NL1015833C2 - Thin film magnet head involves transducer fitted on substrate and provided with counter block, assembly of substrate, transducer and counter block being placed in housing - Google Patents

Abstract

The thin film magnet head (1) involves a transducer (4) fitted on a substrate (3) provided with a counter block (5), the assembly of the substrate, transducer and counter block being placed in a housing (6). The housing has side pieces (7) which extend over the opposite sides of the assembly, feeding a magnetic band (2) along the magnet head for each active height position, the band being supported over its complete width.

Description

Title: Method for manufacturing a magnetic head

The present invention relates to a method for manufacturing a thin-film magnetic head provided with a head profile, wherein a transducer mounted on a substrate is provided with a counter-block and this whole of substrate, transducer and counter-block is placed in a housing, which housing is provided with side pieces which extend on either side of said whole to such an extent that a magnetic tape to be passed along the magnetic head for each active height position, which it can occupy relative to the magnetic tape, can thereby be supported over the full width.

In such a known method, a transducer is arranged on a substrate or wafer, which transducer often consists of a number of separate transducer elements; the magnetic head is then referred to as a multi-channel head. The transducer elements can be formed both by elements in the magnetic head that each convert an electric current into magnetic information for recording on a magnetic tape and by elements that convert information stored on a magnetic tape into a resistance change (magnetoresistance transducer elements) or an electrical voltage (inductive transducer elements). The information on a magnetic tape is then distributed over a large number of tracks. This means that, in order to be able to read and write all these tracks separately, the magnetic head must be displaceable relative to the magnetic tape in a transversal direction with the aid of an actuator. to be. In order to be able to support the magnetic tape over its full width, the magnetic head must cover a distance in the transversal direction that is equal to the width of the magnetic tape plus the maximum height stroke that goes to both J 0 1 5 8 3 3 2 sides must be made to be able to read and write the outer traces.

Such known magnetic heads have a head profile that is slightly curved. This profile is applied after the whole of substrate, transducer and counter block has been fitted in the housing. This means that said whole together with the side pieces is provided with the desired profile simultaneously and in one operation.

The magnetic heads can optionally be provided with a protective coating layer. This layer can vary in thickness from a few to 10 hundreds of nanometers, depending on the required wear resistance and the sensitivity with regard to distance losses, which are simply inherent in an existing distance between a magnetic tape to be passed along the magnetic head and the head surface of the transducer elements . This sensitivity is determined by the smallest wavelengths on the magnetic band and can be calculated using the so-called Wallace factor. The coating layer is often applied by applying sputtering techniques. However, the disadvantage here is that the entire magnetic head, i.e. the whole of substrate, transducer, counter block and housing with side pieces, must be brought into the sputtering clock. Because the surface of the side pieces in question does not have to be provided with such a coating layer and, moreover, the housing with the side pieces takes up too much space in the sputtering bell, this method of manufacturing magnetic heads can certainly not be regarded as optimum .

The invention therefore has for its object to considerably improve the known method for manufacturing magnetic heads.

According to the invention, therefore, the method as described in the preamble is characterized in that the profile of said whole of substrate, transducer and counter-block on the one hand, and the substantially identical profile of said side pieces on the other hand in separate 1015833 3 edits are made. In particular, the profiles are applied before the whole of substrate, transducer and counter block is placed in the housing. The method according to the invention makes it possible to manufacture the whole of substrate, transducer and counter-block in a so-called multiple structure and to provide it with a profile with possibly a wear-resistant coating. The consequence of this is again that the cost price of the whole of substrate, transducer and counter block is reduced because several of these units are processed simultaneously per step. A further advantage is that the housing with the side pieces 10 can also be made in one piece by, for example, metal injection molding, pressing of wear-resistant ceramic material or injection molding, in which case a sufficiently wear-resistant plastic is used.

If desired, a coating layer can be applied to the profiled whole of substrate, transducer and counter block before it is placed in the housing. When this coating is applied by sputtering, due to its small dimensions, a multiple construction of substrate, transducer and counter-block can be placed in the sputtering clock and, therefore, several of these units can be coated simultaneously. It is of course also possible that a coating layer is applied to the transducer or to the free ends of its flux conductors before the whole of substrate, transducer and counter block is placed in the housing.

In order to ensure good contact between transducer and magnetic tape, the whole of substrate, transducer and counter-block protrudes at least at the location of the transducer, in particular over a distance of a few micrometers, with respect to the side pieces.

In practice, it has been found that particularly good results are obtained when the whole of substrate, transducer and counter block has a head profile whose radius of curvature is relatively little greater than that of the side pieces and in particular when the radius of curvature of JO15833 4 is the head profile of said whole is approximately 1.3 mm and that of the side pieces approximately 0.85 mm. Nevertheless, a different size is very possible.

In a favorable embodiment the side pieces can be integrated in the housing by applying various molding techniques. High demands will then have to be made on the dimensions and the dimensional accuracy of the housing with side pieces, separate roundings must be made for the side pieces and the choice of the material should be taken into account in conjunction with the desired wear resistance. of the side pieces.

In another embodiment, the side pieces can be formed by cylinders with a radius that substantially corresponds to that of the profile of the whole of substrate, transducer and counter block. These 15 cylinders can then be secured in the housing.

The invention relates not only to a method for manufacturing a magnetic head, but also to a thin-film magnetic head manufactured by applying this method. A transducer provided on a substrate is provided with a counter-block and this assembly of substrate, transducer and counter-block is placed in a housing, which housing is provided with side pieces which extend on either side of said assembly to such an extent that a path to be passed along the magnetic head magnetic band for every active height position, which it can take with respect to the magnetic band, can therefore be supported over the full width.

The invention furthermore relates to a recorder and / or reproducing system, provided with such a thin-film magnetic head according to the invention.

The invention will now be further elucidated with reference to the accompanying drawing. Herein shows: J 0 1 5 8 3 3 5

FIG. 1 shows in a simplified manner a magnetic head mounted on a movable carrier, manufactured by applying the method according to the invention;

FIG. 2 A-C show a front view, a side view and a top view, respectively, of the magnetic head shown in FIG.

The magnetic head 1 shown in the figures is mounted on a linear guide with the aid of which the magnetic head 1 can be displaced relative to a frame in the direction of the arrow P. Such a linear guide is described, for example, in US-A-5,684,657; the text of this document is to be regarded as inserted in the present application and therefore requires no further explanation. A magnetic tape 2 supported by the magnetic head 2 is guided over the magnetic head 1 in the direction of the arrow Q.

The magnetic head is composed of an assembly of a transducer 4 mounted on a substrate 3 with a counter-block 5, as well as a housing 6 with side pieces integrated therein (also referred to as "end-blocks") 7. The assembly of substrate 3, transducer 4 and counter-block 5 is produced simultaneously for several magnetic heads and provided with a head profile and possibly a wear-resistant layer. The housing 6 with the side pieces 7 is also manufactured in its entirety and provided with a profile. The profile of said whole is substantially the same as that of the side pieces. The housing 6 with the side pieces 7 comprises a space between the side pieces 7 where the whole of substrate 3, transducer 4 and counter-block 5 can be inserted and glued or otherwise fixed therein. The height of the whole of substrate 3, transducer 4 and counter block 5 is such that, when this whole is brought into said space between the side pieces 7, the transducer 4 is in any case flush with the side pieces or protrudes slightly, e.g. a distance of a few micrometers, as a result of which a good contact between the magnetic tape 2 and the transducer 4 is guaranteed. In the case that the transducer 4 and possibly the part of the counter block 5 adjacent to the transducer 4 protrudes a little, it is favorable when the edges of the transducer and the relevant part of the counter block are rounded off with the side pieces 7, as is shown in Figure 1. This achieves that a minimally protruding transducer 4 with respect to tape guidance better merges into the side pieces and prevents the otherwise possibly too sharp protruding edges of the transducer 4 and of the relevant part of the counter block 5 has undesirable effects with regard to the handling and service life of the tire 10 2.

It will be clear that the invention is not limited to the manufacture of the magnetic head shown in the drawing, but that all kinds of modifications are possible, of course insofar as they fall within the following claims. For example, it is possible to manufacture the side pieces as separate elements and to provide them with a profile and then to fit them on the housing. Housing and side pieces can then consist of different materials. The side pieces can also be formed by cylindrical bodies with a curvature corresponding to that of the head profile 20 of the whole of substrate, transducer and counter block and subsequently fixed to the housing.

1015833 *

Claims (12)

1. Method for manufacturing a thin-film magnetic head provided with a head profile, wherein a transducer mounted on a substrate is provided with a counter-block and this whole of substrate, transducer and counter-block is placed in a housing, which housing is provided with side pieces which extend on either side of said whole to such an extent that a magnetic tape to be passed along the magnetic head for each active height position, which it can take with respect to the magnetic tape, can thereby be supported over the full width, characterized in that the profile of said whole of substrate, transducer and counter block on the one hand and the substantially equal profile of said side pieces on the other hand are arranged in separate operations. 2. Method as claimed in claim 1, characterized in that the profiles are applied before the whole of substrate, transducer and counter block is placed in the housing. Method according to claim 2, characterized in that a coating layer is applied to the profiled whole of substrate, transducer and counter block before it is placed in the housing. A method according to claim 2, characterized in that a coating layer is applied to the transducer or to the free ends of its flux conductors before the whole of substrate, transducer and counter block is placed in the housing. Method according to one of the preceding claims, characterized in that the whole of substrate, transducer and counter block is at least 2. at the location of the transducer flush with or slightly protruding from the side pieces. 10 1 5 833 Method according to claim 5, characterized in that the whole of substrate, transducer and counter block protrudes over a distance of a few micrometers with respect to the side pieces. 7. A method according to any one of the preceding claims, characterized in that the whole of substrate, transducer and counter-block has a head profile whose radius of curvature is relatively little greater than that of the side pieces. 8. Method as claimed in claim 6, characterized in that the radius of curvature of the head profile of said whole is approximately 1.30 mm and that of the side pieces approximately 0.85 mm. Method according to one of the preceding claims, characterized in that the side pieces are integrated in the housing. 10. Method according to one of the preceding claims, characterized in that the side pieces are formed by cylinders with a radius 15 that substantially corresponds to that of the profile of the whole of substrate, transducer and counter block. 11. Thin-film magnetic head, manufactured by applying the method according to one of the preceding claims, wherein a transducer mounted on a substrate is provided with a counter-block and this whole of substrate, transducer and counter-block is placed in a housing, which housing is provided with side pieces extending on either side of said whole to such an extent that a magnetic tape to be passed along the magnetic head for each active height position, which it can occupy relative to the magnetic tape, can be supported over the full width thereby. A recorder and / or reproducing system, provided with a thin-film magnetic head according to claim 11. 101 5833