FI75446C - Magnetic disc circuit with fixed air gap and control method for the air gap. - Google Patents

Abstract

1. Laminated magnetic circuit with air gap, comprising and E-shaped part and an I-shaped part (4), and wherein the lenght of the end bars (2) of the E part determines the depth of the air gap opposite the central bar (3) of this E part, characterized in that the side of the I part (4) which rests on the end bars (2) of the E part forms an obtuse angle (alpha) wiht the sides at the end of the part I part (4), and in that the two end bars (2) of the E part each have a prolongation (5) and these are arranged at a distance from one another corresponding to the lenght of the I part (4), so as to fit the shape of the said obtuse angle (alpha) in engaging about the I part (4).

Description

ι 75446

Fixed air gap magnetic circuit and air gap adjustment method

The invention relates to a magnetic air circuit magnetic circuit having a fixed air gap, having an E-shaped portion and an I-shaped portion, and wherein the length of the end portions of the E-shaped portion determines the thickness of the air gap at the center of the E-shaped portion. The invention also relates to a method for adjusting the air gap.

The object of the invention is to develop a plate-10 circuit which is suitable for use in connection with, for example, fluorescent tubes and retains its reactance value well throughout its use and makes it possible to adjust the reactance value in connection with manufacture.

The magnetic circuit according to the invention is characterized in that the side of the I-shaped part on the end portions of the E-shaped part forms an obtuse angle with the end faces of the I-shaped part and that each E-shaped part has an extension. The extensions are arranged at a distance from each other corresponding to the length of the I-20-shaped part, so that they surround the I-shaped part in connection with the above-mentioned obtuse angle. The method of adjusting the air gap is characterized in that the lamellae of the I-shaped part are held between the extensions of the E-shaped part and that one or more lamellae of the I-shaped part are changed by precisely delimited, point-like depressions arranged at one or more points in the area. , where the lamellae are weakened by means of a hole.

The invention will be described in more detail below with reference to the exemplary structure shown in the accompanying drawing.

Figure 1 is a section of a magnetic circuit according to the invention between the lamellae of E- and I-shaped parts.

Figure 2 is a plan view of the plate to be cut.

In the housing 1, known, for example, from DE 1 638 339, a part of the E-shape, comprising two end portions 2 75446 and a central part 3 shorter by the thickness of the air gap, is covered by an I-shaped part 4. The side of the part 4 which is on the parts 2 forms an obtuse angle ot with the end faces of the part 4. Each part 2 has an extension 5. The extensions 5 are arranged at a distance from each other corresponding to the length of the part 4, so that they surround the part 4 in relation to the obtuse angle. Thanks to this structure, the part 4 remains exactly in the middle of the E-shaped part. The dimensions have been chosen so that sufficient support is provided between the ends of the I-shaped part 4 and the parts of the parts 2 parallel to the end of the central part and that the inclined parts of the part 4 and the extensions 5 are lightly connected to each other. the pass-through point and the stray flow are very weak in the case of the contact points between the part 4 and the parts 2. As a result, the stray lines do not pass through the housing 1 and do not cause hum.

The obtuse angle is e.g. 91 - 120 °. Po. the angle is selected as close as possible to the right angle so that the part 4 cannot become detached from the E-shaped part.

20 Since the part 4 is in the middle of the E-shaped part, the average value of the air gap is easy to adjust, i.e. the reactance value, in the case of a magnetic circuit with, for example, one compensating coil. To this end, one or more lamellae of the I-shaped part 4 are subjected to a certain number of precisely defined depressions at one or more points, so that the laraels are brought close to the part 3. When using such precisely defined depressions spaced either evenly or unevenly apart, there is no need for an intermediate material that adapts to the elastic air gap, e.g., aluminum, such as when the depression is associated throughout Part I.

Po. in order to facilitate the formation of the recesses, the lamellae of the I-shaped part 4 can be weakened structurally by making holes 6 in them. It should now be noted that the holes 6 must not be used for assembling the plates of the part 4.

However, if holes 6 are to be used for this purpose,

II

3 75446, their diameter must then be considerably larger than the diameter of the pin passing through them, so that precisely defined depressions are obtained for certain plates.

Since the adjustment by means of the pressure structure does not apply to all 5 plates, the air gap becomes slightly uneven. To avoid this, for example, a group of evenly spaced points where depressions are made can be selected.

When po. the magnetic disk circuit is used in the choke according to FR patent publication 10 291 362, the impregnation channels are laid not only in the coil and the air gap but also in the holes 6 which form the impregnation channel at a very critical point which easily causes hum because it is opposite the air gap. Other impregnation channels are placed between the ends of the part 2 and the housing, thus completely avoiding compression in the direction of the part 4 and without compromising the main contact between the E- and I-shaped parts.

With the structure according to the invention, the air gap is made considerably more accurate from the very beginning. As can be seen from Fig. 2, the surfaces of the plate 8 to be cut which delimit the air gap are stamped (slash surface 9), giving a much more accurate result than by cutting along line 10.

Claims (3)

4 75446 A fixed air gap magnetic circuit having an E-shaped portion and an I-shaped portion (4) and 5, wherein the length of the end portions of the E-shaped portion determines the thickness of the air gap at the center portion (3), characterized in that the I-shaped portion (4) the side on the end portions (2) of the E-shaped part forms an obtuse angle * with the end faces of the I-shaped part (4) and that both end portions (2) of the E-shaped part have extensions (5) , which are arranged at a distance from each other corresponding to the length of the I-shaped part (4) so as to surround the I-shaped part (4) with respect to the above-mentioned obtuse angle *. Magnetic circuit according to Claim 1, characterized in that the I-shaped part (4) is weakened, preferably by means of a hole (6), at the central part (3) of the E-shaped part. A method for adjusting the air gap of a magnet-20 circuit according to claim 1 or 2, characterized in that the lamellae of the I-shaped part (4) are held between the extensions (5) of the E-shaped part, and that one or more of the I-shaped part (4) the lamellae are changed in shape by means of precisely delimited, point-like depressions which are arranged at one or more points in the area where the lamellae are weakened by means of a hole (6). li