KR20090117485A - Deguasser apparatus for removing information stored in recording media using magnet and heat generating device - Google Patents

Abstract

PURPOSE: A deguasser apparatus for removing information stored in a recording media using magnetic and heating generating apparatus is provided to control the intensity of the magnetic filed according to a distance between magnetic and control the distance. CONSTITUTION: A deguasser apparatus for removing information stored in a recording media using magnetic and heating generating apparatus include a fixing plate(210), a moving plate(213), and thermo-generators. The fixing plate is fixed at the lower part of the deguasser apparatus. The first magnet and the second magnet are adhered to the fixing plate and moving plate. The thermo-generator provides the heat energy to the recording medium.

Description

Degauser apparatus for removing information stored in recording media using magnet and heat generating device

The present invention relates to a degausser device for completely removing information stored in a recording medium using a magnet and a heat generating device. More particularly, the present invention relates to a magnetic field generated from a magnet and heat generated by the heat generating device. The present invention relates to a degauser device which is applied to a recording medium at the same time and has a movable plate which can be moved up and down to remove information regardless of the size of the recording medium.

Information stored and managed by computers and other information terminals is an asset that contains important information about the country, company or individual. With the development of information and communication, the amount of information stored on record media is increasing. This is an important asset for humankind.

However, this important asset, information, is leaking for several reasons. For example, when returning a computer used by an employee to leave the office, handing over the used computer to another person, discarding it at the end of its life, etc., the information is stored regardless of the intention of the user who stored the information on the recording medium. It is leaked to third parties without permission. In the case of a hard disk, only the location information is deleted and the information stored in the data area is leaked as it is, and the information is exposed to a risk of being restored as it is.

In order to prevent information leakage, many kinds of degauser devices have recently been developed. The degauser device is a device that completely deletes all information stored in the hard disk and magnetic tape of a computer or server by using a strong magnetic field, and can block external leakage of internal data. When a company sells computer equipment such as PC, server, storage, tape, etc., it is a typical process to dispose of the record media by simply 'low formatting' and handing it over to the disposal specialist.

However, in this process, internal or customer information is leaked. The degausser device sheds magnetic information on the recording medium to completely erase the information, thereby preventing the internal leakage of internal information. Today, degaussers are rapidly being adopted by public institutions, military, financial institutions and major corporations.

However, the conventional degausser device uses a permanent magnet and has a problem in that magnetic fields of various intensities cannot be applied depending on the type of recording medium because the distance between the magnets is fixed. In addition, there is a problem that the information stored in the recording medium is removed using only the magnetic field, so that the information stored in the recording medium is not completely removed.

1 shows a conventional degauss apparatus (see application number 2007-0018742). Referring to FIG. 1, the degauser device 100 includes an upper magnet fixing part 101, a lower part gypsum fixing part 103, and a connecting part 102 that connects a role of a yoke and an upper part and a lower part. . The upper permanent magnets 110 and 111 are fixed to the upper magnet fixing part 101, and the lower permanent magnets 120 and 121 are fixed to the lower magnet fixing part 103 and the upper permanent magnets 110 and 111. The lower permanent magnets 120 and 121 are arranged to have opposite polarities. Permanent magnets (110, 111, 120, 121) is made of a permanent magnet having the highest magnetic flux density, such as Nd-Fe-B series permanent magnets, the connecting portion 102 connecting the upper and lower parts is the upper permanent Ferromagnetic materials are used because the magnets 110 and 111 and the lower permanent magnets 120 and 121 should also play a role.

However, the degauser device 100 shown in FIG. 1 also uses only permanent magnets (110, 111, 120, 121), and the distance between the upper permanent magnets (110, 111) and the lower permanent magnets (120, 121). Is fixed and removes the information stored in the recording medium using only the magnetic field, and thus cannot solve the above-mentioned problems.

In order to solve the above problems, an object of the present invention is to provide a degauser device using a permanent magnet or an electromagnet and a heat generating device.

In addition, in order to solve the above problems, the present invention is to provide a degausser device that can be adjusted the distance between the magnets, the strength of the magnetic field according to the distance between the magnets.

In addition, to solve the above problems, an object of the present invention is to provide a degausser device including a pulse supply device for supplying attenuation wave to the electromagnet when using the electromagnet.

In order to achieve the above object, the present invention provides a degauser device for removing information stored in a recording medium, comprising: a fixed plate fixed to a lower portion of the degauser device; A moving plate movable up and down along a sidewall of the degausser device; First and second magnets attached to the fixed plate and the moving plate, respectively; A heat generating device for providing thermal energy to the recording medium, wherein the magnetic field generated by the first magnet and the second magnet and the heat energy generated by the heat generating device are provided together to the recording medium, The plate and the second magnet move up and down to provide a degausser device using a magnet and a heat generating device, characterized in that to provide the recording medium with a magnetic field of different intensity depending on the size and type of the recording medium.

The degausser device further comprises a gap detector for sensing a distance between the first magnet and the second magnet.

The degauser device further comprises a height adjusting device for manually or automatically moving the moving plate and the second magnet.

The degauser device further comprises a magnet support for preventing external leakage of magnetic fields generated in the first magnet and the second magnet, wherein the magnet support is made of a soft magnetic material. The side plate of the magnetic support may be provided with a scale plate for visually confirming the intensity display of the magnetic field according to the distance between the first magnet and the second magnet.

The degauser device further comprises a magnetic sensor for measuring the amount of leakage of the external magnetic field leaking to the outside of the magnet support.

The degauser device is configured to display distance information of the first and second magnets measured by the gap detector, intensity information of the magnetic field according to the distance, and leakage information of the magnetic field leaked to the outside measured by the magnetic sensor. It further comprises a display device.

The first magnet and the second magnet is a permanent magnet or an electromagnet, and when the first magnet and the second magnet is an electromagnet, further comprising a pulse supply device for providing a damping wave to the electromagnet . The electromagnet can be rotated 90 °.

The degauser device according to the present invention can effectively remove information stored in a recording medium by using a permanent magnet or an electromagnet and a heat generating device together.

In addition, the degausser device according to the present invention can be adjusted manually or automatically the distance between the magnets, the user can easily determine the distance between the magnets by providing a scale plate that the user can easily know the strength of the magnetic field according to the distance between the magnets Can be adjusted.

In addition, the degausser device according to the present invention can effectively remove information stored in the recording medium by supplying attenuation waves to the electromagnet when the electromagnet is used.

The terminology used in the present invention is a general term that is currently widely used as possible, but in certain cases, the term is arbitrarily selected by the applicant, in which case the meaning of the term is described in the detailed description of the invention. It should be understood that the present invention in terms of terms other than these terms.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the present invention that can specifically realize the above object, the present invention is not limited or limited by the above embodiments.

2 is a cross-sectional view of a degauser device according to an embodiment of the present invention. Referring to FIG. 2, the degauser device 200 includes a fixed plate 210, a moving plate 213, magnets 212 and 215, heat generating devices 211 and 214, a gap detector 230, and a magnetic sensor ( 240, a magnet support 250, an electronic device 270, a display device 280, and a pulse supply device 280.

The fixing plate 210 is fixed to the bottom of the degauser device, the heat generating device 211 (hereinafter referred to as 'first heat generating device') and the magnet 212 (hereinafter referred to as 'first magnet') Is attached to an upper surface of the fixing plate 210.

The moving plate 213 may move up and down along the sidewall of the magnet support 250 to adjust the strength of the magnetic field. A height adjusting device 220 for moving the moving plate 213 up and down is installed on the sidewall of the magnet support 250, and the height adjusting device 220 manually and / or automatically moves the moving plate 213. I can move it. In FIG. 2, the height adjusting device 220 is shown to be installed in a rectangular shape on the left side wall of the magnet support 250, the present invention is the shape of the height adjusting device 220 and the height adjusting device 220 Is not limited to the location where it is installed. A heat generating device 214 (hereinafter referred to as a 'second heat generating device') and a magnet 215 (hereinafter referred to as a 'second magnet') are attached to the lower surface of the moving plate 213.

The first magnet 212 and the second magnet 215 includes an electromagnet or a permanent magnet. As permanent magnets, rare earth magnets such as neodymium and samarium cobalt are mainly used.

The first heat generating device 211 and the second heat generating device 214 are made using a coil, and can generate heat energy using the 'principles of induction heating' generated when an alternating current flows in the coil. . Induction heating means that a conductor such as a metal located in a coil in which an alternating current (high frequency) current flows generates heat energy due to resistance between eddy current loss and hysteresis loss, and the heat energy (metal or Conductor) It means heating the material.

The heat energy generated by the first heat generating device 211 and the second heat generating device 214 is applied to a recording medium in which information is stored, and heats the recording medium close to a Curie temperature. Curie temperature refers to the temperature at which the ferromagnetic phase changes to paramagnetic material. When heated above the Curie temperature, the ferromagnetic material loses its properties as a magnet and becomes paramagnetic. The present invention combines the heat energy generated by the first heat generating device 211 and the second heat generating device 214 with the magnetic field generated by the first magnet 212 and the second magnet 215 on a recording medium storing information. It can be applied to effectively remove the information stored in the recording medium.

In FIG. 2, the first heat generating device 211 and the second heat generating device 214 are respectively attached to the fixed plate 210 and the moving plate 213 in the form of a plate. The shape and position of attachment of the heat generating device 211 and the second heat generating device 214 are not limited. For example, the first heat generating device 211 and the second heat generating device 214 may be installed to be attached to both side walls of the magnet support 250, and between the fixing plate 210 and the moving plate 213 Only the part corresponding to the region of may generate heat energy.

The gap detector 230 may be installed on an upper surface of the first magnet 212 and a lower surface of the second magnet 215. The gap detector 230 detects a distance between the first magnet 212 and the second magnet 215. The height adjusting device 220 manually and / or automatically adjusts the height of the fixing plate 210 by using the gap information measured by the gap detector 230. In FIG. 2, the gap detector 230 is illustrated as being positioned at the center of the upper surface of the first magnet 212 and the center of the bottom surface of the second magnet 215, but the present invention is limited to the position of the gap detector 230. Don't. For example, the gap detector 230 may be positioned on the upper side of the first magnet 212 and the lower side of the second magnet 215, or may be installed on the fixed plate 210 and the moving plate 213.

The magnetic sensor 240 measures the amount of leakage of the external magnetic field leaking from the degauser device according to the present invention. By using the leakage information measured by the magnetic sensor 240, it is possible to prevent the proximity of the magnetic card to be protected. In FIG. 2, the magnetic sensor 240 is illustrated as being positioned below the magnet support, but the present invention is not limited to the position of the magnetic sensor 240.

The magnet support 250 is made of a soft magnetic material, and forms a magnetic closed circuit to minimize magnetic field leakage generated from the first magnet 212 and the second magnet 215. A plurality of brackets 221 may be installed inside the sidewall of the magnet support 250 to fix the fixing plate 213 moving up and down.

In addition, the magnet support 250 may be provided with a scale plate 260 that can visually check the intensity display of the magnetic field according to the distance between the first magnet 212 and the second magnet 215. Therefore, when the user manually adjusts the gap between the fixed plate 210 and the movable plate 213, the gap may be adjusted by looking at the scale plate 260. In FIG. 2, the scale plate 260 is illustrated as being positioned on the right side of the magnet support 250, but the present invention is not limited to the position of the scale plate 260.

The degauser device according to the present invention may be connected to the electronic device 270 and the display device 280. Therefore, the distance information of the first magnet 212 and the second magnet 215 measured by the degauser device, the intensity information of the magnetic field according to the distance, the intensity information of the magnetic field flowing out to the outside measured by the magnetic sensor 240 Etc. may be transmitted to the electronic device 270 to be processed, and information processed from the electronic device 270 may be displayed on the display device 280.

The pulse supply device 280 provides a damping signal to the electromagnet when the first magnet 212 and the second magnet 215 are electromagnets. The pulse supply device includes a switch and a capacitor, and the attenuation wave is obtained by temporarily discharging a charge charged in a capacitor having a large capacitance by closing the switch. When the attenuation wave current flows through the coil of the electromagnet, a magnetic field having the same time characteristic is generated from the coil. This damped vibration type magnetic field can effectively remove the information stored in the recording medium. 3 illustrates attenuation waves generated in the pulse supply device. In addition, when the first magnet 212 and the second magnet 215 is an electromagnet, the electromagnet can be rotated 90 degrees so that the recording medium can be easily separated from the electromagnet.

Therefore, the degausser device according to the present invention efficiently removes information stored in a recording medium by using heat together with a magnetic field, and can be applied to various kinds of recording media by varying the strength of the magnetic field by adjusting a distance between two magnets. In addition, by using an electromagnet, the user can adjust the strength of the magnetic field, and the attenuation wave is provided to the electromagnet to efficiently remove information.

In the present invention as described above has been described by the specific embodiments, such as specific components and limited embodiments and drawings, but this is provided to help a more general understanding of the present invention, the present invention is not limited to the above embodiments. For those skilled in the art, various modifications and variations are possible from such description.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and all the things that are equivalent to or equivalent to the scope of the claims as well as the claims to be described later belong to the scope of the present invention.

1 is a perspective view of a conventional degauser device

2 is a cross-sectional view of a degauser device according to an embodiment of the present invention.

3 is an attenuation wave used in the degauser device according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

210: fixing plate 211, 214: heat generating device

212, 215: magnet 213: moving plate

220: height adjusting device 230: gap detector

240: magnetic sensor 250: magnet support

260: scale plate 270: electronic device

280: display device 290: pulse supply device

Claims (11)

A degauser device for removing information stored in a recording medium, A fixed plate fixed to the lower portion of the degauser device; A moving plate movable up and down along a sidewall of the degausser device; First and second magnets attached to the fixed plate and the moving plate, respectively; Includes; a heat generating device for providing thermal energy to the recording medium, The magnetic field generated by the first magnet and the second magnet and the heat energy generated by the heat generator are provided together to the recording medium, and the movable plate and the second magnet move up and down to thereby size and type of the recording medium. Degauser device using a magnet and heat generating device, characterized in that for providing a magnetic field of different intensity to the recording medium. The device of claim 1, wherein the degauser device is The degauser device using a magnet and a heat generating device, characterized in that it further comprises a gap sensor for sensing the distance between the first magnet and the second magnet. 3. The degauser device of claim 2, wherein Degauser device using a magnet and heat generating device further comprises a height adjusting device for manually or automatically moving the moving plate and the second magnet. 4. The degauser device of claim 3, wherein And a magnet support for preventing external leakage of magnetic fields generated by the first magnet and the second magnet, wherein the magnet support is made of a soft magnetic material. Woozer device. The method of claim 4, wherein Degauser device using a magnet and a heat generating device, characterized in that the scale plate for visually confirming the intensity display of the magnetic field according to the distance between the first magnet and the second magnet is installed on the side of the magnet support. 5. The degauser device of claim 4, wherein Degauser device using a magnet and heat generating device, characterized in that it further comprises a magnetic sensor for measuring the amount of leakage of the external magnetic field leaking to the outside of the magnet support. 7. The degauser device of claim 6, The display apparatus may further include a display device for displaying distance information of the first and second magnets measured by the gap detector, intensity information of the magnetic field according to the distance, and leakage amount information of the magnetic field leaked to the outside measured by the magnetic sensor. Degauser device using a magnet and a heat generating device, characterized in that. The method of claim 1, Degauser device using a magnet and a heat generating device, characterized in that the first magnet and the second magnet is a permanent magnet or an electromagnet. 9. The degauser device of claim 8, wherein Degauser device using a magnet and a heat generating device, characterized in that it further comprises a pulse supply device for providing a damping wave to the electromagnet, when the first magnet and the second magnet is an electromagnet. The method of claim 8, When the first magnet and the second magnet is an electromagnet, the demagnetizer device using a magnet and a heat generating device, characterized in that the electromagnet is rotated 90 °. The method of claim 1, And the heat generating device is located between the fixed plate and the first magnet and between the moving plate and the second magnet.

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