RU196041U1 - ELECTRIC TRANSMISSION AIR TURN-OFF DEVICE WITH CONDUCTIVE THREADS AND INERTIAL METAL BALLS - Google Patents

Abstract

The utility model relates to a special field of electrical engineering, specifically to devices for emergency non-destructive disconnection of overhead power lines, which leads to the destabilizing operation of the power system. The technical result of the utility model is to provide directional effects on the destabilization of a specific section of the energy system by conductive threads by attaching metal inertial balls to them and the possibility of fixing conductive graphite filaments to the elements of the electric power line a rider using inertial metal balls. A device for disconnecting an overhead power line consists of: a metal cylinder 200x70 mm, a kick spring, a parachute, conductive graphite threads with inertial metal balls. A new feature in a device for disconnecting an overhead power line is that it is attached to conductive graphite threads ( intertwined) inertial metal balls.

Description

The utility model relates to a special field of electrical engineering, specifically to devices for non-destructive disconnection of overhead power lines, leading to destabilizing operation of the power system and may be used in military affairs.

A device for non-destructive disconnection of overhead power lines with conductive threads - aviation cluster munition BLU 114 / V, which is a metal cylinder 200 × 70 mm, equipped with spools of conductive threads made of composite material based on carbon - graphite threads, kick charge and parachute [1] . The principle of application of this device is as follows: the ammunition is delivered to the place of impact on the high-voltage overhead lines using an airplane. The rupture of ammunition leads to the scattering of devices with carbon conductive threads. When a parachute is ejected under the action of a spring, graphite threads are ejected from the device, which fly into large areas and, if they get onto power lines or electric substations, cause a short circuit, which leads to a power outage in a given area, limited in area.

The disadvantages of this device are: firstly, the limited ability to disperse conductive graphite filaments due to the low weight and low efficiency in windy conditions; secondly, the impossibility of fixing graphite filaments on the conductive elements of power lines or open electrical substations.

The technical result of the utility model is to provide a directed effect on the destabilization of a specific section of the energy system by conducting threads by attaching metal inertial balls to them and the possibility of fixing conductive graphite threads to power line elements using inertial metal balls.

The technical result achieved is achieved by introducing inertial metal balls into the composition of the grid of graphite filaments, which, firstly, after ejecting graphite filaments from a charge, contribute to stretching the grid in the air, thereby creating a large covered area and reducing the soaring effect; secondly, getting on the conductive elements of the overhead power line, wound on them and create interphase short circuits in the energy system.

The overhead power line cut-off device shown in the Figure consists of: a metal cylinder 200x70 mm (1), a knock-out spring (2), a parachute (3), conductive graphite threads (4), inertial metal balls (5).

The device off the overhead power line works as follows. After the air charge is dropped at a given height, devices for destabilizing the energy system in a given area disperse in the form of a metal cylinder, inside of which there is a knock-out spring, a parachute and conductive graphite threads with inertial metal balls. When the parachute is triggered by a knockout spring, graphite filaments with inertial metal balls are ejected. Under the action of gravity of inertial balls, the graphite filaments straighten, creating a large coating area. When hit on the conductive parts of power lines, graphite filaments are twisted and fixed by inertia with inertial metal balls, creating interphase short circuits and destabilizing the power system in a given area.

A device for disconnecting power lines using conductive graphite filaments with inertial metal balls attached to them will allow you to deliberately disable a specific section of the energy system in a given area.

Sources of information:

1. Site "Graphite bomb" [Electronic resource]. - Access mode: http://gunza.ru fag \ grafit / html.

Claims (1)

An overhead power line cut-off device consisting of a metal cylinder 200x70 mm, a knock-out spring, a parachute and conductive graphite threads, characterized in that inertial metal balls are attached to conductive graphite threads.

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