RU170263U1 - POWER CABLE WITH INCREASED LONG-TERM ALLOWABLE TEMPERATURE OF HEATING OF CONDUCTING VEINS, NOT DISTRIBUTING COMBUSTION, REDUCED FIRE HAZARD - Google Patents

Abstract

The claimed utility model relates to cable technology, namely to the design of power cables with impregnated paper insulation, intended for the transmission and distribution of electrical energy in stationary installations with an alternating voltage of 10 kV and a frequency of up to 50 Hz, which can be used, in particular, in fire hazardous industrial rooms equipped with computer and microprocessor technology, in residential and public buildings and structures with a large stay of people (metro). A task to be solved by According to the claimed utility model, it consists in developing the design of the power cable with an increased long-term allowable heating temperature of conductive wires of at least 80 ° C, which allows to increase the operational characteristics and transmitted power of the cable structure with impregnated paper insulation at a voltage of 10 kV. The task is achieved in that the cable a power supply with an increased long-term permissible temperature for heating conductive conductors for a voltage of 10 kV contains three main conductive conductors with phase insulation of ter insulation paper cable with a heat resistance temperature of 90 ° C, impregnated with a non-leaking composition with a kinematic viscosity of at least 30 cst (centistokes) at a temperature of 120 ° C and a dropping point of at least 108 ° C, twisting of isolated cores made with filling the gaps between the cores in the form harnesses made of heat-resistant insulating cable paper, belt insulation of heat-resistant insulating cable paper, semiconducting screen made of tape of electrically conductive cable paper with overlapping over belt insulation, cable tsovuyu shell layer of thermally resistant tape over the lead sheath, armor in the form of two strips of galvanized steel armor under the pillow and an outer sheath of polymeric thermoplastic polyolefin compositions not containing halogen, an oxygen index of not less than 34%.

Description

The claimed utility model relates to cable technology, namely to the design of power cables with impregnated paper insulation, intended for the transmission and distribution of electrical energy in stationary installations with an alternating voltage of 10 kV and a frequency of up to 50 Hz, which can be used, in particular, in fire hazardous industrial rooms equipped with computer and microprocessor technology, in residential and public buildings and structures with a large stay of people (metro).

Known power cable, non-combustion, low fire hazard, containing three copper conductive wires with paper insulation, impregnated with a non-leaking compound, cable bundles of paper, filling the gaps between twisted insulated cores, belt insulation, lead sheath, armor cushion, armor in the form of two galvanized steel tapes superimposed with overlapping and an outer shell, characterized in that it further comprises a layer of glass-mica tape imposed with overlapping over sv The insulating shell impregnating the paper insulation with a non-draining composition has a dropping point of at least 92 ° C, and the armor cushion and outer shell are made of halogen-free polymer thermoplastic polyolefin composition with an oxygen index of at least 34% (see RF Patent Utility Model No. 158692 with a priority date of 04/02/2015, published on 01/20/2016, class Н01В 9/00), based on the set of essential features adopted for the closest analogue (prototype) of the utility model.

The disadvantages of this power cable include the fact that the operating characteristics, namely, the long-term allowable heating temperature of the conductive cable conductors of 70 ° C and, therefore, the long-term allowable current loads when laying in the air, do not meet the increased consumer requirements for these characteristics.

The task to which the claimed utility model is directed is to develop a power cable design with an increased long-term allowable heating temperature of conductive wires of at least 80 ° C, which allows to increase the operational characteristics and transmitted power of the cable structure with impregnated paper insulation at a voltage of 10 kV.

The task is achieved in that a power cable with an increased long-term permissible temperature for heating conductive conductors for a voltage of 10 kV contains three main conductive conductors with phase insulation of heat-resistant insulating cable paper, impregnated with a non-leaking compound with a kinematic viscosity of at least 30 cst (centistokes) at a temperature of 120 ° C and a dropping point of at least 108 ° C, twisting of isolated conductors, performed with filling the gaps between the wires in the form of bundles of heat-resistant insulating cable paper, belt insulation made of heat-resistant insulating cable paper, a semiconducting screen made of tape of electrically conductive cable paper with overlapping over the belt insulation, a lead sheath, a layer of heat-resistant ribbons over a lead sheath, armor in the form of two galvanized steel strips, a pillow for armor and an outer sheath from polymer thermoplastic polyolefin compositions not containing halogens with an oxygen index of at least 34%.

The technical result achieved by the implementation of the claimed utility model is ensured by using modern materials in the cable construction impregnated with paper insulation, namely, heat-resistant insulating cable paper with a temperature resistance of 90 ° C in phase and zone insulation, bundles of heat-resistant insulating cable paper with a temperature heat resistance of 90 ° C, non-leaking impregnating composition of increased viscosity, halogen-free polymer compositions of reduced fire hazard, which allows increase the long-term allowable heating temperature of the cable conductors to 80 ° C and the long-term allowable current loads when laying in air by 10-20% and ensure non-proliferation of combustion when laying in streams.

As a result of a search by patent and scientific and technical sources of information, no solutions were found containing the entire set of essential features of an independent claim of a utility model formula, which allows us to conclude that the claimed utility model meets the patentability criterion of "novelty."

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

A power cable with an increased long-term permissible temperature for heating conductive conductors, which does not spread combustion, of low fire hazard, contains three main conductive conductors 1, insulated with heat-resistant insulating cable paper, impregnated with non-leaking composition of increased viscosity 2, with filling gaps between the conductors twisted together with harnesses of heat-resistant insulating cable paper 3, on the core of twisted veins superimposed belt insulation of heat-resistant insulating cable paper 4, A semiconducting screen made of a tape of electrically conductive cable paper with an overlap of 5 was laid over the belt insulation, a lead sheath 6 was placed over the semiconducting screen, over which a layer of thermally resistant tapes 7 was placed, a pressed-out cushion under the armor 8 was placed on top of the layer of thermally resistant tapes, armor was overlaid 9 made of 2 steel galvanized tapes and the outer shell 10.

Below, information is provided confirming the industrial applicability of the claimed utility model.

The manufacturing technology of a power cable with an increased long-term permissible temperature for heating conductive conductors that do not spread combustion, of reduced fire hazard, is as follows.

The main conductors 1 are made by methods known in the cable industry.

The imposition of insulation 2 on the main conductors is carried out on insulating machines such as M4BR-8.

The general twisting of the cores, the interfacial filling 3 and the imposition of the belt insulation 4 and the semiconducting screen 5 are carried out simultaneously on a MKRA 3 + 1x 1600 machine.

The overlay of lead shell 6 is carried out on a press of the type "Hanson-Robertson."

The winding 7 of the heat-resistant tapes on the lead sheath is applied on the equipment for applying protective coatings.

The application of a pillow under the armor 8 and the outer shell 10 is carried out on extrusion lines.

The imposition of armor 9 is carried out on equipment for applying protective coatings.

The claimed technical solution meets the criteria of patentability "industrial applicability", since its implementation can be carried out using well-known means of production, materials and technologies.

Claims (3)

1. Power cable, with an increased long-term permissible temperature for heating conductive conductors, non-burning, of low fire hazard, containing three conductive conductors with phase paper insulation, filling the gaps between twisted insulated conductors with cable bundles, belt insulation, semiconducting screen made of tape of conductive cable paper over belt insulation, lead casing, a layer of heat-resistant tapes over a lead casing, armor in the form of two galvanized steel tapes and, a cushion under the armor and the outer shell of polymer thermoplastic polyolefin compositions that do not contain halogens with an oxygen index of at least 34%, characterized in that the construction of the cable for phase, zone insulation and bundles uses heat-resistant insulating cable paper with a heat resistance temperature of 90 ° C and non-leaking insulating impregnating composition with a kinematic viscosity of at least 30 cst (centistokes) at a temperature of 120 ° C. 2. Power cable according to claim 1, characterized in that the conductive wires are made of copper or aluminum. 3. Power cable according to claim 1, characterized in that the layer on top of the lead sheath is made of glass-containing or glass-mica-containing tapes.

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