DE237612C - - Google Patents

Description

PATENT OFFICE.

PATENT LETTERING

CLASS 21 c. GROUP

FRITZ KESSELRING in NEUHAUSEN, Switzerland.

connected electricity consumers.

Patented in the German Empire on August 23, 1910.

While it is desirable, on the one hand, to increase the voltage in networks for the distribution of electrical energy (e.g. local networks) as high as possible in order to reduce the system costs, on the other hand, for some purposes, such as supplying metal filament lamps, arc lamps, signal systems, a • proportional low voltage desirable.

ίο This resulted in use of AC power of single-, double- and multi-coil transformers. It is useless for the purpose of reduction Effort, as is known, is desirable, including the primary winding of the transformer switch off as soon as all power consumers fed by the secondary winding are switched off. It is also desirable that this disconnection of the primary winding simultaneously with the disconnection of the last power consumer goes on without the operator's attention is used for this purpose. Finally, any electricity consumer should have both switched on first and switched off last.

In a known circuit that meets these requirements except for one, the two Supply lines via terminals to the transformer on the one hand and to switches in the on the other Primary circuits out to which switches are coordinated in the secondary circuits, which the electricity consumers have to turn it on and off. To switch a power consumer on or off, both coordinated switches must be moved.

In order to limit these two switching operations to a single one and so at the same time from the Attention of the operator to become independent was suggested, two at a time mechanically coupling coordinated switches to one another, d. H. to a double switch too unite. This circuit can be used for one-, two- and multi-coil transformers. With single-coil transformers (also voltage reducers or called autotransformers) the whole transformer winding can be divided into several departments, which supply the secondary voltage to the various groups of electricity consumers, so that in this case no reinforcement of the wire cross-section for the secondary winding is necessary. , '

However, this arrangement now requires four leads and also expensive double switches. The additional costs compared to an installation without voltage reduction are therefore quite considerable, and this should be the case The reason is that this arrangement could not find wider distribution ..

The circuit arrangement forming the subject of the invention has compared to the known Circuit very significant advantages by having only three leads and instead of the expensive double switches only simple switches are required. .

Fig. Ι and 1a of the drawing show both. for example, initially two versions of a circuit arrangement for single-phase power. L ₁ and L ₂ are the two feed lines, of which 'one, Jl ₁ , with one end K _{1 of} one

Single coil transformer (voltage reducer) T is connected, while the other lead L _{2 is} led to simple special switches 5. The secondary voltage may be only at the free, ie not be removed with the networks connected end, and that this is done in that all power consumers M are rigidly connected to a conduit to a tapping point A. of

ίο voltage reducer is performed, which tapping point according to Fig. ι before and according to Fig. ι a at the end of the winding, and that on the other hand, this power consumer via only a simple special switch to an outgoing from the free transformer end B , isolated line C ₂ and can be connected to the other free power line C ₃ , which two lines are thereby also conductively connected to one another. ■ It is useful that the switch, as shown in Fig. 2, when switching off a power consumer first the connection of the free. Mains line C ₃ disconnects and only afterwards that with the _{line C 2} coming from end B of the voltage reducer. The transformer is then switched off at a time when its secondary windings are still closed via a current consumer, so that the extra current of the self-induction can run in this current path, which considerably reduces spark formation at the switch.

Fig. 2 shows a system as a representative of the three-wire or multi-phase systems with a neutral conductor for a three-phase network with a neutral conductor and is without what has been said about FIGS. 1 and 1 a further understandable. As you can see, you get a system for a three-wire or multi-phase network with a neutral conductor in that one ends of two or more voltage reducers according to Fig. 1 connects to the neutral conductor.

3, 4 and 5 show some special cases of the circuit just described.

In Fig. 3, a power consumer M is connected to the line by means of an ordinary plug contact and is switched on and off with the help of a special switch.

In Fig. 4, the special switch is omitted, on the other hand, a special plug E is used here. Instead of the usual two lines, this special plug has only one line, while the two contact pins are conductively connected to one another.

Fig. 5 finally shows a switch to operate a power consumer M from two switching points F and G from. In addition to a special switch F designed for this purpose, a two-pole changeover switch G is used, namely the line from the power consumer first to the special switch and from there via the changeover switch to lines C ₃ and C ₃ .

Claims (2)

Patent Claims: 1. Circuit arrangement for a single-coil or autotransformer that can be switched off connected electricity consumers, characterized in that the electricity consumers in one at the free, d. H. Transformer winding section not connected to the network are turned on so that they are firmly connected to a tap line of the transformer • connected and via only one switch each to one of the free transformer ends outgoing, isolated line and the other free power line can be connected are, which the latter are both thereby also conductively connected. 2. Circuit arrangement according to claim 1, characterized in that when switching off of a power consumer first the connection to the free power line and only then is the connection with the line leading to the free end of the transformer released is, for the purpose, the self-induction spark when switching off the transformer winding to reduce as much as possible. ·. 1 sheet of drawings.