EP3655981A1

EP3655981A1 - High-voltage power circuit breaker for a pole and use of the high-voltage power circuit breaker

Info

Publication number: EP3655981A1
Application number: EP18759903.0A
Authority: EP
Inventors: Radu-Marian Cernat; Thomas Chyla; Stefan Giere; Prosper Hartig; Caroline ORTH; Christoph RÖHLING; Jörg Teichmann; Stephan WETHEKAM
Original assignee: Siemens AG
Current assignee: Siemens Energy Global GmbH and Co KG
Priority date: 2017-09-14
Filing date: 2018-08-20
Publication date: 2020-05-27
Anticipated expiration: 2038-08-20
Also published as: CN111095461A; DE102017216273A1; WO2019052776A1; EP3655981B1

Abstract

The invention relates to a high-voltage power circuit breaker (1) for a pole (19, 20, 21) and the use thereof in multipole outdoor switchgear (25) having series-connected interrupter units (2, 3, 4, 5) that are mechanically stably connected together. The interrupter units (2, 3, 4, 5) are arranged on at least one support (6). According to the invention, the interrupter units (2, 3, 4, 5) are arranged on different axes (23, 24).

Description

description

High voltage circuit breaker for one pole and use of the high voltage circuit breaker

The invention relates to a high-voltage circuit breaker for a pole and its use, with interrupters ^¬ th, which are connected in series and are mechanically stable connected to each other. The breaker units are arranged on at least one carrier.

A high-voltage circuit breaker, in particular for switching voltages of up to 1200 kV and / or currents of up to a few hundred amperes, is z. B. from DE 196 01 053 Cl known. The outdoor high voltage circuit breaker comprises two breaker units for one pole, each arranged in a composite insulator housing. The two sub ^¬ breaker units are connected in series one behind the other and arranged along with the associated Verbundisolatorgehäusen along a common longitudinal axis. The two composite is ^¬ latorgehäuse each having a breaker unit are arranged on a pole pillar or a supporter, and connected to each other via a deflection gear. The outdoor high voltage circuit breaker has a T-shape with two arms, each arm comprising an interrupter unit.

Gas-insulated interrupter units, in particular with a rated current contact and with an arcing contact as switching ^¬ contacts, are used to switch high voltages and currents. The composite insulator housing, in each of which an interrupter unit is located, is filled with a switching and / or insulating gas, in particular SF ₆ . For a good electrical insulation between switching contacts, and across open switching contacts away, the pressure of the

Switching and / or insulating gas in Verbundisolatorgehäuse a bar or larger. The Verbundisolatorgehäuse are gas-tight, with a good gas insulation. The gas insulation must be stable for a long time, especially over more than 30 years. The switching gases, such as. B. SF ₆ , are environmentally harmful, particularly harmful to the climate and a leakage rate of less than 0.1% must be guaranteed long-term stability for the composite insulator housing with breaker unit.

In order to avoid climate-damaging switching and / or insulating gases, in particular vacuum tubes are used as interrupter units. Vacuum tubes are designed to switch voltages up to a few 10 kV. At high switching capacities, in particular switching voltages of well over 100 kV, several vacuum tubes are connected in series one behind the other. The vacuum tubes may be provided directly with weatherproof insulation, or disposed in a composite insulator housing. The number of series-connected, successively arranged interrupter units, and thus the maximum to be switched power or voltage is limited by mechanical properties of the high-voltage circuit breaker. To ^¬ world influences, such. As wind, can lead to high mechanical loads on the arms of a T-shaped high-voltage circuit breaker.

With an increasing number of interrupter units arranged one behind the other, the length of the arms increases, and mechanical components such as, for As the Polsäule, the reversing gear and fasteners are reinforced perform to ensure long-term high reliability and mechanical stability of the high-voltage circuit breaker. This involves high costs, increased material costs and / or shortened maintenance intervals. As the length of the arms of a T-shaped high-voltage circuit breaker, the mechanical stress in particular on the arm ends increases strongly, which are facing away from the pole column, and a further delay ^¬ Longer side of the arms for higher voltage levels may be impossible. With an increasing length of the arms of a T-shaped high voltage circuit breaker takes up the space consumption of High voltage circuit breaker, resulting in higher costs.

The object of the present invention is to provide a high-voltage circuit breaker for a pole and its use, which avoid the problems described above. In particular, it is an object to provide a simple, compact and inexpensive high-voltage circuit breaker, which is mechanically stable and environmentally friendly and long-lasting in operation, and which is ^¬ for high voltage levels ^¬ out.

The stated object is achieved by a high ^¬ voltage ^{circuit breaker} for a pole with the features according to claim 1 and / or by the use of

High-voltage ^circuit breaker according to claim 11 ge ^¬ triggers. Advantageous embodiments of the high-voltage circuit breaker according to the invention for a pole and its Ver ^¬ application are specified in the subclaims. In this case, overall can be combined with each other ^¬ genstände of the independent claims with one another and with features of dependent claims and features of the subclaims.

A high-voltage power switch according to the invention for one pole comprises breaker units, which are connected in series and are mechanically stably connected to one another. The breaker units are arranged on at least one carrier. The interrupter units are arranged on different axes.

By arranging a plurality of interrupter units on different axes, more interrupter units can be arranged compactly in a confined space. The breaker units may be located closer to a point, especially the intersection of the axes, with mechanical support at this point resulting in a mechanically stable, compact high voltage power switch for high voltage levels. It For example, more than just two interrupter units can be arranged stably, with which the series voltages to be switched increase compared to high-voltage circuit breakers of the prior art.

The breaker units may vacuum tubes and / or gas-filled circuit breaker, in particular with nominal and Lichtbo ^¬ genkontakten include, in particular in an outdoor switching device. Due to the higher possible number of sub-breaker units connected in series, especially with Un ^¬ terbrechereinheiten maximum switching voltage, the total switching voltage of the high voltage circuit breaker can be increased. Especially with vacuum tubes, which only with switching ^{¬ voltages} of z. B. to produce up to 35 kV in large numbers, an inventive arrangement of Un ^¬ terbrechereinheiten not only on an axis in a row, but on different axes z. B. with the same distance from each other along a circumference, allow an increase in the total switching voltage of the high-voltage circuit breaker. For gas-filled circuit breakers, in particular with nominal and arcing contacts, the arrangement according to the invention of the breaker units can enable high switching voltages of up to 1200 kV and higher. The breaker units can be arranged in one plane, in particular in a plane substantially parallel to the ground. This makes possible a compact, cost-effective construction of a high-voltage circuit breaker according to the invention, which is mechanically stable and can be designed for high voltage levels. When using vacuum tubes, without polluting switching gases such. B. SF ₆ , and / or when using gas-filled or gas-insulated circuit breakers, in particular with nominal and arcing contacts, z. For example, using Clean Air for, in particular, lower switching voltages of some 100 kV, a long-life, high-voltage, environmentally friendly high-voltage circuit breaker can be manufactured. The arrangement of Interrupter units in a plane allows good isolation from the ground with sufficient distance, ie the ground potential and / or the ground surface on which the high-voltage circuit breaker is installed or in which the high-voltage circuit breaker is anchored in the foundation. A support frame with insulation for the high voltage circuit breaker can be designed to be minimally high, since all breaker units can be arranged in the minimum height or at a minimum distance from the ground for the voltage level to be switched. A threat to particular War ^¬ maintenance personnel at the level of the foundation from electrical ^¬ proposals can be avoided or reduced.

In each case at least two interrupter units can be arranged on a common longitudinal axis. Different longitudinal axes can be included, which intersect at one point, in particular at an angle between the longitudinal axes of 90 degrees. As a result, a high number of interrupter units can be connected in series, with good electrical insulation between the interrupter units in areas which are not electrically conductive by the interconnection. In particular, in an arrangement of four interrupter units on two axes, which include an angle of 90 degrees, z. B. arranged centrally with a support frame with insulation at the intersection, for a mecha ^¬ African stable arrangement even in adverse environmental conditions such. As in storm, the interrupter units can be well insulated electrically by the distance from each other in areas that are not electrically connected via the interconnection. For example, the axes may be crosswise and the interrupter units equidistant from one another along the axes, with a spacing of adjacent interrupter units on different axes equal to the spacing of the interrupter units from each other on a common axis. The interrupter units may be arranged such that the longitudinal axes of the interrupter units are star-shaped, in particular with a common intersection, and / or that the longitudinal axes of the interrupter units are arranged on a cross. At a common intersection of the axes z. B. in star shape or cross shape, a maximum number of interrupter units on a circumference in a plane with in particular the same distance from one another ^{¬ be} arranged. This results in a particularly compact, cost-effective construction, in particular with a support frame with insulation arranged in the common intersection, for a high mechanical stability, with a high number of Unterbre ^¬ chereinheiten, ie high possible switching voltage, and good insulation of the interrupter units from each other by the ambient air in areas which are not electrically ver ^¬ on.

An interconnection of the interrupter units in series can take place via electrical cables and / or rails, in particular of copper and / or aluminum, in particular with at least one connecting housing between interrupter units, which can be arranged at free ends of the interrupter units and / or which does not have a mechanically supporting function for having the breaker units. The insulation of the electrical cables and / or rails via connection housing electrical flashovers are avoided and a com ^¬ pact arrangement of the breaker units with series connection possible. In particular, interrupter units and electrical cables and / or rails may be electrically insulated by insulators to the outside, whereby low spatial Ab ^¬ states between the interrupter units and electrical cables and / or rails are possible at high voltages to be switched and / or currents.

The high-voltage circuit breaker according to the invention may comprise exactly one carrier, in particular in the form of a column and / or vertically upright. The wearer can have one Support insulator or more, in particular by means of flanges ver ^¬ connected support insulators, said support insulators in particular ceramic, silicone and / or composite materials umfas ^¬ sen. The carrier may comprise a base housing, in particular of metal. The carrier may further comprise a carrier, in particular of metal. This ensures a high mechanical stability ^¬ niche with little effort or cost and with good electrical insulation of the interrupter units against the ground or foundation is possible.

The interrupter units arranged on the at least one carrier can be mechanically fastened to the carrier and / or to a transmission housing which is arranged on the carrier, in particular directly and / or via insulating bodies, and / or connecting housings, and / or housings Breaker units in which the breaker units are arranged. This allows a good mechanical stability of the high-voltage circuit breaker can be achieved with good electrical insulation of the interrupter units against each other and against the ground in areas in which the interrupter units are not electrically connected in series.

A drive may be included, in particular arranged laterally on the carrier, and / or elements of a kinematic chain may be included, in particular deflection gear and / or shift rods, for transmitting a drive movement from the drive to the interrupter units for, in particular, simultaneous switching of the interrupter units. About the Drive Be ^¬ wegungsenergie can easily, inexpensively and reliably be provided, which are transmitted via the ele ^¬ ments of the kinematic chain of moving contacts of the switching contacts of the interrupter units during switching.

Insulating, in particular insulating and / or post insulators, with an insulating gas, in particular Clean Air, in particular with a pressure in the range of the ambient pressure of the high voltage circuit breaker, be filled. When using an insulating gas such. B. Clean Air, a good electrical insulation can be achieved, in particular without harmful environmental influences such. As a Schä ^¬ suffered by climate. When using a pressure in the range of the pressure of the ambient air seals are little loaded, long-term stable tight and can be designed easily and inexpensively.

An inventive use of the Hochspannungsleistungs- switch for a pole involves the use in a free ^air-¬ switching device, in particular in an open-air switch means having three poles. This is inexpensive, simple, compact and reliable over long periods of time switching z. As consumers, power grids and / or generators possible, at high voltage levels of z. B. up to 1200 kV and more, and in particular for three phases or with three poles.

The advantages of using the invention Hochspan- voltage circuit breaker according to claim 11 are analogous to the advantages described before ^¬ to the invention Hochspan- voltage circuit breaker 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 viewed schematically in a sectional view invention ^shown SEN high voltage circuit breaker 1 for a pole from one side, with Unterbrechereinhei ^¬ th 2, 3 arranged on a support 6, wherein only Interrupter units 2, 3 can be seen on one of two axes, and

Figure 2 is a schematic sectional view of the high-voltage circuit breaker 1 of Figure 1, viewed from above, interconnected with four interrupter units 2, 3, 4, 5 in series and arranged in pairs on two kreu ^¬ collapsing axes 23, 24, and Figure 3 shows schematically in Section three high-voltage circuit breaker 1 of Figure 2 arranged side by side, for switching three phases 19, 20, 21st

FIG. 1 shows a sectional view of a high-voltage circuit breaker 1 according to the invention for one pole from one side. The four interrupter ^{units of} the embodiment ^¬ example, wherein two interrupter units 2, 3 are shown in the figure 1, each in a housing 10 angeord ^¬ net. The housing 10 is in the form of a throw-over and / or an insulator housing z. B. hollow cylindrical, in particular of silicone, composites and / or ceramic, and protects the breaker units 2, 3 from the weather. In Figure 1 are shown as interrupter units 2, 3 vacuum tubes. The housing 10 are filled in particular with insulating gas, for. B. Clean Air. The pressure of Iso ^¬ liergases is in the range of ambient pressure, which no additional ^¬ expensive, expensive gas-tight or pressure-resistant housing must be used. Alternatively or in addition to vacuum tubes and gas-insulated circuit breakers, in particular with nominal and

Arc contact, are used. It can be used as switching gas z. Clean Air and / or SF ₆ can be used, in particular under pressure of more than one bar. The housings 10 can be ribbed, in particular with annular ribs for increasing the dielectric strength over the outer surface along the longitudinal direction. Electrical Ends 12 are provided for electrically contacting the breaker units 2, 3 and in particular at the ends of the housing 10, from the housings 10 z. B. guided gas-tight. The breaker units 2, 3 have at least one

Switching contact with at least one movable contact piece and in particular with a fixed contact piece. The contact pieces are electrically connected to the terminals, and the movable contact piece is movably mounted, connected to an element of a kinematic chain 17, in particular a bar, and in particular gas-tight out of the Ge ^¬ housing 10.

The housing 10 with breaker units 2, 3 are in particular mechanically connected via connecting housing 11 and insulating body 9 with a transmission housing 8, in particular via flanges. The insulator 9 are z. B. hollow cylindrical derförmig formed, in particular of silicone, composites and / or ceramic. The insulating body 9 are formed ribbed, in particular with annular ribs for increasing the dielectric strength over the outer surface ent ^¬ long the longitudinal direction. The connecting housing 11, insulator 9 and / or the gear housing 8 are in particular filled with insulating gas, for. B. Clean Air. The pressure of the insulating gas may be in the range of ambient pressure, which means that no additional, complex gas-tight or pressure-resistant housing must be used.

The two breaker units 2, 3 shown in FIG. 1 are each arranged coaxially in the housings 10 and run on a common longitudinal axis 23 with the insulating bodies 9, which in particular run centrally through the connecting housings 11 and the gear ^housing 8. The gear housing 8 is arranged mechanically stable on a support 6, in particular centrally with a common vertical axis. The carrier 6 comprises z. B. a support frame 18, which is anchored in particular firmly on the ground in the ground or ground, and in particular in the form of an H-shaped steel beam ausge- is forming. On the support frame 18 z. B. a base housing 15 in particular of sheet metal and / or plastic angeord ^¬ net, on the z. B. a drive 16 is attached laterally. The drive 16 is z. As an engine and / or a Federspeicheran- drive, and can be further elements such. B. gear parts,

Verklinkungen, control or regulating elements, sensors and / or communication elements include.

On the support frame 18 and / or the base housing 15 z. B. at least one support insulator 13 is arranged, which can be formed mehrtei ^¬ lig, with parts in particular via flanges z. B. of metal, in particular via screw, rivet, soldering and / or welded joints, are interconnected. The gear housing 8 is arranged on the support insulator 13 ^¬ . Viewed from one side, the high-voltage circuit breaker 1 gives a T-shape, with a particularly columnar support 6, which is vertically upwards, substantially perpendicular to the ground. The two since ^¬ union arms of the T-shape, left and right umfas ^¬ sen from the support 6, starting from the left, the first interrupter unit 2 in the housing 10, is mechanically stable fixed to the connector housing 11, is mechanically stable fixed to the insulating body 9, mecha ^¬ cally stable attached to the gear housing 8, mechanically stably fixed to the right insulating body 9, mechanically stably fixed to the right connection housing 11, mechanically stably fixed to the right housing 10 with the second sub ^¬ breaker unit 3rd

The first interrupter unit 2 arranged coaxially in the housing 10, the connecting housing 11, the insulating body 9 with its longitudinal axis, the transmission housing 8, the right insulating body 9 with its longitudinal axis, the right connection housing 11, and the right housing 10 with the second interrupter unit 3 arranged coaxially , are arranged on a common axis, in particular longitudinal axis 23. The axis 23 is horizon tal ^¬, substantially parallel to the ground on which the high voltage circuit breaker is installed. 1 Insbesonde- re inside the left housing 10, the left connection ^¬ housing 11, the left insulator 9, the Getriebegehäu ^¬ ses 8, the right insulator 9, the right connection ^¬ housing 11, and the right housing 10, and the Getriebege- housing 8 In particular, the interior of the support insulator 13 and / or the support insulators 13 with flange 14, and the base housing 15, movable elements of the kinematic chain 17 are arranged and connected to the breaker units 2, 3 and to the drive 16.

A switching movement is when switching from the drive 16, z. B. Federsp-f eicherantrieb and / or motor, and the drive movement is from the drive 16 via the elements of the kinematic chain 17 to the interrupter units transmitted, in particular to all movable contact pieces of the breaker units. For example, deflection gear 7, shift rails, levers and / or other elements of the kinematic chain 17 are provided to transfer the shift movement, in particular simultaneously or with a time delay, to all breaker units, and to allow changes in the shift speed and / or shift direction. As a result, motion ^{profiles of} the movable contact ^{pieces he} witnesses, which are necessary for switching, in particular switching on and / or off of the high-voltage circuit breaker 1.

FIG. 2 shows a schematic sectional view of the high-voltage circuit breaker 1 of FIG. 1, viewed from above. In Figure 1, the high-voltage circuit breaker 1 of Figure 2 is viewed from the left side Darge ^¬ represents. In the embodiment of the figures of erfindungsge ^¬ MAESSEN high-voltage circuit breaker 1 for a pole four interrupter units 2, 3, 4, 5 connected in series and in pairs on two intersecting axes 23, 24 arranged net. The axes 23, 24 are arranged in a plane, in particular ^¬ special in a horizontal plane substantially parallel to the ground of the high-voltage circuit breaker 1. Der High-voltage circuit breaker 1, viewed from above, has a cross shape with sides of equal length. The outer ends of the breaker units 2, 3, 4, 5 form the corners of a square. The intersecting axes 23, 24 form the diagonals of the square. The axes 23 and 24 intersect at a right angle, ie at an angle of 90 degrees. At the intersection of the gear housing 8 is arranged with deflection gear 7. The gear housing 8 with deflection gear 7 is centrally arranged on a particular columnar Trä ^¬ ger 6 as shown in Figure 1. The high-voltage circuit breaker 1 is composed of two intersecting at an angle of 90 degrees T-shapes, which have a same, common or identical columnar support 6. The arms of the T-shapes extend in four different directions from the carrier 6, wherein adjacent directions each enclose an angle of 90 degrees. At the ends of the arms a respective interrupter unit 2, 3, 4, 5 is arranged. All breaker units 2, 3, 4, 5 are connected to the transmission housing 8 via the common deflection gear 7, an insulating body 9 and the connecting ^housing 11 being arranged between the gear housing 8 and the respective interrupter unit 2, 3, 4, 5 ,

As shown in the embodiment of Figure 2, the interrupter units 2, 3, 4, 5 via electrical connection elements 22, z. As cables and / or rails of particular copper and / or aluminum, connected in series with each other. The electrical connection elements 22 are arranged in the connection housings 11. For this purpose, the connection ^¬ housing 11 are formed such that in each case along the

Longitudinal axis of the connecting housing 11, in the interior of the connec ^¬ tion housing 11, in particular a connecting element 22 is arranged, which connects two adjacent interrupter units 2, 3, 4, 5 with each other. The connection is z. B. substantially parallel or identical to the outer sides of the square, which is formed by the breaker units 2, 3, 4, 5 at the corners. The connection housing 11 are z. B. of an insulator, in particular of ceramic, silicone and / or a composite material, which z. B. comprises a ribbed outer surface, for a good external electrical ^¬ cal insulation. The connection housing 11 are z. B. with Iso ^¬ liergas, z. B. Clean Air filled, or enclose the electrical connection elements 22 directly. The electrical connection elements 22 with the connection ^housings 11 can also be embodied in the manner of a sheathed cable or a sheathed conductive rail.

The first interrupter unit 2 has on the outwardly zei ^¬ ing side an electrical connection 12 for z. As electrical generators, consumers and / or networks, which can be switched on and / or off by the high-voltage circuit breaker 1. On the opposite side of the interrupter unit 2, an electrical connection element 22 is connected, which electrically connects the first interrupter unit 2 to the second interrupter unit 3, which is adjacent. The connecting element 22 is arranged in the Ver ^¬ binding housing 11 between the first and second interrup ^¬ chereinheit 2; 3. The connecting housing 11 is arranged with its ends in each case between an interrupter unit 2, 3 or their housing 10 and the insulating body 9, which mechanically locks the interrupter unit on Umlenkge ^¬ gear 7 and the transmission housing 8. The Verbin ^¬-making element 22 is electrically connected to the second interrupter unit 3 on the side which faces 9 and reversing gear 7 in the direction of insulating body.

On the opposite side of the second interrupter unit 3, an electrical connection ^element 22 is connected ^¬ sen, which electrically connects the second interrupter unit 3 with the third interrupter unit 4, which is adjacent to the second sub ^¬ breaker unit 3. The connecting element 22 is in the connection housing 11 between the second and third interrupter unit 3, 4 arranged. The connecting housing 11 is arranged with its ends respectively on the interrupter unit 3, 4 on one side, which lies opposite the side of the interrupter unit 3, 4 or its housing 10, which points in the direction of the insulating body 9 and the gear housing 8.

On the side of the interrupter unit 4 or its housing 10 which points in the direction of the insulating body 9 and the gearbox housing 8, the third interrupter unit 4 is connected to the fourth interrupter unit 5, which is adjacent, via a connecting element 22. The Verbindungsele ^¬ ment 22 is disposed in the connecting ^housing 11 between the third and the fourth interrupter unit 4, 5. The conjunction housing 11 is disposed with its ends between a breaker unit 4, 5 or its housing 10 and the Iso ^¬ lierkörper 9, wherein the interrupter unit me ^¬ mechanically buildin ^¬ Untitled the reversing gear 7 and the transmission housing. 8 The connecting element 22 is electrically connected to the fourth interrupter unit 3 on the side which points in the direction of the insulating body 9 or deflection gear 7.

On the opposite side of the fourth interrupter unit 5, the fourth interrupter unit 5, on the outwardly facing side, an electrical connection 12 for z. As electrical generators, consumers and / or networks, which are switched on and / or off by the high-voltage circuit breaker 1. The high-voltage power switch 1 is electrically arranged between the electrical terminals 12 of the first and fourth interrupter units 2, 5, for

Switching the electric current path through the high voltage ^¬ circuit breaker 1 between the two electrical terminals 12. In Figure 3, an arrangement in plan view and a use of the invention Hochspannungsleistungs- switch 1 of the Figures is shown diagrammatically 1 and 2, which for Switching of three phases is formed. Three particularly similar inventive high-voltage circuit breakers 1 are arranged side by side to switch three poles or phases 19, 20, 21, in particular simultaneously and / or offset in time.

The embodiments described above can unterei ^¬ Nander be combined and / or can be combined with the prior art. So z. B. two, three or more inventive high voltage circuit breaker 1 can be used. Instead of two intersecting axes 23 and 24, more axes with interrupter units can be used. The axes may have a star-shaped common point of intersection, in particular with a deflection gear and / or support means arranged at the intersection. It can also arrangements of the axes offset with intersections, for. B. with different Umlenkgetrieben and / or support means, which are in particular connected to each other and / or are connected to each other via elements of a kinematic chain, are used. The interrupter units, in particular the axes on which the interrupter units are arranged, can lie in one plane, or in different planes, in particular in essentially parallel planes. The plane or the lev- els can be integrally ^¬ arranged parallel or at an angle to the ground. An arm may be an interrupter unit or more, e.g. B. have two consecutively arranged on an axis, interconnected in series interrupter units. Arms of the interrupter units or axles, on which the breaker units are can, adjacent exhibit a certain angle or different angles to each other on ^¬. Distances between adjacent breaker units may be the same or different, in particular according to a regular pattern or irregular. The gear housing 8 can be viewed with flanges from above z. B. hexagonal, or z. B. round with flattened areas. Reference sign list

1 high voltage power switch

2 first interrupter unit

3 second interrupter unit

4 third interrupter unit

5 fourth interrupter unit

6 carriers

7 deflection gear

8 gearbox, especially with flanges

9 insulator

10 housing of the breaker units

11 connection housing

12 electrical connection

13 support insulator

14 flange

15 base housing

16 drive

17 kinematic chain

18 support frame

19 first pole

20 second pole

21 third pole

22 electrical connection element for series connection

23 first axis

24 second axis

25 outdoor switching device

Claims

claims

1. high voltage circuit breaker (1) for a pole (19, 20, 21), with interrupter units (2, 3, 4, 5), which are connected in series and mechanically stable connected to each other, wherein the interrupter units (2, 3, 4 , 5) are arranged on at least one carrier (6),

characterized in that

the breaker units (2, 3, 4, 5) are arranged on different axes (23, 24).

2. High-voltage circuit breaker (1) according to claim 1, characterized in that

the breaker units (2, 3, 4, 5) comprise vacuum tubes and / or gas-filled circuit breakers, in particular with nominal and arcing contacts, in particular in an outdoor switching device (25).

3. High-voltage circuit breaker (1) according to one of the preceding claims,

characterized in that

the interrupter units (2, 3, 4, 5) are arranged in a plane, in particular in a plane substantially pa ^¬ rallel to the ground.

4. High-voltage circuit breaker (1) according to one of the preceding claims,

characterized in that

in each case at least two interrupter units (2, 3, 4, 5) are arranged on a common longitudinal axis (23, 24), and / or different longitudinal axes (23, 24) are intersected, which intersect at a point, and / or with one Angle between longitudinal axes (23, 24) of 90 degrees. 5. High-voltage circuit breaker (1) according to one of the preceding claims,

characterized in that the interrupter units (2, 3, 4, 5) are arranged such that the longitudinal axes (23, 24) of the interrupter units (2, 3, 4, 5) are star-shaped, in particular with a common intersection, and / or that the longitudinal axes ( 23, 24) of the breaker units (2, 3, 4,

5) are arranged on a cross.

6. High-voltage circuit breaker (1) according to one of the preceding claims,

characterized in that

an interconnection of the interrupter units (2, 3, 4, 5) in series via electrical cables and / or rails, in particular of copper and / or aluminum, in particular with at least one connecting housing (11) between interrupter units (2, 3, 4, 5), which is arranged at free ends of the breaker units (2, 3, 4, 5) and / or which has no mechanical load-bearing function for the breaker units (2, 3, 4, 5).

7. High-voltage circuit breaker (1) according to one of the preceding claims,

characterized in that

exactly one carrier (6) comprises, in particular in the form of a column and / or vertically upright, and / or that the carrier (6) comprises a support insulator (13) or more, insbesonde ^¬ re via flanges (14) connected to the supporting insulators (13) on ^¬ , with support insulators (13) in particular ceramic, Sili ^¬ kon and / or composite materials, and / or that the carrier (6) comprises a base housing (15), in particular made of metal, and / or that the carrier ( 6) a support frame (18) to ^¬ sums, in particular of metal.

8. High-voltage circuit breaker (1) according to one of the preceding claims,

characterized in that

the interrupter units (2, 3, 4, 5) arranged on the at least one carrier (6) on the carrier (6) and / or on a transmission casing (8) which is on the support (6), ^¬ assigns, are mechanically fastened, in particular directly and / or through the insulating body (9) and / or connector housing (11) and / or housing of the interrupter units (2, 3, 4, 5) in which the interrupter units (2, 3, 4, 5) are arranged.

9. High-voltage circuit breaker (1) according to one of the preceding claims,

characterized in that

at least one drive (16) comprises, in particular since ^¬ Lich on the support (6) is arranged, and / or elements of a kine ^¬ matic chain (17) comprises, in particular Umlenkgetrie ^¬ be (7) and / or shift rods, for transferring a Drive movement from the drive (16) to the interrupter units (2, 3, 4, 5) for in particular simultaneous switching of the interrupter units (2, 3, 4, 5).

10. High-voltage circuit breaker (1) according to one of the preceding claims,

characterized in that

Insulating, in particular insulating body (9) and / or the support insulators (13), with an insulating gas, in particular clean air, in particular with a pressure in the region of the ambient pressure of the high-voltage circuit breaker (1), are filled.

11. Use of the high-voltage circuit breaker (1) for a pole (19, 20, 21) according to one of the preceding claims, in an outdoor switching device (25), in particular in an outdoor switching device (25) with three poles (19,