RU2309505C1 - Device for cleaning wires of electric lines - Google Patents

Abstract

FIELD: electric engineering, possible use for cleaning wires of high voltage power lines from ice coating.

SUBSTANCE: in accordance to the invention, device contains ice cutters with toothed elements positioned on both sides of body, first and second mobile rings, inside which a wire passes, two electromagnets with electromagnet power supply, which is connected to ice coating sensor and to radio control block placed in the body, where aforementioned rings are made in form of resiliently connected semi-rings of ferromagnetic material, and also contains immoveable ring, consisting of semi-rings, connected by nonmagnetic non-conductive material and connected to mobile rings by resilient connection, where immobile ring is positioned in such a way, that recesses are turned for 90° relatively to recesses of mobile rings.

EFFECT: signaling and prevention of ice formation on electric line wires.

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Description

The invention relates to the field of electrical engineering and can be used to clean the wires of high-voltage power lines from ice.

A device for cleaning the wires of a power line / RF Patent No. 2067345, IPC Н02G 7/16, publ. 09/27/96 / having mechanical contact with a live element. The Executive unit is connected in series with a non-linear unit, a capacitor, a power source and a receiving element. In this case, the executive unit is made in the form of a piezoelectric element having electrical contact with the current-carrying element, the capacitor is connected in parallel with the piezoelectric element and the nonlinear block, and the receiving element is made in the form of a corona electrode. The device may also include a thermal relay connected between the receiving element and the nonlinear block. In addition, a rectifier is included in the circuit of the receiving element.

The disadvantage of this device is the presence of a piezoelectric element, which leads to small amplitudes of oscillations of the wire and leads to low efficiency.

Also known is a device for cleaning wires of power lines / USSR Author's Certificate No. 666601, IPC Н02G 7/16, publ. 06/05/79 / containing a driven carriage mounted on a wire with the ability to move along it, equipped with ice cutters and a motor with a power source, made in the form of a throttle type transformer, the primary winding of which is an overhead power line wire, and the secondary winding is located on the core, covering specified wire.

A device for cleaning wires of power lines is also known / USSR Author's Certificate No. 1372442, IPC Н02G 7/16, publ. 02/07/88 / containing rods mounted on the vehicle according to the number of wires to be cleaned, ice-cutting rollers with serrated grooves whose bottom width is greater than or equal to the diameter of the wire, and spring-loaded forks mounted on the rods, which are fixed to the axes of the ice-cutting rollers. The groove of the ice-cutting roller can be trapezoidal, and its bottom has a smooth surface and is covered with elastic material. In addition, the rod can be made telescopic of telescopic material.

The disadvantage of this device is the use of a vehicle, a tractor, on which the rods are mounted, as a result of which the removal of ice is low.

The closest in technical essence and the achieved result to the claimed is a device for cleaning the wires of power lines / RF Patent No. 2142188, IPC Н02G 7/16, publ. 11.27.99 / containing ice cutters with gear elements, movable rings made of ferromagnetic material with coaxial slots and rigidly fixed in a non-magnetic sealed housing, a ring with a slot fixed relative to the body, rotated 180 ° relative to the slots of the moving rings inside which the wire passes, while the device contains two electromagnets with an electromagnet power supply unit, which is connected with an ice sensor and a radio control unit placed in a housing, ring ice cutters are placed on both sides of it.

The disadvantages of the prototype are that the movement of the device is provided by alternating strokes, resulting in reduced reliability and efficiency of removing ice.

The problem to which the invention is directed is to increase the reliability and efficiency of removing ice due to the application of the method of shockless vibrational movement.

This object is achieved in that in a device for cleaning wires of power lines, containing ice cutters located on both sides of the housing with gear elements, first and second movable rings, inside which the wire passes, the device contains two electromagnets with an electromagnet power supply unit, which is connected with an icing sensor and a radio control unit placed in the housing, in contrast to the prototype, said rings are made in the form of elastically coupled half rings of ferromagnetic material, also contains a movable ring consisting of half-rings held together and non-magnetic non-conductive material bonded with movable elastic coupling rings, wherein the fixed ring is arranged so that the slots are rotated 90 ° relative to the slits movable rings.

The essence of the device for cleaning the wires of power lines is illustrated by drawings. Figure 1 presents a General view of the device. 2, the dotted line shows the magnetic flux path.

A device for cleaning the wires of power lines contains a first movable ring 1 and a second movable ring 2 in the form of elastically connected half rings of ferromagnetic material, as well as a fixed ferromagnetic ring 4, consisting of half rings fixed by a non-magnetic non-conductive insert and having an elastic connection, rigidly fixed in a non-magnetic sealed housing 3 5 with rings 1, 2. Inside these elements, wire 6 passes. In this case, the device contains two electromagnets 7 and 8 with a power unit of electromagnets 9, which is connected with an ice sensor 10 and a radio control unit 11. On both sides of the housing 3 are placed ring ice cutters 12.

A device for cleaning the wires of power lines works as follows. In the event of an icy situation, the radio control unit 11 includes a power supply unit 9 of the electromagnets 7 and 8. When the icing appears, fixed by the icing sensor 10, one of the electromagnets 7 or 8 is activated, fixing one of their gaps between rings 1 and 4 (or 4 and 2). Alternating current flowing through the wire 6, excites an alternating magnetic coil in the magnetic circuit of the device, the path of which is shown in figure 2. Between the working parts of the device there is a variable force of attraction, changing its value from zero to maximum. When the electromagnetic force is greater than the spring force, the ring 2 (or 1) begins to be attracted to the fixed ring 4, while simultaneously contracting and fixing on the wire. The center of mass is shifted towards the ring 2. Then the electromagnetic force decreases and becomes less than the spring elastic force, the ring 2 is expanded under the action of the springs, and the rings 4 and 2 are repelled, and since the friction forces acting on both rings are the same, there is no center of gravity movement . Further, the force of attraction begins to increase again and the cycle repeats again. The device cycle frequency is equal to twice the network frequency, i.e. at a network frequency of 50 Hz, the vibration frequency is 100 Hz, and at a network frequency of 60 Hz, the vibration frequency, respectively, is 120 Hz.

Thus, the claimed invention provides high cleaning efficiency of wires of power lines.

Claims (1)

A device for cleaning the wires of power lines, containing ice cutters with gear elements located on both sides of the case, the first and second movable rings inside which the wire passes, the device contains two electromagnets with an electromagnet power supply unit, which is connected to the ice sensor and a radio control unit, placed in the housing, characterized in that the said ring is made in the form of elastically connected half rings of ferromagnetic material, also contains a fixed ring consisting of half rings, bonded with a non-magnetic non-conductive material, and bonded to the movable rings by an elastic bond, while the fixed ring is located so that the slots are rotated 90 ° relative to the slots of the movable rings.

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