RU2642419C1 - Electric multicore cable - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: electric multicore cable refers to electrical engineering and designed for industrial data networks, control stations, signalling, etc. In electrical multicore cable, containing a core of twisted copper or copper tinplated conductors covered with insulation, or of twisted concentric layers, in turn, twisted in pairs, threes or fours of copper or copper tinplated conductors covered with insulation, on top of which wrapping, collective screen and protective covering are consistently imposed, and inner covering is superimposed between the collective screen and protective covering, the collective screen is executed in the form of a winding of alumopolymer tape with contact multiwire tinplated copper conductor or as braiding of copper wires, or tinplated copper wires with coefficient of surface density not less than 75%, or in the form of a winding of alumopolymer tape, or combined material based on aluminium foil.

EFFECT: increase the cable resistance to aggressive environments, as well as its noise immunity.

24 cl, 4 dwg

Description

The invention relates to electrical engineering, in particular to multi-core electric cables intended for industrial data networks, control stations, alarm systems, control, regulation of electronic equipment, automation systems, for the installation of electrical installations, etc., operating at rated alternating voltage up to 660 V inclusively, with a frequency of up to 400 Hz or a constant voltage of up to 1000 V. The invention will expand the scope and improve the performance of the cable, due to the reliability of its operation.

Known electric multicore cable according to the patent of the Russian Federation No. 411914 for utility model dated 05.08.2004, MPK7 НВВ 7/04, МПК7 Н01В 11/00. This multicore electric cable is a core consisting of twisted insulated conductive cores. Core wires can be made of copper, aluminum, various metal alloys, etc. The conductors of this cable are coated with a current-insulating material. A protective element in the form of a screen or a layer of synthetic material is sequentially applied over the core. The screen can be made wire, in the form of a braid or in the form of a winding of a metal tape or foil polymer film and serves to protect against electrical interference. A layer of synthetic material is wrapped around the core or laid longitudinally over the core. On top of the element (a screen or a layer of synthetic material), an inner layer is located, which is a filling based on polyvinyl chloride plastic compound and then an outer shell is applied. The element protects the core from sticking of the inner layer. The inner layer - filling consists of a composition based on polyvinyl chloride plastic compound, contains in the ratio the following components, in parts by weight:

PVC composition one hundred Polyethylene 2-25 Savilen 5-40 Talc or chalk 150-250

The inner layer - filling is a shock-absorbing layer, significantly increases the strength of the cable, its operational reliability, gives it a rounded, convenient shape, improves the presentation. The presence of a screen or layer of synthetic material increases the strength of the cable and eliminates adhesion, i.e. adhesion of the aggregate to the core, which increases its performance during installation. But this cable has drawbacks, which include low noise immunity, high attenuation of signals, as well as the limited scope of the cable of this design.

The above disadvantages were partially eliminated in an electric multicore cable according to the patent of the Russian Federation No. 599879 for utility model dated 04/20/2006, IPK7 Н01В 7/04. This cable is intended for industrial automation, and it is the set of essential features is the closest analogue to the claimed invention, i.e. is a prototype. This cable contains a core that consists of two, three or four insulated conductive wires twisted into groups. On top of the core are belt insulation, an electric screen, a polymer aggregate and a protective sheath. The insulated conductive conductors are twisted together in groups with a twisting step of not more than 100 D, where D is the largest diameter of the insulated conductors in the group, and the groups are twisted together in the core by concentric twists or bundle twisting. The belt insulation is made of synthetic film or extruded from a polymer material. The cross-sectional area of the conductive conductors in the cable has values in mm ² : 0.35, or 0.5, or 0.75, or 1.0, or 1.2, or 1.5, or 2.5, or 4.0. But this cable also has one important drawback, namely, low oil and petrol resistance, as well as low resistance to ultraviolet rays, which limits the scope of the cable in the oil refining, oil production, transportation, engineering and shipbuilding industries, as well as in other industries. In addition, the prototype cable has low reliability due to its instability to interference from both external and internal electromagnetic or electrostatic disturbances.

The task posed by the author of the development was the creation of such a cable, which would expand the scope of its application by increasing oil and petrol resistance and increasing resistance to ultraviolet rays. Also, the task set by the author of the development was to increase the reliability of the cable, by giving it greater resistance to interference, both external and internal. The technical result achieved in solving the problem was to increase the resistance of the cable to aggressive environments, that is, to such environments in which there is gasoline, oil, various oils, etc., as well as environments in which there is an increased amount of ultraviolet rays, aggressively affecting the cable. At the same time, the technical result was an increase in the noise immunity of the cable from both internal and external electromagnetic or electrostatic disturbances.

The essence of the claimed invention lies in the fact that in an electric multicore cable containing a core of twisted copper or copper tinned conductive conductors coated with insulation, or of twisted concentric twigs, in turn twisted into pairs, three or four tinned copper or copper conductive conductors coated with insulation, on top of which a belt insulation, a common screen and a protective shell are sequentially applied, between the common screen and the protective shell, an inner shell is applied, the common screen is made in the form of a winding of aluminum-polymer tape with a contact tinned copper stranded conductor or as a braid of copper wires or tinned copper wires with a surface density coefficient of at least 75%, or as a winding of aluminum-polymer tape, or a combined material based on aluminum foil, applied a metal layer to the core with a contact conductor admission and a tinned copper braid with a surface density coefficient of at least 60%, and the protective sheath is made of polymer composition, and the pitch of twisting the conductive conductors in pairs, three or four is no more than 16 D, where D is the diameter of the circumference of the insulated conductive core in millimeters.

In addition, the essence of the claimed invention lies in the fact that in an electric multicore cable, the cross-sectional areas of the conductive conductors are from 0.2 to 6.0 mm ² .

However, the essence of the claimed invention lies in the fact that in an electric multicore cable, the inner sheath of the cable is made in the form of an extruded substrate.

Also, the essence of the claimed invention lies in the fact that in an electric multicore cable, the protective sheath is made of a halogen-free compound.

In addition, the essence of the claimed invention lies in the fact that in an electric multicore cable, the protective sheath is made of an oil and petrol resistant polymer composition.

However, the essence of the claimed invention lies in the fact that in an electric multicore cable, the protective sheath is made of polyvinyl chloride plastic compound.

Also, the essence of the claimed invention lies in the fact that in an electric multicore cable, the insulation of conductive conductors is made of a crosslinkable polyolefin composition.

In addition, the essence of the claimed invention lies in the fact that in an electric multicore cable, the insulation of conductive conductors is made of silicone rubber.

However, the essence of the claimed invention lies in the fact that in an electric multicore cable, the insulation of conductive conductors is made in a combination of an inner layer, in the form of a spiral winding of one or two mica-containing tapes with overlapping and an outer layer of a polymer composition.

Also, the essence of the claimed invention lies in the fact that in the electric multicore cable over the conductive conductors and / or conductive conductors twisted in pairs, or triples, or fours, a screen is applied, in the form of a winding from an aluminum-polymer tape with a tinned copper contact multi-wire conductor.

In addition, the essence of the claimed invention lies in the fact that in an electric multicore cable over conductive conductors and / or conductive conductors twisted in pairs or triples or fours, an individual screen is applied in the form of a braid of copper wires or tinned copper wires with a surface coefficient density not less than 75%.

However, the essence of the claimed invention lies in the fact that in a multicore electric cable under an individual screen of conductive wires or groups of tinned copper or copper wires, a winding of a polyethylene terephthalate film with a positive overlap is applied.

Also, the essence of the claimed invention lies in the fact that in an electric multicore cable, individually shielded cores are coated with belt insulation from a polymer film or a polymer composition made by extrusion.

In addition, the essence of the claimed invention lies in the fact that in an electric multicore cable, individually shielded groups are coated with belt insulation from a polymer film or a polymer composition made by extrusion.

However, the essence of the claimed invention lies in the fact that in an electric multicore cable, a water blocking bandage is applied over the core in the form of a winding with one or two tapes of water blocking material.

Also, the essence of the claimed invention lies in the fact that in the electric multicore cable in the intervals between the twisting elements of copper or copper tinned veins, bundles of non-hygroscopic fibrous or polymeric material are introduced, or bundles pressed out of a polymeric material.

In addition, the essence of the claimed invention lies in the fact that the electric multicore cable is provided with armor over the inner sheath in the form of a continuous coil of galvanized steel wires.

However, the essence of the claimed invention lies in the fact that the electric multicore cable is provided with armor over the inner extruded substrate in the form of a braid of galvanized steel wires.

Also, the essence of the claimed invention lies in the fact that the electric multicore cable is provided with armor on top of the internal extruded substrate in the form of two galvanized steel strips imposed in a spiral.

In addition, the essence of the claimed invention lies in the fact that the electric multicore cable is equipped with a flexible heater.

In addition, the essence of the claimed invention lies in the fact that in an electric multicore cable, the conductive conductors are made of copper single-wire.

However, the essence of the claimed invention lies in the fact that in an electric multicore cable, the conductive wires are made of tinned copper single-wire.

Also, the essence of the claimed invention lies in the fact that in an electric multicore cable, the conductive conductors are made of copper multi-wire.

In addition, the essence of the claimed invention lies in the fact that in an electric multicore cable, the conductive conductors are made of tinned copper multi-wire.

The invention is illustrated by two specific examples of the cable, presented graphically, where:

in FIG. 1 shows one example of an electric multicore cable with a core made in the form of twisted together conductive cores coated with polymer insulation;

in FIG. 2 shows the same specific example of an electric multicore cable with a core made in the form of twisted together conductive cores coated with polymer insulation with additional elements;

in FIG. 3 shows a second specific example of an electric multicore cable with a core made in the form of twisted concentric layers between each other, in turn twisted into pairs or triples, or four conductive conductors coated with polymer insulation;

in FIG. 4 shows a second specific example of an electric multicore cable with a core made in the form of twisted concentric layers between each other, in turn twisted into pairs or triples, or four conductive conductors coated with polymer insulation, with additional elements.

In a first specific example, the multi-core electric cable shown in FIG. 1, contains a core made in the form of a general twist of single-wire or multi-wire copper or tinned copper conductive conductors 1. Conducting conductors 1 are coated with polymer insulation 2. The insulation material 2 of conductive conductors 1 are polymer compositions. In this case, the polymer composition is a polyvinyl chloride plasticate. Belt insulation 3 is applied over the core. Belt insulation 3 is made in the form of a bandage by winding from a polymer film, preferably from a polyethylene terephthalate film. A common screen 4 is superimposed on top of the belt insulation. The general screen 4 is made in the form of a winding made of aluminum-polymer tape with a tinned copper contact wire or as a braid of copper wires, or tinned copper wires with a surface density of at least 75%, or in the form of a winding of aluminum-polymer tape or a combined material based on aluminum foil, metal-coated to the core with a contact conductor admission and tinned copper braid with a surface coefficient of lots of at least 60%. On top of the common screen 4, an inner shell 5 is applied. The inner shell 5 is extruded and is an extruded substrate of a polymeric material. A protective shell 6 is applied over the inner shell 5. The protective shell 6 is made of a polymer composition resistant to the effects of hydrocarbons, including:

- from oil and petrol-resistant PVC compound of reduced fire hazard manufactured by Cabopol, Portugal;

- from oil and petrol resistant PVC compound of reduced fire hazard and increased cold resistance of the Lowgran 23513 brand or the Lowgran 23514 brand;

- from oil and petrol resistant PVC compound of reduced fire hazard and increased cold resistance manufactured by Cabopol, Portugal;

- from oil and petrol-resistant halogen-free compound of the brand "Melos", Germany;

- from oil and gas resistant, with high thermal and water resistance of a halogen-free compound manufactured by Condor compounds, Germany;

- from oil and petrol resistant, with high thermal and water resistance, halogen-free polymer compositions manufactured by LA.M.PLAST, Italy;

- from oil and petrol resistant, with high thermal and water resistance, halogen-free polymer compositions manufactured by CROSSPOLIMERI, Italy.

The inventive multi-core electric cable of the first example may also be made as shown in FIG. 2. It may additionally contain an individual screen of conductive conductors 7. The individual screen of conductive conductors 7 is made in the form of a winding made of aluminum-polymer tape with a contact tinned stranded wire or in the form of a braid of copper wires or tinned copper wires with a surface density coefficient of at least 75%. Additionally, the cable may contain, on top of individual screens, a belt insulation of conductive wires 8. The belt insulation of conductive wires 8 is made of a polymer composition or a polymer film. It may further comprise bundles 9 between bundles. The bundles 9 are made of a non-absorbent fibrous or polymeric material. Also, the bundles 9 can be made of extruded polymer material. The cable may contain combined insulation of conductive conductors 10. Combined insulation of conductive conductors 10 is made of an inner layer in the form of a spiral winding of one or two mica-containing tapes with overlapping and an outer layer of a polymer composition. The cable may further comprise a water blocking bandage 11.

The water blocking bandage 11 is made in the form of a winding with one or two tapes of water blocking material. Also, the cable can additionally be reinforced with armor 12. Armor 12 is made of galvanized steel wires or tapes. Also, the cable may additionally contain a flexible heater 13. The flexible heater 13 is made, for example, according to the zone-resistive type, and contains two multiwire conductive tinned copper cores 14, an insulation coating of organosilicon rubber 15 and a heating conductor 16 made in the form of a braid made of constantan wire coated with a protective shell 17 of silicone rubber.

In a second example, the multi-core electric cable shown in FIG. 3, contains a core made in the form of twisted concentric coils, in turn twisted into pairs, or triples, or fours of single-wire or multi-wire copper or copper tinned conductive conductors 1. Conducting conductors 1 are coated with polymer insulation 2. Insulation material 2 conductive conductors 1 are polymer compositions. In this case, the polymer composition is a polyvinyl chloride plasticate. Belt insulation 3 is applied over the core. Belt insulation 3 is made in the form of a bandage by winding from a polymer film, preferably from a polyethylene terephthalate film. A common screen 4 is superimposed on top of the belt insulation. The common screen 4 is made in the form of a winding of aluminum-polymer tape with a contact tinned copper stranded conductor or as a braid of copper wires or tinned copper wires with a surface density coefficient of at least 75%, or in the form of a winding of aluminum-polymer tape or a combination material based on aluminum foil overlaid with a metal layer to the core with a contact conductor admission and tinned copper braid with a surface coefficient of otnostitsja not less than 60%. On top of the common screen 4, an inner shell 5 is applied. The inner shell 5 is extruded and is an extruded substrate of a polymeric material. A protective shell 6 is applied over the inner shell 5. The protective shell 6 is made of a polymer composition resistant to the effects of hydrocarbons, including:

- from oil and petrol-resistant PVC compound of reduced fire hazard manufactured by Cabopol Portugal;

- from oil and petrol resistant PVC compound of reduced fire hazard and increased cold resistance of the Lowgran 23513 brand or the Lowgran 23514 brand;

- from oil and petrol resistant PVC compound of reduced fire hazard and increased cold resistance manufactured by Cabopol Portugal;

- from oil and petrol-resistant halogen-free compound of the brand "Melos" Germany;

- from oil and petrol resistant, with high thermal and water resistance of a halogen-free compound manufactured by Condor compounds Germany;

- from oil and petrol resistant, with high thermal and water resistance, halogen-free polymer compositions manufactured by LA.M.PLAST Italy;

from oil and petrol resistant, with high thermal and water resistance, halogen-free polymer compositions manufactured by CROSSPOLIMERI Italy.

Also, the inventive multi-core electric cable according to the second example can be made as shown in FIG. 4. It may additionally contain individual screens of groups of conductive conductors 7. Individual screens of groups of conductive conductors 7 are made in the form of a winding made of aluminum-polymer tape with a contact tinned copper multi-wire conductor or in the form of a braid made of copper wires or tinned copper wires with a surface density coefficient of at least 75 % Additionally, the cable may contain belt insulation 8 over the individually shielded groups. The belt insulation of the individually shielded groups 8 is made of a polymer composition or a polymer film. The cable may additionally contain between the twisting elements of the bundles bundles 9. The bundles 9 are made of non-absorbent fibrous or polymeric material. Also, the bundles 9 can be made of extruded polymer material. The cable may contain combined insulation of conductive conductors 10. Combined insulation of conductive conductors 10 is made of an inner layer in the form of a spiral winding of one or two mica-containing tapes with overlapping and an outer layer of a polymer composition. The cable may further comprise a water blocking band 11. The water blocking band 11 is made in the form of a winding with one or two tapes of water blocking material. Also, the cable can additionally be reinforced with armor 12. Armor 12 is made of galvanized steel wires or tapes. Also, the cable may additionally contain a flexible heater 13. The flexible heater 13 is made, for example, according to the zone-resistive type, and contains two multiwire conductive copper tinned veins 14, an insulation coating of organosilicon rubber 15 and a heating conductor 16 made in the form of a braid from constantan wire, covered with a protective shell 17 of silicone rubber.

The following is information confirming the industrial applicability of the invention. The materials from which electric multicore cable is made are widely produced by both domestic and foreign manufacturers and comply with the approved regulatory and technical documentation for them. Water-blocking elements are widely used in the cable industry. They are made from synthetic materials that can absorb moisture. Due to the increase in volume, usually 4 or more times these materials prevent further penetration of moisture inside the cable. Cable manufacturing is carried out on standard technological equipment using standard technological processes. Cable manufacturing technology is based on the use of industrial cable equipment and is as follows:

- conductive conductors are insulated with polymer insulation on an extrusion line;

- insulated cores are twisted into groups, in turn, twisted into a core on a torsion machine of a frame or lamp type;

- the imposition of belt insulation of individually shielded cores or groups, the inner shell and the protective shell on the extrusion line.

- armor is imposed on an armored car.

The proposed multicore electric cable has increased oil and gas resistance and increased resistance to ultraviolet rays, which allows us to expand the scope of the cable in industries such as oil production, oil refining, transportation, engineering, metallurgy, metalworking, and shipbuilding. In addition, the use of a flexible heater in the cable will allow its use, as well as installation at low temperatures. However, as shown by laboratory studies of the claimed cable, its overall noise immunity, both from external and internal interference, was increased. The cable can be used in industrial data transmission networks, control stations, signaling, control, regulation of electronic equipment, automation systems, for the installation of electrical installations, etc.

Claims (24)

1. An electric multicore cable containing a core of twisted copper or tinned copper conductive conductors coated with insulation, or of twisted concentric twigs, in turn twisted into pairs, three or four of tinned copper or copper conductive conductors coated with insulation, on top of which in series belt insulation, a common screen and a protective shell are applied, characterized in that an inner shell is applied between the common screen and the protective shell, the common screen is made in the form of a winding of aluminum polymer tape with a contact tinned copper stranded conductor or in the form of a braid of copper wires, or tinned copper wires with a surface density coefficient of at least 75%, or in the form of a winding of aluminum-polymer tape or a combination material based on aluminum foil, overlaid with a metal layer contact conductor and tinned copper braid with a coefficient of surface density of at least 60%, and the pitch of the conductive conductors in pairs, three or four is not more e 16 D, where D - diameter of the insulated conductor circumference in millimeters. 2. Electric stranded cable according to claim 1, characterized in that the cross-sectional area of the conductive conductors is from 0.2 to 6.0 mm ² . 3. Electric multicore cable according to claim 1, characterized in that the inner sheath of the cable is made in the form of an extruded substrate. 4. An electric multicore cable according to claim 1, characterized in that the protective sheath is made of a halogen-free compound. 5. An electric multicore cable according to claim 1, characterized in that the protective sheath is made of an oil and petrol resistant polymer composition. 6. An electric multicore cable according to claim 1, characterized in that the protective sheath is made of polyvinyl chloride plastic compound. 7. An electric multicore cable according to claim 1, characterized in that the insulation of the conductive conductors is made of a crosslinkable polyolefin composition. 8. An electric multicore cable according to claim 1, characterized in that the insulation of the conductive conductors is made of silicone rubber. 9. An electric multicore cable according to claim 1, characterized in that the insulation of the conductive conductors is made in a combination consisting of an inner layer, in the form of a spiral winding of one or two mica-containing tapes with overlapping and an outer layer of a polymer composition. 10. An electric multicore cable according to claim 1, characterized in that over the conductive conductors and / or conductive conductors twisted in pairs or triples or fours, a screen is applied in the form of a winding of aluminum-polymer tape with a contact tinned copper stranded conductor. 11. An electric multicore cable according to claim 1, characterized in that over the conductive conductors and / or conductive conductors twisted into pairs or triples or fours, an individual shield is applied in the form of a braid of copper wires or tinned copper wires with a surface density coefficient not less than 75%. 12. An electric multicore cable according to claim 11, characterized in that under the individual screen of conductive conductors or groups of tinned copper or copper wires, a winding of a polyethylene terephthalate film with a positive overlap is applied. 13. An electric multicore cable according to claim 11, characterized in that the individually shielded cores are coated with belt insulation of a polymer film or a polymer composition made by extrusion. 14. An electric multicore cable according to claim 11, characterized in that the individually shielded groups are coated with belt insulation of a polymer film or polymer composition made by extrusion. 15. An electric multicore cable according to claim 1, characterized in that a water blocking bandage is applied over the core in the form of a winding with one or two tapes of water blocking material. 16. An electric multicore cable according to claim 1, characterized in that in the gaps between the twisting elements of tinned copper or copper tinned wires, bundles of non-hygroscopic fibrous or polymeric material are introduced, or bundles extruded from a polymeric material. 17. An electric multicore cable according to claim 1, characterized in that it is equipped with armor on top of the inner sheath, in the form of a continuous coil of galvanized steel wires. 18. An electric multicore cable according to claim 3, characterized in that it is provided with armor over the inner extruded substrate in the form of a braid of galvanized steel wires. 19. An electric multicore cable according to claim 3, characterized in that it is provided with armor on top of the extruded inner substrate, in the form of two galvanized steel strips imposed in a spiral. 20. An electric multicore cable according to claim 1, characterized in that it is equipped with a flexible heater. 21. An electric multicore cable according to claim 1, characterized in that the conductive conductors are made of copper single-wire. 22. An electric multicore cable according to claim 1, characterized in that the conductive conductors are made of tinned copper single-wire. 23. An electric stranded cable according to claim 1, characterized in that the conductive conductors are made of copper multi-wire. 24. Electric stranded cable according to claim 1, characterized in that the conductive conductors are made of tinned copper stranded.

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