SU619047A1 - Converter transformer - Google Patents

Abstract

CONVERTING TRANSFORMER for powering the rectifier according to the twelve phase scheme, containing the network and valve windings located concentrically on the rods of the magnetic conductor and divided in height into an equal even number of parts more than two so that each pair formed by one part is networked and one part valve winding is located at the same level relative to the magnetic core, with half of the parts of the valve winding connected in a star, and half in a triangle. Characterized by the fact that, in order to maximally limit short-circuit currents in emergency modes while ensuring the minimum voltage drop in the operating mode, the parts of the power winding are connected to at least two parallel branches, each of which is formed by parts connected in series and located at the same level as the valve winding parts having the same connection scheme.

Description

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ig.1 The invention relates to electrical engineering and can be used in the manufacture of converter transformers for power supply to a multitiere according to a twelve-phase scheme. Transformer transformers for a twelve-phase rectifier circuit are known, containing a network and valve windings located concentrically on the cores of the magnetic core and divided in height into an equal even number of parts more than two so that each pair formed by one part of the network and one part of the valve winding is located on one level relative to the magnetic core, and half of the parts of the valve winding are connected in a star, and half in a triangle, and parts of the network winding are connected in parallel I am waiting a. The disadvantage of such converter transformers is the low value of the inductive component of the short-circuit voltage, with partial k, h., Which leads to the appearance of large short-circuit currents. in emergency mode. Under these conditions, in a number of cases for heavy-duty conversion units, the protective equipment of the converters does not work reliably, which can lead to the failure of the transformer. The purpose of the invention is the maximum limitation of short circuit currents. in the converter transformer in emergency modes while ensuring the minimum voltage drop in the operating mode. This target in a converter transformer containing a network and valve windings located concentrically on the magnetically conductive rod and divided in height into an equal even number of parts more than two so that each pair formed by one part of the network and one part of the valve winding is located at the same level relative to the magnetic core, and half of the parts of the valve winding are connected in a star, and half in a triangle, is achieved by the fact that the parts of the power winding are connected in no less than two, parallel to flax branches, each of which is formed by portions interconnected been consistent and -on arranged flush with the gate portions of the winding having the same circuit connection. Figure 1 and figure 2 shows the vertical discontinuities of one phase of the converter transformer. The converter transformer contains a magnetic core 1, a power winding consisting of several 1: even even, for example, four separated ones. the height of parts 2-5 and the valve winding consisting of the same 1 quantity of parts 6-9 and placed concentrically on the magnetic core so that each pair is formed by one part of the power winding, for example 2, and one part of the valve winding 6 -Positioned at the same level relative to the magnetic circuit. Half of the parts of the valve winding, for example 6 and 9, are connected into a star, and half, for example 7 and 8, into a star. The parts of the power winding 2-5 are connected in two parallel branches, one of which is formed by parts 2 and 5 connected in series and arranged on the same level with parts of the winding 6 and 9 connected to a star, and the other parts 3 and 4, connected in series and located on the same level with the parts of the valve winding 7 and 8, connected in delta. In the operating mode, parts of the valve winding with the same wiring diagram, for example, 6 and 9, enter into the switching process simultaneously, and at any time MDS. These parts 2 and 5 of the power winding are balanced by MDS. related parts. The energy of the magnetic field in such a mode is minimal; therefore, the inductive component of the voltage ke. The switching transformer has a low value, and the converter transformer provides the minimum voltage drop. In emergency modes k.z. In one of the parts of the valve winding, for example in part 6, the main part of the current of the power winding flows along the branch of the power winding consisting of parts 2 and 5. At the same time, the twist part 6 is much larger than the twist part 2 of the winding unbalanced, and the energy of the magnetic field increases dramatically, as a result of which the inductive component of the short-circuit voltage rises significantly in emergency mode. on the emergency terminals of the transformer and the emergency current is reduced. The design of the converter transformer ensures the reduction of emergency currents by one and a half to two times, which ensures the use of 61904

.Fig. g 7 elements of the transformer transformer with a lower electrodynamic and thermal resistance, reduce the size, reduce the breaking capacity of protective equipment, for example of fuses.

Claims (1)

A TRANSFORMER TRANSFORMER for supplying a rectifier according to a twelve-phase circuit, containing network and valve windings located concentrically on the cores of the magnetic circuit and divided in height by an even even number of parts greater than two so that each pair formed by one part of the network and one part of the valve winding is located at the same level relative to the yoke of the magnetic circuit, with half of the parts of the valve winding connected to a star and half to a triangle, characterized in that, in order to maximize the values of short-circuit currents in emergency conditions while ensuring a minimum voltage drop in the operating mode, the parts of the network winding are connected in at least two parallel branches, each of which is formed by parts connected in series and located at the same level with the parts of the valve winding having the same connection diagram. δ 4 Pine yoke “TKIGPG ^ // 7 //////// 7 // 7 ////// 777 // 7777, Figure 1