DE1114335B - Magnetic head - Google Patents

Description

Magnetic head The invention relates to a magnetic head for recording and / or reproducing adjacent magnetic tracks, preferably for recording and / or playing back closely spaced tracks.

Around individual magnetic recording tracks as close together as possible to be able to arrange is an essential precondition that the crosstalk of neighboring Tracks are made sufficiently small. For this purpose it has already been suggested for recording or for reproduction or for both an arrangement of several Heads and by suitable switching of the coils or other means to compensate for the interference in the playback head caused by the crosstalk. Such a setup is quite complicated. It consists of at least three individual ones Magnet systems; setting the compensation is difficult. The whole process is therefore not suitable for series production.

According to another known recording method the cleavage planes of adjacent tracks are twisted against each other. This proposal too however, leads to unsatisfactory, extremely complicated facilities.

Another method has been proposed for multi-channel methods, particularly in sound film recordings. Multiple heads are also used here. These are all charged with the bias current during normal operation. If only one track is discussed, the magnetization of the adjacent tracks causes them to be erased; this method is therefore only suitable for simultaneous discussion of adjacent tracks. Since the crosstalk is not affected, in reproducing, it requires a conventional large distance between the individual tracks, in order to achieve an adequate crosstalk attenuation in the reproducing operation.

However, none of the previously known methods is able to to hinder the fields emanating from the adjacent lanes from spreading or to render harmless. The present invention is, in a simple Way to limit the crosstalk from neighboring tracks during playback or at all to avoid. It is another object of the invention, also for recording the overlapping of the magnetizing. Fields in the area of neighboring tracks largely to reduce or avoid. In a magnetic head of the type described. Kind will this is achieved by on the outer surface of pole pieces with such training and Width arranged in the direction of travel of the carrier and resting against the magnetogram carrier during operation Short-circuit pieces of a ferromagnetic fitting that forming the least magnetic shunt for the magnetic circuit with the legs the useful field when speaking through shielding on the track to be spoken exclusively or largely limited, but the field of the next to the track to be scanned when scanning lying traces is short-circuited. As has been stated, occurs because those to be recorded or scanned. Track of neighboring, tracks or magnetogram carrier areas are brought into contact with ferromagnetic short-circuit pieces harmful influence on the magnetograms in short-circuited tracks. On the other hand the field of these magnetagrams, because it is short-circuited, is subject to propagation kept irr the excitation sphere of the scanning system. Both ensure that no harmful Influence occurs as well as a field short circuit that is as effective as possible to reach. it is necessary according to the invention that the ferromagnetic short-circuit pieces at least in the area laterally adjacent to the gap the magnetogram carrier in in the same way as the scanning system itself. Preferably the dem Magnetogram carrier adjacent surface of the short-circuit pieces to a multiple of Made the surface with which the pole pieces rest on the magnetogram carrier. For example are the contact areas of the short-circuit pieces, what yours Length in the running direction of the magnetogram carrier is concerned, 4 mm, if the pole pieces a have those of 2 mm and the gap is 7 #t.

According to the invention, they are arranged in the manner described and formed ferromagnetic short-circuit pieces in recording an extraordinary Shielding of the adjacent tracks from the field originating from the recording medium, so that the side tracks remain practically free of unwanted recordings.

To reduce the shunt caused by the short-circuit pieces hold and at the same time the distance between the edge facing the pole pieces Defining short-circuit pieces and these is a further refinement of the basic idea proved to be advantageous between the pole pieces and the short-circuit pieces to arrange a layer, which is preferably made of a diamagnetic substance, ie a material with high negative susceptibility, for example Ag, Bi or graphite. Such substances also have an effect on the field in the desired Deforming senses when arranged according to the invention.

According to a further embodiment of the invention, a single Ferromagnetic fitting can be designed such that it is the short-circuit pieces forms. In order to be able to arrange the tracks as closely as possible, it is advantageous to the short-circuit pieces at the same distance, preferably a smaller distance than to arrange the track edge spacing, so that they are already in the space between adjacent tracks begin. It is therefore necessary to change the shape and arrangement to choose according to the present invention to the conditioned by the molding To keep the shunt to the recording or playback circuit as low as possible.

The invention is explained in more detail in the figures.

In Fig.1, 1 and 1 'are the magnet legs that form the pole pieces 2 and 2'. These pole pieces form the usual working gap of the head system at point 3. 4 is a ferromagnetic bridge between the legs 1 and 1 'which, if necessary with the interposition of a suitable, non-ferromagnetic material, closes the magnetic circuit at 5 and 5'. The winding arranged on the legs in a known manner is denoted by 6 and 6 '.

The ferromagnetic shaped piece 7 forms the magnetogram carrier in the vicinity of the current recording or playback closely fitting short-circuit pieces 8 and 8 '; between this shaped piece and the pole pieces there are, for example, diamagnetic intermediate layers 9, 10 and 9 ', 10'. In the embodiment shown as an example in the figure, the thickness of this intermediate layer 9 and 10 is each 0.05 mm; the material used is silver. The thickness of the shaped pieces 7 and thus the width of the short-circuit pieces 8 and 8 ' resting on the magnetogram carrier is, for example, 0.5 mm (see FIG. 1 a). The width of the pole pieces 2, 2 'and thus that of the recorded track is selected to be 0.35 mm in this example.

As can be seen from this exemplary embodiment, the invention accordingly consists of a magnetic head for recording and / or reproducing adjacent magnetic tracks, preferably for recording and / or reproducing closely adjacent tracks with on the outer surface of the pole pieces 2, 2 ' with such a design and Width of short-circuit pieces 8, 8 'of a ferromagnetic shaped piece 7, arranged in the direction of travel of the carrier and resting on the magnetogram carrier during operation, which exclusively or largely reduces the useful field when speaking by shielding the track to be spoken while forming the slightest magnetic shunt for the magnetic circuit with the legs 1, 1' limited, but during scanning the field of the tracks lying next to the track to be scanned is short-circuited.

Further embodiments according to the invention are described below.

Both the gap filling and the intermediate layers 8 and 10 can be applied by one of the known methods or used in the form of a film. In any case, it must be ensured that the pole pieces 2, 2 ', the diamagnetics and the ferromagnetic shaped piece 7 form a mechanically solid, unchangeable body, since any change in the position of the individual components to one another and to the magnetogram carrier would change the magnetic properties of the system . It has therefore proven to be expedient to choose the shape shown in FIG. 1 for the molded piece 7 and to connect it to the intermediate layer 9, 10, preferably in a teaching, by means of a worm-hardenable adhesive. If 9, 10 consists of a foil, then this is expediently defined using the same method and invariably connected to the pole pieces 2, 2 'or the legs 1, 1'.

Fig. 2 shows the effect of the arrangement according to the invention. In Fig. 2a, 1 gives the course of the magnetization of a track in the idealized case; 22 gives the course of the level that is obtained when one scans a magnetogram according to 21 with a head whose pole width is the same as the track width and which is shifted transversely to the direction of movement, which is a thought experiment. Fig. 2 gives the results of measurements on actual magnetograms. The magnetogram carrier is discussed in the measured track with 120 Hz. 23 gives the level that is achieved with a measurement analogous to that on which 22 in Fig. 2 a is based, if a conventional head is used. Fig. 25 shows the result of the same measurement using a magnetic head according to the invention. Recording and scanning are each carried out with the same head.

If one reduces the measurement results shown in Fig. 2b with regard to the width of the scanning system in accordance with the dependence of curves 21 and 22 from Fig. 2a and if one takes into account that the recording and playback processes are basically not limited to the track width, the result is actual image of the magnetization of the carrier in the track and its surroundings for a conventional head is curve 24 and for such a head according to the present invention 26 in Fig. 2b and finally curves 27 and 28 in Fig. 2c. These curves are also an image of the scanning sensitivity of the two examined head constructions as a function of the distance from the center line of the pole pieces transverse to the direction of movement of the magnetogram carrier.

As Fig. 2c shows, it is possible by means of the inventive arrangement in fact, the magnetogram on the other side of the geometric track width decays steeply to bring and the scanning sensitivity transverse to the direction of travel of the wearer to decrease quickly beyond the pole piece width.

Fig. 3 shows an exemplary embodiment, where 11 is a plastic molded part is that of the magnetic system that is attached to the visible pole pieces 2, 2 'with the short-circuit piece 7 connects, surrounds and in turn more common by shielding Kind is surrounded, which are designated by 12 and 12 '. 13 and 13 'are the two Terminating contact pins, according to a further design concept in per se known way are designed as precision pins that are geometrically accurate with regard to their distance from the plane in which the magnetogram carrier with the Pole pieces 2, 2 'has contact, defined in the plastic compound 11 are anchored.

The plastic molded body 11 further supports three or more lugs 14, 14 'and 14 "are their end faces exactly to the gap plane perpendicular, and preferably have a defined relative to, for example, one of the Polstückkanten height. In this way, in conjunction with the connection of precision pins 13 and 13 ' achieves that the magnetic heads can be easily exchanged and generally do not require any adjustment.

The precise machining of the end surfaces of the noses 14, 14 'and 14 " is achieved in that the finished magnetic head is received in a gauge, where the head tip, i.e. the component made up of pole pieces and ferromagnetic shaped piece 7 and a fit 15 (Fig. 3 a) serve as a receptacle. In this teaching the End surface of the noses ground level and vertically.

As already stated, it is necessary for the short-circuit pieces 8, 8 'to lie completely against the magnetogram carrier in the vicinity of the gap. According to a further embodiment, pole pieces 2, 2 ' and short-circuit pieces 8 and 8' as well as the intermediate layers 9, 10 are ground together so that the surface of the magnetic head 18 resting on the magnetogram carrier is flat and designed in such a way that it clings exactly to the carrier, i.e. is provided with the same curvature as this one.

In order to keep the magnetic shunt as low as possible, after another embodiment the fitting? be designed so that its Longitudinal surfaces 16, 16 'are pointed towards the recording medium, the Removal of its inner surfaces opposite the pole piece side surfaces with the height above the magnetogram carrier level increases sharply.

Claims (12)

CLAIMS: 1. Magnetic head for recording and / or reproducing from adjacent magnetic tracks, preferably for recording and / or reproducing of closely spaced tracks, characterized by on the outer surface of the pole pieces (2, 2 ') with such a training and width in the carrier running direction and arranged Short-circuit pieces (8, 8 ') of a ferromagnetic one resting on the magnetogram carrier during operation Form piece (7) that with the formation of the slightest magnetic shunt for the magnetic circuit with the legs (1,1 ') through the useful field when speaking Shielding is limited exclusively or largely to the track to be recorded, when scanning, however, the field of the tracks lying next to the track to be scanned is short-circuited is. 2. Magnetic head according to claim 1, characterized by diamagnetic layers (10, 10 ') made of a material with high negative susceptibility. 3. Magnetic head according to claim 1, characterized in that the shaped piece (7) has longitudinal surfaces (16, 16 ') which are pointed towards the recording medium. 4. Magnetic head according to claim 1, characterized in that the transverse surfaces (17) of the shaped piece (7) to avoid short-circuiting the track swept by the magnetic head, shorter are than the longitudinal surfaces, preferably by about 2 mm. 5. Magnetic head according to claim 1; -characterized in that the material thickness is not reduced by tapering of the shaped piece 7 is dependent on the track width; it is preferably the same as this Width or a multiple thereof. 6. Magnetic head according to claim 1, characterized in that that the surface of the magnetic head (18) resting on the magnetogram carrier is flat and so is designed that it rests exactly on the carrier, so with the same curvature is provided like this one. 7. Magnetic head according to claim 1, characterized in that that the short-circuit pieces (8, 8 ') or these and the intermediate layers (10, 10') to the Magnetogram carrier with an area that is larger than the adjacent area of the pole pieces (2, 2 '), preferably twice to five times as large. B. Magnetic head according to Claim 1, characterized in that the pole pieces (2, 2 '), the layers (10, 10') and the ferromagnetic shaped piece (7) form a mechanically solid, mechanically and magnetically unchangeable body. 9. Magnetic head according to claim 1, characterized in that the pole pieces (2, 2 '), layers (10, 10 ') and shaped pieces (7) in a known manner by means of a thermosetting or time-curing Adhesive in a teaching that defines the components and orientates them to one another get connected. 10. Magnetic head according to claim 1, characterized in that the Legs (1, 1 '), the layers (10, 1.0') and the shaped piece (7) in a known manner of an insulating body, preferably made of polystyrene or a polyamide or the like. is surrounded, which encloses them in a precisely defined geometric shape. 11. Magnetic head according to claim 1, characterized in that for easy replacement without adjustment and for connecting the magnet system to the electrical circuit of a magnetic Recording and / or playback device in a known manner precision Connector pins serve that are anchored geometrically precisely defined in the insulating body. 12. Magnetic head according to claim 1, characterized in that the insulating body (11) the shield (12) penetrating lugs (14, 14 'and 14 "), the end surfaces of which are exactly perpendicular to the direction of the working gap, and at a certain, defined height in References under consideration: German Patent Nos. 588 105, 759 260, 893 385; British Patent Nos. 721755, 699 885; USA: Patent No. 689 274; Journal of the SMPTE, vol. 61 , P. 390 to 394; Hennig: "Dauermaagnettechnik", Munich, 1952, p.9.