RU53810U1 - POWER CABLE - Google Patents

Abstract

The utility model relates to cable technology, namely to the construction of power cables with plastic insulation and a sheath, designed for the transmission and distribution of electrical energy in stationary electrical installations with an alternating voltage of 660 V and 1000 V with a frequency of up to 100 Hz at an ambient temperature of minus 30 ° C to plus 50 ° C and relative humidity up to 98% at a temperature of plus 35 ° C. The utility model allows to simplify the process of applying a thermal barrier and to improve environmental friendliness and sanitary conditions in the production of cable. The power cable contains twisted conductive copper conductors with cross-linked polymer insulation, located on top of the twisted insulated conductors, an inner extruded sheath of a thermoplastic polymer composition, superimposed to fill the gaps between the veins, and an outer sheath of a thermoplastic polymer composition. The cable also contains a thermal barrier over conductive copper cores made in the form of an extruded composition based on synthetic rubbers containing non-combustible fillers that provide fire resistance. The insulation is made of cross-linked polyethylene or of an extruded cross-linked polymer composition based on a halogen-free polyolefin with an oxygen index of at least 30, the inner and outer extruded shells are made of a halogen-free thermoplastic polymer composition with an oxygen index of at least 45 by extrusion.

Description

The utility model relates to cable technology, namely to the construction of power cables with plastic insulation and a sheath, designed for the transmission and distribution of electrical energy in stationary electrical installations with an alternating voltage of 660 V and 1000 V with a frequency of up to 100 Hz at an ambient temperature of minus 30 ° C to plus 50 ° C and relative humidity up to 98% at a temperature of plus 35 ° C.

A power cable is known comprising twisted conductive copper conductors with cross-linked polymer insulation, located on top of twisted insulated conductors, an inner extruded sheath of a thermoplastic polymer composition, superimposed to fill the gaps between the conductors, and an outer sheath of thermoplastic polymer composition, and it contains over conductive copper conductors thermal barrier, the insulation is made of cross-linked polyethylene or of an extruded cross-linked polymer composition based on a polyol halogen-free fin, with an oxygen index of at least 30, the inner and outer extruded shells are made of a halogen-free thermoplastic polymer composition, with an oxygen index of at least 45 by extrusion, (see utility model of the Russian Federation No. 40527, publ. 10.09. 2004).

A disadvantage of the known cable is the time-consuming process of applying a thermal barrier in the form of a tape of a layered composition consisting of mica paper, an insulating fabric of glass filaments, impregnated and glued together by a binder by winding (one or two at a time) onto a conductive core or insulated conductive core, and also on top of twisted insulated cores or on the sheath and low environmental friendliness and sanitary conditions in the production of cable due to delamination during application grains of mica. The task is to simplify the process of applying a thermal barrier by using an extruded composition based on synthetic rubbers containing non-combustible fillers that provide fire resistance, and to improve environmental friendliness and sanitary conditions when applying a barrier by eliminating dust (mica) from the process.

The technical result is achieved by the fact that the power cable containing twisted conductive copper conductors with insulation of cross-linked polymer, located on top of the twisted insulated conductors of the inner extruded sheath of

thermoplastic polymer composition, superimposed with filling the gaps between the cores, and the outer shell of the thermoplastic polymer composition, contains a thermal barrier over conductive copper cores made in the form of an extruded composition based on synthetic rubbers containing non-combustible fillers that provide fire resistance, the insulation is made of cross-linked polyethylene or from an extruded cross-linked polymer composition based on a halogen-free polyolefin with an oxygen index of at least 30, the inner and outer extruded shells are made of a halogen-free thermoplastic polymer composition with an oxygen index of at least 45 by extrusion.

The cable may further comprise a screen in the form of a winding of copper foil or copper tape, superimposed overlapping on top of the inner sheath.

The cable may additionally contain armor of two steel strips with a thickness of at least 0.3 mm, laid over the inner sheath.

The cable may further comprise a thermal barrier located on top of the inner sheath.

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

The cable contains copper conductive conductors 1, on each of which a thermal barrier 2, made in the form of an extruded composition based on synthetic rubbers, containing non-combustible fillers that provide fire resistance, insulation 3 made of cross-linked polyethylene or an extruded cross-linked polymer composition based on a halogen-free polyolefin , with an oxygen index of at least 30, the insulated conductors of a multicore cable are twisted into a core, the inner sheath 4 of a thermoplastic polymer composition, superimposed with filling the gaps between the halogen-free cores with an oxygen index of at least 45 and the outer shell 5 made of an extruded halogen-free thermoplastic polymer composition with an oxygen index of at least 45, a screen in the form of a winding made of copper foil or copper tape superimposed overlapping on top of the inner shell or armor 6 of two steel strips with a thickness of at least 0.3 mm, superimposed on top of the inner shell, thermal barrier 7 on top of the inner shell.

The following is information confirming the feasibility of the utility model.

A crosslinked polyethylene or a crosslinked polymer composition based on a polyolefin that does not contain halogens with an oxygen index of at least 30 is used as insulation material for 3 cables.

As the material of the inner sheath 4 of the cable, a halogen-free polyolefin-based polymer composition with an oxygen index of at least 45 was used.

As the material of the outer sheath 5 of the cable, a halogen-free polyolefin-based polymer composition with an oxygen index of at least 45 was used.

Used for the manufacture of the proposed cable polymer compositions are manufactured industrially.

Conductors 1 are made of copper wire, traditional for electric cables, the twisting of the cable elements is carried out on conventional twisting equipment.

Thermal barrier 2 and 7, insulation 3, inner 4 and outer 5 shells are applied on extrusion equipment.

The application of thermal barriers 2 and 7 is carried out on known equipment traditionally used in the cable industry.

The overlay of the screen of copper tape or copper foil or armor 6 of galvanized steel tape is carried out on known equipment traditionally used in the cable industry.

An extruded composition based on synthetic rubbers containing non-combustible fillers providing fire resistance can be CONFill D-F 0704.

Claims (4)

1. Power cable containing twisted conductive copper conductors with cross-linked polymer insulation, located on top of twisted insulated conductors, an inner extruded sheath of a thermoplastic polymer composition, superimposed with filling the gaps between the veins, and an outer sheath of thermoplastic polymer composition, characterized in that it contains on top of conductive copper conductors a thermal barrier made in the form of an extruded composition based on synthetic rubbers containing non-combustible fireproofing fillers, insulation is made of cross-linked polyethylene or of an extruded cross-linked polymer composition based on a halogen-free polyolefin with an oxygen index of at least 30, the inner and outer extruded shells are made of a halogen-free thermoplastic polymer composition with an oxygen index not less than 45 by extrusion. 2. The cable according to claim 1, characterized in that it further comprises a screen in the form of a winding of copper foil or copper tape, superimposed overlapping on top of the inner shell.
3. The cable according to claim 1, characterized in that it further comprises armor of two steel tapes with a thickness of at least 0.3 mm, overlaid on top of the inner shell. 4. The cable according to any one of claims 1 to 3, characterized in that it further comprises a thermal barrier located on top of the inner sheath.