KR20070032764A - Method and apparatus for permanently removing stored data and permanently removing information storage function of magnetic record storage device using remagnetization - Google Patents

Abstract

The present invention is to permanently erase the data recorded in the data area and the system area of one or more magnetic recording media in the magnetic recording device by using an external magnetic field, and also in the case of the magnetic recording device driven by the driving motor. At the same time, there is provided a method, a technique and a mechanism for the device. The present invention physically exposes a magnetic recording medium directly to an external magnetic field, and thus has high information erasing efficiency, can handle various types of magnetic recording devices, and is not affected by an external case of the magnetic recording device. It is not affected by the number of magnetic recording media.

The present invention makes it possible to erase all data in the data area by inserting magnetic recording media in various cases of magnetic recording devices into a place where a sufficiently strong magnetic force is applied without disassembling the case. In addition, the system area of the recording medium and the hard disk drive can completely destroy the track and sector separators. Furthermore, in the case of the magnetic recording device driven by the drive motor, the permanent magnet of the drive motor is demagnetized to cause the motor function to be lost. Thus, the information storage function is completely lost in the magnetic recording device.

The magnetic circuit is realized as the most efficient structure that can generate magnetic field using permanent magnet to provide leakage magnetic field to magnetic recording media. The external magnetic field generated by the magnetic circuit is configured to be directly exposed to the front surface of the magnetic recording device.

Physical permanent erasing of magnetic recording media data Remagnetization Low format data erasing Magnetic head elements Motor permanent magnet elements Magnetic recording media information storage function Permanent removal

Description

METHODS AND APPARATUSES FOR ERASING INFORMATION RECORDED ON A DISK AND ERASING THE FUNCTION OF RECORDING INFORMATION WITH IN MAGNETIC RECORDING DEVICE BY REMAGNETIZATION.}

Figure 1. Structure of magnetic diskette drive and magnetic diskette

Figure 2. Hard Disk Drive Structure

Figure 3. Structure diagram of magnetic disk of hard disk drive

4. Structure diagram of the data erasing mechanism of the first invention for implementing the data erasing technique of the present invention.

5. Formed leakage magnetic field in the data permanent erasure mechanism of the first invention for implementing the data permanent erasure technique of the present invention.

6. Structure diagram of the data erasing mechanism of the second invention for implementing the data erasing technique of the present invention.

7. Formed leakage magnetic field in the data permanent erasure mechanism of the second invention for implementing the data permanent erasure technique of the present invention.

8. Data erasing method of a hard disk drive using the data permanent erase mechanism of the invention for implementing the data permanent erasure technology of the present invention

9. Permanent Erase Results of Magnetic Disks in Hard Disk Drives Using Data Permanent Erasing Mechanisms of the Invention for Implementing Data Permanent Erase Techniques of the Present Invention

Patent Registration No. 10-0380824 (Dong-Hyun Baek) 2003.04.07

The present invention relates to a method and technology for permanently erasing data stored in a magnetic recording storage device and further, permanently losing the data storage function. More particularly, the present invention relates to a magnetic recording storage device such as a hard disk driver, a magnetic diskette, a magnetic tape, and the like. And permanently erase the data stored in the data area by forcibly exposing it to a powerful external magnetic field, and furthermore, the system information data and sector structure of the system area and the permanent magnet of the motor to completely lose the storage function. The present invention relates to a method, a technology, and an apparatus for blocking the leakage of information.

Data stored and managed by computers and other information terminals used by countries, companies or individuals is an asset that contains important information about countries, companies and individuals. With the development of information and communication, the amount of information data around the world will reach 4,641 PB in 2001, and close to 1ZB in 2010, and almost all the data on earth will be digitalized, which is an important asset of humanity.

Magnetic recording storage device, optical storage device, and semiconductor storage device are used for recording media for storing digital data. However, magnetic recording storage devices are mainly used as auxiliary storage devices. Magnetic recording storage devices include magnetic tape storage devices, Magnetic disk storage.

However, this important asset, information, is leaking for several reasons. About 30% of the computers supplied in one year are decommissioned, such as when a computer is used to leave a worker's job, when the computer is used to give away to another person, or when the computer is used up. The drive is being discarded. Only location information is deleted in such a hard disk drive, and information data is actually leaked out as it is in the data area. Such data is exposed to a risk of restoring the information as it is.

In order to prevent such information leakage, the conventional technique (see Patent Document No. 10-0380824) overwrites only the data area with arbitrary data and does not allow access to the system area or the low-level format area. Proposing a solution. This technology only overwrites the data area of the recording media and works only on hard disk drives. Other types of recording media, such as magnetic tape, are not supported. Hard disk drives should not have errors and are supported only in normal cases. .

Above all, countries allow only the overwriting software method for storing non-secret public information, and the overwriting software method for the protection of information is not allowed for the recording media for storing confidential information. In addition, the software method is fundamentally not a solution because it recommends or legalizes the use process of the information recording device so that it cannot be reused after the data of the information recording device is completely erased.

As described above, in the software-based solution, part of the data may remain by overwriting only the data area without changing the system area or sector information. In addition, since it operates only on a very normal hard disk drive, it cannot be used in the event of bad hard disk drive itself, bed sector, tracking error, etc., and the failure rate reaches about 30%. It takes at least 40 minutes, so if you run more than 3 times, it will take more than 2 hours. In addition, it cannot be used for other types of media such as magnetic tape recording media. Above all, countries recommend that the storage function be completely destroyed so that the information recording device cannot be reused to prevent information leakage. One software solution is not the solution.

The present invention has been devised to solve the above problems, and magnetically erases completely by remagnetizing so that information data recorded in all types of magnetic recording storage devices cannot be restored. Furthermore, in the case of a hard disk drive, the entire disk of the recording medium including the system area and tracks or sectors is remagnetized, thereby completely destroying the file system itself and making the initial state of the wafer process. Cause the motor to lose its function. It is an object of the present invention to provide a method and technique for permanent erasing so that data stored on a recording medium cannot be recovered at all. Furthermore, it is an object of the present invention to provide a method and a technique for completely losing its function as a storage medium.

Figure 1 shows a magnetic diskette for permanently erasing data stored by the data erasing technique of the present invention. 100 represents a magnetic diskette drive, 110 represents a magnetic diskette, 120 represents a diskette drive exit, 130 represents a diskette output button, and 140 represents an access light. The outer surface of the 110 diskette is covered with a rigid plastic shield 111 and consists of a data access area 113, a shutter 114 and a metal hub 112. There is a magnetic disk 115 inside the diskette 110, and the magnetic disk 115 is coated with a magnetic material 116. The magnetic disk 115 is divided into fine tracks and data is recorded bit by bit on one track. 115-1 When data is erased by the data erasing program The bit structure data in the track is overwritten with other data when the track structure remains.

Figure 2 shows an example of a magnetic disk drive for permanently erasing data stored by the data erasing technique of the present invention. In Figure 2, the magnetic disk drive 200 is completely enclosed by an aluminum base 230 and a cover 210 of aluminum or stainless steel. The spindle motor 222 is fixed to the base 230, and the magnetic disk 300 is fixed to the spindle motor 222 by the clamp 221. The number of magnetic disks 300 is determined by the specifications of the magnetic disk drive. The magnetic disk 300 for storing data is composed of several disk-shaped storage media. Reading and writing of data to the magnetic disk 300 is performed by the head 223 fixed to the actuator 225 and the actuator arm 224.

Figure 3 shows a magnetic disk 300 in a magnetic disk drive 200 for permanently erasing data stored by the data permanent erasure technique of the present invention. The magnetic disk is composed of several chapters 310 according to the specifications of the disk drive, and reads / writes data stored by the head 223. A track 322 is formed in each circumferential direction of the magnetic disk 300, and a sector 320 which is a unit cell for storing actual data is formed. How many tracks are in the radial direction of the magnetic disk 300 is called track density 322. . In the magnetic disk 300, the side surface 330 is coated with a thin film 331 of a magnetic material on the substrate 332, and data is actually stored as the coated magnetic material film 331 is magnetized.

4 shows a diagram of a data erasure mechanism 400 of the first invention for implementing the data erasure technique of the present invention. The data permanent erasure mechanism 400 consists of a magnet fixing part 401 on the upper part, a magnet fixing part 403 on the lower part, and a yoke role and a connection part 402 connecting the upper part and the lower part. The upper permanent magnets 410 and 411 are fixed to the upper magnet fixing part 401, and the lower permanent magnets 420 and 421 are fixed to the lower magnet fixing part 403. The upper permanent magnets 410 and 411 and the lower part are fixed. The permanent magnets 420 and 421 are arranged to have opposite polarities. The upper and lower permanent magnets 410 and 411 may have different polarities, and the lower permanent magnets 420 and 421 also change their polarities so that the upper and lower permanent magnets 410, 411 and the lower permanent magnets 420 and 421 have opposite polarities. Just sort them to have them. Permanent magnets 410, 411, 420, and 421 are made of permanent magnets with the highest magnetic flux density.For example, Nd-Fe-B series permanent magnets.The upper and lower parts 402 are the upper magnets. Ferromagnetic materials are used because 410, 411 and lower magnets 420, 421 should also play a role. At this time, the permanent magnets in the upper part and the permanent magnets in the lower part may be arranged in a stack.

Figure 5 shows the leakage magnetic field generated by the data permanent erasure mechanism 400 of the first invention for implementing the data permanent erasure technique of the present invention. The leakage magnetic field 502 is generated vertically by the permanent magnets 410 and 411 in the upper part and the permanent magnets 420 and 421 in the lower part, and the leakage magnetic field 502 becomes the data permanent erasure area, and the hard disk drive 200 leaks into the leakage magnetic field 502. Input and output along the direction 501 perpendicular to the magnetic field 502, so that the magnetic disk 300 and the leakage magnetic field 502 of the hard disk drive 200 is located in a direction perpendicular to each other. This permanently erases the data recorded on the horizontal magnetic hard disk drive adopting the horizontal magnetic recording method, and furthermore permanently erases the data recorded on the magnetic disk in the latest ultra-high density hard disk drive employing the vertical magnetic recording method. To do this. The leakage magnetic field 502 passes through the hard disk drive 200 and passes through the internal magnetic disk 300 and the spindle motor 222. At this time, the magnetic coating layer 331 of the magnetic disk 300 and the permanent magnet of the spindle motor 222 are completely exposed to a strong external magnetic field. do.

Figure 6 shows a diagram of a data erasure mechanism 600 of a second invention for implementing the data erasure technique of the present invention. The data permanent erasure mechanism 600 is composed of a 601, which serves as a magnet fixing part and a yoke at the upper part, a 603 serving as a magnet fixing part and a yoke at the lower part, and a connection part 602 which connects the upper part and the lower part. The upper permanent magnets 610, 611, 612, 613, 614, 615, 616 are fixed to the upper yoke and magnet fixing part 601, and the lower permanent magnets 620, 621, 622, 623, 624, 625, 626 The back is fixed to the lower magnet fixing part 603, and the upper permanent magnets 610 and 611, 611 and 612, 612 and 613, 613 and 614, 614 and 615, 615 and 616 are arranged to have opposite polarities. Lose. The lower permanent magnets 620 and 621, 621 and 622, 622 and 623, 623 and 624, 624 and 625, 625 and 626 are arranged with opposite polarities. The upper permanent magnet 610 and the lower permanent magnet 620, 611 and 621, 612 and 622, 613 and 623, 614 and 624, 615 and 625, 616 and 626 are arranged to have the same polarity with each other and are arranged coaxially. do. Permanent magnets 610, 611, 612, 613, 614, 615, 616, 620, 621, 622, 623, 624, 625, 626 are made of permanent magnets with the highest magnetic flux density, for example Nd-Fe-B It refers to a series of permanent magnets. The permanent magnet fixing part 601 of the upper part and the permanent magnet fixing part 603 of the lower part should also serve as yoke, and thus use ferromagnetic material. At this time, the permanent magnets in the upper part and the permanent magnets in the lower part may be arranged in an optimal number according to the size and intensity of the data erasing area to be implemented.

Figure 7 shows the leakage magnetic field generated by the data permanent erasure mechanism 600 of the second invention for implementing the data permanent erasure technique of the present invention. The upper permanent magnets 610 and 611, 611 and 612, 612 and 613, 613 and 614, 614 and 615, 615 and 616 are aligned with opposite polarity, creating mutual leakage magnetic field 702, and the lower permanent magnets 620 and 621 , 621 and 622, 622 and 623, 623 and 624, 624 and 625, 625 and 626 are arranged in opposite polarity to form mutual leakage magnetic field 702, the leakage magnetic field 702 is formed in the horizontal direction, the leakage magnetic field 702 is The data is permanently erased. Since the hard disk drive 200 inputs and outputs in the leaked magnetic field 702 along the direction 701 parallel to the leaked magnetic field 702, the magnetic disk 300 and the leaked magnetic field are parallel to each other in the hard disk drive 200. This is to permanently erase the data recorded on the magnetic disk in the hard disk drive adopting the horizontal magnetic recording method. In the case of the hard disk drive 200, the internal magnetic disk 300 and the spindle motor 222 are exposed to the leakage magnetic field 702. At this time, the magnetic coating of the magnetic disk 300 and the permanent magnet of the spindle motor 222 are completely exposed to the strong external magnetic field. Becomes

8 is a schematic diagram of data erasing using the data erasing mechanism of the present invention. Place the hard disk drive 200 in the data erase area of the data permanent erase mechanism 400 or 600 as shown in Figure 8-2. At this time, all of the magnetic disk 300 inside the hard disk drive 200, the spindle motors 222, and the head 223 may be exposed to a leakage magnetic field in the data erase area.

Fig. 9 shows the result of erasing the magnetic disk 300 in the case of the hard disk drive 200 in the case where the erasing operation is performed by the data permanent erasure mechanism 400 or 600. Figure 9-1 shows the structure of the magnetic disk 300 before the erase operation. The sector 320 is created by the track 321. 1-3 sectors of the sector 320 are used as a system area for storing system information, and the remaining sector 320 is a data area. Various information data is stored, and the diary / head is rotated by the permanent magnet of the spindle motor 223 and the diary / write of the information is performed by the head 223. When the hard disk drive 200 is exposed to the leakage magnetic field in the data erasing area as shown in 8-2, all of the magnetic disk 300, the spindle motor 222, and the head 223 are exposed to the leakage magnetic field. This remagnetization erases both track 321 and sector 320, and the magnetic disk is completely initialized. Therefore, not only the information data of the data area stored in the sector but also the file system data of the system area are erased. The row format information is also destroyed and completely initialized to the step before the row format. In addition, since the permanent magnet of the spindle motor 222 is exposed to the leakage magnetic field, the permanent magnet loses its function as a motor, and the head 223 is exposed to the strong leakage magnetic field and loses the function of the magnetic head. Therefore, the hard disk drive completely loses its function as a storage device as a whole.

In FIG. 8, when the hard disk drive 200 is positioned in the data erasing area of the data permanent erasing mechanism 400 or 600, the magnetic disk 300 of the remaining portions except for the spindle motor 222 and the magnetic head 223 are positioned instead of the entire magnetic disk 300. By exposing the bay to the leakage magnetic field, the magnetic head 223 and the spindle motor 222 maintain their normal function, and only the magnetic disk can be completely initialized as shown in 9-2 of FIG. In this case, you can reuse the disk by formatting the magnetic disk and installing a file system.

The present invention relates to a method, a technology, and a mechanism for permanently erasing data permanently erasing and storing functions of magnetic recording media using remagnetization. The present invention relates to a magnetic diskette, a magnetic tape recording medium, and the like, as well as a hard disk drive. The data stored on all types of magnetic recording media can be completely and permanently erased.

According to the present invention, the information recorded on the magnetic recording media is permanently erased regardless of the type of the magnetic recording media, and the information recorded on the magnetic recording media is quickly erased, and the magnetic recording media is not directly connected to the magnet and recorded on the media. The recorded data can be erased and permanently erased the data recorded on the vertical magnetic recording media as well as the horizontal magnetic recording media.

The present invention completely erases all the recorded information regardless of the number of magnetic disks in the hard disk drive. Furthermore, the apparatus of the present invention completely permanently erases all recorded data without removing the cover of the hard disk drive or disassembling the assembly. In the present invention, by remagnetizing a magnetic disk in a hard disk drive, not only the data area and the system information area but also the track or sector structure are completely erased and initialized to the step before the low format. Furthermore, if necessary, the permanent magnet of the spindle motor is demagnetized to lose its function as a motor, and the magnetic head also loses its function, thereby permanently losing the storage function of the hard disk drive, making it impossible to reuse. If it is swinging, it can be reused.

The present invention relates to a method, a technology and a mechanism for permanently erasing data permanently erasing and storing functions of magnetic recording media using remagnetization, and to all types of magnetic recording such as magnetic diskettes and magnetic tapes, as well as hard disk drives. Permanently erase the data recorded on the media. Therefore, some types of mechanisms described in the present invention do not define the limits of the present invention, and the present invention can be implemented through various modifications, and therefore, the invention is defined through the claims of the patent.

Claims (4)

A method for permanently erasing information data recorded on a magnetic recording medium; Inserting the recording medium into an external leakage magnetic field and remagnetizing the recording medium to permanently erase the recording data in the data area; Permanently erasing file system data of a system area from the recording medium; Permanently erasing the recording medium from the recording medium to a low level format to completely initialize the magnetic material coating layer of the disc; Permanently erasing the information data recorded on the media by removing the cover of the magnetic recording media or inserting it into an external leakage magnetic field without disassembling the assembly; The magnetic recording medium includes any magnetic recording medium for recording information using magnetization of a magnetic material such as a horizontal magnetic recording medium such as a magnetic tape, a magnetic diskette, a magnetic disk, and a vertical magnetic recording medium. Method and mechanism for completely erasing information data permanently by completely initializing the disk by erasing the data area, system area and low level format of the magnetic recording medium after the step The method of claim 1, further comprising the steps of: demagnetizing the permanent magnet of the drive motor in a magnetic recording medium driven by the drive motor, thereby causing a loss of motor function; The method of claim 1, further comprising: demagnetizing the magnetic head to lose its function as a head; Method and mechanism for permanently losing the information storage function of magnetic recording media through the above steps so that it cannot be reused as recording media The method of claim 1, wherein the magnets of the upper part and the lower part of the magnet are arranged with opposite magnetic poles using at least one permanent magnet, and connected to the yokes of the ferromagnetic material to generate a leakage magnetic field in the vertical direction of the magnetic disk. A method of exposing a front surface of various types of magnetic recording media to a magnetic field by arranging a single permanent magnet or a plurality of permanent magnets of sufficient size to generate the vertical leakage magnetic field; Method and mechanism for producing permanent magnets using alloy materials including Fe, Co, Ni, Mn, etc. in the permanent magnets The method of claim 1, wherein the adjacent permanent magnets in the upper part are arranged in opposite polarities to connect to the yokes of the ferromagnetic material, and the adjacent permanent magnets in the lower part are arranged in the opposite polarities to connect to the yokes of the ferromagnetic material, A method of generating a leakage magnetic field in the horizontal direction of a magnetic disk by arranging the upper and lower permanent magnets with the same magnetic poles; In the method of generating the leakage magnetic field in the horizontal direction and a plurality of permanent magnets arranged to expose the front surface of various types of magnetic recording media to the horizontal leakage magnetic field and its mechanism Method and mechanism for generating a leakage magnetic field using an electromagnet in the method of generating the horizontal leakage magnetic field

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