DE1285044B - High voltage electrical switchgear - Google Patents

Description

The invention relates to an electrical high-voltage switchgear with a tight encapsulation containing an insulating agent between two encapsulation parts has an intermediate piece that can move within certain limits enables the encapsulation parts against each other.

From the German utility model 1898 966 is an electrical high-voltage switchgear known, which has a tight encapsulation. The encapsulation contains as an isolating agent sulfur hexafluoride for the high-voltage parts it encloses. Since it is made of metal, which is known to expand when the temperature rises, is to absorb so-called longitudinal expansion, d. H. Elongations in the direction of the Head axis, a rubber intermediate piece is provided between two encapsulation parts, the is attached to the flanges of the encapsulation parts with two metal plates. So that The intermediate piece does not have to take on any forces occurring transversely to the longitudinal axis ensured by guide pins in the flanges that only longitudinal movements of the Encapsulation parts can be carried out against each other. Otherwise it is known Intermediate piece only suitable for moderate gas pressures as it does not absorb large forces can.

From the German Auslegeschriften 1170 501 and 1181300 it is known to provide a ball joint at the junction of two busbar sections of the busbar of a metal-encapsulated high-voltage switchgear. However, the two parts of the ball joint are made of insulating material. The metal encapsulation is formed in this area by a metal bellows surrounding the ball joint.

Also from British patent specification 455 291 is an adapter Known with a ball joint, which is made of metal, but for articulated mounting of the conductor encased by a solid insulating material, but not for encapsulation. The mobility of the encapsulation parts to be connected in the longitudinal and transverse direction is achieved, however, by flexible metal parts at both ends of the connector.

Furthermore, several high-voltage switchgear have become known in which a flexible intermediate piece is provided between two encapsulation parts, which allows movements of the encapsulation parts against each other both longitudinally and transversely to the axis of the intermediate piece within certain limits. A lateral deflection of the axes of the encapsulation parts to be connected by a certain angle or a lateral offset is possible (British patent 393 930, Austrian patent 126 917, USA patents 1753 219, 1879 000, 2 047 000). However, these known resilient intermediate pieces must have appropriate material thicknesses for higher pressures, with the result that the mobility is then inhibited and only small deflections are possible. The invention is therefore based on the object of creating an intermediate piece for the encapsulation of a high-voltage switchgear, which can also be used at any high gas pressures of the insulating agent and which does not hinder the relatively large mobility of the encapsulation parts against one another.

This object is achieved according to the invention in that the intermediate piece consists of a rigid body that is attached at both ends with the help of ball joints is mounted on the encapsulation parts, and that one end of the rigid body rests in a slide bearing carried by the one ball bearing. This gives you an arrangement that does not impose any limit on overprints because of the rigid body, for example, as a cylindrical tube at least for the same Pressure can be measured like the encapsulation itself. But above all, the storage results of the intermediate piece with the help of ball joints and the one for absorbing longitudinal expansion additionally provided sliding support of one end of the intermediate piece a much greater freedom of movement.

In the case of systems with gas insulation in particular, it is advisable to use in the area of the bearing surfaces to provide seals that are inserted into the grooves of the bearing surfaces are as known per se from British patent specification 455,291. As seals come z. B .. the known O-rings in question. It is also useful if in also known from the aforementioned British patent the The hollow ball of the ball joint is divided and the groove is in connection with the parting line stands. It then does not need to be pierced in a special operation, but can also be produced when machining the boundary surfaces of the butt joints will.

In the event that the intermediate piece according to the invention in one place the system is used where a gas-tight partition is desired, can the arrangement is made so that the rigid body contains a connecting conductor, the one that closes off the space between the connecting conductor and the rigid body Insulating part is worn, as is known per se from the Swiss patent 389 742 and British patent specification 292 679. The connecting conductor locks then together with the insulating part, the interior of the intermediate piece, so that the desired gas-tight closure is created. It is also advantageous when, as out known from British patent specification 455 291 between the connection conductor and the subsequent conductor pieces contact pieces are provided, the joint-like Allow movements.

Similar coupling contact pieces, but only one per spacer, can you can use it in the event that there is no special conductor inside the intermediate piece is provided. In this case, the coupling contact piece connects in the area of the intermediate piece the two adjoining conductors of the high-voltage switchgear.

The hollow spherical surfaces of the fixed ball joint parts can through Circular conical surfaces are replaced, which approximate the shape of the joint ball and with this form circular lines of contact.

The invention is described below with reference to two in the drawing illustrated embodiments explained in more detail.

In Fig. 1 is a junction of two encapsulation parts Compressed gas-insulated high-voltage switchgear drawn in a section. How to can be seen, the encapsulation is formed by two grounded metal containers 1 and 2. The containers can e.g. B. be cylindrical tubes, one not shown in detail High voltage conductor, e.g. B. the rectilinear piece of a busbar, concentric surround. In the exemplary embodiment, they are filled with sulfur hexafluoride (SF6), which has a pressure of 3 at. The container 1, 2 can Reason for tolerances in production and assembly, possibly also because of different ones Warming, adopt different positions at the junction, such as in FIG. 1 is indicated by the lateral deflection by the amount a. These The deflection is absorbed by the metal tube serving as a rigid body 5, which is mounted at both ends with the help of ball bearings 6 and 7 on the encapsulation parts is.

The rigid body 5 is at one end with a ring 10 with spherical Outer surface 11 connected at 12 by welding. The ring 10 rests with the spherical surface 11 in a corresponding annular section of a hollow spherical surface 13, which is formed by a flange 15 connected to the container 1 and a ring 16. The ring 16 is screwed to the flange 15 at 17. By a seal 20, the is inserted into a groove 21 of the ring 10, is the ball gap of the ball joint sealed.

The other end of the rigid body 5 is held in a cylindrical bore of a ring 22 in the manner of a plain bearing 23 which can accommodate longitudinal movements. The required tightness is ensured at this point by the seal 25 located in a groove 24. The ring 22 has a spherical surface 27 on its outside, which likewise rests in a hollow sphere 26. This is composed of a flange 28, which is welded to the container 2, and a ring 30 screwed to the flange 28 at 29. A seal 31 in a groove 32 also ensures the desired gas tightness in the area of the ball bearing 7. In contrast to the ball bearing 6, however, the groove is provided in the fixed part. It is combined with the parting line 33 between the parts 28, 30 so that it can be processed with the abutting surfaces in one operation.

As mentioned, the high voltage conductors in FIG. 1 not shown. You can see the line z. B. imagine that one in the container 1 and one in the container 2 supported conductor piece inside the rigid body 5 by a Movements permitting coupling contact piece are connected to one another. It can but also, as known from US Pat. No. 1,879,000, flexible conductors are used in order to obtain mobility of the conductor at the connection point, which corresponds to the mobility of the encapsulation parts connected by the intermediate piece.

In the case of the one shown in FIG. 2, an insulating material part 36 made of cast resin is arranged in a gas-tight manner inside the metal tube serving as a rigid body 5 and carries a tubular connecting conductor 37, the inside of which is also sealed gas-tight by a welded plate 38. This creates a gas-tight partition in the area of the intermediate piece, which enables the encapsulation to be partitioned into individual areas. The two conductors 40 and 41 of the container are provided with balls 42 and 43, respectively, at their free ends. These cooperate with contact lamellas obtained by slitting the ends 45 and 46 of the tubular connecting conductor 37.

The rigid body 5 is in this case just like that in F i G. 1 drawn embodiment with two ball joints mounted as a whole denoted by 6 and 7 and as in the exemplary embodiment according to FIG. 1 trained are.

The formation of the hollow spherical surfaces as circular conical surfaces, which approximate the shape of the joint ball, enables cheaper production without significant loss of mobility and tightness, as shown in FIG. 1 from the concern the surfaces 26 and 27 can be seen.

Claims (5)

Claims: 1. Electrical high-voltage switchgear with a tight encapsulation containing an isolating agent between two encapsulation parts has an intermediate piece that can move within certain limits of the encapsulation parts against each other allows d a d u r c h g e - indicates that the intermediate piece consists of a rigid body (5), which at both ends with Is supported by ball joints (6, 7) on the encapsulation parts (1, 2), and that one end of the rigid body (5) in one of the ball bearings (7) supported slide bearing (23) rests. 2. Electrical high-voltage switchgear according to claim 1, characterized in that in the area of the bearing surfaces (6, 7, 23) seals are provided, which are used in grooves of the bearing surfaces. 3. Electrical high-voltage switchgear according to claim 2, characterized in that the hollow ball of the ball joint is divided and that the groove (31 ) is in communication with the parting line (33). 4. Electrical high-voltage switchgear according to one of claims 1 to 3, characterized characterized in that the rigid body (5) contains a connecting conductor (37), the one that closes off the space between the connecting conductor and the rigid body Isolierstoffteil (36) is worn. 5. Electrical high-voltage switchgear according to claim 4, characterized in that coupling contact pieces (42, 45; 43, 46) are provided between the connecting conductor (37) and the adjoining conductor pieces (40, 41) , which allow joint-like movements.