RU2715216C2 - Linear rod insulator (embodiments) - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention is related to electric power industry, namely to linear rod insulators for overhead transmission lines, electric substations, contact network of railways. Proposed insulator consists of insulating rod (1), terminators (2) fixed on insulating rod (1), and protective silicone cover. Between terminal (2) and insulating rod (1) there is insert (3), which is attached to insulating rod by means of pressure testing through metal bushing (4). Insert (4) has rigidity different from insulating rod (1). Above inserts are made in the form of metal rope or fiberglass rod of smaller or larger diameter than insulating rod (1). Separate sections of insulating rod (1) can have different rigidity.

EFFECT: disclosed linear rod insulator is a multi-link rod structure, rod elements of which have different rigidity, which enables to change amplitude-frequency characteristics of the insulator, region of resonance frequencies of the wire and insulator cease to coincide and amplitude of insulator oscillations are reduced, providing significant increase in service life and operational reliability of insulators, as well as overhead transmission lines in general.

12 cl, 3 dwg

Description

The invention relates to the field of electric power, in particular to linear rod insulators for overhead power lines, electrical substations, contact railway network.

Known rod polymer insulator containing a fiberglass rod with a protective coating, metal ends and screen fittings located at the ends of the rod [1].

This well-known rod-shaped polymer insulator is subject to vibrations caused by wind vibration, which significantly reduces its reliability and, as a result, reduces the service life and reliability of overhead power lines on which such insulators are mounted.

Also known is a linear rod insulator, consisting of an electrical insulating composite rod based on a matrix with a phosphate binder, insulator flanges for attachment to reinforcement and support, a silicone protective sheath and reinforcing high-modulus fibers [2].

There are no elements in this rod linear insulator that have stiffness different from the insulator rod, therefore, when the resonant (natural) frequencies of the wire and the insulator coincide, the maximum values of the amplitude of the bending vibrations of the insulator will occur, which can lead to damage (and even destruction) of the insulators account to reduce the operational reliability of the overhead power lines themselves.

The applicant set himself a specific practical task, namely to develop a technical solution that would significantly increase the service life of insulators and their reliability, as well as the service life and reliability of overhead power lines as a whole by increasing the resistance of insulators to vibrations caused by wind effects (to develop called vibration resistant linear rod insulators). This positive technical result was achieved due to a new set of essential structural features of the inventive linear rod insulator, made according to the present invention, and presented in the following claims (options): "linear rod insulator for overhead power transmission lines, electrical substations, railway contact network, consisting from an insulating rod, at least two terminators, mounted on an insulating rod, and a protective organosilicon oh shell; between at least one of the terminators and the insulating rod is at least one insert fastened to other elements by crimping through at least one metal sleeve, the insert has a stiffness different from the insulating rod and the length of the insert relative to the total insulating length of the insulator is selected in the range of 0.001 ÷ 1.5; the insert is a metal cable; the insert is a fiberglass rod of a smaller or larger diameter than the insulating rod; individual sections of the insulating rod have different stiffnesses; a linear rod insulator for overhead power lines, electrical substations, a contact network of railways, consisting of an insulating rod, at least two terminators mounted on an insulating rod, and a protective silicone shell; at least between the two parts of the insulating rod there is at least one insert fastened to other elements by crimping through at least one metal sleeve, the insert having a stiffness different from the insulating rod and the length of the insert relative to the general insulating insulator length is selected within the range of 0.001 ÷ 1.5; the insert is a metal cable; the insert is a fiberglass rod of a smaller or larger diameter than the insulating rod; individual sections of the insulating rod have different stiffnesses; a linear rod insulator for overhead power lines, electrical substations, a contact network of railways, consisting of an insulating rod, at least two terminators mounted on an insulating rod, and a protective silicone shell; between at least one of the terminators and the insulating rod, and also between two parts of the insulating rod, at least two inserts are located, fastened to other elements by crimping through at least one metal sleeve, each insert has stiffness different from the insulating rod, and the length of each insert relative to the total insulating length of the insulator is selected in the range of 0.001 ÷ 1.5; the insert is a metal cable; the insert is a fiberglass rod of smaller or larger diameter than the insulating rod; individual sections of the insulating rod have different stiffness. "

The invention is illustrated by drawings, where in FIG. 1 shows a linear rod insulator made according to the present invention, an embodiment according to a first independent claim; in FIG. 2 shows a linear rod insulator made according to the present invention, an embodiment according to a second independent claim; in FIG. 3 shows a linear rod insulator made according to the present invention, an embodiment according to the third independent claim.

The inventive linear rod insulator for overhead power lines, electrical substations, a contact network of railways consists of an insulating rod 1, terminators 2, mounted on an insulating rod 1, and a protective silicone shell. Between the terminal 2 and the insulating rod 1 is an insert 3, fastened to other elements of the insulator by crimping through a metal sleeve 4 (see Fig. 1). The insert 4 has a different rigidity from the insulating rod 1, and the length of the insert 4 relative to the total insulating length of the insulator is selected in the range of 0.001 ÷ 1.5.

Alternatively, between two parts 5 and 6 of the insulating rod 1, an insert 7 can be located, fastened to other elements of the insulator by crimping through metal sleeves 8, 9 (see Fig. 2). The insert 7 has a stiffness different from the insulating rod 1, and the length of the insert relative to the total insulating length of the insulator is selected in the range of 0.001 ÷ 1.5.

According to the third possible option, between the one of the terminators 10 and between the two parts 11, 12 of the insulating rod 1 there are two inserts 13, 14, fastened to other elements of the insulator by crimping through metal bushings 15, 16, 17, 18 (see Fig. 3). Each insert 13, 14 has a stiffness different from the insulating rod 1, and the length of each insert 13, 14 relative to the total insulating length of the insulator is selected in the range of 0.001 ÷ 1.5.

The aforementioned inserts can be made in the form of a metal cable or fiberglass rod of smaller or larger diameter than the insulating rod 1. Individual sections of the insulating rod 1 may have different stiffness.

The proposed linear rod insulator is a multi-link rod design, the rod elements of which have different stiffness. Oscillations of the insulator are caused by wind vibration of the overhead power line wire. Vibration of the wire causes bending vibrations of the insulator. The maximum value of the amplitude of oscillations of the insulator is achieved when the resonant (natural) frequencies of the wire and the insulator coincide. The introduction of elements having a stiffness different from the insulating rod makes it possible to change the amplitude-frequency characteristics of the insulator, while the values of the natural (resonant) frequencies of the insulator increase in comparison with the resonant frequencies of the insulator containing a solid rod of constant stiffness. The resonant frequency regions of the wire and the insulator cease to coincide and, as a result of this, the oscillation amplitudes of the insulator decrease. Thus, the introduction into practice of electric grid construction of linear rod insulators, made according to the present invention, will provide a significant increase in the service life and operational reliability of both the insulators and the service life and operational reliability of overhead power lines as a whole by increasing the resistance of the insulators to vibrations, caused by the wind.

An example embodiment of the invention: the vibration frequencies at which the wire vibrates, for example, AC 185/43 grades with a diameter of 19.8 mm, lie in the range from 9 to 71 Hz, the smallest value of the resonant vibration frequency of a linear rod insulator with a rod diameter of 16 mm and a length 130 mm is 12.5 Hz. Thus, in the range of wire oscillations, several resonant frequencies of the wire can with high probability coincide with the resonant frequencies of the insulator. The introduction of an insert having a stiffness different from the insulator leads to an increase in the minimum resonant frequency of the wire to 74 Hz, i.e., thus, the minimum resonant frequency of the insulator exceeds the maximum vibration frequency of the wire, which leads to a decrease in the oscillation amplitude of the insulator.

Sources of information

[1]. Description of the invention to copyright certificate No. 1554034 “Rod polymer insulator”, Н01В 17/20, 17/38, claimed 17.1187, published March 30, 90.

[2]. Description of the invention to patent No. 2342724 "Insulator with unlimited composite rod", Н01В 17/00, claimed September 13, 2007, published December 27, 2008.

[3]. Description of the invention to patent No. 2386184 "Polymer insulator", H01B 17/00, claimed March 20, 2008, published April 10, 2010.

[4]. Description of the invention to patent No. 2233493 "High-voltage pin linear insulator", H01B 17/20, claimed 02.18.2003, published July 27, 2004.

[5]. Description of the invention to copyright certificate No. 796918 "Suspended linear insulator", H01B 17/02, claimed 11.03.79, published 01/15/81.

[6]. Description of the utility model for the patent of the Russian Federation "Suspension polymer insulator" No. 80707, class НВВ 17/02, announced 01.10.2008, published 02.20.2009.

[7]. US patent No. 2002104679, "Insulator", class H01B 17/00, published 08.08.2002.

[8]. EP 042788 B1 “Supporting Insulator”, H01B 17/14, published 11/21/1984.

[9]. Description of the invention to patent No. 2014654 “Pin insulator”, H01B 17/20, claimed 23.12.1991, published 15.06.1994.

[10]. US patent No. 5147984 "High-voltage suspension insulator", HB01 17/02, published 1992.

[eleven]. Description of the invention to patent No. 291506 "Pin insulator", H01B 17/20, claimed 10.03.2006, published 01.10.2007.

[12]. Description of the invention to patent No. 2392678 "Polymer insulator", H01B 17/00, claimed 10.06.2009, published 20.06.2010.

Claims (12)

1. A linear rod insulator for overhead power transmission lines, electrical substations, a contact rail network, consisting of an insulating rod, at least two terminators mounted on an insulating rod, and a protective organosilicon shell, characterized in that between at least one of the terminators and an insulating rod is an insert fastened to an insulating rod by crimping through a metal sleeve, while the insert has a stiffness different from the insulating rod b. 2. The insulator according to claim 1, characterized in that the insert is a metal cable. 3. The insulator according to claim 1, characterized in that the insert is a fiberglass rod of a smaller or larger diameter than the insulating rod 4. The insulator according to claim 1, characterized in that the individual sections of the insulating rod have different stiffness. 5. A linear rod insulator for overhead power lines, electrical substations, a railway contact network, consisting of an insulating rod, at least two terminal pieces mounted on an insulating rod, and an organosilicon sheath, characterized in that at least between two parts of the insulating rod an insert is located, fastened to parts of the insulating rod by crimping through metal bushings, while the insert has a stiffness different from the insulating rod. 6. The insulator according to claim 5, characterized in that the insert is a metal cable. 7. The insulator according to claim 5, characterized in that the insert is a fiberglass rod of a smaller or larger diameter than the insulating rod. 8. The insulator according to claim 5, characterized in that the individual sections of the insulating rod have different stiffnesses. 9. A linear rod insulator for overhead power transmission lines, electrical substations, a railway contact network, consisting of an insulating rod, at least two terminators mounted on an insulating rod, and an organosilicon sheath, characterized in that between at least one of the terminators and / or parts of the insulating rod are two inserts, fastened by crimping with a terminal and parts of the insulating rod through metal bushings, each insert s an excellent stiffness of the insulation rod. 10. The insulator according to p. 9, characterized in that the insert is a metal cable. 11. The insulator according to claim 9, characterized in that the insert is a fiberglass rod of a smaller or larger diameter than the insulating rod 12. The insulator according to claim 9, characterized in that the individual sections of the insulating rod have different stiffness.

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