RU2644574C1 - Device for measuring variable currents of high-voltage electric transmission line - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device for measuring variable currents of high-voltage electric transmission line contains primary and secondary conductive windings. The primary winding is made in the form of a plate bent along the circumference with L-shaped branches at the ends directed in opposite directions, the ends of the plate being folded inward with the formation of a gap between parallel L-shaped branches. The secondary winding is wound on the primary winding from the wire. The end of the primary winding is connected to the end of the secondary winding. The ends of the primary winding are built into the cutoff of the power line wires. The ends of the secondary winding are connected to the measuring device.

EFFECT: decrease of mass-dimensional indexes.

2 dwg

Description

The invention relates to electrical engineering, in particular to devices for measuring alternating currents, and can be used to measure alternating currents flowing in high-voltage power lines.

A device for measuring alternating currents of a high voltage power line [SU 660104 A1, IPC ⁶ H01F 38/28, publ. 04/30/1979], containing a current transformer, made in the form of a magnetic core from tape material with windings. The magnetic core is located along the poles of the power line. The primary winding is the wire of the power line, and the secondary winding is wound over the magnetic circuit.

A device for measuring alternating currents of a high voltage power line [SU 564661 A1, IPC ⁶ H01F 38/28, publ. 07/05/1977], containing a high-voltage primary winding, a partitioned magnetic circuit and a low-voltage secondary winding located on its grounded section. An internal high-voltage insulation is installed between the poles of the sections of the magnetic circuit on which the electrostatic screens are located. The primary winding is placed on an ungrounded section of the magnetic circuit.

A device for measuring alternating currents of a high voltage power line [RU 2107351 C1, IPC ⁶ H01F 38/28, publ. 03/20/1998], selected as a prototype, containing the primary winding in the form of a current-carrying wire. The current-carrying wire is covered by a tubular magnetic circuit that performs the function of a secondary winding. A through slot is made in the magnetic circuit along the generatrix. The findings of the device are located at opposite ends of the magnetic circuit. The findings can be made in the form of terminals and mounted on the magnetic circuit with the ability to move along its length.

A common disadvantage of these devices are the significant weight and size characteristics of the magnetic circuit.

The objective of the invention is to develop a device for measuring alternating currents of a high voltage power line.

The proposed device for measuring alternating currents of a high voltage power line, as in the prototype, contains primary and secondary conductive windings.

According to the invention, the primary winding is made in the form of a plate bent around the circumference with L-shaped branches at the ends directed in opposite directions, the ends of the plate being bent inward to form a gap between parallel L-shaped branches. A secondary wire winding is wound on the primary winding. The end of the primary winding is connected to the end of the secondary winding. The ends of the primary winding are mounted in the cut of the wire of the power line. The ends of the secondary winding are connected to a measuring device.

The design of the windings and the lack of a magnetic circuit compared to the prototype, can significantly reduce the mass and create an effective device for measuring the alternating currents of a high-voltage power line.

In FIG. 1 is a diagram of the inclusion of a device for measuring alternating currents of a high voltage power line in a circuit to be measured.

In FIG. 2 shows a device for measuring alternating currents of a high voltage power line.

A device for measuring alternating currents of a high-voltage power line 1 (Y) (Fig. 1) contains a primary winding 2 (Fig. 2) in the form of a copper plate bent around the circumference with L-shaped branches at the ends 3 and 4, directed in opposite directions, and the ends of the plate are bent inward with the formation of a gap between parallel to each other L-shaped branches.

A secondary winding 5 of copper wire is wound on the primary winding. The first end 4 of the primary winding 2 is connected by soldering to one end 6 of the secondary winding 5. The ends 3 and 4 of the primary winding 2 are mounted in the cut of the wire of the power line by soldering. The ends 6 and 7 of the secondary winding 5 are connected to a measuring device 8 (IZ), for example a shield ammeter E378.

The device operates as follows.

L-shaped branches at the ends 3, 4 of the primary winding 2 are mounted in dissection of the wires of the power line. The measured current flowing through the primary winding 2 induces an electromotive force in the secondary winding 5. Under the influence of the electromotive force arising in the circuit in the electric circuit of the secondary winding 5, connected at its ends 6, 7 to the measuring device 8 (IZ), a current occurs. The current flowing in the circuit formed by connecting the end 4 of the primary winding 2 with one end 6 of the secondary winding 5 provides stability to the potential difference of the windings 2, 5. The magnitude of the current is recorded by the measuring device 8 (IZ).

Claims (1)

A device for measuring alternating currents of a high-voltage power line containing primary and secondary conductive windings, characterized in that the primary winding is made in the form of a plate bent around the circumference with L-shaped branches at the ends directed in opposite directions, the ends of the plate being bent inward to form a gap between the L-shaped branches parallel to each other, a secondary wire winding is wound on the primary winding, while the end of the primary winding is connected to the end in toric windings, the ends of the primary windings are mounted in the cut of the wires of the power line, and the ends of the secondary windings are connected to the measuring device.

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