SU773758A1 - Converting transformer - Google Patents

Description

(54) TRANSFORMING TRANSFORMER The invention relates to electrical engineering, in particular to transformer construction. A known transformer for thyristor transformers containing a network winding consisting of parallel-connected parts located along the height of the magnetic conductor and a valve winding split into parts located along the height of the magnetic conductor floor but also having a height of 1i (n, where. B is the height of the winding, h is the number of parts of the winding | l. The drawback of the device is the mutual influence of the parts of the valve winding when the thyristor converters are connected in parallel.The closest in technical essence and the achieved result is transformer for tyrnstornyh converters, containing a network yb; -v coil, consisting of parallel-connected parts located along the height of the magnetic circuit, and a valve winding split into parts located along the height of the magnetic circuit, and the parts of the winding are completely intertwined between themselves in such a way that the number of intertwined turns is equal to W, and the height of each part of the intertwined is equal to ll, where Y is the number of turns of the winding part,} is the height of the winding 2. The transformer transformers of the above design are essential; This is a shortcoming, namely: when simultaneously operating several parallel-connected thyristor converters fed from parts of a split gate winding, the operation of Ti-fistors is disrupted. This is due to the fact that there is a strong magnetic connection between the winding parts, due to the geometry of all the windings of the transformer. The strong magnetic coupling between the winding parts leads to the fact that when the current changes in one part (or converter), the voltage of the other part (of the other converter) increases significantly. In order to bring the stability of the thyristors to the required level, it is necessary to carry out a transformer. At Gbnee, a high secondary voltage, and separately, increase the power of the transformer. The aim of the invention is to increase operation stability by reducing the magnetic coupling between the winding portions. This goal is achieved by the fact that in a converter transformer containing a network winding consisting of parallel connected parts located along the height of the magnetic wire, and a valve winding split into parts located along the height of the magnetic wire, two parts of one of the windings are partially intertwined thus, the height of each of the winding parts is equal to 1l - the height of the winding; h is the number of winding parts; the number of turns of the winding part; tV) - the number of interwoven turns. The drawing shows a variant of a transformer design for powering thyristor converters. The transformer contains a network winding 1 consisting of parallel parts 2 located along the height of the magnetic line 3, and a valve winding 4 split into parts 5 and 6. Part 5 provides power to the thyristor converter 7, and part 6 provides power to the thyristor converter 8. Each from parts 5 and 6 is equal to H j 2. + b Vl / 14 where YI is the height of the winding. The operation of a thyristor unit with simultaneous operation of two transducers can be explained with the help of a three-beam replacement circuit for the transformer winding system containing reactances. The magnitude of the reactions is determined by (ЗvI: X-j.-l | l (y.g-ty.) J Xr-1 / Clt-X,) i Xg, n / 2 {TS 5-5); 8 where Xj is the pair reactance of the transformer pa gph of the short circuit part 5 at the power supply of winding 1 ) (- pair reactance of transformer with CZ of part 5 when powering winding I; Xd ./- pair reactance of transformer with CZ of part 5 when feeding of part 6 (or vice versa). By partially interweaving parts 5 and 6, the resistance values can be changed - / 6 and Xg, that the sum will be equal to the resistance value X, In this case - O and the mutual influence of the winding parts on each other is absent. Thus, the operation of the thyristors of the converter 7 does not depend on the current change and the converter 6. Partial interweaving of the turns can be done as in one and both obm Transformer casts. Claims of the invention A transformer transformer comprising a network winding consisting of parallel-connected parts arranged along the height of a magnetic conductor and a valve winding split into parts located along the height of a magnetic conductor, characterized in that, in order to improve operation stability by reducing the magnetic zi windings, two adjacent parts of one of the windings are partially intertwined between Himself, and the height of each of the parts is equal to i 1l / n - “- hm / h-NV de - height of the winding; h is the number of winding parts; / - the number of turns of the winding; Vn - the number of interwoven turns. Sources of information taken into account during the examination 1. Ya. L. Fischer, R. N. Urmanov, transformative transformers. -, Energie, 1974, p. 87, fig. 3-7b, c. 2. The same with. 87, fig. 3-7 a.

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Claims (1)

Claim A conversion transformer comprising a network winding, consisting of parallel-connected parts located along the height of the magnetic circuit and a valve winding split into parts located along the height of the magnetic circuit, characterized in that, in order to increase the stability of work by reducing the magnetic coupling of the windings, two adjacent parts of one of the windings are partially intertwined, while the height of each of the parts is equal; h / n + htn / n-w Where 1η is the height of the winding; And - the number of parts of the winding; W is the number of turns of the winding; Yn is the number of woven turns.