DE506658C - High-voltage transformer consisting of link transformers, especially instrument transformers - Google Patents

Description

High-voltage transformer consisting of link transformers, in particular meßwandler It is already known when consisting of individual link transformers High voltage transformer, the overcoupling windings via auxiliary transformers connect to. The auxiliary transformers have the function of isolation transformers, thus take over the potential difference of the overcoupling winding compared to the actual one High voltage winding on the respective links.

The invention is based on the idea that it starts with a individual link transformers existing high-voltage transformer disadvantageous is the correction of the magnitude and direction of the voltage vector on the main windings to make yourself. The windings are impregnated and it is therefore inexpedient to the finished bobbins for the purpose of changing the voltage vector after installation to tear open again in the high-voltage transformer, so that an expansion of the bobbin and another impregnation is required.

This drawback is remedied according to the invention in that at least one of the known auxiliary transformers as Korr ektionstransformato, r Is used. For this purpose, its windings are tapped and so distributed over the iron core that different translations and couplings are adjustable. It is also possible to add variable resistance and self-induction the desired change in size and position of the voltage vector.

In Fig. I is a high-voltage transformer made up of link transformers and in Fig. 2 and 3 the correction transformer itself is shown.

According to Fig. I, the high-voltage transformer consists of three link transformers 1i, 12, 13, the primary windings 14, 15, 16 of which are connected in series. The secondary windings. 1 7, 1 8 of the members ii, 12 are with the. Auxiliary primaries i9, 2o of the members 12, 13 connected via the correction transformers 21, 22. The measuring instrument V, for example, is connected to the secondary winding 23 of the link transformer 13. As indicated in the drawing, one winding of the correction transformers 2i, 22 is variable in its number of turns, which is illustrated by the sliding contact.

Fig. 2 shows the correction transformer as such, in which the The possibility of changing translation and coupling ratios is manifold. The two windings 24, 25 are on the upper half of the ring-shaped iron core 26 wound directly next to each other, while their ends: 27, 2ä on the respective Quadrants of the lower half are further wound. The taps enable the most diverse translation, saturation and coupling ratios depending on Connection of the primary and secondary lines 29, 30.

In Fig. 3, a correction transformer is shown, the secondary winding 25 is provided with appropriate taps. A variable ohmic resistor 31 and a self-induction 32, possibly also variable, are connected to the taps. With this per se known device, the voltage and error + angle occurring during the operation of transformers or voltage converters can be changed in a manner known per se, so that, for. B. With the voltage converter, the desired voltage `` sector '', size and direction can be set.

Claims (3)

PATENT CLAIMS: i. High voltage consisting of link transformers Stzansformator, especially transducers with connected over llilfstransformatoren Overcoupling windings, characterized by the use of at least one auxiliary transformer as a correction transformer for those caused by the individual link transformers Voltage and angle errors. 2. High-voltage transformer according to claim i, characterized characterized in that the windings of the correction transformer with taps and are distributed over the iron core in such a way that different saturations, Translations and couplings. are adjustable. 3. High voltage transformer after Claims i and 2, characterized in that a change is made to the correction transformer the size and position of the stress vector by adding variable Ohmic resistance and self-induction is brought about.