DE1188223B - Layered magnetic core without flux-guiding butt joints - Google Patents

Description

Layered magnetic core without flux-carrying butt joints. The invention relates to a layered magnetic core, for example for high-quality transducers. In such cases it is important that the reluctance of the core be so low is as possible and the magnetization curve has as sharp a knee as possible. The core must therefore be designed so that local saturation does not occur can. These properties can partly be fulfilled by closed toroidal cores and partly by using cores made from straight leg and yoke plates are built up by overlapping joints. Both types allow the use of Sheets with a magnetic preferred direction.

In the case of cores layered from one-piece sheet metal cuts, the core material is well used in magnetic terms, and it is possible both in the thigh as well as in the yoke parts to achieve an iron fill factor of almost 100%. However, there are great difficulties in applying the windings. From individual Laminated cores with overlapping joints do not result in the legs without special measures, fill factors greater than 50%, but with such cores can the windings are conveniently attached.

In the case of cores of the latter type, fill factors higher than 50 % can be obtained in the legs in a simple manner by designing the core with a yoke which is twice as wide as the legs. This makes it possible to conduct the magnetic flux from two leg plates to their respective intermediate yoke plates, whereby a fill factor in the legs of 67% is achieved. When using sheets with a preferred magnetic direction, each fiber of a leg sheet in the vicinity of the butt joint between the sheets conducts twice the flow in relation to the other core parts. So when the core is half saturated, there is a zone in the leg plates near the butt joint that is completely saturated. If the induction increases further, one gets a flux displacement and thus a deteriorated shape of the magnetization curve of the core. Especially with larger magnetic cores, it can be inexpedient to use a double yoke width.

There are also known cores that both overlap joints and Have river-bearing butt joints. This enables a high fill factor to be achieved. The above-mentioned disadvantage of the deteriorated magnetization curve is, however, even if to a lesser extent, it is also present here. The invention relates to a magnetic core with a single yoke width that has no flux-carrying butt joints, but only has overlapping joints, but which has a fill factor of more than 50% in the leg thus has the above-mentioned disadvantages of the previously known core designs be eliminated. The invention is based on a layered magnetic core from straight lines Yoke and leg plates, between which the river crossing in the corners in well-known Way takes place exclusively via approximately triangular overlap joints, and is characterized in that four yoke and four leg plates, the ends of which are cut half at an angle and half at right angles, one Form basic unit, within which at each corner one essentially along the There is a corner diagonal butt joint on one side Leg plate cut at right angles and a right angle on the other side cut yoke plate lies so that two closed magnetic paths without River-bearing butt joints arise.

According to one embodiment of the invention, the core is designed so that the diagonally cut yoke and leg plates closed frames with im essentially form butt joints running along the corner diagonals and on one side Side on two yoke plates, on the other side on two leg plates with right angles cut ends rest, so that two closed magnetic paths are formed.

According to a second embodiment of the invention, the layered Core designed so that yoke plates cut at an angle at both ends at one end diagonally, at the other end at right angles cut open leg plates Form a U-shaped frame, each of which has two open sides facing away from one another lie on top of one another and through one each resting against the obliquely cut yoke plates Yoke plate cut at right angles to form two closed magnetic paths can be added.

A core according to the invention thus fulfills the basic condition that there are no river-bearing butt joints. Regardless of what material the core according to the invention is used, it does not become part of the core saturated earlier than the thighs. This is achieved in that all leg plates make contact with the corresponding yoke plates by means of overlapping joints. The joint area is generally much larger than the sectional area of a leg or yoke plate. In general, the air gap of the overlap joint is the reluctance of the core the less will be affected, the larger the width of a leg plate or of a yoke plate in relation to the thickness of these plates. Because the Core is constructed from right-angled sheet metal, it is possible to use first-class material to be used with a preferred magnetic direction, at the same time ready-wound Coils are used.

The fact that, according to the invention, not all of the available square or right-angled contact surface between a leg plate and a yoke plate is used for the overlap joint, but only a joint area with essentially triangular shape, has the advantage that two joint-forming leg and yoke plates can be arranged so that the leg plate in the one pair lies in the same layer as the yoke plate in the other pair. The triangular ones Joint surfaces of the two pairs can then together have the above-mentioned maximum available Form contact surface. Apparently a butt joint is formed between metal sheets, the ends of which are cut off at an angle, for example. However, this butt joint will never flowing. Both from a functional and a manufacturing point of view it is most expedient that the ends of the sheets lying in the same layer after cut obliquely in a straight line and that the metal sheets form a butt joint lengthways form this line. In principle, however, the aforementioned line does not have to be closed but can be of any shape. However, the butt joint must have a main direction from the outer corner of the finished core to its inner corner.

It is usually sufficient if the leg plates and the yoke plates are the same Width, in such cases certain sheets can be cut off after a 45 'line will. But it can be desirable that the yoke plates have a somewhat larger width than the leg plates, so that the yoke saturates with a larger river is called the thigh. In such cases, either cutting off the metal sheets happen at an angle that deviates from 45 °, the total contact surface in the corner of the core becomes rectangular, or 45 ° cuts can still be made can be used, whereby the contact surface becomes square.

The invention is explained in more detail below with reference to the drawing, in this FIG. 1 the principle of merging the yoke and leg plates, F i g. 2 to 6 the cutting of certain sheets in different ways and FIG. 7 and 8 different exemplary embodiments of cores assembled according to the invention are.

In Fig. 1 two yoke and leg plate pairs are shown. Included 1 denotes a yoke plate, which through the overlap joint on a leg plate 2 rests, and 3 a yoke plate, which through the overlap joint on the leg plate 4 is present. In both pairs, one of the sheets is cut off at an angle. In the first Pair is the yoke plate 1 cut obliquely after a straight line, which with the dashed line 5 on the leg plate 2 coincides. In the other Pair is the leg plate 4 cut obliquely on a straight line, the coincides with the dashed line 6 on the yoke 3. So it arises two triangular joint surfaces for the overlapping joints within each sheet metal pair. Due to the oblique cutting of two sheets, it is possible to make the two pairs put together so that the yoke plates 1 and leg plates 4 in the same layer and lie together with the ends cut off at an angle with a butt joint. Under the above conditions, the lap joints are large enough to the magnetic flux between the legs and yokes without any appreciable increase the reluctance of the core. It is also evident that the emerging Butt joint is not flowing.

In Fig. 2 shows a corner of the core according to the invention, in which the leg plate 7 has the same width a as the yoke plate 8. The latter is cut off at an angle in the corner shown, the cutting line 9 divides the square contact surface according to a 45 'line. In Fig. 3 shows an example of the fact that the cutting line 10 need not be straight. You can z. B. be made wavy as shown or also tooth-shaped or arc-shaped or have any other arbitrary shape. One condition, however, is that the cutting line extends mainly between the outer corner of the core and its inner edge so that each longitudinal strip 7 ', 7 ", etc. of a sheet has the prospect of meeting a longitudinal strip 8', 8", etc. To meet the sheet metal on which it rests through the overlap joint.

F i g. 4 to 6 show three ways to cut the sheets, if the width of the yoke plates exceeds that of the leg plates.

The total contact surface is rectangular (a.b). According to FIG. 4 can the line of intersection extends diagonally, the angle of intersection deviating from 45 '. The cutting can also be done at a 45 'angle, either from the to be formed inner corner of the core or starting from its outer corner to be formed will.

The embodiments according to FIG. 7 and 8 differ from each other by the number of differently shaped sheets that are used. In F i G. There are four different sheets in FIG. 7 and FIG. 8 three different sheets.

In Fig. 7, the sheets 21 and 23 represent two leg sheets which lie in the same layer. A frame, which is formed by the yoke plates 22, 24 and the leg plates 25, 27, lies above this. The side and yoke plates in the frame form butt joints with one another. In the following layer there are two yoke plates 26, 28. These eight plates 21 to 28 form the first basic unit of the core, which has closed magnetic paths without aligned butt joints. The eight metal sheets 21 'to 28' stacked on top in the same arrangement form the next basic unit. In this way the core is built up to the desired thickness. In every corner of the core, the principle of FIG. 1 applied, one obtains an iron filling in the legs of 67 Vc. The yoke plates 26, 28 thus form overlapping joints with the leg plates 25, 27, the yoke plates 22, 24, which lie in the same layer as the leg plates 25, 27, form overlap joints with the leg plates 21, 23. In this case, yoke plates 26, 28 come before, which are cut off at right angles at both ends, and yoke plates 22, 24, which are cut obliquely at both ends. The same applies to the leg plates.

In Fig. 8, a core is shown in which all leg plates are the same Shape and the yoke plates have two different shapes. The leg plates are Cut at right angles at one end and at an angle at the other. One unity of the core consists of the yoke plate 32 in the lowest layer, the angled plates 31, 33 and the yoke plate 36 in butt joint with one another in the layer above, the leg plates 35, 37 and the yoke plate 34 in butt joint with one another in the following Layer, with the yoke plates belonging to different yokes, and finally off the yoke plate 38 in the following layer. The construction of the next unit begins then with a new yoke plate 32 'in the same layer as the yoke plate 38, is with the sheets 31 ', 33', 36 'in the subsequent layer and the sheets 35 ', 37', 34 'continued in the following layer and with the yoke plate 38' in completed another shift. Here, too, the fill factor is 67%.

Claims (4)

Claims: 1. Layered magnetic core made of straight yoke and Leg plates, between which the river transition in the corners exclusively over approximately triangular overlap joints takes place, characterized in that in the Layering four yoke and four leg sheets, half of which are at an angle (1 and 4) and cut halfway at right angles (2 and 3), a basic unit form, within which at each corner one essentially along the corner diagonal (5 or 6) running butt joint is present, on one side a right-angled cut leg plate (2) and on the other side a cut at right angles Yoke plate (3) rests in such a way that two closed magnetic paths without flux guiding Butt joints are created (Fig. 1). 2. Layered magnetic core according to claim 1, characterized characterized in that the diagonally cut yoke and leg plates are closed Frame (22, 24, 25, 27) with essentially extending along the corner diagonals Form butt joints and on one side on two yoke plates (26, 28), on the other On the side of two leg plates (21, 23) with ends cut off at right angles, so that two closed magnetic paths (21-22-23-24-21 and 25-26-27-28-25) arise (Fig. 7). 3. Magnetic core according to claim 1, characterized in that on both Ends of obliquely cut yoke plates (36, 34) with oblique at one end and at the other End of right-angled leg plates (31, 33, 35, 37) open frame in a U-shape, each of which has two open sides facing away from each other and by one on each of the obliquely cut yoke plates (36, 34) Yoke plate (32, 38) cut at right angles to form two closed magnetic ones Paths (31-32-33-34-31 and 35-36-37-38-35) are added (Fig. 8). 4. Layered magnetic core according to claim 1, characterized in that the yoke plates have substantially the same width as the leg plates. Documents considered: German Patent No. 1059 124; Swiss patent specification No. 300156. When the application was published, a Swedish priority document was displayed.