The invention relates to an on-load tap changer according to the reactor switching principle for uninterrupted load changeover between different winding taps of a tapped transformer.
A regulating transformer with a tap changer is known from U.S. Pat. No. 3,175,148 A. The transformer has a main winding and a regulating winding for each phase. In addition, associated with each phase is a choke (preventive autotransformer) that is used as a switching inductance from the tap changer, which is separately arranged outside at the regulating transformer, during the switching-over processes. The three switching inductances of the three phases are on the upper yoke of the main and regulating windings.
Since the chokes are directly at the yoke, in the case of arrangement of the tap changer on the high-voltage side, thus at the high-voltage potential, these chokes have to be particularly well insulated relative to the transformer yoke at ground potential. This has a significant effect on production costs of chokes of that kind. The connecting of the chokes with the respective tap changers is in that case complicated and similarly has to be very well insulated relative to ground potential.
It is an object of the invention to create an on-load tap changer according to the reactor switching principle with the help of which the chokes can be favourably produced, are of simple construction and can be connected in simple manner with the on-load tap changer.
This object is fulfilled by an on-load tap changer according to claim 1. The features of the subclaims in that case form advantageous developments of the invention.
The invention proposes an on-load tap changer according to the reactor switching principle for uninterrupted load changeover between different winding taps of a tapped transformer, comprising:
a choke constructed as an inductive switching inductance; wherein:
the choke is a component of the on-load tap changer or
Since the choke that can be, for example, a coil or an inductance, is a component of the on-load tap changer and not of the windings or of the transformer yoke, this needs less insulation, i.e. with fewer layers of insulating paper on the windings, relative to ground potential. As a result, production of the chokes is simplified and costs are thereby reduced. Moreover, the connection, particularly the electrical connecting of the choke with the on-load tap changer, is less complicated, since the spacing of the two parts from one another is reduced.
The choke can be constructed in any desired mode and manner, for example can comprise one winding or two or three windings that is or are fastened to the iron core that is adapted to that purpose, with a yoke.
The on-load tap changer can be constructed in any desired mode and manner according to requirements and, for example, comprise at least one additional choke or more chokes and/or be conceived for single-phase, two-phase or three-phase applications. In the case of more than one phase, at least one choke is provided for each phase.
It can be provided that
the on-load tap changer is a load selector.
The load selector can be constructed in any desired mode and manner and comprise, for example, vacuum interrupters or simple switching contacts in oil for switching-over under load.
Provision can be made that
The arrangement can be executed in any desired mode and manner, for example by of mounts or by the iron core of the choke.
It can be provided that
The load-changeover switch can be constructed in any desired mode and manner and comprise, for example, vacuum interrupters or simple switch contacts.
The selector can be constructed in any desired mode and manner, for example with or without a preselector and/or as a linear selector or rotary selector.
It can be provided that
The arrangement can be realised in any desired mode and manner, for example by mounts or the iron core of the choke.
Provision can be made for
It can be provided that
It can be provided that
The insulating foot can be realised in any desired mode and manner, for example as a cylinder, frame or block, and/or be produced from glassfibre-reinforced plastic, a hard-paper cylinder and/or wood.
It can be provided that
It can be provided that
The invention and advantages thereof are described in more detail in the following with reference to the accompanying drawings, in which:
Identical reference numerals are used for the same or equivalent elements of the invention. Moreover, for the sake of clarity only those reference numerals are illustrated in the individual figures that are required for description of the respective figure. The illustrated embodiments represent merely examples of how the on-load tap changer according to the invention and in accordance with the reactor switching principle can be constructed and thus do not represent a definitive limitation of the invention.
The iron core 7 is between the load-changeover switch 5 and the selector 6, thus at the lower end of the load-changeover switch 52. The iron core 7 connects load-changeover switch 52 and selector 6. A choke 3 constructed as a coil is at this iron core 7. This choke serves as inductive switching inductance for the on-load tap changer 2, in this embodiment the load-changeover switch 5. Depending on the requirements of the on-load tap changer 2, the choke 3 can comprise one, two or three windings fastened to the iron core 7 that is adapted to that purpose.
Number | Date | Country | Kind |
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102014100949.5 | Jan 2014 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2015/050376 | 12/1/2015 | WO | 00 |