CH633904A5 - Magnetic head with a flying element - Google Patents

Description

633904

Claims (3)

PATENT CLAIMS 1. Magnetic head for writing and reading information on a magnetizable recording medium during a relative movement between this and the magnetic head, with a missile for the generation of an air cushion carrying the magnetic head during the relative movement and with a magnetic transducer element consisting of a substrate and layers applied thereto consists of electrically conductive, magnetic and insulating, non-magnetic material, characterized in that the missile (1) is formed by the substrate. 2. Magnetic head according to claim 1, characterized in that the magnetic transducer element (2) is covered by an insulating protective layer (3) with the exception of the connection contact surfaces. 3. Method for the production of magnetic heads according to claim 2, characterized by the following method steps: a) Application of layers of electrically conductive, magnetic and insulating, non-magnetic material in an alternating sequence and with the interposition of chemical etching processes for the simultaneous formation of a number of magnetic transducer elements (2) on a substrate (1), the thickness of which corresponds to the expansion of the missile (1) in Direction of relative movement is the same. b) Covering the magnetic transducer elements (2) with the exception of the connection contact surfaces with an insulating protective layer (3), c) dividing the substrate (1) to separate the magnetic transducer elements (2), d) grinding and lapping the substrate (1) to produce the final shape, e) Connecting the connection wires to the connection pads. The invention relates to a magnetic head with a missile according to the preamble of patent claim 1. It is known to equip magnetic heads, which are intended for use in magnetic disk storage, with a missile. During operation, an air bearing is formed between this and the surface of the magnetic recording disk as a result of the relative movement, which allows the magnetic head to hover above the surface of the recording disk. An attempt is made to keep the distance between the magnetic head and the surface of the recording disk small and as constant as possible by appropriately designing the side of the missile facing the recording disk (cf. DE-OS 24 07 500, USA, Az.: 337 032). In the known arrangements, the magnetic transducers are arranged at the rear end of the missile in terms of the relative movement. It is also known (DE-OS 23 33 812) to produce integrated magnetic transducer elements by depositing electrically conductive, magnetic and insulating non-magnetic layers on a substrate whose thickness is usually about 0.5-1 mm A missile would now have the option of attaching the integrated magnetic transducer element to the rear end of a special missile in terms of relative movement by gluing with epoxy resin or by soldering with a glass solder with a correspondingly low melting temperature. Fastening in such a way that the integrated magnetic transducer element is located in the space between the substrate and the missile would be relatively easy to carry out, but would entail considerable disadvantages. Since the connecting contact surfaces are embedded together with the connecting wires, only very thin wires can be used in order to keep the intermediate layer as thin as possible. Further solder terminals outside of the embedding are therefore required to enable the transition to thicker wires. Nevertheless, there are still relatively thick intermediate layers, which are very “washed out” during the final lapping process, i. H. be deepened. Furthermore, the connecting wires can tear due to the different thermal expansion coefficients, especially when soldering glass. Such damage can no longer be repaired, even if a broken wire is just outside the splice. The invention is based on the object of specifying a magnetic head with a missile and with a magnetic transducer element which is easy to produce and has no adhesive or soldering points in the area of the sliding surface of the missile. This object is achieved with the aid of the features listed in the characterizing part of patent claim 1. The production of a magnetic head designed according to the invention can be found in patent claim 3. Its features a) to c) are known per se, but with the essential restriction that the thickness of the substrates usually used is about 0.5 to 1 mm and thus only a small fraction of the length of the missile. The invention is explained in more detail below with reference to an exemplary embodiment shown in simplified form in the drawing. The figure shows the side view of a magnetic head with the missile 1 and the magnetic transducer element 2, which is covered by a protective layer 3. The connection wires 4, 5 and 6 are soldered to the connection contact areas not covered by the protective layer. Arrow 7 marks the direction of the moving surface of the recording disk under the magnetic head. The magnetic transducer element is thus located at the rear end of the missile. The recording disk facing side of the missile 1 is slightly curved to achieve a stable flight position or provided with pronounced slide rails (see FIG. DE-OS 24 07 500). Devices for attaching the magnetic head to a holder are not shown in the figure. The design of the magnetic head according to the invention has the advantage that the sliding surface of the missile is not interrupted by any adhesive or soldering point which would give rise to a groove transverse to the direction of the relative movement after the final fine machining. Furthermore, the connecting wires are only soldered on to the finished magnetic head. The magnetic heads designed according to the invention are initially produced in a manner known per se. It is also expedient in the present case to produce a large number of magnetic transducer elements on a correspondingly large substrate plate, which, however, is now considerably thicker than usual. All magnetic transducer elements can now also be covered with a protective layer that leaves the connection contact surfaces free. To separate the magnetic transducer elements, the substrate plate is divided as usual. The surfaces of the resulting cube-shaped structures are then further processed in such a way that the desired shape of the missile is finally created. This rework, which would also be required after the assembly of a prefabricated missile and a prefabricated magnetic transducer element located on a thin substrate, is now no longer disturbed by connecting wires. In the arrangement according to the invention, as already mentioned, these are only soldered on after the magnetic head has been finally shaped. 2 5 10 15 20 25 30 35 40 45 50 60 65 G 1 sheet of drawings