DE466635C - Circuit for feeding two or more mercury vapor rectifier groups working in parallel using a transformer shared by all groups - Google Patents

Description

Circuit for feeding two or more working in parallel Mercury vapor rectifier groups using a common to all groups Transformer It is a circuit for two or more mercury vapor rectifiers working in parallel or equivalent facilities, which of special secondary windings a common transformer are fed, it has become known at which the anodes of the rectifier in such a way to the individual parts of the special secondary windings are connected that the secondary winding parts that are simultaneously current-carrying in their entirety evenly distributed over the entire primary winding are that a perfect compensation of the primary ampere turns takes place. This circuit is used to make the power consumption of the rectifier evenly, by using one of the rectifiers supplied to compensate for a lower current consumption the primary ampere turns through the associated secondary windings and the resulting stray field in the transformer increases the voltage on the fully working rectifiers decreased while the voltage on the rectifier is increased with reduced power consumption. The advantage. the uniform power consumption there is only the disadvantage that one, without the operation of the other rectifier to disturb, none of the rectifiers can switch off; because it is according to what has been said clear that this is a large voltage drop for the remaining rectifiers would result. In order to get a larger number of rectifiers working in parallel To make their partial connection and disconnection possible, one has up to now the rectifier arranged in groups and each group in the manner specified above by a special one Transformer powered off. The rectifiers were then assigned or in groups switched off, and the number of transformers was then equal to the number of rectifier groups.

The number of transformers can now be increased by a special Arrangement of the windings on a transformer common to all groups avoid. The invention accordingly provides a circuit for feeding two or more mercury vapor rectifier groups working in parallel Use of a transformer common to all groups in which everyone Group is assigned a special primary winding and all primary windings the legs de. "Transformer arranged side by side and parallel to -das Primary network are connected, with the secondary windings, which, the rectifier feed a group that is opposed to the associated primary winding of the type, that in a manner known per se, the secondary parts carrying current at the same time everyone Group in its entirety over the associated primary winding evenly, namely are distributed so that a perfect compensation of the primary ampere-turns takes place.

An embodiment of the invention is shown in the drawing. The rectifiers G 1 and G2 form one, the rectifiers G3 and G4 the other Group, and the first group is the primary winding P1, the second the primary winding P, assigned to the transformer T. The primary windings P 1 and P2 are parallel switched and are fed via the main switch H from the primary network NW. the Both primary windings are next to each other on the iron core of the transformer Z @. Each primary winding are now compared to secondary windings, which are the Feed the rectifier of the group concerned. The secondary windings are thus the winding PI Q, and Q2, on the other hand, the winding P: the secondary windings Q, and Q, opposite. the Centers of the secondary windings are all through the connections 0, OZ with each other and with the - conductor of the direct current network N, connected. The free Ends of the secondary windings Q1 and Q2 are connected to the double switch S1, 2 The anodes A, A2 of the rectifier group G1 and G, occas = t, are also the free ones Ends of the secondary windings Q3 and Q, via the double switch S3, 4 with the anodes A3, A4 connected to the rectifier group G3, G4. The cathodes K "K2 and Kg, K4 are connected in pairs and connected to the + conductor via switches Z1 or Z @ of the direct current network.

As can be seen from the figure, the secondary windings are each Group arranged in such a way that the simultaneously current-carrying parts are on the evenly distribute the entire length of the associated primary winding so that the primary Ampere turns% except for the relatively low one, the magnetization and the losses opaque remainder are compensated. This circuit now allows the easily Disconnection (or connection) of a group without the other group in any way is thereby adversely affected. Are z. B. the switches S ,, 2 and Z, open, then flows into P ,. no more working current, while the winding P2 continues to full Working current leads. The windings Q3 and Q4 also feed the rectifiers G3 and G4 continue undisturbed. So there is an independence of the rectifier groups here achieved from each other while maintaining the even distribution of the current the rectifiers within each group and using only one for all Groups of communal transformer.

Claims (1)

PATENT CLAIM: Circuit for feeding two or more in parallel working mercury vapor rectifier groups using one of all groups common draining transformer, with each group having a special primary winding is assigned and the secondary windings feeding the rectifiers of a group face their associated primary winding in such a way that the simultaneously current-carrying Secondary winding parts of each group in their entirety via the associated primary winding evenly distributed in such a way that a perfect compensation of the primary Ampere turns takes place, characterized in that all primary windings on the legs of the transformer arranged side by side and parallel to the primary network are connected.