SU1727166A1 - Assembly of magnetic heads - Google Patents

Description

The inter-channel screen is made of two plates, with the inter-channel screen plates connected to each other through a cylindrical support located in the plane of the working gaps of the two-track modules and fastened with an adhesive substance.

In addition, each of the inter-channel screen plates is made of a two-layer magnetically soft and non-magnetic material, with the magnetically soft layers facing each other and containing two opposing grooves in which a cylindrical support is installed in the form of a wire.

Each of the inter-channel screen plates is made of a two-layer magnetically soft and non-magnetic material, the magnetically soft layers facing each other and one of them contains a recess in which a cylindrical support is installed, made in the form of a lining in another layer.

One of the plates of the interchannel screen is made of a non-magnetic material, with the non-magnetic plate and the magnetic layer of the other plate facing each other and contain two opposite grooves in which a cylindrical support in the form of wire is installed.

One of the plates of the inter-channel screen is made of a non-magnetic material, and the other is a two-layer magnetically soft and non-magnetic material, with the non-magnetic plate and the magnetically soft layer of the other plate facing each other and the first one contains a notch in which a cylindrical support is installed, magnet lagging layer.

FIG. 1 shows a block of magnetic heads with clamping means for azimuthal adjustment of the two-track modules to each other; in fig. 2-5 are four embodiments of an inter-channel screen with a cylindrical support.

The block of magnetic heads contains inter-channel channel 1 with non-magnetic 2, for example, camelone, and magnetic 3. for example, from permallo or amorphous amorphous alloy, layers, cylindrical protrusion 4, notches 5, as well as two two-track modules, each of which includes interhead screen 6, pole tips 7 in the form of plates from sendust, interconnected through the gaskets of working gaps 8, closing cores 9 in the form of ferrite plates, windings 10, winding screen 11.

Make a block of magnetic heads as follows.

Claims (5)

Two identical two-track modules are formed by fixing the pole pieces 7 with working gaps 8 located in the same plane on opposite sides of the interhead screen 6 consisting of two non-magnetic and one magnetic layer. Moreover, one of the pole pieces 7 and the interhead screen 6 are made smaller than the other pole piece. This embodiment allows further locking of the locking cores 9, and hence the windings 10, at different distances from the working surface of the pole pieces 7 and on one side. The resulting modules, smeared with adhesive, are placed on both sides of the inter-channel screen 1, two plates of which are also bound by an adhesive, for example, a compound, are interconnected through a cylindrical support 4, which ensures their mutual mobility and, consequently, their mobility two-track modules in the azimuthal direction. The inter-channel screen plates are a combination of magnetic and non-magnetic layers shown in FIG. 2-5. In this case, the cylindrical support 4 can be made both in the form of a piece of wire (Fig. 2, 4), and in the form of a protrusion (Fig. 3, 5), and in order to avoid the displacement of the plates, it is installed in one or two notches. After this assembly has been completed, it is placed in a clamping device (Fig. 1), which allows the inclination of one of the two-track modules to be changed relative to the other, reducing misalignments between the channels and using optical alignment or alignment using the hologram pattern. When an optimum position is found between the channels, the modules and the plate of the inter-channel screen 1 are fixed by drying the polymerization of the compound. Claim 1. Block of magnetic heads, containing an inter-channel screen, on opposite sides of which there are two-sided modules fixed, each of which consists of two pole heads separated by an interhead screen, with working gaps, coupled with two locking cores with windings, which are located at different distances from the working surface of the pole pieces, characterized in that, in order to improve the quality of the output parameters by reducing the distortions between the channels when In this case, a cylindrical support was inserted into it, and the interchannel screen was made of two plates, the interchannel screen plates interconnected through a cylindrical support located in the plane of the working gaps of the two-track modules, and fastened with an adhesive. 2. The unit according to claim 1, characterized in that each of the inter-channel screen plates is made of a two-layer soft and non-magnetic material, with the magnetically soft layers facing each other and containing two opposite grooves in which a cylindrical support is installed wire. 3. The unit according to claim 1, characterized in that each of the inter-channel screen plates is made of a two-layer magnet of non-magnetic and non-magnetic materials, the magnetically soft layers facing each other and one of them contains a recess in which a cylindrical support is installed, is made in the form of a protrusion in another layer. 4. The unit according to claim 1, characterized in that one of the plates of the inter-channel screen is made of a non-magnetic material, and the other is a two-layer magnetically soft and non-magnetic materials, the non-magnetic plate and the magnet-soft layer of the other plate facing each other and contain two opposite grooves in which a cylindrical support is installed in the form of a wire. 5. The unit according to claim 1, characterized in that one of the plates of the inter-channel screen is made of a non-magnetic material, and each other - a two-layer magnet of a soft and non-magnetic material, with the non-magnetic plate and the magnet-soft layer of the other plate facing each other and the first It contains a recess in which a cylindrical support is installed, made in the form of a projection in a magnetically soft layer. Put: l