SU1631593A1 - Magnetic scan head - Google Patents

Abstract

This invention relates to magnetic recording and information reproduction. The magnetic head allows non-mechanically scanning the recording point on a magnetic tape with inclined or transverse signal paths due to partial saturation of 15 mA of the wiring with the saturation zones under the action of the control currents, which improves the quality of the scanning control and simplifies the design of the head. The head consists of a C-shaped magnetic circuit 1 with a gap of 4 between the ends 2 and 3, which are divided into two branches by through windows 8 and 9, in which the control windings 6 and 7 pass, the signal winding 5 and permanent magnets 14 and 16 Equipped with field closing plates 15 and 17, the permanent magnets are rectangular and cover most of the magnetic core 1, the closing plates create the necessary dependence of the magnetic field in height and the ability to adjust the magnetic fluxes. 1 il. (J C 18 77 Q U CJ h: and 13

Description

The invention relates to a technique of magnetic recording and reproducing information, namely magnetic heads with means for controlling the magnetic resistance of a magnetic circuit.

The aim of the invention is to improve the quality of the scanning control and simplify the design of the magnetic head.

The drawing shows a magnetic head, a general view.

The magnetic head contains a C-shaped magnetic core 1, between ends 2 and 3 of which there is a non-magnetic gasket 4 (for example, an air gap), a signal winding 5, control windings 6 and 7 placed in windows 8 and 9 separating each end magnetic conductor on two branches - 10 and 11 for the end 2 and 12 and 13 for the end 3. The magnetic conductor is made in the form of a set of identical plates or layers of magnetically soft material with a trapezoidal hysteresis loop. The ends of the rectangular permanent magnets 14, fitted with end plates 15 of magnetically soft material, are clamped to the end planes of the branches 10 and 11. The upper part of the plate is adjacent to the side surface of the corresponding branch with a certain gap, the size of which can be adjusted by moving or bending the plate. On the opposite side to the end planes of the branches 12 and 13 adjacent poles of permanent magnets 16, provided with xjHHbix closing plates 17, shape, dimensions and the position of which is the same as that of the magnets 14 and the plates 15.

At a constant value of the control current AND winding 6, the lower part of the branches 10 and 11 is in a state of magnetic saturation, since in it the constant magnetic induction is higher due to the proximity of the constant magnet, whereas the upper part of these branches is unsaturated. By virtue of the trapezoidal shape of the magnetization curve between the saturated and unsaturated parts, the boundary 18 is sharp, the dimensions of which are less than the thickness of one plate of the magnetic circuit. The position of boundary 18 is determined by the instantaneous value of current ii. Similarly, at a constant value of the current h of the winding 7, the upper part of the branches 12 and 13 is in the saturation state, since the permanent magnets 16 are adjacent to them on the opposite side, for the same reason, the lower part of these Veggies is unsaturated and has a saturated between unsaturated parts. place cutting the border 19. With a correctly calculated and generated form and the magnitude of the currents And and

2, the boundaries 18 and 19 are at any time in the same plane, i.e. form a single boundary plane that intersects the gasket 4 in a short segment,

forming the active zone 20. It is in this zone 20 that the unsaturated regions of the ends 2 and 3 of the magnetic conductor intersect, forming a magnetic signal circuit, the closing part of which is the magnetic

0 A layer of magnetic tape. Thus, active zone 20 is a play or record information zone.

The magnetic head works as follows

5 A linearly incident current I is applied to one of the control windings, for example, to winding 6, and to another, for example to winding 7, a linearly increasing current ia. At the beginning of the control cycle, the current I has a maximum value of Nt, and the current g has a minimum value of 120 0. At the same time, branches 10 and 11 are in the saturation state, and branches 12 and 13 are unsaturated. The active zone is located in the most distant from constant

5 magnets 14 parts of the gap 4, i.e. at its top. As the current decreases, the unsaturated region in the upper part of the branches 10 and 11 expands and the boundary 18 moves down. Simultaneously as they grow

0 the current h is saturated with a large area in the upper part of the branches 12 and 13 and the boundary 19 also moves down. Thus, the boundary plane 18-19 moves from top to bottom and moves the active zone 20 in the same direction. This movement continues until the active zone 20 moves to the lowest position, after which the current ii increases to the value of ii nt the current la drops to

0 is the initial value 2 120 and the head is prepared for the next scan cycle. During each scan cycle, the active zone 20 records on a magnetic tape (not shown) or reproduces one signal line corresponding to the half-frame or line of required information.

When current Ii is supplied to the winding 7, and current i to the winding 6, the non-direction of movement of the active zone 20 along the gap 4, i.e.

0 easily achievable reversal.

The displacement of the planes 18 and 19 from a single boundary plane can be corrected by changing the height clearance for one or two end plates 15 and 17

5 and side surfaces of the respective branch, both jointly and separately, which expands the possibilities for adjusting the scanning control.

The dimensions of the magnetic head are determined by the parameters and thickness of the material.

magnetic circuit, magnets and closing plates. Thus, with non-mechanically scanning progressive transverse recording with a tape width of 12.6 mm, the required thickness of the plates or layers of the magnetic circuit is 10 microns for black and white and 5 microns for a color television signal. Such thickness of a sheet of magnetic material is available for metallurgical production, and a number of materials, for example, 77 NMDP, are produced in the form of a tape with a thickness of 3 µm, which allows recording on a magnetic tape with a width of b or even 4 mm.

Claims (1)

Claims of the invention A scanning magnetic head comprising two permanent magnets, control windings and a C-shaped magnetic core, between the ends of which there is a non-magnetic gasket, and in the middle part - a signal winding, each of the magnetic core ends is divided into two branches with perpendicular-oriented windows the plane of the magnetic circuit, characterized in that, in order to improve the quality of the scanning control and simplify the design of the magnetic head, two additional permanent magnets and four G-mod Closing plates made of magnetically soft material, each pair of end plates connecting to the end surface of the corresponding branch of the magnetic circuit through a permanent magnet, made rectangular, the planes of the closing plates are installed with a parallel regulating gap relative to the side surfaces of the branches of the magnetic circuit, permanent magnets are pairwise opposite poles fixed on opposite ends of the ends 0 magnetic circuit, and each branch of the magnetic circuit and the corresponding closing plate covers the control winding.