RU170265U1 - ESPECIALLY FLEXIBLE HEAT RESISTANT ELECTRICAL WIRE - Google Patents

Abstract

The utility model relates to the cable industry, namely, electric wires intended for the mobile installation of an onboard electrical network of aircraft. A particularly flexible heat-resistant electric wire contains a multi-wire core coated with insulation, and the multi-wire core consists of copper-based wires, and the insulation is made of fluoroelastomer . The number of wires of a multiwire core can be from 50 to 4000 pieces with a wire cross section from 0.20 to 70.0 mm. The multi-wire core is made of copper-based wire coated with tin, silver or nickel. The insulation can be single-layer or double-layer. A particularly flexible heat-resistant electric wire can withstand repeated bends of ± 90 ° under normal climatic conditions: - at least 50,000 bending cycles with a bending radius of 50 mm for sections up to 2.5 mm; - at least 3,000 bending cycles with a bending radius of at least 5 outer diameters of the wire for cross sections from 2.50 to 10.0 mm; - at least 1000 bending cycles with a bending radius of at least 5 outer diameters of the wire for cross sections over 10.0 mm.

Description

The utility model relates to the cable industry, namely to electric wires intended for the mobile installation of an onboard electrical network of aircraft. Such wires are designed for the mobile installation of electrical devices, electronic equipment and on-board cable network of aviation, space-rocket and ground equipment, in places subjected to repeated bending and work at voltages up to 250 V AC, frequencies up to 10000 Hz (350 V DC) at atmospheric pressure from 0.67 to 60 kPa or 600 V AC of frequency up to 10000 Hz (850 V DC) at atmospheric pressure above 60 kPa and a temperature of minus 65 ° С to plus 200 ° С.

The on-board aircraft electrical wire is known from the prior art, comprising a multi-wire tinned copper conductive core coated with insulation, characterized in that the insulation is made of extruded radiation-crosslinkable fluoroplastic (description of patent for utility model of the Russian Federation No. 63110, IPC Н01В 11/00).

The disadvantages of the above known on-board aircraft electrical wires include insufficient flexibility.

Also known is an onboard bending-resistant heat-resistant wire according to TU 16-505.124-78, selected as a prototype, consisting of insulated stranded cores made of silver-plated copper wires, in which the insulation of stranded cores is made of organosilicon rubber, and a protective coating of polyester threads is applied over the insulation in the form of a braid, and the braid is impregnated with electrical insulating varnish.

The disadvantage of the prototype is the lack of flexibility, heat resistance and high weight and size parameters.

The technical problem to which the utility model is directed is the creation of a heat-resistant electrical wire with increased resistance to bending.

The technical problem is solved through the use of a large number (at least 50) of thin wires with a diameter of 0.05 to 0.30 mm, depending on the cross section of the conductive core.

The essence of the claimed utility model is that a particularly flexible heat-resistant electric wire contains a multi-wire core coated with insulation, and the multi-wire core consists of copper-based wires, and the insulation is made of fluoroelastomer.

In one particular example of a particularly flexible heat-resistant electric wire, the number of wires of a multi-wire core is from 50 to 4000 pieces with a wire cross section from 0.20 to 70.0 mm ² .

In another particular example of a particularly flexible heat-resistant electric wire, its multi-wire core is made of copper-based wire with a tin coating.

In the third of particular examples of the execution of a particularly flexible heat-resistant electric wire, its multi-wire core is made of copper-based wire coated with silver.

In a fourth particular embodiment of a particularly flexible heat-resistant on-board mounting electrical wire, its multi-wire core is made of copper-based wire coated with nickel.

In the fifth particular case of the execution of a particularly flexible heat-resistant electric wire, the insulation of the fluoroelastomer is made single-layer.

In the sixth particular case of the execution of a particularly flexible heat-resistant electric wire, the insulation of the fluoroelastomer is made of two layers.

The inventive particularly flexible heat-resistant electric wire surpasses the wire in accordance with TU 16-505.124-78 in overall dimensions by an average of 20%, heat resistance - up to 200 ° C, and service life - up to 20 years.

The inventive particularly flexible heat-resistant on-board mounting electrical wire can withstand repeated bends at an angle of ± 90 ° in normal climatic conditions:

- at least 50,000 bending cycles with a bending radius of 50 mm for sections up to 2.5 mm ² ;

- at least 3000 bending cycles with a bending radius of at least 5 outer diameters of the wire for cross sections from 2.50 to 10.0 mm ² ;

- at least 1000 bending cycles with a bending radius of at least 5 outer diameters of the wire for cross-sections of more than 10.0 mm ² .

The essence of the claimed utility model is illustrated by the drawing, which shows one of the particular cases of the execution of a particularly flexible heat-resistant electric wire with two-layer insulation, where 1 is a wire of a multi-wire core, 2 is a first insulation layer, 3 is a second insulation layer.

A particularly flexible heat-resistant electric wire contains a multi-wire core, consisting of copper-based wires (1), coated with a layer of insulation (2) made of fluoroelastomer.

A multi-wire core can be made, for example, of copper wires coated with tin, silver or nickel with a diameter of 0.05 to 0.30 mm. The number of wires of a multiwire core can be from 50 to 4000 pieces with a wire cross section from 0.20 to 70.0 mm ² .

Single-layer insulation can be performed, for example, with a nominal radial thickness of approximately 0.100-0.400 mm. In one particular case, a second insulation layer (3), also made of fluoroelastomer, can be applied over the first insulation layer (2) from the fluoroelastomer.

Distinctive features of fluoroelastomers are high heat resistance, chemical inertness superior to the chemical inertness of all other elastomers; good physical and mechanical properties, including abrasion resistance and wear resistance; high resistance to weathering; satisfactory dielectric properties; non-flammability. [Novitskaya S.P. Fluoroelastomers, 1988, 240 pp.]

A particularly flexible heat-resistant electric wire can be made single-core and multi-core, in the common screen, in the screen and the sheath.

Insulation can be superimposed on a multi-wire core, for example, on an extrusion line. Also, the insulation can be made of fluoroelastomer with subsequent crosslinking.

Declared as a utility model, a particularly flexible heat-resistant electric wire can be manufactured industrially using currently existing technologies, and can be widely used in the cable industry, namely in the field of flexible electrical wires for an on-board network of aircraft.

Claims (7)

1. Particularly flexible heat-resistant electric wire containing a multi-wire core coated with insulation, in which a multi-wire core consists of copper-based wires, characterized in that the insulation is made of fluoroelastomer. 2. The electric wire according to claim 1, in which the number of wires with a diameter of from 0.05 to 0.30 mm of a multi-wire core is from 50 to 4000 pieces with a wire cross section from 0.20 to 70.0 mm ² . 3. The electric wire according to claim 1, in which the multi-wire core consists of copper-based wire coated with tin. 4. The electric wire according to claim 1, in which the multi-wire core consists of copper-based wire coated with silver. 5. The electric wire according to claim 1, in which the multi-wire core consists of copper-based wire coated with nickel. 6. The electrical wire according to claim 1, in which the insulation of the fluoroelastomer is made single-layer. 7. The electrical wire according to claim 1, in which the insulation of the fluoroelastomer is made of two layers.

Images