RU88189U1 - POWER CABLE ELECTRICAL (OPTIONS) - Google Patents

Abstract

1. Power electric cable, including insulated conductive conductors, characterized in that a separate protective sheath is applied to each insulated conductive core, while all insulated conductive conductors with protective sheaths are twisted together in a bundle, and the protective sheath of insulated conductive conductors is made of polyvinyl chloride plastic compound low fire hazard with an oxygen index of at least 32.! 2. Electric power cable according to claim 1, characterized in that the insulated conductive conductors in the protective sheaths are twisted around one of the conductive conductors in the protective sheath. ! 3. The electric power cable according to claim 1, characterized in that the insulated conductive conductors with protective sheaths are twisted around a newly introduced central core. ! 4. The electric power cable according to claim 1, characterized in that between the protective sheath and the insulation of the conductive conductors a layer of a substance that prevents adhesion is applied. ! 5. The electric power cable according to claim 1, characterized in that between the protective sheath and the insulation of the conductive conductors, a separation layer is applied, made in the form of a winding of one or two synthetic tapes, overlapped. ! 6. The electric power cable according to claim 1, characterized in that between the protective sheath and the insulation of the conductive conductors and / or between the insulation and the conductive core, a water blocking element is applied in the form of a powder, or a thread, or a tape. ! 7. Electric power cable, including insulated conductive conductors, characterized in that a separate protective sheath is applied to each insulated conductive core

Description

The utility model relates to the field of electrical engineering, namely to power electric cables intended for operation in power and lighting networks with stationary installation.

A power cable is known that contains twisted cores, each of which is coated with polymer insulation, on top of which a polymer sheath is applied, PVC insulation is used as insulation and sheath, low-hazardous toxicity of combustion products, with an oxygen index of at least 30 (see RF patent for utility model No. 80619 "Power cable", published on 02/10/2009).

Known electrical cable, including conductive copper or aluminum, single-wire or multi-wire cores, over which a polymer tape is applied, over which rubber insulation is applied, conductive insulated cores are twisted together and sheathed, which is made of thermoplastic elastomer with non-diffusing combustion with an oxygen index of 28% resistant to oils and temperatures up to minus 60 ° C (see RF patent for utility model No. 74736 "Electric cable", publ. 07/10/2008).

Power cables of the brands VVG, ABB, PvVG, APvVg (GOST 16442-80) are known, which are twisted into a bundle insulated with polymer insulation cores coated with a common polymer protective sheath.

One of the main disadvantages of the above cables is the complexity of the process of connecting consumers of electricity in the area between the input and output ends, the need for this to separate the cable into parts.

The closest technical solution to the proposed options for a utility model is a self-supporting insulated wire of the SIP-4 brand (GOSTR 52373-2005), containing at least two multi-wire sealed aluminum conductive wires in weather-resistant polyethylene insulation, twisted together.

The disadvantages of SIP-4 wires include the high ability of polyethylene insulation to spread flame.

The technical task of the utility model is to create a design of a power electric cable with a high degree of non-proliferation of combustion, the ability to connect the taps for power take-off in the area between the input and output ends without dividing the cable into parts, the low complexity of connecting the taps for power take-off, and the ability to quickly restore the tightness of the sheaths insulation, as well as allowing the use of piercing clamps for connecting bends.

The technical result consists in improving the operational characteristics, which is achieved by the use of polymers with self-extinguishing properties for insulation and cable sheaths, as well as the cable design - each insulated conductive core has a separate protective sheath.

The technical result according to the first embodiment is achieved by the fact that in a power electric cable including insulated conductive conductors, a separate protective sheath is applied to each insulated conductive core, while all insulated conductive conductors with protective sheaths are twisted together in a bundle, and the protective sheath of insulated conductive conductors made of PVC compound, low fire hazard, with an oxygen index of at least 32.

The technical result according to the second embodiment is achieved by the fact that in a power electric cable including insulated conductive conductors, a separate protective sheath is applied to each insulated conductive core, while all insulated conductive conductors with protective sheaths are twisted together in a bundle, and the insulation of conductive conductors and protective the shell is made of polyvinyl chloride plastic compound, low toxicity of combustion products, with an oxygen index of at least 30.

The technical result according to the third embodiment is achieved by the fact that in a power electric cable including insulated conductive conductors, a separate protective sheath is applied to each insulated conductive conductor, while all insulated conductive conductors with protective sheaths are twisted together in a bundle, and the insulation of conductive conductors is made of cross-linked polyethylene, and the protective sheath is made of polyvinyl chloride plastic compound, low toxicity of combustion products, with an oxygen index of at least 30.

The technical result according to the fourth embodiment is achieved by the fact that in a power electric cable including insulated conductive conductors, a separate protective sheath is applied to each insulated conductive core, while all insulated conductive conductors with protective sheaths are twisted together in a bundle, and the insulation of conductive conductors is made of crosslinked polyethylene, and the protective shell is made of a halogen-free polymer composition with an oxygen index of at least 45.

The technical result according to the fifth embodiment is achieved by the fact that in a power electric cable including insulated conductive wires, a separate protective sheath is applied to each insulated conductive core, while all insulated conductive conductors with protective sheaths are twisted together in a bundle, and the insulation of conductive conductors is made of a halogen-free polymer composition with an oxygen index of at least 30, and a protective shell - from a halogen-free polymer composition with an oxygen an index of at least 45.

In all five power cable versions, insulated conductive conductors in protective sheaths can be twisted around one of the insulated conductive core in the protective sheath.

For all five power cable versions, insulated conductive conductors with protective sheaths can be twisted around an inserted central core made of a material similar to the material of the protective sheaths.

In these embodiments, the power electric cable between the protective sheath and the insulation of the conductive conductors can be applied a layer of a substance that prevents adhesion, for example from talc.

In all five versions of the power electric cable, a separation layer can be applied between the protective sheath and the insulation of the conductive conductors, made in the form of a winding of one or two synthetic tapes, overlapped.

For these power cable versions, a water blocking element in the form of a powder or thread or tape can be applied between the protective sheath and the insulation of the conductive conductors and / or between the insulation and the conductive core.

The distinguishing features of the proposed power cable options include its design and the combination of polymers used. The power cable is made without a common outer sheath, each insulated core of the cable has its own separate protective sheath, various combinations of polymers used for the protective sheath and insulation of conductive conductors have made it possible to create various cable options that meet increased fire safety requirements and ensure operational reliability and safety.

The applicant does not know the design of power electric cables, representing the totality of all the features characterizing these options for a utility model, which indicates the novelty of the claimed objects.

The proposed design of the proposed options for a utility model is illustrated by drawings, which show the proposed options for power electric cable in cross section.

Figure 1 shows the first, second, third, fourth and fifth versions of a power electric cable with various polymers used to insulate conductive cores and a protective sheath.

Figure 2 - the proposed options for a power cable with a core.

Figure 3 - the proposed options for the power cable with a separation layer.

Figure 4 - the proposed options for a power electric cable with a core and a separation layer.

Figure 5 - the proposed options for the cable power electric with a water blocking element.

Figure 6 - the proposed options for a power electric cable with a core and a water blocking element.

All variants of the proposed power electric cable (FIGS. 1-6) include conductive conductors 1 coated with insulation 2, with each insulated conductive core 2 provided with a separate protective sheath 3. All insulated conductive conductors 1 with coated protective sheaths 3 are twisted together into a bunch.

In the first embodiment, in a power electric cable, the protective sheath 3 of insulated conductive conductors 1 is made of polyvinyl chloride plastic compound, of low fire hazard, with an oxygen index of at least 32.

In the second embodiment, in a power electric cable, the insulation of 2 conductive conductors 1 and the protective sheath 3 are made of polyvinylchloride plastic compound, which is less hazardous in terms of toxicity of combustion products, with an oxygen index of at least 30.

In the third embodiment, in a power electric cable, the insulation of 2 conductive conductors 1 is made of cross-linked polyethylene, and the protective sheath 3 is made of polyvinyl chloride plastic compound, which is less hazardous in toxicity of combustion products, with an oxygen index of at least 30.

In the fourth embodiment, the insulation of 2 conductive cores is made of cross-linked polyethylene, and the protective sheath 3 is made of a halogen-free polymer composition with an oxygen index of at least 45.

In the fifth embodiment, in a power electric cable, the insulation of 2 conductive cores 1 is made of a halogen-free polymer composition with an oxygen index of at least 30, and protective sheath 3 is made of a halogen-free polymer composition with an oxygen index of at least 45.

In all five versions of the power cable (Figs. 1, 3, 5), insulated conductive conductors 1 in protective sheaths 3 can be twisted around one of the conductive insulated core in a protective sheath.

In the proposed variants of the power cable, insulated conductive conductors 1 in protective shells 3 can be twisted around an inserted central core 4 (Figs. 2, 4, 6), which is made of material used for protective shells 3.

In these embodiments, the power cable (Fig.1-6) between the protective sheath 3 and the insulation 2 of the conductive conductors 1 can be applied a layer of a substance that prevents adhesion. Talc is used as such a substance.

Between the protective sheath 3 and the insulation 2 of the conductive conductors 1 in all five versions of the power cable, a separating layer 5 can be applied (Figs. 3, 4), which is made in the form of a winding of one or two synthetic tapes superimposed overlapping.

Between the protective sheath 3 and the insulation 2 of the conductive conductors 1, and / or between the insulation 2 and the conductive core 1 in the proposed versions of the power electric cable (FIGS. 5, 6), a water-blocking element 6 may be applied in the form of a powder or thread or tape.

The proposed power cable options meet the patentability criterion of "industrial applicability", because their implementation is possible on the basis of well-known equipment, materials and technologies existing in the cable industry.

Using the proposed options for the power electric cable allows you to reduce the complexity of connecting the taps and makes it possible to quickly restore the tightness of the shells and insulation in the places of connecting the taps, makes it possible to use piercing clamps and, in general, reduces the cost of work when connecting consumers of electricity to the cable.

The combination of design solutions and selected combinations of polymers used in the design of the proposed options for power electric cable allowed to improve the technical characteristics and operational reliability of the cable, to ensure the safety and high-quality transmission of electric current during stationary installation for operation in power and lighting networks.

Claims (30)

1. Power electric cable, including insulated conductive conductors, characterized in that a separate protective sheath is applied to each insulated conductive core, while all insulated conductive conductors with protective sheaths are twisted together in a bundle, and the protective sheath of the insulated conductive conductors is made of polyvinyl chloride plastic compound low fire hazard with an oxygen index of at least 32. 2. Electric power cable according to claim 1, characterized in that the insulated conductive conductors in the protective sheaths are twisted around one of the conductive conductors in the protective sheath. 3. The electric power cable according to claim 1, characterized in that the insulated conductive conductors with protective sheaths are twisted around a newly introduced central core. 4. The electric power cable according to claim 1, characterized in that between the protective sheath and the insulation of the conductive conductors a layer of a substance that prevents adhesion is applied. 5. The electric power cable according to claim 1, characterized in that between the protective sheath and the insulation of the conductive conductors, a separation layer is applied, made in the form of a winding of one or two synthetic tapes, overlapped. 6. The electric power cable according to claim 1, characterized in that between the protective sheath and the insulation of the conductive conductors and / or between the insulation and the conductive core, a water blocking element is applied in the form of a powder, or a thread, or a tape. 7. Power electric cable, including insulated conductive conductors, characterized in that a separate protective sheath is applied to each insulated conductive conductor, while all insulated conductive conductors with protective sheaths are twisted together in a bundle, the insulation of conductive conductors and the protective sheath made of polyvinyl chloride plastic compound, low hazardous toxic products of combustion, with an oxygen index of at least 30. 8. The electric power cable according to claim 7, characterized in that the insulated conductive conductors in the protective sheaths are twisted around one of the conductive conductors in the protective sheath. 9. The electric power cable according to claim 7, characterized in that the insulated conductive conductors with protective sheaths are twisted around a newly introduced central core. 10. The electric power cable according to claim 7, characterized in that a layer of a substance preventing adhesion is applied between the protective sheath and the insulation of the conductive conductors. 11. The electric power cable according to claim 7, characterized in that a separation layer is applied between the protective sheath and the insulation of the conductive conductors, made in the form of a winding of one or two synthetic tapes, overlapped. 12. The electric power cable according to claim 7, characterized in that between the protective sheath and the insulation of the conductive wires and / or between the insulation and the conductive core is applied a water blocking element in the form of a powder, or thread, or tape. 13. Power electric cable, including insulated conductive conductors, characterized in that a separate protective sheath is applied to each insulated conductive core, while all insulated conductive conductors with protective sheaths are twisted together in a bundle, and the insulation of conductive conductors is made of cross-linked polyethylene, and protective sheath - made of polyvinyl chloride plastic compound, low toxicity of combustion products, with an oxygen index of at least 30. 14. The electric power cable according to claim 13, characterized in that the insulated conductive conductors in the protective sheaths are twisted around one of the conductive conductors in the protective sheath. 15. The electric power cable according to claim 13, characterized in that the insulated conductive conductors with protective sheaths are twisted around a newly introduced central core. 16. The electric power cable according to claim 13, characterized in that a layer of a substance preventing adhesion is applied between the protective sheath and the insulation of the conductive conductors. 17. The electric power cable according to claim 13, characterized in that a separation layer is applied between the protective sheath and the insulation of the conductive conductors, made in the form of a winding of one or two synthetic tapes superimposed overlapping. 18. The electric power cable according to claim 13, characterized in that a water blocking element in the form of a powder, or a thread, or a tape is applied between the protective sheath and the insulation of the conductive conductors and / or between the insulation and the conductive core. 19. Electric power cable, including insulated conductive conductors, characterized in that a separate protective sheath is applied to each insulated conductive strand, while all insulated conductive conductors with protective sheaths are twisted together in a bundle, the insulation of conductive conductors made of cross-linked polyethylene, and protective shell - from a halogen-free polymer composition with an oxygen index of at least 45. 20. The electric power cable according to claim 19, characterized in that the insulated conductive conductors in the protective sheaths are twisted around one of the conductive conductors in the protective sheath. 21. The electric power cable according to claim 19, characterized in that the insulated conductive conductors with protective sheaths are twisted around a newly introduced central core. 22. The electric power cable according to claim 19, characterized in that a layer of a substance that prevents adhesion is applied between the protective sheath and the insulation of the conductive conductors. 23. The power electric cable according to claim 19, characterized in that a separation layer is applied between the protective sheath and the insulation of the conductive conductors, made in the form of a winding of one or two synthetic tapes superimposed overlapping. 24. The electric power cable according to claim 19, characterized in that a water blocking element in the form of a powder, or thread, or tape is applied between the protective sheath and the insulation of the conductive wires and / or between the insulation and the conductive core. 25. Electric power cable, including insulated conductive conductors, characterized in that a separate protective sheath is applied to each insulated conductive core, while all insulated conductive conductors with protective sheaths are twisted together in a bundle, and the insulation of conductive conductors is made of a polymer composition, not containing halogens, with an oxygen index of at least 30, and the protective shell - from a polymer composition that does not contain halogens, with an oxygen index of at least 45. 26. Electric power cable according to claim 25, characterized in that the insulated conductive conductors in the protective sheaths are twisted around one of the conductive conductors in the protective sheath. 27. The electric power cable according to claim 25, characterized in that the insulated conductive conductors with protective sheaths are twisted around a newly introduced central core. 28. Electric power cable according to claim 25, wherein a layer of a substance preventing adhesion is applied between the protective sheath and the insulation of the conductive conductors. 29. Electric power cable according to claim 25, characterized in that a separation layer is applied between the protective sheath and the insulation of the conductive conductors, made in the form of a winding of one or two synthetic tapes, overlapped. 30. Electric power cable according to claim 25, characterized in that a water blocking element in the form of a powder, or a thread, or a tape is applied between the protective sheath and the insulation of the conductive conductors and / or between the insulation and the conductive core.