RU126188U1 - OVERVOLTAGE LIMITER NONLINEAR - Google Patents

Abstract

1. The non-linear surge suppressor, comprising a sealed insulating casing, upper and lower electrodes, non-linear resistors and leads for connecting to an electrical installation, characterized in that the casing is made, without violating the tight and insulating properties, a cylindrical cavity into which an additional fusible insert is installed mounted on the lid, the cylindrical cavity is filled with quartz sand with the possibility of extinguishing the arc when the fuse is burned out, a slot with a hole is made on the lower electrode by the possibility of knife contact with a fusible insert, a metal disk is pressed into the upper electrode, in which a cover with a fusible insert is placed, and the conclusions for connecting to the electrical installation are made on the upper electrode and the cover. 2. The non-linear surge suppressor according to claim 1, characterized in that the fuse-link is configured to turn off the large and small short-circuit currents, while the large short-circuit current is determined from the relation, and the small short-circuit current is determined from the relation, where is the normalized leakage time of a large short circuit current, is the normalized short-circuit current flow time, A is a constant determined by the properties of the fusible material, k = 1.7-2 is a coefficient taking into account the duration s arcing in the gated fuses with the filler; S - sectional view of the fuse-link, which is selected so as to withstand the current switching and lightning impulse.

Description

The utility model relates to the field of electrical engineering and is intended to protect against overvoltage of electrical installations with a high level of short circuit currents (CI).

A nonlinear surge suppressor (SPD) for nominal voltages of 6-10 kV is known from the prior art, in which non-linear resistors are enclosed between electrodes with leads for connection to an electrical installation and are pressed into a housing made of weather-resistant polymer material that provides the required mechanical and insulating properties of the limiter. (Non-linear 6/10 kV UHL2 surge arresters. OPN / TEL. Operation manual TSHAG 674361.001 RE. Www.tavrida.ru)

A disadvantage of the known arrester is the explosive destruction of its structure due to thermal breakdown of nonlinear resistors during short-circuit currents, which reduces the service life of the arrester itself and the electrical installation where it is located. The basic electrical characteristics of the arrester are not normalized parameters explosion: high short-circuit current flowing through the arrester within 0.2 s (I _ks ^b, kA), and a small short-circuit current flowing through the arrester for 2 s (I _ks ^m, kA )

Closest to the claimed technical solution is an arrester for a rated voltage of 10 kV and below, installed on sections (in the cells of voltage transformers, in the connections of power transformers, electric motors, power lines) and connected to the electrical installation through a special fuse, in which the fuse section is chosen so Thus, in order to withstand the currents of switching and lightning pulses, at the same time they must operate when the arrester itself is damaged, disconnecting the short-circuit currents.

(Imanov G.M., Khalilov F.Kh., Tadjibaev A.I. Methods for selecting nonlinear limiters necessary to protect the insulation of low, medium, high and ultra-high voltage networks of three-phase alternating current. Publishing House PEIPK Ministry of Energy of the Russian Federation, St. Petersburg , 2004)

The main disadvantage of this technical solution is a twofold or more increase in the overall height of the combined protection device (since the overall height of the arrester and the fuse are approximately the same), which is not always possible under the operating conditions of the arrester, for example, when installed in switchgear cubicles.

In addition, a disadvantage is a low explosion arrester, since the basic electrical characteristics of the combined protection device are not normalized parameters explosion: high short-circuit current flowing through the arrester within 0.2 s (I _ks ^b, kA), and a small short-circuit current flowing through an arrester for 2 s (I _KZ ^m , kA).

The task to which the proposed utility model is directed is to maintain the overall height of the arrester and increase its explosion safety by turning off short-circuit currents normalized to the conditions of explosion safety.

The technical result is achieved due to the fact that in the non-linear overvoltage limiter containing a sealed insulating casing, upper and lower electrodes, non-linear resistors and leads for connecting to an electrical installation, according to the proposed utility model, a cylindrical cavity is made in the casing without violating the tight and insulating properties , in which an additionally introduced fusible insert mounted on the lid is installed, the cylindrical cavity is filled with quartz sand with the possibility of extinguishing the arc at regoranii fuse link, on the lower electrode, with a slit blade in contact with the fuse insert, the upper electrode is press-fitted a metal disc, wherein the cover is arranged with fusible link, and terminals for connection to an electrical installation provided on the upper electrode and the cover.

, а малый ток короткого замыкания определяется из соотношения

, гдеThe fuse-link is capable of disconnecting large and small short-circuit currents, while a large short-circuit current is determined from the relation

, and a small short circuit current is determined from the relation

where

I _KZ ^b = 0.2 s is the normalized time flow of a large short circuit current,

I _KZ ^m = 2 s - normalized time of the small current short circuit,

A is a constant determined by the properties of the material of the fusible insert,

k _D = 1.7-2 - coefficient taking into account the duration of arc burning in closed fuses with filler;

S - section of the fuse insert, which is selected in such a way as to withstand the currents of switching and lightning pulses.

Thus, the technical result provided by the given set of signs is to protect the arrester from explosive destruction due to violation of the thermal stability of nonlinear resistors by disconnecting short-circuit currents normalized by the conditions of explosion safety by a fuse while maintaining the overall height of the arrester due to the conditions of its operation.

The essence of the utility model is illustrated by the drawing, which shows the design of the proposed arrester.

In the drawing, the numbers indicate:

1 - sealed insulating casing;

2 - upper electrode;

3 - nonlinear resistors;

4 - a cylindrical cavity;

5 - conclusions for connecting to an electrical installation;

6 - fusible insert;

7 - a slot for knife contact fuse;

8 - knife contact fuse;

9 - a metal disk;

10 - a cover;

11 - quartz sand;

12 - lower electrode;

h is the overall height.

The non-linear surge arrester (arrester) for rated voltages of 6-10 kV contains a sealed insulation housing 1, upper 2 and lower 9 electrodes, non-linear resistors 3 and terminals 5 for connection to an electrical installation.

The difference of the proposed arrester is that, in the case 1, without violating the tight and insulating properties, a cylindrical cavity 4 is made, into which an additionally introduced fusible insert 6 is mounted, mounted on the lid 10, the cylindrical cavity is filled with quartz sand 11 with the possibility of extinguishing the arc when melting insert 6, a slot 7 is made on the lower electrode 9 with the possibility of knife contact with the fusible insert 6, a metal disk 9 is pressed into the upper electrode 2, in which a cover 10 with a fusible insert is placed 6, and leads 5 for connecting to an electrical installation are made on the upper electrode 2 and the cover 10.

и

, гдеThus, in order to maintain the overall height h of the overvoltage limiter and increase its explosion safety by switching off short-circuit currents, a replaceable fuse insert 6 is built into the housing 1, for which without violating the tight and insulating properties in the housing 1 a cylindrical cavity 4 is filled with quartz sand 11, which provides heat sink and effective arc extinction during burnout of the fuse-link 6, and on the lower electrode 12, a slot 7 is made for knife contact 8 of the built-in fuse-link 6, the upper electrode 2 is a metal disk 9 is inserted, in which the cover 10 is screwed to replace the fuse-link 6, on the upper electrode 2 and the cover 10, conclusions 5 are made for connection to the electrical installation, while the large and small short-circuit currents disconnected by the fuse-link 6 are determined from the relations, respectively,

and

where

t _KZ ^b = 0.2 s - normalized flow time of a large short-circuit current,

t _KZ ^m = 2 s is the normalized flow time of a small short-circuit current,

A is a constant determined by the properties of the material of the fusible insert,

k _D = 1.7-2 - coefficient taking into account the duration of arc burning in closed fuses with filler;

S - section of the fuse insert, which is selected in such a way as to withstand the currents of switching and lightning pulses.

The non-linear surge arrester (arrester) to the rated voltage of 6-10 kV operates as follows.

In normal mode, through the arrester, which is under the operating voltage, current flows from fractions of a milliampere to several amperes, depending on the voltage class of the protected object, while its internal resistance is in the range from tens to hundreds of ohms. When switching or lightning overvoltages occur within nanoseconds, the internal resistance drops by several orders of magnitude, and the current increases and excess electric energy stored in transients is released into the environment. In this case, fuse-link 6 with a specially calculated diameter (cross-section) passes without switching currents of switching and lightning pulses.

In the short-circuit mode, the currents through non-linear resistors 3 exceed the allowable ones according to the conditions of thermal breakdown. In this case, fuse-link 6 is triggered, disconnecting the short-circuit currents and increasing the explosion safety of the arrester while maintaining the characteristics and overall height due to the conditions of its operation.

The use of the proposed arrester is intended for organizations serving multiple substations and distribution networks, where short-circuit, lightning and switching overvoltages often occur, and therefore there is a high accident rate of arrester and protected equipment.

Claims (2)

1. The non-linear surge suppressor, comprising a sealed insulating casing, upper and lower electrodes, non-linear resistors and leads for connecting to an electrical installation, characterized in that the casing is made, without violating the tight and insulating properties, a cylindrical cavity into which an additional fusible insert is installed mounted on the lid, the cylindrical cavity is filled with quartz sand with the possibility of extinguishing the arc when the fuse is burned out, a slot with a hole is made on the lower electrode with the possibility of knife contact with a fusible insert, a metal disk is pressed into the upper electrode, in which a lid with a fusible insert is placed, and the conclusions for connecting to the electrical installation are made on the upper electrode and the cover. 2. The non-linear surge suppressor according to claim 1, characterized in that the fuse-link is configured to disconnect the large and small short-circuit currents, while the large short-circuit current is determined from the relation

, and a small short circuit current is determined from the relation

, Where

- normalized flow time of a large short circuit current,

- the normalized time of the small current short circuit, A is a constant determined by the properties of the material of the fusible insert, k _D = 1.7-2 - coefficient taking into account the duration of arc burning in closed fuses with filler; S - section of the fuse insert, which is selected in such a way as to withstand the currents of switching and lightning pulses.

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