RU195696U1 - Power cable - Google Patents

Abstract

The utility model relates to electrical cables. The cable contains one conductive copper core 1, equipped with insulation 2 from a cross-linked polymer composition, a metal shield 3 located on top of the insulation, made of copper tapes or copper wires, and the outer sheath 6 of the polymer composition. Effect: improving the fire safety characteristics of the cable.

Description

The technical field to which the utility model relates.

The utility model relates to cable technology, namely, to the construction of power cables for stationary laying with plastic insulation and a sheath, designed to transmit and distribute electrical energy to a rated voltage of 3 kV.

State of the art

Power cables of the PPGENG (A) -HF, VVGENG (A) -LS brands for a rated alternating voltage of 3 kV are known, having a conductive core, insulation from a thermoplastic polymer composition, a metal shield and a sheath of a polymer composition. The disadvantage of these known cables is that the long-term permissible heating temperature of the conductive conductors of such cables in normal operation is 70 ° C.

To increase the long-term permissible temperature of conductive conductors of power cables, cross-linked polyethylene is traditionally used as insulation. For example, in the well-known power cable of the PvVGEng (A) -LS brand for a rated alternating voltage of 3 kV (utility model of the Russian Federation No. 68761), for which the long-term allowable heating temperature of conductive conductors in normal operation is 90 ° C. However, the insulation made of cross-linked polyethylene has a specific heat of combustion of more than 38 MJ / kg, an oxygen index of less than 20 and a toxicity index (H _CL50 ) of less than 40 g / m ³ , which increases the total specific heat of combustion of the cable, the toxicity of the combustion products and reduces the resistance cable to the spread of combustion.

Utility Model Essence

The technical problem solved by this utility model is to create a power cable with high operational and fireproof properties.

The technical result achieved by the utility model is to increase the fire safety characteristics of the cable by reducing the specific heat of combustion of the cable, increasing the equivalent toxicity of the cable and the resistance of the cable to the spread of burning while maintaining a long-term permissible heating temperature of conductive wires up to 90 ° C at an operating voltage of 3 kV .

The specified technical result is achieved by the fact that the power cable contains one conductive copper core with insulation from a polymer composition, a metal screen located on top of the insulation, made of copper tapes or copper wires fastened spirally imposed by a copper tape or skein of copper wires, and an outer sheath made of polymer composition, wherein said insulation is made of a cross-linked halogen-free polymer composition, with a specific heat of combustion of not more than 20 MJ / kg, with an oxygen index of less than 28 and with an indicator of toxicity of more than 40 g / m ^3.

The specified technical result is also achieved by the fact that the cable additionally comprises, on top of the conductive core, a winding of at least two mica-containing tapes.

The specified technical result is also achieved by the fact that the cable further comprises, on top of the winding of mica-containing tapes, at least one polymer tape superimposed by a winding with overlapping.

The specified technical result is also achieved by the fact that the cable additionally contains over the screen of copper tapes or copper wires fastened spirally imposed by a copper tape or skein of copper wires, a separation layer made by extrusion of a halogen-free polymer composition with an oxygen index of at least 45 .

The specified technical result is also achieved by the fact that the cable additionally contains, on top of the separation layer, armor from two galvanized steel tapes.

The specified technical result is also achieved by the fact that the cable additionally contains on top of the armor of two steel galvanized tapes, at least one polymer tape, superimposed overlapping.

The specified technical result is also achieved by the fact that the outer shell is made of low fire danger PVC compound with an oxygen index of at least 35 or a halogen-free polymer composition with an oxygen index of at least 40.

List of drawings

In FIG. 1 shows a cross section of a cable

Utility Model Implementation

Improving fire safety and long-term permissible temperature of conductive conductors of power cables is an urgent task.

The power cable in accordance with this utility model contains one conductive copper core 1, insulation 2 of a polymer composition, a metal shield 3 located on top of the insulation, made of copper tapes or copper wires fastened in a spiral-wound copper tape or skein of copper wires, and an outer sheath 6 from a polymer composition.

Mentioned insulation 2 is made of a cross-linked halogen-free polymer composition with a specific heat of combustion of not more than 20 MJ / kg determined according to ISO 5660-1, with an oxygen index of at least 28 and a toxicity index of combustion products of more than 40 g / m ³ (according to GOST 12.1.044-2018).

The cable may additionally contain, on top of the conductive core 1, a thermal barrier 7 in the form of a winding of at least two mica-containing tapes superimposed with an overlap of at least 40% each, to maintain functioning under conditions of flame exposure. The cable may additionally contain on top of the winding of mica-containing tapes, at least one polymer tape, superimposed by a winding with overlap.

The cable may further comprise, on top of the metal shield 3, a separation layer 4 extruded from a halogen-free polymer composition with an oxygen index of at least 45.

The cable may additionally contain, on top of the separation layer 4, an armor 5 made of two steel galvanized tapes, for additional protection against external mechanical influences. Galvanized tapes are laid in a spiral so that the upper tape overlaps the gap between the turns of the lower tape. In this case, the gap between the turns of each tape should not exceed 50% of the width of the tape. In this case, on top of the metal screen, the cable further comprises a separation layer 4.

The cable may additionally contain on top of the armor 5 of two steel galvanized tapes, at least one polymer tape, superimposed overlapping.

The outer sheath 6 can be made of low fire hazard PVC compound with an oxygen index of at least 35 or a halogen-free polymer composition with an oxygen index of at least 40 to increase the resistance of the cable to the spread of combustion.

The conductive core 1 is made of copper wire, traditional for electric cables.

The imposition of insulation 2, the separation layer 4 and the outer shell 6 is carried out on extrusion equipment.

Crosslinking of insulation is carried out according to technology traditionally used in the cable industry.

The imposition of a metal screen 3, consisting of wires fastened spirally imposed by a copper tape or skein of copper wires, is carried out on the known twisting equipment, traditionally used in the cable industry.

The imposition of a metal screen 3, consisting of tapes, and a thermal barrier 7 is carried out on winding machines used in the cable industry.

The imposition of armor 5 is carried out on reservation machines, traditionally used in the cable industry.

The calculated values of the specific heat of combustion of the cable, determined on the basis of the heat of combustion of each polymer material in accordance with ISO 5660-1, and the equivalent indicator of the toxicity of combustion products, determined in accordance with GOST 31565, for the known and proposed cables are given in table 1.

Thus, the present utility model provides lower toxicity of the combustion products of polymer materials of construction and reduces the total specific heat of combustion of the cable, which reduces the fire load of the premises.

Claims (7)

1. A power cable containing one conductive copper core with insulation from a polymer composition, a metal shield made on top of the insulation made of copper strips or copper wires, and an outer sheath of the polymer composition, characterized in that said insulation is made of a cross-linked polymer composition, not containing halogens, with a specific heat of combustion of not more than 20 MJ / kg, with an oxygen index of not less than 28 and with a toxicity index of more than 40 g / m ³ . 2. The cable according to claim 1, characterized in that it further comprises, on top of the conductive core, a winding of at least two mica-containing tapes. 3. The cable according to claim 2, characterized in that it further comprises, on top of the winding of mica-containing tapes, at least one polymer tape superimposed by a winding with overlapping. 4. Cable according to any one of paragraphs. 1, 2, characterized in that it further comprises, on top of the screen of copper tapes or copper wires held together by a spiral-wound copper tape or skein of copper wires, a separation layer extruded from a halogen-free polymer composition with an oxygen index of at least 45. 5. The cable according to claim 4, characterized in that it further comprises, on top of the separation layer, armor from two galvanized steel tapes. 6. The cable according to claim 5, characterized in that it further comprises on top of the armor of two steel galvanized tapes, at least one polymer tape, superimposed overlapping. 7. Cable according to any one of paragraphs. 1, 5, characterized in that the outer shell is made of low fire danger PVC compound with an oxygen index of at least 35 or a halogen-free polymer composition with an oxygen index of at least 40.

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