HU186411B - Plate of laminated core for magnetic circuits - Google Patents

Abstract

1. Magnetic circuits composed of wastelessly cut pieces of sheet material, characterized in that the pieces of sheet material are cut and composed in such a way that in all cross-section of the single legs and yokes of the magnetic circuits directed vertically to the flow direction nearly the same magnetic induction occurs.

Description

Field of the Invention The present invention relates to a magnetic circuit assembly of scrap-free disc core plates, in particular for forming iron cores for single- and three-phase transformers, coils, lighting chokes.

In the manufacture of transformers and coils, EI, M-shaped plate cores are currently used for the production of iron cores. In the case of three-phase transformers, they prefer to iron overlapping I-shaped plates or to weld I-shaped plates by welding.

In the known and currently used magnetic circuit arrangements, two factors are generally relevant to the use of ferrous core material: first, the core material is cut from precious material to produce a significant amount of waste, and the other is that the magnetic core is guided by magnetic lines. they are not properly utilized, ie they contain unnecessary parts.

Hungarian Patent No. 174,852 discloses a core design that is completely waste-free, but has the disadvantage that it contains unnecessary portions of material for conducting magnetic force lines.

It is an object of the present invention to provide a magnetic circuit arrangement that can be assembled from scrap-free disc core plates, the guiding of the power lines approaching the ideal state, and thereby achieving substantial material savings.

The present invention is based on the recognition that the ideal magnetic line guidance does not require the use of a conventional El, M, etc., having a right-angled corner and sometimes a foot having exactly the same cross-section. core design, but also rounding its corners and the centerline of the yoke, provides ideal magnetic force guidance, as is known in the case of ribbon members generally used with lower power transformers. However, it is well known for the extremely costly production and processing of strip cores which prevents their widespread use and which is not disadvantageous with E and M shaped ferrous cores. Because of the curved contours and the pointed portions, the sheet-forming tool would be complicated and costly, replacing the curves with straight lines, thus providing a material-saving solution approaching ideal bevel guiding, both for single-phase and three-phase cores.

The object of the present invention has been solved by a magnetic circuit arrangement of scrap-free disc core plates, which has been further improved by providing a magnetic field having an M-shaped orbital parallel to each other of It is composed of trapezoidal and nearly X-shaped and I-shaped core plates. Its roughly identical inductions explain that the cross-sections reported in some places, e.g. there are differences in corner connections.

According to a preferred embodiment of the invention, the magnet circuit of a single-phase transformer consists of two outer M-shaped core plates extending with their arms facing each other at their opposite ends, two rectangular trapezoidal core plates lying between the outer legs of the core and the middle arms X of the M-shaped core plates. shaped plate core.

According to a further preferred embodiment of the present invention, the magnet circuit of the three-phase transformer is disposed on two outer edges of an inverted M-half plate core, two equally spaced trapezoidal core plates between the stem cores and two half-edge plates. is formed by an I-shaped plate core connecting the center of the plate core. With the above-mentioned solutions, on the one hand, a waste-free and material-saving magnetic circuit arrangement can be provided and, on the other hand, the cross-sections of the plate joints are advantageously enlarged.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in more detail with reference to the drawing, which illustrates some exemplary embodiments of a magnetic circuit arrangement made of scrap-free disc core plates.

Fig. 1 is a view of a magnetic core ideally designed for conducting a magnetic force line, Fig. 2 is a view of the inventive version of the core of Fig. 1, Fig. 3 is a diagram of a single phase transformer constructed in accordance with the invention. Fig. 5 is a schematic view of an arrangement of a three-phase transformer constructed in accordance with the present invention; Fig. 7 is a side view of the M- Fig. 8 shows a waste-free cut-out band of a half-core sheet, Figure 8 shows a waste-free cut-out strip of l-forminaglup I, and Figure 9 shows a strip-free cut sheet of a trapezoidal sheet.

As shown in Wake 1, in the case of a magnetic circuit arrangement with single-core transformers for use with E1 plate cores, the shaded surface in the figure is superfluous in terms of ideal magnetic field guidance. The figure also shows the "a" base spacing to be considered when making the sheet core sheets and the multiple "3a" spacing defining the transformer.

EI core plate of Figure 6a area 2ax3a = ^1st Of this, the excess (shaded) area is 2aJ (1 - ^ -), which represents 7.15% of the total area.

In view of the tooling difficulties, the design of the sheet core according to the invention is shown in Figure 2. Assuming the same size as the magnetic sheet design shown in Figure 2, the savings compared to Figure 1, which is free of debris, is 16.7%

The magnet arrangement shown in Fig. 2 is made up of the scrap-free parts shown in Fig. 3: two outside M-shaped plate cores 1 facing each other and extending at their edges, also two between the outer legs of the M-shaped plate cores 1 from an equilateral trapezoidal plate core 2 and from an almost X-shaped plate core 3 located between the middle arms of the M-shaped core plates 1.

The scrap-free cutting plan of said sheet cores 1.2 is shown in Figures 4 and 5.

Thus, the magnet circuit of the single-phase transformers in the magnetic circuit arrangement according to the invention can be made up of three types of a total of 1. 1. 3 plate cores.

The magnetic circuit of three-phase transformers is conventionally assembled from waste-free plates having an area of 5ax5a- (2ax3a) -19a ^J including the bars. Of this, the area of the excess bared part is 4ax = 2a ', which is 10.5% of the total area.

The magnet circuit of the three-phase transformer according to the embodiment shown in Fig. 6 can be composed of the following waste-free cutting parts: two externally mapped S2 half-core 4 core plates and two extension M-side 4 core legs between the trapezoidal core 2 and the I-shaped core 5 connecting the center of the two M-shaped core 4s.

7, 8 and 9, respectively. The magnet arrangement shown in the figure can also be made up of three types of five, 2, 4, 5 core plates.

The winding fields 6 of the magnetic circuit arrangements shown in Figures 1, 2, 3 and 6 are provided with bidirectional hatching for better understanding.

The magnet arrangement of the disc-free core plates according to the invention allows material savings of 5 to 35% compared to the known embodiments closer to it. This is basically due to the fact that our invention provides not only waste-free cutting, but also free of unnecessary parts.

The core assemblies of the disclosed 1, 2, 3, 4, 5 plate core assemblies are preferably welded together for welding of transformers, but the core assemblies can also be joined by a strap or by means of a known frame-screw device for smaller transformer power.

In addition to the substantial reduction in material required, the magnet arrangement described allows the use of simple tools due to the simple plate core shapes, which means that the cut is essentially simplified to cut. The used plate cores 1, 2, 3, 4, 5 are small in size because the magnet circuits are composed of several parts. Therefore, the necessary tools and stamping machines are smaller than those of conventional El or M core plates. The plate cores 1, 2, 3, 4, 5 used in the magnetic arrangement according to the invention can be manufactured in a wide range of sizes, which allows the required core sizes ("Dimensions determined by the base distance and its multiples") to be maintained , and this is important for interchangeability.

In addition to the waste-free and material-saving assembly, the magnet arrangement described provides nearly the same magnetic induction in each cross-section of the poles and passageways of the magnet circuit when assembled at the magnet.

Claims (5)

Scrubbing powder) 1. A magnetic arrangement consisting of scrap-free leinezine sheets, characterized in that, in its assembled state, an M-shaped, M-shaped, and I-shaped sheet cores (1, 2, 3, 4, 5). 2. A magnetic circuit arrangement according to claim 1, characterized in that the single-phase transformer has a magnet circuit in two outwardly disposed edges of each other. -318G411 stretched M-shaped sheet metal sheet (1), the same two two-dimensional layered trapezoidal sheet core sheets (2) and X-shaped intermediate sheets of M-shaped sheet sheets (1). is formed from a sheet-shaped magnifying glass (3). 3. A circuit arrangement according to claim 1, characterized in that the magnet circuit of the three-phase transformer consists of an outer side of an M-half plate plate, which is outwardly rotated with its arms and turned at the edge. 4), also two M-shaped plate cores It is composed of an equilateral trapezoidal plate core (2) lying between its legs (4) and a 1-shaped plate core (5) connecting the center of the two M-shaped plate cores (4).