RU101860U1 - INFORMATION POWER CABLE (OPTIONS) - Google Patents

Abstract

 1. Information-power cable containing a self-supporting insulated wire, containing at least two twisted stranded conductive wires of aluminum or aluminum alloy with insulation, or at least two stranded conductive wires of aluminum or aluminum alloy with insulation, twisted around a zero carrier wire of an aluminum or aluminum alloy stranded core, or at least two multi-wire conductive wires of aluminum or aluminum alloy with insulation twisted around a zero carrier stranded core of aluminum or aluminum alloy with insulation, characterized in that it contains at least one optical cable or one LAN cable or a combination of them in an insulated sheath, wound around the outer diameter of a self-supporting insulated wire. ! 2. An information-power cable containing a self-supporting insulated wire containing at least two twisted stranded conductive wires of aluminum or aluminum alloy with insulation, or at least two stranded conductive wires of aluminum or aluminum alloy with insulation twisted around zero a carrier wire of aluminum or aluminum alloy stranded conductor, or at least two conductive wires of aluminum or aluminum alloy with insulation twisted around a zero carrier stranded core of aluminum or an aluminum alloy with insulation, characterized in that it contains at least one optical cable or one LAN cable or a combination thereof in an insulated sheath, wherein the information-power cable is obtained in the process of simultaneous

Description

The utility model relates to cable technology, namely to the design of information and power cables for the simultaneous transmission of information flows and electrical energy through overhead power transmission lines and local area networks.

Known designs of wires of self-supporting insulated for overhead power transmission lines, consisting of stranded stranded conductive conductors (ACL) made of aluminum with insulation or twisted stranded stranded conductors made of aluminum with insulation, twisted around a zero carrier ACL made of aluminum or aluminum alloy with or without insulation: certificate RF №14471 for utility model "Insulated wire for air suspension", class Н01В 7/02, 2000; RF certificate No. 26864 for utility model "Self-supporting insulated wire of SIP-4 brand d For air distribution networks with voltage up to 1 kV, frequency 50 Hz, class Н01В 7/00, 2002; RF patent No. 46380 for utility model “Electric self-supporting wire”, class Н01В 7/00, 2005

The closest analogue is the patent of the Russian Federation No. 63596 for utility model "Self-supporting insulated wire", cl. НВВ 7/00, 2007. A known wire design comprises at least two stranded multiwire stranded conductors made of aluminum with insulation, or at least two stranded stranded conductors made of aluminum with insulation, twisted around a zero carrier conductive stranded wire from aluminum alloy, or at least two multiwire conductive conductors made of aluminum with insulation, twisted around a zero carrier multiwire conductive conductors made of aluminum alloy with insulation.

The purpose of this utility model is to create an information and power cable that would preserve the positive qualities of a well-known wire for electric power transmission, but at the same time would have great functional and technological capabilities, in particular, it would provide the end consumer with electricity in one product, and telecommunication services (telephone, television, Internet)

The specified technical result is achieved in that the information-power cable containing a self-supporting insulated wire containing at least two twisted multiwire conductors of aluminum or aluminum alloy with insulation, or at least two multiwire conductors of aluminum or aluminum alloy with insulated, twisted around a zero carrier stranded conductor of aluminum or aluminum alloy, or at least two multiwire conductors of aluminum or aluminum alloy with insulation, twisted around a zero conductor s multiwire strands of aluminum or aluminum alloy with insulation, also comprises at least one optical cable or a LAN-cable or a combination thereof, is wound on the outer diameter of the self-insulated wire.

The specified technical result is also achieved by the fact that the information-power cable containing a self-supporting insulated wire containing at least two twisted multiwire conductors of aluminum or aluminum alloy with insulation, or at least two multiwire conductors of aluminum or aluminum alloy with insulation, twisted around a zero-bearing multi-wire core of aluminum or aluminum alloy, or at least two multi-wire conductors of aluminum or aluminum alloy with insulation, twisted in the region of the zero carrier stranded core of aluminum or aluminum alloy with insulation, also contains at least one optical cable or one LAN cable or a combination thereof, and the information-power cable obtained in the process of simultaneous twisting of the self-supporting insulated wire and optical cable or LAN cable or combinations thereof.

Such improvements in the design of the information-power cable make it possible to create a trunk line for the simultaneous transmission of information flows and electric energy through overhead power lines and local area networks; combine in one product the ability to provide the end consumer with electricity and telecommunication services (telephone, television, Internet); reduce the cost of installation and laying of electrical and telecommunication lines, combining them into one line; to connect in a single technological process the twisting of power and telecommunication elements; use the power part of the cable as a supporting element for the optical component of the cable or LAN cable, or a combination thereof and remote power supply of the equipment of the optical part of the cable; use the optical (information) part of the cable for dispatch communication, installation and operation of the information and power cable.

Figure 1 shows an information-power cable in cross section, containing a self-supporting insulated wire, consisting of twisted multiwire conductors with insulation, and an optical cable or LAN cable, or a combination thereof, wound around the outer diameter of a self-supporting insulated wire; figure 2 shows the information-power cable in cross section, containing a self-supporting insulated wire, consisting of twisted multi-wire conductors with insulation, twisted around a zero carrier conductors, and an optical cable or LAN cable, or a combination thereof, wound around the outer diameter of a self-supporting insulated wire ; figure 3 shows the information-power cable in cross section, containing a self-supporting insulated wire, consisting of twisted multiwire insulation conductors with strands, twisted around a zero insulation carrier wire, and an optical cable or LAN cable, or a combination thereof, wound around the outer diameter of the self-supporting insulated wire; figure 4 shows the information-power cable in cross section obtained by simultaneous twisting of an optical cable or LAN cable, or a combination thereof, and twisted multiwire conductors with insulation of a self-supporting insulated wire; figure 5 shows the information-power cable in cross section obtained by simultaneous twisting of an optical cable or LAN cable, or a combination thereof, and twisted multi-wire conductors with insulation twisted around a zero carrier conductors of a self-supporting insulated wire; figure 6 shows the information-power cable in cross section obtained by simultaneously twisting an optical cable or LAN cable, or a combination thereof and twisted multiwire conductors with insulation twisted around a zero carrier conductors with insulation of a self-supporting insulated wire.

Information-power cable consists of a self-supporting insulated wire 1 and an optical cable or LAN cable, or a combination of 2. Depending on the application, the self-supporting insulated wire 1 consists of multi-wire conductors 3 (Figs. 1, 4), consisting of profiled during twisting wires 4 of aluminum or aluminum alloy, with insulation 5, for example, from an extruded light stabilized cross-linked polyethylene composition containing at least 2.5% carbon black; or from multiwire conductors conductors 3 (FIGS. 2, 5), consisting of profiled wires 4 made of aluminum or aluminum alloy with insulation 5, for example, from an extruded light-stabilized cross-linked polyethylene composition containing at least 2.5% carbon black, and the carrier zero multi-wire core 6, consisting of aluminum wires or aluminum alloy profiles profiled during the twisting process; or from multiwire conductors conductors 3 (FIGS. 3, 6), consisting of wires 4 made of aluminum or aluminum alloy profiled during twisting, with insulation 5, for example, from an extruded light-stabilized cross-linked polyethylene composition containing at least 2.5% carbon black, and supporting zero multi-wire core 6, consisting of aluminum wires or aluminum alloy profiled during the process of twisting 7, with insulation 8, for example, from an extruded light-stabilized cross-linked polyethylene composition containing at least 2.5% carbon black. In this case, an optical cable or a LAN cable or a combination of 2 is present in the information-power cable in the form of a twist along the outer diameter of the self-supporting insulated wire 1 (Figs. 1-3) or in the form of simultaneous twisting together with the conductive conductors of the self-supporting insulated wire (Fig. .4-6).

The utility model can be easily made of modern materials, metals and their alloys based on existing technology using double twisting twisting equipment containing units for profiling wires, extrusion equipment, a general twisting machine, and can be most effectively used for simultaneous transmission of information flows and electrical energy through overhead power lines and local area networks.

Claims (2)

1. Information-power cable containing a self-supporting insulated wire, containing at least two twisted stranded conductive wires of aluminum or aluminum alloy with insulation, or at least two stranded conductive wires of aluminum or aluminum alloy with insulation, twisted around a zero carrier wire of an aluminum or aluminum alloy stranded core, or at least two multi-wire conductive wires of aluminum or aluminum alloy with insulation twisted around a zero carrier stranded core of aluminum or aluminum alloy with insulation, characterized in that it contains at least one optical cable or one LAN cable or a combination of them in an insulated sheath, wound around the outer diameter of a self-supporting insulated wire. 2. Information-power cable containing a self-supporting insulated wire, containing at least two twisted stranded conductive wires of aluminum or aluminum alloy with insulation, or at least two stranded conductive wires of aluminum or aluminum alloy with insulation, twisted around a zero carrier wire of an aluminum or aluminum alloy stranded core, or at least two multi-wire conductive wires of aluminum or aluminum alloy with insulation twisted around a zero carrier stranded core of aluminum or aluminum alloy with insulation, characterized in that it contains at least one optical cable or one LAN cable or a combination of them in an insulated sheath, wherein the information-power cable is obtained during the simultaneous twisting of conductive conductors of a self-supporting insulated wires and optical cable or LAN cable, or a combination thereof.