RU99652U1 - FIRE RESISTANT CABLE - Google Patents

Abstract

 1. Fire-resistant cable containing one or more flexible conductive conductors made of copper wire, insulation and a sheath, characterized in that the insulation is made of fire-resistant organosilicon rubber, forming a ceramic layer during combustion, and the sheath is made of organosilicon rubber that does not contain halogens, while under the shell, it contains a screen overlaid on top of the protective layer of polyethylene terephthalate film. ! 2. The fire-resistant cable according to claim 1, characterized in that on top of the sheath it further comprises a braid of fiberglass yarn impregnated with silicone varnish.

Description

The invention relates to cable technology, namely, fire-resistant electrical cables for connecting mobile mechanisms to electrical networks.

A cable is known consisting of a conductive core of the first and second class of flexibility with a fire-resistant barrier imposed on it of mica tapes, insulation and sheath (see Cable brand VVGNG-FRLS TU 16. K71-227-2004 "Cable products" Information and technical collection M VNIIKP OJSC, 2005, v. 1 part 1, p. 59).

The disadvantage of the cable is the limitation on the radius of bending during operation and installation due to the low class of flexibility.

The closest to the claimed utility model in terms of features is a power cable for stationary laying, containing one or more conductive wires of copper wires of the first and second classes of flexibility, winding, insulation and sheath (see power cable for stationary laying PPGENG according to TU 16.K71 -339-2004 “Cable products” Information and technical collection M. OJSC VNIIKP, volume 3, part 1, p. 153) - the closest analogue.

In this cable, the winding is made of mica-containing tapes, and the insulation and sheath are made of halogen-free composition.

A disadvantage of the closest analogue is also a limitation on the radius of bending during operation and installation, due to the low class of flexibility.

The technical result of the claimed utility model is to increase the operational characteristics of the cable.

The essence of the technical solution lies in the fact that in a flame-retardant cable containing one or more flexible conductive conductors made of copper wire, the insulation and the sheath, the insulation is made of flame-retardant silicone rubber, forming a ceramic layer during combustion, and the sheath is made of halogen-free silicone rubber while under the shell it contains a screen overlaid on top of the protective layer of polyethylene terephthalate film, while on top of the shell it further comprises a braid of fiberglass polyester impregnated with organosilicon varnish.

The implementation of the insulation and shell of fire-resistant organosilicon rubber can significantly improve operational characteristics, namely:

- fire resistance due to the formation of a ceramic layer during combustion;

- resistance to the effects of lubricating oils and diesel fuel;

- high dielectric characteristics, allowing to increase the insulation resistance of the cores to a value of not less than 300 Mom / km; The introduction of a screen made of copper wires into the cable allows to increase the noise immunity of the cable, while the protective layer of polyethylene terevolate film provides insulation from damage by the screen wires.

The introduction of braids made of fiberglass yarns provides cable protection from mechanical damage during installation and operation.

The inventive utility model is illustrated by drawings, where in Fig.1 shows a fire-resistant single-core cable in section; figure 2 is the same stranded.

Fire-resistant cable contains one or several flexible conductive conductors 1 made of copper wire, insulation 2 made of fire-resistant silicone rubber, winding 3 made of polyethylene terephthalate film with a screen 4 made of copper wires, sheath 5 made of halogen-free silicone rubber and 6 fiberglass braid threads impregnated with organosilicon varnish and overlaid 5.

The table shows the comparative performance indicators of the closest analogue and the claimed utility model.

Table. Name of characteristics Options The closest analogue The inventive utility model Electrical insulation resistance, Mom / km, not less Not less than 50 Not less than 200 Operating temperature ° C From minus 50 to plus 50 From minus 60 to plus 160 Resistance to oil and diesel fuel Not racks Racks Long-term permissible core heating temperature ° С Plus 70 Plus 160 Minimum bending radius of cables during operation and installation, not less than Single core - at least 10 cable diameters Multi-core - 7.5 cable diameters Control - 6 cable diameters All cables at least 5 cable diameters Resistance to ozone and solar radiation Not racks Racks

As follows from the Table, the claimed utility model of the fire-resistant cable has high performance characteristics:

- fireproof, due to the formation of a ceramic layer during combustion;

- a wide range of operating temperature, allowing to operate it in a tropical climate (climatic modification "T");

- connects to electric networks for a rated alternating voltage up to 1000 V with a frequency of up to 400 Hz;

- thanks to the shell material of silicone rubber with oil and petrol resistant additives, it can be operated under conditions of oil, diesel fuel, increased solar radiation, ozone;

- a wide range of mark sizes: from single core to 37 core with a nominal cross-section of a conductive core from 0.5 to 300 mm ² .

Claims (2)

1. Fire-resistant cable containing one or more flexible conductive conductors made of copper wire, insulation and a sheath, characterized in that the insulation is made of fire-resistant organosilicon rubber, forming a ceramic layer during combustion, and the sheath is made of organosilicon rubber that does not contain halogens, while under the shell, it contains a screen overlaid on top of the protective layer of polyethylene terephthalate film. 2. The fire-resistant cable according to claim 1, characterized in that on top of the sheath it further comprises a braid of fiberglass yarn impregnated with silicone varnish.