamel. 10. Wire according to any one of paragraphs. 1-7, characterized in that the conductive core is made of compacted wires.

Description

The technical field to which the utility model relates.

The utility model relates to cable technology, namely, to the construction of wires with silicone rubber insulation, designed to work in electrical networks, including networks of rolling stock of railway transport (subway cars), or at the places where the wiring transitions from fixed parts to moving ones, either for fixed installation inside lighting fixtures, electric stoves, ovens and other household electric heating appliances, or for the outlet ends of electric machines and apparatuses, or for hank limiting reactors.

State of the art

Known wire brand PVVT, containing a tinned copper stranded conductive core and insulation made of PVC compound with a long allowable operating temperature of the wire up to plus 105 °. (Electrical cables, wires, and cords: Reference book / N.I. Belorussov, A.E. Saakyan, A.I. Yakovleva; edited by N.I. Belorussov. - 5th ed., Revised and additional - M : Energoatomizdat, 1987 .-- 536; p. 155).

A sign of a known wire that matches the features of the claimed utility model is that the wire contains an insulated conductive core.

The reason that prevents obtaining a technical result in a known wire, which is ensured by the claimed utility model, is that the wire is insulated with PVC compound with a long acceptable temperature of 105 ° C.

The closest analogue (prototype) is a wire brand PGR containing an insulated copper multi-wire conductive core. The insulation is made of silicone rubber grade K-69. (TU 16.705.330-84 “Flexible wires with a copper core, with insulation non-spreading combustion”)

Signs of the known wire, coinciding with the features of the claimed utility model, are that the wire contains a copper conductive core, which is coated with silicone rubber insulation.

The reason that prevents the obtaining of a technical result in a known wire that the claimed utility model provides is that the wire is insulated with silicone rubber of grade K-69 with low mechanical and electrical characteristics, namely, tensile strength of at least 6.0 MPa, relative specific at a break of at least 310% and with a specific volume resistance of at least 5 · 10 ¹⁴ Ohm · cm (TU 38.103693-90 “Silicone rubber mixtures for the electric industry”).

A new feature of the claimed technical solution of the utility model is that the insulation is made of organosilicon rubber with improved mechanical and electrical characteristics (compared with the prototype and analog), namely with tensile strength of at least 11 MPa, elongation at break of at least 380 %, with a specific volume resistance of at least 1 · 10 ¹⁵ Ohm · cm and with a temperature index of 180 to 250 ° C.

Utility Model Disclosure

The problem the utility model aims to solve is to improve the mechanical and electrical characteristics of the wire.

This problem is achieved due to the fact that the wire contains one insulated conductive core and insulation made of silicone rubber with a tensile strength of at least 11 MPa, an elongation at break of at least 380% with a specific volume resistance of at least 1 · 10 ¹⁵ Ohm · cm and with a temperature index of 180 to 250 ° C. The conductive core may be made of a single copper or copper silvered or aluminum wire, or may be made of twisted copper or aluminum or copper silver plated wires. The wires in the conductor can be sealed. The wires in the conductive core can be coated with enamel.

The technical result is that when performing insulation from silicone rubber with a tensile strength of at least 11 MPa, a relative elongation at break of at least 380%, with a specific volume resistance of at least 1 · 10 ¹⁵ Ohm · cm and with a temperature index of 180 to 250 ° C, due to which we get a wire with improved mechanical and electrical characteristics and with a high working temperature (compared with the analogue and prototype), therefore, as a result, the reliability and durability of the wire increases.

Utility Model Implementation

The conductive core can be twisted from wires or consist of one wire. The wires can be made of copper, aluminum or silver plated copper. The conductive core is designed for the flow of electric current. To increase the throughput of the wire, the conductive core can be twisted from enameled wires. To reduce the size of the wire, the conductive core can be sealed.

The conductive core is insulated with silicone rubber with a tensile strength of at least 11 MPa, an elongation at break of at least 380%, with a specific volume resistance of at least 1 · 10 ¹⁵ Ohm · cm and with a temperature index of 180 to 250 ° C.

The manufacture of wire occurs according to the following principle.

A multiwire conductive core is bundled from wires on twisting equipment. The insulation of the conductive core is carried out on extrusion equipment with further cooling and checking the integrity of the insulation. The design of the claimed utility model has been successfully tested in the production environment.

1 · 10 ¹³ Ohm · cm and with a temperature index from 180 to 250 ° C.

To increase the wear resistance of the wire, the insulated core can be covered with a braid of synthetic fibers, impregnated with heat-resistant varnish, or enamel, or varnish with the addition of dye. As a synthetic thread, polyester, or mylar, or glass thread can be used. Adding dye to the varnish allows you to visually distinguish the wires by color during installation and operation.

To reduce adhesion between the insulation and the conductive core, the conductive core may be coated with a synthetic film in the form of a winding. To reduce the adhesion between the insulation and the braid, the insulation can be coated with a synthetic film in the form of a winding. Decreased adhesion between layers facilitates wire cutting during installation.

The insulation may be bilayer of silicone rubber.

The manufacture of wire occurs according to the following principle.

A multiwire conductive core is bundled from wires on twisting equipment.

The insulation of the conductive core is carried out on extrusion equipment with further cooling and checking the integrity of the insulation.

The braiding of synthetic threads is applied on braiding machines with further varnishing on the varnishing unit, or with further enamel coating on the enamel unit.

For applying a winding of synthetic films over a conductive core or insulation, winding machines are used.

The design of the claimed utility model has been successfully tested in the production environment.

Claims (10)

1. A wire containing a conductive core with silicone rubber insulation, characterized in that the insulation is made of silicone rubber with a tensile strength of at least 11 MPa, an elongation at break of at least 380%, a specific volume resistance of at least 1 · 10 ¹⁵ Ohms · Cm and with a temperature index of 180 to 250 ° C. 2. The wire according to claim 1, characterized in that the conductive core is made of twisted copper wires. 3. The wire according to claim 1, characterized in that the conductive core is made of one copper wire. 4. The wire according to claim 1, characterized in that the conductive core is made of twisted copper silver-plated wires. 5. The wire according to claim 1, characterized in that the conductive core is made of one silver-plated copper wire. 6. The wire according to claim 1, characterized in that the conductive core is made of twisted aluminum wires. 7. The wire according to claim 1, characterized in that the conductive core is made of one aluminum wire. 8. The wire according to any one of paragraphs. 1-7, characterized in that the conductive core is made of enameled wires. 9. The wire according to any one of paragraphs. 1-7, characterized in that the conductive core is made of sealed wires coated with enamel. 10. The wire according to any one of paragraphs. 1-7, characterized in that the conductive core is made of compacted wires.