RU2661932C1 - Insulation arrester - Google Patents

Abstract

FIELD: energy.

SUBSTANCE: invention relates to power industry, namely to insulators-arresters intended for fixing and protecting insulated wires, insulators and other equipment of overhead transmission lines with voltage of over 0.95 kV from the effects of atmospheric overvoltage. Isolator-discharger (1) is connected by lower end-cap (2) to grounded crosshead (3) of the overhead transmission line, and upper end-cap (4) secures phase line (7) of the overhead power line with the help of pressure plate (5) and bolts (6). Upper end-cap and/or the pressure plate of the upper splitter are made with an element that pierces the insulation of the phase conductor.

EFFECT: isolator-arrester is simple in design and manufacturing technology, is reliable in terms of effective provision of insulated fastening and protection of wires, insulators and other electric power equipment of overhead transmission lines from the effects of atmospheric overvoltage, allows to prevent unauthorized overlapping of lines because of negative influence of vital activity of birds arranging their nests on wires and traverses of overhead power lines supports.

5 cl, 2 dwg

Description

The invention relates to the field of electric power industry, in particular, to insulator-arresters, intended for fastening and protection of insulated wires, insulators and other equipment of overhead power transmission lines with voltage above 0.95 kV from exposure to atmospheric overvoltages.

Known insulator-discharger containing an insulating body, rigidly fixed in the center of the insulating body, on both sides, the first and second reinforcement elements, one of which is used to connect to a high-voltage wire, and the second to support the power line, a silicone rubber profile, rigidly fixed to the edge of the insulating body, a periodic system of electrodes is located inside the profile, holes are made between the electrodes that extend outside the profile and form miniature gas-discharge chambers, to the first and second The first reinforcing elements are galvanically or through an air gap connected by their first ends to the first and second supply electrodes, respectively, each of which is separated by an air gap from the insulating body and its second end is connected through the air gap to the first or second end of the periodic electrode system, characterized in that the circumference of the insulating body, on the inside of the periodic system of electrodes, a ring of electrically conductive material is rigidly fixed [1].

This well-known insulator-arrester is complex in design (consists of a system of electrodes, miniature gas discharge chambers, profiles made of silicone rubber, etc.), in addition, it requires a change in the standard design of the insulator itself, in particular along the circumference of its insulating body on the inside of the periodic The electrode system is rigidly fixed ring of electrically conductive material.

Also known is an insulator-arrester containing a disk-shaped insulating body, rigidly fixed in the center of the insulating body, on both sides, the first and second reinforcement elements, one of which is used to connect to a high-voltage wire, and the second to support the power line, with the first and the second reinforcing elements galvanically or through an air gap with their own ends connected the upper and lower supply electrodes, each of which is separated by an air gap from the insulating body, and the second end of the lower the lead electrode through the air gap is connected to the last electrode of the multielectrode system, which is located in the profile of silicone rubber, which is rigidly fixed to the edge of the insulating body, between the electrodes of the multielectrode system in the profile there are holes extending outward of the profile and forming miniature gas-discharge chambers, around the circumference of the insulating body , from the inside of the multi-electrode system, a ring-shaped accelerator of electrodynamic blast from an electrically conductive is rigidly fixed material, characterized in that the electrodynamic blast accelerator is made open, its one end is galvanically connected to the upper supply electrode, and the second end of the annular electrodynamic blast accelerator is connected through the air gap to the first electrode of the multi-electrode system [2].

This insulator-discharger is also extremely complex in design and its use for overhead power transmission lines of low and medium voltage (0.95, 6.10.20 and 35 kV) is unlikely and practically impractical.

The applicant solved the problem of developing an insulator-discharger simple in design and technological design, reliable in function

insulated fastening and protection of wires, insulators and other electric power equipment of overhead power lines with voltages exceeding 0.95 kV from atmospheric overvoltages (eliminating the possibility of prolonged thermal effects and arc fault currents due to induced overvoltages caused by direct lightning strikes and short circuits), as well as allowing prevent unauthorized line blocking due to the negative impact of the life of birds arranging nesting on wires and traverses of supports of overhead power lines. The set of essential design features of the proposed insulator-arrester, providing the above-mentioned positive technical result, is given in the following claims: "insulator-arrester, designed to fasten and protect insulated wires, insulators and other equipment of overhead power transmission lines with voltage above 0.95 kV from atmospheric exposure overvoltage, connected by its lower terminal to the traverse of the line, the upper terminal by at least one a clamping plate and fasteners securing the phase wire of the line, wherein the upper terminal and / or the upper terminal strip are provided with at least one element piercing the insulation of the wire, and at least one electrode is fixed on the upper terminal and / or the upper terminal strip designed to create an air gap with at least a lower terminal or a second electrode mounted on the lower terminal or on a grounded traverse line and / or connected in series through additional tionary entered nonlinear surge arrester with the lower end sleeve or crosspiece, the aforementioned electrodes and the upper portion of the arrester insulator-covered completely or partially the insulating sheath, which prevents unauthorized overlap line, due to the negative impact of bird life; the height of the insulator-arrester is selected from the range of 150 ÷ 1000 mm, the thickness of the insulation shell is selected from the range of 1 ÷ 100 mm; the upper terminal, the pressure die and the elements that pierce the insulation of the wire are made of non-ferrous metals or with the addition of non-ferrous metals; the insulation shell of the electrodes and the upper part of the insulator-discharger is made of polymeric materials; at least one of the electrodes at the end is made spherical or in the form of a body of revolution. "

The invention is illustrated by drawings, where in FIG. 1 is a front view of a mains insulator-arrester according to the present invention; in FIG. 2 is the same as in FIG. 1, a variant of an insulator-arrester connected to a nonlinear surge suppressor.

The inventive insulator-arrester is designed for fastening and protecting insulated wires, insulators and other equipment of overhead power lines with voltage above 0.95 kV from exposure to atmospheric overvoltages. The insulator-discharger (supporting rod linear insulator) 1 is connected by its lower terminal 2 to the grounded traverse 3 of the overhead power line, and the upper terminal 4 by means of the pressure plate 5 and bolts 6 secures the phase wire 7 of the overhead power line. The upper terminal 4 and / or the pressure plate 5 of the upper terminal 4 are made with an element piercing the insulation of the phase wire 7 (piercing clip) 8. An electrode 9 is attached to the upper terminal 4 and / or the pressure plate 5 of the upper terminal 4 (there may be several electrodes) to create an air gap between the lower terminal 2 or the second electrode 10 mounted on the lower terminal 2 or on the grounded traverse 3 of the support overhead power lines. The electrode 10 can be connected in series through an additionally introduced non-linear surge suppressor 11 with a lower terminal 2 or a grounded traverse 3 of the overhead power line support (Fig. 2). The electrodes 9 and 10, as well as the upper part of the insulator-discharger 1, are closed completely or partially by an insulating sheath, which eliminates unauthorized blocking of the overhead power line, due to the negative impact of the life of birds.

The height of the insulator-arrestor 1 is selected from the range of 150 ÷ 1000 mm, the thickness of the insulating shell is selected from the range of 1 ÷ 100 mm.

The upper terminal 4, the clamping die 5 and the terminals piercing the insulation of the phase wire 7 can be made of non-ferrous metals or with the addition of non-ferrous metals.

The insulating shell of the electrodes 9, 10 and the upper part of the insulator-arrestor 1 can be made of polymer materials.

The electrodes 9, 10 at the end can be made spherical in shape or in the form of a body of revolution 12.

The invention works as follows:

The reliability of power supply to consumers is largely determined by the reliability of 6 and 10 kV overhead lines. For several reasons, the reliability of 6 and 10 kV overhead lines is relatively low. One of the main causes of accidents and power failures on 6 and 10 kV overhead lines is thunderstorms, which account for up to 40% of the total number of blackouts. To protect overhead power transmission lines of alternating current 0.95, 6, 10, 20 and 35 kV from atmospheric (lightning) overvoltages, LLC MZVA developed protection devices, which are the inventive insulator-discharger together with a nonlinear surge suppressor, providing an external spark gap the required length between the phase wires and the electrodes of the insulator-arrestor. In the proposed insulator-arrester, a spark gap is formed between the electrode 9 mounted on the upper terminal 4 and / or the die 5 of the upper terminal 4 and the lower terminal 2 or the second electrode 10 mounted on the grounded traverse 3, which allows to maintain the value of the spark gap constant and of sufficient length in all weather conditions. In the embodiment, when the second electrode 10 is connected in series through a nonlinear surge suppressor 11, which is additionally introduced into the design of the insulator-discharger 1, a more effective protection of the elements of the overhead power line from atmospheric influences is provided. In particular, when the wires are exposed to induced overvoltages caused by lightning discharges near the overhead line, or when lightning strikes directly into the overhead line wires, the spark gap breaks through and the non-linear surge suppressor 11 is connected to the phase wire 7, which, due to the reduction of its own resistance, effectively overvoltage discharge to the grounded parts of the supports through the electrodes 9, 10, bypassing the insulator 1, which protects it from overlapping and damage, and the phase wire 7 about t burn out. After the overvoltage is removed under the influence of an industrial frequency voltage, the current through the nonlinear surge suppressor 11, due to the return of its resistance to the initial values, is limited to a value at which the existence of an arc in the spark gap is impossible, and the arc goes out.

The proposed insulator-discharger is simple in design and manufacturing technology, does not require structural processing of commercially available insulators, is reliable in terms of efficiently providing insulated fastening and protection of wires, insulators and other electric power equipment of overhead power transmission lines with voltage above 0.95 kV from atmospheric (lightning) effects overvoltage, helps prevent unauthorized line blocking due to the negative effects of the life of birds arranging with howling nests on wires and traverses of supports of overhead power lines.

Information sources

[one]. Description of the utility model for the patent "Insulator-arrester" No. 108206, class H01B 17/00, claimed 04/14/2011, published on 09/10/2011.

[2]. Description of the utility model for the patent "Insulator-arrester" No. 127245, class H01B 17/00, announced on 08.29.2012, published on 04.20.2013

[3]. Description of the utility model for the patent "Discharger, insulator and power line using this insulator" No. 136928, class Н01Т 4/00, filed June 28, 2013, published January 20, 2014.

[four]. Description of the invention to the patent "High-voltage insulator and high-voltage power line using this insulator" No. 2377678, class H01B 17/00, filed March 27, 2008, published December 27, 2009

[5]. Description of the invention to the patent “Lightning protection device and power line with a lightning protection device” No. 2248079, class H02H 9/06, filed October 10, 2002, published March 10, 2005

[6]. Description of the invention to the patent "Current collector for lightning protection of electrical equipment and a power line equipped with such a device" No. 2299508, class H02H 3/22, H01T 4/02, filed March 4, 2005, published May 20, 2007.

[7]. U.S. Patent No. 5,283,709 A, Class H01B 17/00, published 02/01/1994.

[8]. Description of the invention to the patent "High-voltage power line and high-voltage insulator for this line" No. 2378725, class H01B 17/00, filed April 24, 2008, published January 10, 2010.

[9]. U.S. Patent No. 4,665,460, Class H01T 4/02, published in 1987.

[10]. Description of the invention to the patent "Insulator-arrester and power line using this insulator" No. 2521771, class H01T 4/02, filed March 13, 2013, published July 10, 2014.

Claims (5)

1. The insulator-arrester, designed for fastening and protecting insulated wires, insulators and other equipment of overhead power lines with a voltage of more than 0.95 kV from atmospheric overvoltages, connected by its lower terminal to the traverse of the line, the upper terminal via at least one clamping dies and fasteners securing the phase wire of the line, while the upper terminal and / or the terminal of the upper terminal are provided with at least one element piercing the insulation of the wire, and at least one electrode is fixed to the upper terminal and / or the die of the upper terminal to create an air gap with at least a lower terminal or a second electrode mounted on the lower terminal or on a grounded traverse of the line and / or connected in series through the optionally introduced non-linear surge suppressor with a lower terminal or traverse, the aforementioned electrodes and the upper part of the insulator-arrester are completely or partially insulated a shell that prevents unauthorized line closure due to the negative effects of bird life. 2. The insulator-arrester according to claim 1, in which the height of the insulator-arrester is selected from the range of 150 ÷ 1000 mm, the thickness of the insulation shell is selected from the range of 1 ÷ 100 mm. 3. The insulator-spark gap according to claim 1, in which the upper terminal, the clamping die and the elements piercing the wire insulation are made of non-ferrous metals or with the addition of non-ferrous metals. 4. The insulator-discharger according to claim 1, in which the insulating shell of the electrodes and the upper part of the insulator-discharger is made of polymeric materials. 5. The insulator-spark gap according to claim 1, in which at least one of the electrodes at the end is made spherical or in the form of a body of revolution.

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