EP3655983A1 - Arrangement and method for switching high currents in high, medium and/or low-voltage engineering - Google Patents

Abstract

The invention relates to an arrangement (1) and a method for switching high currents, with at least one vacuum switching path and with at least one rated current contact switching path. The at least two switching paths are electrically connected in parallel. A current path (20) is passed for a rated current over at least one rated current contact (3) of the rated current contact switching path and a parallel current path (21) for a short circuit current is passed through at least one contact of a vacuum tube (2) of the vacuum switching path.

Description

description

Arrangement and method for switching high currents in high, medium and / or low voltage technology

The invention relates to an arrangement and a method for switching high currents, with at least one vacuum switching ^¬ stretch and with at least one rated current contact switching ^¬ stretch.

The optimization of electrical switching devices at high currents, in particular in the range of a few 100 amps, is based on various line parameters. Leis ^¬ tion parameters of circuit breakers are z. As the low-loss wearing a rated current and switching possible large ^¬ SSSR rated and short circuit currents. When using vacuum tubes as a circuit breaker with the same contact system, which is located within a vacuum, a rated current is transmitted and switching of currents occurs. Between these functions an optimization takes place, whereby the parameters of the optimized circuit breaker always represent a compromise in relation to a function.

The object of the present invention is to provide an arrangement and a method for switching high currents in high, medium and / or low voltage technology. More particularly, object, simple and inexpensive separation of radio ^¬ tions current carrying capacity and switching of short-circuit currents ^¬ to allow particular.

The stated object is achieved by a Anord ^¬ tion for switching high currents with the features of claim 1 and / or by a method for switching high currents in the low, medium and / or high voltage engineering, in particular with a previously described arrangement , solved according to claim 11. Advantageous Ausgestal ^¬ tions of the inventive arrangement for switching high Currents and / or the method for switching high currents in the low, medium and / or high voltage engineering, in particular with a previously described arrangement, are specified in the subclaims. In this case, objects of the main claims can be combined with one another and with features of subclaims and features of the subclaims.

An arrangement according to the invention for switching high currents comprises at least one vacuum switching path and at least one nominal current contact switching path. The least two

Switching sections are electrically connected in parallel.

Due to the electrical parallel connection of the switching paths is a separation of the functions current carrying capacity and switching of particular short-circuit ^¬ currents possible simply and cost-effectively. The rated current contact switching path can be optimized for a high current carrying capacity ^¬ optimized and switching in particular of short-circuit currents can be done via the vacuum switching path. The vacuum switching path can be optimized for switching short-circuit currents without being designed for a high current carrying capacity.

The at least one vacuum switching path may comprise at least one vacuum tube. The rated current contact switching path may comprise at least one rated current contact, in particular ei ^¬ nen cylindrical rated current contact with at least two contact pieces, wherein at least one contact piece may be arranged to be movable. The at least one vacuum tube can be optimized in order in particular to switch short-circuit currents, in particular without having a high current carrying capacity. The at least one rated current contact can have a high current ^carrying capacity. The electrical parallel scarf ^¬ processing of a nominal current contact and the Wenig ^¬ least one vacuum tube can gen successes at least one switching of the arrangement, the arrangement in the switched-on state has a high current carrying capacity. The rated current contact may consist of a metal and / or comprise a metal, in particular aluminum, steel, copper, silver and / or metallic alloys, in particular with aluminum, steel, copper and / or silver. Metallic contacts comprising aluminum, steel, copper and / or silver have good conductivity with low resistivity. As a result, a high current carrying capacity via the rated current contact in the closed state of the contact is possible.

The at least one rated current contact switching path may have a lower contact resistance than the vacuum switching path. The vacuum switching path is ^{insbesonde ¬} re by the shape of the electrodes or contact pieces in a vacuum and their current carrying capacity optimized for switching in ^¬ particular of short-circuit currents. These occur only briefly, and in essence, the formation and existence of electric arcs is to suppress. For this purpose, special shapes of the contact pieces can be selected, in particular with plate-shaped contact surfaces, which z. B. have regular column on the upper ^¬ surface for guiding arcs. Materials with higher resistivity, e.g. As steel, can lead to a reduced occurrence of arcing. This reduces the current carrying capacity of the vacuum switching path. A high current carrying capacity of the arrangement according to the invention is achieved via the rated current contact switching path with a lower contact resistance in the on state.

The at least one rated current contact switching path, particularly the at least one rated current contact, in order nigstens we ^¬ nigstens be arranged around the we ^¬ a vacuum switching path, in particular to a vacuum tube. In this case at least one rated current contact may be disposed about the nigstens we ^¬ a vacuum tube concentrically. This results in a compact design of the inventive arrangement with a high current carrying capacity of the rated current contact, by a large conductive extent of the rated current contact. The at least one rated current contact switching path, insbeson ^¬ particular the at least one rated current contact, may be substantially spatially parallel to the at least one vacuum switching path, in particular for at least one vacuum tube is arranged ^¬. Here, the, be arranged at least one Nennstromkontakt- switching path, particularly the at least one clock Nennstromkon ^¬ that it comprises a vacuum-breaker gap, in particular a vacuum tube, is not of the Wenig ^¬ least comprises at least spatially and is. As a result, for the vacuum tube z. B. be designed with a large scale, without the extent of the rated current contact to determine. The rated current contact may have any shapes, for. B. round or rectangular bar shapes, without having to have a mold for receiving the vacuum tube.

The rated current can at least partially over the elements we ^¬ nigstens a vacuum switching path be performed insbesonde ^¬ re via metallic elements of a vacuum tube. A housing of a vacuum tube may comprise two halves, each with egg ^¬ nem cylindrical insulator. The two halves may be joined together via a conductive region in the form of at least one connecting element, for. Example, via a particular cylindrical metal element which is vacuum-sealed together with the two halves. The connecting element may, for. B. are at floating potential and / or be connected to shields for the contact pieces in a vacuum. In the switched-on state of the arrangement according to the invention, the rated current contact pieces of a rated current contact can be electrically connected via the connecting element. The contact pieces of the vacuum tube in vacuum in contact with each other, spatially enclosed by the connecting element, wel ^¬ Ches serves as part of the housing of the vacuum tube. Insbesonde ^¬ re in hollow cylindrical Nennstromkontaktstücken and hollow cylindrical connecting element, the rated current contact pieces in the on state of opposite sides of the hollow cylinder of the connecting element on the Be pushed connecting element, in particular via contact ^¬ finger on the rated current contact ^pieces in electrical contact with the connecting element. A drive may in particular be connected via a kinematic chain with movable contact pieces of the at least one vacuum switching path and with movable contact pieces of the at least one rated current contact switching path, in particular such that at least one rated current contact in time before the at least one at an off-switching operation Contact the vacuum tube is disconnected, and / or that in an on-switching operation, the at least one rated current contact is connected in time after the at least one contact of the vacuum tube. As a result, the rated current contact in the switched-on state of the arrangement according to the invention can essentially carry the rated current, in particular with less resistance via the rated current contact than via the vacuum tube. When switching on and off occur short-circuit currents, in particular ^¬ before connecting or after disconnecting the rated current contact, which can flow through the vacuum tube for a short time. When disconnecting or connecting the contact of the vacuum tube arcing may occur, which is due to the vacuum and the optimization of the contacts of the vacuum tube, z. B. by shape, material and / or movement profile, suppressed or deleted. Rated current contacts can be optimized for a ver ^¬ low-loss transmission of the rated current, z. B. with low resistance. And the vacuum-switching path, insbeson ^¬ particular, the vacuum tube can be optimized to suppress arcs and for quick and easy separation and / or joining of in particular short-circuit currents.

The arrangement according to the invention for switching currents can be used in high-voltage, medium-voltage and / or low-voltage technology.

A method according to the invention for switching high currents in low, medium and / or high voltage engineering, in particular With a previously described arrangement, comprises that a current path for a rated current over at least one rated current contact a rated current contact switching path is performed and that a current path for a short-circuit current in parallel via at least one contact a vacuum tube of a Va ^¬ kuum switching path is performed.

In an off-switching operation, at least one rated current contact are separated in time before the at least one contact of a vacuum tube, wherein the current at even ge ^¬ schlossenem commutated at least one contact of the vacuum tube to the at least one contact of the vacuum tube.

In the case of an on-switching operation, the at least one rated current contact can be connected in time after the at least one contact of a vacuum tube, whereby the at least one rated current contact is closed only when current flows through the closed at least one contact of the vacuum tube. Via the at least one vacuum switching path, in particular a vacuum tube, a larger contact resistance can be formed, with the contact closed, than via the at least one rated current contact switching path, in particular via the rated current contact.

A closed current path of the rated current contact can in particular ^¬ sondere via metallic elements of the at least one Vaku ^¬ by switching path, particularly elements of the casing of Va ^¬ kuumröhre be performed. These elements of the housing may be connecting elements or a connecting element, in particular ^¬ special for connecting insulator parts, in particular insulator halves of the housing of the vacuum tube.

The advantages of the method according to the invention for switching high currents in the low, medium and / or high voltage ^¬ technique according to claim 11, in particular with a previously described arrangement, are analogous to those described above Advantages of the inventive arrangement for switching high currents according to claim 1 and vice versa.

Exemplary embodiments of the invention will now be described diagrammatically in FIGS. 1 to 5 and described in more detail below.

Shown schematically in a sectional view an inventive arrangement 1 for switching high currents viewed from one side, arranged with a vacuum tube 2 spatially substantially parallel to a parallel electrical rated current contact 3, and schematically in sectional view, the arrangement 1 of Figure 1, wherein the electric connected in parallel with the rated current contact 3 is disposed spaced concentrically around the Va ^¬ kuumröhre 2, and schematically in cross-sectional view of the assembly 1 of Figure 2, with an electrically conductive connecting element 16 as a part of a case 5 of the vacuum circuit ^¬ umröhre 2, which in the closed state, the rated current contacts 11 electrically connects, and

FIG. 4 is a schematic sectional view of the arrangement 1 of FIG

 Figure 3, with two movable rated current contacts 11, which are connected to one another via a deflection gear 7 with insulating rod 22, in the electrically opened state, and

FIG. 5 is a schematic sectional view of the arrangement 1 of FIG

 Figure 4, in the electrically closed state.

In Figure 1 is a schematic sectional view of a fiction, contemporary arrangement 1 for switching high currents, in particular high, medium and / or low voltage technology shown. The arrangement 1 has a vacuum switching path in the form of a vacuum tube 2 and a rated current contact switching ^¬ stretch in the form of a rated current contact 3. The re Vakuumröh- 2 and the rated current contact 3 are electrically parallel ge ^¬ on. The parallel circuit is outwardly via electrical contacts 13 z. B. connected to a voltage network, in which the arrangement 1 a current flow between the contacts 13 on and / or off.

The vacuum tube 2 and the rated current contact 3 are spatially separated, arranged substantially parallel to each other, with separate, gas-insulated insulator housings 5, 6. The vacuum tube 2 is evacuated inside. The housing 6 of the rated current contact 3 is z. B. inside clean air or another switching gas, in particular SF ₆ filled. A äuße ^¬ res housing 4 may be included in the assembly 1 to the vacuum tube 2 and enclose the rated current contact 3, z. B. to protect them from the weather. An outer housing 4 may also be provided to only certain elements, for. B. elements of the kinematic chain such as in particular the drive and / or the transmission 7, zen ^¬ , wherein the housing 5, 6 of the vacuum tube 2 and the nominal ^¬ current contact 3 weatherproof as insulator housing ausgebil det are. The insulator housing are z. B. made of silicone and / or ceramic and ribbed in particular to avoid leakage currents through the outer housing 5, 6.

The vacuum tube 2 as a vacuum switching path comprises a contact with a fixed 9 and a movable 8 contact piece. The movable contact piece 8 is movably mounted on a Falkenbalg 10 and fluid-tight verbun ^¬ with the housing 5. The solid contact piece 9 is z. B. by soldering and / or welding firmly and fluid-tightly connected to the housing 5. Each end of the housing 5, the contact pieces 8, 9 z. B. plate-shaped, with opposite, flat circular cylinder base or top surfaces. The Base and top surfaces can be provided with notches or gaps in the surface, in particular with meander-shaped structures, which are designed to guide arcs on the surface in the direction of the outer circumference. When arcing arcs may go out in the edge area, ie on the outer circumference of the base or top surfaces go out.

The rated current contact 3 as rated current contact switching path also includes a contact with a fixed 12 and a movable 11 contact piece. The movable contact piece 11 is movably mounted directly, or via a Kontaktsange, in the housing 6 and fluid-tight with the housing 6 z. B. connected via a seal. The solid contact piece 12 is z. B. by soldering and / or welding firmly connected to the housing 6 and its electrical contact is z. B. out in the form of a contact rod in particular fluid-tight to the outside. The Move ^¬ Liche contact piece 11 is carried out in the example shown in the figure 1 embodiment as a cylindrical rod or pin. The solid contact piece 12 is, in the embodiment shown in the figure 1, as tulip contact out ^¬ leads. In the electrically closed state of the contact, the tulip contact 12 surrounds the cylindrical pin 11 spatially on the outer circumference of the bolt 11. Contact fingers 19 at the end of the fixed contact piece 12, in particular in Blattfe ^¬ der form, can be a good electrical contact in the electrically closed or switched state with the movable contact piece 11 lead. Alternatively, the movable contact piece 11 may be designed as a tulip contact and the fixed contact piece 12 may be designed as a contact rod or bolt, which is the simplicity ^{¬ unit} in the figures not shown. The housing 5, 6 and contacts 8, 9, 11, 12 are z. B. kreiszylinderför- mig. In an electrically closed state of the contacts, the contact pieces 8, 9 of the vacuum tube 2 for a good electrical contact with the opposing basic or top surfaces pressed together, and the contact piece 11 of the nominal current contact 3 inserted into the contact piece 12 in a form-fitting manner. A movement of the movable contact pieces 8, 11 via elements of a kinematic chain, z. B. driven by a drive, in particular a spring drive. The movement of the drive is transmitted to the contacts 8, 11 when switching over the elements of the kinematic chain, in particular a transmission and drive rods. The gear 7 is shown only schematically in the figures, as an example. In the transmission 7, the movement is transmitted to the Kon ^¬ tact piece 8 of the vacuum tube 2 and the contact piece 11 of the rated current contact 3 offset in time, so that when you turn on the contact of the vacuum tube 2 ^{geschlos ¬} sen we and then the contact of the rated current contact 3. Beim Stripping is only the contact of the rated current contact 3 ge ^¬ opens and temporally following the contact of the vacuum tube 2. Alternatively, the contacts 2, 3 can be simultaneously opened and / or closed.

The transmission 7 may include levers and shafts, and / or transmission elements such as gears, which are not shown in the figures for the sake of simplicity. An electrical con- clocking of the movable contacts 8, 11 to the äuße ^¬ ren electrical contact 13, can be made via the transmission elements 7 and / or of the respective drive rod.

In Fig. 2, the arrangement 1 of Figure 1 is shown schematically in sectional view, wherein the electrically parallel ge ^¬ switched rated current contact 3 is not spatially parallel to the Va ^¬ vacuum tube 2, adjacent to the vacuum tube 2, but spatially concentrically arranged around the vacuum tube 2. The rated current ^¬ contact 3 is hollow tubular or hollow cylindrical forms out, the vacuum tube 2 in the hollow cylinder angeord ^¬ net is. In Fig. 2, the inventive arrangement 1 with an electrically closed rated current contact 3 and a open contact of the vacuum tube 2 shown. A derar ^¬ term position of the contact pieces 8, 9, 11, 12 to each other occurs when switching off the electrical contact of the assembly 1. The arranged in the rated current contact 3 vacuum tube 2 is arranged spaced apart from the rated current contact pieces 11, 12, that is, the case 5 of the vacuum tube 2 contacts mecha ^¬ cally not the contact pieces 11, 12 of the rated current contact. 3

In contrast to the exemplary embodiment of FIG. 1, the arrangement 1 in FIG. 2 has no rod-shaped movable rated current contact piece 11 or no bolt 11 as nominal current contact piece 11, but both contact pieces 11, 12 of the rated current contact 3 are hollow in the interior. In this case, at least one contact piece 11 or 12 of the rated current contact 3 can have contact fingers 19. During the movement of the movable contact piece 11 when switching on the contact fingers 19, in particular leaf spring-shaped contact fingers, the contact piece 12 is pushed onto the cylindrical contact piece 11, for a good mechanical and electrical contact.

The transmission 7 for transmitting a staggered movement on the contact pieces 8, 11 is shown in simplified form in Figure 2. About a lever 7, the driving force, in particular by a drive such. B. a spring drive, when switched on only the bewegli ^¬ che contact piece 8 of the vacuum tube 2 transmitted, and temporally thereafter, in particular with a time interval of milliseconds to seconds, on the movable contact piece 11 of the rated current contact 3. It can Also different movement profiles of the contact pieces 8 and 11 he ^¬ witnesses, with a higher speed of movement of the contact piece 8 relative to the contact piece 11. Alternatively or additionally, the distances between the Kontaktstü- bridge 8 and 9 and 11 and 12 in the open state under ^¬ different selected be, especially with a larger one Distance between the contact pieces 11 and 12 than between the contact pieces 8 and 9.

The electrical contact of the vacuum tube 2 is first closed, and then, in time, the electrical contact across the rated current contact 3. When switched off, the order is reversed. In this case, the drive ^¬ force is transmitted to the movable contact piece 11 of the rated current ^¬ contact 3 via the lever 7 and subsequently, in particular with a time interval of milliseconds to seconds, on the movable contact piece 8 of the vacuum tube 2. The electrical contact across the rated current contact 3 is first opened, and in time subsequently the electrical contact of the vacuum tube 2.

In Fig. 3 is a schematic sectional view of the arrangement 1 of Fig. 2 is shown, but in contrast to the embodiment ^¬ example of FIG. 2 with an electrically conductive connecting element 16 as part of a housing 5 of the vacuum tube 2, which in the closed state the rated current contact pieces

11 and 12 electrically connects. For the sake of simplicity, no drive and / or transmission 7 is shown in FIG. The Län ^¬ ge of the contact pieces 8, 9, 11, 12 may be selected such that the contacts of the vacuum tube 2 and the rated current contact 3 close simultaneously or briefly in succession

and / or open. Alternatively, a transmission 7 analogous to the transmission 7 in Figs. 1 and 2 can be used.

4 and 5 is a schematic sectional view of the arrangement 1 of FIG. 3, with a deflection gear 7. The deflection gear 7 comprises a z. B. a shaft ge ^¬ superimposed lever, which z. B. is substantially rotatably mounted centrally, and at one end a movable Kon ^¬ contact piece 12 is attached and at the other end of an insulating rod 22 is attached. The insulating rod 22 is connected via elements of the kinematic chain, z. B. a rod, with ei ^¬ nem second contact piece 11 of the rated current contact 3 mecha- nically connected, in particular fixed to this, and connected to a drive rod 18.

4, the off state is shown. The contact pieces 8, 9 of the vacuum tube 2 are separated ge ^¬ and the contact pieces 11 and 12 of the rated current contact 3 are also electrically isolated from each other, and mechanically and electrically separated from the connecting element 16. A current flow through the arrangement 1 according to the invention is not possible, the electrical contact via the arrangement 1 is ge ^¬ separates.

In Fig. 5 the switched-on state is shown. The contact pieces 8, 9 of the vacuum tube 2 are pressed against each other or electrically and mechanically connected to each other. The

Contact pieces 11 and 12 of the rated current contact 3 are driven elekt ^¬ connected via the connecting member sixteenth The contact ^¬ pieces 11 and 12 are each provided in particular with contact fingers 19, and these are mechanically and electrically connected to the connecting element 16 in connection. The Verbindungsele ^¬ ment 16 and the contact pieces 11 and 12 of Nennstromkon ^¬ clock 3 are hollow cylindrical, wherein the Ver ^¬ binding element 16 z. B. the rated current contact pieces 11 and 12, in particular with contact fingers 19 je ^¬ Weils at the ends are pushed from both sides, each one end of the connecting piece 16, with good electrical ^¬ rule contact between the connector 16 and the two rated current contact pieces 11, 12th

The connecting piece 16 which is part of the housing 5 of Va ^¬ kuumröhre 2, is thus also part of the Nennstromkon ^¬ clock 3, which comprises the two movable Nennstromkontaktstü ^¬ blocks 11, 12 and the connecting piece 16. A rated current flows through substantially in the switched-on state the rated current contact 3, ie via the two movable rated current contact pieces 11, 12 and the connecting piece 16. By selecting the Materials, eg. As copper, aluminum or steel, and by the large circumference, and thus the large conductive area, which is given by the cylinder jacket of the Nennstromkontaktstücke 11 and the connector 16, the Nennstromkon- contact 3 has a lower electrical resistance than the contact on the Vacuum tube 2. A large rated current 20, up to a few hundred amperes, can flow through the rated current contact 3 in the closed state.

By choice of material, for. B. combinations of copper, aluminum or steel, in particular a drive rod 18 made of steel and plate-shaped ends of the contact pieces 8, 9 made of copper, or all elements such as the drive rod 18 and the contact pieces 8, 9 made of steel, and / or by the smaller diameter the contact pieces 8, 9 compared to the scope of the rated current contact pieces 11 and 12, a greater Wi ^¬ resistance or contact resistance on the contact of the vacuum ^¬ tube 2 is made possible over the rated current contact 3. As a result, when the contact 1 of the device 1 is closed, ie when the vacuum tube 2 is closed and the rated current contact 3 is closed, the current commutates to the rated current contact 3. A current flows essentially across the rated current contact 3. When closed, large currents 20, 21 pass over it ^¬ inventive arrangement 1 possible, up to a few hundred amps.

When opening the electrical contact of the arrangement 1, starting from the situation of FIG. 5 with closed contacts, only the rated current contact 3 is disconnected. The moveable rated current contact pieces 11, 12 are drawn from the connection ^¬ piece 16 so that a mechanical and electrical separation. The entire current 21 flows through the contact of the vacuum tube 2. The higher electrical resistance of the vacuum tube 2 limits the current 21, in particular a short-circuit current, and reduces the occurrence and / or long burning of arcs when separating the contact pieces 8, 9 of the vacuum tube 2. The separation of the contact pieces 8, 9 of the The result is an occurrence of arcs when disconnecting the rated current contact pieces 11, 12 is prevented or greatly reduced in time following the separation of the rated current contact pieces 11, 12.

After the separation of the contact pieces 8, 9 of the vacuum tube 2, the electrical contact via the inventive arrangement 1 is separated, as shown in Fig. 4, and a current flow through the contact pieces 8, 9, 11, 12 is prevented. In the exemplary embodiment of FIGS. 3 and 4, all contact pieces 8, 9, 11, 12 are movable. The movement of the contact piece 8 and the contact piece 11 in Fig. 5, in particular driven directly via the drive rod 18, wherein the contact piece 8 and the contact piece 11 are fixedly connected to the drive rod 18.

A movement of the contact piece 9 and the contact piece 12 in Fig. 5, via a lever which acts as a gear 7, connected to the insulating rod 22 which is fixedly secured to the drive rod 18. During a movement of the drive rod 18, which is transmitted in particular directly to the Kon ^¬ tact piece 8 and the contact piece 11, the insulating rod 22 is moved in the same direction. The deflection ^¬ lever 7, at one end of the insulating rod is attached and at the other end of the contact piece 9 and the contact piece 12 are fixed, causes a movement of the Kon ^¬ tact piece 9 and the contact piece 12 in the opposite direction, in particular opposite to the direction of movement of the Contact piece 8 and the contact piece 11th

The contact pieces 8, 11 and the contact pieces 9, 12 are moved opposite to each other, when switched on ^¬ each other, when switching off each other. In this case, a spring element 23 between the contact piece 12 and the contact piece 9 a time delay of closing the

Nennstromkontakts 3 for closing the contact 3 of the vacuum ^¬ cause tube 2 and a time delay of the opening of the Contact 3 of the vacuum tube 2 to open the rated current contact 3 effect. Alternatively, the contact piece 9 can be fixedly arranged in the vacuum tube 2, and the contact of the vacuum tube 2 can be opened and / or closed only by movement of the contact piece 8. The contact pieces 11, 12 are both moved via the drive rod, the contact piece 11 in particular directly and the contact piece 12 via the insulating rod 22 and the lever 7 with opposite direction and offset in time. An electrical contact between the contact piece 12 and the contact piece 9 can be made via the spring element 23 or a cable.

In the open state of the contacts 2 and 3 are each the contact pieces 8 and 9 and the contact pieces 11 and 12 are electrically isolated from each other via the insulating rod 22. The spatial distance of the contact pieces 8 and 9 and insulators 17 of the housing 5 of the vacuum tube 2, and the spatial Ab ^¬ position of the contact pieces 11, 12 from each other and the connector 16, isolate the outer electrical contacts 13 on opposite sides of the inventive arrangement 1 from each other. The connecting piece 16, which is arranged in the housing 5 spatially between two in particular hollow cylindrical insulators 17, is at floating potential. In the closed state of the contacts 2 and 3 are each the contact pieces 8, 9, and the contact pieces 11, 12 via the connecting piece 16, electrically connected to each other. By the electrical parallel connection of the contacts 2 and 3, all contact pieces 8, 9, 11, 12 and the connecting piece 16 are substantially at the same potential, electrical flashovers from the connecting piece 16 to the contact pieces 8 and 9 can not occur.

The exemplary embodiments described above can be combined with one another and / or can be combined with the prior art. So z. B. different gear 7 and combinations of fixed and movable Kon- are used. The rated current contact 3 and the contact of the vacuum tube 2 can instead of temporally successive opened and / or closed simultaneously ^¬ who. The vacuum tube 2 and the rated current contact pieces 11, 12 may be constructed differently, in particular lohlzy- linderförmig or z. B. with square cross-section. The arrangement 1 may comprise an outer housing 4, in particular filled with an insulating gas, for. Clean Air or SF ₆ . Alternatively, according to the embodiment, components may be arranged in different housings 5, 6. About the vacuum tube 2 can also part of a rated current flow ^¬ Shen or exclusively a short-circuit current. In the latter case, essentially the entire nominal current in the switched-on state can flow via the rated current contact 3.

The contact pieces 8, 9, 11, 12 may be ^coated in the contact area, for improved conductivity over the contact, eg. With silver. The contact pieces 8, 9 can also be coated with an erosion-resistant material, in particular as an alternative to a silver coating with a

poor conductive material which suppresses an arc and / or prevents or reduces the fusion of the contact pieces 8, 9. The contact pieces 8, 9 may have plate and / or cup shape, in particular with

Structures on the surface such. B. meandering or star-shaped slits, for guiding arcs. Rated current contact pieces 11, 12 and / or the connecting piece 16 or connecting pieces 16 may have circular cylindrical cross- ^sections , or z. B. cross sections in elliptical or rectangular shape. Reference sign list

1 arrangement for switching high currents

 2 vacuum tube

3 rated current contact

 4 outer housing of the arrangement

 5 housing vacuum tube

 6 housing rated current contact

 7 gears

8 movable contact piece vacuum tube

9 fixed or movable contact piece of Vaku ^¬ tube

 10 Falcon bellows

 11 movable rated current contact piece

12 fixed or also movable rated current contact piece

13 electrical contacts

 14 vacuum

 15 gas, z. B. Clean Air

 16 connecting element

17 insulator

 18 drive rod

 19 contact fingers

 20 current flow rated current

 21 Current flow Short-circuit / rated current

22 insulating rod

 23 spring element

Claims

claims 1. arrangement (1) for switching high currents, with at least one vacuum switching path and with at least one nominal current contact switching path, characterized in that the at least two switching paths are electrically parallel ge ^¬ on. 2. Arrangement (1) according to claim 1, characterized in that the at least at least one Va ^¬ kuumröhre (2) comprises a vacuum switching path and / or that the Nennstromkontakt- switching path comprises at least one rated current contact (3), in particular a cylindrical rated current contact with we ^¬ nigstens two contact pieces (11, 12), wherein at least one contact piece (11) is arranged to be movable. 3. Arrangement (1) according to claim 2, The static current contact (3) is made of a metal and / or comprises a metal, in particular aluminum, steel, copper, silver or metallic alloys, in particular with aluminum, steel, copper and / or silver. 4. Arrangement (1) according to one of the preceding claims, characterized in that the at least one rated current contact switching path has a ge ^¬ ringeren contact resistance than the vacuum switching path. 5. Arrangement (1) according to one of the preceding claims, characterized in that the at least one rated current contact switching path, in particular the at least one rated current contact (3), the at least ^¬ least one vacuum switching path, in particular by the least ^¬ least one Vacuum tube (2), is arranged around. 6. Arrangement (1) according to claim 5, At least one rated current contact (3) is arranged concentrically around at least one vacuum tube (2). 7. Arrangement (1) according to one of claims 1 to 4, characterized in that the at least one rated current contact switching path, in particular the at least one rated current contact (3), spatially substantially parallel to at least one vacuum switching ^¬ stretch, in particular to at least one vacuum tube (2) is arranged. 8. Arrangement (1) according to one of the preceding claims, characterized in that the rated current (20) is partially guided over elements of at least ei ^¬ ner vacuum switching path, in particular via me ^¬ tallische elements (16) of a vacuum tube (2). 9. Arrangement (1) according to one of the preceding claims, characterized in that a drive in particular via a kinematic chain with be ^¬ movable contact pieces (8) of the at least one vacuum switching path and with movable contact pieces (11) of we ^¬ least one Nennstromkontakt- Switching path is connected, in particular such that in an off-switching operation of we ^¬ least one rated current contact (3) is separated in time before the least ^¬ least a contact of the vacuum tube (2), and / or that in a one-switching operation of at least one Rated current contact (3) in time after the at least one contact of the vacuum tube (2) is connected. 10. Arrangement (1) according to one of the preceding claims, characterized in that the arrangement (1) is designed for switching currents in the high, medium and / or low voltage technology. 11. A method for switching high currents in the low, medium and / or high voltage engineering, in particular with an arrangement (1) according to one of the preceding claims, characterized in that a current path (20) for a rated current via at least one rated current contact (3) a rated current contact switching path is ge ^¬ leads and that a current path (21) for a short-circuit ^¬ current in parallel over at least one contact a Vakuumröh- re (2) a vacuum switching path is performed. 12. The method according to claim 11, characterized in that a contact of the vacuum circuit ^¬ umröhre (2) is in an off switching operation of the at least clock a Nennstromkon- (3) chronologically before the at least separately, wherein the current at even CLOSED ^¬ senem at least one contact of the vacuum tube (2) the at least one contact of the vacuum tube (2) commutes. 13. The method according to any one of claims 11 or 12, characterized in that in an on-switching operation, the at least one rated current contact (3) temporally after the at least one contact the Vaku ^¬ umröhre (2) is connected, wherein only at current flow through the closed at least one contact of the vacuum tube (2) of the at least one rated current contact (3) is closed. 14. The method according to any one of claims 11 to 13, d a d u r c h g e k e n e z e i n e s, the at least one vacuum switching path, in particular vacuum tube (2), a larger contact resistance is formed with the contact closed than via the at least one rated current contact switching path, in particular the Nennstrom- contact (3). 15. The method according to any one of claims 11 to 14, characterized in that a closed current path (20) of the rated current contact (3) in particular via metallic elements (16) of the at least one vacuum switching path, in particular elements of the housing (5) of the vacuum tube (2) leads.