RU39968U1 - CONTROL CABLE - Google Patents

Abstract

The utility model relates to cable technology, namely to the construction of control cables. The cable contains copper conductive conductors, each of which has a thermal barrier of mica tape, insulation of low fire hazard PVC compound, a screen of tinned copper wires, while the insulated conductors are twisted into a core over which a winding in the form of a tape of polyimide, polyamide or polyethylene terephthalate film, a second screen of tinned copper wires and an outer sheath. The technical result is the preservation of the operability of the cables under the influence of an open flame.

Description

The utility model relates to cable technology, namely to the construction of control cables with plastic insulation and sheath, designed for the transmission and distribution of electrical energy and electrical signals in stationary electrical installations with an alternating voltage of 380 V with a frequency of up to 100 Hz and a constant voltage of up to 500 V at a temperature environment from minus 30 ° С to plus 50 ° С and relative air humidity up to 98% at a temperature of plus 35 ° С.

Known control cables of the brands KUGVV, KUGVVE and KUGVEV, having copper conductive cores, insulation and a sheath made of PVC compound (Cables that do not protect combustion, with low smoke and gas emission TU 16. K71-310-2002).

However, such cables do not meet the fire resistance requirements.

The task was to develop a control cable design that does not propagate combustion during cable laying in bundles and is fireproof.

The technical result is achieved in that the control cable, containing at least four twisted insulated conductive copper conductors with insulation made of extruded polyvinyl chloride plastic compound, a winding in the form of a tape of polyimide, polyamide or polyethylene terephthalate film and an outer sheath of extruded polyvinyl chloride plastic, located on top of the twisted conductors, contains on top of each conductive core, a thermal barrier from helically imposed with the overlap of at least one mica comprising tapes, insulation is made from extruded PVC compound of low flammability with oxygen index of not less than 30 and the outer shell is made of extruded PVC compound of low flammability with oxygen index of not less than 35.

The cable may also contain over each insulated core a shield in the form of a braid of tinned copper wires with a coefficient of surface density of the braid of at least 70%.

The cable may also contain on top of the winding in the form of a tape of polyimide, polyamide or polyethylene terephthalate film a second screen in the form of a braid of tinned copper wires with a coefficient of surface density of the braid of at least 70%.

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

The control cable contains copper conductive conductors 1, each of which has a thermal barrier 2 of spirally applied at least one mica-containing tape, insulation 3 of extruded PVC compound

low fire hazard, insulated conductors are twisted into a core, on top of which a winding 4 is applied in the form of a tape of polyimide, polyamide or polyethylene terephthalate film, the outer shell 5 is made of extruded polyvinyl chloride plastic compound of low fire risk, on top of each insulated core there is a screen b in the form of a braid of tinned copper wires with a coefficient of surface density of the braid of not less than 70%, over the winding 4 screen 7 in the form of a braid of tinned copper wires with a coefficient of surface density ty braids not less than 70%.

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

As the insulation material of 3 cables, low fire hazard PVC compound with an oxygen index of at least 30% was used.

As the material of the outer 5 cable sheath, low fire hazard polyvinyl chloride plastic compound with an oxygen index of at least 35% was used.

Used for the manufacture of the proposed cable, polyvinyl chloride plastic compounds of reduced fire hazard 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.

The insulation 3 and the outer shell 5 are applied on extrusion equipment.

The imposition of the screen 6 and 7 of tinned copper wire is carried out on known equipment, traditionally used in the cable industry.

The thermal barrier 2 and the tape of the polyimide, polyamide or polyethylene terephthalate film are applied on known equipment traditionally used in the cable industry.

Used for the manufacture of the proposed cable mica tape is manufactured industrially.

Samples of the proposed control cable were tested for non-propagation of combustion when placed in a bundle in accordance with GOST R IEC 332-3-96 and for fire resistance in accordance with IEC 60331.

The results are shown in the table.

Cable specifications Name of characteristic Technical requirements Cable product Famous cable The proposed cable according to claims 1-3 Compliance of cables with fire safety requirements: - non-propagation of combustion according to GOST R IEC 332-3-96, category A - fire resistance according to IEC 60331 The length of the burned-out section is not more than 2.5 m; maintaining operability under conditions of exposure to an open flame for at least 90 minutes 1,5m, corresponds
no more than 5 min.,
does not match 1,5m, corresponds
more than 90 min., corresponds

Claims (3)

1. A control cable comprising at least four twisted insulated conductive copper conductors with extruded PVC insulated insulation, a winding in the form of a tape of polyimide, polyamide or polyethylene terephthalate film overlaid on top of twisted insulated conductors, and an outer sheath made of extruded polyvinyl chloride plastic, characterized in that contains on top of each conductive core a thermal barrier made of spirally imposed with an overlap of at least one mica tape, the insulation is made of extruded low-risk PVC compound with an oxygen index of at least 30 and the outer shell is made of extruded low-risk PVC compound with an oxygen index of at least 35. 2. The cable according to claim 1, characterized in that it further comprises, on top of each insulated core, a shield in the form of a braid of tinned copper wires with a coefficient of surface density of the braid of at least 70%. 3. The cable according to any one of claims 1 and 2, characterized in that it additionally comprises, on top of the winding in the form of a tape of polyimide, polyamide or polyethylene terephthalate film, a second screen in the form of a braid of tinned copper wires with a coefficient of surface density of the braid of at least 70%.