DE102007038898B3 - Switch arrangement for a switchgear - Google Patents

Abstract

The invention relates to a switch arrangement for a switchgear, comprising a vacuum interrupter (2) and a circuit breaker / earth electrode (3), which are arranged in series in a current path between two connection parts (4, 5) of the switchgear kept at a constant distance from each other. In order to allow a particularly compact design of the switch assembly, stands from one end of the fixed to the other end of one of the connecting parts (4) vacuum interrupter (2) from a splitter pin (13), the end of which constantly in at least the intended separation distance corresponding distance to Contact (10) of the opposite connection part (4) is held, and the separating bolt (13) is designed as a linear guide for a moving contact of the circuit breaker (3) bearing separator sleeve (17).

Description

The The invention relates to a switch arrangement for a switchgear specified in the preamble of claim 1 Art.

Such a switch arrangement is known from EP 0070794 A2 already to be taken as known. The vacuum interrupter and the moving contact of the circuit breaker are combined in one embodiment of the switch assembly, wherein the free end of the movable tubular bolt is formed as a frusto-conical penetration. This penetration contact cooperates after closing the circuit breaker with a receiving contact on the associated connection part. In a second embodiment of the switch assembly, the vacuum interrupter is fixedly connected to one of the connecting parts via its immovable tubular bolt. The free end of the movable tubular bolt is also provided in this variant as Einschlagkontakt with a frusto-conical taper. With this impact contact, an associated receiving contact cooperates when the circuit breaker is closed, which forms the moving contact of the disconnector. In order to maintain a conductive connection to the associated connection part when the feed path bridging the advance of the moving contact, the structural unit carrying the moving contact of both embodiments has a rod-shaped fuse which passes through a passage opening provided in the connection part with slip ring contacts. With the circuit breaker open, this fusible link forming rod consequently protrudes out of the connecting part with its predominant length and corresponding space requirements, which may be undesirable in some applications of such switch arrangements. A disadvantage may be considered in the known switch assembly, the fact that vacuum interrupter and disconnector on a common drive on or off. The drive must therefore be designed to be highly dynamic due to the requirements of the vacuum interrupter, which in terms of the technical requirements of the circuit breaker drive can be disadvantageous.

From the DE 10 2006 033 209 B3 is a circuit breaker assembly is known in which a separation distance between two contact pins can be bridged by means of a contact sleeve, wherein one of the contact pin serves as a linear guide for the contact sleeve.

task The invention is a switch assembly for a switchgear after the Specify generic term of claim 1, which is a particularly compact Design of the switch arrangement allows.

These Task is carried out according to the invention the features of claim 1 solved.

advantageous embodiments and further developments of the invention are specified in the dependent claims.

The Switch assembly includes a vacuum interrupter and a circuit breaker, in a current path between two at a constant distance from each other held connecting parts of the switchgear arranged in series are. Here is the vacuum interrupter on one of the two connecting parts axially supported. The switch assembly has it over In addition, a coaxially projecting from the vacuum interrupter, elongated Guide body of the disconnector, the over at least one sliding contact conductive with a guide body surrounding the sleeve body in Connection stands, and bridging the separation distance to the opposite contact Feed of the moving contact in the course of the switching operation of Disconnector on, with a corresponding linear displacement between leadership body and Sleeve body goes along. According to the invention from the associated end of the vacuum interrupter protruding guide body Separator bolt, whose end is constantly in a corresponding at least the intended separation distance Distance is maintained to the contact of the other connection part, wherein the separating bolt as a linear guide for one formed the moving contact of the circuit breaker separating sleeve is.

Of the The basic idea of the invention is based on the consideration that only the used space lying between the connecting parts for the switch assembly is to be, by a moving contact carrying separator sleeve along an associated one Separator bolt sliding is. Due to the telescopic interaction of separator sleeve and Separator bolt can easily a compact design of the Switch arrangement can be achieved. Also, the axial feed remains opposite to the splitter bolt the separator sleeve possible, the for the stroke of the vacuum interrupter is required.

A stable attachment of the release bolt bearing vacuum interrupter is relieved when on the side of the stationary tubular bolt attached to the connector and its movable tubular bolt with the separator bolt connected is.

If a force application element, in particular a drive element, for the displacement drive of the tubular bolt is arranged in the connection region between the tubular bolt and the separating bolt, then it can be inserted precisely and via the connecting means of tubular bolt and separating bolt be attached. In addition, via the force application element, a radial intermediate support of the disconnector bolt can take place. The force application element characterizes the force application point for the drive and can be designed in a suitable manner as a drive element.

One functionally reliable sliding contact between the separating bolt and the separating sleeve by means of at least one ring spring contact between the outer circumference of the separating bolt and the inner circumference of the separator sleeve achieved. If the separator sleeve over several, axially offset coil spring contacts supported with radial bias, this can during axial feed as the sole friction or sliding surfaces of the separator sleeve serve. One for the ring spring contact particularly suitable design is present when this one circumferential coil spring winding in the form of a solid torus having.

Around an automatic Tolerance compensation in the axial direction to allow, is the end of the separator sleeve tubular trained and carries on its inner circumference a radially resilient contact ring, the at closed circuit breaker, a cylindrical peripheral surface of the Contains mating contact on the connection part. As special for the occurring Suitable loads have a slat contact ring with Narrowed, resilient mid-range or a ring spring contact proved as a circumferential helical spring winding in the form of a solid torus.

If the separating bolt can be dimensioned sufficiently long, can be in addition to the switch arrangement Provide a grounding position of the separator sleeve on the separator bolt. This can be useful in one Radial distance to the separator bolt arranged a Erdkontaktring be in the grounding position with a corresponding contact ring the separator sleeve interacts. The contact ring of the separator sleeve can be preferably on the circumference of a radially projecting from the separator sleeve annular collar Attach.

Around the circuit breaker or earthing switch by means of a relatively slow but z. B. with regard to the durability advantageous "creep drive" to operate can, can the separator sleeve be assigned an independent of the switching drive of the vacuum interrupter drive.

The inventive switch assembly is in particular for one Integration in control cabinets, housings, container or the like. Suitable because all movable components of the switch assembly lie between the end-side connection parts. Thus, for the connection parts each one supporting Wall bushing or similar be provided. Due to the good integration ability leave containers with the switch assembly seal easily and reliably, allowing them also to a great extent for as such known, gas-insulated containers are suitable.

multipolar Switchgear can over it have several switch arrangements, which are housed together in a Isoliergasbehälter. at Medium voltage switchgear with such switch arrangements can the insulating gas tank advantageously be filled with sulfur hexafluoride (SF6) as an insulating gas.

Further expedient embodiments and advantages of the invention will become apparent from the following description an embodiment below Referring to the figures of the drawings, wherein corresponding ones Components are provided with the same reference numerals.

In show the drawings:

1 a central longitudinal section through a switch assembly in a schematic schematic representation,

2 a perspective view of a single ring spring contact of the switch assembly,

3 a single perspective view of a slat contact ring and

4 a perspective oblique view of a multi-pole switch assembly of a gas-insulated medium voltage switchgear.

An in 1 visible switch arrangement 1 , in particular for switchgear, comprises as main components a vacuum interrupter 2 and a circuit breaker 3 in a direct linear arrangement, coaxial between two rotationally symmetrical connection parts 4 and 5 are held. The consistent linear arrangement is due to the drawn center longitudinal axis 6 clearly visible. Both connecting parts 4 respectively. 5 enforce an associated recess in an indicated ceiling plate 7 or bottom plate 8th a container 9 and are on conical screw sleeves / feedthroughs or the like. At the passage opening bounding edge region of the ceiling plate 7 or bottom plate 8th axially braced or welded. This causes the connection parts 4 and 5 fixed immovably in the distance shown from each other and form the implementation of the interior of the container 9 outward. To the connection parts 4 and 5 also belongs in each case a centrally extending within the same electrode, wherein the electrode of the connection part 4 for connection to a common power bus and the connection part 5 is intended for a conventional cable connection. The electrode of the connection part 4 stands down from the lower screw sleeve out and is a mushroom-like contact 10 shaped, whose head has a roughly cylindrical peripheral surface at the rounding of the end peripheral edges.

The opposite electrode of the connection part 5 on the other hand, is only a little bit out of the screw sleeve, lies flat with its fixed contact end face on the opposite end face of the vacuum interrupter 2 and is fixed and as unsolvable as possible with the fixed tubular bolt 11 connected to the same. On the upwardly directed Bewegkontaktseite is the movable tubular bolt 12 from the vacuum interrupter 2 out and engages with a cylindrical end portion accurately into a hole, as a blind hole from the end of a cylindrical separating bolt 13 is omitted. At a distance to this point, the separator bolt 13 due to an increase in its diameter on a stepped paragraph, at the annular end face a perfect fit on the release bolt 13 deferred force application element, in particular a drive element 14 , is axially supported. On the opposite end is the force application element 14 by means of a retaining ring 15 axially supported. The circlip 15 itself is by means of a tension pin 16 or rivet axially secured position, as from the dowel pin 16 mutually aligned fitting holes in the circlip 15 , in the separator bolt 13 and in the tube bolt 12 are interspersed. About the dowel pin 16 including circlip 15 is thus the movable tube bolt 12 firmly with the separating bolt 13 connected and the force application element 14 on the separator bolt 13 secured in position. Thus, the vacuum interrupter can be 2 about the axial feed of the force application element 14 moving disconnect bolt 13 switch, including a drive kinematics not shown conventional design such. B. a crank drive with servomotor can be provided. The drawn feed path SV of the tubular bolt 12 corresponds to the maximum distance between the contacts of the vacuum interrupter 2 ,

The splitter bolt 13 extends from the force application element 14 starting with constant diameter under coaxial course on the contact 10 to and ends in one of the intended separation distance corresponding distance to the contact 10 , wherein the feed path SV of the vacuum interrupter 2 must be taken into account. To the current path between the connecting parts 4 and 5 Being able to close is on the disconnect bolt 13 a separator sleeve 17 slidably guided, with a conductive connection between the separator bolt 13 and contact 10 can be produced. The separator sleeve 17 is designed as a tubular sleeve and has at the bottom then a radially projecting annular collar 18 as the end area. At the separator bolt 13 enclosing inner circumference is the lower end portion of the separator sleeve 17 via two slightly offset from each other in the axial direction of the ring spring contacts 19 slidably guided, each in a circumferential groove of the separator sleeve 17 lie and thereby axially on the separator sleeve 17 are supported. In the same way is from the outer peripheral surface of the annular collar 18 recessed an annular groove in which a similar ring spring contact 19 ' is held with a correspondingly larger diameter.

As in connection with 2 can be seen, there is the ring spring contact 19 respectively. 19 ' of a spring wire with a round cross-section, which is wound like a coil spring and the spring ends are connected together to form an endless wire. The winding axis runs circular and the diameter of the spring winding is constant. In the detail view it can be seen that the spring winding is bent in the relaxed state everywhere along a circular path. The enveloped by the spring winding envelope thus corresponds to that of a Volltorus. The diameter of the ring spring contact 19 respectively. 19 ' but is so dimensioned that the spring winding is under radial bias in the associated annular groove. This results in the installed state a flattened rather oval cross-sectional shape of the spring winding in the ring spring contacts 19 respectively. 19 ' , At its upper end region, the separator sleeve 17 a tubular shape, wherein on the inner circumference a lamella contact ring 20 on the separator sleeve 17 is attached. With disconnector closed 3 is the end area on the contact 10 postponed, according to which he the extent of contact 10 under radial springing support via the lamella contact ring 20 encloses.

In conjunction with the individual presentation according to 3 can be seen how the lamellar contact ring 20 is constructed. On its outer peripheral side, it consists of a plurality of transverse lamellae of small width made of parallel flat strip material, which extends over the circumference of the contact ring 20 are distributed, with their long narrow sides have only a small distance from each other. In the ring center plane of these cross blades lies on the inner peripheral side of a narrow circumferential central lamella, which leads to a central narrowing of the link band structure. This formed by the central lamella ring is covered by a plurality of also consisting of thin strip material transverse yokes, which are each secured with their ends to an opposite transverse lamella. Between the fixed ends, these transverse yokes each extend in an arrow shape, whereby they extend over a correspondingly enlarged peripheral portion of the slat contact ring 20 extend. Due to this construction of the lamellar contact ring 20 is achieved that due to the radial spring characteristic permanently reliable contact between contact 10 and separator sleeve 17 takes place when the circuit breaker 3 is closed.

From the upper end position can be the separator sleeve 17 by means of a direction reversible actuator, not shown, of known type by a separation ST down to the OFF position and vice versa. The stroke ST corresponding to the separation stroke is indicated by an arrow. After moving the separator sleeve 17 in the exhibition, which is indicated by dashed lines, there is the required separation distance. Beyond the OFF position, at a distance below, there is still a grounding position of the separator sleeve 17 provided, thereby increasing the safety of the switch assembly 1 is further improved. The displacement SE up to the grounding position is by a Erdkontaktring 21 determined in a corresponding distance to the OFF position in coordination with the diameter of the ring spring contact 19 ' concentric with the separator bolt 13 is arranged and grounded. Will the separator sleeve 17 The ring collar penetrates via the mentioned actuator into the grounding position drawn with dotted lines 18 in the hollow cross section of Erdkontaktringes 21 one, after which about the ring spring contact 19 ' the earth connection is made.

As in 4 can be shown in a container 9 a plurality of substantially identical switch arrangements 1 z. B. are provided for three switching poles, which are compact in the container in the overall arrangement 9 are housed. This illustration also shows that the earth contact rings 21 in a simple way via a common hole bottom 22 can be positioned at the appropriate height. It also becomes clear that the container 9 itself can be made compact and due to the passages of the connecting parts 4 and 5 hermetically seal easily. Thus, the container 9 Also highly suitable for the Isoliergasbefüllung with volatile insulating gases such as SF6.

1

switch arrangement

2

Vacuum interrupter

3

disconnectors

4

connector above

5

connector below

6

central longitudinal axis

7

ceiling tile

8th

baseplate

9

container

10

Contact

11

tube bolts motionless

12

tube bolts movable

13

isolator bolts

14

Force application element

15

circlip

16

dowel pin

17

separator sleeve

18

collar

19

Ring spring contact (Abrasive)

19 '

Ring spring contact (Ground)

20

Laminated contact ring

21

Erdkontaktring

22

bottomhole

SV

Contact travel (Vacuum interrupter)

ST

Contact travel (ON OFF)

SE

Contact travel (Ground)

Claims (16)

Switch arrangement ( 1 ) for a switchgear, with a vacuum interrupter ( 2 ) and a circuit breaker ( 3 ), which are connected in a current path between two connecting parts which are kept at a constant distance from each other ( 4 . 5 ) of the switchgear are arranged in series, wherein the vacuum interrupter ( 2 ) on one of the two connecting parts ( 4 or 5 ) is axially supported, with a coaxial from the vacuum interrupter ( 2 ) projecting, elongate guide body of the circuit breaker ( 3 ), which has at least one sliding contact ( 19 ) is conductively connected to a sleeve body enclosing the guide body, and with a separation distance to the opposite contact ( 10 ) bridging feed of the moving contact in the course of the switching operation of the circuit breaker ( 3 ), which is associated with a corresponding linear displacement between the guide body and the sleeve body, characterized in that the from the associated end of the vacuum interrupter ( 2 ) protruding guide body a release bolt ( 13 ) whose end is constantly in a distance corresponding at least to the intended separation distance to the contact ( 10 ) of the other connector ( 4 ), and that the separating bolt ( 13 ) as a linear guide for a moving contact of the circuit breaker ( 3 ) carrying separator sleeve ( 17 ) is trained. Switch arrangement according to claim 1, characterized in that the separating bolt ( 13 ) from the moving contact side of the vacuum interrupter ( 2 ) and with the movable tubular bolt ( 12 ) connected is. Switch arrangement according to claim 2, characterized in that on the separating bolt ( 13 ) in the connection area to the tubular bolt ( 12 ) a force application element ( 14 ) for the displacement drive of the tubular bolt ( 12 ) is arranged. Switch arrangement according to one of claims 1 to 3, characterized in that the separator sleeve ( 17 ) conductive with the separating bolt ( 13 ) via a ring spring contact ( 19 . 19 ' ) communicating between the outer periphery of the Trennerbol zens ( 13 ) and the inner circumference of the separator sleeve ( 17 ) is arranged. Switch arrangement according to claim 4, characterized in that the separator sleeve ( 17 ) via several ring spring contacts ( 19 . 19 ) radially supported and along the separating bolt ( 13 ) is guided sliding. Switch arrangement according to claim 4, characterized in that the ring spring contact ( 19 . 19 ' ) is provided with a spring winding in torus shape. Switch arrangement according to one of claims 1 to 6, characterized in that the contact ( 10 ) of the connection part ( 4 ) with disconnector ( 3 ) is enclosed on its cylindrical peripheral surface by a contact ring, which on the inner circumference of a tubular end portion of the separator sleeve ( 17 ) is held. Switch arrangement according to claim 7, characterized in that the contact ring as a lamellar contact ring ( 20 ) or designed as a toroidal ring spring contact. Switch arrangement according to one of claims 1 to 8, characterized in that the separator sleeve ( 17 ) on the separating bolt ( 13 ) is additionally displaceable in a grounding position. Switch arrangement according to claim 9, characterized in that at a radial distance to the separating bolt ( 13 ) an earth contact ring ( 21 ) is arranged, which in the grounding position with a corresponding contact ring ( 19 ' ) of the separator sleeve ( 17 ) cooperates. Switch arrangement according to claim 10, characterized in that the contact ring ( 19 ' ) on the circumference of a radially projecting annular collar ( 18 ) on the separator sleeve ( 17 ) is arranged. Switch arrangement according to one of claims 1 to 11, characterized in that the separator sleeve ( 17 ) one of the switching drive of the vacuum interrupter ( 2 ) independent drive is assigned. Switch arrangement according to one of claims 1 to 12, characterized in that the switch arrangement ( 1 ) in an insulating gas container ( 9 ) is housed. Switch arrangement according to one of claims 1 to 13, characterized in that a plurality of switch arrangements ( 1 . 1 . 1 ) a multi-pole switchgear in Isoliergasbehälter ( 9 ) are housed. Switch arrangement according to claim 13 or 14, characterized in that as insulating gas for the switch arrangement ( 1 . 1 . 1 ) in the insulating gas container ( 9 ) Sulfur hexafluoride (SF6) is provided. Multi-pole switchgear with at least one switch arrangement according to one of Claims 1 to 15, which is located in an insulating gas container ( 9 ) is housed.