DE837326C - Magnetizing head - Google Patents

Description

Magnetizing Head The present invention relates to Formation of the magnetization heads for longitudinal magnetization of tape-shaped or wire-shaped Magnetogram carriers are arranged on the same side of the magnetogram carriers Poland, on whose surfaces the @ lagttetogratnmträger is led past. The meeting as well as eavesdropping and erasing the Nlagnetogrammträger on magnetic recorders caused by so-called. Nlagnetisierungsköpfe, which essentially consist of an electrical There are leangbaren magnets, past the pole gap of the magnetogram carrier will. The influencing or magnetization of the magnetogram carrier is supposed to follow Possibility only through the emerging from your extremely narrow pole gap and a line-like, line-like, narrow force line field takes place, since magnetic shunts or stray fields whose intensity naturally corresponds to that emerging from the pole gap Magnetic field of the imposed speech frequency fluctuates according to synchronous, to Double magnetization of the magnetogram carrier or lead to a kind of echo effect.

Attempts have already been made to avoid the risk of double magnetization Stray fields have a corresponding shape, in particular through an annular design of the pole core. On the other hand, this also ensures safe guidance of the magnetogram carrier affected; also over time through the only _lagnetogrammträger led past the pole edges At first, sharp edges were sanded down and surfaces again sanded, so that the recording ratio lake in the course of the operating time constantly changing.

The disadvantages of the known arrangements are now the invention eliminated in accordance with the fact that the pole cores for concentrating or directing the flow of lines of force with diamagnetic Räumzen ,, z. B. holes, slots or the like., Turn provided. The holes are expediently made in the magnetogram carrier that is approaching or departing adjacent outer edges of the pole faces arranged in such a way that the magnetic potential becomes zero or approximately zero at the outer edges. In this way there can be an exit of stray fields outside the pole gap area and thus a double magnetization of the magnetogram carrier guided past the pole faces can be effectively prevented. The effect of the holes or gaps provided can still be improved as a result be that in them a diamagnetic material, such as. B. bismuth arranged through which the line of force flows from the outer edges or on the magnetogram carrier adjacent pole faces is deflected. Due to the adjustable arrangement of the bismuth inlays According to the further invention, the deflection of the lines of force can be changed and adjusted will.

The inventive. Formation of the pole cores prevents so without Dispensing with the leading pole faces on the magnetogram carrier any double magnetization of the magnetogram carrier and thus the undesirable echo effect. There is a change in the once set state due to wear and tear not given. Instead, the stray field effect can optionally be adjusted to be influenced.

In the drawing, two exemplary embodiments of the invention are shown, namely Fig. i shows a magnetic core, which according to the invention with holes or Columns is provided, Fig. 2 a magnetic core in which adjustable bismuth deposits are arranged.

The horseshoe-shaped pole core i contains between its Poles 2 and 3, the magnetization gap 4, on which the magnetogram carrier 5 passes will. The magnetogram carrier lies close to the outer pole faces 6 and 7 which at the same time give the magn etogram bearer a certain guidance. In the outer corners 8 and 9 of the pole core on the incoming or outgoing magnetogram carrier 5 rest, through holes io and ii are arranged. These holes cause a division of the path of the lines of force, which corresponds to the arrangement of holes towards the outside the pole very narrow, but many times wider towards the inside of the pole core is. According to these very different cross-sections of the two around the Lines of force paths leading around holes io and ri result in very large differences in resistance for the flux of lines of force that lead to the fact that the largest part of this flux of lines of force takes place on the inside of the holes and only insignificant parts of the flow of lines of force gel around the holes on the outside. These tiny remnants of the force-line flow are essentially due to the remaining small iron cross-sections on the Pole edges tied up, so that practically no lines of force on these edges or theirs Exit outside surfaces. With a suitable choice of the position and size of the holes achieve that the magnetic potential at the edges or outer surfaces of the edges Becomes zero or nearly zero. This effect of the hole arrangement according to the invention leaves easily show up in a known manner by means of dusted iron dust.

Instead of round holes, other shapes of recesses can also be used or columns can be chosen. So you can z. B._ instead of the holes io, i i die Select gap shape 12 indicated by dashed lines. Also combinations of hole and Gaps can be arranged in any way.

Fig. 2 shows a similarly designed. Polkern 13, with the at him passed magnetogram carrier, in which in the pole pieces 14 and 15 a diamagnetic material 116 is arranged. The diamagnetic material is made preferably made of bismuth and is arranged in round holes 17, which it is only for Teia fills in. The remaining part of the holes can be magnetically indifferent or also be filled with paramagnetic material, with which the bismuth core connected in a suitable manner. This diamagnetic material causes displacement of the magnetic flux from the outer surfaces of the pole edges to the interior of the Pole shoes and, with a suitable arrangement, prevents lines of force from passing through by the remaining between the diamagnetic material and the outer pole surfaces narrow, high magnetic resistance representing iron cross-sections. By twisting the cylindrical body which fills the holes and is partly made of bismuth, z. B. by means of a screwdriver, the diamagnetic effect can moreover of the bismuth core 16 and thus influencing the magnetic flux in the pole core can be changed and adjusted. The diamagnetic material can also be used in the pole core provided slots be arranged.

Claims (3)

PATENT CLAIMS: i. Magnetization head for longitudinal magnetization of ribbon or wire-shaped magnetogram carriers with poles arranged on the same side of the magnetogram carrier, on the surfaces of which the magnetogram carrier is guided, characterized in that the inside or the surfaces of the pole pieces d'iamagnetic spaces, for example holes (io, ii) , Slots (12) which influence the flux flow in such a way that the magnetic potential at the outer edges of the pole faces is zero or approximately zero. 2. Magnetizing head according to claim i, characterized in that in the on the pole core or its pole faces provided holes or slots diamagnetic material, e.g. @. Bismuth, arranged is. 3. magnetizing head according to claim i and 2, characterized in that the in the holes or slots (io, i i and 12) provided cores (16) made of diamagnetic Material are arranged and designed adjustable.