RU188730U1 - FLEXIBLE POWER CABLE - Google Patents

Abstract

The utility model relates to cable technology, namely to cables and wires, power with polymer insulation, designed to transmit and distribute electrical energy in non-stationary installations for nominal alternating voltage up to 3 kV with nominal frequency up to 400 Hz. Power cable containing conductive core made from heat-treated aluminum alloy, the main alloying element of which is iron, insulation and a shell made of a polymeric material, while the conductive core is formed from unidirectional stranded wires and strands.

Description

Flexible power cable

The technical field to which the utility model

The utility model relates to cable technology, namely, to cables and wires, power with polymer insulation and conductive core made of aluminum alloy, designed to transmit and distribute electrical energy in non-stationary installations for rated AC voltage up to 3 kV with rated frequency up to 400 Hz .

The level of technology

Known cable designed to connect mobile mechanisms to electrical networks at a nominal alternating voltage of 380 V frequencies up to 400 Hz or a constant nominal voltage of 660 V., containing a conductive wire twisted from copper or copper tinned wires, grade 5, a layer of polyethylene terephthalate film, rubber insulation type RTI-1 or RTI-1-HL based on natural or butadiene rubber, a layer of polyethylene terephthalate film over twisted insulated conductors and a rubber sheath of type RShT-2 or P TM-2-ChL based on isoprene and butadiene rubbers (electronic product catalog of Kamsky Cable LLC, http://www.kamkabel.ru/production/catalog/kabeli-obchhepromyshlennye/silovye-v-rezinovoj-izolyatsii/silovye-v -rezinovoj-izolyatsii_1137.html).

Signs of a known cable, which are common with the characteristics of the claimed utility model, are that the cable contains a conductive core, insulation and a sheath of a polymeric material.

The reason preventing the claimed technical result from being obtained in a known cable is that the conductor wires are made of copper or tinned copper wires.

The closest of the known technical solutions is a cable containing a conductive core, insulation and a sheath of a polymeric material, while the conductive core is made of a heat-treated aluminum alloy with an aluminum content of at least 99 wt. %, the main alloying element of which is iron (patent RU 174486, published 10.17.2017, bull. No. 29).

Signs of a known cable, which are common with the claimed utility model, are that the cable contains a conductive core made of a heat-treated aluminum alloy, the main alloying element of which is iron, and also contains insulation and a sheath made of a polymeric material.

The reason preventing the claimed technical result from being obtained in a known cable is that the cable is intended for the distribution of electrical energy in stationary installations.

The technical challenge is the need to expand the arsenal of power cables with conductive wires made of aluminum alloy, namely the development of a flexible power cable with a conductive core made of aluminum alloy, designed to distribute electrical energy in non-stationary installations (for connecting mobile mechanisms to electrical networks) .

Disclosure of the essence of the utility model

Achieved technical result in that the power cable contains a conductive core made of heat-treated aluminum alloy, the main alloying element of which is iron, insulation and sheath of a polymeric material, while the conductive core is formed of unidirectionally twisted wires and strands.

Distinctive features of the claimed technical solution lies in the fact that the conductor is formed from unidirectionally twisted wires and strands.

The use of unidirectionally twisted wires and strands for the manufacture of a conductive core provides the greatest flexibility of the core, reaching grade 5 according to GOST 22483. This expands the operational properties of the cable with a conductive core of aluminum alloy, the main alloying element of which is iron.

Implementation of the utility model

Within the stated patent rights, the following embodiments of the utility model are possible.

The flexible power cable contains a conductive core made of heat-treated aluminum alloy, the main alloying element of which is iron, as well as containing insulation made of a polymeric material and a sheath made of a polymeric material. Conductor can be made of aluminum alloy 8030 or 8176. At the same time conductor is made of flexibility class 5 according to GOST 22483, of unidirectionally twisted wires and strands. The insulation and cable sheath can be made of rubber or thermoplastic elastomer. The insulation of the conductors can be made of a polymer material with a frost resistance of at least -45 ° C, and the shell can be made of a polymer material with a frost resistance of at least -60 ° C.

A flexible power cable may contain several conductors, each conductor is insulated with a polymer material, the insulated conductors are stranded to each other, and a sheath of polymer material is superimposed over the stranded conductors. Also, a flexible power cable may contain a ground conductor, a zero conductor, an auxiliary conductor with a cross section equal to the cross section of the main conductors or a smaller section.

The technical result, which is achieved by solving this problem, is to develop a cable with conductive wires of aluminum alloy, the main alloying element of which is iron, with increased flexibility, in connection with this modification of the cable with such construction elements as various types of polymers for insulation and shells, as well as the number of cable cores, do not affect the achievement of the technical result and are special cases of performance when using a cable.

The manufacture of the cable is as follows.

Conducting conductors are made of 5 classes of flexibility according to GOST 22483, made of aluminum alloy wire, produced by twisting of wires on twisting equipment.

On the conductive core on the extrusion line or on the continuous vulcanization unit superimposed insulation of polymeric material.

Insulated conductors are twisted into the core on a common twist machine.

The shell of the polymer material is superimposed on the extrusion line or on the continuous vulcanization unit.

A flexible power cable with a conductive conductor of aluminum alloy was tested under production conditions and successfully passed all the tests.

Claims (5)

1. Power cable containing a conductive core made of heat-treated aluminum alloy, the main alloying element of which is iron, insulation and a sheath of a polymeric material, characterized in that the conductor core is formed from unidirectionally twisted wires and strands. 2. The cable according to claim 1, characterized in that the insulation and the shell is made of rubber. 3. Cable according to claim 1, characterized in that the insulation and the shell are made of a thermoplastic elastomer. 4. Cable according to claim 1, characterized in that the cable contains several conductive wires, each of which is coated with polymer insulation. 5. The cable according to claim 1, characterized in that the insulation is made of a polymeric material with a frost resistance temperature of at least -45 ° C, and the shell is made of a polymeric material with a frost resistance temperature of at least -60 ° C