DE1963097A1 - Magnetic core for a magnetic head - Google Patents

Description

Control Data Corporation ] g

Minneapolis. Minn. " V.St.A. Magnetic core for a haguetton head

The invention relates generally to magnetic sound heads such as use them to record and erase information or used by a recording medium, for example a magnetic tape or a magnetic disk. More accurate Said the invention relates to a magnetic core and a magnetic head housing, which are the main parts of a Llagnettonkopfes form.

In the construction of a magnetic head, there are one or more Magnetic circles are required, each of which forms a magnetic loop that is closed except for an achaalon air gap. When the air gap is arranged close to the recording medium the magnetic orientation of the recording material can be controlled by regulating the magnetic flux in the magnetic head. if on the other hand, the magnetic head has a recording Recording medium is guided, the magnetic changes on the recording medium are caused by the magnetic head scanned so that the record could be read by a device associated with the magnetic head.

A magnetic head with a single air gap can be used for both recording and reading, and especially if the recording and playback device

is designed so that the magnetic head is always above the same narrow track aligned on the surface carrying the recording is. This condition can easily be met if the magnetic heads are opposite to the recording surface are specified, as is usually the case with Magnettrummeltt the case iatj if, on the other hand, a relative page shift is required between the magnetic head and the recording track, it is difficult to ensure that the magnetic head always has to lie exactly over the same track area as often as it is brought into its position. A metric alignment a magnetic head3 above a recording track leads to attenuation of what is read from the track Signal. In addition, a HiS alignment of a recording head has it over a recorded track surface result in incomplete erasure of the previous information when the new information is recorded. In insight Magnet heads with two air gaps can address these difficulties be provided »namely with a for recording and Read and another to delete. This delete gap is the wider of the two air gaps »thereby ensures is that the entire previous information or magnetization is deleted and thus a signal damping or a other disturbance is switched off when reading the information

Magnetic heads of the type just described are often made by building layers of magnetic layers to form the desired geometric configuration. Bin Haehteü of this method is that it requires the observance of close mechanical iEoleranzen to ensure such that _f all layers to form the final product are accurately fitted together. As a result of the comparatively low SrSSe of the magnetic head, it is difficult to reliably maintain these tolerances

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and this difficulty usually forces a trade-off between quality and cost considerations.

Another difficulty with the conventional magnetic cores lies in their structural irregularity. In particular, the air gap widths vary considerably. Also are the air gaps in these conventional magnetic cores are common not symmetrical with regard to their common center line, i.e. the extinguishing gap often protrudes beyond the on one side Record and read gap wider than the other. A split or replacement of the magnetic head the magnetic heads can lead to a partial erasure of the recording track, so that the data can be sent to you cannot be read correctly at a later point in time.

In contrast, the invention overcomes, in particular, the difficulties encountered with traditional magnetic heads Creation of a magnetic core with a tapering core surface in which parallel air gaps of unequal width are provided are. The magnetic core is glued into an opening in the magnetic head body known as a shoe.

According to the invention, magnetic cores of greatly improved uniformity can be machined economically and quietly by successively making two angular cuts in the core surface of a rod or rail made of Mafnetkernwerkstoff, each of which the forms one side of said taper.

The object of the invention is therefore primarily to create a magnetic head with smaller tolerances of the AbnaSe, which eoait allows a replacement and also a full

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BATH ORIGINAL

constant deletion even with permissible misalignments, such as E.g. changes in the angular position of the magnetic head are guaranteed. Of particular importance is that which results from this Construction resulting symmetry of the column in relation to the center line. It is of particular importance that according to the invention the creation of a magnetic core which is easier and more economical to manufacture than conventional ones Magnetic cores, is made possible.

In the following the invention is in an embodiment ' with reference to the drawing, in the figures of which the same parts are denoted by the same reference numerals, in more detail purifies. Show it;

Fig. 1 is a perspective view of a tapered magnetic core with the features of the invention,

FIG. 2 shows a plan view of the underside of the magnetic core according to FIG. 1 _f

3 shows a plan view on a reduced scale the underside of a magnetic head together with a tapered magnetic core, which is the exposed Underside of the magnetic core according to FIG. 1 in the magnetic sound head shows built-in, and

4 a kept on a further reduced scale Section along the line 4-4 in Fig. 3 through the magnetic head to show the built-in magnetic core according to FIG. 1.

In Fig. 1, a tapered magnetic core is generally indicated with

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Ί963097

30 designated. The arrangement consists of magnetic elements in the form of three core pieces made of magnetic material, such as ferrite, arranged practically in line with one another and indicated generally at 10, 12 and 14. The core parts 10 and 14 are essentially U-shaped, so that they are able to accommodate reels 16 and 13, respectively. The sink 16 is used to read and record signals, while the coil 18 is used to erase the signals. The core part has an essentially I-shaped shape.

The parts 10 and 12 are separated from one another by adhesive 20 and 22, which serves as a non-magnetic spacer. The adhesive 22 fills the reading or recording gap 22a and is located between the magnetic core surface intersecting pole faces of parts 10 and 12. When a signal is applied to coil 16, magnetic flux is over the core parts 10 and 12 and via the magnetic surface of a not shown, directly on the magnetic core surface arranged recording medium available.

The core parts 12 and 14 are similarly by adhesive 24 as well as an adhesive 26, which the erase gap 26a fills in, magnetically separated from each other. The magnetic flux for the erase process is similar to that described above Via the core parts 12 and 14. Overall, the magnetic core area consists of the areas 10a, 22a, 12a and 14a.

Fig. 2 is a plan view of the underside of a tapered Magnetic core suitable for use in disk machines. Fig. 2 clearly shows the tapering of the Magnetic core surface as well as the parallel and symmetrical position of the erasing gap and the reading and recording gap.

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each other. According to Pig. 2, the magnetic core according to the invention has, in a preferred embodiment, an essentially rectangular shape. The tapering underside yard consisting of the surfaces 14a, 26a, 12a, 22a and 10a according to FIG. 2, outlined by longitudinal edges 15 and 17 and front edges 11 and 13 and defines an isosceles trapezoid. The reading and recording gap 22 is delimited by edges 22b and 22c. The erasing gap 26a is delimited by edges 26b and 26 and is wider than the first-mentioned air gap. In this connection it should be noted that the edges 22b, 22c, 26c are parallel to one another. The gap edges are each located at the point of intersection between a pole face and the core face. The two gaps 22a and 26a each make an angle Q-? or with the one longitudinal edge 15 fixed. The corresponding angles Θ. to Θ. are each the same size. Each gap therefore forms a trapezoidal trapezium, both gaps 22a and 26 being arranged symmetrically relative to the common center line.

It is apparent to a person skilled in the art that such magnetic cores, their erasing gap and * W reading and recording gap are perpendicular and are symmetrical about their common center line, are sufficiently uniform to be between each device to be exchanged with each other. With magnetic cores of this type, the quenching gap is also sufficient on both Pages equally far across the reading and recording gap. so that complete erasure is assured with normal skewing and misalignment of the magnetic head can be made without the erasing gap being too wide needs to be.

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The Pig. 3 and 4 illustrate a completely en _f consisting of a magnetic core 30 and a housing 32 magnetic sound head. In a preferred embodiment of the invention, the magnetic core 30 is glued into the housing 32. An opening 36 formed in the housing 32 has the same shape as the magnetic core 30, but is slightly larger than this. The opening can define a smooth surface or a stepped surface 19 according to FIG. 1. The remaining space is filled with glass adhesive 34 or another suitable material that remains stable under thermal and mechanical stress. Fig. 3 shows that only a small amount of adhesive 34 is required to bond the two parts together. A counterbore 33 is provided for alignment and attachment purposes.

In addition, since the opening 36 provided in the magnetic head body can be formed according to procedures that are inevitably able to guarantee an exact match between the days, and Since the opening 36 has the shape of the calibrated tapering Magnet Ice rn surface is precisely matched between the individual magnetic head assemblies achieved a high degree of agreement.

In summary, the invention nithin creates one of one Magnetic core and a housing existing novel! Magnetic head. The Hagnetkern has a tapered, with at least two parallel magnetic flux columns provided area, with the one gap the reading and recording function and the other is the JjBsoh function of a magnet mounting arrangement takes over. The »housing has a tapered one Section of the magnetic core on complementary opening. The inventive »novel magnetic head arrangement consists therefore made of a wedge-shaped magnet core, which is rigidly inserted into the

ORIGINAL INSPECTED

Housing is glued in place.

The embodiment of the invention presented above is intended to be self-evident serve only as an example. The magnetic head designs disclosed are in all respects only examples of arrangements in which the invention can be implemented, which will be understood by those skilled in the art rich changes and modifications are possible, without departing from the scope and the basic idea of the invention.

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Claims (8)

Ί963097 Claims J * Magnetic core for a magnetic head with at least two magnetic circuits, characterized by a number of assembled to form a magnetic core body Core parts (10, 12, 14), inserted between the pole faces of the core parts, arranged directly in the magnetic flux, non-magnetic spacers (20, 22 j 24, 26) and one practically perpendicular to the pole faces of the Wedge-shaped extending core parts and intersecting at least two of the non-magnetic spacers Magnetic core surface with two edge surfaces that are practically perpendicular to the magnetic core surface and the non-magnetic spacers are each practically the same Cut angles. 2. Magnetic core according to claim 1, characterized in that da3 the magnetic core surface is practically in a single plane. 3. Magnetic core according to claim 2, characterized in that the interfaces between the magnetic core surface and the non-magnetic spacers ä-calibrated Set trapezoids. 4. Magnetic core, in particular according to one of the preceding claims, for a magnetic sound head for reading, recording and deletion of information, marked by two U-shaped magnetic core parts, each with awei pole faces, arranged on the pole faces of each magnetic core part 009842/1571 - 10 - - ίο - nice non-magnetic spacers, an I-shaped one Magnetirern part which is arranged so that its poles are flat on the non-magnetic see spacers and the magnetic core has two magnetic circles, coils arranged on each U-shaped magnetic core part for inducing and sensing changes in magnetic flux across the spacers in the magnetic circuits and a tapered magnetic core surface which intersects two spacers in such a way that the latter each have unequal width, and which is practically perpendicular to the pole faces of the U-shaped magnetic core parts. 5. Magnetic core according to claim 4i, characterized in that The tapered magnetic core surface is practically in a single plane. 6. Magnetic core according to claim 5 »characterized in that the tapering LIagnetkern-surface has the shape of a possesses isosceles trapezoid. 7. Magnetic core according to claim 5, characterized in that the interfaces between the magnetic core surface and the two non-magnetic spacers are identical Set trapezoids. 8. Magnetic sound head, inabes special with a magnetic core according to one of the preceding claims, for reading, recording and erasing information on a moving, magnetizable surface, characterized in that a ^/ Harriet head-Q-housing for holding a magnetic core in a certain position ratio in relation to the magnetizable ELaCiItJ is provided that an opening of similar Q098A2 / 157 1 Has the shape of the magnetic core and in which the magnetic core is rigidly glued, that the magnetic core has two U-shaped magnetic core parts, each with two pole faces, arranged on the pole faces of each magnetic core part non-magnetic spacers, an I-shaped magnetic core part, the ao is arranged so that its pole face butt against the non-magnetic spacers and the magnetic head will have two magnetic circles on each the U-shaped magnetic core parts provided for coils Inducing and sensing changes in magnetic flux via the spacers in the magnetic circuits and a has tapered magnetic core surface, which intersects the two Abetandetücke such that the latter unequal Have width, and which is practically perpendicular BU to the pole faces of the I-shaped magnetic core part. 9 · Magnetic head according to claim 8, characterized in that the magnetic core is mounted in the magnetic head body in such a way that its magnetic core surface is practically in one plane with one face of this body lies. 009842/1571 Blank page