RU2535197C1 - Multielectrode insulator-discharger and method of its fabrication - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: insulator intended for fastening as a single insulator or with a column or chain of insulators, high-voltage wire in electric installation or in a power line is described. The insulator contains an isolation body and a fixture installed on its ends of the first and second elements of the fixture. The first fixture element is designed with a possibility of connection, directly or through the fastening device, with a high-voltage wire or with the second fixture element of preceding high-voltage insulator of the named column or chain. The second fixture element is designed with a possibility of connection with electric installation, or with a power line support, or with the first fixture device of the consequent high-voltage insulator of the named column or chain. Besides the insulator contains four or more electrodes protruding into three or more discharge chambers, located in the insulating body. The discharge chambers are housings opened towards space around the isolation body, and are equipped with protuberances installed inside housings with a possibility of limitation of the value of discharge clearance between electrodes. The edge electrodes are connected electrically to the fixture or go out to the surface of the insulating body.

EFFECT: decrease of spread in values of discharge clearances between electrodes at manufacture of the insulator, that ensures a reliable protection of electric installations and lines from lightning discharges, and also increases the life expectancy of the insulator.

5 cl, 3 dwg

Description

FIELD OF THE INVENTION

The present invention relates to protection elements for electrical equipment and power lines, in particular to insulators equipped with arresters.

State of the art

From the international application WO 2009120114, an insulator is known for mounting, as a single insulator or as part of a column or a string of insulators, a high-voltage wire in an electrical installation or on a power line, containing an insulating body, reinforcement in the form of first and second reinforcement elements installed at its ends, the first the reinforcement element is made with the possibility of connection, directly or by means of a fixing device, with a high-voltage wire or with a second reinforcement element of the previous high-voltage a full insulator of the indicated column or garland, and the second reinforcement element is made with the possibility of connection with the electrical installation or support of the power line or with the first reinforcement element of the subsequent high-voltage insulator of the specified column or garland.

The specified insulator is characterized in that it further comprises a multi-electrode system consisting of five or more electrodes mechanically connected to the insulating body and located between its ends with the possibility of formation under the influence of lightning overvoltage of an electric discharge between the first valve element and the adjacent electrode (adjacent) to it ( electrodes), between adjacent electrodes, as well as between the second valve element and the adjacent (adjacent) electrode (s).

The advantage of the insulator is that the insulator performs in addition to its main function the function of lightning protection, i.e. does not require the use of a lightning arrester with it.

At the same time, the disadvantage of this insulator is that in the manufacture of an insulating body using polymers, the values of the discharge gaps of the multi-electrode system have a spread, that is, they vary from one discharge gap to another due to the fact that the sizes of the electrodes have a certain spread, and their installation with the provision of the specified gaps between them, it becomes difficult due to the complexity of the tasks of preparing the mold for casting an insulating body using polymers.

Disclosure of invention

The objective of the present invention is to provide the same values of the discharge gaps between the electrodes of the arrester.

The objective of the present invention is also solved by using an insulator-arrester, which is an insulator for mounting, as a single insulator or as part of a column or a string of insulators, mainly a high-voltage wire in an electrical installation or on a transmission line, containing an insulating body, fittings in the form of installed on it the ends of the first and second reinforcing elements, the first reinforcing element is made with the possibility of connection, directly or by means of a mounting device, with high with a voltage cable or with a second reinforcement element of the previous high-voltage insulator of the indicated column or garland, and the second reinforcement element is made with the possibility of connection with the electrical installation or support of the power line or with the first reinforcement element of the subsequent high-voltage insulator of the specified column or garland.

The specified insulator also contains four or more electrodes extending into three or more discharge chambers located in the insulating body, the discharge chambers being enclosures open into the space around the insulating body and provided with protrusions mounted inside the enclosures with the possibility of limiting the size of the discharge gap between the electrodes moreover, the extreme electrodes are electrically connected to the armature or extend to the surface of the insulating body.

The cases of the discharge chambers are mainly made in the form of glasses. In a preferred embodiment, the electrodes are at least partially located in the insulating body.

The objective of the present invention is also solved by means of a power line containing supports, single insulators and / or insulators, assembled in columns or garlands, and at least one wire, preferably at a high voltage, connected directly or by means of fastening devices to fittings single insulators and / or first insulators of columns or strings of insulators, with each single insulator or each column or string of insulators mounted on one of the through its pore reinforcement element adjacent to said support. At least one of the insulators of such a power line is an insulator according to any of the above options.

The objective of the present invention is also solved by a method of manufacturing the above insulator. In the implementation of the method, a mold is used for the manufacture of an insulating body containing a cavity for filling with polymer. The method comprises the following steps: installing discharge chamber housings in a mold for manufacturing an insulating body, wherein the discharge chamber housings are set so that the open parts of the discharge chamber housings protrude from the mold for manufacturing an insulating body, installing electrodes in the discharge chamber housings, adjusting the positions of the discharge chamber housings so that the electrodes abut against the protrusions provided in the housings, fitting the fittings, and filling the mold with polymer.

The technical result of the present invention is the provision of the same values of the discharge gaps between the electrodes of the arrester, which is achieved by installing protrusions inside the bodies of the discharge chambers that the electrodes can abut (and this is achieved by adjusting the positions of the bodies of the discharge chambers or electrodes in the manufacture of the insulator-arrester) so that between them discharge gaps of a given value are formed. In the manufacture of the insulator-discharger in accordance with the present invention, the manufacturing process of the insulating body of such an insulator is simplified due to the fact that the task of ensuring the necessary dimensions of the gaps between the electrodes can be solved at the stage of manufacturing the insulator and there is no need to select the electrodes of the required size. In addition, the accuracy requirements for the manufacture of electrodes can be reduced.

Brief Description of the Drawings

Figure 1 shows a power line equipped with insulator dischargers in accordance with the present invention.

Figure 2 shows a mold for the manufacture of an insulator-discharger in accordance with the present invention with installed discharge chambers and electrodes, shown in section.

Figure 3 shows a polymer insulator-arrester in accordance with the present invention.

The implementation of the invention

The present invention is aimed at providing more reliable protection of electrical installations and power lines from the effects of lightning discharges. So, on power lines containing, as shown in figure 1, in its composition of the support 1, insulator dischargers 3 (which can also be called insulators) are used on their own or as part of strings 4, which, in addition to securing the wires 2, perform the discharge task lightning overvoltage from wire 2 to the grounded support 1 and arc extinction due to the use of multiple discharge gaps (gaps) between the plurality of electrodes, which reduces the voltage of each of the discharge arcs.

In order to minimize deviations of the values of the discharge gaps between the electrodes, which affects the reliability and life of the insulator-discharger, it is proposed to use housings 12 of the discharge chambers equipped with protrusions 14 defining the necessary discharge gaps between the electrodes (see Fig. 2). The indicated cases 12 of the discharge chambers are installed with a mold 11 used to make an insulating body and containing a cavity for filling with polymer and an opening for installing reinforcement 16 and then electrodes 13 are installed in the cases. The discharge chambers are installed so that the open parts of the cases of the discharge chambers protrude from the cavity molds for filling with polymer, for example, in holes made in the walls of the mold.

As shown in FIG. 2, protrusions 14 are provided inside the housings 12, which are intended to limit the possible positions occupied by the electrodes 13. Since, in an advantageous embodiment, the bodies of the discharge chambers are made in the form of cups, one or more protrusions can be provided at the bottom of the cup, representing a housing 12, to limit the minimum value of the gap between the electrodes. Protrusions on the side walls may also be provided, in which the electrodes 13 can abut towards the exit from the housing 12 into the space around the mold 11 (i.e., into the space around the insulating body after the manufacture of the insulator-arrestor). In order for the electrodes to be introduced into the discharge chambers, openings for this are provided in the housings 12, mainly in the bottom or near the bottom side.

Regulation of the position of the electrodes in the housings can occur as follows. The housings can preferably be moved progressively from / to the shape. In the event that the insulator contains a small number of discharge chambers, they can be located around the circumference of the insulating body at large angles to each other. Accordingly, when moving the bodies of the discharge chambers into the mold, the linear distance between them will decrease, since they will move towards the center of the mold (in which the hole 16 is located), and when moving from the mold, the distance between the housings will increase. This allows you to adapt the position of the housings in such a way as to ensure placement between the electrode housings having deviations in length due to production reasons, while ensuring equal distances between the ends of the electrodes in the bodies of the discharge chambers due to the protrusions. Additional adjustment can be provided due to the shape of the ends of the electrodes and the possibility of their rotation (figure 2 shows the spherical shape of the ends of the electrodes 13, which does not provide such an opportunity), and also due to the length of the protrusions (for example, with an angular geometry) and holes for introducing electrodes in the housings and turning the housings.

Electrodes are inserted into the extreme bodies of the discharge chambers, which are preferably made in such a way that, after the manufacture of the insulating body, they protrude from it. To this end, holes or recesses may be provided in the mold for the manufacture of the insulating body, into which the ends of electrodes bent, for example, by the letter G, can be inserted, the other ends being introduced into the discharge chambers. In other embodiments, electrical connection of these electrodes with reinforcing elements, in particular with an upper and / or lower terminal, may be provided.

After installing reinforcement in the hole 16, in particular, a fiberglass rod element with reinforcing elements installed on it, as well as other necessary parts, the mold is filled with polymer and after the polymer has solidified, the insulator-arrester can be removed from the mold. Before filling out the mold with polymeric material, if necessary, sealing of the electrode entry points into the discharge chamber housings may be provided.

In the resulting insulator-arrester, the casings 27 have exits into the space around the insulating body 24. As shown in Fig. 3, the conclusions 25 and 26 of the extreme discharge chambers from a chain of three or more discharge chambers connected in series go to the surface of the insulating body, where they can form a discharge clearance with fittings (in particular, with end fittings 22 and 23 mounted on a fiberglass rod 21 passing through the insulating body 24) or fittings located at distances from the terminals sufficient to discharge and overvoltage, or to form a discharge gap with the same conclusions of the adjacent insulator-discharger. Alternatively, these terminals may be electrically connected to the valve. The electrodes in a preferred embodiment are at least partially located in an insulating body.

Claims (5)

1. An insulator designed for mounting, as a single insulator or as part of a column or string of insulators, wires in an electrical installation or on a power line, containing an insulating body, reinforcement in the form of first and second reinforcement elements installed at its ends, the first reinforcing element with the possibility of connecting directly or by means of a fastening device to a high-voltage wire or to a second reinforcement element of a previous high-voltage insulator of said column or dots, and the second armature element is made with the possibility of connection with the electrical installation, or the support of the power line, or with the first armature element of the subsequent high-voltage insulator of the indicated column or garland, and also containing four or more electrodes that exit into three or more discharge chambers located in the insulation body, and the discharge chambers are enclosures open in the space around the insulating body and provided with protrusions mounted inside the enclosures with the possibility of limiting the magnitude of the discharge gap between the electrodes, and the extreme electrodes are electrically connected to the armature or go to the surface of the insulating body. 2. The insulator according to claim 1, characterized in that the housing is made in the form of glasses. 3. The insulator according to claim 1, characterized in that the electrodes are at least partially located in the insulating body. 4. Power line containing supports, single insulators and / or insulators, assembled in columns or garlands, and at least one wire under electric voltage connected directly or by means of fastening devices with reinforcement elements of single insulators and / or first insulators columns or strings of insulators, each single insulator or each column or strings of insulators is fixed (fixed) to one of the supports by means of its reinforcement element adjacent to the specified support, distinguishing The fact that at least one of the insulators is an insulator according to any one of claims 1 to 3. 5. A method of manufacturing an insulator according to any one of claims 1 to 3, wherein in the implementation of the method, a mold for manufacturing an insulating body containing a cavity for filling with polymer is used, the method comprising the following steps:
the installation of the bodies of the discharge chambers in the mold for the manufacture of the insulating body, and the housing of the discharge chambers is set so that the open parts of the bodies of the discharge chambers protrude from the mold for the manufacture of the insulating body,
installation of electrodes in the housing of the discharge chambers,
adjusting the positions of the bodies of the discharge chambers or electrodes so that the electrodes abut against the protrusions provided in the bodies,
installation of fittings, and
filling the polymer form.

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