DE202005008111U1 - Surge arrester has varistor block mounted between two end armatures, block being mounted in tube with tubular supports at ends - Google Patents

Abstract

Surge arrester has a varistor block mounted between two end armatures (3). The block is mounted in a tube (13) with tubular supports (17) at the ends.

Description

The invention relates to a surge arrester, in particular a metal oxide surge without spark gap and with a plastic housing, as in 1 is shown. Surge arresters are connected in power supply systems between live lines and ground to derive in the event of an overvoltage in the line this to ground and to protect other components of the power grid.

In such a surge arrester, as in 1 and 2 is a stack of voltage-dependent resistors, so-called varistor blocks 1 (variable resistors), between two end fittings 3 arranged. The varistor blocks 1 are usually metal oxide varistor blocks, for example zinc oxide varistors. They have the property of being good insulators below a predetermined voltage, but working above this voltage as good electrical conductors. The final fittings 3 are made of metal, such as aluminum or stainless steel.

The arrangement of varistor blocks 1 and end fittings 3 is from a pipe 13 surrounded, for example by a GRP pipe (glass fiber reinforced pipe), and a housing 5 , designed as a silicone sleeve is on the tube 13 intended. In addition, umbrellas can 7 , also made of silicone, on the case 5 be educated.

The pipe 13 and the case 5 are usually with the end fittings 3 connected by a shrink bonding. The final fittings 3 are formed flange and have a cross section to the outer diameter of the GRP pipe 13 matching opening or recess in which the GRP pipe 13 is introduced. The housing 5 lies on the edge of the end fitting 3 on.

Between the varistor blocks 1 and the GRP pipe 13 remains at least in part of the circumference of the varistor blocks 1 A gap 9 that extends over the entire length of the case 5 extends. The final fittings 3 are with gas outlets or blow-off openings 11 provided, which are closed by a membrane, not shown. These gas outlets 11 stand in connection with the gap 9 ,

One such surge arrester is called a surge arrester denoted by tube design.

In case of overload develops inside the pipe 13 a plasma that spreads across the gap 9 spread quickly and unhindered, the membranes at the gas outlets 11 breaks through and as a hot strongly ionized gas from the housing 5 is dissipated. This plasma initiates an external short circuit, so that further damage to the surge arrester can be avoided.

Surge arresters with tube design are manufactured in considerable lengths. A surge arrester this type with a rated voltage of 200 kV reaches one Length of approx. 2 m. Because these surge arresters Used outdoors, they are also great mechanical loads exposed by wind and / or the connected lines. In particular, will a very high mechanical bending strength required.

task The invention is the mechanical strength of a surge arrester to improve with tube design. The task is done by a surge arrester solved according to claim 1. The dependent ones claims relate to further advantageous aspects of the invention.

in the Another is an inventive surge arrester described in detail with reference to the figures, in which demonstrate:

1 an overall view of a surge arrester with tube design;

2 a detailed view of the connection between the tube, the housing and an end fitting in the conventional surge arrester;

3 a detailed view of the connection between the tube, the housing and an end fitting in a surge arrester according to the invention.

As in 2 is a conventional surge arrester with a plurality of varistor block 1 equipped, which are held as a stack between two end fittings.

A pipe 13 surrounds the stack of Varistorblöcke, wherein at least a portion of the circumference of the stack, between the stack and tube 13 , A gap 9 remains, which extends over the entire length of the surge arrester. The pipe 13 is with the end fittings 3 firmly connected so that it can hold the end fittings under train, with a predetermined Anpressmoment on the stack of Varistorblöcke 1 is exercised to secure electrical contacting these blocks 1 to ensure.

As in 2 is also shown on the end fitting 3 formed an outer collar into which the tube 13 is fitted, leaving a first overlap area 15 is formed. There is the pipe for example, by gluing firmly to the end fitting 3 connected.

At a bending load of the surge arrester there is a risk that in this relatively short first overlap area 15 concentrate the forces and become so large that damage to the plastic housing occurs. It has been found that many damage due to excessive mechanical stress on surge arresters with tube design in the area of the connection of the plastic housing with one of the two end fittings occur.

3 shows one 2 corresponding detail view of an embodiment according to the invention of a surge arrester of this type.

In 3 protrudes a support element 17 at least at an end fitting 3 in the pipe 13 in and lies on the inner wall of the tube 13 at. This support element extends over the first overlapping area 15 out, leaving a second overlap area 19 between the support element 17 and the tube 13 is formed. The length of the second overlapping area is not particularly limited, however - since the supporting element 17 preferably from the material of the end fitting 3 is formed and therefore electrically good conduction, it should be as short as possible.

The support element 17 can as a tubular element integral with the end fitting 3 be educated.

The pipe 13 is preferably a GRP pipe 13 and is between the outer edge of the end fittings 3 and the support element 17 bordered and held by gluing.

With this construction leaves the flexural strength of the surge arrester increase significantly and longer Construction methods, about 2 m out, are possible.

In the embodiment of 3 is the fiberglass pipe 13 by gluing with the end fitting 3 connected. This is not mandatory. Other forms of connection are possible, for example, the GRP pipe 13 also by pressing or by screws on the end fitting 3 being held. It should be noted, however, that a gas-tight connection is created, which can ensure that no gases get into or out of the surge arrester. In particular, moisture in the ambient air would impair the functioning of the surge arrester. In some embodiments, the gap is 9 also filled with a good insulating gas, and leakage of this gas is to be avoided.

Also, make sure that the connection between the pipe 13 and the two end fittings 3 so strong is that a sufficient force on the varistor blocks 1 can be exercised when this - for example by means of a clamping screw, not shown - between the end fittings 3 be pressed.

The support element 17 is preferably designed as a tubular element. Other constructions, such as pipe segments or individual support rods are also conceivable, with a cross-sectionally circular tube provides the best results.

To ensure that the pressure relief in case of electrical overload via the gas outlets 11 working, care should be taken along the entire second overlap area 19 a sufficiently large gap 9 between the support element 17 and the varistor blocks 1 or the end fittings 3 remains, at least over part of the circumference of the varistor blocks 1 ,

It is possible in the second overlap area 19 instead of varistor blocks 1 also simple metal blocks, preferably to use aluminum blocks. Although this increases the length of the surge arrester, it can be ensured that there are no partial discharges between the varistor blocks 1 and the support element 17 comes in this area.

In the preferred embodiment, the support element 17 integral with the end fitting 3 educated. For example, the entire end fitting 3 with the support element 17 be manufactured as an aluminum casting. It is alternatively possible, the support element 17 form as an independent support tube, which can facilitate the manufacture and installation of the surge arrester.

to Further improvement of the mechanical properties of the surge arrester can also still provided around the stack of Varistorblöcke 1 around individual rods be over the entire length the surge arrester extend and anchored to two end fittings in a known manner are. These bars are preferably formed from a glass fiber reinforced plastic material.

At the in 3 shown surge arresters are the tube 13 and the case 5 with the umbrellas 7 shown as two separate parts. This is not mandatory. It is also possible to form the screens separately from the housing or - if desired - completely renounce. Also it is possible the pipe 13 and the case 5 in one piece - same with the umbrellas 7 - train.

1

varistor

3

end fittings

5

casing

7

umbrellas

9

gap

11

gas outlet

13

GRP pipe

15

first overlap area

17

support element

19

second overlap area

Claims (9)

Surge arrester with: at least one varistor block ( 1 ), two end fittings ( 3 ) between which the varistor block ( 1 ) and a pipe 13 containing the varistor block ( 1 ) and with the end fittings ( 3 ), characterized by a support element ( 17 ), which in the area of an end fitting ( 3 ) in the pipe ( 13 ) and on the inner wall of the tube ( 13 ) is present. Surge arrester according to Claim 1, characterized in that the varistor block ( 1 ) is formed of a metal oxide, preferably ZnO. Surge arrester according to claim 1 or 2, characterized in that the end fittings ( 3 ) made of metal, preferably aluminum, are formed. Surge arrester according to one of the preceding claims, characterized in that the surge arrester comprises a housing ( 5 ) with umbrellas ( 7 ) having. Surge arrester according to one of the preceding claims, characterized in that the tube ( 13 ) a GRP pipe ( 13 ). Surge arrester according to one of the preceding claims, characterized in that the housing ( 5 ) as a silicone shell on the tube ( 13 ) is trained. Surge arrester according to one of the preceding claims, characterized in that the GRP tube ( 13 ) with the end fittings ( 3 ) is connected by a Schrumpfklebung. Surge arrester according to one of the preceding claims, characterized in that the end fittings ( 3 ) in cross section to the outer diameter of the tube ( 13 ) have appropriate opening or recess into which the pipe ( 13 ) protrudes. Surge arrester according to one of the preceding claims, characterized in that a gap ( 9 ) over the entire length and at least part of the circumference of the varistor block ( 1 ), between the varistor block ( 1 ) and the pipe ( 13 ), wherein the gap ( 9 ) in connection with at least one discharge opening ( 11 ) stands on one of the end fittings.