RU35919U1 - Device for erasing recordings from media on hard magnetic disks - Google Patents

Description

The utility model relates to the technique of erasing recordings from media on hard magnetic disks (hereinafter - HDD).

Currently, the magnetic materials used in the hard disk drive have a large (150 - 200 kA / m) coercive force, which requires powerful (300 - 500 kA / m) magnetic fields to erase the recording, which lead to mechanical damage to the construction elements of the hard disk drive made from magnetic materials, in particular magnetic head drives.

A device for erasing recordings from a magnetic medium, comprising an erasing head consisting of a solenoid with a magnetic core connected to a source of erasing current, and a mechanism for moving the magnetic medium relative to the erasing head (1).

The disadvantage of this device is that at each moment of time in the field of the erasing head there is only one fragment of a magnetic recording, which requires considerable time and, therefore, high energy costs to erase the entire recording, and makes it impossible to urgently destroy information. A device is also known for erasing recordings from a magnetic medium,

in particular, on hard magnetic disks, containing a solenoid connected to a power source, located so that the vector of the erasing magnetic field created by it lies in the plane of the magnetic carrier (2).

The disadvantage of this device, in relation to erasing a record from a hard disk, is also the mechanical damage to the drive of the magnetic heads of the hard disk forces due to a powerful pulse of the erasing magnetic field, which eliminates the possibility of reuse of the hard disk after erasing the record. In addition, the need to create a powerful erasing magnetic field in a large volume leads to low energy efficiency of the device.

Closest to the claimed device in technical essence and the achieved result is a device for erasing recordings from a magnetic medium, including a hard disk drive, containing means for creating an erasing magnetic field connected to an electric power source, so that the vector of the magnetic field created by it lies in the plane a hard magnetic disk, the latter being equipped with a rotation drive (3). The means for creating an erasing magnetic field creates a powerful, magnetizing to saturation hard magnetic disk, erasing the magnetic field in the region exceeding the size of the HDD.

2 The disadvantage of this device is mechanical damage.

drive magnetic heads of HDDs by forces arising from a powerful pulse of the erasing magnetic field, which excludes the possibility of reuse of HDDs after erasing the recording. In addition, the need to create a powerful erasing magnetic field in a large volume leads to low energy efficiency of the device.

The purpose of the utility model is the intention to find a technical solution, characterized by a reduction in energy costs for erasing and providing the possibility of reuse of HDD after erasing information.

This goal is achieved by the fact that in the device for erasing recordings from media on hard magnetic disks, containing means for creating an erasing magnetic field connected to an electric power source, located so that the vector of the magnetic field created by it lies in the plane of the hard magnetic disk, the latter being equipped with a drive rotation, according to the utility model, the erasing magnetic field covers a part of the hard magnetic disk lying outside the area of movement of the magnetic heads, and in the erase mode both the inclusion of a means for creating an erasing magnetic field and a rotation drive of the hard magnetic disk is sintered, moreover, the erasing magnetic field intersects the entire working surface during rotation of the hard magnetic disk.

3 This scoop of essential features characterizes the essence

utility model. It is necessary and sufficient for any of its implementation.

The applicant considers it necessary to give the following explanations to the first independent claim.

It uses the general term "means of creating an erasing magnetic field instead of" solenoid. This is due to the fact that the magnetic system in the form of a single solenoid is a special case of the execution of the means for creating an erasing magnetic field. There can be many designs depending on, for example, operating conditions, device dimensions, etc. For example, the means for creating an erasing magnetic field can be several solenoids of arbitrary shape in space, which, moreover, can be differently oriented in space. The vectors of the magnetic fields created by them can also have different orientations in space. Currents in solenoids can flow in different directions, for example, in opposite directions. Even if the means of creating an erasing magnetic field is made in the form of a single solenoid, it can have various designs, for example, have a specific shape curved in space, and / or have several windings, etc.

In addition, the applicant considers it necessary to note that the design of the HDD is always equipped with a drive to ensure its rotation and maintain a constant speed of this rotation. To implement useful

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4 models it is important that when erasing zanisi drive was turned on and

provided rotation of the HDD, part of the surface of which is covered by the erasing magnetic field of the means of creating an erasing magnetic field, for example, which is a solenoid coil.

In addition, the applicant considers it necessary to highlight the following development and / or refinement of the general set of essential features of the utility model related to particular cases of implementation or use.

As noted above, any design option for creating an erasing magnetic field is possible.

Most preferred is the design of a means of creating an erasing magnetic field in the form of a solenoid made in the form of a coil, the winding length of which is part of the diameter of the hard magnetic disk, which is located outside the area of movement of the magnetic heads, so that the edge of the coil is shifted from the center of the hard magnetic disk, and the rotation drive the hard disk and the solenoid in the erase mode are connected to an electric power source so that the erasing magnetic field created by the solenoid eresekalo while rotating magnetic hard disk all its work surface.

In this case, under the phrase “the drive of rotation of the hard magnetic disk and the solenoid when erasing the record are connected to a power source

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it means any option for connecting a rotation drive of a hard magnetic disk and a solenoid to an electric power source, for example, an option in which both are connected to a common power source (and the solenoid is connected to this source through a converter) or an option in which each of them is connected to its own source of electrical power, which is technically) much easier. Some preferred connection options will be shown below. The main thing is that, in any case, the essence of the utility model would be realized, which consists in the fact that the magnetic field of the solenoid covers a part of the hard magnetic disk lying outside the region of movement of the magnetic heads, and in the erase mode, the power supply of the solenoid and the rotation drive of the hard magnetic disk are provided, while the erasing magnetic field intersects during rotation of the hard magnetic disk its entire working surface.

As noted above, any option for connecting a rotation drive of a hard magnetic disk and a solenoid to an electric power source is possible. 1 {here are some of them.

It is desirable that the rotation drive of the hard magnetic disk be connected to an autonomous electric power source having a common switch with an electric power source for creating an erasing magnetic field. This circuit is simple in execution, reliable and provides synchronous switching to

electric power sources for the rotation drive of the hard magnetic disk and means for creating an erasing magnetic field, for example, a solenoid.

If the device for erasing the record is mounted in a computer, it is preferable that the rotation drive of the hard magnetic disk be connected to the computer’s electrical power source and, through the locking device, to an autonomous electric power source. In this case, the device for erasing the recording when it is necessary to turn it on can be turned on both from the computer’s electrical power source, if the need to erase the recording occurred during computer operation, or from the autonomous electric power supply, if the need to erase the recording occurred when the computer was turned off.

In the latter case, it is advisable that the blocking device be made in the form of counter-connected diodes, the anodes of which are connected in series in the autonomous electric power supply circuit and the computer electric power supply, and the cathodes are connected to the rotation drive of the hard magnetic disk. Such a scheme is characterized by efficiency, as well as reliability in operation and repair.

An important issue is the length of the coil of the solenoid coil and its position relative to the center of the hard magnetic disk, since

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7, this provides the most important condition: when erasing magnetic

records, the erasing magnetic field intersects during rotation of the hard magnetic disk its entire working surface outside the area of movement of the magnetic heads.

According to the applicant, to ensure this, it is desirable that the length of the coil of the solenoid coil be from 0.2 D to 0.5 D, where D is the diameter of the hard magnetic disk. When the coil winding length is less than 0.2 D, it is technically difficult to create an erasing magnetic field sufficient to ensure effective erasure. Magnetic heads will break if the length of the winding of the solenoid coil is greater than 0.5 D, since the erasing magnetic field will "get out of them despite the shift of the solenoid coil to the edge of the hard magnetic disk.

Regarding the shift of the edge of the coil from the center of the hard magnetic disk, according to the applicant, it is preferable that the edge of the coil be shifted from the center of the hard magnetic disk by a distance of 0.1 D to 0.2 D, where D is the diameter of the hard magnetic disk . Such conditions are selected from the following. As you know, a hard magnetic disk consists of two parts: a central “non-working part and a peripheral working part intended for magnetic recording. Based on this design feature of the hard magnetic disk, the above interval is selected so as to ensure that the erasing magnetic field covers the working part of the magnetic disk with a certain margin, at which

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8 it intersects also a part of the surface of the “idle part of the hard

magnetic disk to ensure erasure reliability.

The above parameters can be expressed, for example, (for HDD with a magnetic disk diameter of 3.5) as follows: the solenoid is made in the form of a coil with a winding length of 30 - 35 mm, located outside the range of movement of the magnetic heads, so that the edge of the coil is shifted from the edge of the carrier body in side of the axis of the magnetic disk at a distance of 3-5 mm.

The essence of the proposed technical solution is illustrated by drawings.

In FIG. 1 shows the claimed device, a perspective view;

In FIG. 2 shows a block diagram of the connection of an autonomous electrical power source and a computer's electrical power source through a locking device to a hard drive.

In FIG. Figure 3 shows an example of the implementation of a blocking device based on on-board diodes.

The claimed device contains a means of creating an erasing magnetic field, made in the form of a solenoid 1, an autonomous electric power source 2 of the HDD drive, an electric power source 3 of a solenoid 1, a switch 4 common to both electric power sources (Fig. 1).

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9 Solenoid 1 has a length that is selected in the range from 0.2 D to 0.5

D, where D is the diameter of the hard magnetic disk 5, which can be 5.25, 3.5, 2.5, 1.8 inches. The solenoid 1 is displaced relative to the axis of the hard magnetic disk 5 by a distance ranging from 0.1 D to 0.2 D, where D is the diameter of the hard magnetic disk 5, and is arranged so that its erasing magnetic field acts outside the region of non-movement of the magnetic heads 6.

The output of the autonomous electrical threading source 2 through the switch 4 is connected to the electrical power connector of the drive rotation of the HDD. The output of the electrical thread 3 of the solenoid 1 through the switch 4 is connected to the solenoid 1.

In an embodiment of a device providing for erasing a record on a hard magnetic disk embedded in a computer, and shown in FIG. 2, the computer’s power supply 7 and the autonomous power supply 2 of the HDD drive are connected to the power supply connector 9 of the HDD via the lock device 8.

An embodiment of the blocking device 8 based on two pairs of on-board diodes is shown in FIG. 3. Each pair of diodes 9, 10 and 11.12 work respectively for 5 volt and 12 volt electric power sources.

The device shown in FIG. 1, works as follows. When simultaneously turning on the source of autonomous electric

10 power supply 2 drives HDD and electric power supply 3 solenoid

1 switch 4 begins to rotate the hard magnetic disk 5 HDD and at the same time in the solenoid 1 there is a powerful erasing magnetic field. Parts of the hard magnetic disk 5 with the recording pass through the area of the erasing magnetic field where the recording is erased. Moreover, since the intensity of the erasing magnetic field in the region of the magnetic heads 6 is small, it does not lead to mechanical deformation of the drive of the magnetic heads 6. This circumstance makes it possible to reuse the HDD after erasing the recording. The typical time for which a hard magnetic disk makes a full revolution is 10-30 ms. Thus, we can assume that the proposed device can implement emergency destruction of the record.

The electric power source of the solenoid 1 can be made either on the basis of a battery of capacitors charged from an auxiliary rectifier (converter), or in the form of a unit operating from an electric network and providing the necessary current to power the solenoid 1.

But compared with the analogues and prototype discussed above, the proposed device provides a reduction in energy costs due to the fact that the magnetic field is created in the region at least 2 to 3 times less than in known devices of a similar purpose.

11 Connection option for the HDD drive when the HDD is running

normally shown in FIG. 2. The locking device is made in such a way that when the computer is turned on, the HDD is powered in the normal mode and the autonomous electric power source 2 of the HDD drive does not affect the operation of the device. In this case, the HDD is powered from the electric power source 7 of the computer. When the computer is turned off, the drive of the HDD, if necessary, erase the recording is carried out from a source of autonomous electrical power 2 drive HDD.

The locking device can be implemented using an electromagnetic relay, the control winding of which is connected to an electrical power source of the computer, and also, as shown in FIG. 3, using two pairs of on-board diodes. When the computer’s electrical power source 7 is turned on, the HDD is powered through open diodes 9, I, while the diodes 10, 12 are closed, as a result of which the independent HDD power supply 2 of the HDD is disconnected from the HDD. When the computer’s power supply 7 is turned off, the HDD is powered from an autonomous electric power supply 2 of the HDD drive through open diodes 10, 12, while the diodes 9, 11 are closed.

Thus, the claimed technical solution can significantly reduce energy costs by reducing the volume of created

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magnetic fields and realize the possibility of reuse of the HDD after erasing the record since the location of the solenoid prevents mechanical damage to the drive of the magnetic heads of the HDD.

..Sy // 13 Sources of information taken into account when preparing the application

1. Japanese Patent No. 05266418, Cl. G 11 B 5/024, published. 1993;

2.US Patent No. 3143689, CL G 11 B 5/024, published. 1964

3. RF patent No. 2144223, cl. G 11 B 5/024, published. 2000 g .; (prototype)

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Claims (7)

1. A device for erasing recordings from media on hard magnetic disks, comprising means for creating an erasing magnetic field connected to an electric power source, such that the vector of the magnetic field created by it lies in the plane of the hard magnetic disk, the latter being equipped with a rotation drive, characterized in that the erasing magnetic field covers a part of the hard magnetic disk lying outside the region of movement of the magnetic heads, and in the erasing mode, the means for creating irradiating magnetic field and drive rotation of the hard magnetic disk, and the erasing magnetic field intersects during rotation of the hard magnetic disk its entire working surface. 2. A device for erasing recordings from media on hard magnetic disks according to claim 1, characterized in that the means for creating an erasing magnetic field is a solenoid made in the form of a coil, the winding length of which is part of the diameter of the hard magnetic disk, which is located outside the area of movement magnetic heads, so that the edge of the coil is shifted from the center of the hard magnetic disk, and the rotation drive of the hard magnetic disk and the solenoid in the erase mode are connected to an electric power source such time to create a solenoid erasing magnetic field crossed the hard disk while rotating his entire working surface. 3. The device for erasing recordings from carriers on hard magnetic disks according to claim 1, characterized in that the rotation drive of the hard magnetic disk is connected to an autonomous electric power source having a common switch with an electric power source for creating an erasing magnetic field. 4. A device for erasing recordings from media on hard magnetic disks according to claim 1, characterized in that the rotation drive of the hard magnetic disk is connected to an electrical power source of the computer and, through the locking device, to an autonomous electrical power source. 5. A device for erasing recordings from media on hard magnetic disks according to claim 4, characterized in that the locking device is made in the form of counter-connected diodes, the anodes of which are connected in series in a circuit of autonomous electrical power and electric power of the computer, and the cathodes to the hard drive rotation magnetic disk. 6. A device for erasing recordings from media on hard magnetic disks according to claim 2, characterized in that the length of the winding of the solenoid coil is from 0.2 to 05 D, where D is the diameter of the hard magnetic disk. 7. The device for erasing recordings from media on hard magnetic disks according to claim 2, characterized in that the edge of the coil is shifted from the center of the hard magnetic disk by a distance of 0.1 to 0.2 D, where D is the diameter of the hard magnetic disk.