EP3469613A1 - Contact arm assembly for a high-voltage switchgear, and use thereof - Google Patents

Abstract

The invention relates to a contact arm assembly (2) for a high-voltage switchgear (1), comprising at least two contact arms (7) which are arranged in pairs in such a way as to be movable relative to one another by means of at least one joint (10) and each of which includes a top contact arm portion (8) and a bottom contact arm portion (9). Each top contact arm portion (8) has at least one cavity that is designed to accommodate a contact element (17). According to the invention, the contact arm assembly (2) can be used similar to a pantograph in a high-voltage switchgear (1).

Description

description

Contact ^arm arrangement for a high-voltage switching device and de ^¬ ren use

The invention relates to a Kontaktarmanordnung for a high-voltage switching device and their use, wherein the Kon ^¬ tact arm arrangement comprises at least two contact arms, which are arranged in pairs and at least one joint relative to each other movable, and each comprising a Kontaktarm- upper part and a contact arm lower part ,

High-voltage switchgear devices are in Hochspannungsbe ^¬ rich, ie used from a voltage of 1000 V. High-voltage switchgear devices are z. B Disconnector, in particular ^¬ special single-column circuit breaker, which are used for visible separation of a current path, or earthing switch. High-voltage switchgear devices can be constructed in the manner of a pantograph. At the same time, a typical structure comprises at least one contact with a movable and a fixed contact piece. The solid contact piece, ie the fixed contact is z. B is a spatially fixed cylindrical metal tube or cable. The contact piece is made of a material such. B copper, which conducts electric current well, and / or aluminum, for a high mechanical strength.

The movable contact piece comprises z. B a contact arm arrangement with at least two contact arms, which are arranged in pairs and at least one joint movable relative to each other, analogous to a pantograph. The contact arms each include a contact arm top and a contact arm bottom. When electrically connected to the fixed contact piece, the contact arm upper parts of the respective contact arm pair are moved toward one another, ie connected via the joint, analogously to the closing of a pair of scissors, wherein the fixed contact piece is clamped between the contact arm upper parts. The electrical contact between the fixed and the movable contact pieces on the contact arm tops made in conjunction with the fixed contact piece. When the current path is opened via the contact arrangement, the contact arm upper parts of the respective contact arm pair are moved away from one another, ie moved analogously to the opening of a pair of scissors, wherein the fixed contact piece between the contact arm upper parts is released from the contact arm upper parts. The contact arms can z. B consist of tubular metal pieces, z. B made of copper and / or aluminum tubes.

In the connected or switched state of the high-voltage switching device is a good electrical contact between see the fixed contact and the movable contact arms necessary to conduct lossless or at least low-loss electrical current through the contact.

So that the separation distance z. B in disconnectors and earthing switches is clearly visible to the outside, and for reasons of space, the switch is usually not encapsulated and not installed in a housing. Thus, the elements or ^{parts of} the high-voltage switching ^{device can be} set to the weather influences. Wind and / or ice load can lead to unwanted movement of the movable contact pieces, in particular to a movement away from the fixed contact, which deteriorates the electrical contact and thus leads to higher electrical losses across the contact. In extreme cases, the current path can be disconnected, unintentionally and with negative consequences for the connected power grid.

In a short circuit forces can stand ent ^¬ such high currents. B about changing magnetic fields around the current-carrying parts, ie generated by induction

Forces which can lead to a movement of the movable contact arms away from the fixed contact. Analog weather influences This can degrade the electrical contact and thus lead to higher electrical losses across the contact. In extreme cases, an unintentional disconnection of the current path can take place.

Due to the problems described above, the reliability ^¬ speed of the high-voltage switching device is limited, and high electrical losses can lead to high costs. Safe, controlled disconnection and connection of the electrical contacts may be limited or impossible. A Anpas ^¬ solution of the contact surfaces between the movable and fixed contact pieces is complex and possibly associated with high cost of materials, since the contact pieces as a whole changed ^¬ changed and adapted. So z. B for a higher current flow with low resistance pipe pieces as

Whole with a larger cross-section, be designed with more material and / or as a rectangular rod with a contact surface adapted profile. This increases the cost and ver ^¬ Ringert design freedoms such. B the adaptation of the profile to mechanical stability requirements.

The object of the present invention is the avoidance or reduction of the problems described above. In particular, it is an object to provide a contact arm assembly for a high voltage switching device and the use thereof, which have a reliable function, allow in particular with low electrical losses of the high-voltage switchgear ^¬ device in the connected state, and a low cost, the require ^¬ gen adapted, in particular allow modular design.

The stated object is achieved by a Kon ^¬ tact arm for a high-voltage switching device with the features of claim 1 and / or by the use of Kontaktarmanordnung according to claim 10. Advantageous embodiments of the contact arm arrangement according to the invention for a high-voltage switching device and / or the use of the contact arm arrangement are described in the subclaims. indicated. In this case, the subject matter of the main claim with the features of the subclaims and features of Un ^¬ teransprüche can be combined with each other.

A contact arm arrangement according to the invention for a high-voltage switching device comprises at least two contact arms, which are arranged in pairs and at least one joint movable relative to each other, and each having a Kontaktarm- upper part and a contact arm lower part. The contact arm upper part has in each case at least one or exactly one recess, which is designed to receive a contact element.

Due to the recess in the contact arm upper part, in each case one contact element can be fastened in a stable and electrically conductive manner to the contact arm in a simple and cost-effective manner. Contact elements with a predetermined, favorable shape and made of a suitable material, regardless of the shape and the material of the contact arm upper part, can be fastened to the contact arm upper part via the recess, matched to the field of application of the high-voltage switching device. The shape of the contact arm upper part is independent of the shape of an electrical contact surface for an electrical contact between the contact arm and fixed contact. It can z. B T-shaped contact elements are used, which are selected according to the voltage ranges and currents through the contact. Thus, T-shaped Kon ^¬ tact elements compared to a tubular, ie O-shaped contact piece, produce a larger contact surface between movable contact pieces and fixed contact, which allows in the closed ^¬ senen state of the high-voltage switching device a reli ^¬ sigeren current flow with lower electrical losses. It can contact elements made of copper with or without coatings z. B are made of silver, or flameproof materials for a long-term stable, good electrical contact. The contact elements can provide a good electrical contact in the closed state of the high-voltage switching device, with low electrical Lusten and low resulting costs, especially in adverse weather conditions such. B in wind and ice formation and / or short circuits in the network. Compared with contact arm tops from one piece, especially from a round tube, z. B contact elements are used with a T-profile, which have an elongated Kontaktflä ^¬ che on a tubular fixed contact. In contrast, cylindrical contact arm tops without contact element, in conjunction with a tubular, ie cylindrical fixed contact, only a punctiform Kontaktflä ^¬ che on. A higher reliability of the contact at BEWE ^¬ supply of a contact piece along the longitudinal axis of the lying against ^¬ contact piece is given by the greater Auflageflä- che, since the contact may only locally along the longitudinal axis and not completely interrupted. A larger contact area also results in a better flow of current, with lower electrical losses. The formation of the contact arm tops each with a

Recess for receiving a contact ^element , ei ^¬ nen allows modular construction of the contact arm and a simple exchange of contact elements. The latter can advertising independently selected from the remaining structure of the contact arm assembly to the optimized shape and material for a good electrical contact, according to the required current and clamping ^¬ voltage range of the high voltage switching device. When worn, the contact elements can be easily removed from the recess and replaced with new contact elements. The contact arm design with the exception of the recess is independent of the contact element, and can with respect to material and shape on egg ^¬ properties such. B mechanical stability and Kostenreduk ^¬ tion be optimized. The high voltage switching device can be chromatograph a high voltage switch ^{disconnector,} in particular a circuit breaker like a pan, or the high voltage switching device may be a High-voltage earthing switch, in particular a grounding switch in the manner of a pantograph. The high-voltage switching device can be ^¬ forms in the manner of a single-column switching device. The above-described advantages of Kontaktarm- arrangement are given in particular in disconnectors and earthing switches and single-column switching devices and switching devices, which are constructed in the manner of a pantograph.

A number of contact arms may be included in the contact arm assembly, which is dependent on parameters of the power system, to which the high-voltage switching device is Schlos ^¬ Senen is, in particular depend on the operating current and / or short-circuit current. For larger, maximum currents and / or voltages, a larger number of contact arms can be used. The number can also be selected depending on the shape and shape of the contact arms, especially when reducing the Kontaktarmquerschnitts a higher number of contact arms can be used. The flexibility in the design of the contact arm arrangement can lead to cost reductions, enable safe operation and / or keep or reduce maximum occurring electrical losses over the contact.

The contact sub-part and / or the contact insert can / may comprise at least two profile rods which are, in particular via spacers to each other rigidly verbun ^¬. This allows a mechanically stable contact arm arrangement with good electrical properties, which has recesses. Parts such as B contact elements and areas of the other contact arms can be partially or completely arranged in the recesses. A contact ^¬ part, z. B the contact arm upper part can be in another Kon ^¬ clock arm, z. B are arranged in the contact arm lower part, in particular in a joint region, whereby a scissors-like movement is easily possible. The recess for receiving a contact element of the contact arm upper part may be elongated along the longitudinal axis of the contact arm upper part, in particular in the manner of a gap. In the gap, the contact element can be easily arranged and fixed. The elongated training he ^¬ enables the arrangement of an elongated contact element, the special ^¬ with large contact surface and / or rectangular contact area for good contact properties such. B when moving contact pieces against each other.

The respective recess of a contact arm upper part may be formed from ^¬ in the form of a groove in a profile bar, in particular a rectangular profile rod with rounded corners and edges. At least one contact element, in particular in T-shape, may be eingelas ^¬ sen in the recess at least partially, in mechanical and electrical contact with the section bar. Grooves are simple and inexpensive to produce ^¬ bar, z. B by milling, laser cutting, embossing. A T-shaped contact element can be easily and mechanically stable inserted into a groove, in particular with mechanical and electrical contact with the material of the contact arm shell. As a result, the contact ^{arm arrangement} can be constructed in a simple and cost-effective manner with contact elements having ^good electrical properties for contact between contact pieces. Rounded corners and edges reduce or prevent corona and flashovers.

The respective recess of a contact arm upper part may be formed al- ternatively or additionally in the form of a slit between at least two rectangular profile bars which are spaced apart via spacers to each other are ^¬ be strengthened. In particular, rectangular profile bars with rounded corners and edges can be arranged at a distance. At least one contact element, in particular in T-shape, can be at least partially embedded in the recess between the profile ^rods , in mechanical and electrical Contact with the profile bars. About spaced profile rods can be easily and inexpensively slots or recesses for contact elements are formed. As a result, as described above, the contact arm arrangement can be constructed in a simple and cost-effective manner with contact elements, with good electrical properties for contact between contact pieces. Rounded corners and edges of rectangular profile bars lead to a reduction or avoidance of corona phenomena and flashovers.

At least one fixed contact may be comprised by the contact arm arrangement, which in the closed state of the current path of the high-voltage switchgear is in electrical contact with the at least two contact arms. A hard contact is easy and inexpensive to implement. Alternatively, a movable contact can be used, which moved up to the closing of the contact towards contact tops be ^¬. Two contact pairs, each having two contact arms can be included in the contact arm assembly, in particular two mutually parallel contact pairs which are at least one connecting element mechanically ver ^¬ connected to each other, in particular via an ON-level in the region of the joints connecting element. The structure described results in a mechanically stable, cost-producible contact ^¬ armanordnung, which can be used in particular in the manner of a pantograph, and which has a high reliability in the manufacture and holding of the electrical contact over the two Kontaktarm- pairs, with high current carrying capacity in particular overall four contact arms.

In a Kontaktarmanordnung with contact arms as described above, there is a good electrical contact without high losses in the on state of the high-voltage switching device, in particular with T-shaped contact elements of the respective movable contact arm in electrical and mechanical contact with a fixed contact, in particular in a cylindrical tube shape.

When moving a contact arm on the fixed contact, in particular in the case of short circuit and / or wind and / or Eisbelas ^¬ tion, rolling of the contact arm on the fixed contact suc ^¬ conditions, the contact surface between the fixed contact and T-för ^¬ migem contact element, in particular the surface on the upper side of the horizontal web of the T-shaped Kontaktele- element, by the rounding receives an electrical contact continuously, with a constant effective contact area between the contact and fixed contact.

An inventive use of the above-described contact arm arrangement comprises that the contact arm arrangement is used in a high-voltage switching device in the manner of a pantograph. Pantographs can form a good contact by clamping at least one contact piece between mating contact pieces, which is mechanically and electrically stable, with low electrical losses. A scissor-like movement of contact pieces of the pantograph can be done easily, with little drive energy, reliably without jamming of contact pieces, resulting in a high reliability and low electrical losses in the switched state of the high-voltage switching device.

The high-voltage switching device can be covered by a high-voltage electrical network and / or electrically connected to this, in particular a high-voltage network with voltages from 1000 V operating voltage. The advantages described above are positive in particular in a high-voltage network.

The advantages of the use according to the invention of the above-described contact arm arrangement according to claim 10 are analogous to the previously described advantages of the contact arm arrangement for a high-voltage switching device according to claim 1 and vice versa. In the following, embodiments of the invention are shown schematically in Figures 1 to 7 and described in more detail below.

The schematic show in side view a high-voltage switching device 1 in the manner of a pantograph with a contact arm 2 according to the invention, and the Kontaktarmanordnung 2 of Figure 1 in more detail, with two contact arms 7 a Kontaktarm- pair, each having a contact arm upper part 8 and Contact arm lower part 9 connected via a hinge 10 include, and

FIG. 3 shows two parallel contact arm pairs with contact arms 7 of FIG. 2, rigidly connected via connecting elements 11, and a first embodiment of a contact arm upper part 8 with groove 12 as a recess for a contact element, and a second embodiment of a contact arm top 8 with a recess for a contact ^¬ element formed between two section bars 13 spaced by spacers 15, and a contact arm upper part 8 of Figure 4, arranged with a contact element 17 in the groove 12 as a recess, and Figure 7 is a contact arm upper part 8 of FIG 5, with one

Contact element 17, arranged in the recess between the two profile bars 13th In Figure 1, a high-voltage switching device 1 is shown in the manner of a pantograph as a single-column circuit breaker. The high-voltage switching device 1 has a contact arm arrangement 2 according to the invention, which is arranged on a support frame arrangement 5 with insulators 4. In the illustrated embodiment, the single-column circuit breaker, running on a support frame assembly 5, analogous to a stand, a contact arm arrangement 2 with contact arms 7 in the manner of Pan- graph arranged, which in the closed state of the current path of the high-voltage switching device 1 in electrical and mechanical contact in particular with a mating contact 3, designed as a fixed contact, is. The current path, z. B in a high-voltage power supply, is shown closed via the high-voltage switching device 1, with an electrical contact between fixed contact 3 and contact arms 7. Dashed the open state is shown, with dashed ^¬ ter trajectory of the contact arms 7, wherein the current path between fixed contact 3rd and contact arms 7 is interrupted.

The movement of the contact arms 7 and the switching between the open and closed state of the high-voltage switching ^¬ device 1 is driven by a drive 6 on the support frame assembly 5. The movement is from the drive 6 via a kinematic chain with z. B elements such as insulators 4 or waves in the insulators 4 transmitted to the contact arm 2. The drive 6 can, for. B be a motor, in particular an electric motor or a spring-loaded drive. Elements such. B gears, pulleys and / or shafts may be included in the kinematic chain.

In Figure 2, the contact arm assembly 2 of Figure 1 is shown in more detail in side view, with a plane of movement of the contact arms 7 in the drawing plane.

The two contact arms 7 of the shown contact arm pair umfas ^¬ sen in each case a contact arm upper part 8 and a Kontaktarm- Lower part 9, which are interconnected via a hinge 10. The two contact arms 7 of the contact arm pair, connected via a hinge 10, are movably mounted. The joints 10 allow a movement in which the Kontaktarm- upper parts 8 in the upper region, above the joint 10 between ^¬ two contact arms 2, when closing the current path of the high-voltage switching device 1 to move toward each other and move away from each other when opening. The contact arms 7 form, via the joint 10 between the two contact arms 7, a kind of shear, between whose legs the mating contact 3 is mechanically clamped when the current path is closed. The mating contact 3 is the simplicity sake in Figure 2 is not Darge ^¬. The contact arm upper part 8 and the contact arm lower part 9 ei ^¬ Nes contact arm 7 are connected via a joint 10 each movable with each other. By the connection of two contact arms 7 and two contact arm tops 8 via a joint 10 performs a movement in which the joints 10, each connecting the contact arm base 9 and the contact arm shell 8 at one end, away from each other, to an opening of the Sche ^¬ re formed by the contact arm tops 8. In this case, the joint 10 is moved to connect the two contact ^¬ arms 7 or two contact tops 8 downwards. In this position, the current path is opened via the high-voltage switching device 1.

A movement of the contact arms 7 takes place in each case via a Dre ^¬ hen the contact arm lower parts 9 about an axis perpendicular to the plane of Figure 2, wherein the axis of rotation is arranged at the end of the ^¬ each respective contact arm lower part 9, which the end of the contact arm lower part 9 with hinged 10 opposite ^¬ lies. The rotational movement of the contact arm lower part 9 about its lower end is effected by the drive 6, transmitted via the kinematic chain. In order to open the current path, the contact arm lower parts 9 are rotated away from one another in opposite directions, ie the right contact arm base part 9 in the clockwise direction and the left contact arm lower part 9 in the counterclockwise direction. To close the current path, the contact arm lower parts 9 are rotated in opposite Richtun ^¬ conditions toward each other, ie the right Kontaktarm- lower part 9 counterclockwise and the left Kontaktarm- lower part 9 in the clockwise direction.

Analog one pantograph, the rotational movement of the two contact sub-parts 9 about the axis at the end of the contact arm lower parts 9, a movement of the contact arm tops 8. A movement of the contact arm lower parts 9 with a BEWE ^¬ supply of the joints 10, which connect the contact arm bottoms 9 to the contact arm tops 8, away from each other, move the lower and upper ends of the contact arm tops 8 away from each other. The shears or the contact to the mating contact 3 is opened and the current path interrupted. In this case, the joint 10, which connects the contact arm upper parts 8 of the two contact arms 7 with each other, moved downward. The ends of the contact arm upper parts 8 are moved downwards, as well as the freely movable end of the two contact arm lower parts 9 are each moved downwards. The end of the contact arm lower part 9, on which the axis of rotation lies, does not change its height or position relative to the support frame arrangement 5. Movement of the contact arm bottoms 9 with movement of the hinges 10 connecting the contact arm bottoms 9 to the contact arm tops 8, toward each other, also moves the lower and upper ends of the contact arm tops 8 toward each other. The scissors or the contact to the mating contact 3 is closed and the current path is ge ^¬ closed, ie, the mating contact 3 is electrically conductively inserted ^¬ clamped between the upper ends of the contact arm tops. 8 In this case, the joint 10, which connects the Kontaktarm- upper parts 8 of the two contact arms 7 with each other, moved upward. The ends of the contact arm upper parts 8 are moved upwards and the freely movable end of the two contact arm lower parts 9 is in each case moved upward. The End of the contact arm lower part 9, on which the axis of rotation is located, each does not change its height or position to Tragrahmenan ^¬ order 5. The contact arm tops 8, as shown in Figure 2, have a kink. As a result, they are bent towards each other at the upper ends of the contact arm tops 8. When closing of the contact or the current path of the mating contact 3 is a ^¬ clamped between the upper ends of the contact arm tops 8 before the lower ends of the contact arm tops 8 and the upper ends of the contact sub-parts 9 and the joints 10 which respectively contact the contact arm upper parts 8 and connect Un ^¬ tert ropes 9 to each other movable. A good clamping of the mating contact 3 can be achieved without a contact each of the contact arm tops 8 and the lower parts 9 takes place at their ends or the connecting joints 10 and the clamping is hindered by the clamping. Mutually facing hook-shaped struc ^¬ ren at the upper ends of the contact arm tops 8 can reduce the degrees of motion of the contact arms 7 in the clamped ^¬ to stand. Thereby, the holding of the closed state of the high-voltage switching device 1 z. B in weather ^¬ influences such as wind or short circuits improved. FIG. 3 shows two parallel contact arm pairs with contact ^arms 7 of FIG. 2, rigidly connected via connecting elements 11. The connecting elements 11 are z. B arranged in the form of waves or rods perpendicular to the plane of the figure 2 in Figure 3 between the contact arm pairs. The connecting elements 11 are arranged ^¬ respectively at the joints 10 and respectively connect two equivalent joints 10 of the opposing contact pairs with each other. The three connecting elements 11 are the same length, whereby the contact ^¬ arm pairs are arranged parallel to each other. A tubular mating contact 3 is arranged with its longitudinal axis parallel to the longitudinal axes of the connecting elements 11. The one sake of simplicity the counter contact is not drawn to a ^¬ in Figure 3. 3

The contact arm arrangement of FIG. 3, with two contact arm pairs of FIG. 2 arranged parallel to one another with contact arms 7, enables improved clamping with ^lower electrical losses compared with clamping of the mating contact 3 with only one contact arm pair. There arise in the closed state of the high-voltage switching device 1, four contact points between contact arm tops 8 and contact arms 7 and the mating contact 3. The current flow over four contact points with less resistance or lower losses compared to two contact points when using only a contact arm Pair, and the clamping is more reliable and mechanically stable.

FIG. 4 shows an upper end of a contact arm upper part 8 of the contact arms 7 shown in FIGS. 1 to 3. The dashed line 16 represents the previously beschriebe- ne kink-axis and the bends in the contact arm tops. 8 An elongated recess in the contact arm upper part 8 is formed by a longitudinal groove 12 along the longitudinal axis of the Kon ^¬ taktarm upper part 8 , The groove 12 can through the entire cross section of the contact arm shell 8 or only in a surface area to a certain depth, z. B may be formed in the range of centimeters in the contact arm upper part 8.

FIG. 5 shows an alternative embodiment of the contact arm upper part 8 shown in FIG. The

Recess is formed between two parallel profile bars 13 by spacers 15 between the profile bars 13. The distance between the profile bars 13 and the width of the spacers 15 gives the width of the recess and the distance of the spacers 15 from each other gives the length of the recess along the longitudinal axis of the contact arm shell 8. The spacers 15 can z. B by means of screws and / or welding and / or soldering and / or gluing to the two profile bars 13 of the contact arm upper part 8. Hold the two Pro ^¬ filstangen 13 to a particular constant distance from each other along the longitudinal axis of the section bars 13 and the contact arm upper part 8. The fastening elements 14 ent ^¬ long the longitudinal axis of the section bars 13 or of the Kontaktarm- upper part 8 may be arranged in order to mechanically and in particular electrically connect the two profile rods 13 with each other. Analogous to the contact arm upper part 8, the contact arm lower parts 9 can be constructed of two profile rods 13 with fastening 14 and / or spacer elements 15.

In Figure 6 is a contact arm upper part 8 of Figure 4, with a contact element 17 in the groove 12 as a recess angeord ^¬ net, shown in sectional view.

The contact arm upper part 8, which is formed in the embodiment of Figure 6 with a rectangular cross-section, has a profile bar 13 and a spatially and electrically conductively connected to the profile bar 13 contact element 17. The profile bar 13 with wall 20 is hollow on the inside, and rod-shaped with a rectangular cross-section perpendicular to the rod longitudinal axis. The edges of the profile bar 13 are rounded to prevent overvoltages at corners and edges. On one side, in Figure 6, the top of the profile bar 13, a groove or continuous recess through the wall 20 is arranged. The groove is linear, formed along the longitudinal axis of the profile bar 13, and connects the inner and the outer space of the profile bar thirteenth

In the groove, a contact element 17 is arranged or recessed form ^¬ conclusively. The contact element 17 is rod-shaped, ie elongated, in particular without being hollow on the inside. The contact element 17 has a T-shape in cross-section and is formed analogously to a rail. Holes are continuous through the contact element 17 on one side arranged vertical surface 19, which holes are assigned in a lateral surface of the profile bar 13.

Screws 14 and / or bolts can be guided through the holes, the contact element 17 on the profile bar 13 mechanically stable and / or good electrically conductive fix. In order to achieve a higher mechanical stability and better electrical conductivity, can be inserted along the mounting ^¬ element 14 in the interior of the profile bar 13, between the wall of the profile bar 20 and the contact surface 19, stand-off elements 21.

The profile bar 13 may, for. B made of copper, and / or made of aluminum. The contact element 17 may be made of copper for good electrical conductivity and good electrical contact, and is kept cally stable over the section bar 13 mecha ^¬. By the illustrated construction, a contact arm upper part 8 is described, with high mechanical stability and good electrical contact properties in contact with the fixed or mating contact 3. The Kontaktarm- lower part 9 of the contact arm 7 may be analogous to the Kontaktarm- upper part 8, only without groove 12 and / or contact ^¬ element 17th

FIG. 7 shows a contact arm upper part 8 according to FIG. 5 in a sectional view, with a contact element 17 arranged in the recess between the two profile rods 13.

The contact arm 9 of the upper part of Figure 7 has filstange instead of a product 13 with a rectangular cross section, as shown in Fi gur ^¬ 6, two mutually parallel profile rods 13 with an oval cross-section. The oval cross-section or the wall 20 of a profile bar 13 is composed of two flat, parallel sides which are mechanically connected to one another centrally via a connecting web 18 extending perpendicularly on the sides, which extends along the length of the profile bars 13, and two Semicircles with radius r, which each ^{miteinan ¬} connect the opposite ends of the planes parallel to the connecting ^web 18. The two profile bars 13 are spaced, parallel zueinan ^¬ arranged, whereby a gap or a recess between the profile bars 13 is formed. In the gap, a T-shaped contact piece 17, analogous to the contact piece 17 in the groove in the figure 6, respectively. Fasteners 14, in particular screws, rivets and / or bolts can be used to connect the profile bars 13 with each other and with the contact piece 17 mechanically stable. The screws 14 with nuts can, as shown in FIG. 7, hold and / or press the contact arm upper part 8 together over the outer sides of the contact arm upper part 8 or the two profile rods 13. Alternatively or in alternation, the bolts 14 may act with nuts on inner surfaces of the profile bars 13 to hold and / or press the contact arm or profile bars 13 and the contact piece 14 together.

Spacer elements 15 with a thickness, as they have the Kontaktele ^¬ elements 17 in the lower region, can be arranged between the profile bars 13, in particular in the region of Befestigungsele ^¬ elements 14. Arranged by the contact element 17 in the upper region of the profile rods 13 between the profile rods 13, and the spacer elements 15 arranged in the lower region of the profile rods 13 between the profile bars 13, the two profile rods 13 of the Kontaktarm- upper part 8 are fixed in parallel, relative to each other. The con- taktarm lower part 9 of the contact 7 can be constructed analogous to the Kon ^¬ taktarm upper part 8, but without the contact element 17 and spacer elements 15 instead of the contact element 17 in the obe ^¬ ren area of the section bars 13. The above-described embodiments can unterei ^¬ Nander combined and / or can be combined with the prior art. Thus, the contact arms 7 z. B be used in various types of high voltage switching devices 1. It can z. B disconnector or earthing are used in particular in the manner of a pantograph. It can be used instead of single-column high-voltage switching devices 1 and high voltage switchgear 1 with several, in particular be ^¬ wegbaren columns. The high-voltage Schaltge ^¬ devices 1 can be used for one or more phases in the power grid. The section bars 13 can aufwei ^¬ sen different forms. So profile rods 13 z. B rectangular, with rounded edges, as shown in Figure 6, be formed with one or more slots or grooves, or the profile bars 13 may, for. B oval, as shown in Figure 7, be formed with one or more recesses between a plurality of profile bars 13. In or in the recesses, one or a respective contact element 17 may be arranged. It can also be two or more profile bars 13, in particular arranged parallel to each other, as shown in Figure 7, and the contact element 17 or the contact ^¬ elements 17 may be arranged between or respectively between the profile bars 13. This profile bars 13 cross sections such. B rectangular, oval and / or elliptical oval. In each case all profile rods 13 may be formed with the same cross section or with different cross sections, in particular with different shape. Combinations of the exemplary embodiments of FIGS. 6 and 7 may also be used, with contact elements 17 being arranged between profile rods 13 and in recesses of the respective profile bar 13.

Two, four or more contact arms 7 can be used for the contact arm arrangement 2. These can be parallel

and / or at an angle to each other. The contact arm tops 8 and the contact arm parts 9 may, for. B have the shape as shown in Figure 6, or have the shape as shown in Figure 7, or combinations of research men. It can be arranged between the contact arms 7 electrically conductive or non-conductive connecting elements 11. It may, as shown in Figure 3, five connection ^¬ elements 11 are used, or a smaller or larger number of connection elements 11. Joints 10 may waves and / or storage and, optionally, additional elements for power transmission, consisting of highly conductive materials such as copper or aluminum are made. The contact elements 17 and profile bars 13 can instead of screws 14, rivets or bolts z. B be joined together by welding or gluing. Contact elements 14 and / or profile bars 13 may be coated for better electrical conductivity, for. B be silvered. In particular, contact surfaces between parts or elements of the contact arms 7 can be coated. Profile rods 13 and / or contact elements 17 may be made of a material, in particular ^¬ special a good conductive material such. B copper, or mechanically stable materials such. B steel or aluminum, and / or may have different Materia ^¬ lien and / or alloys.

Reference sign list

1 high-voltage switchgear

2 contact arm arrangement

 3 mating contact

 4 insulator

 5 supporting frame arrangement

 6 drive

 7 contact arm

 8 contact arm upper part

 9 contact arm lower part

 10 joint

 11 connecting element

 12 groove

 13 profile bar

 14 fastener

 15 spacer element

 16 bending axis

 17 contact person

 18 footbridge

 19 contact surface contact element

20 wall profile bar

 21 spacer element

Claims

claims

1. Kontaktarmanordnung (2) for a high-voltage switching device (1), with at least two contact arms (7), which are arranged in pairs and at least one joint (10) movable relative to each other, and each a Kontaktarm- upper part (8) and a contact arm lower part (9), characterized in that in each case the contact arm upper part (8) has at least one recess, which is designed to receive a con ^¬ tactual element (17).

2. contact arm arrangement (2) according to claim 1,

characterized in that the high-voltage switching device (1) is a high-voltage circuit breaker, in particular a pantograph-type circuit breaker, or the high-voltage switching device (1) is a high-voltage grounding switch, in particular a pantograph-type grounding switch, and / or that the high-voltage switching device (1) is designed in the manner of a single-column switching device.

3. Kontaktarmanordnung (2) according to any one of claims 1 or 2, characterized in that a number of contact arms (7) is included, which is dependent on parameters of the high-voltage switching device (1) connected power network, in particular depending on Be ^¬ operating current and / or short-circuit current.

4. Kontaktarmanordnung (2) according to one of claims 1 to 3, characterized in that the contact arm lower part (9) and / or the contact arm upper part (8) comprises at least two profile rods (13), which in particular ^¬ special spacers (15 ) are rigidly connected to each other.

5. contact arm arrangement (2) according to one of claims 1 to 4, characterized in that the recess for receiving a contact element (17) of the contact arm upper part (8) along the longitudinal axis of the contact ^¬ arm upper part (8) is elongated, in particular in the manner of a gap.

6. Kontaktarmanordnung (2) according to one of claims 1 to 5, characterized in that the respective recess of a contact arm upper part (8) in the form of a groove (12) in a profile bar (13), in particular a rectangular profile bar with rounded corners and edges is, and / or at least one contact element (17), in particular in T-shape at least partially embedded in the recess (12), in mechanical and electrical contact with the profile bar (13).

7. Kontaktarmanordnung (2) according to one of claims 1 to 5, characterized in that the respective recess of a contact arm upper part (8) is formed is in the form of a slot between at least two rectangular profile bars (13) spaced from each other via spacer elements (15 ), in particular ^¬ special rectangular profile bars (13) with rounded corners and edges, and / or wherein at least one contact element (17) in particular in T-shape at least partially in the recess between the profile bars (13) is embedded, in mechanical and electrical contact with the profile bars (13).

8. Kontaktarmanordnung (2) according to one of claims 1 to 7, characterized in that at least one mating contact (3), in particular fixed contact is summarized, which in the closed state of the current path of the high-voltage switching device in electrical contact with the at least two contact arms ( 7) stands.

9. contact arm arrangement (2) according to one of claims 1 to 8, characterized in that two contact arm pairs, each with two contact arms (7) are summarized, in particular two mutually parallel contact arm pairs, which are at least one Verbindungsele ^¬ ment (11) mechanically connected to each other, in particular via a respective in the region of the joints (10 ) arranged connecting element (11).

10. Use of the contact arm arrangement (2) according to one of claims 1 to 9,

The contact arm arrangement (2) in a high-voltage switching device (1) is used in the manner of a pantograph.

11. The use of Kontaktarmanordnung (2) according to claim 10, characterized in that the high-voltage switching device (1) is comprised of a high-voltage electric network and / or is electrically connected to this, in particular a high-voltage network with voltages in the range from 1000th V operating voltage.