RU77720U1 - UNINSULATED WIRE PREVIOUSLY FOR JUMPERS AND RAIL CONNECTORS (OPTIONS) - Google Patents

Abstract

The invention relates to the field of electrical engineering, namely, to the construction of wires used for throttle and inter-throttle jumpers and rail connectors on electrified railways. In the wire, according to option 1, consisting of a package of tapes of conductive material covered by fastening elements, the package is made of one or more tapes with high conductivity, for example, aluminum, and the fastening elements are made in the form of solid armor from the winding with a galvanized steel tape, which can be applied and with an overlap of 10-30%. In the wire according to option 2, the conductive core is made of one or more conductors with high conductivity, for example, aluminum, twisted or longitudinally laid, and fastening elements as in option 1. In a wire of several tapes, at least, the inner surfaces of aluminum strips can be coated with a heat-resistant protective grease or made with a protective coating, for example, zinc. The conductors in the wire according to option 2 may also have a protective coating. The wire is resistant to vibration and corrosion and protected by armor from mechanical influences. 5 p. Formulas 5 illustrations

Description

The utility model relates to the field of electrical engineering, namely, to the construction of wires used for throttle and inter-throttle jumpers and rail connectors on electrified railways.

Known steel-aluminum wire, which consists of an elastic steel core and one or two coils of aluminum wires. (Non-insulated wires for overhead power lines. Specifications. GOST 839-80).

However, when operating it for jumpers, it has drawbacks, low resistance to vibration and corrosion, complicated equipment and manufacturing technology of connections with a tip and a plug.

A non-insulated wire is known for overhead transmission lines of ultra-high voltage, which contains a conductor in the form of several multilayer tapes superimposed in the form of a winding with a large pitch. Each multilayer tape consists of alternating layers: conductive (copper and aluminum, which are deposited by spraying δ = 15 microns), semiconducting and dielectric material (δ = 5 microns). The fastening elements are made in the form of continuous armor from the winding with a steel tape imposed end-to-end.

(Autosvid. SU No. 1786510 A1, class H01B 5/04, published on January 7, 1993).

The specified wire has disadvantages: low resistance to vibration and corrosion. In addition, the dielectric material will not withstand even the minimum temperature when it is used for jumpers (35 ° + 160 ° = 190 ° C) and will collapse.

Known wire consisting of a conductive core made of one or more twisted conductors with high conductivity, for example, aluminum. Moreover, each of the conductive cores is coated with XLPE, has a belt insulation and a polymer shell. On top of the wire is covered with solid armor in the form of a winding made of steel or galvanized steel tape, superimposed overlapping.

(Utility model RU No. 42351 U1, CL HB 9/00, publ. 27 11.2004)

The wire has the same drawbacks as the previous wire: low resistance to vibration and corrosion, and the polymer insulation and shell at high temperature simply melt.

The prototype is a wire drawn from galvanized steel strips with fasteners made of steel. (Galvanized sheet steel with continuous lines. GOST 14018).

The wire has several disadvantages. It has a large electrical resistance and creates a large asymmetry in the circuit.

In addition, the large weight and dimensions make installation difficult. So a two-wire throttle bridge on an equivalent cross section, for example, aluminum 120 mm ² , has a single wire cross section of the order of 360 mm ² and with a length of 3660 mm will have a weight of 25 kg and significant cross-sectional dimensions (of the order of 9 × 40 mm), which creates great difficulties with mounting bends.

The basis of this utility model is the task of creating such a wire in which a new set of structural elements and their new relative position would reduce electrical resistance, asymmetry in the circuit, increase resistance to vibration, significantly reduce weight and dimensions, which will improve installation conditions.

The problem is solved in that in the wire, mainly for jumpers according to option 1, including flat conductors, fastening elements in the form of solid steel armor, according to a useful model, flat conductors are made in the form of one or more strips of aluminum or aluminum alloy, longitudinally laid in a package covered by armor made in the form of a winding made of galvanized steel tape, superimposed overlapping.

The problem is solved in that in the wire, mainly for jumpers and rail connectors, according to option 2, comprising a conductive core, fastening elements in the form of solid steel armor, according to a useful model, the conductive core is made of one or more conductors of aluminum or aluminum alloy, twisted or longitudinally laid, and covered by armor made in the form of a winding made of galvanized steel tape, superimposed overlapping.

In a bag of several tapes, at least the inner surfaces of the aluminum tapes can be coated with a protective heat-resistant grease

In a bag of several tapes, at least the inner surfaces of the aluminum tapes can be made with a protective coating, for example, zinc.

In the wire according to option 2, at least the outer surface of the conductive core can be made with a protective coating.

The advantages of the proposed wire are that due to the implementation of the conductive core of one or more strips or conductors with high conductivity, for example, aluminum or ABE aluminum alloy, the electrical resistance is reduced below the level of aluminum wires (since there is no twisting), therefore less loss, the asymmetry decreases (the resistance difference of the long bridge L = 3660 mm and the short L = 1660 mm) of the circuit, thereby increasing the reliability of the jumpers.

As you know, aluminum dampens vibration well, so aluminum tapes or conductors will also dampen vibration.

Solid armor made of galvanized steel tapes protects aluminum tapes or conductors from corrosion, since zinc is more active than aluminum and in an unfavorable environment (for aluminum it is mostly slightly alkaline - dust when transporting chemical fertilizers) zinc will react first. That is, the proposed corrosion resistance wire will be higher than uninsulated aluminum and steel-aluminum wires. In addition, solid armor reliably protects aluminum strips or conductors from mechanical damage.

The wire weight and dimensions in its cross section are reduced 4.5 times, which significantly improves the installation conditions, and also reduces the cost of jumpers and connectors.

When protecting aluminum strips with heat-resistant grease, their corrosion resistance and vibration resistance increase.

If there is a protective coating on aluminum tapes or conductors, such as zinc, the service life of the wire is increased.

The wire is schematically shown in FIGS. 1-5. Figure 1 in a side view, figure 2 in front view shows a wire according to option 1 of tapes with solid armor in the form of a winding. Figure 3-5 shows in cross section a wire according to embodiment 2. Figure 3 shows a wire with one conductor in solid armor, figure 4 also with several conductors, figure 5 also with sealed conductors.

The wire, mainly for jumpers, according to option 1 consists of a package of tapes of conductive material covered by fastening elements. The package is made of one or more strips 1 with high conductivity, for example, aluminum or aluminum alloy ABE, etc. The fastening elements are made in the form of solid armor from a winding with steel galvanized tape 2 for mechanical and corrosion protection of aluminum strips 1. The required wire cross section is selected when optimal package width by selecting the thickness of one or more aluminum bands 1.

The wire, mainly for jumpers and rail connectors, according to option 2 consists of a conductive core, covered by fastening elements. The conductive core is made of one conductor 3 (Fig. 3) or several conductors 4 with high conductivity (Fig. 4), for example, aluminum or aluminum alloy ABE, etc., twisted or longitudinally laid. The fastening elements are made similarly to option 1 in the form of continuous armor from a winding made of galvanized steel tape 2.

Aluminum tapes 1 and conductors 3, 4 and, as a rule, steel tapes 2 are made annealed so that the wire is not rigid during mounting bends.

The winding with galvanized steel tape 2 can be applied with an overlap of 10-30%, improving the mechanical and corrosion protection of the package of aluminum strips 1 or conductors 3, 4.

Steel galvanized strip 2 is a thickness of the order of 0.2-0.7 mm.

In a packet of several tapes, at least the inner surfaces of aluminum tapes can be coated with a heat-resistant protective grease having good adhesion, which is used for aluminum wires according to GOST 839-80.

In a package of several tapes, at least the inner surfaces of the aluminum tapes can be made with a protective coating, for example, zinc, silicone varnish, etc., increasing corrosion resistance and service life.

In the wire according to option 2, at least the outer surface of the conductive core can be made with a protective coating, for example, zinc, silicone varnish, etc.

The proposed wire according to option 1 is the most resistant to vibration of all wires used for jumpers (copper, steel-aluminum,

steel, steel-copper), as it is made flat and has a 2-3-fold lower height in the plane of action of vibrations than the listed wires and, therefore, a lower moment of inertia. In addition, as is known, aluminum has an elastic modulus of 2.5 times less than steel and copper.

Claims (5)

1. Uninsulated wire, mainly for jumpers and rail connectors, including flat conductors, fastening elements in the form of solid steel armor, characterized in that the flat conductors are made in the form of one or more strips of aluminum or aluminum alloy, longitudinally laid in a package covered by armor made in the form of a winding made of galvanized steel tape, superimposed overlapping. 2. The wire according to claim 1, characterized in that in a packet of several tapes, at least the inner surfaces of the aluminum tapes are coated with a protective heat-resistant grease. 3. A wire according to any one of claims 1 and 2, characterized in that in a packet of several tapes, at least the inner surfaces of the aluminum tapes are made with a protective coating, for example zinc. 4. Uninsulated wire, mainly for jumpers and rail connectors, including a conductive core, fastening elements in the form of solid steel armor, characterized in that the conductive core is made of one or more conductors of aluminum or aluminum alloy, twisted or longitudinally laid and covered by armor, made in the form of a winding with galvanized steel tape, superimposed overlapping. 5. The wire according to claim 4, characterized in that at least the outer surface of the conductive core is made with a protective coating.