SU1347103A1 - Three=phase biased transformer - Google Patents

Abstract

The invention relates to electrical engineering, namely to a transformer structure. The goal. is an increase in efficiency and expansion of adjustment capabilities. The transformer T contains a twelve-core symmetrical spatial magnetic core, made of C-shaped rods 1-12, tightly joined to each other by wedge-shaped ends 13, 14. T conco. it also holds a primary winding 16-18 consisting of two sections, the first section in each phase of the primary winding has a branch. The first sections of all phases of the primary winding span two rods, and the second sections of all phases of the primary winding and the secondary winding 19 span two diametrically opposite rods, the primary winding sections are connected in series, and the secondary winding 19 is connected to the branch of the first winding section according to the latter. 3 hp f-ly, 8 ill. with "(L FIG, in

Description

The invention relates to electrical engineering, namely transformer construction.

The purpose of the invention is to increase the efficiency and expand the adjustment possibilities by phase adjustment.

FIG. 1-6 shows a transformer, a general view; FIG. 7 shows an example of making C-shaped rods of the design of FIG. 5 and 6 in FIG. 8 is a schematic diagram of the connected windings.

The three-phase magnetizable transformer consists of a spatial symmetric magnetic circuit formed from twelve C-shaped rods divided in pairs into phase groups 1-2} 3-4, .. 0, 11-12 (Figures 1-6), the wedge-shaped ends of which are joined between surfaces 13 and 14, the windings 15 of the biasing on each rod, connected in opposite on any two adjacent rods (Fig. 8), the primary winding, consisting of two sections, the first has two parts 16 and 17, between which has a branch, and the second has part 18 connected after from the first, secondary winding 19, connected at one end to the branch of the first primary winding section in accordance with it, the first primary winding section including one pair of rods, for example, pairs 1 and 2, 5 and 6, 9 and 10, and the second section of the primary winding and the secondary winding cover the diametrically opposite pairs 7 and 8, Pi 12.3 and 4 rods. respectively.

The cores of the magnetic circuit can be placed one inside the other (Fig. 2), in contact with each other by horizontal surfaces, and the pairs form rods located in the same plane. C-shaped rods in this case can be obtained by cutting the 0-shaped cores along the plane, forming a 60 with the planes of the side surfaces (Figs. 1 and 2).

The rods forming pairs can have different lengths of horizontal sections (Fig. 3 and 4) and, respectively, different inclination o (and / i of the end surfaces relative to the side surfaces. In this case, d + f 60,

g 5 o

f- „

d

five

The cores of the magnetic core can be made by cutting 0-shaped cores with horizontal sections of the zigzag shape at an angle of 30 ° to the side surfaces (Fig. Y). It recommends a length of the straight portion of 2.54 d, where d is the width of the core. The ends of the rods are in contact with the same surfaces (Figs. 5 and 6).

Three-phase magnet transformer operates as follows.

When terminals A, B and C (Fig. 8) are connected, a three-phase alternating current source is supplied with a uniformly distributed magnetic flux over the elements of the magnetic circuit, and the output electromotive forces taken from terminals a, b and c are determined by the transformation ratio. When direct current is applied only to the bias windings 15, located on rods x 1 and 2, belonging to the first group of phase A, a constant component of the fluxes is created, which is frozen along the shortest path between the indicated rods, which leads to their saturation, to reduce in them the variable magnetic flux, as well as reduce the EMF of parts 16 and 17. As a result, the EMF of part 18 and winding 19, located on rods 7 and 8 of the second phase group A, and the EMF at the output of autotransformers, increase, determined by the geometric sum of EMF h stey 17, 18 and the coil 19 increases.

When direct current is applied only to the bias windings 15 located on terminals 7 and 8, the reverse redistribution of the variable magnetic fluxes occurs, and the EMF at the output of the autotransformer decreases.

Phase regulation is also carried out in the same way in other phases of the autotransformer.

Thus, the expansion of adjusting capabilities is achieved by providing phase-by-phase regulation, and an increase in efficiency by reducing the lengths of magnetic power lines by replacing the flat magnetic core with spatial ones, virtually eliminating areas in which the direction of magnetic flux does not coincide with the direction of steel rolling. also due to the connection of the windings according to the autotransformer scheme

31

Claims (4)

Invention Formula 1. A three-phase magnetisable transformer containing a twelve-rod symmetrical magnetic conductor, a primary winding consisting of two sections in each phase, the first having a branch, a secondary winding and one bias winding to the rod, with the secondary windings each included in the counter, characterized by the fact that, in order to increase the efficiency and expand the control capabilities, the magnetic conductor is made spatial and consists of C-shaped rods tightly joined between a wedge-shaped ends, the first section of the primary winding phases comprise two adjacent rod, and the second section of the primary winding and secondary winding phases comprise two diametrically opposed rods, the primary windings are connected in series, and the secondary winding is connected to the branch per1034 primary winding section according to with the last .. , 2. A transformer according to claim 1, characterized in that the C-shaped rods are placed one inside the other and are in contact with horizontal surfaces, the windings spanning two rods located in the same plane, and the surfaces of the ends of each C-shaped rod leyat in the plane forming 60 with the planes of the side surfaces. 3. A transformer according to claim 1, characterized in that adjacent C-shaped rods have different lengths of horizontal portions and, accordingly, different inclination of the end surfaces to the side surfaces. 4. A transformer according to claim 1, characterized in that the rods are in contact with like surfaces, the horizontal sections of the C-shaped rods having the shape of a zigzag dp forming a gap between the vertical sections of the rods of each pair. 9ltZ.1 Vi AT / 5 / V 6 5 j j / /  /9  jt-o 2.2 41 IL 15/9 -;five FIG. five 18 15 15 13 / e. 5 G g --- Editor O. Golovach Compiled by V. Gereh Tehred A. Kravchuk Order 5123/48 Circulation 696 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company Uzhgorod, st. Project, 4 FIG. Proofreader A. Obruchar