DE1444465U - - Google Patents

Description

Switching plug-in device, in particular for high-voltage transformers.

The object of the innovation is a high-voltage, 3-sided step-shaped Regulation, especially for transformers.

In the case of the high-voltage transformers used up to now in single or three-phase circuit, it is mostly common to have a regulation on the low-voltage side to undertake.

In addition, for the purpose of regulation, if not the entire regulating transformer is under oil, a disconnection of the voltage and thus also the load is necessary, so that the known method for step-by-step control has the disadvantage of a short one Business interruption, which often turns out to be very high, especially in the case of larger systems proves disturbing.

By means of the tap changer plug-in device for high-voltage transformers of any design, high-voltage-side regulation is possible without reconnecting, namely in such a way that the low-voltage side disconnection of the voltage is no longer carried out, at least at low powers. The design of this plug-in device is very simple, so that this control can be used for high-voltage trans- formators, preferably for laboratory and test purposes, has not inconsiderable advantages over the previous arrangements.

According to the innovation, for example, the individual high-voltage windings a three-phase transformer or the high-voltage winding of a single-phase Provide the transformer with a desired number of taps. These taps are conductively connected to a corresponding number of metal sockets, which are in a strip made of insulating material are used. Parallel to this bar is a second also made of insulating material, such as. B. Pertinax or the like., Existing Bar provided, which also has the same number of appropriately arranged metal sockets like the first bar, and at the same time the sockets of this second Bar one below the other, for example by means of a metal rail or layer this insulating strip. Instead, the second Made entirely of metal. Depending on the size of the on the secondary side of the Hochspannunßstransformators voltage to be decreased is according to the innovation with With the help of a peg, one of the metal sockets on the first bar with the corresponding of the second bar and thus also with the metal rail in Connected. The secondary high voltage can then for example between the beginning of the winding on the one hand and the relevant tap over the connector can be accepted by the metal rail on the other hand. j, A device embodying the idea of innovation should be based on the schematic Representation of a single-phase high-voltage transformer of Fig. 1 will be explained. The AC power source 1 logs a voltage of e.g. B. 220 V to the low voltage winding 2 of a high voltage transformer. Secondary winding 3 should have one in 6 stages adjustable high voltage of z. B. 10 000 V led to the terminals of a consumer 4 will. For this purpose, the high-voltage winding 3 is provided with a provide the number of taps corresponding to the size of the gradual regulation, which are conductively connected to an equal number of metal sockets 5 or the like. These are firmly arranged on the strip 6 made of insulating material. One corresponding number of conductive sockets 7 are equidistant on one second insulating strip 8 available. The individual sockets 7 are one below the other in connection by means of a metal rail or a conductive (fixed) with the insulating strip connected layer 9. One of the consumer clamps is attached to this metal layer 4 while the other is connected to the beginning of the secondary winding of the transformer is directly connected.

The conductive connection of the taps or the sockets 5 to the corresponding sockets 7 is carried out according to the innovation by means of the metal plug provided with an insulating handle 10, the optional-without switching off the AC power source power source 1 to be carried out-can be repositioned by hand. In the circuit diagram of Fig. 1, the high voltage is between the beginning of the secondary winding and the first tap of the same.

In the case of a three-phase high-voltage transformer, the same tap changer connector to be used. This tap changer plug-in device must correspond to the three secondary windings also be available in triplicate. For the purpose of The handles of the three plugs with one another can simplify operation be connected so that the retraining of the three windings occurs at the same time.

In Fig. 2 is an embodiment of a tap changer connector shown for high voltage transformers.

The insulating strip 6 may, for. B. at their ends with a high-voltage capacitor 11 be attached to the transformer core, while on the other hand each via a further Insulator 12 holds the second insulating strip 8 in place at the ends. The metal socket 5 is conical and screwed to the insulating strip 6, while the pin 13 secures the socket against twisting. With 14 is the conductive connection between the tap and the corresponding socket. The socket 7 is z. Am screwed the same way with the insulating strip 8 and the metal rail 9 and secured by a pin 15.

The plug 10 is also conical at its end, corresponding to the bore of the socket 5, so that this can result in a firm and reliably conductive contact of the same. The part of the metal plug 10, which runs in the cylindrical bore of the socket 7, carries on its circumference, for. B. four axially extending grooves offset by 90 °, in the correspondingly designed leaf springs 16, z. B. made of bronze, are inserted. These springs must be bent in such a way that they make good contact with the bore hole 7. The springs of the metal plug are held firmly in place by the two sleeves 17 and 10 pushed over the spring ends 19 screwed in, which extends through the housing wall 20 of the system concerned; this is followed by a protective ring 21 and the handle. 22nd at. The innovation is not limited to the Written execution example of a step-by-step adjustable High-voltage transformer, but it extends generally my on high-voltage side switchgear connectors for transformers or for high-voltage systems of other types, such as. B. high-voltage switch or the like. In which, for example, the metal stick or the Motallbuchsen can be designed differently.

Claims (4)

Protection claims 1. Switching plug-in device for high-voltage systems, preferably as a step-up plug-in device for transformers or the like characterized that switching the voltage with the help of an isjliergriff provided connector is effected in such a way that on the one hand the end of the connector With sockets or the like. In engagement, and that on the other hand, the plug with his Shank at a distance from the end corresponding to the size of the voltage by a Second socket or the like. Reaches through, with which it is in conductive connection. 2. Apparatus according to claim 1, characterized in that the The transformer's high-voltage arm is provided with taps that are conductive Are connected to a corresponding number of metal sockets or the like, wherein these sockets are inserted into a strip made of insulating material sirid and where by means of the metal plug, a conductive connection can be established to one a second strip arranged, row of metal bushes, which are mutually by means of a conductive rail or the like. In connection, so that the secondary-side High voltage between the beginning of the winding on the one hand and the relevant tap on the other hand lies above the metal plug on the metal rail. 3. Apparatus according to claim 1 or 2, characterized in that the metal plug is conical at the end and the corresponding metal sockets also have a conical bore, while the respective second bushing is cylindrical is drilled out and the conductive connection with the metal plug by bent Leaf springs is effected on the circumference of the connector in axially extending grooves are inserted and at their ends, for. B. by means of an overlaid sleeve each, be held in place. 4. Apparatus according to claim 1, 2 or 3, characterized in that that in polyphase high-voltage transformers or the like. The isolated ends the plugs are rigidly connected to one another, so that they can be plugged in at the same time several places, e.g. B. in all phases.