RU57961U1 - CABLE CONTROL, ALARM AND COMMUNICATION - Google Patents

Abstract

The utility model relates to cable technology, namely to the construction of control cables, signaling and communication. The cable contains copper conductive conductors, each of which has a thermal barrier from an extruded composition based on synthetic halogen-free synthetic rubber with an oxygen index of at least 80 and a specific electrical resistance at 20 ° C of at least 1 · 10 ¹⁴ Ohm · cm and at 750 ° С - not less than 1 · 10 ⁸ Ohm · cm, forming a ceramic layer at a temperature of (700-800) ° С, insulation from an extruded cross-linked polymer composition based on a halogen-free polyolefin, with an oxygen index of at least 30 or from thermoplastic polymer a halogen-free polyolefin-based composition with an oxygen index of at least 30, a screen of tinned copper wires on top of each strand or a pair of strands, while the insulated strands are twisted into a core over which a winding is applied in the form of a tape made of polyimide or polyamide, or polyethylene terephthalate film, the second screen of tinned copper wires or in the form of a winding of aluminum foil, or of a foil composite flexible material and a longitudinally laid tinned copper wire and an outer sheath of extra hardened thermoplastic polymer composition with an oxygen index of at least 45. 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, signaling and communication with plastic insulation and sheath, designed for the transmission and distribution of electrical energy and electrical signals in stationary electrical installations with alternating voltage up to 380 V, frequency up to 200 kHz and constant voltage up to 500 V at an ambient temperature of 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 brand KUGVVNG-LS, having copper conductive conductors, insulation, located on top of twisted insulated conductors, a winding in the form of a tape of polyimide or polyamide, or polyethylene terephthalate film, superimposed with overlapping, and a sheath of polyvinyl chloride plastic compound (Cables that do not spread 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 the design of the control cable, signaling and communication of non-proliferating combustion when laying the cable in bundles and fireproof.

The technical result is achieved in that the control, signaling and communication cable, comprising at least two twisted insulated conductive copper conductors with plastic insulation, located on top of the twisted conductors, a winding in the form of a tape of polyimide or polyamide or polyethylene terephthalate film and a plastic outer sheath, contains of each conductive core, a thermal barrier made of an extruded composition based on synthetic halogen-free synthetic rubber with oxygen ind HMAC is not less than 80 and electrical resistivity at 20 ° C for at least 1 10 ¹⁴ ohm-cm and at 750 ° C - at least 1 × 10 ⁸ ohm-cm, forming at a temperature (700-800) ° C ceramic layer, the radial thickness (a) of the thermal barrier is determined by the ratio of 0.2≤a≤0.5 mm, the insulation is made of an extruded cross-linked polymer composition based on a halogen-free polyolefin with an oxygen index of at least 30 or a thermoplastic polymer composition based on a polyolefin, halogen-free, with an oxygen index of at least 30 and external points formed of an extruded thermoplastic polymer composition containing no halogen, an oxygen index of not less than 45.

The cable may also contain insulated conductors, twisted in pairs or in bundles, wrapped with a fastening tape with a gap.

The cable may also contain over each insulated core a shield made 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 a second screen over the winding, made in the form of a braid of tinned copper wires with a coefficient of surface density of the braid of at least 70% or in the form of a winding of aluminum foil, or of a foil composite flexible material and a longitudinally laid tinned copper wire.

The utility model is illustrated in the drawing, which shows the control cable, alarm and communication in section.

The control, signaling and communication cable contains copper conductive conductors 1, each of which has a thermal barrier 2, a thermal barrier made of an extruded composition based on synthetic halogen-free synthetic rubber, with an oxygen index of at least 80 and electrical resistivity at 20 ° С not less than 1 · 10 ¹⁴ Ohm · cm and at 750 ° С - not less than 1 · 10 ⁸ Ohm · cm, forming a ceramic layer at a temperature of (700-800) ° С, radial thickness (a) of the thermal barrier is determined by the ratio of 0.2 ≤a≤0.5 mm, insulation 3 of extrudiro a bathroom cross-linked polymer composition based on a halogen-free polyolefin with an oxygen index of at least 30 or from a thermoplastic polymer composition based on a halogen-free polyolefin with an oxygen index of at least 30, the isolated conductors are twisted into a core over which a 4 V winding is applied in the form of a tape of polyimide or polyamide, or polyethylene terephthalate film, the outer shell 5, made of an extruded thermoplastic polymer composition without halogen, with an oxygen index ohm no less than 45, over each insulated core or pair of wires there is a screen 6 in the form of a braid of tinned copper wires with a coefficient of surface density of the braid of at least 70%, the wires or pairs of cores, or bundles wrapped with a fastening tape, are twisted into a core on which winding 4, screen 7 in the form of a braid of tinned copper wires with a coefficient of surface density of the braid of at least 70% or in the form of a winding of aluminum foil, or of foil composite flexible material and a longitudinally laid tinned copper wire.

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

An extrudable cross-linked polyolefin-based polymer composition containing no halogens with an oxygen index of at least 30 or a thermoplastic polymer composition based on a halogen-free polyolefin with an oxygen index of at least 30 was used as insulation material for 3 cables.

An extrudable thermoplastic polymer composition without halogens with an oxygen index of at least 45 was used as the material of the outer 5 cable sheath.

As the material of the thermal barrier 2 of the cable, a halogen-free composition based on synthetic rubber with an oxygen index of at least 80 was used.

The halogen-free polymer compositions used for the manufacture of the proposed cable are commercially available.

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, insulation 3 and the outer shell 5 are imposed on the 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 application of a tape of polyimide or polyamide, or polyethylene terephthalate film, as well as the imposition of a screen of aluminum foil, or of foil composite flexible material and longitudinally laid tinned copper wire is carried out on known equipment traditionally used in the cable industry.

Samples of the proposed electric cable, made using materials with oxygen indices and electrical resistivity in the declared range of values, were tested for non-proliferation of combustion when placed in a bundle according to GOST R IEC 332-3-96 and for fire resistance according to IEC 60331.

The results are shown in the table.

Cable specifications Name Technical Cable product characteristics requirements Famous cable The proposed cable according to claims 1-4 Compliance of cables with fire safety requirements: - non-proliferation of combustion in accordance with GOST R IEC 332-3-96, category A The length of the burnt area is not more than 2.5 m 1.5 m, corresponds 1.5 m, corresponds - fire resistance according to IEC 60331 maintaining operability in conditions of exposure to an open flame for at least 90 minutes no more than 5 min., does not correspond more than 90 min., corresponds

Claims (4)

1. A control, signaling and communication cable comprising at least two twisted insulated conductive copper conductors with plastic insulation, located on top of twisted insulated conductors, a winding in the form of a tape of polyimide or polyamide, or polyethylene terephthalate film, superimposed overlapping, and a plastic outer sheath, characterized in that it contains a thermal barrier on top of each conductive core made of an extruded composition based on synthetic rubber that does not contain halogen a, an oxygen index of not less than 80 and electrical resistivity at 20 ° C for at least 1 10 ¹⁴ ohm-cm and at 750 ° C - at least 1 × 10 ⁸ ohm-cm, forming at a temperature (700-800) ° With a ceramic layer, the radial thickness (a) of the thermal barrier is determined by the ratio of 0.2≤a≤0.5 mm, the insulation is made of an extruded cross-linked polymer composition based on a halogen-free polyolefin with an oxygen index of at least 30 or from a thermoplastic polymer composition based on a halogen-free polyolefin with an oxygen index not m 30 and its outer sheath is made from an extruded thermoplastic polymer composition containing no halogen, an oxygen index of not less than 45. 2. The cable according to claim 1, characterized in that the insulated conductors are twisted in pairs or in a bundle wrapped with a fastening tape with a gap. 3. The cable according to claim 1, characterized in that it further comprises a screen on top of each insulated core made in the form of a braid of tinned copper wires with a coefficient of surface density of the braid of at least 70%. 4. The cable according to any one of claims 1 or 2, characterized in that it further comprises a second screen on top of the winding, made in the form of a braid of tinned copper wires with a coefficient of surface density of the braid of at least 70% or in the form of a winding of aluminum foil or foil composite flexible material and a longitudinally laid tinned copper contact wire.