DE572659C - Transformer with magnetically linked, adjustable compensation coil for testing large capacities - Google Patents

Description

Transformer with magnetically linked, adjustable compensation tank for testing large capacities _ It is known that one can use high reactive power of cables and similar test objects when testing by connecting in parallel Can cancel choke coils. This ensures that the current and thus the Power of the transformer goes back to a relatively very small value. As a result, the lines and the power source can also be made smaller. The invention aims to generate the throttling effect m of a very specific one Form, both for individual test transformers as well as for those in Step switching. According to the invention, the choke coil is on the yoke of the transformer wound, and their ends are used to regulate the throttling effect on the taps Low voltage winding of the transformer can be connected.

Fig. I shows a test transformer with the kerna, the low voltage winding b and the high-voltage winding c. The compensation choke consists of one winding d placed around the yoke, the dimensions of which are expediently chosen so that the full choke performance is achieved when the ends of the winding d short-circuited are. A smaller arbitrary throttle capacity is achieved in that the ends of winding d can be connected to corresponding taps on winding b. With this arrangement you save against -,. Via: -girier separately arranged choke coil Iron as well as iron losses and also copper losses. Because essential electricity flows only in the closed circuit of winding c and the tapped part of the Winding b. At full choke power, the low-voltage winding is almost completely live no power. The winding pushes the power flow from the easy path through the yoke iron out into the air.

The invention offers particularly great advantages in step switching of transformers according to Fig. 2. Here it is assumed that a transformer T1 is on the high potential is provided with a transmission winding, from which a isolated second transformer T2 is excited, which in turn on the high potential a transmission winding to excite another follow-up transformer T3 has. In the systems of this type that have become known so far, one is both in relation to on the voltage distribution to the three transformers as well as on the phase position of the currents rely on certain randomnesses, in particular the plays Earth capacitance of the transformers plays a role. This is especially true when high There is a capacity load. In addition, the low voltage winding of the lowest transformer is very large: Kltpferkosten because they are for the triple Power of the high-voltage winding must be measured. Also the transfer winding on the high potential must be rated for an output of 2 / 3N since., if N the total power consumed, d. H. for twice the power of a high-voltage winding. According to the invention are parallel to the individual Unterpannuilgswicklungen Transformers are each provided with a choke winding (see Fig. 3). Through this assignment the chokes for the individual transformers can carry the current in each of the low-voltage windings be set to a minimum. For this purpose it is necessary that the Parts to be controlled, i.e. the number of turns in transformer T2 and transformer T3, can be controlled remotely. This happens e.g. B. by shafts made of insulating material, which are connected to each other by bevel gears. are and controlled by a handwheel can be. If with completed adjustment in the excitation circuit of the first Transformer the power factor has come to cos cp = i, then all have Transformers have the same voltage components with the least amount of power in the high voltage winding.

Claims (1)

PATENT CLAIMS: i. Transformer with magnetically linked adjustable compensation coil for testing large capacities, characterized in that the choke coil is wound on the yoke of the transformer and its ends can be connected to taps on the transformer's low-voltage winding to regulate its choke effect. z. Transformer set comprising transformers connected in stages according to claim i, characterized in that shafts made of insulating material are used to regulate the choke effect and enable the connection between the choke coils and the taps of the low-voltage windings to be made remotely.