SU130568A1 - Single phase double winding transformer - Google Patents

Description

The present invention relates to single-phase two-winding

transformers in which parts of a higher voltage winding,

located on different rods are connected consecutively, and

lower voltage winding parts also located on different

rods x are connected parallelly.

The proposed transformer differs from the known ones in that the high voltage winding has the connection point connection of its successive parts.

Such an embodiment of the transformer allows its use as a three-winding one.

The drawing shows a diagram of the proposed transformer.

The transformer has a double rod core and one winding of the highest and the lowest voltage. Each winding consists of two parts located on different rods x / 2. Part 3 i 4 of the high voltage winding are connected in series and a conclusion is made from the connection point of its parts. Parts 5 and 5 of the lower voltage winding are interconnected in parallel. The high-voltage network is connected to terminals L and X, the low-voltage network is connected to terminals a and x, and the network from the medium voltage to terminals I and X.

When a transformer operates in the HH-HV mode (lower voltage-higher voltage), it has a maximum power and operates like a conventional two-winding transformer, and all the copper embedded in the transformer is used, rather than two-thirds of it, . In addition, in this mode, the dissipation fluxes decrease, and consequently, the losses due to short circuits, weight, dimensions and cost of the transformer decrease. At the same time, the danger of local overheating is eliminated and the electrostatic protection of the windings is facilitated.

Jv. 130568-2

When the transformer operates in CH-HV mode (medium voltage-higher voltage), parts 3 and 4 of the higher voltage windings are connected by an autotransformer circuit, with the sequential part 3 of the winding located on the terminal J and the common part 4 on the terminal 2. The lower voltage winding thus plays the role of a binder, providing a double transformation of energy; from the serial part of the autotransformer circuit to the lower voltage winding and then from the lower voltage winding to the common part of the autotransformer circuit. As a result, the total reactivity of the transformer is added up from the reactivity of the two rods, i.e., approximately doubles compared to the reactivity of a conventional autotransformer. In this way, one of the main disadvantages of a conventional autotransformer is eliminated: along with a large profitability ratio, the reactivity is very low.

When the transformer operates in the CH-HH mode (medium voltage-low voltage), the winding of the rod 2 is loaded, as a result of which the transformer power in this mode is about half of the nominal (due to the reduction in total short-circuit losses, nominal).

Since in this scheme parts of the low voltage winding are located on two rods and must always be interconnected in parallel, if necessary, this winding can easily be made with split phases.

The use of the proposed transformer for three-phase current is possible only on condition that the circuit is executed as a group of three single-phase two-rod transformers, i.e. with sufficiently high power.

Subject invention

A single-phase two-winding transformer in which parts of a high voltage winding located on different rods are connected in series, and parts of a lower voltage winding also located on different rods are connected in parallel, characterized in that, in order to use it as a three-winding , high voltage winding Has the connection point of its successive parts.

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