KR102438378B1 - Surge arrester with pressure relief device - Google Patents

Abstract

The invention comprises a housing (9) having a column of electrical resistors (7); a first end (14) with a plug-in device (3, 4); It relates to a surge arrester (1) comprising; a second end (13) with a pressure relief device (12, 20, 30), wherein the surge arrester has a pressure relief device in a fluid-tight housing by means of a clamping action. a cover (12, 30) fixed to (9), wherein the clamping action is such that in the event of a malfunction of the surge arrester (1), the pressure build-up within the housing (9) overcomes the clamping action and the interior (8) of the housing (9) ), characterized in that it is formed to provide a fluid-guided connection to the surroundings.

Description

Surge arrester with pressure relief device

The present invention relates to a surge arrester according to the preamble of claim 1 .

Surge arresters are used in the medium and high voltage ranges to safely discharge to ground the so-called overvoltage, ie a voltage that is significantly higher than the preset nominal voltage during operation. This prevents damage to production equipment, for example transformers. For example, a surge arrester for high voltage may be disposed on an overhead power transmission line to discharge an unacceptable magnitude of current toward the ground during a lightning strike or a short circuit.

Surge arresters generally contain so-called varistors, ie electrical resistances whose values are very high up to the threshold voltage according to the design scheme, and which decreases significantly above the threshold voltage, so these surge arresters are good electrical conductors. Accordingly, these resistors are commonly referred to as so-called "varistors" ("variable resistors" in English). Metal oxide resistors, for example in the form of disks, are arranged one after another in a housing, and are connected to a high voltage potential and a ground potential at respective ends of the housing. In this case, the surge arrester is hardly conductive during normal operation, so only a small leakage current flows to ground. On the other hand, in the case of an error, a high discharge current flows.

From the prior art, plug-in arrester types with a conical end used for insertion into a containment device are known. The containment device may be provided, for example, in a gas insulated switchgear (GIS). Since such a plug-in arrester only needs to be inserted into the receiving device and flange-coupled, it can be installed particularly easily at the place of use. Inside the plug-in arrester, the varistors are typically encased in silicone for insulation, leaving a cavity for the outer housing. For example, a stack of disk-shaped resistors is inserted into a prefabricated silicon body. The cavity is usually filled with air. When an overvoltage occurs in the plug-in arrester (plug-in limiter), an arc is created between the high voltage guide and the ground potential. In the process, high pressure build-up inside the arrester occurs. In order to prevent destruction of the arrester housing due to high pressure, a pressure relief device is required at the end of the arrester opposite the conical end. Therefore, this pressure relief device must be able to open in a timely manner at the time of pressure build-up to ensure a pressure drop inside the arrester. On the other hand, pressure relief devices must keep the arrester shut off and sealed to the surroundings during normal operation. A known solution is to fit a cap made of plastic into the corresponding end of the plug-in arrester and secure and seal it with adhesive. Such caps tear, for example, upon high pressure build-up in the event of a short circuit.

Based on the known plug-in arrester types, the object of the present invention is to provide a surge arrester that can be manufactured inexpensively, while at the same time being relatively particularly safe in the event of a failure and simple to maintain.

The present invention solves this problem through a surge arrester according to claim 1 .

The surge arrester according to the present invention has the advantage that time and cost are saved because it is simple to manufacture. When assembling the arrester, the cover can simply be fitted into the tubular housing. A clamping fit of the cover, which closes the housing in a substantially fluid-tight manner, occurs immediately. No special tools or adhesives are required for assembly. In addition, the plug-in arrester can be easily and non-destructively reopened, for example to carry out a visual inspection or maintenance of the interior. The cover or cap can be disassembled simply and non-destructively, for example by being lifted by a flat screwdriver.

The housing can be formed, for example, in the form of a tube and can be made, for example, of metal.

A further advantage is that, since the cover can be detached and/or cracks can form, a pressure relief action is ensured through opening or loosening in the event of a pressure build-up in the event of a short circuit. It is also possible for the cover to break.

In a preferred embodiment of the surge arrester according to the invention, the cover comprises a recess in which sealing means are arranged. Such a recess consists, for example, of a groove having a U-shaped cross-section or a rectangular cross-section. Such a recess is advantageous as it does not allow the sealing means to escape.

In a further preferred embodiment of the surge arrester according to the invention, the sealing means comprises an elastic plastic. This has the advantage that a good clamping action and additionally a good sealing are achieved due to the elastic plastic. This insertion is made possible by a slight compression of the sealing means upon insertion of the cover into the plug-in arrester. This pressing force keeps the cover, for example, in the arrester housing.

In a further preferred embodiment of the surge arrester according to the invention, the sealing means comprises an O-ring. This has an advantage, since so-called O-rings are widespread in the art as ring-shaped seals. O-rings are long-lasting, inexpensive, and commercially available in a variety of forms.

In a further preferred embodiment of the surge arrester according to the invention, the housing comprises a corresponding recess for receiving the sealing means. This has the advantage that the clamping fit is improved by preventing escape of the sealing means.

In a further preferred embodiment of the surge arrester according to the invention, the housing comprises a taper which facilitates fitting of the cover. Taper in the sense of the present invention means that the cross section of the component is reduced (in this case towards the end of the arrester), for example in the form of a truncated cone. The angle of inclination of the housing allows the housing to be formed, for example, with its outermost rim thinner than for the remainder of the arrester length.

In a further preferred embodiment of the surge arrester according to the invention, the cover comprises a taper which facilitates fitting of the cover onto the housing. Through the inclination angle of the cover of the arrester, it can be easily mounted on the arrester.

In a further preferred embodiment of the surge arrester according to the invention, the cover is formed at least partially against the inner side of the tubular housing.

In a further preferred embodiment of the surge arrester according to the invention, the cross-section of the cover has a smaller or equal diameter compared to the housing. This has an advantage because a protruding edge is not formed by the cover. For this reason, accidental peeling of the cover at the time of work in the vicinity of a surge arrester is prevented.

In a further advantageous embodiment of the surge arrester according to the invention, the cover is formed at least partially against the outside of the tubular housing.

In a further preferred embodiment of the surge arrester according to the invention, the cross-section of the cover has a larger diameter compared to the housing.

To better explain the present invention,
1 is a view of a first embodiment of a surge arrester according to the present invention,
2 is a detailed view of a surge arrester according to the first embodiment;
3 is a detailed view of a second embodiment of a surge arrester according to the present invention.

1 shows a surge arrester 1 having a housing 9 formed in the form of a tube. The first end 14 of the surge arrester 1 is provided with a plug-in device 3 , 4 . A pressure relief device 12 is provided at the second end 13 of the surge arrester 1 . The first end 14 has a high voltage contact 4; and a plug-in sleeve (3) forming a pluggable part formed in a cone shape of the surge arrester (1). The plug-in sleeve 3 comprises a flange at one end, which flange is used for flange engagement after insertion of the surge arrester 1 into a receiving device (not shown), for example a gas insulated switchgear. Inside the surge arrester 1 , the high voltage contact 4 is guided to the first end fitting 5 . The first end fitting part 5 and the second end fitting part 10 pressurize the electrical resistors 7 , so-called columns of varistors. The end fitting portion 10 is guided by means of fastening means 11 to a tubular housing 9 made of metal. The two end fittings 5 , 10 , the electrical resistors 7 and a part of the high voltage contact 4 are housed in the insulating jacket 6 . The insulating jacket 6 is made of, for example, silicone. Between the housing 9 and the insulating jacket 6 , a cavity 8 is formed inside the surge arrester 1 . If a malfunction of the surge arrester 1 occurs with arcing and corresponding pressure build-up inside, the pressure relief device 12 can release this pressure to the surroundings. In this way, risks to the production equipment and users can be greatly reduced.

As can be seen in FIG. 1 , the pressure relief device includes a cover 12 . The cover 12 is fluid-tightly fixed to the housing 9 by means of a clamping action, wherein the clamping action is such that in the event of a malfunction of the surge arrester 1, the pressure build-up within the housing 9 overcomes the clamping action and It is configured to provide a fluid guided connection from the interior 8 to the surroundings. The fluid-guided connection is achieved, for example, through a crack in the cover 12 or separation of the cover 12 from the housing 9 .

2 shows a detailed view of the cover 12 in the area of connection to the housing 9 . In this example, the housing 9 is formed in the form of a tube, so that the illustrated cross-section of the cover 12 is formed substantially rotationally symmetrical. The cover 12 comprises a step 21 forming a clamping lip 20 which is guided into the interior of the arrester. The clamping lip 20 comprises a taper 17 and a recess 19 . The recess 19 is formed to receive the sealing means 15 formed as an O-ring made of resilient plastic. The housing 9 has a shape matching the clamping lip 20 . The housing 9 thus forms an outwardly tapering region 16 , correspondingly in cross section following the running curve of the taper 17 of the sealing lip 20 . The housing 9 comprises a corresponding recess 18 in which the sealing means 15 are seated. Since the cross section of the cover 12 is formed slightly smaller than the diameter of the housing 9 , there is no protruding edge at the second end 13 of the surge arrester 1 .

In the illustrated embodiment, when assembling the surge arrester 1 , the cover 12 to which the O-ring 15 is fastened is provided, such that the sealing means 15 is seated in the recess 18 of the housing so that the cover ( It has the advantage that it can be fitted into the tapered region 16 of the housing via manual pressure very simply, until locking 12). Positioning in the recesses 18 , 19 in a deformed state creates a strong clamping action through the sealing means 15 forming a fluid-tight closure.

3 shows a second embodiment of the present invention. The cover 30 has a cross-section that is larger than the diameter of the housing 32 . The sealing lip 37 rests on the outside of the housing 32 . The sealing lip 37 includes a tapered region 33 and a recess 36 . The housing 32 includes a corresponding recess 35 and a tapered region 34 . In the recess 36 and the corresponding recess 35, sealing means 31, which again are formed as O-rings, are fastened. In contrast to the first embodiment, in the second embodiment, the cover 30 is fitted to the outermost rim of the housing 32 and thereby the surge arrester 1 is seated on the outside of the surge arrester 1 . ) is placed on the Even in this variant, only the cover 30 on which the sealing means 31 is seated only needs to be fitted in the housing 32, so that a particularly simple manual manufacture is provided.

Claims (11)

a housing (9) with a column of electrical resistors (7);
a first end (14) with a plug-in device (3, 4);
In the surge arrester (1) comprising; the second end (13) having a pressure relief device (12, 20, 30),
The pressure relief device comprises a cover (12, 30) fixed to the housing (9) in a fluid-tight manner by means of a clamping action,
The clamping action is formed such that in the event of a malfunction of the surge arrester 1 the pressure build-up in the housing 9 overcomes the clamping action and a fluid-guided connection from the interior 8 of the housing 9 to the surroundings is provided,
Surge arrester (1), characterized in that the cover (12, 30) comprises recesses (19, 36) in which sealing means (15, 31) are arranged. delete 2. Surge arrester (1) according to claim 1, characterized in that the sealing means (15, 31) comprise an elastic plastic. 4. Surge arrester (1) according to claim 3, characterized in that the sealing means (15, 31) comprise an O-ring. 2. Surge arrester (1) according to claim 1, characterized in that the housing (9) comprises corresponding recesses (18, 35) for receiving the sealing means (15, 31). 2. Surge arrester (1) according to claim 1, characterized in that the housing (9) comprises a taper (16, 34) which facilitates fitting of the cover. Surge arrester (1) according to claim 1, characterized in that the cover (12, 30) comprises a taper (17, 33) which facilitates fitting of the cover (12, 30) onto the housing (9). ). Surge arrester (1) according to claim 1, characterized in that the cover (12) is formed at least partially against the inner side (16, 18) of the housing (9). The surge arrester (1) according to claim 8, characterized in that the cross section of the cover (12) has a smaller or equal diameter compared to the housing (9). Surge arrester (1) according to claim 1, characterized in that the cover (30) is formed at least partially against the outer side (34, 35) of the housing (9). 11. Surge arrester (1) according to claim 10, characterized in that the cross-section of the cover (30) has a larger diameter compared to the housing (9).

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