DE2360070A1 - HIGH VOLTAGE DEVICE - Google Patents

Description

The invention relates to a high-voltage device with a Live component that is enclosed by an encapsulation and supported against the encapsulation with insulation bodies. is, with a gas under pressure as insulation inside the Encapsulation and with reinforcements both on the outer wall of the enclosure and on the live component in one Area that is exposed to a standing arc fault in the event of faults is, wherein the live component for reinforcement consists partially of a material whose erosion resistance is greater than that of the rest of the material for the live component according to the main patent ... (patent application P 23 07 195.6).

In the main patent ... (patent application P 23 07 195.6) a high-voltage device is described in which reinforcements both on the encapsulation and on the live component of an encapsulated, gas-insulated line are provided in order to increase their strength in the event of arcing faults. The reinforcements in an area in the standing arcing faults can occur, the burn-up of the encapsulation and the live component becomes so far reduced that a burning through of the encapsulation or also the walls of the live component over the longest expected arc time is prevented. There you can also find the statement that when using factory

50982A / 0080 " ² "

236007Q

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substances that have a high melting point and therefore a, large one Have erosion resistance, the mentioned arc fault resistance can already be achieved with wall thicknesses that are economical are justifiable. With the previously known, more erosion-resistant materials for the area of standing arcing faults however, this is not an economical solution that allows these materials to be used even for longer pipelines would have known.

The task is to create a burn-resistant intermediate piece for the live part in the area in which it is standing Arc faults can occur, which is economical to manufacture and even with longer pipelines Allows assembly of these lines.

In the case of a high-voltage facility, the task becomes the one input mentioned type according to the invention solved in that to reinforce a structure consisting essentially of aluminum tubes live component, a copper pipe is provided as an intermediate piece, which is connected to. its ends with one each Aluminum disc is designed as a structural unit. The use of a copper spacer in an essentially aluminum tube Existing live component offers the possibility of increasing the erosion resistance in this area. To enable both an electrically conductive and a mechanically durable connection between these two pipe sections Placing an aluminum disc in between offers a particular advantage. By constructing separate Structural units make it possible to eliminate the problems of the copper-aluminum connection when assembling a longer pipeline to relocate well-equipped workshops. All that is needed at the installation site is a technically uncomplicated aluminum-aluminum Welded connection to be made.

The connection between copper tube and aluminum disks is preferred be made by means of a friction weld. Pure the connection of the copper pipe with the aluminum

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Discs, a friction-welded connection offers particular advantages. A silver interlayer is used to create this connection applied to the end faces of the copper pipe. The aluminum washer or the copper tube are then inserted into a Brought rotational movement and pressed onto the other stationary part in the rotating state. This creates an electrical Very good conductive but also mechanically durable connection between copper and aluminum. This connection is also between aluminum and steel or another, more erosion-resistant material than aluminum is possible. .

The invention is illustrated below using an exemplary embodiment , explained in more detail.

The drawing shows a section of a live component 1 of an encapsulated, gas-insulated high voltage device, for example a pipeline or a switchgear. In the figure, the outer wall of the encapsulation. · However, a section of an insulating body .3 can be seen, by means of which the live Component 1 is supported against the encapsulation, not shown. Experience has shown that there are standing arcing faults in the event of malfunctions only in the area of these post insulators 3. In the remaining area between the individual Post insulators 3 will wander the Störliehtbögen, solary until they have reached a post insulator. In the area of this post insulator 3 is now a reinforcement of the Inner conductor 1 by using a more erosion-resistant material 2 made. While the inner conductor 1 consists essentially of an aluminum tube, which is shown here in section is, is, is as a material for the more erosion-resistant Intermediate piece copper 2 selected. Instead of the copper, however, the use of a steel intermediate piece is also conceivable. On this one Copper intermediate piece 2, the post insulator 3 is now supported via a control electrode 4. The entire arrangement is rotationally symmetrical to the axis 6.

509824 / ÖOßO " ⁴ "

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In the figure, a solution is shown, "in which the copper spacer 2 is fixed at its ends 9 with aluminum disks, of which at least for manufacturing reasons one is perforated. This copper spacer 2 is with the Aluminum disks 7 connected, delivered as a structural unit to the installation site, the copper-aluminum connection, which as Friction welded connection is carried out, is relocated to workshops that are equipped for it. Must be at the installation site now only an aluminum-aluminum welded joint 8 can be produced, but this is not particularly technical Problem.

It was thus a more erosion-resistant adapter for the Inner conductor found that can be used in areas where standing Störliohtbogen occur, on the one hand can be produced economically and, on the other hand, can easily be installed at the installation site.

1 figure

2 claims

509824/0060

Claims (2)

- 5 - VPA 73/3344 Claims 1J high-voltage device with a live component, which is enclosed by an encapsulation and supported against the encapsulation with insulating bodies, with a gas under pressure as insulation inside the enclosure and with reinforcements on both the outer wall of the enclosure and also on the live component in an area that is exposed to an internal arc in the event of faults, wherein the live component for reinforcement consists partly of a material whose erosion resistance is greater than that of the rest of the material for the live component according to the patent ... '(patent application P 23 07 195.6), characterized in that to reinforce a material consisting essentially of aluminum tubes live component (1) a copper tube (2) is provided as an intermediate piece, which at its ends (9) with each an "aluminum disc (7) is designed as a structural unit. 2. High-voltage device according to claim 1, characterized in that that the connection between the copper pipe (2) and aluminum disks (7) by means of a friction weld (9) is established. 509824/0060 Blank page