WO2018192732A1 - Double nozzle switch with outer contact, and method for switching the double nozzle switch - Google Patents

Abstract

The invention relates to a double nozzle switch (1) and to a method for switching high-voltage currents for a pole. The double nozzle switch (1) comprises at least one first contact (2) comprising at least one first and at least one second stationary contact piece (3, 4) and at least one first movable bridge contact piece (5), via which an electric contact is established between the at least one first and the at least one second stationary contact piece (3, 4) in the switched-on state. The double nozzle switch (1) additionally comprises at least one second contact (6) comprising at least one third and at least one fourth stationary contact piece (7, 8) and at least one second movable bridge contact piece (9), via which an electric contact is established between the at least one third and the at least one fourth stationary contact piece (7, 8) in the switched-on state. The at least one first and the at least one second contact (2, 6) are electrically connected in parallel.

Description

description

Double nozzle switch with external contact and method for switching the double jet switch

The invention relates to a double nozzle switch and a method for switching high currents in the high voltage technology for a pole. The dual-nozzle switch comprises at least one first contact which comprises at least a first and at least one second fixed contact piece and at least one first, movable bridging contact piece, via which an electrical contact between the at least one first and the at least one second fixed contact piece is produced in the switched-on state is.

A double nozzle switch for the high voltage technology according to the prior art is z. B. from EP 0 830 700 Bl. The double nozzle switch comprises a rated current contact with two opposite, hollow-cylindrical fixed contact pieces, which are each nozzle-shaped. To the

Turn on a hollow cylindrical bridging contact piece is pushed over the two fixed or fixed contact pieces, which creates an electrical contact between the fixed contact pieces on the bridging contact piece. When switching off the hollow cylindrical About ^¬ bridging contact piece is withdrawn from at least one fixed contact pieces until there is a sufficient distance to the at least one contact piece to safely disconnect the electrical contact.

The double jet switch further includes a compression device for extinguishing gas, in particular SF ₆ . The Comp ^¬ ressionsvorrichtung has a stationary compression piston, and a movable compression cylinder. The compression cylinder comprises a bottom, which is movably arranged with the compression cylinder, and is moved when switched so that the two fixed contacts and the bridging contact piece is spatially encompassed by the compression cylinder. When turned off, the compression cylinder is moved with its bottom such that the bottom is at least pulled off by a contact piece and behind a gap between the fixed contact pieces, which is formed by the fixed distance of the fixed contact pieces from each other, is withdrawn. The floor consists of and / or comprises an insulator, e.g. As Teflon and / or PCTFE. An arc, which can occur when switching between contact pieces, is extinguished or blown by extinguishing gas flows when switching through the wood-cylindrical fixed contact pieces in the nozzle shape and by the compression device. When switched on, the maximum possible current is limited by the double-jet switch, z. B. by the material of the contact pieces, the conductive diameter of the contact pieces and the electrical contact between the fes ^¬ th contact pieces and the bridging contact piece. An increase in the maximum possible current at which the double-nozzle switch is not damaged by increasing the conductive diameter of the contact pieces, leads to an increase in the mass to be moved, an increase of the double-jet switch and to increase the manufacturing cost. The use of good conductive materials, such. B. in the form of silver coatings on contact pieces of z. B.

Copper, steel or aluminum, to improve the contacts, leads to a sharp increase in manufacturing costs. Spatial and financial limits as well as material properties such as electrical conductivity vs. Mass, lead to limits of increasing the maximum possible current via a double-jet switch.

The object of the present invention is to provide a double-nozzle switch and a method for switching a double-jet switch, which enable high currents via the double-jet switch, at high switching voltages and in particular at low production costs. In particular it is Task to provide a double-nozzle switch, which has an increased maximum current carrying ^{capability ¬} compared to the prior art, with low mass to be moved when switching, low production costs, with compact dimensions and a small extinguishing gas volume.

The stated object is achieved according by a Dop ^¬ peldüsenschalter for switching high currents in high-voltage engineering for a pole with the features of patent claim 1 and / or a method for switching

DC and / or AC in the high-voltage technology, in particular using the double-nozzle switch described above, solved according to claim 9. Advantageous embodiments of the double-jet switch according to the invention for switching high currents in the high-voltage technology for a pole and / or the method for switching direct and / or alternating current in the high-voltage technology, in particular using the double-jet switch 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.

A double-nozzle switch according to the invention for switching high currents in the high-voltage technology for a pole comprises at least a first contact which comprises at least one first and at least one second fixed contact piece and at least one first, movable bridging contact piece, via which an electrical contact between in the switched-on state the at least one first and the at least one second fixed contact piece is made. The double-nozzle switch further comprises at least one second contact, with at least a third and at least ei ^¬ NEM fourth fixed contact piece and at least a second, movable bridging contact piece, via which in the on state, an electrical contact between the at least one third and the at least one fourth fixed contact piece is made, wherein the at least ei ^¬ ne first and the at least one second contact are electrically connected in parallel. The double jet switch of the invention has an increased maximum current ^¬ load capacity at a low manufacturing cost through the two parallel-connected contacts. The double-jet switch has a low mass to move when switching and can be designed with compact dimensions and in a design with low extinguishing gas volume.

When switched on, the current flow through the second contact can be 20 to 90%, in particular at least 50% of the

Current flow over the first contact. To the corresponding amount is the maximum current flow through the double ^¬ nozzle switch compared to double nozzle switches known from the prior art, increased. Other types of high-voltage circuit breakers, in particular with rated current and arc contact, at least one Nennstromkontakt- piece and at least one arcing contact piece are movable, and wherein the arcing contact pieces are formed in pin and Tul ^¬ pen form with low current carrying capacity, as ^¬ as with an extra Blow nozzle for extinguishing arcs, have compared to double nozzle switches, known from the prior art, only an increase of the maximum current flow of less than 20%, in particular less than 10% of Stromflus ^¬ ses on the tubular rated current contact, in particular by the current flow over the arcing contact. The at least one first and the at least one second fes ^¬ te contact piece of the double jet switch of the invention can be a hollow cylinder, in particular in each case in the form of a nozzle to be formed. The at least one first, movable bridging contact piece may be hollow-cylindrical, in particular a form-fitting manner with an inner diameter, which essentially corresponds to the outer diameter of the at least a first and / or the at least one second fixed contact piece corresponds.

Hollow-cylindrical contact pieces have a high current carrying capacity with low mass, depending on the diameter and the thickness of the hollow cylinder wall. A low mass of the contact pieces with high current carrying capacity reduces the mass to be ^¬ wegende when switching. As a result, fast Schaltbe ^¬ movements, ie short switching times possible with little force, whereby the dimensioning of elements of the kinematic chain and a drive can turn out lower, which saves costs.

The at least one third and the at least one fourth fixed contact piece may be formed in the shape of a hollow cylinder, in particular in each case in the form of a sliding contact guide. The at least one second, movable bridging contact piece may have a hollow cylindrical shape, in particular a sliding contact, in particular a positive fit with an outside diameter which essentially corresponds to the inside diameter of the at least one third and / or the at least one fourth fixed contact piece. Sliding contact pieces are simple, inexpensive to produce, have high reliability during operation, are durable and can be moved quickly. The advantages of the design of the contact pieces in the form of hollow cylinders are as previously described.

A compression device may be included, with a particular stationary or movable compression piston, and / or with a particular movable compression cylinder, which has a bottom, which in particular comprises an insulator.

The compression device may spatially in the radial direction-between the at least one first and arranged the at least one second contact, in particular in the turned on state of the double jet ^¬ switch. The compression device may be configured to extinguish an arc, which may occur during switching. The execution of the compression piston with an insulator as the bottom of the compression piston, allows an electrical

Isolation in the area of the contacts between first and second contact, thus preventing arcing across the bottom of the compression piston when switching. Spatially in the radial direction of the at least one first contact of the includes at least one second contact may be, in particular in the activated state of the Doppeldü ^¬ senschalters, particularly associated to the contacts respective gas spaces which in the switched-on state of the double jet switch fluidically separated from each other be Kgs ^¬ NEN.

The arrangement of the first contact in the interior of the second contact, in particular contact tube, results in a compact construction. About fluidly separated gas spaces can a

Arc effectively extinguished, z. B. by blowing with quenching gas, and skipping arcs between the contacts can be prevented, in particular between the inner and outer contact tube.

An electrically insulating fluid may be included, in particular ^¬ sondere a liquid and / or a gas, in particular SF _6, nitrogen, dry air, carbon dioxide, a fluoroketone, and / or a Fluornitril. The double-nozzle switch, in particular the contacts and / or the compression device, can be filled with the electrically insulating fluid, in particular a liquid and / or a gas, in particular SF ₆ , nitrogen, dry air, carbon dioxide, a fluoroketone, and / or a fluoronitrile be. Electrically insulating fluids serve to isolate contact pieces from one another, in particular when the double-jet switch is switched off suitable arcs particular by blowing to lö ^¬ rule.

Nozzles may be coated with erosion resistant material, particularly Teflon, and / or PCTFE, and / or graphite at the nozzle ends and / or comprise these materials. Thus, the dielectric strength of the double jet switch is increased in out ^¬ off state and the emergence of arcs reduced when switching or facilitates the deletion of light sheets are published. Contact points of contact pieces can be coated with highly conductive material, in particular silver, and / or contact devices, in particular contact fingers, have. As a result, a high current carrying capacity with low electrical losses is made possible when the double-nozzle switch is switched on via the contacts.

A method according to the invention for switching direct and / or alternating current in high-voltage engineering, in particular using a double-jet switch described above, comprises, when switching on, at least one ers ^¬ tes, movable bridging contact piece at least a first contact from a first position in electrical contact with a second, fixed contact piece and without electrical contact with a first, fixed contact piece, in particular with the first bridging contact piece, the second contact piece spatially comprehensive, is moved in a second Posi ^¬ tion, with electrical contact between the first and second contact piece on the first bridging contact piece , at least one second movable bridging contact at least ei ^¬ nes in particular with the first bridging contact both the first and the second contact piece spatially at least partially comprising, and wherein the second Cont akts from a first position in electrical contact with a fourth, fixed contact piece and without electrical contact with a third, fixed contact piece, in particular with the fourth contact piece spatially at least partially encompassing the bridging contact piece, in a second position is moved, with electrical contact between ^¬ rule the third and fourth contact piece via the second bridging contact piece, in particular with the second bridging contact piece from both the third and fourth contact piece each partially spatially.

When switching on, the first and the second contact can be closed simultaneously. Alternatively, when switching on, the first and the second contact can be closed successively, in particular with an order in which the second contact is closed in time later than the first contact.

When turned off, the at least one first movable bridging contact piece of the at least one first contact may be moved from a second position, with electrical contact between the first and second contact pieces via the first bridging contact piece, to a first position with electrical contact of the first bridging contact piece with the second, fixed one are moved contact piece and without electrical contact with the first fixed contact piece, and wherein the at least one second, movable Überbrü ^¬ ckungskontaktstück the at least one second contact of a second position with electrical contact between the third and fourth contact piece via the second bridging contact, in a first position, with electrical contact of the bridging contact piece with the fourth, fes ^¬ th contact piece and without electrical contact with the third, fixed contact piece, can be moved.

When switching off the first and the second contact can be opened simultaneously. Alternatively, at Ausschal ^¬ th the first and the second contact successively ge ^{¬ be} opened, in particular with an order in which rather the second contact is opened in time before the first contact. When closing the first contact can be moved simultaneously or subsequently, and before closing the second contact, a movable compression cylinder with its bottom on the first, in particular the first and second contact piece of the first contact, in particular for blowing ei ^¬ nes arc between the first and second contact piece. Upon opening of the first contact may be simultaneous or as ^¬ up following, and are moved upon opening of the second contact, the movable compression cylinder with its bottom from the first, in particular the first and second contact piece of the first contact path, in particular to delete a Arc between the first and second contact ^¬ piece. The advantages of the method according to the invention for switching direct and / or alternating current in high-voltage engineering, in particular using a double-nozzle switch described above, are analogous to the previously described advantages of the double-jet switch according to the invention for switching high currents in the high-voltage technology for one pole according to claim 1 and vice versa.

In the following, an embodiment of the invention is sche ^¬ matically shown in Figures 1 and 2 and described in more detail below.

The show

Figure 1 schematically in a sectional view of a pole a double nozzle switch 1 according to the invention in the on state, with two parallel, closed contacts 2, 6, and

2 is a schematic sectional view of the double nozzle scarf ^¬ ter 1 of Figure 1, in the off state, with two open contacts 2, 6th In Figure 1, a double jet Invention ^¬ according switch 1 is shown schematically in sectional view shown with a first and with a second contact 2, 6, in the closed, that is, switched-on state. The double-jet switch 1 is designed for switching high voltages, in particular of direct and / or alternating voltages up to 800 kV, and for switching currents in the range of up to 500 kA. The first contact 2 of the double nozzle switch 1 has two fixed, hollow-cylindrical contact pieces 3, 4 and a movable, first bridging contact piece 5. The two hollow cylindrical contact pieces 3, 4 are tubular, with a common longitudinal axis. Two ends of the Kontaktstü ^¬ bridges 3, 4 are arranged opposite one another, with a gap between the ends, which is formed in its size depending on the maximum voltage to be switched, for a high dielectric strength in the off state without voltage flashovers. The ends are coated with a erosion-resistant material, for. As with Teflon or PCTFE to minimize burn-off by arcing when switching.

The ends of the hollow cylindrical contact pieces 3, 4 are each in the form of a nozzle, ie with an inner cross-section tapering towards the end. Arcing occurring during switching can be effectively blown or extinguished by extinguishing gas, in particular SF ₆ , via the nozzles. The first and the second contact piece 3, 4 are each spatially fixed or fixed on the opposite side opposite the opposite ends, that is, not arranged to be movable in the double-nozzle switch 1. The contact pieces 3, 4 are mirror-symmetrical, with a vertical mirror axis to the longitudinal axis of the hollow cylindrical contact pieces 3, 4, arranged and formed and have the same cross sections, in particular a same outer cross section. The hollow ^¬ cylindrical contact pieces can be formed with a diameter of 50 to 200 mm, in particular 80 to 150 mm. The contact pieces 3, 4 are made of a highly conductive Me ^¬ tall, especially copper, aluminum or steel. Contact surfaces with other contacts may be silver plated and / or include carbon for good electrical contact with little electrical loss over the contact.

The first bridging contact piece 5 is hollow-cylindrical or tubular, with an inner diameter which essentially corresponds to the outer diameter of the first and second contact piece 3, 4. The first bridging contact piece 5 and the first and second contact piece 3,

4 have a common longitudinal axis. The first Überbrü ^¬ ckungskontaktstück 5 is arranged movable along the longitudinal axis. In the switched state, the first Überbrü ^¬ ckungskontaktstück 5 is pulled over the ends of the contact pieces 3, 4 and includes these in space. At one end of the first bridging contact 5 is connected via elements of a kinematic chain with a drive, which is not shown for simplicity hal ^¬ over in the figures. When switching a switching movement on the first bridging contact ^¬ piece 5 is transmitted via the drive and elements of the kinematic chain.

At one end of the first bridging contact piece 5, wel ^¬ ches the end with elements of the kinematic chain is opposite, z. B. contact elements may be arranged in the form of contact fingers, for a good electrical contact between the first bridging contact piece 5 and the first contact piece 3 of the first contact 2. In the region of the second contact piece 4 of the first contact 2 in the on state, can at the first bridging contact piece 5 also z. B. contact elements in the form of contact fingers, springs and / or sliding rings may be arranged for a good electrical contact between the first bridging contact piece

5 and the second contact piece 4 of the first contact. 2

In the turned-on state to the contact 2 a compres sion ^¬ device 10 for quenching gas, in particular SF ₆ or dry air, arranged. The compression device 10 has a stationary compression piston 11 and a movable compression cylinder 12. The compression piston 11 is arranged rotationally symmetrically about the second contact piece 4, between the second contact piece 4 and the compression cylinder 12. The compression cylinder 12 comprises at the end, which faces the first contact piece 3, a bottom 13 which is fixed to the compression cylinder 12 is connected and in particular fluid-tight with the first contact piece 3 concludes. The bottom 13 is arranged with the Kompressi ^¬ onszylinder 12 movable along the longitudinal axis. The soil consists of a particular erosion-resistant, electrically insulating material, eg. Teflon or PCTFE. A second contact 6 comprises in the on state spatially the first contact 2 and the compression device 10. The second contact 6 has analogous to the first contact 2 two fixed contact pieces 7, 8, that is, a third and a fourth spatially fixed contact piece 7, 8 and a second movable bridging contact piece 9 on.

The third contact piece 7 and the fourth contact piece 8 are tubular or hollow cylindrical, and analogous to the first and second contact piece 3, 4 mirror-symmetrically along a mirror axis perpendicular to the common longitudinal ^¬ axis of the contact pieces 7, 8, formed and arranged. The contact pieces 7, 8 are arranged with one end against ^¬ opposite and spatially fixedly mounted to the respective other end, in particular a tube end in the double nozzle switch 1 and fixed. In the interior of the tubular third contact piece 7, in the radial direction, the first contact piece 3 is arranged centrally. In the interior of the tubular fourth contact piece 8, in the radial direction, the second contact piece 4 is arranged centrally.

The second bridging contact piece 9 is hollow-cylindrical or tubular with an outer diameter, wel is substantially equal to the inner diameter of the contact pieces 7, 8 of the second contact 6. The second bridging contact piece 9 is arranged in particular as a sliding contact in the contact pieces 7, 8 of the second contact 6 movably. In the switched-on state of the double-jet switch 1, as shown in FIG. 1, the second bridging contact piece 9 connects the gap between the third contact piece 7 and the fourth contact piece 8, as a result of which the second contact 6 is electrically closed. The movable second bridging contact piece 9 slides when switching in the fourth contact piece 8 and protrudes in the on state with one end positively in the third contact piece 7. Contact devices such. B. contact fingers, slip rings and / or springs can be arranged for a good electrical contact between the second bridging contact piece 9 and the third contact piece 7 and / or between the second bridging contact piece 9 and the fourth contact piece 8, for a good electrical contact between the contact pieces

7, 8, 9, in particular when switched on.

The compression device 10 is arranged in the radial direction between the first and second contacts 2, 6. The second bridging contact piece 9 can in particular be positively connected to the movable compression cylinder 12 and can be connected via elements of the kinematic chain

 Switching be moved, or be connected as a movable contact piece 9 directly with elements of the kinematic chain to move when switching. The contact pieces 3, 4, 5, 7,

8, 9 are made of a highly conductive material, for. As copper, aluminum, or steel.

In Figure 2, the double nozzle switch 1 of Figure 1 is shown schematically in sectional view in the off state, with two open contacts 2, 6. In contrast to it is switched on, as shown in Figure 1, is in the out ^¬ off state of the double jet switch 1, as shown in Figure 2, the first contact 2 and second contact 6 electrically and / or mechanically interrupted. The first over-brückungskontaktstück 5 and the second Überbrückungskontakt- piece 9 and the compression device 10 with moving the compression cylinder 12 and the bottom 13 of the Kompressionszy- Linders 12 are removed from the first contact piece 3 and drit ^¬ th contact piece 7 in particular completely around the second contact piece 4 around arranged on the side of Doppeldü ^¬ senschalters 1, on which the fourth contact piece 8 befin ^¬ det.

When switching on, the first contact 2 is closed by moving the first bridging contact piece 5 from the second contact piece 4 towards the first contact piece 3 until electrical contact between the contact pieces 3, 4, 5, in particular the contact pieces 3 and 5, exists. The hollow cylinder-shaped contact pieces 3, 4, 5 form in the region of the first contact 2, in particular a closed tube. At the same time or offset in time, in particular before the first bridging contact piece 5, the compression cylinder 12 is pulled or pushed, ie moved, with the bottom 13 over the first contact piece 3 with the first bridging contact piece 5, and quenching gas flows through the hollow cylindrical first and second An arc, which can arise when switching between the first bridging contact piece 5 and the first contact piece 3 in the particular closed tube, can be extinguished by a gas flow. When switching extinguishing gas flows through the stationary compression piston 11 in the compression device 10, and thus on the first bridging contact piece 5 and the first contact ^¬ piece 3 in the compression cylinder 12 with bottom 13. An arc, which when switching between the first bridging contact piece 5 and the first contact piece 3 outside of the particular closed tube may be deleted by the quenching gas stream. At the same time or after closing the first contact 2, the second contact 6 is closed. The second Uberbrü ^¬ ckungskontaktstück 9 is especially moved out of the fourth contact piece 8 third in the direction of contact piece 7, to an electric and in particular also mechanical contact between the bridging contact piece 9 and the third contact 7 consists, in particular the Überbrückungskon ^¬ clock-piece 9 is in the third contact piece inserted. The contacts 2, 6 are closed and the current flow takes place via the first and second contacts 2, 6. The double-nozzle switch 1 is switched on, as shown in FIG. 1, and a ^high current flow through both contacts 2, 6 in the region of in particular 500 kA is possible. When switching off, the first contact 2 is opened, by Be ^¬ because of the first bridging contact piece 5 from the first Kon ^¬ tact piece 3 away, the second contact piece 4 back to an electrical contact between the contact pieces 3, 4, 5, in particular the contact pieces 3 and 5 is safely interrupted, with a distance of the contact pieces 4, 5 of the contact ^¬ piece 3 depending on the maximum applied voltage without electrical flashovers may occur. Between the contact pieces 4, 5 and the contact piece 3 creates a particular filled with extinguishing gas gap. Spaced at the same time or lent, in particular after the first bridging contact piece 5, is pulled with the first bridging contact piece 5 of the compression cylinder 12 with bottom 13 from the first contact piece 3 or pushed, ie moved, and quenching gas can through the hollow cylindrical first and / or second flow nozzle-shaped contact piece. An arc, which at the

Switching between the first bridging contact piece 5 and the first contact piece 3 can occur is canceled by the quenching gas stream. Furthermore, an arc can be scraped off by the movement of the bottom 13 away from the first contact piece 3 towards the second contact piece 4, through the bottom 13 of the contact pieces 3, 4. Before or simultaneously with the opening of the first contact 2, the second contact 6 is opened. The second bridging contact piece 9 is moved in particular from the third contact 7 in the direction of, and in particular in the fourth contact piece 8 until no electric and especially not me ^¬ ical more contact between the Überbrückungskontakt- piece 9 and the third contact 7 consists, in particular the bridging contact piece 9 is inserted into the fourth contact piece 8. The contacts 2, 6 are open and the flow of current through the first and second contacts 2, 6, ie the double-nozzle switch 1 is interrupted. The double-jet switch 1 is switched off, as shown in FIG. 2, and a high dielectric strength of the disconnected state of the two contacts 2, 6 in the region of, in particular, up to

800 kV is possible.

The embodiments described above can unterei ^¬ Nander be combined and / or can be combined with the prior art. The double nozzle switch 1 of FIGS. 1 and 2 is designed to switch for one pole. At z. B. three-pole design in particular three juxtaposed double nozzle switch 1 according to the invention are used. To further increase the maximum possible current, two or more double-nozzle switches 1 can be switched in parallel for one pole. To increase the Spannungsfestig ^¬ speed in the off state, two or more double-nozzle switch 1 can be connected in series for one pole. It can for insulating elements, such. As the bottom 13, next or alternatively for Teflon and / or PCTFE other materials such. As plastics are used. As burn-resistant materials, eg. B. at the ends of the contact pieces 3, 4, graphite or other materials can serve. The contact pieces 3, 4, 5, 7, 8, 9 can be made in one piece or from several pieces. In particular, contact and / or sliding devices such as contact fingers, metal or

Teflon rings or coatings of the contact pieces 3, 4, 5, 7, 8, 9 and / or the compression device 10 comprises be. Different movement and / or switching sequences are possible, in particular during the movement of the bridging contact pieces 5 and 9 and of the compression cylinder 12 with bottom 13. Elements of the double jet switch 1 can also be moved independently of each other, in particular by means of transmission elements offset in time or simultaneously.

Reference sign list

1 double nozzle switch

 2 first contact

 3 first fixed contact piece

 4 second fixed contact piece

 5 first bridging contact piece

 6 second contact

 7 third fixed contact piece

 8 fourth solid contact piece

 9 second bridging contact piece

 10 compression device

 11 stationary compression pistons

 12 movable compression cylinders

 13 bottom of the compression cylinder, insulator

Claims

claims

1. double jet switch (1) for switching high currents in high-voltage engineering for a pole, with at least one ERS th contact (2) comprising at least a first and at least a second fixed contact piece (3, 4) and Wenig ^¬ least a first , movable bridging contact piece (5), via which in the switched on state an electrical contact between the at least one first and the at least one second fixed contact piece (3, 4) is produced, characterized in that

at least one second contact (6) comprises, with Wenig ^¬ least a third and at least one fourth fixed contact piece (7, 8) and at least one second sawn wegbaren bridging contact (9), via which in the connected state, an electrical contact is established between the at least one third and at least a fourth fixed contact (7, 8), said Wenig ^¬ least one first and the at least one second contact (2, 6) are electrically connected in parallel.

2. Double nozzle switch (1) according to claim 1,

characterized in that

at least one first and the at least one second fixed length of contact piece (3, 4) is a hollow cylinder, in particular in each case in the form of a nozzle formed and / or that the at least one first movable bridging contact (5) is designed as a hollow cylinder, in particular form ^¬ which is substantially positively speaks ent ^¬ with an inner diameter, the outer diameter of the at least one first and / or of a second fixed contact piece at least (3, 4).

3. Double jet switch (1) according to one of the preceding claims,

characterized in that the at least one third and the at least one fourth fixed contact piece (7, 8) is hollow-cylindrical, in particular in the form of a sliding contact guide, and / or the at least one second, movable bridging contact piece (9) is hollow-cylindrical, in particular designed as sliding contact , in particular form-fitting with an outer diameter which substantially corresponds to the inner diameter of the at least one third and / or the at least one fourth fixed contact piece (7, 8).

4. Double nozzle switch (1) according to one of the preceding claims,

characterized in that

a compression device (10) is included, with an in particular fixed or movable compression piston

(11), and / or with a particular movable Kompressi ^¬ onszylinder (12) having a bottom (13), which in particular comprises an insulator.

5. double nozzle switch (1) according to claim 4,

characterized in that

the compression device (10) is arranged spatially, in the radial direction between the at least one first and the at least one second contact (2, 6), in particular in the switched-on state of the double-jet switch (1).

6. Double jet switch (1) according to one of the preceding claims,

characterized in that

spatially, in the radial direction of the at least one first contact (2) of the at least one second contact (6) is included, in particular in the on state of the double nozzle switch (1), in particular with the contacts (2, 6) to ^¬ ordered respective gas spaces which are fluidically separated from each other in the switched-on state of the double-jet switch (1).

7. Double nozzle switch (1) according to one of the preceding claims,

characterized in that

an electrically insulating fluid comprises, in particular a liquid and / or a gas, in particular SF _6, stick ^¬ cloth, dry air, carbon dioxide, a fluoroketone, and / or a Fluornitril, and / or that the double jet switch (1), in particular the Contacts (2, 3) and / or the compression ^¬ device (10) with the electrically insulating fluid, in particular a liquid and / or a gas, in particular SF ₆ , nitrogen, dry air, carbon dioxide, a fluoroketone, and / or a fluoronitrile, are filled.

8. Double jet switch (1) according to one of the preceding claims,

characterized in that

 Nozzles are coated with erosion-resistant material, in particular Teflon, and / or PCTFE, and / or graphite at the nozzle ends, and / or in particular Teflon, and / or PCTFE, and / or graphite at the nozzle ends, and / or

Contact points of contacts with good conductive material, in particular silver, are coated and / or ^{Kontaktin ¬} directions, in particular contact fingers have. 9. A method for switching direct and / or alternating current in high-voltage engineering, in particular using a double-nozzle switch (1) according to one of the preceding claims,

characterized in that

at least a first movable bridging contact piece (5) of at least one first contact (2) from a first position in electrical contact with a second, fixed contact piece (4) and without electrical contact with a first, fixed contact piece (3), in particular with the first bridging contact piece (5), the second contact piece (4) is spatially extensively moved to a second position, with electrical contact between the first and second contact piece (3, 4) via the first bridging contact piece (5), in particular with the first bridging contact piece (5) both the first and the second contact ^¬ piece (3, 4) spatially at least partially comprising, and wherein at least a second, movable bridging contact piece (9) of at least one second contact (6) from a first position in electrical contact with a fourth, fixed contact piece (8) and without electrical contact with a third, fixed contact piece (7), in particular with the fourth th contact piece (8) spatially the bridging contact piece

(9) at least partially encompassing, is moved ^¬ in a second position, with electrical contact between the third and fourth contact piece (7, 8) via the second bridging contact piece (9), in particular with the second bridging contact piece (9) both from the third and fourth contact piece (7, 8) each partially spatially comprises.

10. The method according to claim 9,

characterized in that

when switching on the first and the second contact (2, 6) are closed simultaneously.

11. The method according to claim 9,

characterized in that

is closed when switching on the first and second contacts (2, 6) are closed on ^¬ successively, in particular with an order in which the second contact (6) in time later than ^¬ ter than the first contact (2).

12. The method according to any one of claims 9 to 11,

characterized in that

when switching off the at least one first movable over ^¬ brückungskontaktstück (5) of the at least one first contact (2) from a second position, with electrical contact-between the first and the second contact piece (3, 4) via the first bridging contact (5 ), in a first position with electrical contact of the first bridging contact piece (5) with the second fixed contact piece (4) and without electrical contact with the first fixed contact piece (3), and wherein the at least one second, movable bridging contact piece (9) of the at least one second contact (6) from a second position, with electrical contact between the third and fourth contact pieces (7, 8) via the second bridging contact piece (9), into a first position, with electrical contact of the bridging contact piece (9) with the fourth, fixed contact piece (8 ) and without electrical contact with the third fixed contact piece (7).

13. The method according to claim 12,

characterized in that

when you turn off the first and the second contact (2, 6) are opened simultaneously.

14. The method according to claim 12,

characterized in that

turning off the first and the second contact (2, 6) are opened on ^¬ successively, in particular with a Rei ^¬ henfolge, wherein said second contact (6) is opened earlier than the first contact (2).

15. The method according to any one of claims 9 to 14,

characterized in that

on closing of the first contact (2) simultaneously or as ^¬ up following and prior to the closing of the second contact (6), a movable compression cylinder (12) with its base (13) via the first, in particular the first and second Kon ^¬ clock pieces ( 3, 4) of the first contact (2) is moved, in particular ^¬ sondere for blowing an arc between the first and second contact piece (3, 4), and / or that (when opening the first contact 2) to simultaneously or subsequently, and Opening the second contact (6), the movable

Compression cylinder (12) with its bottom (13) of the first, in particular of the first and second contact piece (3, 4) of the first contact (2) is moved away, in particular for extinguishing an arc between the first and second contact piece (3, 4).