SU809331A1 - Multitrack magnetic head assembly - Google Patents

Description

The invention relates to instrumentation, namely, to designs of multi-track magnetic heads for magnetic recording apparatus. A known block of magnetic heads, in which the iron core consists of two identical halves, provided with pole pieces. Each pair of poles is divided by a non-magnetic gasket 1. A distinctive feature of this multi-track block is the asymmetrical arrangement of the windings on the cores of adjacent heads (in a checkerboard pattern), which makes it possible to bring the cores together and increase the transverse recording density. A disadvantage of the known block of magnetic heads is low transient attenuation. Also known multi-track block of magnetic heads, the contents of the main ferrite core and the individual elements - heads, forming a nonmagnetic gap. In this block of magnetic heads, in order to increase the transient attenuation, I roll the bi-filar core with two windings, with several turns of the winding being wound on one of the neighboring cores, and the same number of turns from the other on the next adjacent core. The compensation coils are wound in the direction opposite to the direction of the main (double) winding so that the signals induced in the adjacent heads due to the inductive coupling of the magnetic cores, dust in phase with the main signal of the working head. The winding pins are connected to the corresponding inputs of the differential amplifier, thus the penetrating signal is sharply attenuated at the amplifier output and the crosstalk 2 increases. and reliability. The closest in technical essence is a multi-track block of magnetic heads, containing a non-magnetic holder in which there are recording and reading heads, separated by a shielding element. In order to increase transient attenuation by recording the cores of each individual head, it is made in the form of an alternating set of magnetic and nonmagnetic plates, with non-magnetic plates made of a material with high electrical conductivity placed near the edges of the hexadecimal and the extreme plates made of magnetic material. When writing, E as a result of passing through the core of an alternating magnetic flux, eddy currents arise in non-magnetic plates, inducing a field opposite to the recording field and limiting the latter. As a result, the recording field along the working gap has a pronounced trapezoidal shape, which increases the crosstalk 3.

A disadvantage of the known block of magnetic heads is the complexity of the design and assembly technology, moreover, the use of non-magnetic plates in the core reduces the active width of the latter, which significantly reduces the efficiency of transverse recording density.

The purpose of the invention is to simplify the construction and assembly technology of the multi-track block of magnetic heads, as well as to increase the crosstalk between the heads.

This goal is achieved by the fact that in a peace-keeping block of magnetic heads containing a non-magnetic body and located in its grooves in a staggered order, cores of magnetically soft material located on them. windings, the working gaps of the magnetic heads, formed by pole tips, are located in the same plane, one pole of each magnetic head is made in the form of a wedge, and the areas of projections of each pole tip on the pole tips of adjacent magnetic heads are rive.

FIG. 1 shows a block of magnetic heads; FIG. 2 - design of pole pieces of magnetic heads.

The multi-track block of magnetic heads contains magnetic cores 1 with a working gap 2 located in the same plane with pole terminals 2 and 3, 4, a nonmagnetic body 5, windings 6 and 7 of magnetic heads. The cores 1 are located in the sockets of the non-magnetic body 5 in a checkerboard pattern,

The pole tips of the 3 magnetic cores 1 are made in the form of a wedge in such a way that the sum of the area of the projections S, $ 2 and S, of the adjacent pole tips corresponds to the equality S Sj + 84.

When this equality is achieved and with equal distances between the cores over the entire intersection area of the heads, the magnitudes of the magnetic conductivity between pole tips 3, 4 and two pole tips 3 liters 4 of the neighboring head are equal to each other and due to this compensation of mutual pickups occurs.

Consequently, the areas of the projections 5 (Fig. 1) determine the magnetic pickup of each pole of the right head to the corresponding poles of the left head, while they are equal and do not lead to a change in the magnetic flux through the left winding. B.

Similarly, the areas of the projections Sj and $ 4 determine the magnetic supply of each pole of the left head to the corresponding poles of the right head, while they are also equal and change the magnetic flux through the right winding 7.

Therefore, the implementation of the equality Sj 53+ 84 leads to the compensation of magnetic pickups of adjacent channels.

The compensation efficiency of the interchannel effect is determined by the accuracy of manufacturing and installation of the cores in the multichannel block of magnetic heads.

With the existing technology of manufacturing magnetic heads, the amount of compensation for inter-channel attenuation can be up to 26 dB relative to heads made without taking into account the above ratio.

This design allows to increase the transverse information recording density with high transient attenuation, and with the same carrier length, to increase the amount of recorded information without increasing the dimensions of the drives, which is essential for onboard equipment.

Claims (3)

Invention Formula A multitrack magnetic head unit containing a non-magnetic body and cores made of magnetically soft material located in its grooves in a staggered order with windings located on them, and the working gaps of the magnetic heads formed by pole pieces are located in one plane, which differs from in order to simplify the construction and assembly of the unit, as well as to increase the transient attenuation between the heads, one pole tip of each magnetic head is made in the form. wedge, and the area of the projections of each pole tip on the pole tips of adjacent magnetic heads are equal. Sources of information taken into account in examination 1, UK Patent No. 1219465, cl. G 5 R, publ. 1971. 2. US patent number 3591733, cl. 179. 100. 2, published, 1971. 3. US patent number 3479663, cl. 340-174.1, publ. 1969 (prototype).