EP2179429A1 - Switch arrangement for a switchgear assembly - Google Patents

Abstract

The invention relates to a switch arrangement for a switchgear assembly, having a vacuum interrupter (2) and an isolating switch/earthing switch (3), which are arranged in a row between two connecting parts (4, 5), which are held in a current path at a constant distance from one another, of the switchgear assembly. In order to allow the switch arrangement to have a particularly compact design, a separator bolt (13) projects from one end of the vacuum interrupters (2), which is fixed at the other end on one of the connecting parts (4), the end of which separator bolt (13) is held all the time at a distance, which corresponds at least to the predetermined separation gap, from the contact (10) of the opposite connecting part (4), and the separator bolt (13) is in the form of a linear guide for a separator sleeve (17), to which the moving contact of the isolating switch (3) is fitted.

Description

description

Switch arrangement for a switchgear

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

Such a switch arrangement can already be taken from EP 0070794 A2 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 ^¬ moveable tubular bolt is designed as a frusto-conical indenter. This penetration contact acts after closing the circuit breaker with a receiving contact on ^{¬ to} ordered connection part together. 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 provided in this variant as Einschlagkon ^¬ tact 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. So that when the isolating distance bridging advance of the moving contact a conductive Ver ^¬ connection to the associated connecting part remains, the the moving contact bearing assembly of both execution ^¬ shapes on a rod-shaped fuse, which passes through a provided with slip-ring contacts through opening in the connecting part. With an open disconnector this rod forming the fuse is consequently out with its predominant length and the corresponding space requirement of the connecting part, which can be undesirable in some applications sol ^¬ cher switch assemblies. 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 already be due to the requirements of Vacuum interrupter be designed highly dynamic, which may be disadvantageous Hin ^¬ view of the technical requirements of the circuit breaker drive.

The object of the invention is to provide a switch assembly for a switchgear according to the preamble of claim 1, which allows a particularly compact design of the ^{Schalteran ¬} order.

This object is achieved according to the invention by the features of claim 1.

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, which are arranged in series in a current path between two constant spaced connection parts of the switchgear. The vacuum switch tube is axially abge ^¬ based on one of the two connecting parts. The switch assembly further comprises a coaxially projecting from the vacuum interrupter, elongated guide body of the circuit breaker, the at least one sliding contact conductively connected to the guide body enclosing sleeve body in connection, and the separation distance to the opposite contact bridging feed of the moving contact in the course of the switching operation of the circuit breaker, which goes along with a corresponding linear displacement between the guide body and sleeve body. According to the invention of the associated end of Vaku ^¬ changeover tube projecting guide body is a separator bolt whose end is constantly held in a distance corresponding to at least the intended separation distance to the contact of the other connector part, wherein the separator bolt as a linear guide for a moving contact of the circuit breaker tra ^¬ ing Separator sleeve is formed. The basic idea of the invention is based on the consideration that only the space lying between the connecting parts is to be used for the switch arrangement by a separating contact sleeve carrying the moving contact being slidably guided along an associated separating bolt. Due to the telescopic interaction of the separator sleeve and the separator bolt, a compact design of the switch arrangement can be achieved in a simple manner. Also, the axial feed of the separator ^¬ bolt against the separator sleeve remains possible, which is required for the stroke of the vacuum interrupter.

A stable attachment of the separator bolt supporting vacuum interrupter is facilitated when mounted on the side of the fixed tubular bolt on the connector and its movable tubular bolt is connected to the splitter bolt.

Is the connection area between tube bolt and separator bolt a force application element, in particular a drive element, is ^¬ arranges for the displacement drive of the tubular bolt, it can accurately inserted and his mitbefestigt about Ver ^¬ binding agent of tube bolts and separator bolts. 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 ^embodied in a suitable manner as a drive element.

A functionally reliable sliding contact between the separator bolt and separator sleeve is achieved by means of at least one Ringfeder ^¬ contact between the outer periphery of the separator bolt and the inner circumference of the separator sleeve. If the separator sleeve is supported by a plurality of axially offset ring spring contacts with radial prestressing, they can serve as the sole friction or sliding surfaces of the separator sleeve during axial feed. A design which is particularly suitable for the spring-loaded contact is present when it has a circumferential helical spring winding in the form of a solid torus. In order to enable an automatic tolerance compensation in the axial direction, the end portion of the separator sleeve is tubular and carries on its inner circumference a radially resilient contact ring which encloses a cylindrical peripheral surface of the mating contact on the connection part with the circuit breaker closed. A lamella contact ring with a constricted, resilient middle region or a ring spring contact as a peripheral helical spring winding in the form of a solid torus has proven to be particularly suitable for the auftre ^¬ border loads.

If the separator bolt can be dimensioned sufficiently long, can be provided in the switch assembly in addition a grounding position of the separator sleeve on the release bolt. In this case, a ground contact ring may expediently be arranged at a radial distance from the separating bolt, which earth ring contacts in the grounding position with a corresponding contact ring of the separating sleeve. The contact ring of the separator sleeve can be preferably attached to the circumference of a radially projecting from the separator sleeve annular collar.

To disconnect the circuit breaker or earthing switch by means of a relatively slow but e.g. With regard to durability, it is advantageous to be able to actuate an advantageous "creeping drive", and the disconnecting sleeve can be assigned a drive independent of the switching drive of the vacuum interrupter.

The switch assembly according to the invention is particularly suitable for integration in cabinets, enclosures, containers or the like. suitable, since all movable components of the switch assembly are located between the end-side connecting parts. Thus, for the connection parts in each case a supporting wall bushing or the like can be provided. Due to the good integration ability containers with the switch assembly can easily and reliably seal, so that they are also highly suitable for known as such, gas-insulated container. Multipole switchgear can have several switch assemblies, which are housed together in a Isoliergasbehälter. In medium-voltage switchgear with such switch arrangements, the insulating gas container may 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 of an embodiment with reference to the figures of the drawings, wherein corresponding components are provided with the same reference numerals.

In the drawings show:

1 shows a central longitudinal section through a switch arrangement in a schematic principle representation,

2 shows a perspective single view of a Ringfeder ^¬ contact the switch assembly,

3 shows a perspective single view of a lamella contact ring and

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

A visible in Figure 1 switch assembly 1, in particular for switchgear, comprises as main components a vacuum ^¬ interrupter 2 and a circuit breaker 3 in a direct linear arrangement, which are coaxially held between two rotationally symmetrical connection parts 4 and 5. The consistent line- are arrangement is clearly visible due to the drawn central longitudinal axis ^¬ 6th Both connecting parts 4 and 5 pass through an associated recess in an indicated ceiling plate 7 or bottom plate 8 of a container 9 and are via conical threaded sleeves / bushings or the like on the passage opening bounding edge region of the ceiling plate 7 and bottom plate 8 axially braced or welded. As a result, the connecting parts 4 and 5 are fixed immovably in the distance shown from each other and form the

Passage from the interior of the container 9 to the outside. The connection parts 4 and 5 also each include a centrally extending within the same electrode, wherein the electrode of the connection part 4 is provided for connection to a conventional Stromomsammeienien and that of the connection part 5 for a conventional cable connection. The electrode of the connection part 4 protrudes downwards out of the lower threaded sleeve and is shaped into a mushroom-type contact 10, the head of which, when the end peripheral edges are rounded, has an approximately cylindrical peripheral surface.

In contrast, the opposite electrode of the connecting part 5 is only slightly out of the screw, lies with its fixed contact face flat on the opposite end of the vacuum interrupter 2 and is fixed and as inseparable connected to the fixed tubular bolt 11 of the same. On the upwardly directed Bewegkontaktseite the movable tubular bolt 12 protrudes from the vacuum interrupter 2 and engages with a cylindrical

End precisely fitting in a hole that is recessed as a blind hole from the end of a cylindrical separator pin 13. At a distance from this, 13 has the disconnector pin due to an increase its diameter a stepped section at whose annular end face, a precise fit slid onto the separator pin 13 force ^¬ engagement element, in particular a driving element 14, is axially supported. On the opposite end face, the force application element 14 is axially supported by means of a securing ring 15. The circlip 15 itself is axially positionally secured by means of a clamping pin 16 or rivet, since the clamping pin 16 mutually aligned mating holes in the circlip 15, the release bolt 13 and the tubular bolt 12th are interspersed. Via the tension pin 16 along with backup ring 15 of the moveable tube ^¬ bolt 12 is thus firmly connected to the disconnector pin 13 and the force applying member 14 is secured in position on the pin separator. 13 Thus, the vacuum interrupter 2 can be over the axial feed of the

Force application element 14 movable disconnector pin 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 of the contacts of the vacuum interrupter. 2

The separating bolt 13 extends from the Kraftangriffsele ^¬ ment 14 starting with a constant diameter under coaxial course on the contact 10 and ends in a distance provided for the intended distance to the contact 10, wherein the feed path SV of the vacuum interrupter 2 must be considered. In order to close the current path between the connecting parts 4 and 5, a separator sleeve 17 is slidably guided on the separating bolt 13, with which a conductive connection between the separating 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 an end region. On the inner circumference enclosing the separating bolt 13, the lower end region of the separating sleeve 17 is slidably guided over two annular spring contacts 19 which are arranged offset in the axial direction and which each lie in a circumferential annular groove of the separating sleeve 17 and are thereby supported axially on the separating sleeve 17. In the same manner the annular collar is from the outer circumference surface 18, an annular groove recessed in which a similar ring spring contact 'is maintained with appropriate ^¬ speaking larger diameter 19th

As can be seen in connection with Figure 2, the ring spring contact 19 or 19 'consists of a spring wire with circular ^¬ cross-section, which is wound similar to a coil spring and the spring ends to an endless wire with each other are connected. 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 spring ring contact 19 or 19 'but is dimensioned so 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 and 19 '. At its upper end, the separator sleeve 17 has a tubular shape, wherein on the inner circumference a blade contact ring 20 is attached to the separator sleeve 17. When the circuit breaker 3 is closed, the end area is pushed onto the contact 10, whereafter it surrounds the circumference of the contact 10 with radial resilient support via the slat contact ring 20.

In conjunction with the detailed representation according to FIG. 3 it 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 are distributed over the circumference of the contact ring 20 angeord ^¬ net, with their long narrow sides have only a small distance from each other. In the annular center plane of these cross blades lies on the inner peripheral side of a narrow circumferential central lamella, which leads to a central Ver ^¬ 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 of these transverse yokes each extend in an arrow shape, whereby they extend over a correspondingly enlarged peripheral portion of the blade contact ring 20. This design of the slat contact ring 20 ensures that due to the radial spring characteristic a permanently reliable Contact between contact 10 and separator sleeve 17 takes place when the circuit breaker 3 is closed.

From the upper end position, the separator sleeve 17 can be moved by means of a direction reversible actuator of known type, not shown, 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, the required separation distance is present. Beyond the OFF position, a grounding position of the separator sleeve 17 is provided at a distance below it, whereby the safety of the switch ^arrangement 1 is further improved. The displacement SE to the grounding position is determined by a Erdkontaktring 21 which is arranged at a corresponding distance to the OFF position in coordination with the diameter of the spring ring contact 19 'concentric with the separating bolt 13 and grounded. If the separator sleeve 17 is moved via said positioning drive into the grounding position drawn with dotted lines, the annular collar 18 penetrates into the hollow cross-section of the earth contact ring 21, after which the earth connection is established via the ring spring contact 19 '.

As shown in Figure 4, in a container 9 a plurality of substantially identical switch assemblies 1 z. B. are provided for three switching poles, which are accommodated compactly in the container 9 in the overall arrangement. In this illustration, it is also shown that the Erdkon- clock rings 21 can be easily positioned over a common hole ^¬ bottom 22 at the appropriate height. In addition, it is clear that the container 9 itself can be made compact and can hermetically seal easily due to the passages of the connecting parts 4 and 5. Thus, the container 9 is also highly suitable for the Isoliergasbefüllung with volatile insulating gases such as SF6. LIST OF REFERENCE NUMBERS

1 switch arrangement

2 vacuum interrupter 3 disconnector

4 connection part above

5 connector below

6 center longitudinal axis

7 ceiling plate 8 base plate

9 containers

10 contacts

11 tubular bolts immovable

12 tubular bolts movable 13 separating bolts

14 force application element

15 circlip

16 tension pin

17 Disconnector sleeve 18 collar

19 Ring spring contact (grinding) 19 'Ring spring contact (earthing)

20 slat contact ring

21 Earth contact ring 22 Hole bottom

SV switching path (vacuum interrupter)

ST switching path (ON - OFF)

SE switching path (earthing)

Claims

claims

A switch assembly (1) for a switchgear, comprising a vacuum interrupter (2) and a circuit breaker (3), which are arranged in a current path between two constantly spaced apart connection parts (4, 5) of the switchgear in series, wherein the vacuum interrupter (2) is axially supported on one of the two connecting parts (4 or 5), with a coaxially from the vacuum interrupter (2) projecting, elongated guide body of the circuit breaker (3) via at least one sliding contact (19) conductive with a Guide body enclosing sleeve body is in communication, and with the 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 sleeve body, characterized in that of the associated End of the vacuum interrupter (2) protruding guide body a separating bolt (13) whose end is constantly held in a distance corresponding at least to the intended separation distance to the contact (10) of the other connecting part (4), and that the separating bolt (13) serves as a linear guide for a moving contact of the disconnecting switch (3) carrying separator sleeve (17) is formed.

2. Switch arrangement according to claim 1, characterized in that the separating bolt (13) protrudes from the Bewegkontaktseite the vacuum interrupter (2) and is connected to the movable tubular bolt (12).

3. Switch arrangement according to claim 2, characterized in that on the separating bolt (13) in the connection region to the tubular bolt (12) a force application element (14) for the displacement drive of the tubular bolt (12) is arranged.

4. Switch arrangement according to one of claims 1 to 3, characterized in that the separator sleeve (17) is conductively connected to the separating bolt (13) via a ring spring contact (19, 19 ') in connection, between the outer periphery of the separating bolt (13) and the inner circumference of the separator sleeve (17) is arranged.

5. Switch arrangement according to claim 4, characterized in that the separator sleeve (17) via a plurality of ring spring contacts (19, 19) radially supported and slidably guided along the separating bolt (13).

6. Switch arrangement according to claim 4, characterized in that the ring spring contact (19, 19 ') is provided with a spring winding in torus form.

7. Switch arrangement according to one of claims 1 to 6, characterized in that the contact (10) of the connecting part (4) is enclosed at the circuit breaker (3) on its cylindrical peripheral surface of a contact ring, which on the inner circumference of a tubular end portion of the separator sleeve ( 17) is held.

8. Switch arrangement according to claim 7, characterized in that the contact ring is designed as a lamellar contact ring (20) or as a toroidal ring spring contact.

9. 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.

10. Switch arrangement according to claim 9, characterized in that a Erdkontaktring (21) is arranged at a radial distance from the separating bolt (13), which cooperates in the grounding position with a corresponding contact ring (19 ') of the separator sleeve (17).

11. 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.

12. Switch arrangement according to one of claims 1 to 11, characterized in that the separator sleeve (17) is associated with an independent drive from the switching drive of the vacuum interrupter (2).

13. Switch arrangement according to one of claims 1 to 12, characterized in that the switch arrangement (1) is housed in a Isoliergasbehälter (9).

14. Switch arrangement according to one of claims 1 to 13, characterized in that a plurality of switch assemblies (1, 1, 1) of a multi-pole switchgear in Isoliergasbehälter (9) are housed.

15. Switch arrangement according to claim 13 or 14, characterized in that as insulating for the switch assembly (1, 1, 1) in the insulating gas container (9) sulfur hexafluoride (SF6) is provided.

16. A multi-pole switchgear with at least one switch arrangement according to one of claims 1 to 15, which is housed in a Isoliergasbehälter (9).