RU211239U1 - INSTALLATION ELECTRIC WIRE - Google Patents

Abstract

The utility model relates to the field of the electrical industry and can be used as a mounting wire for transmitting electricity and signals in the on-board network of a rolling stock of a rail vehicle.

The mounting wire contains a conductive core made of tinned copper wires, covered with a halogen-free polymer thermoplastic insulation, while the insulation is made of two layers in a 1:1 layer ratio, the first insulation layer is made of radiation-crosslinked polyethylene, and the second layer is made of radiation-crosslinked halogen-free composition based on polyolefin.

The technical result is an increase in the maximum operating temperature of the wire.

Description

The utility model relates to the field of the electrical industry and can be used as a mounting wire for transmitting electricity and signals in the on-board network of a rolling stock of a rail vehicle.

In cable technology, designed to transmit electricity and signals in the on-board network of rolling stock of rail vehicles, wires are widely used that contain a conductive core and insulation, which, depending on the purpose for which the wire is used, is made of various materials.

As insulation, heat-resistant, elastic materials with high fire safety indicators (non-proliferation of combustion, low smoke emission and toxicity of combustion products) are used.

The most modern insulation materials today are halogen-free compositions based on polyolefins, which have good processability during processing and are relatively cheap. These materials are designed for operation at elevated temperatures up to 90°C.

In some cases, wires are required to operate at temperatures up to 125°C, and therefore it becomes necessary to use other materials, such as fluoroplastic, polyetheretherketone, silicone rubber, etc. Although these materials provide the required heat resistance, they have their drawbacks, for example, fluoroplastic contains halogen, polyetheretherketone has a high cost, and the processing of silicone rubber requires more sophisticated technological equipment.

A heat-resistant mounting wire is known (utility model patent No. 70041, publ. 01/10/2008), containing a silver-clad 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.

A mounting wire is known (utility model patent No. 169171, publ. 03/09/2017), containing fluoroplastic sintered films heat-sealed together as an insulation material, and may also contain an outer protective sheath of sintered fluoroplastic or polyimide-fluoroplastic films heat-sealed together .

The disadvantage of the known solutions is the content of halogen in the composition of the insulation material, which does not provide the required level of smoke emission and fire resistance.

A mounting wire is known (utility model patent No. 109902, publ. 27.10.2011) containing a tinned copper conductive core coated with halogen-free thermoplastic polymer insulation (taken as a prototype).

Disadvantages: low operating temperature (up to 80°C).

One of the methods for increasing the heat resistance of a material is its crosslinking, i.e. the formation of cross-links between polymer molecules and the formation of a three-dimensional structure in the material. Polyolefins are crosslinkable polymers, which makes it possible to manufacture a wire from known materials with an additional crosslinking operation and provide the required heat resistance without a significant increase in the cost of the wire itself.

As a rule, polymers intended for radiation crosslinking contain additives to increase sensitivity to radiation and reduce the dose required for crosslinking (sensitizers). But at the same time, the introduction of sensitizers reduces the electrical and mechanical properties of the insulation, and also increases the cost of production.

The objective of the claimed utility model is to increase the heat resistance, reliability and durability of the mounting electrical wire.

The technical result is an increase in the maximum operating temperature of the wire.

The technical result is achieved by the fact that the mounting wire contains a conductive core made of tinned copper wires, covered with halogen-free polymer thermoplastic insulation, while the insulation is made of two layers in the ratio of layers 1:1, the first layer of insulation is made of radiation-crosslinked polyethylene, and the second layer from a radiation-crosslinked halogen-free composition based on polyolefin.

The mounting wire according to the claimed utility model contains a conductive core made of tinned copper wires, two-layer insulation of the conductive core. The first layer of insulation is made of radiation-crosslinked polyethylene. The second layer is made of a radiation-crosslinked halogen-free composition based on a polyolefin, for example based on ethylene vinyl acetate (EVA), polypropylene, or a propylene-ethylene block copolymer. The ratio of the first and second layers is 1:1.

The implementation of two-layer insulation, namely the use of radiation-crosslinked polyethylene as the first layer, reduces the cost of the wire design and provides the required electrical properties. The second layer, in addition to electrical properties, protects against aggressive media and provides the required level of fire safety. The use of radiation-crosslinked halogen-free materials based on polyolefins without sensitizers reduces the cost of the wire.

Also, this technical solution can be used for wires for solar panels and other wires with a two-layer radiation-crosslinked insulation made of polyethylene and a halogen-free composition based on polyolefin.

Five samples of the installation wire were made using ethylene vinyl acetate in the second layer of insulation.

The wire of the above design was subjected to an elevated temperature test of 125°C for 96 hours and an alternating voltage test of 2000 V. The results are shown in Table 1.

Table 1. Mounting wire heat resistance tests

Type of test, unit of measurement Normalized parameter value
according to
TU 16.К05-079-2020 Test results Impact test
elevated ambient temperature 125 ºС
- the presence of cracks No cracks No cracks on all five samples AC voltage test, V 5 min withstand
without breakdown All five samples passed the test
alternating voltage at 2000 V

Claims (2)

1. A mounting wire containing a conductive core made of tinned copper wires coated with halogen-free polymer thermoplastic insulation, characterized in that the insulation is made of two layers, the first insulation layer is made of radiation-crosslinked polyethylene, and the second layer is made of radiation-crosslinked halogen-free composition on based on polyolefin, while the ratio of the first and second layers is 1:1. 2. Mounting wire according to claim 1, characterized in that the second layer of insulation is made of a radiation-crosslinked halogen-free composition based on ethylene vinyl acetate.