SU853730A1 - Overhead power transmission line - Google Patents

Description

(54} AIR TRANSMISSION AIR

The invention relates to electric power industry and can be used in overhead power lines in the construction of light guards. There is a known electrical transmission line, which contains luminaires on each support, which, through a communication line, such as a cable line, to an external power source, and a capacitor power take-off transformer connected to a ground ground wire, are supplied with a voltage of a certain magnitude, for example 220 V. In addition to this, a backup link to the transformer is provided in case of a broken cable. Cable lines are laid specifically for powering luminaires on a pole, since high voltages do not allow power to be supplied directly from an overhead line. For such a light barrier, several local power lines fl} are required. Disadvantages of such a device: 1. The section of the high-voltage line with an insulated cable loses lightning protection. 2.When lightning strikes an insulated ground wire, the current transformer is out of order. Since all the luminaires are powered by a single current transformer and have a common automatic day-off device, the output of any one of them entails the shutdown of the entire illumination. 4. There is no stabilization of the induced voltage, which leads to the failure of luminaires and a transformer during overvoltages. 5. Application and complexity of mounting a current transformer. Closest to the proposed overhead line is an overhead transmission line containing

supports with wires fixed on them and power supply units, for example, for lamps, made in the form of current transformers with a ferromagnetic core, the primary winding of which is an overhead transmission line wire and the secondary winding is located on a ferromagnetic core

Disadvantage of this overhead line

power transmission is unreliable due to the instability of the induced secondary section of the ferromagnetic voltage cores

The purpose of the invention is to improve the reliability of an overhead transmission line by ensuring stable operation of power units. - -

This goal is achieved in an overhead power transmission line containing supports with wires attached to them and power supply units, for example, for luminaries 9 made in the form of current transformers with a ferromagnetic core, the primary winding of which is an overhead power line wire and the secondary winding is located on the ferromagnetic core.

New in this electric transmission line is that the ferromagnetic core is made with a variable cross-section, with the ratio of the extreme cross-sectional areas of the opposite sides of the core 1: 4, and the side of the core having a larger one. section, made with a hole in which is located the specified wire transmission lines.

FIG. 1 shows a power supply unit; a general view of FIG. 2 - the same, top view; in fig. 3 shows a section of an overhead transmission line in FIG. 4, node T in FIG. 3; in fig. 5 is an electrical circuit line.

The wires of the I electrical transmission air liquefaction are fixed on the supports 2 by means of arms of insulators 3,

On each of the supports 2 on the wires 1 with the help of attachment points 4 fixed lights 5.

The power supply unit 6 of each of the luminaries NIKOV 5 is fixed on the corresponding wire of 1 line.

The power supply unit 6 of each of their luminaries NICK 5 is made in the form of a current transformer with a ferromagnetic core 7 with a variable cross section, and the ratio of the cross sections of the opposite sides of the core 7 is 1: 4.

The side of the ferromagnetic core, which has a larger cross section, is made with a hole in which the wire 1 of the power line is located. On the opposite side of the core, which has a smaller cross section, is the secondary winding 8 of the power supply unit of the lamp 5.

Each of the ferromagnetic cores 7 is located under the phase voltage of the overhead transmission line relative to the earth, and the voltage excited in the secondary winding 8 will be equal to the value of the supply voltage of the lamp 5.

The use of the invention will ensure complete autonomy of the power supply units of the fencing lamps and will allow the power supply unit to be made with the simplest isolation of the secondary winding.

Claims (2)

1.Proekt of the Ural Department of the Institute Energosetproekt VL 500 kV Surgutsk GRES-Ust-Balyk with transfer through r. Ob No. 1824-25, 1975JL drawings No. 1824-25-44, 1824-25-45. 2. USSR author's certificate number 666601, cl. H 02 G 7/16, 1977. FIG. five if y