RU51275U1 - ELECTRICAL CABLE (OPTIONS) - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely to the construction of cables and wires intended for transmission and distribution of electrical energy in power and lighting networks.

The cable according to option 1 contains a concentric internal single-wire or multi-wire aluminum conductor with insulation made of PVC compound, an external conductor made in the form of a coil of separate aluminum wires, with a longitudinally laid steel carrier cable, an insulating protective sheath, while in the outer conductor a cable of separate the wires are imposed by wave twisting and wrapped with a fastening element.

The cable according to option 2 differs from the cable according to option 1 in that the inner multi-wire conductor is wire-reinforced, and the outer coil as in option 1 is made by wave twisting and wrapped with a fastening element.

The cable according to option 3 differs from the cable according to option 1 in that the outer conductor is made in the form of a coil of alternating aluminum and steel wires, superimposed by wave twisting and wrapped with a fastening element.

The fastening element is made in the form of a synthetic tape, for example, of polypropylene or lavsan.

In the inner multi-wire conductor, at least the central wire is coated with depleted heat-resistant grease.

The inner multi-wire conductor of aluminum wires or reinforced with steel wire is sealed.

In the cable, the electrical resistance of the outer conductor is reduced, the consumption of aluminum due to the reduction of twisting. In addition, the complexity of manufacturing a cable is reduced.

Description

The utility model relates to the field of electrical engineering, namely, to the construction of cables and wires intended for transmission and distribution of electrical energy in power and lighting networks.

Known cable brand AVK for the transmission and distribution of electrical energy in power and lighting networks for alternating voltage up to 450 V frequencies up to 400 Hz. Cable with aluminum inner and outer conductors with insulation and sheath made of PVC compound. The inner conductor is made of single-wire or multi-wire of aluminum, and can be made of multi-wire of aluminum, reinforced with steel wire. The outer conductor is made of aluminum wires or reinforced with steel wires, laid in the form of a layer with a regular twist. The cable can be made with a longitudinally laid steel supporting cable in a common outer sheath. (Coaxial cable, mark AVK. TU-RT MD 29-0213048-002-98).

However, this cable has disadvantages. It is more labor-consuming to manufacture, has increased electrical resistance of the external conductor due to twisting, and has insufficient flexibility.

The present utility model is based on the task of creating an electric cable in which, thanks to the introduction of new structural elements to a new mutual arrangement of structural elements, the labor intensity, energy intensity and electrical resistance of the external conductor would be reduced, and the cable’s flexibility and reliability would be increased.

The problem is solved in that in the electric cable according to embodiment 1, containing concentrically arranged inner single-wire or multi-wire aluminum conductor with PVC insulation, an outer conductor made in the form of a coil of separate aluminum wires, with a longitudinally laid steel supporting cable, an insulating protective sheath according to useful

models in the outer conductor twisted from separate wires are superimposed by wave twisting and wrapped with a fastening element.

The problem is solved in that in an electric cable according to embodiment 2, comprising concentrically arranged inner multi-wire aluminum conductor reinforced with steel wire, PVC insulation, an outer conductor made in the form of a coil of separate aluminum wires, and an insulating protective sheath, according to a utility model in the outer conductor, a twist of individual wires is superimposed by wave twisting and wrapped with a fastening element.

The problem is solved in that in an electric cable according to embodiment 3, comprising concentrically arranged inner single-wire or multi-wire conductor of aluminum wires with insulation of PVC compound, an outer conductor made in the form of a coil of alternating aluminum and steel wires according to a utility model in an external conductor of of alternating aluminum and steel wires imposed by wave twisting and wrapped with a fastening element.

In the inner multi-wire conductor, at least the central wire may be further coated with a depleted heat-resistant grease.

The inner multi-wire conductor of aluminum wires or reinforced with steel wire can be sealed.

The fastening element may be made in the form of a synthetic tape, for example, of polypropylene or lavsan.

Steel wires in the inner or outer conductors or the support cable can be galvanized.

The protective sheath can be made of polyvinyl chloride plastic compound that does not spread combustion.

The protective sheath can be made of light-stabilized polyvinyl chloride plastic compound or thermoplastic polyethylene.

The protective shell may be made of light stabilized cross-linked polyethylene.

The advantage of the proposed cable is that, due to the imposition of a coil in the outer conductor from separate wires - aluminum, steel - by wave twisting, the electrical resistance of the outer conductor is reduced, since with normal twisting, the twist of the wires is 3-4%, and with wave twisting 0.5 -0.7%, therefore, the consumption of aluminum on the outer conductor decreases by the same amount.

In addition, the laboriousness of manufacturing the cable is reduced, since for applying the outer conductor with ordinary twisting, it is necessary to use a twisting machine and coils for it, and with wave twisting, the process of applying the outer conductor is combined with the laying of the sheath.

Due to the additional application of depleted heat-resistant grease on the core of the inner multi-wire conductor, the flexibility of the cable increases, the compaction of the inner conductor is facilitated, since dry friction between the wires decreases and the rollers experience less load, which increases their service life.

In addition, in large sections of the cable (120-150 mm ² ), electrical losses are reduced, due to the presence of a lubricant film on the surfaces of sealed wires even when bending in dynamics (when swaying from the wind, etc.), electrical contact between them is eliminated, reducing surface effect and proximity effect.

The implementation of the inner multi-wire conductor of aluminum wires or reinforced with a steel wire sealed allows you to reduce the diameter of the cable and reduce its material consumption.

The use of galvanized steel wires in the cable and the presence of grease eliminates their corrosion during operation. The protective sheath made of light-stabilized polyvinyl chloride plastic compound, polyethylene and especially cross-linked polyethylene significantly increases the cable service life. The protective sheath made of PVC, flame retardant, increases the fire resistance of the cable.

The cable according to option 1 with aluminum inner and outer conductors is advisable to use with small tensile forces. All other cables according to option 2, 3, and especially to option 1 with a steel cable, are self-supporting and are designed for significant

tensile forces when suspending them over considerable distances between current collectors.

The proposed cable is schematically shown in cross section in figures 1-4 and in a top view in figure 5. In Fig.1 shows a cable with aluminum inner and outer conductors, with insulation and sheath, in Fig.2 is the same with a steel carrier cable. Figure 3 shows a cable with an inner multi-wire aluminum conductor reinforced with a steel wire, figure 4 shows a cable with an outer conductor made in the form of a coil of alternating aluminum and steel wires. Figure 5 shows the fastening element on the outer conductor. Figures 1-4 show: 1 - an internal single-wire aluminum conductor, 2 - an internal multi-wire aluminum conductor, 3 - insulation, 4 - an external conductor of aluminum wires, 5 - a fastening element. 6 - insulating protective sheath, 7 - steel supporting cable, 8 - reinforcing steel wire in the inner conductor, 9 - steel wire in the outer conductor.

The electric cable according to option 1 contains a concentric internal single-wire 1 (Fig. 1) or multi-wire 2 aluminum conductor twisted on a twisting machine with insulation 3 made of PVC compound overlaid on the extruder. The outer conductor 4, made in the form of a coil of separate aluminum wires, twisted on a twisting machine and covered with an insulating protective sheath 6 on the extruder (Fig 1). With great tensile forces for the self-supporting cable, a steel supporting cable 7 is twisted on a twisting machine in a common protective sheath 6, superimposed on the press (Fig. 2). In the outer conductor 4, a coil of individual wires is superimposed by wave twisting and wrapped with a fastening element 5 (Fig. 5).

The cable according to option 2 (Fig. 3) contains a concentrically arranged inner multi-wire aluminum conductor 2, reinforced with steel wire 8, which is twisted on a twisting machine with insulation 3 made of PVC compound overlaid on the extruder. The outer conductor 4, made in the form of a winding of separate aluminum wires, is twisted on a twisting twist machine and coated on the extruder with a sheath 6. In the outer conductor 4, as in version 1, the winding is made of separate

the wires are imposed by wave twisting and wrapped with a fastening element 5 (figure 5).

The cable according to option 3 (Fig. 4) contains a concentric internal single-wire 1 or multi-wire 2 aluminum conductor twisted on a twisting machine with insulation 3 made of PVC compound overlaid on the extruder. The outer conductor 4, made in the form of a winding of alternating aluminum and steel 9 wires, is twisted on a winding twisting machine and coated on the extruder with a sheath 6. In the outer conductor 4, a winding of alternating aluminum and steel 9 wires is imposed by wave twisting and wrapped with a fastening element 5 (Fig. .5).

In all variants 1, 2, 3 of the cable, the wave twisting of the outer conductor 4 is combined with the application of an insulating protective sheath 6, while for twisting the wires in the outer conductor 4, a device for wave twisting with fixed detectors for coils with aluminum and steel wire is used. The wires are passed through the eyes (holes) of two outlets spaced from each other at a distance of a twisting step of the order of 600-800 mm and having a reverse rotation from the drive. Between the specified device and the press head for applying a sheath, a tape wrapper or thread wrapper is installed to fasten the cove with a narrow tape or flat thread.

The fastening element 5 can be made in the form of a synthetic tape, for example, of polypropylene or lavsan, or made of fibrous material in the form of a flat thread and is superimposed on the outer conductor using these windings.

In the inner multi-wire conductor, at least the central wire can be additionally coated with a heat-resistant grease that is neutral with respect to aluminum, while increasing the flexibility of the cable.

The inner multi-wire conductor of aluminum wires or reinforced with steel wire can be sealed.

In all versions 1, 2 and 3 of the cable, depleted heat-resistant grease, neutral to aluminum, is applied with a thin layer (why it is called depleted) on wires 2, 8 of the inner multi-wire conductor 2 or the core of these wires for large cross-sections (120-150 mm ² ) by the method

greases, for example, with the help of rubbers, which are installed at the exit of the twisting machine in front of the rollers, while the subsequent compaction of the veins in the rollers occurs with less effort.

The use of heat-resistant grease for steel-aluminum wires is widely known, only in them the gaps between twisted wires (20-25% of the total cross-section) excluding the upper coil are filled with heat-resistant grease, that is, the lubricant consumption is very large. (Uninsulated steel-aluminum wires GOST 839-80).

Claims (24)

1. An electric cable containing concentrically arranged inner single-wire or multi-wire aluminum conductor with PVC insulation, an outer conductor made in the form of a coil of separate aluminum wires, with a longitudinally laid steel support cable, an insulating protective sheath, characterized in that in the outer conductor The twisting of individual wires is superimposed by wave twisting and wrapped with a fastening element. 2. The cable according to claim 1, characterized in that in the inner multi-wire conductor, at least the central wire is additionally coated with depleted heat-resistant grease. 3. The cable according to claim 2, characterized in that the inner multi-wire aluminum conductor is sealed. 4. The cable according to claim 1, characterized in that the fastening element is made in the form of a synthetic tape, for example, of polypropylene or lavsan. 5. The cable according to claim 1, characterized in that the steel wires in the support cable are galvanized. 6. Cable according to any one of claims 1 to 5, characterized in that the protective sheath is made of polyvinyl chloride plastic compound that does not propagate combustion. 7. Cable according to any one of claims 1 to 5, characterized in that the protective sheath is made of light-stabilized polyvinyl chloride plastic compound or thermoplastic polyethylene. 8. Cable according to any one of claims 1 to 5, characterized in that the protective sheath is made of light stabilized cross-linked polyethylene. 9. An electric cable containing concentrically arranged inner multi-wire aluminum conductor, reinforced with steel wire, PVC insulation, an outer conductor made in the form of a coil of separate aluminum wires, and an insulating protective sheath, characterized in that in the outer conductor a cable of separate wires superimposed by wave twisting and wrapped with a fastening element. 10. The cable according to claim 9, characterized in that in the inner multi-wire conductor, at least the central wire is additionally coated with depleted heat-resistant grease. 11. The cable according to claim 10, characterized in that the inner multi-wire aluminum conductor reinforced with steel wire is sealed. 12. The cable according to claim 9, characterized in that the fastening element is made in the form of a synthetic tape, for example, of polypropylene or lavsan. 13. The cable according to claim 9, characterized in that the steel wire in the inner conductor is galvanized. 14. Cable according to any one of paragraphs.9-13, characterized in that the protective sheath is made of polyvinyl chloride plastic compound that does not propagate combustion. 15. A cable according to any one of claims 9 to 13, characterized in that the protective sheath is made of light-stabilized polyvinyl chloride plastic compound or thermoplastic polyethylene. 16. The cable according to any one of paragraphs.9-13, characterized in that the protective sheath is made of light stabilized cross-linked polyethylene. 17. An electric cable containing concentrically located inner single-wire or multi-wire aluminum conductor with PVC insulation, an outer conductor made in the form of a coil of alternating aluminum and steel wires, characterized in that in the outer conductor a coil of alternating aluminum and steel wires is superimposed with a wave twisted and wrapped with a fastening element. 18. The cable according to claim 17, characterized in that in the inner multi-wire conductor, at least the central wire is additionally coated with depleted heat-resistant grease. 19. The cable according to claim 18, characterized in that the inner multi-wire aluminum conductor is sealed. 20. The cable according to claim 17, wherein the fastening element is made in the form of a synthetic tape, for example, of polypropylene or lavsan. 21. The cable according to claim 17, characterized in that the steel wires in the outer conductor are galvanized. 22. Cable according to any one of paragraphs.17-21, characterized in that the protective sheath is made of polyvinyl chloride plastic compound that does not propagate combustion. 23. Cable according to any one of paragraphs.17-21, characterized in that the protective sheath is made of light-stabilized polyvinyl chloride plastic compound or thermoplastic polyethylene. 24. Cable according to any one of paragraphs.17-21, characterized in that the protective sheath is made of light stabilized cross-linked polyethylene.