EP2885789A1

EP2885789A1 - Surge arrester

Info

Publication number: EP2885789A1
Application number: EP13766914.9A
Authority: EP
Inventors: Dirk Springborn; Gundolf Barenthin; Erhard Pippert; Markus Sulitze
Original assignee: Siemens AG
Current assignee: Siemens Energy Global GmbH and Co KG
Priority date: 2012-09-25
Filing date: 2013-09-05
Publication date: 2015-06-24
Anticipated expiration: 2033-09-05
Also published as: EP2885789C0; KR101733899B1; CN104641428B; KR20150048191A; JP6025988B2; EP2885789B1; CN104641428A; WO2014048691A1; DE102012217310A1; JP2015537369A

Abstract

The invention relates to a surge arrester (1) having a fluid-tight housing (2). The housing has a ground contact (3) and a high-voltage contact (4), wherein the ground contact (3) and the high-voltage contact (4) each electrically connect the interior to the exterior of the housing (2). A discharge element (5) arranged in the housing (2) has a discharge column clamped between two end fittings (6, 7) by means of tension elements (11). An electrical connection of the ground contact (3) to the high-voltage contact (4) via the discharge element (5) can be established or interrupted from outside the housing (2) by means of a contact element (9) that can be moved in an axial direction by means of a moving apparatus (8). According to the invention, the contact element (9) is guided in a bore (26) of an end fitting (6, 7). Thus, the surge arrester (1) can be made very compact. In addition, a mechanically simple yet reliable design is possible due to the guidance of the contact element (9) in the bore (26) of the end fitting (6, 7).

Description

description

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

Overvoltage arresters are protective systems, for example, for switchgear systems which, given overvoltages caused by lightning strikes or malfunctions of other subsystems, dissipate these overvoltages to ground and thus protect other components of the switchgear.

Such a surge arrester comprises one or more cylindrical diverting elements, which have a varistor column made up of individual, likewise cylindrical varistor elements. Varistor elements are characterized by a voltage-dependent resistance. At low voltages these act as insulators. From a certain threshold voltage, which is material-dependent, they show a good conductivity. Frequently, varistor elements are made of metal oxides such as zinc oxide. The diverting element is limited at both ends by end ^¬ fittings which make electrical contact to the switching ^¬ plant and to ground. To ensure a good electrical contact even under mechanical stress, the varistor column must be held together under pressure. This can be done by tension members, for example, ropes or rods are preferably clamped in glass fiber reinforced plastic in the end fittings under train. The tension elements surround the varistor column and form a cage around them.

For use in gas-insulated switchgear

Überspannungsabieiter on a fluid-tight housing, which surrounds the discharge element. The housing is to increase the dielectric strength with a fluid, usually

Sulfur hexafluoride, filled. The housing is usually made of metal and is electrically grounded. An end fitting of the Conductor column is grounded via a guided through the housing contact. The other end fitting is electrically connected via a passage with a contact located on the outside of the housing, which serves to connect to the switchgear.

If the switchgear is to be electrically tested, then because of the then occurring high voltages of

Surge Arrester be disconnected from the switchgear. Otherwise, the surge arrester would divert the voltage to earth and the measurement result would be corrupted.

So far, surge arresters are known which have a separation point, with which the surge arrester can be disconnected from the switchgear. To actuate this separation point, the housing must be opened, whereby

Sulfur hexafluoride can escape. Since sulfur hexafluoride is a harmful greenhouse gas, this is highly undesirable and thus detrimental.

From JP 10322822-A is a generic

Überspannungsabieiter known in which the Ableitsäule is disconnected from the switchgear by the arrangement of Ab ^¬ control column and control hood is moved together and so an electrical connection is made or interrupted. For actuation, a linear movement is carried out gas-tight through the housing wall.

In the international application with the registration file PCT / EP2012 / 059973 a surge arrester is described, in which the control hood can be moved against the diverting element and so a separation point can be opened or closed. A disadvantage of the solutions of the prior art is that a complex mechanism is necessary that large masses must be moved and that the space requirement is high. Object of the present invention is to provide a compact surge arrester, the one from the outside

having operable separation point, with a simple mechanism with the smallest possible masses to be moved.

The object is achieved with the means of the invention according to patent ^{¬ claim} 1.

The invention provides an overvoltage arrester with a fluid-tight housing. The housing has a ground contact and a high voltage contact, wherein the ground contact and the high voltage contact each electrically connect the interior to the exterior of the housing. A discharge element arranged in the housing has a delivery column clamped between two end armatures by means of tension elements. A displaceable by means of a displacement device in an axial direction contact member outside the housing, an electrical connection from the ground contact to the high voltage contact ^¬ over the diverting element is produced from relate hung example interrupted. According to the invention, the contact element is guided in a bore of an end fitting. This makes the surge arrester very compact. In addition, a mechanically simple but reliable construction is possible by the leadership of the contact element in the bore of the end fitting.

In an advantageous embodiment of the invention, the contact element is resiliently connected to the displacement device in the axial direction. As a result, length tolerances of the displacement device can be compensated in a simple manner without complicated adjustment devices.

Further, it is preferred that a plurality, in particular three, diverting elements are each arranged with a contact element in the housing. In this case, the housing for each Ableitele ^¬ ment each have a high voltage contact and the contact elements are jointly displaceable by means of the displacement device. This makes it possible in a simple manner NEN multi-pole encapsulated surge arrester to build, which has its own separation point for each pole, but the separation points are operated together. Particularly advantageously, the shifting means depending on a discharge element connected to the contact element thrust Stan ^¬ ge. In addition, the displacement device has a gas-tight guided from the interior of the housing to the outside and outside of the housing by an actuator movable central rod. In this case, a coupling element with the central rod and the push rods is connected to transmit a movement of the actuator to the contact elements. This makes it possible in a particularly simple manner to operate several separation points in a surge arrester together with a single actuating device from outside the housing.

Preferably, the central rod with the coupling element forms a threaded drive, which transmits a rotary movement of the central rod into a linear movement of the coupling element. The central rod has an external thread, the coupling element a corresponding internal thread. Preferably, both threads are trapezoidal threads. This allows ^¬ be particularly simple set and compact drive for the movement of the contact elements.

In the following the invention will be explained in more detail with reference to the drawings. 1 shows a surge arrester according to the invention in a sectional illustration with a closed separation point,

FIG. 2 shows a surge arrester according to the invention in a sectional illustration with an opened separation point,

Figure 3 is a detail of the coupling element. FIG. 4 shows a detailed representation of the separation point,

Corresponding parts are provided in all figures with the same reference numerals.

Figures 1 and 2 show a surge arrester 1 in a sectional view. In a fluid-tight housing 2, three discharge elements 5 are arranged here, which are provided for the protection of a three-phase gas-insulated switchgear. DIE se dissipation elements 5 each have a cylindrical bleeder ^¬ column 12, a high-voltage side end fitting 7, a ground side end fitting 6 and a plurality of tension elements. 11 The Ableitsäule 12 is composed of individual, also cylindrical Varistorblöcken. The end fittings 6, 7 are usually made of electrically conductive material. The tension members 12 are pressed in the end fittings 6, 7 under train and so keep the Ableitsäule 12 together. In the Ableitsäule 12 retaining discs 24 are inserted, which have holes through which the tension members 12 are guided and thus stabilize the discharge element 5 additionally.

The housing 2 is substantially cylindrical. Along the cylinder axis extends the longitudinal axis 50, which defines an axi ^¬ ale direction. The diverting element 5 is aligned along this longitudinal axis 50. At the two top surfaces, the housing 2 is closed fluid-tight.

On a ground connection side of the discharge element 5, the top surface of the housing 2 is closed with a simple housing cover 22. A ground contact 3 is electrically insulated by this housing cover 22 from the inside to the outside of the housing 2 and serves the ground terminal. Inside the housing 2, this earth contact 3 is connected in an electrically conductive manner to the diverting element 5, for example, with a cable 13. The earth-side end fitting 6 is fixed to the housing cover 22 and electrically insulated from the Ableitsäule 12 by an insulating spacer 25. The housing cover 22 generally has a connection, not shown here on, via the fluid, for example, sulfur hexafluoride, filled in the housing 2, or can be discharged. The housing 2 may also have other facilities such as a maintenance opening 21.

On a high-voltage terminal side of the discharge element 5, the top surface of the housing 2 is provided with a high-voltage bushing 14 to lead the electrical high-voltage potential into the housing 2 from the outside without the risk of a flashover between the high voltage and the earthed housing 2. The bushing 14 is designed here as a three-pole feedthrough 14, which leads three high voltage contacts 4, insulated against each other and against the housing, into the housing 2. About the high voltage contacts 4, the

Surge arrester 1 can be connected to a three-phase gas-insulated switchgear not shown here. Inside the housing 2, the high-voltage contacts 4 protrude into the housing 2 like a finger. The distance between the high-voltage side end fitting 7 and respective high-voltage contact 4 forms a separation point 10. This separation point 10 can be closed with a contact element 9 ge ^¬ . This contact element 9 is designed as a pin or sleeve cylindrical, and can be moved in a bore 26 of the high-voltage side end fitting 7 in the axial direction. Bore 26 and contact element 9 are coordinated so that both a mechanical guide, as well as a good electrical connection between the contact element 9 and end fitting 7 is made. Alternatively you can

Grinding or sliding contacts make the electrical connection. If the contact element 9 is moved to the high-voltage contact 4, then the separation point 10 is finally closed. There is then an electrical connection from the switchgear over the high-voltage contact 4 into the interior of the housing 2, via the contact element 9, the high-voltage side Endar ^¬ matur 7, the Ableitsäule 12, the earth cable 13 finally to grounded ground contact 3. Will the contact element 9 from the high voltage contact 4 moves away, the separation point 10 is ge opens and the diverter 5 has no electrical connec ^¬ tion more to the high voltage contact 4 and thus the Schaltan ^¬ location. The movement of the contact element 9 by means of a displacement device 8. This has a ^{Betätigungseinrich ¬} device 23, a central rod 16, a coupling element 17 and push rods 15. The actuating device 23 located outside the housing 2 is connected to a central rod 16, which is guided gas-tightly into the housing 2. On the

Central rod 16, the coupling element 17 is disposed inside the housing 2. Central rod 16 and coupling element 17 thereby form a threaded drive by the central rod 16 has an external thread and the coupling element 17 has a corresponding internal thread, for example a trapezoidal thread. On the coupling element 17 a radially outwardly pointing arm 19 is arranged per discharge element 5, at the outer end of a connecting element 20 for receiving the push rods 15 is arranged ^¬ . FIG. 3 shows such a coupling element. The push rods 15 are fixed at one end in this connecting element 20 and connected to the other end with the contact element 9. The connection of the push rod 15 with the contact element 9 is as shown in Figure 4 spring out of ^¬ out. For this purpose, the push rod 15 is inserted into a bore 30 of the contact element 9. An annular collar 33 forms a stop for a spring 32 shown here as a helical spring, which is aufgefä ^¬ delt on the end of the push rod 15. A shoulder at the transition of the bore 30 to a further bore 31 in diameter forms a further stop for the spring 32. The bore 31 is closed at the end with a stopper 34, through which the push rod 15 is guided. The plug 34 prevents the push rod 15 can be pulled out of the bore 31 out. If the contact element 9 is moved up to the high-voltage contact 4 by means of the push rod 15, then, if the push rod 15 is moved further in the direction of the high-voltage contact 9, the spring 32 between the sleeve 33 and the shoulder between the bores 30 and 31 stretched and generates a Anpress ^¬ force of the contact element 9 to the high-voltage contact 4th

If the actuator 23 is rotated, the pull rod 16 rotates inside the housing 2 and transmits the rotary movement of the actuator 23 by means of the coupling element 17 on the push rods 15 and thus on the contact elements 9. Depending on the direction of movement while the separation point 10 is opened or closed.

Claims

claims

1. surge arrester (1) having a fluid-tight housing (2) having a ground contact (3) and a Hochspannungskon- (4), wherein the ground contact (3) and the high-voltage contact (4) respectively the interior with the exterior of the Ge ^¬ electrically connect housing (2), and with a in the fluid-tight housing (2) arranged diverting element (5) with a between two end fittings (6, 7) by means of tension elements (11) clamped Ableitsäule (12), wherein via a means of a displacement device (8) a contact element (9) which can be displaced in an axial direction, an electrical connection from the ground contact (3) to the high-voltage contact (4) can be produced or interrupted via the diverting element (5),

characterized,

the contact element (9) is guided in a bore (26) of an end fitting (6, 7).

2. surge arrester (1) according to claim 2,

characterized,

in that the contact element (9) is resiliently connected to the displacement device (8) in the axial direction.

3. surge arrester (1) according to one of claims 1 or 2,

characterized,

that a plurality of discharge elements (5) each having a contact member (9) in the housing (2) are arranged, which comprises for JE the diverter element (5) each have a high-voltage contact (4) wherein the contact elements (9) by means of the displacement ^¬ striking direction (8) are jointly displaceable.

4. surge arrester (1) according to claim 3,

characterized,

in that the displacement device (8) has a push rod (15) connected to the contact element (9) for each discharge element (5), and a gas-tight manner from the interior of the casing (2) Externally guided and outside of the housing (2) by a Be ^¬ tätigungseinrichtung (23) movable central rod (16) on ^¬ , wherein for transmitting a movement of the actuating device (23) on the contact elements (9) a coupling element (17) the central rod (16) and with the push rods (15) is connected.

5. surge arrester (1) according to claim 4

characterized,

in that the central rod (16) forms a threaded drive with the coupling element (17), which transmits a rotating movement of the central rod (16) into a linear movement of the coupling element (17).