RU2197050C2 - Arc protective device for sheathed overhead cables - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: device has first electrode vertically mounted in downward direction and attached to wire by means of clip piercing wire insulation and second horizontally stretched electrode secured on cross-arm of power transmission line pole or on any other insulating holder at such distance from first electrode that arc excitation can be controlled and maintained between electrodes. Mentioned electrodes are disposed in crosswise manner to each other and transversely to cable so that cable motion does not produce any noticeable impact on distance between electrodes. EFFECT: enhanced functional stability of device. 4 cl, 2 dwg

Description

 The invention relates to an arc protective transition (device) for coated overhead cables, which contains a first electrode that is fixed to the wire with a clip penetrating the insulation of the wire, and a second electrode that is mounted on the traverse of the power line support or on some other an insulating holder at such a distance from the first electrode that an electric arc can be controlled and supported between these electrodes.

 Applicant's published patent EP-0387865 describes an arc shielding device for coated overhead cables in which one electrode is secured to a wire by means of a clip penetrating through the insulation of the wire. The great benefits of using this solution have been proven, which in most cases was very functional. The only defect detected is that only one electrode used does not always function at low short circuit currents. The inclusion of the second electrode, which is mounted on the traverse of the power line support or on some other insulating holder at a certain distance from the electrode mounted on the wire, allows you to controllably excite an electric arc even at low short-circuit currents. However, this revealed a problem in that, in a system with two electrodes, the wires move vertically and horizontally as a result of, for example, exposure to trees or a load associated with ice growths, the distance between the electrodes changes and, thus, the functionality of the arc protective device also changes, for example, in such a way that damage due to circuit overloads can occur.

 An object of the present invention is to eliminate this problem and to obtain an arc protective device of the aforementioned type, in which the distance between the electrodes is not subject to significant changes as a result of the movement of the wires.

 This problem is solved by the fact that these electrodes (4, 5 and 6) are located crosswise in relation to each other, so that the movement of the cables (2) does not significantly affect the distance between the electrodes. The dependent claims disclose a preferred embodiment of the present invention.

An example embodiment of the present invention will be described in more detail with reference to the drawings, in which:
FIG. 1 depicts an arc protection device in accordance with the present invention, a side view,
Figure 2 depicts the same device in the direction of the power line.

 The insulator 1, mounted on the traverse of the power line support or on some other insulating holder, supports an overhead cable 2 with a coating to which the first horn 4 of the arc protection device is attached using the clamp 3. The protective horn 4 is a rod-shaped electrode, the dimensions of which are selected so as to withstand an electric arc. To improve the wear resistance, the protective horn 4 may have a thickening at the end 5. The protective horn 4 is directed perpendicular to the wire 2, in this case, down. The clamp 3 is provided with teeth 3a that pierce the insulation of the wire 2 when clamping the clamp screws 3b. With this, a galvanic contact of the wire through the clamp 3 with the protective horn 4, 5 is provided.

 In the described case, the second electrode 6 is made in the form of a horizontal rod, which is mounted on the traverse of the power line support or on some other insulating holder or insulator using a multi-section bracket, sections 7, 9, 11 of which can be fixed in different positions relative to each other using setting items 8 and 10. The setting of sections 7 and 11 of the bracket can be used to adjust the relative distance or the gap between the electrodes 6 and 4, 5. The setting of sections 7 and 9 of the bracket can be used to adjust the vertical position of the electrode 6, which is in working condition placed slightly above the level of the lower end 5 of the first electrode 5, 4. One or both of the electrodes 6, 4 can be protected by protective devices 12 from birds in order to prevent damage that can be caused by birds or small animals. The bird protector 12 comprises a plastic insulating coating that leaves open the discharge region of the electric arc.

 An essential feature of the present invention is that the electrodes 6 in 4, 5 are placed crosswise with respect to each other and, at the same time, across the wire 2, whereby the movement of the wire 2 does not significantly affect the distance between the electrodes. Indeed, the distance between the electrodes can be kept almost constant, giving the electrodes a slight curvature. Since the wire 2 moves, the electrode 4 moves in the vertical or transverse direction, while the distance from it to the electrode 6 does not change significantly, which allows controlled excitation of the electric arc.

 The present invention is not limited to the above embodiment. For example, the electrodes may have an orientation that is different from that described above so that the electrode 4 may have at the end a horizontal section that will be located crosswise with respect to the vertical electrode replacing the electrode 6. Using the suspended circuit of the insulators, the electrode rod 4 may also be directed up. The electrodes may also have a cross section that is different from a round (rod) and which may be a more or less flat plate. The connection between the electrode 4 and the clamp 3 can also be made in various ways, for example using a separate screw connection.

Claims (4)

 1. An arc protective device for coated overhead cables, comprising a first electrode 4, 5 attached to the cable 2 by means of a clamp 3 penetrating through the cable insulation, and a second electrode 6 mounted on a crosshead of the power line support or some other insulating holder at such a distance from the first electrode that the electric arc can be controlled to be excited and maintained between these electrodes, characterized in that said electrodes 4, 5 and 6 are located crosswise with respect to each other and transversely with respect to cable 2, so that the movement of cables 2 does not significantly affect the distance between the electrodes, while the first electrode 4, 5 is perpendicular to the cable 2 and directed downward, the second electrode is elongated in a horizontal direction and is located above the lower end 5 of the first electrode 4, 5, and the distance of the second electrode from the first can be adjusted with the possibility of additionally introduced adjustment elements 8, 10.  2. The arc protective device according to claim 1, characterized in that the electrodes 4, 5 and 6 are rod-shaped.  3. Arc protection device according to claim 1 or 2, characterized in that the supporting bracket of the second electrode 6 consists of several sections 7, 9, 11, which can be connected to each other at different relative locations to adjust the distance between the electrodes and, preferably, also for vertical adjustment of the second electrode 6.  4. Arc protection device according to any one of paragraphs. 1-3, characterized in that at least one of the electrodes 6, 4 is protected by a protective device 12 from birds.

Images