КВЭБШв(у)нг(А)-FRLS – (KVEBShv(u)ng(A)-FRLS) - Russian analogue of BiTmining YHKGYFtZnen 3,6/6kB (NYSEBYvu Fire Resistance Low Smoke FE180)

KVEBShv(u)ng(A)-FRLS

Description Add to order

SCOPE AND PURPOSE

The cables are designed for transmission and distribution of electric power at the stationary installation on the nominal alternating voltage of frequency 50 Hz for main conductors 6 kV and for auxiliary conductor to 0.38 kV. The cables are used for group installation taking into account the volume of the fire load of the cables, in domestic electrical installations, as well as in buildings, structures and enclosed cable structures, for installation in the horizontal and inclined openings of the coal and shale mines, for chains of emergency power and power equipment (susceptors), operating at a fire.

The class of fire hazard of the cables according to GOST 31565 П1б.1.2.2.2.

 

TECHNICAL DATA

Nominal voltage, kV: 6

Ambient temperature during cable operation, C: from -50 to +60

The cables are laid at temperature (without preheat), С, not below: -15

Resistant with a relative humidity up to 98% at ambient temperature, degree Celsius, up to: +35 С

Minimum bending radius, diameters of cable: 12

at installation using of a special template: 7,5

Smoke generation in the test cell, not more than: 50%

Equivalent toxicity index, g/m3, more than: 40

Service life, years, not less: 25

Fire resistance of the cables, min, not less than: 180

 

STRUCTURE

Main conductor

Copper , single-wire or multi-wire, of circular or sector-shaped form, of the 1 or 2 class according to GOST 22483 with the cross-section from 25 to 240mm2.

Auxiliary conductor

Copper, single-wire, of circular form, of the 1 class according to GOST 22483, with the cross-section from 6 to 10 mm2.

Earth conductor

Copper, single-wire or multi-wire core, of circular form, of the 1 or 2 class according to GOST 22483 with the cross-section from 10 to 70mm2.

For cables with the main conductors of sector-shaped form and it can consist of three separated conductors, meanwhile the cross-section of each conductor makes one third of the total cross-section of the earth conductor

Thermal barrier

Taping with two mica tapes.

Insulation

PVC-compound of low fire hazard and it is color coded.

Screen

Is made by taping with the tape of conductive, non-woven fabric and of copper tapes over the insulation of main conductors.

Core arrangement

Screened conductors of 3-core cables, auxiliary conductor and earth conductor are twisted in a cable core.

Inner sheath

It is made by extrusion with PVC-compound of low fire hazard with the filling of outer gaps between conductors.

Cable armoring

Is lapped helically with two steel, galvanized tapes.

Jacket

PVC-compound of low fire hazard.

For cables of mark KVEBShv(u)ng(A)-FRLS forced protective hose is used.

Type of cable Calculated diameter, mm Calculated weight of 1km of cable, kg
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х70мс+1х16-6
49,6 5208
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х95мс+1х16-6
53,3 6912
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х120мс+1х16-6
55,9 8363
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х150мс+1х16-6
59,0 10089
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х185мс+1х16-6
62,1 12151
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х240мс+1х16-6
66,3 15066
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х70мс+1х25мк-6
49,6 5269
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х95мс+1х35мк-6
53,3 7038
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х120мс+1х35мк-6
55,9 8490
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х150мс+1х50мк-6
59,0 10299
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х185мс+1х50мк-6
62,1 12361
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х240мс+1х70мк-6
66,3 15415
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х70мк+1х10+1х16-6
55,2 6255
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х95мк+1х10+1х25мк-6
59,2 7534
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х120мк+1х10+1х35мк-6
62,2 8640
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х150мк+1х10+1х50мк-6
66,5 10024
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х185мк+1х10+1х50мк-6
71,2 11651
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х240мк+1х10+1х70мк-6
76,6 14088
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х70мк+1х25мк-6
55,2 6246
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х95мк+1х35мк-6
59,2 7523
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х120мк+1х35мк-6
62,2 8564
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х150мк+1х50мк-6
66,5 9931
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х185мк+1х50мк-6
71,2 11558
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х240мк+1х70мк-6
76,588 14003
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х70мк+1х16-6
55,2 6196
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х95мк+1х16-6
59,2 7414
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х120мк+1х16-6
62,2 8455
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х150мк+1х16-6
66,5 9758
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х185мк+1х16-6
71,2 11384
m
KVEBShv(u)ng(A)-FRLS KVEBShv(u)ng(A)-FRLS
3х240мк+1х16-6
76,6 13683
m