WO2011127667A1

WO2011127667A1 - Vacuum arc extinguishing chamber with double breaks

Info

Publication number: WO2011127667A1
Application number: PCT/CN2010/072105
Authority: WO
Inventors: 刘箭飞; 魏杰; 杨冬梅; 谢国良; 刘志远
Original assignee: 北京双杰电气股份有限公司; 西安交通大学
Priority date: 2010-04-15
Filing date: 2010-04-23
Publication date: 2011-10-20
Also published as: CN101894706A; EP2560179A1; EP2560179A4

Abstract

A vacuum arc extinguishing chamber with double breaks primarily applied for a medium voltage power switch device includes an insulating housing (1), a static assembly (2) and a moving assembly (3) provided in the insulating housing, wherein a middle isolation shielding enclosure (4) is provided on the ledge (11) of the upper inner cavity of the insulating housing; the middle isolation shielding enclosure is provided between the static assembly and the moving assembly; the middle isolation shielding enclosure is an annulus. The vacuum arc extinguishing chamber with double breaks makes the static breakdown voltage which the vacuum arc extinguishing chamber withstands larger by the setting of the middle isolation shielding enclosure in the upper part of the insulating housing.

Description

Double-break vacuum interrupter

Technical field

The invention relates to a vacuum interrupter, in particular to a double-break vacuum interrupter.

Background technique

The commonly used vacuum interrupter is mostly single-break. The relationship between the insulation of the vacuum interrupter and the gap is: Vb=a*dm, where d is the gap, & and !!1 are constant, m< l, which is It is said that the insulation performance of the vacuum interrupter does not increase linearly with the increase of the vacuum gap length, and there is a saturation effect, and the multi-gap effect formed by the multiple vacuum gaps in series can increase the overall operating voltage. Let a long gap be divided into n parts, each gap has a length of dn, and the total length of the gap is d=n X dn. For multi-gap systems, the maximum voltage that can be withstood on each gap may not be equal. The total breakdown voltage will be determined by the gap that is subjected to the maximum electric field Emax. As long as n fractures do not break at the same time, the vacuum gap will Has reliable pressure resistance. The multi-gap effect can be used to improve the overall electric field distribution inside the vacuum interrupter.

Summary of the invention

It is an object of the present invention to provide a double-break vacuum interrupter that can increase the static breakdown voltage in a vacuum interrupter.

In order to achieve the above object, the technical solution of the present invention is: a double-fracture vacuum interrupter comprising an insulating housing, a static assembly and a moving assembly disposed in the insulating housing, wherein the insulating housing has a rib on the upper portion of the inner cavity An intermediate isolation shield is disposed between the static component and the movable component, and the intermediate isolation shield is a ring.

The double-break vacuum interrupter of the present invention, wherein the intermediate isolation shield is disposed at an upper portion of the rib, and the intermediate isolation shield and the rib are provided with an upper and lower cross section Barrel support.

After adopting the above solution, the double-fracture vacuum interrupter of the present invention is provided with a circular intermediate shielding shield on the upper rib of the inner cavity of the insulating casing, and the vacuum interrupting chamber is changed from a single fracture to a double fracture, and the vacuum gap is One becomes two. Setting the double fracture can transfer the maximum field strength from the contact gap to the gap between the intermediate isolation shield and the static isolation shield or the ground isolation shield, improving the electric field stress of the main isolation gap. Increase the static breakdown voltage of the vacuum interrupter.

DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic view showing the structure of a double-break vacuum interrupter of the present invention.

The present invention will be further described by way of embodiments with reference to the accompanying drawings;

detailed description

Please refer to FIG. 1 for a schematic structural view of the double-fracture vacuum interrupter of the present invention, including an insulating casing 1 and being disposed in insulation. The static assembly 2 and the movable assembly 3 in the outer casing 1 , the upper portion of the rib 11 on the upper portion of the inner cavity of the insulating outer casing 1 is provided with a barrel-shaped support 5 having a small upper and lower cross section, and a ring is arranged on the barrel support 5 The intermediate isolation shield 4 has an intermediate isolation shield 4 located below the static assembly 2 and above the moving assembly 3.

The double-break vacuum interrupter of the present invention is provided with a circular intermediate shielding shield 4 on the upper rib 11 of the inner cavity of the insulating casing 1, so that the vacuum interrupting chamber is changed from a single fracture to a double fracture, and the vacuum gap is composed of one Change to two, set the double fracture to transfer the maximum field strength from the contact gap to the gap between the intermediate isolation shield and the static isolation shield or the ground isolation shield, improving the electric field stress of the main isolation gap and improving Static breakdown voltage of the vacuum interrupter.

The embodiments described above are merely illustrative of the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention. Variations and modifications are intended to fall within the scope of the invention as defined by the appended claims.

Industrial applicability

The double-break vacuum interrupter of the invention is mainly applied to a fully-closed solid ring network cabinet, which improves the electric field stress of the main isolation gap and improves the static breakdown voltage of the vacuum interrupter, thereby having high industrial applicability.

Claims

Rights request

A double-break vacuum interrupter comprising an insulating casing (1), a static component (2) and a moving component (3) disposed in the insulating casing (1), characterized in that: the insulating casing (1) An intermediate isolation shield (4) is disposed on the upper rib (11) of the inner cavity, and the intermediate isolation shield (4) is located between the static component (2) and the movable component (3), and the intermediate isolation shield (4) is the ring.

2. The double-break vacuum interrupter according to claim 1, wherein: said intermediate isolation shield (4) is disposed on an upper portion of said rib (11), and said intermediate isolation shield (4) Between the ribs (11), a barrel-shaped support (5) having an upper and lower cross section with an arc shape is provided.