DE29614714U1 - Connection module for a gas-insulated energy transmission system with tubular conductors - Google Patents

Description

GR 96 G 4114 DE

Description

Connection module for a gas-insulated power transmission system with tubular conductors
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The invention is in the field of energy distribution and is to be used in the structural design of energy transmission systems in which a tubular inner conductor is arranged in a tubular outer conductor by means of insulating spacers and in which two straight sections of such a system are to be connected to one another. The invention is specifically concerned with the structural design of a component for connecting two such sections.

In known energy transmission systems, two sections are connected using a disk-shaped support insulator, which is provided with a central through-hole for axially and radially fixing a connecting piece for the tubular inner conductor and which is axially fixed to the tubular outer conductor with its outer edge area. The fixing to the outer conductor is done by clamping between two connecting flanges (US 3,372,226 A, EP 0 660 479 A1). Another known design, on the other hand, provides a welded connection for the outer conductors; as a result, the disk-shaped support insulator is in principle axially fixed to the weld pool retainer, which in turn is welded to the outer conductor (US 4,550,219). The connecting piece for the inner conductor consists in one case of two contact pieces connected to one another, which are designed like a head with flat cover surfaces and are rotationally symmetrical to the axis of the tubular inner conductor and lie axially on the edge area of the feedthrough hole of the post insulator and are provided with a hollow cylindrical neck part which is used to place the ends of the

GR 96 G 4114 DE

connecting inner conductor has a reduced diameter (US 3,372,226 A). In the other case, the support insulator with its through-hole comprises a tubular shielding electrode in which a tubular plug contact that can be contacted at both ends is fixed; the ends of the inner conductors to be connected are designed as plug sockets and are plugged onto the plug contact on both sides (US 4,550,219 A).

For energy transmission systems with tubular conductors, a connection point is also known which is designed as a fixed point for one of the inner conductors to be connected and in which the connecting piece for the inner conductors consists of two parts which are designed as control electrodes and are clamped with the electrode-shaped areas against a flange in the area of the feedthrough hole of the support insulator. One part of the connecting piece is welded to the adjacent inner conductor, the other part is designed as a socket for the end of the other inner conductor which serves as a plug contact (EP 0 660 479 Al).

When erecting gas-insulated pipeline systems of greater length (several kilometers), it may be sensible, due to the routing, to reverse the sequence of fixed contact at one end and axially movable contact at the other end intended for the inner conductor of the individual prefabricated pipeline sections (10 to 20 m long) at certain points along the route. In order to support the variability required when laying the pipeline system, the invention is based on the task of creating a suitable component for this purpose that also meets high-voltage requirements (420 kV and more).

Starting from a module for connecting two sections of a gas-insulated pipe system with the characteristics

GR 96 G 4114 DE

According to the preamble of claim 1, in order to solve the problem mentioned, the support insulator is provided with a short ring flange on each side in the area of the feedthrough hole and the respective head-like contact piece projects axially over these ring flanges, the head-like contact pieces being designed as control electrodes in the area projecting over the ring flanges; it is further provided that the hollow cylindrical neck parts of the head-like contact pieces are tubular and form the plug contact of a connector and that two ring electrodes fixed to a section of the outer conductor are assigned to the support insulator on both sides of the outer edge area, the axial length of this section of the outer conductor being shorter than the axial length of the two head-like contact pieces.

Such a module, like the other prefabricated sections of a pipe conductor system, has an inner conductor, a spacer and an outer conductor, and can be inserted between two prefabricated sections of the pipe conductor system without any adjustment measures to reverse the sequence of fixed contact and sliding contact. The axial length of the outer conductor section of this module must be adjusted to the stroke that the sockets of the adjacent inner conductor sections can make on the plug contacts of the head-like contact pieces. - Furthermore, the measure of providing the post insulator with a short ring flange on both sides in the area of the feed-through hole enables the head-like contact pieces to be designed as control electrodes in a way that satisfies high-voltage requirements; for this purpose, the area of each head-like contact piece designed as a control electrode expediently has a nose-like projection in cross-section that axially overlaps the respective ring flange of the post insulator. This measure is used in the

GR 96 G 4114 DE

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The course of the electric field is optimized in the area of the joint between the support insulator and the head-like contact pieces

For mechanical and electrical reasons, it has proven to be useful to design disk-shaped support insulators of gas-insulated pipe conductor systems in a conical or bowl-shaped manner. The resulting changes in the electrical field pattern in the area of a support insulator are appropriately taken into account in the present case by making the outside diameter of the head-like area of one contact piece surrounded by the support insulator smaller than the outside diameter of the head-like area of the other contact piece.

The outer conductor section of the new component can be designed at the ends either for a welded connection with the adjoining pipe sections or for a flange connection.

An embodiment of the new connection module is shown in the figure in longitudinal section.

The connection module 1 basically consists of the three elements outer conductor section 2 with the length L, bowl-shaped, gas-permeable support insulator 3 and inner conductor section 4 with the length 1 with the head-like contact pieces and 51.

Two ring electrodes 31 and 32 are assigned to the outer edge of the support insulator 3, which are connected gas-tight to the outer conductor section 2 by means of hole welds 33. To accommodate the inner conductor section 4, the support insulator 3 has a through-hole 34, which is provided with ring flanges 35 and 36 on both sides. The two head-like contact pieces 41 and 51 are axially and radially inserted into the through-hole 34.

GR 96 G 4114 DB

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dial and are connected to one another in a force-locking manner by means of a screw connection 58. In order to create a good electrical transition, the head part 51 is provided with a short cylindrical projection 52 in the area of its cover surface, which extends through the feedthrough hole 34. The cylindrical projection 52 axially touches the cover surface of the head-like contact piece 41 in the area of a flat recess 43, whereby the required electrical contact between the two contact pieces 41 and 51 is ensured.

The cover surface 53 of the contact piece 51 and the corresponding cover surface of the contact piece 41 also lie axially against the support insulator 3, in the area of the two ring-shaped flanges 35 and 36. Sealing rings (not specified in more detail) are arranged in the area of these flanges. The flanges 35 and 36 create a space that enables the two head-like contact pieces 41 and 51 to be designed as control electrodes 42 and 54 at the edge of their cover surface. In addition to a rounding in this edge area, a nose-like projection in cross-section is provided, with which the control electrodes 42 and 54 axially overlap the two ring flanges 35 and 36. The contact pieces 41 and 51 are dimensioned so that they project radially beyond the ring flanges 35 and 36.

The head-like contact piece 41 is surrounded by the bowl-shaped area of the insulator 3. In this area, the head-like contact piece 41 has a cylindrical area 44 adjacent to the control electrode 42, to which the tubular neck part 45, which is reduced in diameter, is connected and serves as a plug contact of a connector for connection to the adjacent inner conductor sections.

GR 96 G 4114 DE

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The head-like contact piece 51 is provided with a slightly conical section 55 adjacent to the control electrode 54, to which a rounded area 56 is connected for transition to the tubular neck part 57. The neck part 57 also serves as a plug contact of a connector for connection to the adjacent inner conductor section. - Since the area of the head-like contact piece 41 designed as a control electrode 42 lies within the insulator 3, the outer diameter of this area is selected to be smaller than the outer diameter of the area of the head-like contact piece 51 also designed as a control electrode 54.

The axial length 1 of the head-like contact pieces 41 and 51 arranged one behind the other exceeds the axial length L of the outer conductor section 2. This is necessary in order to be able to place the respective inner conductor securely on the respective contact piece when connecting to the adjoining, prefabricated tubular conductor sections, as shown in the right-hand part of the figure with regard to the assembly position A, the zero position B and the maximum end position C of the corresponding mating contact socket 58.

Claims (3)

GR 96 G 4114 DE #ii Protection claims 1. Component for connecting two sections of a gas-insulated energy transmission system with a tubular inner conductor and a tubular outer conductor arranged concentrically to the inner conductor, which has a disk-shaped support insulator axially fixed to the outer conductor and two contact pieces axially and radially fixed and connected to one another in the area of a central feed-through hole of the support insulator for connecting the two inner conductors, wherein the contact pieces are designed like heads with flat cover surfaces and are rotationally symmetrical to the axis of the tubular inner conductor and lie axially on the edge area of the feedthrough hole of the support insulator and are provided with a hollow cylindrical neck part which has a reduced diameter for placing the ends of the inner conductors to be connected,
characterized, that the support insulator (3) is provided with a short ring flange (35,36) on each side in the area of the feedthrough hole (34) and these ring flanges are axially projected over by the respective head-like contact piece (41,51), the head-like contact pieces (41,51) being designed as control electrodes (42,54) in the area projecting over the ring flanges, that the hollow cylindrical neck parts (45,57) of the head-like contact pieces are tubular and form the plug contact of a connector
and that the support insulator (3) is assigned two ring electrodes (31, 32) fixed to a section of the outer conductor (2) on both sides of the outer edge region, the axial length (L) of this section (2) of the outer conductor being shorter than the axial length (1) of the two head-like contact pieces (41, 51). GR 96 G 4114 DE ,„ , „„„ 2. Connection module according to claim 1, characterized in that the area of each head-like contact piece (41,51) designed as a control electrode (42,54) has a nose-like projection in cross-section which axially overlaps the respective ring flange (35,36) of the support insulator (3). 3. Connection module according to claim 1 or 2, characterized in that the disk-shaped support insulator (3) is conical or bowl-shaped, the outer diameter of the head-like region (42) of one contact piece (41) surrounded by the support insulator being smaller than the outer diameter of the head-like region (54) of the other contact piece (51).