SU1137512A1 - Miniaturized erasing magnetic head - Google Patents

Abstract

MINIATURE WASHING MAGNETIC SOLAR, containing two lateral half cores, I polar faces which are matched with the polar faces of the central half core through the corresponding two working gaps, made in the form of nonmagnetic gaskets, winding located on. the central half core and two guide pins, characterized in that, in order to reduce losses and improve the quality of erasure, there the size of the conjugate pole face of the lateral half cores in the plane of the working gaps exceeds the corresponding size of the central half core, the minimum cross section of which is two times the minimum cross section of each lateral half core. O) - / V -.

Description

11 The invention relates to instrumentation, in particular to erasable magnetic heads used in miniature magnetic recording apparatus. The erasing magnetic head is known, soda: magnetically soft half-hearts, between the pole ends of which there is a central magnet insert, forming working gaps through them, Obtsotka is located on the central magnet of the soft insert, the magnetic circuit of this head is fixed in a nonmagnetic body, which is placed in the external magnet of the rc screen. However, the presence in the design of a non-magnetic body, as well as an external magnet of a soft screen, leads to an increase in the magnetic head across the width, which makes it unacceptable when using magnetic recording in miniature devices, for which the maximum width of the magnetic head should not exceed 3.0 mm. Also known is a washable magnetic head with two working gaps consisting of a core with a coil and a metal lining (pole pieces), which is in direct contact with the magnetic tape. The working gaps formed by the pole tips of the magnetic heads are bridged and have a U-shape. The width of this head is much smaller than that of the known magnetic heads and is conveniently located in the cassette window of the miniature tape recorder 2J,. However, the performance of the U-shaped working gap results in an additional gap, parallel to the movement of the magnetic carrier and leading to a significant increase in power loss and also to uneven erasure of the recorded tracks along their width. The closest to the proposed technical essence is the design of a miniature erasable magnetic head, designed for connecting tape recorders with a through track and a compact cassette placed in a narrow window, containing magnetically soft half cores, between the poles of which there is a magnetic half core separated from them nemag2 thread pads, and two guide pins. To ensure a guaranteed erase level, the height of the central half core in the direction of the gap is equal to the height of the side half cores and exceeds the width of the erasable signal, although this leads to an increase in losses in the magnetic head. The minimum cross-sections of the central half-core and the side half-hearts are in a ratio close to unity. The disadvantage of this device is that with limited geometric dimensions of the head, the center half-core is most likely to penetrate, as the magnetic flux passing through it twice the flow in the lateral half-cores, which in turn can significantly reduce the quality of erasing information. The purpose of the invention is to reduce losses and improve the quality of erasing information. The target is achieved by the fact that in a miniature erasable magnetic head containing two lateral half cores, the pole faces of which are conjugated with the pole faces of the central half core, through the corresponding two working gaps, made in the form of nonmagnetic spacers, the winding located on the central half core, and two pin guides, the size of the mating pole face of the lateral half-cores in the plane of the working clearances exceeds the corresponding size of the edge of the central half-core, the minimum e whose cross section is twice the minimum cross section of each lateral half core. Fig, 1 shows the magnetic circuit of the erasing magnetic head; on . "Fig, 2 - head structures. The miniature erasable magnetic head contains a holder 1, in the groove of which the side half cores 2 and 3 are made of magnetically soft material, between the pole faces 4 and 5 of which the central half core 6 is made of a magnet of soft material with -pole faces 7, Conclusions, windings 8 subparts to the terminal block 9, the working clearances 10 and 11 are made in the form of non-magnetic gaskets, on the working surface 12 there are pins 13 and 14 of the guide element

15. In addition, fi-g.2 shows the upper edges 16,17 and 18 and the lower edges 19,20 and 21 half-cores 2, 3 and 6.

In the course of work on the winding 8 j, an erase current flows, which excites 2,3 and 6 magnetic fluxes in the half cores, forming magnetic fluxes in front of the working gaps 10 and 11 (not shown). The lateral semi-cores 2 and 3 are identical and are located symmetrically with respect to the central semi-core 6, therefore their magnetic resistances are equal between the fault, and consequently, the magnetic fluxes in these semi-cores are also equal with each other, each of the data flows twice less than the magnetic flux of the central half core 6, Considering that 20 is the minimum cross section of the half core 6 is twice the minimum cross section of each half core 2 and 3, the magnetic induction in all parts 2,3 and 6 is magnetic Water odina- 25 kov. The semi-hearts 2 and 3 are located in such a way that their upper 16, 17 and lower 19 and 20 faces protrude

respectively, above the upper 18 and lower 21 faces of the half-core 6. At the same time, the size of the pole faces 7 of the half-core 6 exceeds the maximum size of the erasable signal pattern by the amount of error of the guide element 15 in the magnetic head, the lower pin 14 of which is oriented in height relative to the upper edge 18 of the half-core 6 Thus, the width of the erased waveform is determined by the distance from the top face 16 of the central half core 6 to the bottom pin 14 of the guide element 15.

The invention can be used in the manufacture of erasable magnesium heads designed for mini and micro cassette magnetic recording devices, which, with significantly reduced overall dimensions and high output parameters, should have low power consumption, and can provide 65 eD of erasable magnetic carrier With 02 at erasable currents , not exceeding 50 mA, and the power loss not exceeding 55 mW,

Claims (1)

... that, in order to reduce losses and improve the quality of erasure, in it the size of the mating pole face of the lateral half-hearts in the plane of the working gaps exceeds the corresponding size gr days of the central hemisphere, the minimum cross-section of which is twice the minimum cross-section of each lateral half-heart.