DE1800667A1 - Outdoor implementation with pressurized gas filling for maximum voltage - Google Patents

Description

Open-air bushing with pressurized gas filling for maximum voltage There are Pressurized gas-insulated bushings have become known in which the potential control electrodes or the holding members of which are cast in a cast resin body.

The cast resin surface is the familiar one for outdoor installation Pressurized gas-insulated controlled feedthroughs are only suitable to a limited extent because they are organic Fabrics are not yet permanently weather-resistant under extreme climatic conditions are. About the operational safety in outdoor high voltage systems under all circumstances To ensure that the jacket of the bushings is exposed to the weather generally made of ceramic material.

Uncontrolled bushings housed in a porcelain casing require dimensions that are too large and are therefore unsuitable for maximum voltages.

To encapsulated, pressurized gas-insulated high-voltage switchgear with To economically connect an overhead line is a controlled implementation with a weatherproof surface is essential. The overall height of an inexpensive individual Porcelain body is limited in terms of production, and it must therefore for Extra high voltages multi-part insulator sheaths are used.

The object of the invention is to create a particularly advantageous one Execution of an outdoor bushing with potential control taking into account the given optimal possibilities in the production of porcelain.

The invention relates to an open-air bushing with pressurized gas filling for maximum voltage with multi-part, ceramic jacket and built-in control electrodes, the inter-potential control electrodes by means of between adjacent parts the jacket are held gas-tight clamped ring disks.

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

Fig. 1 shows the pressurized gas-insulated bushing in section. In Fig. 2 the details of a separation point of the multi-part porcelain jacket are shown.

The cylindrical isolator parts suitable for outdoor installation are designated in Fig. 1 with 1, 2 and 3 and form the outer jacket of the implementation. The insulator parts 1, 2 and 3 are connected to one another in a gas-tight manner. Located above a gas-tight seal 4 of the implementation.

Below is the implementation with the grounded enclosure 5 of the not connected system. The electrical connection between the connecting bolt 6 and the interior of the encapsulated system is carried out through a tubular conductor 7. This conductor is held by a disk-shaped insulating body 8. To the tubular conductor 7 are the concentrically arranged intermediate potential control electrodes 9 and lo. The geometric shape and the position of the control electrodes 9 and lo are chosen in a known manner so that the potential distribution on the surface of the Implementation is approximately linear. The potentials of the individual electrodes are for example distributed as follows: advanced earth electrode 11,, '; Control electrode lo, 33 °, 0; Control electrode 9, 66 A and the high-voltage tubular conductor 7, loo, 0. About the electrical stress on the edges of the control and earth electrodes 9, lo and 11 to be kept within the permissible range, they are to be kept by circular rings 12, 13, 149 15 and 16 completed. The control electrodes 9 and lo are for pinching between the partial insulators consisting of annular disks holding devices 17 and 18 attached, which provides a reliable attachment between the. Isolators 1,2 and 2.3 allow.

The partial insulators 1, 2 and 3 are shown in FIG. 2 in a known manner With the help of e.g. clamping claws 19 and 19 'and screws 20 connected to one another. the Seals 21 and 21 'are located between the insulators and the washer.

Publications considered: Swiss patent specification No. 396 123 "" "389 706

Claims (1)

P a t e n t a n s p r u c h: Outdoor bushing with pressurized gas filling for high voltage, with multi-part, ceramic jacket and built-in control electrodes, characterized in that the intermediate potential control electrodes (9, 10) by means of annular disks clamped gas-tight between adjacent parts of the casing (1, 2, 3) (17, 18) are supported.