RU2026576C1 - Long-length electrical wire - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: interalternating elements made from different conductive materials which form thermocouple are put on conductor. Elements are interconnected by means of conductive material different from specified ones inner and outer surfaces with one element displacement with reference to each other. EFFECT: facilitated manufacture. 3 dwg

Description

 The invention relates to electrical engineering, namely to power lines.

 Known electrical wires made in the form of a long conductor of electrically conductive material, for example, aluminum, designed to transmit electricity from a source of electromotive force to the consumer, for example, an electric motor.

 A disadvantage of the known electrical wires is that when the electric power is transmitted, the latter are heated due to the ohmic resistance of the material from which the electric wires are made, to the electric current, which leads to a loss of transmitted electric power through the electric wires.

 The purpose of the technical solution is to reduce this drawback, namely, to reduce power losses during transmission of electricity through electrical wires by compensating for losses from the use of thermoelectromotive force.

 This goal is achieved in that the electric wires made in the form of a long conductor of electrically conductive material have the following structure.

 An electric wire consists of alternating transverse structures of electrically conductive materials of two different types, for example, aluminum and copper, and adjacent alternating structures are soldered from above and below with a shift by one structure relative to each other.

 The development of a technical solution is an electrical wire, in which alternating structures are made on the surface of the electrical conductor, while its surface is made in the form of serrated elevations and depressions, one type of electrical conductor located on one side of the depressions and the other on the other side.

 A variant of the electric wire is an electric conductor, in which the surface is made in the form of a helical surface.

 The development of a technical solution is also an electric wire, in which the space between the teeth is filled with heat-insulating material, such as polyethylene or other plastic.

 Distinctive features of the electric wire are the presence of alternating transverse structures made in the form of series-connected thermocouple connections, some junctions of which are located outward, and others inside.

 The use of series-connected thermocouples in thermocouples to generate electromotive force is widely known. However, their use and placement on the conductor is not known in order to compensate for the loss of electric power that occurs with ohmic resistance by applying a thermoelectromotive force to the current conductor. This leads to a reduction in power losses during transmission of electricity. Thus, the considered differences are significant, and the proposed technical solution has novelty.

Examples of specific performance may include the following:
Example 1. The central conductor of the electric wire is made of aluminum, and the alternating transverse structure of copper and constantan or of iron and constantan or of chromel and alumel.

 PRI me R 2. The Central conductor with a diameter of 5 mm from aluminum is made with a screw thread 1 mm high and a pitch of 2 mm, one side of which is coated with another metal, such as iron.

 PRI me R 3. The central wire of aluminum with a diameter of 3 mm is wrapped tightly winding to the winding with an iron wire with a diameter of 1 mm, and on top of the turns are covered and closed by a conductive layer of copper.

 PRI me R 4. The gaps between the alternating transverse structures are filled with insulating material, such as polyethylene or rubber.

 Figure 1 - 3 shows the sections (upper part of the images), combined with the appearance (lower part of the images) of electric wires of various options.

 Electric wires contain a central conductor 1, alternating transverse structures (thermocouples) 2, consisting of metals of various types - one 3 and another 4, coated with a metal of the third type 5. A heat insulator 6 is located between the structures.

 In FIG. 1a, alternating transverse structures 2 of two metals 3 and 4 are connected by a third metal 5 through one structure.

 In FIG. 1b shows the continuous connection of two metals 3 and 4 by a third metal 5 along the outer surface of the electric wire.

 In FIG. 2a shows alternating transverse structures (thermocouples) 2 are presented in the form of teeth, the tops of which are soldered, and the base is welded to the central conductor 1.

 In FIG. 2b shows the appearance of an electric wire in which thermocouples 2 of both metals 3 and 4 are made in the form of a helix.

 In Fig.3, the heat insulator 6 is made in the form of rings with a triangular section (a) or in the form of a cord winding along a groove with a cord, for example, of circular cross section (b).

 The wire works as follows. When an electric current is passed through it, the electric wire heats up due to the presence of ohmic resistance. Because of it, the voltage and current drop on the wire. But heating the thermocouples 3 and 4 of the alternating transverse structures 2 from the side of the central conductor 1 and cooling them with air from the outside leads to the appearance of electromotive force and current in the thermocouples, which partially compensates for ohmic losses and thereby leads to a decrease in losses during electric power transmission.

Claims (1)

 A LENGTH ELECTRIC WIRES containing a conductor of conductive material, characterized in that it is provided with located on the conductor made of equal conductive materials and alternating elements forming a thermocouple, while adjacent elements are interconnected different from the specified conductive material on internal and external surfaces with a shift of one element in relation to each other.

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