RU229538U1 - Heat-resistant installation cable - Google Patents

Abstract

The utility model relates to the construction of fire-resistant and heat-resistant installation cables. The technical result consists in providing a fire-resistant cable with increased heat resistance for zones with high operating temperatures up to plus 250°C. The technical result is achieved by the fact that the cable contains an insulated conductive core and a sheath, wherein the insulation and sheath are made of fire-resistant silicone heat-stabilized ceramic-forming rubber. 2 s.p. f-ly.

Description

The field of technology to which the utility model relates

The utility model relates to the cable industry of the electrical engineering industry, namely to the designs of fire-resistant and heat-resistant installation cables intended for the transmission of electrical signals and the distribution of electrical energy in the connection circuits of sensors and electrical consumers located in a zone with a high operating temperature of up to plus 250°C, at a nominal voltage of up to 660 V AC with a frequency of up to 1 MHz or at a voltage of up to 1000 V DC.

The specified operating conditions are typical for steel production, ceramics manufacturing plants, and glass factories. The cable is intended primarily for use in machinery and industrial installations.

State of the art

The HEAT 205 SC cable is known - a fluorinated ethylene propylene single-core cable, durable, resistant to chemicals, does not take up much space, for use in machinery and industrial installations at temperatures from -100 to +205 °C (https://produkty.lappgroup.com/online-katalog/kabel-silovoi-kontrolnyi-i-upravlenija/rasshirennyi-temperaturnyi-diapazon-okruzhajushchei-sredy/fep-odnozhilnye-provoda/oelflex-heat-205-sc.html).

The HEAT 180 SiF cable is known - a silicone single-core cable with a thin wire core for use in machine equipment, industrial installations and machine tool building for temperatures up to +180°C (https://produkty.lappgroup.com/online-katalog/kabel-silovoi-kontrolnyi-i-upravlenija/rasshirennyi-temperaturnyi-diapazon-okruzhajushchei-sredy/silikonovye-odnozhilnye-provoda/oelflex-heat-180-sif.html).

The closest analogue (prototype) is the KRng(A)-FRHF-0.66 cable with copper cores insulated with fire-resistant silicone rubber, with a sheath made of halogen-free silicone rubber and with an operating temperature from -60°C to +180°C (https://spkb.ru/catalog/Fire-resistant-power-and-control-cables-silicone/krng-a-frhf-u/#undefined).

At present, there is a need to expand the range of fire-resistant and heat-resistant cables for installation in areas with high operating temperatures.

Disclosure of the essence of the utility model

The technical result of the utility model is the development of a fire-resistant cable with increased heat resistance for areas with high operating temperatures up to plus 250°C.

The essence of the utility model is expressed in the following set of essential features, sufficient to solve the specified technical problem and obtain the technical result provided by the utility model: a fire-resistant and heat-resistant installation cable contains an insulated conductive core and a sheath, wherein the insulation and sheath are made of fire-resistant silicone heat-stabilized ceramic-forming rubber.

The silicone rubber used in the cable has high thermal resistance due to the high Si-O bond energy, which is highly polar. At the same time, weak Van der Waals forces cause increased flexibility of the polymer macromolecule, and thus give the rubber a low dependence of physical and mechanical properties on temperature. The low thermal conductivity coefficient, which is half as much as organic rubbers, combined with excellent dielectric properties allow using such rubber for insulation of conductive cores and for cable sheaths operating in extreme conditions. In addition, to ensure high operating temperatures, heat-stabilized rubber is used in the cable, i.e. containing thermal stabilizers in its composition, such compounds as iron oxide, barium zirconate.

Due to the use of silica filler in the formulation in combination with metal compounds, when such rubber burns, a strong ceramic layer is formed, which further increases fire resistance.

The use of a double layer of fire-resistant silicone heat-stabilized ceramic-forming rubber as insulation of conductive cores and as an outer sheath allows achieving high fire resistance and long-term performance of the cable at elevated temperatures up to plus 250°C due to the fact that the insulation and sheath together form two layers of heat-resistant and fire-resistant material.

Heat resistance tests of the claimed cable confirm its long-term performance at temperatures up to plus 250°C.

Thanks to the materials used, the cable is fire-resistant and does not contain halogens (FRHF index), i.e. no toxic substances are released during combustion or smoldering.

Due to the absence of unsaturated bonds in silicone rubber, it also has high resistance to ozone and ultraviolet radiation.

The cable may also contain water-blocking tapes, the use of which prevents the spread of liquid along the cable in the event of damage.

Implementation of a utility model.

An example of the implementation of the utility model is a heat-resistant installation cable containing insulated conductive cores and a sheath, wherein the insulation and sheath are made of fire-resistant silicone heat-stabilized ceramic-forming rubber.

The conductive cores are made of copper and may be coated with tin or tin-lead solder. Insulated conductive cores may be twisted into pairs or triplets. The cable may contain individual screens over the insulated cores or over twisted pairs or triplets of insulated cores. Individual screens may be made in the form of a braid or a strand of copper or tinned copper wires, as well as in the form of a winding with overlapping tapes of foil-clad composite material with a copper drainage conductor.

Water-blocking tapes may be applied over the conductive cores twisted into a core. The cable may also contain an extruded separating layer.

The cable may contain a common screen in the form of a braid or a strand of copper or tinned copper wires, as well as in the form of a winding with overlapping tapes of foil-clad composite material with a copper drainage conductor. The common screen may be made in combination in the form of a winding of foil-clad composite material (with the metal layer facing outward) with overlapping and a braid of copper or tinned copper wires.

Between the structural elements of the cable there may be windings of polymer tapes or synthetic threads.

The cable is manufactured using well-known cable equipment and standard technologies.

Claims (3)

1. A fire-resistant and heat-resistant installation cable containing an insulated conductive core and a sheath, characterized in that the insulation and sheath are made of fire-resistant silicone heat-stabilized ceramic-forming rubber. 2. The cable according to item 1, characterized in that it is made multi-core. 3. The cable according to item 1, characterized in that it contains water-blocking tapes in its design.