RU34798U1 - Flexible bare conductor - Google Patents

Description

Flexible non-insulated conductor

The technical solution relates to electrical engineering, namely, to the designs of flexible uninsulated conductors used as inter-rail elements, for example, throttle jumpers and butt electrical connectors of railway tracks.

A well-known design of a flexible non-insulated hfovodnik made of steel teflon equipped with a zinc coating (“Automation, communication, computer science, 1998, X 2, p. 36).

The disadvantage of this design is that it is possible to use such a breech pin only for lightly loaded railway lines, due to its high electrical resistance. Therefore, on railway lines with a large load, a conductor with a large outer diameter is required. This reduces the flexibility of the conductor and, therefore, difficulties arise during its installation.

A known design, selected as a prototype, a flexible uninsulated conductor containing strands. (P.I. Belorussov, A.E. Saakyan, A.I. Yakovleva “Electric cables, wires and cords. Handbook, M:“ Energoatomizdat, 1988, p. 499).

2003118827

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2003118827

IPC 7: H 01 at 5 / 08.7 / 28, V bom 1/30

in this design of the ovodnik flexible strands are made of copper wires, therefore it has low electrical resistance and can be used on any sections of railway lines.

The disadvantages of this design include the high cost of the flexible conductor (high cost of the copper wire used to produce strands) and insufficient mechanical strength. Therefore, in the loaded sections of the railroad lines due to significant shock-dynamic loads from the action of the wheels on the joints of the rails, destruction of the flexible flexible gate and damage to the integrity of the electric circuit of the railway line may occur. With an increase in the size of the conductor, which allows to provide the necessary mechanical strength, the flexibility of the shchuvodnik decreases, and difficulties arise during its installation.

The challenge facing the authors of the technical solution is to create a flexible non-insulated conductor that ensures the integrity of the electric circuit in the loaded sections of the railway line by increasing its mechanical strength, ensuring minimal electrical resistance and reducing theft.

The indicated problem is solved as follows.

In a flexible non-insulated conductor containing strands made of copper wires, it is new that each strand additionally contains at least one steel wire, wherein the steel and copper wires are provided with at least one layer

aluminum, and / or zinc, and / or nickel, and / or copper, and / or chromium, and / or tin, and / or lead, and / or an alloy comprising at least one of the metals of these layers.

The proposed flexible conductor non-scholastic allows you to ensure the integrity of the electrical circuit on the loaded sections of the railway, as it has the required mechanical strength and the necessary flexibility. At the same time, corrosion resistance is ensured, and the supply of copper and steel wires with a coating allows to reduce the likelihood of theft of hfovodnikov. Moreover, the implementation of strands of steel and copper wires allows for maximum flexibility, the required mechanical strength and low electrical resistance of the flexible non-insulated conductor.

When conducting a search on the sources of patent and scientific information, no solution was found containing the totality of the proposed features, which allows us to conclude that the claimed technical solution meets the criterion of "novelty.

The industrial applicability of the proposed solution is visible from the description.

The proposed technical solution is illustrated by drawings.

In FIG. 1 shows a diagram of a flexible uninsulated conductor.

In FIG. 2 - cross section of the strand (increased).

3, wherein the steel wire 3 and the copper wire 2 are coated

4, made of at least one layer of aluminum and / or zinc and / or nickel and / or copper and / or chromium and / or tin and / or lead and / or an alloy comprising at least one of the metals of these layers.

The proposed design works as follows.

During operation, mechanical and electrical loads acting on the conductor are evenly distributed between strands 1, while in each strand 1, almost all mechanical load is absorbed by steel wires 3, and copper 1 fibers 2 provide the necessary electrical conductivity of the entire flexible uninsulated conductor. In this case, the coating 4 eliminates the occurrence of chemical processes on the surface of steel and copper wires. Separate, consisting of copper and steel wires are twisted into strands with a regular or bundle twist, and strands - in general A non-insulated conductor using any device known from the prior art.

Flexible uninsulated conductor has a long service life due to increased mechanical strength and sufficient flexibility. In addition, the use of such a protective system will reduce its theft and ensure safe movement.

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Claims (1)

Flexible non-insulated conductor containing strands made of copper wire, characterized in that each of the strands additionally contains at least one steel wire, while the steel and copper wires are provided with a coating made of at least one layer of aluminum and / or zinc and / or nickel and / or copper and / or chromium and / or tin and / or lead and / or an alloy comprising at least one of the metals of these layers.