EP3590123A1 - Arrangement and method for switching high currents in high-voltage engineering - Google Patents

Abstract

The invention relates to an arrangement (1) and a method for switching high currents in high-voltage engineering for a pole, having at least one first and having at least one second contact (2, 3). A contact (2, 3) has at least two contact pieces that are in electrical and/or mechanical contact with one another in the closed switching state. The at least one first contact (2) is arranged in a first housing (4) and the at least one second contact (3) is arranged in a second housing (4). The at least one first and the at least one second contact are each configured as rated-current contacts connected in parallel with one another. When switching the at least one first rated-current contact (2), the at least one second rated-current contact (3) is always in the open switching state.

Description

description

Arrangement and method for switching high currents in high voltage engineering

The invention relates to an arrangement and a method for switching high currents in the high voltage technology for a pole, with at least a first and at least one second contact. A contact has at least two contact pieces to which communicate with each other in the closed switching state in electrical ^¬ schem and / or mechanical contact. The at least one first contact is disposed in a first housing on ^¬ arranged and at least one second contact is in a second housing.

An arrangement for switching high currents in the high voltage engineering is z. B. from EP 0 024 252 AI known. In this case, a high-voltage circuit breaker comprises two contacts, a first and a second contact, each with two contact pieces. The first contact is arranged as the main switching point in an insulating housing. The second contact is connected as an auxiliary switching point in series with a resistor and with the resistor together in an insulating ^¬ arranged. The resistor is used as a switch-on resistor during switching. If both contacts are opened, firstly the second contact resistance, that is, the auxiliary switching Stel ^¬ le closed while the first contact, ie the main ^¬ switching point is open. About the resistance is the

Current flow limited via the auxiliary switching point.

When closing the main switching point, the auxiliary switching point is bridged and the current flows essentially through the main switching point, which is designed as a rated current ^{contact ausgebil ¬} det. Rated current contact further means that the contact is designed to carry high currents. The Be ^¬ limitation of the current intensity through the auxiliary switching point, with Hil ^¬ fe of the resistor in series with the auxiliary switching point enables the design of the auxiliary switching point for low currents. This lower diameter of the contacts of the auxiliary switching point and thus less mass may be used to ^¬ which easily can be accelerated and thus shifts faster overall, compared with rated current contacts. Analog high-voltage circuit breakers with arc and rated contacts, takes place in the on state, a current flow substantially via the rated current contact, and the auxiliary switching point connected in series with the resistor, serves to reduce arcing during the switching process. A switching of the first contact, ie the rated current contact, always takes place when the second contact is closed, ie when the auxiliary switching point is closed.

The maximum current flow across the high current switching arrangements, and thus the breaking capacity of the high voltage circuit breaker, is essentially determined by the rated current contact. When turned on, the second contact is with resistance, i. H. the auxiliary switching point, by the first contact, d. H. the rated current contact, bypassed. An increase in the maximum current flow and the maximum switching voltage of the high-voltage circuit breaker, are essentially limited by the design possibilities for the rated current contact.

The object of the present invention is to specify an arrangement and a method for switching high currents in high-voltage engineering. In particular, it is an object to simply and inexpensively increase the maximum current flow and / or the maximum voltage to be switched in relation to arrangements for switching, which are known from the prior art.

The stated object is achieved according by a Anord ^¬ voltage for switching high currents in high-voltage engineering for a pole with the features according to claim 1, an arrangement for switching with the features according to claim 10, and / or by a method for switching of DC and / or alternating current in the high-voltage technology, in particular using the arrangement described above, according to claim 11. Advantageous embodiments of the arrangement according to the invention for switching high currents in high-voltage technology and / or the method for switching direct and / or alternating current in high-voltage engineering, in particular using the arrangement described above, are specified in the subclaims. Such objects of the main claims among themselves and with Merkma- len of dependent claims and features of the subclaims un ^¬ behind the other can be combined.

An arrangement according to the invention for switching high currents in the high-voltage technology for a pole comprises at least a first and at least one second contact, wherein a contact has at least two contact pieces. The two Kon ^¬ clock pieces with each other in electrical and / or mechanical contact in the closed switching condition. The at least one first contact is in a first housing angeord ^¬ net and at least one second contact is arranged in a ^two-¬ th housing. The at least one first and a second contact we ^¬ nigstens are each rated current contacts, ie the contacts as contacts with high Stromtragfä ^¬ formed ability, particularly for short-circuit currents in the range greater than 1 to 100 kA, with switching voltages to

1200 kV. The at least one first and the at least one second contact are connected in parallel with each other. When switching the at least one first nominal current contact of the at least one second rated current contact is always in geöffne ^¬ th switching state.

The formation of the parallel connected, at least two contacts as rated current contacts allows an increase of the maximum possible current over known arrangements for switching from the prior art, in which only one rated current contact is used per pole and in which Lichtbo ^¬ gen- or auxiliary switching points are used which are are connected with a resistor, and have only a ge ^¬ ringere current carrying capacity. The switching sequence, with open at least a second rated current contact when switching the at least one first nominal current contact station, helps a simple execution of at least a two ^¬ th rated current contact without blowing nozzle for extinguishing Lichtbö ^¬ gen and / or without arcing contacts. The arrangement for switching can thereby be simple and inexpensive, and allows switching with little effort and high switching speeds.

In each case the first and / or the second housing may comprise an insulator, in particular an externally ribbed insulator made of silicone and / or ceramic. Thus, in an external structure of the arrangement analogous to the structure with an auxiliary switching point and resistors connected in series, known from the prior art, a second rated current contact can be arranged in the second insulator housing instead of auxiliary switching point and series-connected resistors in FIG the second insulator housing. An analogous external structure of the arrangement, each with a rated current contact in the interior of a Isola ^¬ gate housing enables inexpensive and easy to realize the arrangement according OF INVENTION ^¬ dung. The assembly may be T-shaped and include a common driven elekt ^¬ insulating insulator column, in particular with egg ^¬ ner shift rod movably disposed within the insulator column and / or kinematically connected in particular with a common drive. In this case, the T-shaped arrangement may comprise two, in particular tubular pairs of insulators arranged substantially perpendicular to the support column in opposite directions, wherein in each case the insulators of a pair in particular with the respective longitudinal axis in ^{wesentli ¬} chen are arranged parallel to each other. Each isolator may each comprise at least one rated current contact. Thus, at least two pairs of rated current ^contacts are connected in parallel, one pair each having two series connected in series. switched rated current contacts includes. The parallel circuit of the rated current contacts increases the current carrying capacity of at ^¬ order and the series circuit of the rated current contacts within a pair increases the switchable voltage of the arrangement of opposite a similarly constructed individual rated current contact. The result is a cost-effective, simple construction of the arrangement with high current carrying capacity and high switching ^¬ voltage or dielectric strength in the open Schaltzu ^¬ stand.

The rated current contacts can be ki ^¬ nematically coupled to each other via at least one gear, for the conversion and transmission of the switching movement, with a switching of the respective second rated current contact with the associated first open rated current contact. The transmission may be a Einschaltbe ^¬ movement, provided by a common drive, transmitted to the at least one first rated current contact, and delayed in time to the at least one second rated current contact. A turn-off movement may transmit the transmission, provided by a common drive, to the at least one second rated current contact, and delayed in time to the at least one first rated current contact. The use of a transmission allows the switching sequence, with the advantages described above, when using only a common drive, whereby a simple, inexpensive construction of the arrangement is made possible. It can also be a major and minor gears are used, each arranged, in particular ^¬ weils connected between two series-rated current contacts, for transmitting a shift movement with DELAY on parallel rated-current contact pairs. Since ^¬ by a compact, simple and inexpensive Anord ^¬ voltage for switching is possible.

The arrangement can be designed for switching direct and / or alternating voltages, in particular up to 1200 kV. At least one, in particular all rated current contacts may be assigned at least one arcing contact, and / or at least one, in particular all nominal current contacts may be assigned at least one tuyere. So all con- may contacts a blast nozzle and / or an arcing contact aufwei ^¬ sen, whereby a very high power to be switched or very high to be switched currents and / or voltages can be achieved, resulting with the possibility arcs at each contact to delete. Alternatively, a pair of rated current contacts may also be assigned a blast nozzle and / or an arcing contact, and another pair may be formed on rated current contacts without an assigned blast nozzle and / or without an associated arcing contact. The simple structure of the arrangement costs and moving masses can be reduced when switching, especially at the same or increased

Switching speed. Four rated current contacts may be included in the arrangement for switching, with two first rated current contacts, which comprise a tuyere at the respective rated current contact, and two second rated current contacts, which are formed without a tuyere.

When switched on, the current flow through the second rated current contact 20 to 90% may correspond in particular 50% of the electricity flow through the first ^¬ rated current contact. As a result, a high current carrying capacity of the arrangement as a whole is pos ^¬ lich, which can be dispensed with in particular in a second contact to a tuyere and an arc contact.

The rated current contacts can each consist of two contact pieces, in particular two hollow cylindrical Kontaktstü ^¬ bridges with a diameter of 50 to 200 mm, in particular 80 to 150 mm. The contact pieces may consist of a highly conductive metal, in particular copper, aluminum or steel. The contact surfaces of the contacts may be silvered and / or include carbon. As a result, a low current, ie with little resistance via contacts when the state of the device is switched on, a high current flow through the device. A high current carrying capacity with a simple, inexpensive construction of the arrangement is ensured.

The arrangement can be comprised of a three-pole switchgear, in particular with a previously described arrangement per pole. The three-pole switchgear can per pole to a ^¬ have before-described arrangement, with the previously described per pole advantages. A method according to the invention for switching direct and / or alternating current in high voltage engineering, in particular using a previously described arrangement, comprises switching on at least one first rated current contact in a first housing before at least one second rated current contact in a second housing and / or we ^¬ nigstens a first rated current contact is turned off in a first housing according to at least a second rated current contact in a two ^¬ th housing. Two first rated current contacts, with each of the two first rated ^¬ current contacts in a respective first housing, can be switched in particular simultaneously, before a ^¬ switch from two second rated current contacts, with each of the two second rated current contacts in a respective second housing. The two first rated current contacts, with each of the two first rated current contacts in a respective first housing, may in particular be switched off simultaneously, after switching off the two second rated current contacts, with each of the two second rated current contacts in a respective second housing.

When switched on, the current flow can only take place via rated current contacts. The advantages of the method according to the invention for switching direct and / or alternating current in high voltage engineering, in particular using a previously described Arrangement according to claim 11 are analogous to the advantages of the inventive arrangement described above for switching high currents in the high voltage technology for a pole according to claim 1 and vice versa.

In the following, an embodiment of the invention is sche ^¬ matically shown in Figures 1 to 3 and described in more detail below.

The show

Figure 1 schematically in sectional view for a pole an arrangement according to the invention 1 for switching high currents in the high-voltage technology viewed from one side, and schematically in sectional view, the arrangement 1 of Figure 1, viewed from one side perpendicular to the view of Figure 1, and schematically in sectional view the arrangement 1 of Figure 1 viewed in plan.

FIG. 1 is a schematic sectional view of an arrangement 1 according to the invention for switching high currents in high-voltage engineering. The arrangement in Figure 1 is designed for switching to a pole, at z. B. three-pole design in particular three juxtaposed arrangements 1 according to the invention are used. The section plane of FIG. 1 through the arrangement 1 runs along the height of the arrangement 1 and perpendicular to connecting lines, which are not shown in the figures for the sake of simplicity. The arrangement 1 is mounted on a support frame 5, z. B. in the form of a vertical T or double T-shaped steel beam, arranged. At the upper end of the support frame 5, a deflection gear 7 is fastened with a particular laterally mounted drive 6 befes ^¬ . The drive 6 can, for. B. be designed in the form of an engine and / or a spring-loaded drive. The drive energy or drive movement during switching is provided by the drive 6 and transmitted via a kinematic chain 13 to switch contacts. The kinematic chain 13 comprises in particular the deflection gear 7, a shift rod 11, egg ^¬ nen gear head 8 and an additional gear. 9

The shift rod 11 is inside the longitudinal axis ei ^¬ ner support column 10, in particular in the form of a ribbed Iso ^¬ lator made of ceramic, composite material and / or silicone, ^¬ arranged and movably mounted. The support column 10 is arranged on the deflection gear 7, with the longitudinal axis collinear to the longitudinal axis of the support frame 5. On the upper end of the

Support column is the gear head 8 and, in particular since ^¬ Lich from the gear head 8, the additional gear 9 is arranged. In Figure 2, the inventive arrangement 1 of Figure 1 is shown schematically in a sectional view from one side, which extends perpendicular to the side view of Figure 1 he ^¬ . The arrangement 1 is designed T-shaped, with Läng ^¬ Lich, in particular ribbed formed insulator housings 4 which respectively fixed on two opposite sides of the insulator column 10, as the arms of the insulator column 10 wegfüh ^¬ rend perpendicular, on the gear head 8 and the auxiliary transmission 9 , are arranged. At the gear head 8, two insulator housing 4 are mounted, each comprising a first rated current contact 2 inside. At the additional gear 9, which is in particular ^¬ laterally attached to the gear head 8, two insulator housing 4 are mounted or arranged, each comprising a second rated current contact 3 inside. The insulator housing 4 on the additional gear 9 may be formed analogously Iso ^¬ latorgehäusen, which from the prior art for auxiliary switching points with series-connected Wi- resistances are known. Instead of the auxiliary switching points with resistors connected in series, second rated current contacts 3 are arranged in the insulator housings 4 of the arrangement 1 according to the invention. This increases the total current which can flow at most over the arrangement 1, without damaging the arrangement 1, at a time. The current carrying capacity of the arrangement 1 is increased.

When switching the arrangement 1, the drive 6 provides the kinetic energy which is required to open or close the

Contacts 2, 3, that is, for driving the movable contact pieces of the contacts 2, 3, is necessary. The kinetic energy is transmitted via the kinematic chain 13 to the contacts 2, 3. For example, the kinetic energy from the drive 6, in particular a spring-loaded drive, transmitted via the Umlenkge ^¬ gear 7 on the shift rod 11. From the switching ^¬ rod 11, the kinetic energy is transmitted to the gear head 8 and delivered in particular directly to the first rated current contacts 2. Auxiliary gear can be included in the first rated current contacts 2 to z. B. temporally and the amount and / or the direction of the force forth, different movable contact pieces of a rated current contact 2 anzutrei ^¬ ben, in particular with the same or different Bewegungsprofielen.

From the shift rod 11 directly or z. B. via the gear ^¬ head 8, the ^kinetic energy is transmitted to the additional gear 9 and delivered in particular directly to the second rated current contacts 3. Auxiliary gear can be included in the second rated current contacts 3 to z. B. temporally and the amount and / or the direction of the force forth, different movable contact pieces of a rated current contact 3 anzutrei ^¬ ben, in particular with the same or different motion profiles. Specifically, the auxiliary transmission mechanism 9 controls or regulates timing differences between the switching of the ers ^¬ th rated current contacts 2 and the switching of the second rated current contacts. 3 The first rated current contacts 2 are first closed when switching on, then the second rated current contacts 3 are closed. When turning off the second rated current contacts are separated 3 first, then the first rated current contacts ^¬ 2 are separated. Thus, the second rated current ^¬ contacts 3 are always in the open state, when the first rated current contacts 2 are switched. When switching the second rated current contacts 3, the first rated current contacts 2 are always in the closed state. As a result, a current can flow during the switching of the second rated current contacts 3 via the first nominal current contacts 2 connected in parallel. A deletion of arcs at the second rated current contacts 3 must not be done by ^¬ and erasers, such. As extinguishing nozzles and / or arcing contacts, can be dispensed with for the second rated current contacts 3. An arc wel ^¬ cher occurs when switching high currents can be cleared at the first rated current contacts. 2 For this purpose, at the first rated current contacts 2 Löscherichtungen such. As extinguishing nozzles and / or arcing contacts, may be provided.

The structure of the second rated current contacts 3 is simplified in the arrangement 1 described above, whose mass is reduced and thus at high current carrying capacity of the arrangement 1, a lower drive energy during switching necessary, ver ^¬ compared with arrangements known from the prior art. The drive and elements of the kinematic chain 13 can be made smaller, which saves costs compared to an arrangement with rated current contacts 2, 3, in which all rated current contacts 2, 3 have devices for extinguishing arcing.

In Figure 3, the arrangement 1 according to the invention of Figure 1 is shown schematically in a sectional view along the rated current contacts 2, 3. The rated current contacts 2, 3 are arranged in the insulator housings 4. In Ausführungsbei ^¬ game of the invention, which is shown in the figures, two first rated current contacts 2 are electrically out ^¬ behind the other and connected in series between two connection contacts 12 for outer conductor. Parallel to the two GE ^¬ series connected first rated current contacts 2 two second nominal current contacts 3 are electrically consecutively geschal ^¬ tet in series. The circuit is shown only schematically. Electrical lines in the arrangement 1 according to the invention can run in the insulator housings 4 and transmissions 8, 9, in particular electrically insulated within an insulator in opposite directions, and / or the rated current contacts 2, 3 can be electrically interconnected within the insulator housing 4 and the transmission 8, 9 connected to each other.

In the figures, for the sake of simplicity not shown, can each nen at the ends of the insulator housing 4 electrical

Connections 12 may be provided, via which a connection of the rated current contacts 2, 3 in analogy to the Darge in the figures presented ^¬ interconnection outside the insulator housing 4 reali ^¬ Siert is. There are also other interconnections possible, for. B. a parallel connection of each of a first and a second rated current contact 2, 3, connected in series with another parallel-connected first and second rated current contact 2, 3. Electrical wiring for an interconnection can via the transmission 8, 9 or by gear housing füh- ren, or in each case be arranged outside of housings between terminal contacts 12th

In the embodiment of the inventive arrangement 1, which is shown in the figures, the rated current contacts 2, 3 and the respectively associated insulator housing 4, each with a rated current contact 2, 3 in a Isolatorge ^¬ housing 4, arranged in pairs. The arrangement 1 comprises four rated current contacts 2, 3, with a first pair of insulator housings 4, which comprise a first and a second rated current contact 2, 3, and with a second pair of insulator housings 4, which likewise have a first and a second rated current contact 2 , 3 include. The insulator housing 4 of a pair are arranged with their longitudinal axes parallel to each other, in particular with the respec ^¬ rated rated current contact 2, 3 in an insulator housing 4 substantially arranged parallel to the rated current contact 2, 3 in the other insulator housing 4. The two pairs of insulator ^¬ Housings 4, with a rated current contact 2, 3 per insulator housing 4, are arranged one behind the other, connected via the gear 8, 9. The two first rated current contacts 2 and their insulator housing 4 via the gear head 8 verbun ^¬ the, and the two second rated current contacts. 3 and their insulator housing 4 are connected via the additional gear 9.

The rated current contacts 2, 3 and insulator housing 4 are with their central axes substantially in a plane which z. B. parallel to the ground on which the support frame 5 is placed, is arranged. A T-shape of the arrangement 1 results with a mid-perpendicular of the T-shape comprising the support frame 5, the deflection gear 7 with laterally attached drive 6, the support column 10 and the gear head 8 with laterally mounted additional gear 9. The horizontal of the T Form results from the two pairs of insulator 4, with a rated current contact 2.3 per insulator ^¬ housing 4, wherein a pair of insulator housings 4 via the gear 8, 9 is connected to the other pair of insulator housings 4.

A pair of insulator housings 4, which is shown in the exemplary embodiment of the figures, each comprise a tubular insulator housing 4 with a larger cross section and a tubular insulator housing 4 with a smaller cross section. Je ^¬ Weil's the first rated current contact 2, z. B. with extinguishing nozzle and / or arcing contact, is arranged in the insulator housing 4 with a larger cross section, wherein the two first rated current contact 2 are connected to each other with their associated insulator housings 4 via the gear head 8. In each case the second rated current contact 3, z. B. without extinguishing nozzle and / or without Arcing contact, is arranged in the insulator housing 4 with a smaller cross-section, wherein the two second Nennstromkon ^¬ clock 3 are connected to each other with their associated insulator 4 via the additional gear 9.

Alternatively, for the sake of simplicity, not shown in the figures, all insulator housing 4 z. B. have the same size or the same cross-section. All rated current contacts 2, 3 can have at least one extinguishing nozzle and / or at least one arcing contact. ^{Alternatively} , all nominal current contacts 2, 3 without extinguishing ^nozzle can also be used

and / or arc contact may be formed. The current carrying ^¬ the parts of different rated current contacts 2, 3 may be formed with different power line cross-section and / or in the open state different nominal current contacts 2, 3 may have different distances between the contact pieces. The rated current contacts 2, 3 can also be constructed identically. A control or regulation of different switching times of the first and second rated current contacts 2, 3 can take place via the gear 8, 9. In particular, the additional gear 9 can temporally cause a later switching on and earlier switching off of the second rated current contacts 3 with respect to the first rated current contacts 2. Alternatively or additionally, the gear head and / or gear units of the individual rated current contacts or movable contact pieces can cause a later switching on and an earlier switching off of the second rated current contacts 3 with respect to the first rated current contacts 2. A control or regulation of different

Switching times of the first and second rated current contacts 2, 3 can be done alternatively or additionally via the position and / or length of the switching path. The embodiments described above can unterei ^¬ Nander be combined and / or can be combined with the prior art. So z. B. several switching Rods 11, z. B. a shift rod for the gear head 8 and a shift rod for the additional gear 9 can be used. The arrangement 1 may, for. B. comprise only a pair of contacts, consisting of a first and a second rated current contact 2, 3. It can be summarized more contact pairs 2, 3 and / or more than two rated current contacts 2, 3 depending ^¬ parallel and / or in series. The Anord ^¬ tion 1 may be T-shaped, or other shapes such. B. reverse L-shape or I-shape. First and / or second rated current contacts 2, 3 may have extinguishing devices for extinguishing arcing, and may be identical or different z. B. pipe diameters may be formed for contact pieces to lisieren ^¬ different current carrying capabilities, and / or may include vacuum tubes as rated current contacts. It may be a common drive 6 and / or a deflection gear 7 and / or a support column 10 and / or a shift rod 11 may be provided, or it may be provided a plurality of drives, for. B. one drive per first rated current contacts and one drive per second rated current contacts with other elements of the kinematic chain. It can also be provided for each rated current contact a drive, in ^¬ particular with independent kinematic chains for each rated current contact. The support frame 5 may be in the form of a T or double T-beam. There may also be other supporting frames 5 ver ^¬ applies, in particular steel or aluminum. Isola ^¬ gate housing and / or pillars can be tubular, in particular ribbed outside, z. As silicone, composite materials and / or ceramic. The insulator housing and / or Stützersäulen may also have other shapes, eg. B. conical or spherical shape. The additional gear with the ^parent to ^¬ insulator housings can be arranged laterally on the gear head. The additional gear with the associated Iso- latorgehäusen can alternatively z. B. be arranged above or below the gear head. The arrangement according to the invention can be designed for one pole, it can be used for several Pole more than one arrangement are arranged in particular parallel to each other. For switching high currents and / or voltages of more than one arrangement of the invention in particular ^¬ sondere can be arranged one behind the other.

Reference sign list

1 arrangement for switching high currents

 2 first rated current contact

 3 second rated current contact

 4 insulator housing

 5 support frame

 6 drive

 7 deflection gear

 8 gear head

 9 additional gearboxes, especially counter gearboxes

10 column support

 11 shift rod

 12 connection contact

 13 kinematic chain

Claims

claims

1. Arrangement (1) for switching high currents in the high voltage technology for a pole, with at least one first and at least one second contact (2, 3), wherein a Kon ^¬ tact (2, 3) has at least two contact pieces, which in closed switching state in electrical and / or mechanical contact with each other, and wherein the at least one first contact (2) in a first housing (4) is arranged and arranged at least one second contact (3) in a two ^¬ th housing (4) is

characterized in that

at least one first and the at least one second Kon ^¬ contact (2, 3) are each rated current contacts, which are connected in parallel to each other, and that in switching the we ^¬ nigstens a first rated current contact (2) of the at least one second rated current contact (3) always in the open switching ^¬ state is.

2. Arrangement (1) according to claim 1,

characterized in that

in each case the first and / or the second housing (4) comprises an iso ^¬ lator, in particular an externally ribbed insulator made of silicone and / or ceramic.

3. Arrangement (1) according to one of the preceding claims, characterized in that

the assembly (1) is T-shaped and a common, driven elekt ^¬ insulating supporters column (10), in particular with a switching bar (11) movably arranged in the interior of the

Support pillar (10) and / or kinematically connected, in particular with a common drive (6), and wherein the T-shaped arrangement (1) two substantially perpendicular to the support column (10) arranged in opposite directions, in particular tubular pairs of insulators (4) wherein in each case the insulators of a pair, in particular with the respective longitudinal axis, are arranged substantially parallel to one another and each insulator each comprises at least one rated current contact (2, 3).

4. Arrangement (1) according to one of the preceding claims, characterized in that

the nominal current contacts (2, 3) are kinematically coupled to one another via at least one transmission (8, 9) for the conversion and transmission of the switching movement, with a switching of the respective second rated current contact (3) with the first rated current contact (2) being open.

5. Arrangement (1) according to one of the preceding claims, characterized in that

the arrangement (1) is designed for switching direct and / or alternating voltages, in particular up to 1200 kV.

6. Arrangement (1) according to one of the preceding claims, characterized in that

at least one, in particular all rated current contacts (2, 3) is associated with at least one arcing contact, and / or that at least one, in particular all rated current contacts (2, 3) is associated with at least one blowing nozzle.

7. Arrangement (1) according to one of claims 1 to 5,

characterized in that

four rated current contacts (2, 3) are included, with two first rated current contacts (2) which comprise a tuyere at the respective rated current contact (2), and two second rated current contacts (3) which are formed without a tuyere.

8. Arrangement (1) according to one of the preceding claims, characterized in that

in the switched-on state, the current flow through the second rated current contact (3) corresponds to 20 to 90%, in particular 50%, of the current flow via the first rated current contact (2).

9. Arrangement (1) according to one of the preceding claims, characterized in that

the rated current contacts (2, 3) each consist of two contact pieces, in particular two hollow cylindrical contact pieces with a diameter of 50 to 200 mm, in particular 80 to 150 mm, and / or that the contact pieces of a highly conductive metal, in particular copper, aluminum or steel exist, and / or that the contact surfaces of the contacts are silvered and / or include carbon.

10. Arrangement (1) according to one of the preceding claims, characterized in that

the arrangement (1) of a three-pole switchgear, in particular with an arrangement (1) according to one of the preceding claims per pole, is included.

11. A method for switching direct and / or alternating current in high voltage engineering, in particular using an arrangement (1) according to one of the preceding claims, characterized in that

at least one first rated current contact (2) in a first

Housing (4) before at least one second rated current contact (3) in a second housing (4) is turned on and / or that at least one first rated current contact (2) in a first housing (4) after at least a second rated current contact (3) in a second Housing (4) is turned off.

12. The method according to claim 11,

characterized in that

two first rated current contacts (2), with each of the first two rated current contacts (2) in a respective first housing (4) are turned, in particular at the same time, (before the A ^¬ switch from two second rated current contacts (3), with each of the two second rated current contacts 3) in a respective second housing (4), and / or that the two first rated current contacts (2), with each of the two first rated current contacts (2) in a respective first housing (4), in particular switched off at the same time Turn off the two second rated current contacts (3), with each of the two second rated current contacts (3) in a respective second housing (4).

13. The method according to any one of claims 11 or 12,

characterized in that

in the switched-on state, the current flow takes place exclusively via rated current contacts (2, 3).