RU135844U1 - MOUNTING CABLE FOR ROLLING COMPOSITION OF RAIL TRANSPORT - Google Patents

Abstract

1. A mounting cable for rolling stock of rail vehicles, containing tinned copper tinned conductive conductors, each of which is coated with insulation from a polymeric material, and a sheath made of a polymeric material overlaid on the core, while a thermoplastic composition is used as the insulation and sheath material, not halogen-containing, characterized in that it is additionally equipped with a thermal barrier in the form of a winding of one or two mica-containing tapes, superimposed overlapping on each t surrounding vein. 2. The cable according to claim 1, characterized in that the thermoplastic halogen-free composition of the SS-7760.3 brand is used as the insulation material. The cable according to claim 1, characterized in that the thermoglastic halogen-free composition of the CONGuard S 6645.4 brand is used as the sheath material. The cable according to claim 1, characterized in that the insulated conductive conductors are pre-twisted in pairs. The cable according to claim 1, characterized in that it further comprises a screen in the form of a braid of tinned copper wires located between the core and the sheath.

Description

The utility model relates to the field of electrical engineering, namely to mounting cables intended for fixed mounting of electrical devices and apparatuses used on rolling stock of rail vehicles.

A cable for rolling stock of a rail transport is known, comprising tinned copper tinned conductive cores, each of which is coated with insulation from a polymeric material, and a shell made of a polymeric material overlaid on the core, while a halogen-free thermoplastic composition is used as the insulation and sheath material ( RF patent for utility model No. 110533, 2011).

The known cable does not spread combustion during group installation; it is characterized by low smoke formation during combustion and decay, as well as resistance to the effects of mineral oil. However, this cable does not meet the increased requirements of the Safety Standards for Rail Transport of the National Bank of ZhT TsT to wires and cables for rolling stock in terms of fire resistance (cable operability under conditions of flame exposure).

The technical result consists in increasing the operating time of the cable under conditions of exposure to an open flame.

The task was to develop a design of a fire-resistant installation cable for rolling stock of rail vehicles with high fire resistance, combined with resistance to non-proliferation of combustion during group laying, low smoke generation during combustion and smoldering, and resistance to mineral oil.

The technical result is achieved by the fact that the installation cable for the rolling stock of the rail transport, containing copper tinned conductive conductors twisted into the core, each of which is coated with insulation from a polymeric material, and a sheath made of a polymeric material overlaid on the core, while the insulation and sheath material is used halogen-free thermoplastic composition is additionally equipped with a thermal barrier in the form of a winding of one or two mica-containing tapes superimposed ytiem each electrical conductor.

Insulated conductors can be pre-twisted in pairs.

It is preferable to use a thermoplastic halogen-free composition of the CC-7760 brand as an insulation material, and use a CONGuard S 6645 brand of a halogen-free thermoplastic composition as a shell material.

It is allowed to carry out a cable with a screen in the form of a braid from tinned copper wires. In this case, the screen is located between the core and the shell.

The utility model is illustrated in the drawing, which shows a cable in section.

The cable contains conductive conductors 1 twisted into a core, mica tape 2, insulation 3, shield 4, sheath 5.

The following is evidence of the industrial applicability of the utility model.

Conductors are made of copper wire according to GOST 22483-77.

Polymer thermoplastic halogen-free materials are produced in industry, in particular, compositions of grades SS-7760 and CONGuard S 6645 by Condor Compaunds Gmbh, Germany.

Mica tapes are produced by domestic industry, as well as abroad. In particular, tapes of brands LSK-T, LSK-TT according to TU 3492-050-3188305-2013 produced by ZAO Dielectric or tapes of the brand Elmikateks 53509, Elmikateks 54509 according to TU 3492-023-50157149-00 manufactured by LLC HC "Elinar".

The use of these materials does not make any changes to the traditional technology for the manufacture of installation cables.

The manufacture of conductive conductors 1 is carried out by twisting copper wires on a cigar-shaped machine.

The overlay on the core 1 mica tape 2 is produced on conventional tape wrapping machines.

On extrusion equipment produce sequential imposition of insulation 3 and shell 5.

Screen overlay 4 is produced on serial braiding machines.

Cable samples were tested for compliance with their fire safety requirements. The test results are shown in the table.

Npp Indicators Test result one. Maintaining cable performance under conditions of flame exposure in accordance with GOST Ρ IEC 60331-21-2003 180 minutes 2. Resistance to the spread of burning cables located in bundles, GOST Ρ IEC 60332-3-22-2005 Burnt Part Length 1.7 m 3. Decrease in light transmission in a test chamber during burning and smoldering of a cable product, GOST Ρ IEC 61034-2-2005 35%

Claims (5)

1. A mounting cable for rolling stock of rail vehicles, containing tinned copper tinned conductive conductors, each of which is coated with insulation from a polymeric material, and a sheath made of a polymeric material overlaid on the core, while a thermoplastic composition is used as the insulation and sheath material, not halogen-containing, characterized in that it is additionally equipped with a thermal barrier in the form of a winding of one or two mica-containing tapes, superimposed overlapping on each t surrounding vein. 2. The cable according to claim 1, characterized in that the thermoplastic halogen-free composition of the SS-7760 brand is used as the insulation material. 3. The cable according to claim 1, characterized in that the thermoplastic halogen-free composition of the CONGuard S 6645 brand is used as the sheath material. 4. The cable according to claim 1, characterized in that the insulated conductive conductors are pre-twisted in pairs. 5. The cable according to claim 1, characterized in that it further comprises a screen in the form of a braid of tinned copper wires located between the core and the sheath.

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