RU70591U1 - RECTANGULAR WIRE - Google Patents

Abstract

The utility model relates to electrical engineering, in particular to cable technology, and can be used in the construction of high-voltage unshielded wires used for winding solenoids. In a rectangular wire consisting of a flat core and insulation, the flat core is formed of several metallic braids located in each other, while the insulation covers the outer braid. The insulation is made of a heat-shrinkable tube, and the heat-shrinkable tube is made of a crosslinked refractory polyolefin. In a flat core, the ratio of width to thickness can be in the range of 1.8-2.2. A flat core can be formed of three metal braids located in each other, and the braids are made of copper wire. The braid copper wire may have a diameter of 0.20 mm.

Description

The utility model relates to electrical engineering, in particular to cable technology, and can be used in the construction of high-voltage unshielded wires used for winding solenoids.

Known flexible wires of rectangular cross section, consisting of a flat core, insulation, metal braid. In this case, the insulation is molded from several windings located in each other. (“Electric cables, wires and cords.” Reference. Authors: D. S. Bachelis, N. I. Belousov, A. E. Sahakyan, p.595, Moscow, “Energy”. 1971).

It is known to place conductors inside an internal conductor made hollow, and to increase flexibility, the internal hollow conductor is corrugated (Radio Frequency Cables. Authors: N.I. Belousov, I.I. Grodnev, pp. 80-81, Moscow, Energia. 1973).

Known wires with an inner conductor, which can be made in the form of a wire braid, and insulation (AS USSR No. 288073, class N01B 3/01, 1968).

Known for flexible wire conductors for flexible wires that can be layered in several layers ("Electrical cables, wires and cords." Authors: D. S. Bachelis, N. I. Belousov, A. E. Saakyan, p. 47, Moscow, "Energy". 1971).

Ribbon cables are known having a width of approximately two thicknesses, with a conductor inside which conductors of a similar profile are arranged. These cables are rectangular and symmetrical. ("Radio-frequency cables." Authors: N.I. Belousov, I.I. Grodnev, pp. 188-189, Moscow, "Energy". 1973).

The closest analogue (prototype) are flexible wires with copper conductors and insulation. For winding inductors in

pulse circuits can be used high-voltage flexible wires with a cross section of conductors from 1.5 to 6 mm ² and an outer diameter of 5.5 to 7.8 mm, as well as conductors with a cross section of 6 mm ² and an outer diameter of 11.3 mm. They could have a multi-wire copper core, and silicone rubber insulation (“Electrical cables, wires and cords.” Reference. Authors: N.I. Belousov, A.E. Saakyan, A.I. Yakovlev, p.136, Moscow , Energoatomizdat. 1987).

The disadvantages of flexible high-voltage wires with round conductors should include large inter-turn capacitances when using these wires for winding solenoid coils, as well as an increase in coil sizes, especially for large cross-section wires up to 20 mm ² .

The task to which the proposed utility model is directed is to create a high-voltage flat wire in which the cross-section of the core can reach 20 mm ² , and monolithic insulation has an electric strength of at least 10 kV, which in terms of flexibility and ability to ensure ease of installation by using both flat and round clamps, can be used for winding coils without a significant increase in their size and with a significant reduction in inter-turn capacities due to the increased flexibility of the wire and the possibility of and its tight winding.

The technical result in the implementation of the proposed utility model is to enable the use of a high-voltage wire of rectangular cross section for winding a solenoid coil without significantly increasing its size even with a cross section of up to 20 mm ² . At the same time, due to the technical features that were used in the manufacture of rectangular wire, the flexibility of the wire is increased, the size of the inter-turn capacities is reduced, and it becomes possible to use clamps of various configurations (flat, round, etc.) during installation.

The following essential features influence the achievement of the indicated technical result.

In a wire of rectangular cross section, consisting of a flat core and insulation, the flat core is formed of several metal braids located in each other, while the insulation covers the outer braid. The insulation is made of heat-shrinkable tube. The heat-shrinkable tube is made of a crosslinked refractory polyolefin. In a flat core, the ratio of width to thickness is in the range of 1.8-2.2 and it can be formed of three metal braids located in each other. The metal braids are made of copper wire, and the copper braid wire may have a diameter of 0.20 mm.

The essence of the utility model is illustrated in the drawing.

Figure 1 shows a wire of rectangular cross section.

A rectangular wire consists of a flat core 1 and insulation 2. Flat core 1 is formed of several metal braids located in each other, while insulation 2 covers the outer braid.

In the example of the execution of a wire of rectangular cross section, insulation 1 is made of a heat-shrinkable tube with a radial thickness of 0.6 mm, and the heat-shrinkable tube is made of a crosslinked refractory polyolefin. In a flat conductor 1, the ratio of width to thickness is in the range of 1.8-2.2. In the embodiment, the width is 9 mm and the thickness is 4.5 mm. A flat core can be formed of three metallic braids located in each other. Metal braids are made of copper wire. In an exemplary embodiment, the copper braid wire may have a diameter of 0.20 mm.

The work is as follows. In the manufacture of solenoids in pulsed and other high-voltage devices, a rectangular wire is fastened not only with a flat clamp, but also with a clamp of any configuration, for example, round and others. It makes the mount

more universal, expands the possibilities of installation. If a flat clamp covers a wire of rectangular cross section on two sides of the width, then, for example, a round clamp with the same success covers the wire around the entire perimeter, forming it along the contour of the clamp. Several metal braids, located in each other, allow you to change the clip configuration of the wire to perform its functions. And in the case of removing such a clamp and winding the wire onto the solenoid, the configuration is converted to the original along the entire length. Significant flexibility of the wire can be maintained even at cross-sections up to 20 mm ² with monolithic insulation with an electric strength of at least 10 kV, while inter-turn capacitances are minimal. When winding a wire of rectangular cross section on the core of the solenoid due to the high bending capabilities, the wire tightly covers it and provides the minimum value of inter-turn capacities. The tight fit of the wire along its width and thickness due to the specified ratio improves the solution to the problem of ensuring the possibility of winding a wire of rectangular cross section on a coil without significantly increasing its size.

Thus, the use of the proposed wire instead of round wire makes it possible to increase the cross section of the core to 20 mm ² without a significant increase in the size of the solenoid. At the same time, inter-turn capacities are reduced and the possibility of using the available clips during installation is created.

Claims (7)

1. A wire of rectangular cross section, consisting of a flat core and insulation, characterized in that the flat core is formed of several metal braids located in each other, while the insulation covers the outer braid. 2. The wire according to claim 1, characterized in that the insulation is made of heat-shrinkable tube. 3. The wire according to claim 2, characterized in that the heat-shrinkable tube is made of a crosslinked refractory polyolefin. 4. The wire according to claim 1, characterized in that in a flat core the ratio of width to thickness is in the range of 1.8-2.2. 5. The wire according to claim 1, characterized in that the flat core is formed of three metallic braids located in each other. 6. The wire according to claim 1, characterized in that the metal braids are made of copper wire. 7. The wire according to claim 1, characterized in that the copper braid wire has a diameter of 0.20 mm