RU174057U1 - CABLE CONTROL - Google Patents

Abstract

The utility model relates to cable technology, namely, to the construction of control cables with plastic insulation and a sheath, designed for transmission and distribution of electrical energy in stationary electrical installations with an alternating voltage of 660 V with a frequency of up to 100 Hz and a constant voltage of up to 1000 V. The control cable contains conductive cores 1, thermal barrier 2, insulation 3 from extruded PVC compound of reduced fire hazard with an oxygen index of at least 32, with a maximum specific optical density of smoke during combustion and decay (D) no more than 150 and with a mass fraction of hydrogen chloride emitted during combustion no more than 120 mg / g, the isolated conductors are twisted into a core, and the outer shell 4 is made of low fire hazard PVC with oxygen index not less than 35, with a maximum specific optical density of smoke during combustion and decay (D) not more than 150 and with a mass fraction of hydrogen chloride released during combustion, not more than 100 mg / g. The cable may additionally contain a fastening winding 5 made of polyamide or polyethylene terephthalate tape, an internal extruded sheath 6 made of low fire hazard PVC compound with an oxygen index of at least 40, with a maximum specific optical density of smoke during combustion and decay (D) of not more than 120 and with a mass fraction hydrogen chloride released during combustion, not more than 50 mg / g, screen 7 made of copper tapes or copper wires or armor 8 of two galvanized steel tapes, superimposed overlapping, or from steel lnyh wires or wires made of aluminum or an aluminum alloy. The cable may further comprise a winding 9 of at least one polyethylene terephthalate tape. The technical result consists in the creation of control fire-resistant cables that do not propagate combustion during group installation, with low smoke emission during combustion and decay, and with low evolution of hydrogen chloride during combustion.

Description

The utility model relates to cable technology, namely to the construction of control 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 with a frequency of up to 100 Hz and a constant voltage of up to 1000 V.

Known fire-resistant control cables that do not propagate combustion, KVVGNG (A) -FRLS brands, having conductive conductors, a winding of mica tape, insulation and a sheath of PVC compounds of reduced fire hazard (Utility model No. 40523).

Such cables do not spread combustion when tested in accordance with GOST IEC 60332-3-22, satisfy the requirements of GOST 31565-2012 for smoke emission when tested in accordance with GOST IEC 61034-2, and remain operational under flame conditions for at least 180 minutes when tested in accordance with GOST IEC 60331-21, however, the indicator of the corrosion activity of smoke and gas products during the combustion of polymer materials of such cables is characterized by the mass fraction of hydrogen chloride released during combustion up to 140-150 mg / g.

The technical result consists in increasing the reliability of the cable by ensuring the non-proliferation of cable combustion during group installation with a volume of combustible mass of 7 l / m, reducing light transmission during burning and decay of not more than 50%, while maintaining operation when exposed to a flame for at least 180 minutes while simultaneously matching requirements for the mass fraction of hydrogen chloride in the composition of the smoke products of combustion is not more than 100 mg / g.

The technical result is achieved in that in the control cable, containing twisted copper conductive conductors with a thermal barrier overlaid on top of each, made of at least one helically superimposed with mica tape overlapping, and with PVC insulation and an outer sheath of PVC made over the twisted conductors , the insulation is made of extruded PVC compound of reduced fire hazard with an oxygen index of at least 32, with poppy seeds the maximum specific optical density of smoke during combustion and decay (D _max. ) is not more than 150 and with a mass fraction of hydrogen chloride liberated during combustion, not more than 120 mg / g, the outer shell is made of low fire hazard PVC compound with an oxygen index of at least 35 , with a maximum specific optical density of smoke during combustion and decay (D _max. ) not more than 150 and with a mass fraction of hydrogen chloride released during combustion, not more than 100 mg / g.

The cable may additionally contain, on top of the insulated cores twisted into the core, a fastening winding in the form of a spirally applied polyamide or polyethylene terephthalate tape and / or an extruded inner shell of low-risk PVC compound with an oxygen index of at least 40, with a maximum specific optical density of smoke during combustion and smoldering ( D _max. ) Not more than 120 and with a mass fraction of hydrogen chloride released during combustion, not more than 50 mg / g.

To achieve the stated requirements, the cable insulation can be made of low fire hazard PVC compound of the brand Lowgran 1110 or Eligran 1110, or Bashgran 1110, the inner shell of low fire hazardous PVC plastic grade the Lowgran 3110 or Eligran 3110, or Bashgran 3110 and the outer shell of the floor low fire hazard brand Lousgran 2110 or Eligran 2110, or Bashgran 2110.

The cable may further comprise, on top of the inner sheath, a shield of copper tapes or copper wires, or an armor of two steel galvanized tapes superimposed overlapping, or of steel wires or wires of aluminum or an aluminum alloy.

To prevent shedding of mica, the cable may additionally comprise, on top of the thermal barrier, a winding of at least one polyethylene terephthalate or polyamide tape.

A utility model is illustrated in the drawing, which shows a control cable in section.

The control cable contains conductive conductors 1, thermal barrier 2, insulation 3 from extruded PVC compound of low fire hazard with an oxygen index of at least 32, with a maximum specific optical density of smoke during combustion and decay (D _max. ) Of not more than 150 and with a mass fraction of chloride hydrogen released during combustion, not more than 120 mg / g, insulated conductors are twisted into a core, and outer shell 4 is made of low fire hazard PVC compound with an oxygen index of at least 35, s m ksimalnoy specific optical density of smoke when burning and smoldering (D _max.) and not more than 150 mass fraction of hydrogen chloride released during the combustion, no more than 100 mg / g. The cable may additionally contain a fastening winding 5 made of polyamide or polyethylene terephthalate tape, an internal extruded sheath 6 of low fire danger PVC compound with an oxygen index of at least 40, with a maximum specific optical density of smoke during combustion and decay (D _max. ) Of not more than 120 s mass fraction of hydrogen chloride released during combustion, not more than 50 mg / g, screen 7 of copper tapes or copper wires or armor 8 of two galvanized steel tapes, overlapping, or from steel wires or wires from aluminum or aluminum alloy. The cable may also further comprise a winding 9 of at least one polyethylene terephthalate tape.

As the insulation material for 3 cables, low fire hazard polyvinyl chloride plastic compound with an oxygen index of at least 32 with a maximum specific optical density of smoke during combustion and decay (D _max. ) Not more than 150 and with a mass fraction of hydrogen chloride released during combustion, not more than 120 was used. mg / g, for example, the brand Lousgran 1110 or Eligran 1110, or Bashgran 1110.

The material of the inner sheath 6 of the cable used is a low fire hazard PVC compound with an oxygen index of at least 40, with a maximum specific optical density of smoke during combustion and decay (D _max. ) Of not more than 120 and with a mass fraction of hydrogen chloride released during combustion, not more than 50 mg / g, for example, the brand Lousgran 3110 or Eligran 3110, or Bashgran 3110.

The material of the outer sheath 4 of the cable used is a low fire hazard PVC compound with an oxygen index of at least 35, with a maximum specific optical density of smoke during combustion and decay (D _max. ) Of not more than 150 and with a mass fraction of hydrogen chloride released during combustion, not more than 100 mg / g, for example, the brand Lousgran 2110 or Eligran 2110, or Bashgran 2110.

The polyvinyl chloride compositions used for the manufacture of the proposed cable are commercially available and are used in the manufacture of cables.

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

The thermal barrier 2 and the polyethylene terephthalate tape 9 are imposed on the winding equipment, traditionally used in the cable industry.

Insulation 3, inner 6 and outer shell 4 are applied on extrusion equipment.

The overlay screen 7 of copper tapes or copper wires is carried out on known equipment, traditionally used in the cable industry.

The overlay of armor 8 from galvanized steel tape is made on armor machines traditionally used in the cable industry.

Samples of the proposed cables were tested for non-propagation of combustion during group laying according to GOST IEC 60332-3-22, for smoke generation during combustion and smoldering according to GOST IEC 61034-2, for fire resistance in accordance with GOST IEC 60331-21 and for the amount of emitted gases of halogen acids at combustion of cable construction materials in accordance with GOST IEC 60754-1.

The test results are shown in the table.

Claims (9)

1. The control cable, containing twisted copper conductive cores overlaid on each thermal barrier, made of at least one helically imposed with overlapping mica tape, and insulation made of PVC compound and applied over the twisted cores of the outer sheath of PVC compound, characterized in that the insulation is made of extruded PVC compound of reduced fire hazard with an oxygen index of at least 32, with a maximum specific optical smoke density during combustion and decay (D _max. ) not more than 150 and with a mass fraction of hydrogen chloride emitted during combustion not more than 120 mg / g, the outer shell is made of low fire hazard PVC compound with an oxygen index of at least 35, s maximum specific optical density of smoke during combustion and decay (D _max. ) not more than 150 and with a mass fraction of hydrogen chloride released during combustion, not more than 100 mg / g. 2. The cable according to claim 1, characterized in that the insulation is made of low fire danger PVC compound of the brand Lowgran 1110 or Eligran 1110, or Bashgran 1110, the outer jacket is made of low fire danger PVC compound of the Lowgran 2110 or Eligran 2110 or Bashgran 2110 brand . 3. The cable according to claim 1 or 2, characterized in that it further comprises a fastening winding in the form of a spirally applied polyamide or polyethylene terephthalate tape over twisted into a core of insulated cores. 4. The cable according to claim 1, characterized in that it additionally contains, on top of the twisted insulated core, an internal extruded sheath of low fire hazard PVC compound with an oxygen index of at least 40, with a maximum specific optical density of smoke during combustion and decay (D _max. ) not more than 120 and with a mass fraction of hydrogen chloride released during combustion, not more than 50 mg / g. 5. The cable according to claim 3, characterized in that it further comprises, on top of the fastening winding, an extruded sheath of low fire hazard PVC compound with an oxygen index of at least 40, with a maximum specific optical density of smoke during combustion and decay (D _max ) no more 120 and with a mass fraction of hydrogen chloride released during combustion, not more than 50 mg / g. 6. The cable according to claim 4 or 5, characterized in that the inner shell is made of low fire hazard PVC compound of the brand Lowgran 3110 or Eligran 3110, or Bashgran 3110. 7. The cable according to claim 4 or 5, characterized in that it further comprises a screen over the inner sheath made by winding from a copper tape or spirally laid copper wires connected by a copper tape or easterly. 8. The cable according to claim 4 or 5, characterized in that it further comprises, on top of the inner shell, armor from two steel galvanized tapes superimposed overlapping, or from steel wires or wires of aluminum or an aluminum alloy. 9. The cable according to claim 1 or 4, or 5, characterized in that it further comprises, on top of the thermal barrier, a winding of at least one polyethylene terephthalate or polyamide tape.

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