RU134693U1 - ELECTRIC KPM CABLE - Google Patents

Abstract

1. The electric cable contains conductive conductors made of copper wires with insulation, on which a polyethylene terephthalate film is applied, over which a sheath of PVC plastic is applied, characterized in that the insulation of the conductors is made of a fire-resistant organosilicon ceramic mixture. 2. An electric cable containing pairs of conductive conductors made of copper wires with insulation, on which a polyethylene terephthalate film is applied, over which a sheath of PVC plastic is applied, characterized in that the insulation of the conductors is made of flame-retardant organosilicon-ceramic mixture. 3. An electric cable containing pairs of conductive conductors made of copper wires with insulation, a polyethylene terephthalate film laid under the screen, and a sheath made of PVC plastic, characterized in that the insulation of the conductors is made of fire-resistant organosilicon ceramic mixture. 4. An electric cable containing pairs of conductive conductors made of copper wires, with insulation, placed under the screen in the form of a braid of copper wires, a polyethylene terephthalate film and a sheath made of PVC plastic, characterized in that the insulation of the wires is made of a fire-resistant organosilicon ceramic mixture. 5. An electric cable containing pairs of conductive conductors made of copper wires with insulation, armor made of galvanized steel wires, a polyethylene terephthalate film under the armor, a sheath of PVC compound, an additional polyethylene terephthalate film under an additional sheath of PVC compound, characterized in that the core insulation is made flame retardant organosilicon

Description

The utility model relates to cable technology, in particular to the design of electrical cables for industrial automation systems, fire and security alarms, designed for stationary and non-stationary inter-instrument installation of electrical devices operating at rated alternating voltage up to 660 V, frequencies up to 400 Hz or constant voltage up to 1000 B, for connecting sensors, actuators, industrial controllers, incl. with a digital frequency-modulated signal, for the formation of industrial networks according to the HART, PROFINET, FOUN-DATION FIELDBUS, PROFIBUS, MODBUS protocols according to ANSI / TIA / EIA-422 (RS-422), RS-485, RS-482 or other interfaces requiring the use of “twisted pair” as a channel for receiving / transmitting data, for the formation of information field buses and other industrial automation systems, for laying outdoors, on racks in boxes and trays, in rooms, channels, tunnels and other cable structures, trenches (ground) in the absence of mechanical danger resulting damage, including in places exposed to stray currents, in fire hazardous and explosive zones of classes 0; one; 2; twenty; 21:22; IN 1; B-1 (a-d); V-2 (according to GOST Ρ 51330.13-99; GOST Ρ IEC 60079-14-2008 and ΠУЭ), for laying cable lines using explosion protection of the type "intrinsically safe electrical circuit i" according to GOST Ρ 51330.10-99 with a rated alternating voltage of 250 V frequency up to 100 Hz or with a constant voltage of 375 V. for organizing loops and connecting lines for fire and security alarm systems, including for control systems for automatic fire extinguishing installations, warning systems, smoke removal systems, and other engineering fire safety systems for objects and security x systems.

Known electrical installation cable [patent RU No. 35037 U1, IPC ⁷ H01B 11/00, 09/16/2003] containing conductive cores coated with insulation from PVC compound. the screen and the sheath are made of PVC plastic that does not spread combustion.

The disadvantage of this technical solution is the low resistance of the cable to the action of high and low temperatures, as well as insufficiently high dielectric characteristics.

Known electrical installation cable [patent RU No. 28407, IPC ⁷ H01B 11/18, 11/22/2002] containing pairs of conductive conductors with insulation made of PVC compound, a screen, a tape winding from a polyethylene terephthalate film laid under the screen, and a sheath of Combustion-free PVC compound, with the pairs twisted into a core. Each of the cores is single-wire or multi-wire, and the wires are made of tinned copper.

The disadvantage of this technical solution is the low resistance of the cable to the action of high and low temperatures, as well as insufficiently high dielectric characteristics.

Known electrical cable (options) [patent RU No. 49345 U1, IPC ⁷ НВВ 7/29, 01/24/2005], containing one or more conductive cores of copper wires with insulation from a polymeric material, a polyethylene terephthalate film, laid under the screen in the form of a braid from copper wires and sheaths made of PVC compound, characterized in that the core insulation is made of a self-extinguishing polyolefin composition;

- an electric cable (option 2), contains pairs of conductive conductors made of copper wires with insulation from a self-extinguishing polyolefin composition, each of which is a single-wire or multi-wire, polyethylene terephthalate film under a sheath of PVC compound;

- an electric cable (option 3), contains twisted-pair conductive cores of copper wires with insulation from a self-extinguishing polyolefin composition, each of which is a single-wire or multi-wire, polyethylene terephthalate film laid under the screen and a sheath made of PVC compound;

- an electric cable (option 4), contains pairs of conductive conductors made of copper wires, insulated from a self-extinguishing polyolefin composition, placed under the screen in the form of a braid of copper wires, each of which is a single-wire or multi-wire, polyethylene terephthalate film and PVC sheath - plastic;

- an electric cable (option 5), contains pairs of conductive conductors made of copper wires with insulation from a self-extinguishing polyolefin composition, each of which is single-wire or multi-wire, armor made of steel galvanized wires, polyethylene terephthalate film under the armor, sheath made of PVC plastic, additional polyethylene terephthalate film under an additional shell of PVC compound;

- an electric cable (option 6), contains pairs of conductive conductors made of copper wires with insulation from a self-extinguishing polyolefin composition, each of which is single-wire or multi-wire, an additional polyethylene terephthalate film, laid under the screen in the form of a braid of copper wires, on which is superimposed additional sheath made of PVC compound, polyethylene terephthalate film under the armor of galvanized steel wires and sheath made of PVC compound;

- an electric cable (option 7), contains pairs of conductive conductors made of copper wires with insulation of a self-extinguishing polyolefin composition, placed under the screen in the form of a braid of copper wires, each of which is single-wire or multi-wire, an additional polyethylene terephthalate film, on which is applied additional sheath made of PVC compound, polyethylene terephthalate film under the armor of galvanized steel wires and sheath made of PVC compound;

- conductive conductors made of copper conductors made of copper wires with insulation are twisted into a core;

- copper wire cores may be tinned;

- instead of a polyethylene terephthalate film, a mica tape can be laid.

The disadvantage of this technical solution is the insufficiently high resistance of the cable to high and low temperatures, aggressive environments, as well as low noise immunity, which limits the scope and life of the cable.

The technical problem to which the claimed utility model is directed is to improve cable performance by increasing cable fire resistance, resistance to bending, elongation and impact, which provides an extension of the range of cables produced, and. as a result, the expansion of their areas of application while increasing the cable service life.

The problem is solved (option 1) by an electric cable containing one or more conductive cores of copper wires with insulation from a polymeric material, a polyethylene terephthalate film, laid under the screen in the form of a braid of copper wires and a sheath of PVC compound, characterized in that the insulation of the cores made of flame retardant organosilicon ceramic-forming mixture.

The problem is solved (option 2) with an electric cable containing pairs of conductive conductors made of copper wires with insulation, a polyethylene terephthalate film under a sheath made of PVC plastic, characterized in that the insulation of the conductors is made of a flame-retardant organosilicon mixture.

The problem is solved (option 3) with an electric cable containing pairs of conductive conductors made of copper wires with insulation, a polyethylene terephthalate film laid under the screen and a sheath made of PVC compound, characterized in that the core insulation is made of flame-retardant organosilicon mixture.

The problem is solved (option 4) with an electric cable containing pairs of conductive conductors made of copper wires, insulated, placed under the screen in the form of a braid of copper wires, a polyethylene terephthalate film and a sheath made of PVC compound, characterized in that the insulation of the conductors is made of fire-resistant organosilicon keramoobrazuyuschey mixture.

The problem is solved (option 5) with an electric cable containing pairs of conductive conductors made of copper wires with insulation, armor made of galvanized steel wires, polyethylene terephthalate film under armor, a sheath of PVC compound, an additional polyethylene terephthalate film under an additional sheath of PVC compound, characterized in that the core insulation is made of a flame retardant organosilicon ceramic-forming mixture.

The task is solved (option 6) with an electric cable containing pairs of conductive conductors made of copper wires with insulation, an additional polyethylene terephthalate film, laid under the screen in the form of a braid of copper wires, on which an additional sheath of PVC plastic is applied, a polyethylene terephthalate film under the armor galvanized steel wires and a sheath made of PVC compound, characterized in that the insulation of the cores is made of fire-resistant organosilicon ceramic mixture.

The problem is solved (option 7) with an electric cable containing conductive conductors made of copper wires with insulation twisted in pairs, placed under the screen in the form of a braid of copper wires, an additional polyethylene terephthalate film, on which an additional sheath of PVC plastic is applied, a polyethylene terephthalate film under the armor galvanized steel wires and sheath made of PVC compound. characterized in that the core insulation is made of a flame retardant organosilicon ceramic-forming mixture.

The problem is solved (option 8) with an electric cable, containing conductive conductors made of copper wires with insulation twisted in pairs, placed under the screen in the form of a braid of copper wires, an additional polyethylene terephthalate film, on which a sheath of PVC plastic is applied, a polyethylene terephthalate film under the armor of galvanized steel wires and sheath made of PVC compound, characterized in that it additionally contains a screen made of foil composite material under the armor, a ground wire on it, on m screen in the form of a braid, thereon a mica tape on the basis of self-extinguishing insulation waist polymeric material, the armor samozatuhyuschego shell of polymeric material and core insulation is made of fire-resistant ceramic-silicone mixtures.

At the same time, according to all versions, each of the cores is single-wire or multi-wire,

At the same time, according to all variants of execution, conductive conductors twisted in pairs from copper wires with insulation are twisted into a core.

At the same time, in all versions, the copper wires of the cores can be tinned, and the insulation of the cores in a pair can vary in color.

In addition, instead of a polyethylene terephthalate film, a mica tape may be laid.

Figure 1 shows an option 1 of an electric cable.

Figure 2 presents option 2 of the electric cable.

Figure 3 presents an option 3 of an electric cable.

Figure 4 presents an option 4 of an electric cable.

5 shows an embodiment 5 of an electric cable.

Figure 6 presents the option 6 of the electric cable.

7 shows an embodiment 7 of an electric cable.

On Fig presents a variant 8 of the electric cable.

Option 1. The electric cable contains conductive conductors 1 of copper wires with insulation 2 of a flame-retardant organosilicon ceramic mixture, each of which 1 is single-wire or multi-wire. Conductors 1 with insulation 2 are twisted into a core, on which a polyethylene terephthalate film 3 is applied, over which a screen 4 in the form of a braid of copper wires and a sheath 5 of PVC compound are applied.

Option 2. The electric cable contains conductive conductors 1 of copper wires with insulation 2 of a flame-retardant organosilicon ceramic mixture, each of which 1 is single-wire or multi-wire. Conductors 1 with insulation 2 are twisted in pairs. The pairs of conductive conductors are twisted into a core, on which a polyethylene terephthalate film 3 is applied, over which a sheath 5 of PVC compound is applied.

Option 3. The electric cable contains conductive conductors 1 of copper wire with insulation 2 of a flame-retardant organosilicon ceramic mixture, each of the conductors 1 is single-wire or multi-wire. Conductors 1 with insulation 2 are twisted in pairs. The pairs of conductive conductors are twisted into a core, on which a polyethylene terephthalate film 3 is applied, over which a screen 4 in the form of a braid of copper wires and a sheath 5 of PVC compound are applied.

Option 4. The electric cable contains conductive conductors 1 of copper wires, with insulation 2 of a flame-retardant organosilicon ceramic mixture, each of which is single-wire or multi-wire. Conductors 1 with insulation 2 are twisted into pairs, on which a screen 4 is applied in the form of a braid of copper wires. The shielded pairs are twisted into a core, on which a polyethylene terephthalate film 3 and a sheath 5 of PVC compound are applied;

Option 5. The electric cable contains conductive conductors 1 of copper wire with insulation 2 of a flame retardant organosilicon ceramic mixture, each of which is single-wire or multi-wire. Conductors 1 with insulation 2 are twisted in pairs. The pairs of conductive conductors are twisted into a core, on which a polyethylene terephthalate film 3 is applied, over which a sheath 5 of PVC compound and an additional polyethylene terephthalate film 6 are applied, on which an armor 7 of galvanized steel wires and an outer sheath 8 of PVC compound are respectively applied.

Option 6. The electric cable contains conductive conductors 1 of copper wire with insulation 2 of a flame-retardant organosilicon ceramic mixture, each of which 1 is single-wire or multi-wire. Conductors 1 with insulation 2 are twisted in pairs. Pairs of conductive wires are twisted into a core, on which a polyethylene terephthalate film 3 and a screen 4 in the form of a braid of copper wires are superimposed. On the screen 4, a sheath 5 of PVC compound and an additional polyethylene terephthalate film 6 are applied, on which an armor 7 of galvanized steel wires and an outer sheath 8 of PVC compound are respectively applied.

Option 7. The electric cable contains conductive conductors 1 of copper wire with insulation 2 of a flame-retardant organosilicon ceramic mixture, each of which is single-wire or multi-wire. Conducting conductors 1 with insulation 2 are twisted into pairs, pairs are twisted into a core, on which a polyethylene terephthalate film 3 is applied, and a screen 4 in the form of a braid of copper wires is applied to pairs of twisted conductors 1. On the polyethylene terephthalate film 3, a sheath 5 of PVC compound is applied. An additional polyethylene terephthalate film 6, an armor 7 of galvanized steel wires and an outer sheath 8 of PVC compound are respectively applied to the sheath 5 of PVC compound.

Option 8. The electric cable contains conductive conductors 1 of copper wire with insulation 2 of a flame-retardant organosilicon ceramic mixture, each of which is single-wire or multi-wire. Conductors 1 with insulation 2 are twisted in pairs, on which a polyethylene terephthalate film 3 is laid and a screen 4 is applied in the form of a braid of copper wires. Shielded pairs of conductive wires are twisted into a core. The cable contains a sheath 5 of self-extinguishing polymer material, an armor 7 of galvanized steel wires and an outer sheath 8 of PVC compound. Under the sheath 5, a fire-resistant tape is laid on the mica base 9, under which a shielding braid 10 is laid, an earth wire 11 is laid under it, a screen 12 made of foil composite material is laid under it, a water blocking element 13 is laid, applied directly to the core from twisted pairs of current-carrying lived 1.

Copper wire cores 1 may be tinned.

Instead of a polyethylene terephthalate film, a mica tape can be laid.

Screens 4 and 10 are made in the form of a braid from tinned copper or copper tinned wires.

The cable used PET-E polyethylene terephthalate film or Elmicatex brand mica tape.

The table shows the comparative characteristics of cables with insulation of conductive conductors made of PVC compound and fire-resistant organosilicon ceramic mixture.

№№ Parameter Patent 49345 (MKPS cable) KPM cable

one Conductor cross section, mm ² 0.35-4.0 0.20-6.0 Nomenclature extension 2 Number of cores, pairs, triples, quadruples in cable 1-37 1-65 Expansion of a number of nomenclature, by increasing the number of cores, expanding areas of use 3 Insulation material for cables with the indices "ng (A) -FRLS", "ng (A) -FRHF" Fire-resistant self-extinguishing polymer material - after combustion becomes conductive, which leads to cable inoperability Fire-resistant organosilicon keramoobrazuyuschey mixture - maintains cable performance after burning the sheath. four Cable resistance to elevated temperature, ° C: - heat resistant performance; +110 +125 - with the indices "ng (A) -FRLS", "ng (A) -FRHF", "ng (A) -HF"; +110 +110 - other cables +70 +80 Performance improvement 5 Mechanical requirements for insulation and cable sheathing at low temperature are absent - The insulation and sheath of the cables are resistant to bending at a temperature of minus 60 ° C for cables in the performance of HL are cold-resistant and at a temperature of minus 50 ° C - for other cables. - The insulation and sheath of the cables are resistant to impact at a temperature of minus 60 ° C for cables in the CL version and at a temperature of minus 50 ° C for other cables. - cable sheath

resistant to elongation at a temperature of minus 60 ° C for cables in the performance of CL, and at a temperature of minus 50 ° C - for other cables .. As during installation, also during operation 6 Cable life 30 years 35 years

In the claimed electric cable due to the expansion of a number of sections of conductive cable conductors, it is possible to expand a number of the range of products, with an increase in the number of wires in the cable, which simultaneously expands the field of use.

Due to the insulation of the cable conductors made of a fire-resistant organosilicon ceramic mixture, the cable resistance to increased temperatures is increased.

The insulation and sheath of the cables from the flame-retardant organosilicon ceramic-forming mixture gained bending resistance at a temperature of minus 60 ° C for cables in the CL version (cold-resistant) and at a temperature of minus 50 ° C for the remaining cables.

The insulation and sheath of the cables from the flame-retardant organosilicon-ceramic mixture formed shock resistance at a temperature of minus 60 ° C for cables in the CL version and at a temperature of minus 50 ° C for the remaining cables.

The cable sheath made of flame-retardant organosilicon-ceramic mixture has gained resistance to elongation at a temperature of minus 60 ° C for cables in the design of CL, and at a temperature of minus 50 ° C for the remaining cables.

From the above Table it follows that an electric cable with insulation of conductive wires from a flame-retardant organosilicon ceramic mixture has improved performance compared to an electric cable with insulation of conductive wires from a self-extinguishing polyolefin composition, in particular, an increased electrical insulation resistance of conductive conductors, i.e., improved dielectric insulation characteristics conductors, high resistance to low and high t temperatures, while maintaining the ability to self-extinguishing (or non-propagation of combustion), increased resistance to elongation, which increases the service life of the cable.

All of the above advantages of the cable over the closest solution - the prototype, creates the prerequisites for expanding the range of products and expanding the scope.

The authors of patent and scientific and technical sources do not know the signs of the claimed technical solution, which allows us to conclude that the criterion of novelty is met.

Claims (12)

1. The electric cable contains conductive conductors made of copper wires with insulation, on which a polyethylene terephthalate film is applied, over which a sheath of PVC compound is applied, characterized in that the insulation of the conductors is made of a fire-resistant organosilicon ceramic mixture. 2. An electric cable containing pairs of conductive conductors made of copper wires with insulation, on which a polyethylene terephthalate film is applied, over which a sheath of PVC plastic is applied, characterized in that the insulation of the conductors is made of a flame-retardant organosilicon mixture. 3. An electric cable containing pairs of conductive conductors made of copper wires with insulation, a polyethylene terephthalate film laid under the screen, and a sheath of PVC plastic, characterized in that the insulation of the conductors is made of a fire-resistant organosilicon ceramic mixture. 4. An electric cable containing pairs of conductive conductors made of copper wires, with insulation, placed under the screen in the form of a braid of copper wires, a polyethylene terephthalate film and a sheath of PVC plastic compound, characterized in that the insulation of the conductors is made of flame-retardant organosilicon ceramic mixture. 5. An electric cable containing pairs of conductive conductors made of copper wires with insulation, armor made of galvanized steel wires, a polyethylene terephthalate film under the armor, a sheath of PVC compound, an additional polyethylene terephthalate film under an additional sheath of PVC compound, characterized in that the insulation the veins are made of fire-resistant organosilicon ceramic-forming mixture. 6. An electric cable containing pairs of conductive conductors made of copper wires with insulation, an additional polyethylene terephthalate film laid under the screen in the form of a braid of copper wires, on which an additional sheath of PVC plastic is applied, a polyethylene terephthalate film under the armor of galvanized steel wires and PVC plastic sheath, characterized in that the core insulation is made of a flame retardant organosilicon ceramic mixture. 7. An electric cable containing conductive conductors made of copper wires with insulation twisted into pairs, placed under the screen in the form of a braid of copper wires, an additional polyethylene terephthalate film, on which an additional sheath of PVC plastic is applied, a polyethylene terephthalate film under the armor of galvanized steel wires and a sheath PVC compound, characterized in that the insulation of the cores is made of a flame retardant organosilicon ceramic-forming mixture. 8. An electric cable containing pairs of conductive conductors made of copper wires with insulation, placed under the screen in the form of a braid of copper wires, an additional sheath of PVC compound under the armor and an outer sheath of self-extinguishing polymer material, characterized in that the conductive conductors are coated with a film layer placed under the screen, the core insulation is made of a flame-retardant organosilicon ceramic-forming mixture, pairs of conductive wires twisted into a core are covered with a water-repellent layer on which a screen made of foil composite material, shielding the braid, a ground wire was laid between the two screens, the screen braid is covered with a fire-resistant tape on a mica basis. 9. Electric cable according to claims 1-8, characterized in that each of the cores is single-wire or multi-wire. 10. An electric cable according to claims 1 to 8, characterized in that the conductive conductors twisted into pairs of copper wires with insulation are twisted into a core. 11. Electric cable according to claims 1 to 7, characterized in that the copper wires of the cores can be tinned. 12. Electric cable according to claims 1, 3, 4, 6-8, characterized in that the screen is made in the form of a braid of copper and / or tinned copper wires.

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