RU25365U1 - MAGNETIC MEDIA Eraser - Google Patents

Description

Device for erasing magnetic media recording

The utility model relates to devices for erasing magnetic recording media and can find application in the arsenal of magnetic recording technology.

A device for erasing recordings on a magnetic medium is known, including two circuits, each of which contains a solenoid, a constant voltage source and a capacitor connected via a key to the specified source and to a solenoid to which a damping diode is connected, and the solenoids of each circuit are mounted with the possibility of vector orientation the intensity of the fields they create are rotated relative to each other by an angle not equal to 360 °, while the capacitors are made polar, and the moments of connecting the capacitors to the solenoid dy in these contours are shifted relative to each other. This device is described in the patent of the Russian Federation for the invention No. 2144223, class. G 11 B 5/024, 10.01.2000.

The first disadvantage of this device is the complexity of its design due to the presence of two circuits, each of which contains a solenoid, a constant voltage source and a capacitor connected via a key to the specified source.

The second disadvantage of this device is the limited arsenal of tools used in the device due to the use of a damper diode as a limiter of self-oscillations and limitation in the directions of the magnetic field vectors, which can lead to a decrease in the reliability of the device.

The closest in technical essence to the proposed device analogue is a device for erasing recordings on magnetic media, described in the certificate of the Russian Federation for utility model No. 18796, class. О 11 В 5/024, 07/10/2001.

IPC 7 G 11 at 5/024

x- O LK i The known device for erasing recordings on a magnetic medium comprises at least one channel for generating pulsed magnetic fields, a channel including at least one inductor forming a pulsed magnetic field with predetermined voltage vectors and connected to the outputs of the block suppressing damp alternating oscillations, a constant voltage source connected to the terminals with the first output of the switch and the first output of the capacitor connected by its second output to the second output of the switch, the first output of the capacitor and the third output of the switch connected to the inputs of the block for suppressing damp alternating oscillations (see the description and formula (items 5-7) of the utility model in the RF certificate for utility model No. 18796, class G 11 B 5/024, 07/10/2001).

The closest analogue has eliminated the disadvantage of having a limited arsenal of tools used in the device due to the use of a damper diode as a limiter of self-oscillations and limiting the direction of the magnetic field vectors.

The first drawback of the known analogue occurs in the closest analogue, since two circuits are required for the formation of two magnetic field vectors, each of which consists of a constant voltage source, an inductor and a capacitor connected alternately to the constant voltage source and to the coil through a two-position switch inductance.

When erasing records from hard disk drives (HDD), the problem arises of the formation of magnetic fields with at least two pulsed magnetic field vectors directed at a certain angle to each other. This is due to the fact that currently there are serial models of PMZhD with a large capacity of accumulated information, in which the recording method with

perpendicular magnetization of a magnetic recording medium. The formation of pulsed magnetic fields with such an orientation is fraught with great difficulties (complicating the design, increasing the complexity, dimensions and power consumption of the device). In addition, the user, as a rule, does not know the recording method on this HDD, and the use of known devices leads to the need to use at least two channels for generating pulsed magnetic fields to realize the principle of functioning in them. This also leads to a complication of the design and electrical circuit of the device and an increase in its dimensions and energy consumption.

The technical result that this utility model is aimed at is simplification of the design and electrical circuit of the device, reduction of its dimensions and energy consumption. In addition, the device becomes universal, as it allows you to erase recordings from the hard disk with both tangential (longitudinal) and normal (perpendicular) magnetization of the magnetic recording medium.

This technical result is achieved due to the fact that the device for erasing recordings on a magnetic medium containing at least one, designed to create pulsed magnetic fields, a channel that includes at least one inductor that generates pulsed magnetic fields with specified vectors of tension and connected by the findings with the outputs of the suppression unit of damped alternating oscillations, a constant voltage source connected by the findings with the first output of the switch and the first output of the condensation a torus connected by its second output to the second output of the switch, the first output of the capacitor and the third output of the switch connected to the inputs of the damping suppression unit, their alternating oscillations, according to the invention, is equipped with at least one reference node

orientation of the magnetic recording medium located inside the frame of at least one inductor with the possibility of orienting it inside the frame at an angle relative to the magnetic field vector. In addition, at least one reference node of the orientation of the magnetic recording medium can be made in the form of a lodgement having a position for the magnetic recording medium and located with the possibility of forming an angle between the magnetic field vector created by at least one inductor and the axis lying in the plane of the magnetic recording medium. In addition, at least one reference node of the orientation of the magnetic recording medium can be made in the form of a set of lodges having positions for magnetic recording media, which are arranged to form different angles for different types of magnetic recording media between the magnetic field vector generated at least one inductor, and an axis lying in the plane of the magnetic recording medium. And in addition, at least one reference node of the orientation of the magnetic recording medium is made in the form of a lodgement with a position for the magnetic recording medium kinematically connected with the drive of rotation of the lodgement with the possibility of forming an angle between the magnetic field vector generated by at least one coil inductance, and an axis lying in the plane of the magnetic recording medium, which is located at the position of the lodgement. In this case, the capacitor can be made in the form of a polar capacitor.

In this case, you should pay attention to the fact that the magnetic recording medium (for example, PZhMD) is oriented using the reference assembly of the magnetic recording medium (lodgement) inside the frame of the inductor so that the longitudinal axis A of the magnetic recording medium (axis lying in the plane of the medium ) was 4

- u / f f is a certain angle a with respect to the vector of the magnetic field H generated by the inductor. Orientation of the longitudinal axis A of the magnetic recording medium at an angle a to the magnetic field strength vector H leads to the fact that in the plane of the magnetic recording medium the component of the magnetic field vector H has a value HI, and in the direction perpendicular to the plane of the magnetic recording medium H2, where H is the value the amplitudes of the magnetic field vector; and - the angle between the magnetic field vector and the axis lying in the plane of the magnetic recording medium.

Erasing magnetic records from carriers having longitudinal magnetization is carried out by component HI of the magnetic field strength vector H, and erasing magnetic records from carriers having perpendicular to the plane of the magnetic recording medium is magnetized by component H2 of the magnetic field vector N. Corresponding orientation of the magnetic recording medium at the corresponding position reference node orientation of the magnetic recording medium (lodgement), you can either make the device specialized for a certain type of magnetic recording medium with a given method of recording information, or universal for magnetic recording media with different recording methods.

The essence of the utility model is illustrated in FIG. 1, which shows an example implementation of a device for erasing recordings on magnetic media. This device contains a constant voltage source 1, a switch 2, a capacitor 3, which can be made in the form of a polar capacitor, an inductor 4 including a frame (not shown in Fig. 1), a unit 5 for suppressing alternating damped oscillations, a reference node 7 orientation of the magnetic recording medium, which can be made in the form of a lodgement (figure 1) or a set of lodgements (not shown). At the corresponding position of the reference

 A /

node 7 orientation during the operation of the device is the medium 6 of the magnetic recording.

In the set of lodgements made with the possibility of orientation of the media 7 of the magnetic recording at different angles relative to the vector of the magnetic field strength by various different methods of magnetic recording. For the same purpose, instead of a set of lodgements, one lodgement may be present with its rotation drive providing the necessary orientation angle (not shown in the drawing).

Position 8 in figure 2 indicates the control input of the switch 2. In figure 1 also shows the axis A lying in the plane of the carrier 7 of the magnetic recording, the vector H of the magnetic field, the angle a between the vector of the magnetic field and the axis lying in the plane of the magnetic carrier records, as well as tangential Н and normal Н2 components of the vector Н of the magnetic field strength.

The device operates as follows. Using the switch 2, the polar capacitor 3 is connected to a constant voltage source 1 and is charged from it to a certain potential. Then, using the switch 2, the capacitor 3 is connected to the inductor 4. When this occurs, the discharge of the capacitor 3 through the inductor 4. Block 5 suppressing damp alternating oscillations provides the formation of a unipolar current pulse in the inductor 4. The current pulse generates a magnetic field H oriented along the longitudinal axis of the inductor 4. Using the reference node 6 of the orientation of the magnetic recording medium (lodgement), the longitudinal axis A of the magnetic recording medium lying in its plane is oriented by rotation relative to the vector H by a certain angle a, which ensures the most efficient erasure of this type of medium.

Using this utility model simplifies the design and electrical circuit of the device, as well as reduces its size and power consumption.

Claims (5)

1. A device for erasing recordings on a magnetic medium, containing at least one intended for creating pulsed magnetic fields, a channel including at least one inductor forming pulsed magnetic fields with predetermined voltage vectors and connected to the outputs by outputs a block for suppressing damp alternating oscillations, a constant voltage source connected by the terminals to the first terminal of the switch and the first terminal of the capacitor connected by its second terminal to the second terminal the switch, and the first output of the capacitor and the third output of the switch are connected to the inputs of the block suppressing damp alternating oscillations, characterized in that it is equipped with at least one reference node orientation of the magnetic recording medium, located inside the frame of at least one inductor with the possibility of orienting it inside the frame at an angle relative to the vector of the magnetic field created by at least one inductor.  2. The device according to claim 1, characterized in that at least one reference node of the orientation of the magnetic recording medium is made in the form of a lodgement having a position for the magnetic recording medium and located with the possibility of forming an angle between the magnetic field vector generated by at least one inductor and an axis lying in the plane of the magnetic recording medium.  3. The device according to claim 1, characterized in that at least one support node orientation of the magnetic recording medium is made in the form of a set of lodgments having positions for magnetic recording media that are arranged to form different media for different magnetic recording methods angles between the vector of the magnetic field generated by at least one inductor, and the axis lying in the plane of the magnetic recording medium.  4. The device according to claim 1, characterized in that at least one reference node of the orientation of the magnetic recording medium is made in the form of a lodgement with a position for the magnetic recording medium kinematically connected with the drive of rotation of the lodgement with the possibility of forming an angle between the magnetic field vector created by at least one inductor, and an axis lying in the plane of the magnetic recording medium, which is placed at the position of the lodgement. 5. The device according to any one of claims 1 to 4, characterized in that the capacitor is made in the form of a polar capacitor.