DE1149390B - Magnetic head for writing on and / or reading a magnetic tape - Google Patents

Description

Magnetic head for writing on and / or reading a magnetic tape There are already known arrangements for magnetic recording of television signals at which the magnetic tape is written on in tracks, the direction of which is from the longitudinal direction of the tape is different. It is also known to have a magnetic tape perpendicular to the plane of the tape to be labeled magnetically.

In a known device, the transverse to the longitudinal direction of the tape running tracks through several successively coming into the area of the tape Magnetic heads written or read, which are mounted on an armature that rotates around an axis running parallel to the longitudinal direction of the belt rotates.

This known arrangement for writing on or reading a magnetic tape requires high mechanical precision and also has the disadvantage that the magnetic heads have to be switched on via slip rings, which creates difficulties prepares. In addition, magnetic heads are expensive and subject to high wear.

The purpose of the invention is to overcome the disadvantages of this known arrangement to avoid.

The invention relates to a magnetic head for writing and / or reading of a magnetic tape in tracks whose direction is different from the longitudinal direction of the Band is. The invention is characterized in that on one flat side of the moving magnetic tape is a stationary one extending across the tape Pole shoe is provided that on the opposite flat side of the magnetic tape pole piece tongues of small cross-section moved successively across the width of the magnetic tape are provided that the moving pole piece tongues with each other and with the stationary Pole shoes are connected via a magnetic yoke and that in that way resulting magnetic circuit one or more fixed winding (s) for The supply and removal of signals is (are) provided.

Embodiments of the invention based on the Fig. 1 to 4 are explained in more detail.

FIG. 1 is intended to explain the principle of the invention. The magnetic tape to be written on or to be read is denoted by 1. It is moved in the direction of arrow 2. On one flat side of the moving magnetic tape, here the upper one, is a. arranged transversely to the band extending pole piece 3. On the opposite flat side of the magnetic tape 1 provided with the magnetic layer, here the lower side of the tape, a pole shoe tongue 4 moves transversely to the longitudinal direction of the tape and has a small cross-section at its end facing the tape. Between the pole piece 3 and the moving pole piece tongue 4 there is a magnetic yoke 5, which is shown here only schematically by a line. In this circle - here on the stationary pole piece 3 - a winding 6 is provided, which is used to supply the signals when writing and to pick up the signals when reading. Instead of one winding in the magnetic circuit, several such windings can also be provided. The scanning as well as the writing of the tracks come about in that on the one hand the magnetic tape 1 is moved in the direction of the arrow 2 and the moving pole piece tongue is moved transversely to this direction under the stationary pole piece 3. This results in a track, the beginning of which is shown in FIG. 1 and denoted by 7. The transverse movement of the moving pole shoe tongue is expediently caused by the fact that several such tongues are provided on a body, preferably a rotating body, made of magnetically highly conductive material, which are moved transversely to the longitudinal direction of the tape by the rotational movement of the armature. In the present exemplary embodiment, the stationary pole piece 3 touches the strip with a small end face. To adapt to the rotational movement of the moving pole piece tongues. the magnetic tape 1 can be arched by means of a guide. The end face of the fixed pole piece 3 is also adapted to this curvature.

The pole shoe tongue 4 expediently consists of a thin wire or sheet metal strips made of highly permeable material. When recording with the invention Magnetic head, the magnetic field lines penetrate the magnetic tape at the transition from the moving pole piece tongue to the stationary pole piece in the direction of the thickness of the Band. The magnetic particles of the magnetic tape are therefore with the lettering oriented in the thickness direction. Such a magnetization gives a cheaper one Useful-to-interference signal ratio than with the usual magnetic heads, since the same Storage density on the surface a larger volume within the magnetic tape is magnetically oriented than in the known magnetization process with the conventional magnetic heads, in which the one lying on one side of a magnetic tape Magnetic heads generate field lines that are essentially in the longitudinal direction of the tape run and penetrate only a little into the magnetic layer of the tape.

In the arrangement according to the invention, almost all of the magnetic Flux is used to magnetize the tape, while with conventional magnetic heads with the pole shoe gap only an extremely small part of that generated by the field winding Flux can be used to magnetize the tape. From this it follows that in the version proposed here, the losses in the yoke are much smaller can be held than with magnetic heads with a pole shoe gap. Accordingly is even when reading magnetically stored signals those in the winding of the proposed Magnetic head induced voltage higher than previous designs, where the pole shoe gap represents a strong shunt to the useful flux in the coil.

The abrasion of the magnetic tape can be reduced by both the fixed pole piece and the moving pole piece tongues in magnetic embeds neutral bodies, which are shaped in such a way that the magnetic tape ate as possible gently up and down on the pole pieces. Such an embedding is indicated in FIG. 2. It shows a section through one in the plane of the drawing to be moved pole shoe tongue 8 and by the perpendicular to the plane of the drawing, domed magnetic tape 9, which is penetrated by the useful magnetic flux 10, which from the end face of the pole piece tongue to the stationary one (not shown) Pole shoe crosses.

In contrast to the usual magnetic heads with a pole shoe gap, it is with the arrangement according to the invention easily possible that the magnetization of the tape generating alternating magnetic field by eddy current damping to a smaller one To concentrate area, whereby the achievable storage density is increased. Namely, the pole piece tongue 8, for example, a few microns thick and on the front surface may be a few tenths of a millimeter wide, laterally by baking 11 limited from electrically highly conductive material, so prevent this by training of eddy currents the leakage flux 12, which in the absence of these metallic jaws emerge from the side surfaces of the pole piece tongue and magnetize the strip would contribute. Between the jaws 11 and the pole piece tongue 8 can be a thin insulating intermediate layer can be provided to provide additional cushioning of the Avoid useful fluxes -s 10 due to eddy currents. Similarly, a Stray flux emerging from the fixed pole piece can be suppressed. The on Such a way of preventing leakage fluxes also affects reading magnetically stored information.

While in Fig. 1 only one of the moving pole shoe tongues 4 schematically is shown, with reference to FIG. 3, a complete arrangement of an inventive Magnetic head are described.

The magnetic tape is moved perpendicular to the plane of the drawing. The magnetic tape designated 13 is, as already explained with reference to FIG. 1, nestled against the stationary pole shoe 14, which is narrow in the longitudinal direction of the magnetic tape, or a correspondingly curved guide, with a thin air cushion reducing the friction. The moving pole shoes are formed by thin ferromagnetic tongues 15 to 18 which are attached to the circumference of a rotor 19. The rotor 19 consists of a magnetically highly conductive material; it rotates about an axis 20 which runs parallel to the longitudinal direction of the magnetic tape 13. The curvature of the magnetic tape 13 by appropriate shaping of the fixed pole piece 14 or the tape guide as well as the diameter of the rotor 19 and the number of moving pole piece tongues are chosen so that whenever one tongue is under the right edge of the pole piece 14, the next one Tongue under the left edge of the pole piece 14 is. The magnetic return path is formed by a ferromagnetic body 21, which is brought close to the rotor in the lower part in order to reduce the magnetic resistance of the return path. A winding 22 is provided on the part 21 for supplying or removing the signals, depending on whether the magnetic head is used for writing on or for reading a magnetic tape.

Another embodiment of an arrangement according to the invention 4 shows in section. In this embodiment. is the length of the magnetic Conclusion between the rotor with the moving pole piece tongues and the stationary one Pole shoe has been shortened further. The magnetic tape is denoted by 23. It will be in Moved in the direction of arrow 24. Similar to the embodiment of Fig. 3, a rotor 25 is provided below the belt, which rotates about an axis 26. In Fig. 4, the narrow side of the fixed pole piece 27 can be seen. The winding for supplying or removing the electrical signals is denoted by 28. The magnetic one Reflux runs in two parallel, symmetrical branches from the top of the Kerns with the excitation coil 28 to form two large-area pole pieces 29 and 30, the two .ringiform pole pieces 31 and 32 of the rotor are opposite. Of the The magnetic circuit is established between the pole pieces 29, 30 and the beads 31 and 32 of the rotor 25 passing through magnetic tape 30 closed. The one caused by this Penetration of the magnetic tape with the return field lines affects the magnetization of the magnetic tape only imperceptibly, since the area of the pole shoes 29, 30 is many times over is larger than the penetration area of the magnetic field lines between the fixed Pole shoe and the one moving under it Tongue.

Claims (10)

PATENT CLAIMS: 1. Magnetic head for writing on and / or reading a Magnetic tape in tracks running transversely to the direction of travel of the tape with a direction of magnetization perpendicular to the band plane, characterized in that on one flat side of the moving magnetic tape has a fixed pole piece extending across the tape it is provided that one after the other on the opposite flat side of the magnetic tape Pole shoe tongues with a small cross-section that are moved across the width of the magnetic tape are provided are that the moving pole piece tongues with each other and with the fixed pole piece are connected via a magnetic yoke and that in the resulting magnetic circuit one or more fixed winding (s) for supply and Acceptance of the signals is (are) provided. 2. Magnetic head according to claim 1, characterized characterized in that the fixed pole piece in the longitudinal direction of the magnetic tape is narrow. 3. Magnetic head according to claim 1 or 2, characterized in that that the moving pole shoe tongues on a preferably rotationally symmetrical body are attached with at least partially low magnetic resistance, around one that runs at least approximately parallel to the direction of movement of the magnetic tape Axis rotates. - *. Magnetic head according to Claim 3, characterized in that the moving Pole shoe tongues are formed by thin ferromagnetic wires or sheets. 5. Magnetic head according to claim 2 and 3, characterized in that the moving pole shoe tongues are narrow, with their longitudinal direction at least approximately perpendicular runs to the longitudinal direction of the end face of the fixed pole piece. 6. Magnetic head according to one of claims 3 to 5, characterized in that means are provided are to the magnetic tape in the area of the pole pieces to adapt to the rotational movement to arch the moving pole piece tongues. 7. Magnetic head according to claim 6, characterized in that that the fixed pole piece arched to match the curvature of the magnetic tape is. B. Magnetic head according to one of Claims 1 to 7, characterized in that at least the moving pole piece tongues close to the circumference of a rotating body partly made of magnetically highly conductive material standing approximately in the radial direction are attached and that the magnetic yoke by means of large pole pieces takes place via the magnetic tape. 9. Magnetic head according to one of claims 1 to 8, characterized characterized in that the pole pieces are embedded in non-magnetic bodies that are shaped so that they a smooth up and down of the moving magnetic tape guarantee. 10. Magnetic head according to one of claims 1 to 9, characterized in that that to suppress the alternating field leakage flux emerging from the pole pieces by means of eddy current damping, the pole shoe tongues are at least partially conductive Material are surrounded. Publications considered: F. Schuh and M. Mikhnewitsch, "L'Enregistrement Magnetique", 2 'edition, 1952, pp. 34 and 35.