SU1545253A1 - Device for indexing particles of ferrovarnish magnetic carrier of information - Google Patents

Abstract

The invention relates to a magnetic recording technique and makes it possible to increase the efficiency of the device by reducing disorienting magnetic fields. The device contains orienting permanent magnets 1 symmetrically located relative to the plane of the magnetic carrier, leveling the permanent magnet 3 located on one side of the magnetic carrier 2, compensating the permanent magnets 4 located relative to the poles of the magnets 1 and 3 with opposite poles. The direction of the magnetization vectors 5 of the orienting magnets 1 and the magnetization vectors 6 of the leveling magnet coincides and is oriented in the direction of movement of the information carrier. The magnetization vectors of 8 compensating magnets 4 are perpendicular to the corresponding magnetization vectors of the orienting and leveling magnets. Compensating magnets reduce the disorienting parasitic magnetic field created by the alignment and alignment magnets, as the strength lines of the compensating magnets are directed towards the magnetic intensity lines.

Description

Phie. one

placed on one side of the magnetic carrier 2, compensating the permanent magnets 4, located relative to the poles of the magnets 1 and 3 opposite poles. The direction of the magnetization vectors 5 of the orienting magnets 1 and the magnetization vectors 6 of the leveling magnet coincides and is oriented in the direction of movement of the information carrier. The magnetization vectors of 8 compensating magnets 4 are perpendicular to the corresponding magnetization vectors of the orienting and leveling magnets. Compensating magnets reduce the disorienting parasitic magnetic field created by orienting and leveling. magnets, since the lines of intensity of the compensating magnets are directed towards the lines of magnetic intensity of the disorienting PPC of the orienting 1 and of the leveling 3 magnets, weakened them. 2 Il.

The invention relates to instrumentation, in particular to the technique of magnetic recording, and can be used to orient the particles of the ferrollake of a magnetic information carrier.

The purpose of the invention is to increase the efficiency of the device by reducing disorienting magnetic fields.

Figure 1 shows the device; Fig. 2 is a plot of the intensity of a magnetic field created by symmetric orienting and compensating magnets.

The device contains orienting permanent magnets 1, symmetrically located relative to the plane of the magnetic carrier 2, leveling the permanent magnet 3 located on one side of the magnetic carrier 2, compensating the permanent magnets 4 located relative to the magnets 1 and 3 with opposite poles. The magnetization vectors 5 of the orienting magnets 1 and the magnetization vector 6 of the leveling magnet 3 coincide in direction and are oriented in the direction of movement of the information carrier indicated by arrow 7. The magnetization vectors 8 of the compensating magnets 4 are perpendicular to the corresponding magnetization vectors of the orienting and leveling magnets. In addition, FIG. 2 shows the amplitude 9 of the magnetic intensity of the disorienting field of the orienting magnets 1 with compensating magnets 4 and the amplitude 10 of the magnetic intensity of the orienting field of these magnets.

Compensating magnets reduce the disorienting parasitic magnetic field created by the orienting and leveling magnets, since the magnetic intensity lines of the compensating magnets 4 are directed toward the magnetic lines of the orienting field 1 and the alignment magnets 3, weakened them.

During processing, the magnetic carrier 2 moves in the direction indicated by arrow 7. On its surface there is an uncured ferrolac (not shown), i.e. a specific composition in which the powder magnetic particles are evenly distributed (not shown).

When approaching orienting magnets 1, the magnetic particles are affected by a pre-orienting magnetic field having an amplitude of 9 negative signs. This field allows a coarse orientation of the ferrolac particles. In the process of moving the carrier, its orienting magnetic field having an amplitude of 10 begins to affect its magnetic particles 9 amplitude several times. This field realizes both the reorientation of magnetic particles to the opposite direction, and their more precise orientation along the carrier track due to the greater magnitude of the field voltage, and finally magnetic field of the carrier is affected by the field of the alignment magnet 4, which has two components - vertical, moving magnetic particles to the base of magnetic carrier 2

and horizontal, which aligns the location of the particles in the plane of the working layer of the magnetic carrier. The amplitude 10 of the intensity of the orienting magnetic field is many times greater than the amplitude 9 of the magnetic field of the disorienting field.

A decrease in the intensity of the disorienting magnetic field allows an increase in the number of magnetic particles of the working layer of the information carrier oriented along the carrier movement direction, which leads to (an increase in the orientation coefficients and squareness of the hysteresis loop, which will make it possible to manufacture high-capacity media.

Claims (1)

In addition, the agglomeration of the magnetic composition is reduced, which leads to a decrease in the heterogeneity coefficient and roughness of the working layer of the recording carrier and improves its operating parameters. Invention Formula Device for orientation of ferrolac particles of magnetic carrier - e / & 7Z mations containing orienting permanent magnets symmetrically located relative to the plane of the magnetic information carrier, leveling a permanent magnet located on one side of the magnetic carrier, and the direction of the magnetization vectors of the orienting and leveling magnets coincides and oriented in the direction of movement of the information carrier, characterized in that, in order to increase the efficiency of the device by 5 reducing disorienting magnetic fields, permanent magnets compensating for parasitic disorienting magnetic fields, located near the poles, are introduced into it 0 orienting and leveling permanent magnets with opposite poles, and the magnetization vectors of the compensating magnets are perpendicular to the corresponding magnetization vectors 5 of orientation or leveling magnets. about : W / e FI.2