SU826435A1 - Three-phase low-power transformer - Google Patents

Description

one

The invention relates to electrical engineering and can be used in the manufacture of small-scale transformers.

Three-phase low-power transformers are known with a magnetic strip conductor consisting of two internal frames and one external frame, covering internal

The specificity of operation of these three-phase transformers is such that at each instant of time the magnetic flux of one rod is equal to the algebraic sum of magnetic fluxes in the two remaining rods, or, in other words, the magnetic flux from one rod divides into two other rods. This transition in this design is difficult due to the limited magnetic coupling between the frames, i.e., the improved magnetic properties of transformer steel along the rolled products cannot be fully utilized. This causes an increase in no-load current and losses in the magnetic circuit. In addition, the cooling conditions of the middle phase windings are worse than the cooling conditions of the extreme phase windings.

The closest to the proposed invention in technical essence and the achieved result is a three-phase low-power transformer. Containing two single-phase transformers located in the same plane on a magnetic system of 0-shaped magnetic cores mounted in a common shroud, and the primary and secondary windings are connected to a three-phase system in a T-shaped pattern, each of the trans ({yurmator has one winding, divided by a tap into two concentric parts 2. “

Claims (2)

The disadvantage of the device is that the internal resistance. A three-phase transformer, obtained from two single-phase transformers by means of such a connection, is unequal in phase, as a result of which the symmetry of the secondary voltage is maintained only when it is idle, and when the load is broken. A disadvantage of the known device is that its magnetic theme consists of 4 frame elements, which increases the unit costs of their manufacture, since the unit costs are inversely proportional to the mass of the element to be made. The purpose of the invention is to improve the symmetry of the secondary N: apr and the simplification of the transformer design. This goal is achieved by the fact that in a three-phase transformer there is little power containing two single-phase transformers located in the same plane on the magnetic system of 0-shaped magnetic cores pulled together by a common band, and the primary and secondary windings are connected to the three-phase system in a T-shaped pattern In this case, each of the transformers has one winding divided by a branch into two concentric parts, the divided secondary winding has a ratio of turns of internal to external concentration from 0.92 to 0.99. In addition, the magnetic system contains two 0-cores) 1x of adjacently arranged magnetic conductors, on the extreme rods of which there are windings, FIG. 1 shows a general view of the proposed three-phase transformer; in fig. 2 - the same, the scheme of connecting the primary and secondary windings. The three-phase transformer has a magnetic system consisting of two 0-shaped magnetic cores 1 and 2 located adjacent in one plane and assembled into a single unit with a band 3 and a bracket 4 serving Base for - fastening the transformer in operation. The windings of the primary 5 secondary 6, mounted on the extreme core of the magnetic circuit 1, form with it a single-phase transformer 7. The windings of the primary 8 and secondary 9, mounted on the extreme rod of the magnetic circuit 2, form the second single-phase transformer 10. The windings of two single-phase transformers are connected to each other by T -shaped circuit, convert two single-phase transformers into one three-phase. The ends of the primary windings 5 and B (A, & & and C) are connected in such a way that the end of the primary winding 5 is connected to the middle of the primary winding 8. The ends of the secondary windings 6 and 9 (a, b, and c) are connected so that the end the secondary winding 6 is connected to the secondary winding 9 at a point o offset from the point o (which is the center of this secondary winding). The tap from the point o divides the secondary winding 9 into two concentric parts, with the ratio of the turns of the inner concentric part to the outer one having a value from 0.92 to 0.99. The winding connection can be made according to the star-star scheme, however other connections are possible, for example a star-delta. To turn the transformer into operation, terminals A, B and C are connected to a three-phase network, and three-phase load is connected to terminals a, b, c and the magnetic fluxes flow independently from each other along the magnetic conductors 1 and 2 of the wires, as in single-phase transformers. This makes it possible to fully utilize the enhanced properties of textured steels along the rolled products. Placing the magnetic cores 1 and 2 horizontally, unlike the known transformer, can significantly reduce the center of gravity, increasing the vibration strength of the transformer with a lightweight tie-down device. The cooling conditions for both windings are the same and do not affect each other. The use of only two 0-shaped magnetic cores reduces the manufacturing cost of the magnetic system and the complexity of its assembly. Claim 1. A three-phase low-power transformer containing two single-phase transformers located in the same plane on a magnetic system of 0 figurative magnetic cores, mounted with a common shroud, and the primary and secondary windings are connected to a three-phase system in a T-shaped pattern, each of the transformers It has one winding divided by a tap into two concentric parts, which means that, in order to obtain a symmetrical secondary voltage, the divided secondary winding has a ratio of turns of the inner end ntrata to the outside from 0.92 to 0.99, 5826435 2. A transformer according to claim 1, characterized in that, in order to simplify the construction, the magnetic system comprises two 0-circumferentially arranged magnetic circuits, on the edge-s dio, 1971, p. 27. These rods are located winding. , five. Sources of information taken into account in the examination 1. Bal N.R.H. Transformers for radio electronics. M., Soviet para2. US patent number 2975357, CL. 323-44, 1961. lkit.f