RU188841U1 - CABLE POWER HIGH-VOLTAGE FIRE RESISTANT - Google Patents

Abstract

The utility model relates to cable technology, in particular to the construction of high-voltage power cables with insulation made of cross-linked polyethylene and a sheath of a polyolefin composition containing no halogens, intended for the transmission and distribution of electrical energy in stationary electrical installations at AC voltage of 45-500 kV with a frequency of 50 Hz at an ambient temperature of minus 65 ° C to plus 60 ° C and a relative air humidity of up to 98% at a temperature of plus 35 ° C. The task of the utility model is to design A fire-resistant power cable designed for a voltage of 45-500 kV and maintaining operability when exposed to a flame for at least 180 minutes, which corresponds to the fire resistance rating (software) of class 1 according to GOST 31565-2012. The technical result is an increase in the fire resistance of the cable. The technical result is achieved by the fact that the high-voltage fire-resistant power cable contains one conductive core, over which the winding with a tape of electrically conductive material is sequentially arranged, the first screen is made of el electrically conductive crosslinked polymer composition, insulation from a crosslinked polyethylene composition, a second screen from an electrically conductive crosslinked polymer composition, tape winding from an electrically conductive water-blocking material, metal screen, tape winding from an electrically conductive water blocking foam material, tape-wound from an electrically conductive water blocking material and an extruded outer sheath, made an outer sheath and made an extruded outer sheath, made a wire, made a conductive foam blocking material; halogen-free polyolefin composition HZ01EP / 8000.

Description

The utility model relates to cable technology, in particular to the construction of high-voltage power cables with insulation made of cross-linked polyethylene and a sheath of a polyolefin composition containing no halogens, intended for the transmission and distribution of electrical energy in stationary electrical installations at AC voltage of 45-500 kV with a frequency of 50 Hz at ambient temperature from minus 65 ° С to plus 60 ° С and relative air humidity up to 98% at temperature + 35 ° С.

Known power high-voltage cable for a voltage of 45-500 kV for the RF patent for useful model No. 159914 (dated 08.25.2015 publ. 02/20/2016) and power high-voltage cable for a voltage of 45-330 kV for the RF patent for useful model No. 161088 (for 15.10 .2014 publ. 04/10/2016)

The disadvantage of cables according to patents No. 159914 and 161088 is that such cables do not have fire resistance in case of fire. These cables can not be used on sites where it is necessary to maintain operability in case of fire.

Known power cable for an average voltage of 6-35 kV under the RF patent for useful model No. 180838 (dated 12.22.2017 publ. 28.06.2018) is adopted as a prototype.

The cable according to patent No. 180838 is fire resistant, but this cable is a cable of the middle class of voltage of 6-35 kV and cannot be used in high-voltage cable systems of 45-500 kV.

The task of the utility model is to design a fire-resistant power cable designed for a voltage of 45-500 kV and maintaining operability when exposed to a flame for at least 180 minutes, which corresponds to the fire resistance limit of the class 1 according to GOST 31565-2012.

The technical result is to increase the fire resistance of the cable.

The technical result is achieved by the fact that the high-voltage fire-resistant power cable contains one conductive core, over which the winding of electrically conductive material is sequentially arranged, the first screen is made of electrically conductive cross-linked polymer composition, the insulation is made of cross-linked polyethylene composition, the second screen is made of electrically conductive cross-linked polymeric composition, tape is wound electrically conductive water blocking material, metal screen, taping from electrically conductive water blocking foam material, tape wrapping of electrically conductive water blocking material and extruded outer sheath made of halogen-free polyolefin composition, HZ01EP / 8000 grade.

The core can be made of multiwire round or “MILLIKEN” type, twisted from 6 identical segments formed by an external cylindrical profile and a core.

The metal screen of the cable can be made of copper wires, spirally fastened with copper tape.

The cable instead of winding a tape of electrically conductive material along the core may contain a winding tape of electrically conductive water blocking material.

The cable may further comprise over the winding a tape of electrically conductive material along the core a winding with a fastening conductive tape.

The cable may additionally contain sealing tapes and threads in the construction of the core.

The cable may additionally contain a bonding layer in the form of a copper tape winding over a copper screen.

The cable may additionally contain over the winding tape of electrically conductive water-blocking material on the screen alumopolymer tape, applied longitudinally.

The cable may additionally contain a semiconducting layer of a halogen-free polyolefin composition over the outer shell.

Also, the cable may additionally contain an extruded inner sheath in series over the winding with a tape of electrically conductive water blocking material on the screen, armor in the form of spirally applied metal wires, over which a polymer tape is laid over the winding.

Implementation of the utility model

The utility model is illustrated in the drawing.

Figure 1 shows the power cable in the section.

The power cable contains a conductive core 1, twisted from six segments and a core, with sealing elements 2 inside, over which are wound a tape of electrically conductive water blocking material 3, fastening a layer of tape winding of electrically conductive material 4, the first screen of electrically conducting cross-linked polymer composition 5 , insulation from a crosslinked polyethylene composition 6, a second screen from an electrically conductive crosslinked polymer composition 7, winding a tape from an electrically conductive water blocking material 8, metal screen 9, copper tape 10, winding tape of electrically conductive water blocking foam material 11, winding tape of electrically conductive water blocking material 12, aluminum polymer tape 13, extruded inner sheath 14, armor 15 in the form of helically applied metal wires, over which are superimposed winding polymer tape 16, extruded outer sheath 17, semiconducting layer 18.

The following are information confirming the possibility of the implementation of the utility model.

As the conductive conductor 1 and the metal screen 9 is used copper rod.

As the sealing elements 2 of the conductive conductor, water-blocking tapes and threads are used.

Conductive water-blocking tape 3 is designed for longitudinal sealing of the core.

The conductive tape 4 is used as a bonding layer along the core 1.

As a material for electrically conductive screens 5 and 7, an electrically conductive crosslinked polymer composition is used.

As the insulation material 6 of the cable is used cross-linked polyethylene composition.

Conductive water blocking tape 8 under the screen 9 is used as a separating layer and transverse sealing.

Copper tape 10 is used as a bonding layer for the screen 9.

Conductive water blocking foam tape 11 is used as a separating layer and transverse sealing on the screen 9.

Conductive water blocking tape 12 is used as a fastening layer and transverse sealing on the screen 9.

Alumopolymer tape 13 is used as a transverse sealing of the screen 9.

The material of the inner shell 14 is a halogen-free polyolefin composition, brand HZ01BED, manufactured by Cabopol.

The material of the armor wires 15 is aluminum or aluminum alloy.

As a bonding layer for armor 15 is used polymer tape 16.

The material of the outer shell 17 is a halogen-free polyolefin composition HZ01EP / 8000 manufactured by Cabopol.

As the material of the semiconducting layer 18, a semiconducting polyolefin halogen-free composition is used.

Applied for the manufacture of the proposed cable materials are produced industrially and are widely used in the manufacture of power cables.

The segments and core for the conductive core 1 are made of wire, traditional for electric cables, and twisted into the core with the addition of sealing elements 2 thereon are produced on conventional torsion equipment.

The imposition of electrically conductive screens 5 and 7 and insulation 6 and their stitching is carried out on the lines of continuous vulcanization, and the imposition of aluminum polymer tape 13, the inner shell 14, the outer shell 17, the semiconducting layer 18, is carried out on extrusion equipment.

The imposition of a metal screen 9 and armor 15, consisting of spiral-imposed metal wires, carried out on the known torsional equipment, traditionally used in the cable industry.

The winding of electrically conductive water-blocking tapes 3, 8, 12, electrically conductive tape 4, copper tape 10, electrically conductive water blocking foam tape 11, bonding with polymer tape for armor 16, is carried out on winding machines used in the cable industry.

The proposed power cable was tested for non-proliferation of combustion during group laying according to GOST R IEC 60332-3-22, for determining the optical density of smoke during combustion and smoldering according to GOST R IEC 61034-2-2005 and for maintaining performance under conditions of flame effect on equipment according to GOST R IEC 60331-11. The test results are shown in table 1.

Table 1.

Based on the test results presented in Table 1, we can conclude that the proposed cable design not only ensures compliance with the requirements for non-proliferation of combustion in beams and smoke emission, but also meets the class PO-1 for maintaining the cable line in case of fire for more than 180 min

The inventive fire-resistant power cable is designed for a voltage of 45-500 kV with a frequency of 50 Hz, operating at an ambient temperature of minus 65 ° C to plus 60 ° C and a relative air humidity of up to 98% at a temperature of plus 35 ° C and maintains operability when exposed to a flame in time of not less than 180 minutes

Claims (7)

1. High-voltage fire-resistant power cable containing one conductive core, over which the winding is made of electrically conductive material, the first screen is made of electrically conductive cross-linked polymer composition, the insulation is made of cross-linked polyethylene composition, the second screen is made of electrically conductive cross-linked polymer composition, the winding is tape of electrically conductive water-blocking material , metal screen, tape winding from electrically conductive water blocking foam material, tape winding from electro a conductive water blocking material and an extruded outer sheath made of a halogen-free polyolefin composition HZ01EP / 8000. 2. High-voltage fire-resistant power cable according to claim 1, characterized in that the tape of electrically conductive material along the core is made water-blocking. 3. High-voltage fire-resistant power cable according to claim 1, characterized in that it further comprises over the winding with a tape of electrically conductive material along the core a winding with a fastening conductive tape. 4. High-voltage fire-resistant power cable according to claim 1, characterized in that it additionally contains sealing tapes and threads in the core. 5. High-voltage fire-resistant power cable according to claim 1, characterized in that it further comprises over the winding tape of electrically conductive water blocking material on the screen an aluminum polymer tape, applied longitudinally. 6. The high-voltage fire-resistant power cable according to claim 1, characterized in that it further comprises a semiconducting layer of a halogen-free polyolefin composition over the outer sheath. 7. High-power flame-retardant power cable according to claim 1, characterized in that it further comprises an extruded inner sheath arranged sequentially over the winding tape of electrically conductive water blocking material on the screen, armor in the form of spirally applied metal wires, over which winding polymer tape is applied.

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