KR102212516B1 - Drive Crushimg Method Using In-Line Process System - Google Patents

Abstract

The present invention relates to a storage medium crushing method using a storage medium crushing system, which comprises the steps of: (a) inputting a storage medium into a storage medium puncturing device; (b) transmitting information including a type and position of the input storage medium to a server; (c) determining a puncturing position; (d) crushing the storage medium; and (e) acquiring an image from a monitoring camera to transmit and store the same to/in the server. According to the present invention, data recorded in the storage medium can be completely destroyed.

Description

Storage medium crushing method using storage medium crushing system {Drive Crushimg Method Using In-Line Process System}

The present invention relates to a storage medium crushing method using a storage medium crushing system, and more particularly, a user can easily check at a user terminal such as a computer or a smartphone, and physically according to the type of storage medium automatically supplied to the drilling device. The present invention relates to a storage medium crushing method using a storage medium crushing system that destroys data in a storage medium by destroying it, inspects for defects, and resupplies or discharges it as a continuous process.

In general, when a storage medium that stores data such as an HDD or SSD is at the end of its service life, when it is not in use, or when it is replaced due to a failure, the data stored inside must be destroyed to prevent leakage of data. Data destruction is essential in places where other people's personal information or various types of confidential information are handled.

In order to destroy data stored in such a storage medium, a method of erasing stored data through overwriting or degauging of the entire area of the storage medium, and a method of physically destroying the storage medium itself are used.

However, such conventional methods of destroying data including physical destruction become more important as data recovery technology and equipment develop, and as some information can be extracted from damaged storage media, the importance of more complete destruction of data on storage media becomes more important. It is growing.

In particular, methods for physically destroying the storage medium include crushing the storage medium with a roller, crushing the substrate by breaking it, or destroying data by puncturing through a perforation pin.

However, in the case of SSD, a plurality of NAND flash memories are configured, and the mounting locations of NAND flash memories are different for each SSD manufacturer, so a plurality of NAND flash memories and ), it was difficult to destroy all chips at the same time, and in the case of HDD, data is recorded in a place where magnetic material is coated on a thin plate called a platter.The size and location of this platter are different for each HDD manufacturer, making it difficult to destroy the exact location. There was a problem, and there was a problem that the efficiency of work was degraded because the user could not check and control from a distance.

As a background technology of the present invention, there is Patent Registration No. 1662475 "Storage Media Erasing Device" (Patent Document 1). In the background art,'horizontal transfer means 20 provided horizontally to the inside of the main frame 10 from the entrance 12 formed in the main frame 10; It is formed in a groove shape and is provided with a through hole 44 on the bottom surface to support the storage medium 30, and is provided with a support part 42 to horizontally reciprocate by the horizontal transfer means 20, and both ends in the input and discharge directions are inclined. Or deck 40 formed in a streamlined shape; A vertical guide 52 is vertically provided inside the main frame 10, and both ends are inserted into the vertical guide holes 54 formed vertically in the vertical guide 52, and provided in the vertical guide hole 54 The upper permanent magnet 50 in the form of a roller that is moved up and down from the top of the deck 40 by the elastic means 56; A plate-shaped lower permanent magnet 60 fixedly installed at the lower portion of the body frame 10 with the deck 40 as the center; A drilling means (70) provided at the end of the horizontal transfer means (20) in the main body frame (10) and provided with a drill blade (72) to elevate and descend to pierce the storage medium (30); A storage medium erasing device characterized by'is proposed.

In the above background technology, a method of erasing data by puncturing a storage medium using a drill blade 72 is adopted, but in the case of SSD, a plurality of NAND flash memories are formed. Each SSD manufacturer has a NAND flash memory. The location of the (NAND Flash Memory) is different, so it is difficult to drill by accurately positioning the drill blade 72 at the location where the chips such as a plurality of NAND flash memories or caches are formed. There was a problem that data could not be completely erased because it was not possible to check whether or not was completely punctured. In the case of HDD, there was a problem in that it was difficult to find and destroy the exact location because the size and location of the platter to be recorded are different for each manufacturer.

Patent registration No. 1662475 "Storage medium erasing device"

The present invention is to solve the above problems, and according to the type of storage medium, a user can remotely check and physically destroy the data in the storage medium, and the process of resupplying or discharging by inspecting for defects is a continuous process. Another object is to provide a storage medium shredding method using a storage medium shredding system that allows the data recorded in the storage medium to be completely destroyed.

The present invention provides a storage medium perforation device for perforating the supplied storage medium, a storage medium recognition device configured on one side of the perforation device, a control unit for operating the storage medium perforation device, and a wired or wireless communication connected to the control unit. A storage medium shredding unit comprising a communication unit configured to enable this and a monitoring camera configured on the other side of the drilling device; A server comprising a storage unit for storing information on an existing storage medium and for storing information measured by a storage medium recognition device of the storage medium drilling device, and a communication unit for communicating information from the storage unit by wire or wirelessly; Using a storage medium shredding system comprising; a user terminal receiving information stored in the server, and (a) inputting the storage medium into the storage medium drilling device; (b) recognizing information including the type and location of the input storage medium by a storage medium recognition device and transmitting the information to the server; (c) determining a puncture location by determining a crushing location based on the information of the existing storage medium and the information of the input storage medium in the server at the user terminal; (d) crushing the storage medium by operating the storage medium factory value; And (e) obtaining an image from a monitoring camera after shredding the storage medium and transmitting it to a server for storage.

In addition, in the storage medium crushing unit, the storage medium is in the shape of a table of a predetermined size and a plate of a predetermined size through which a plurality of through holes are made, and a predetermined distance from the center of the upper surface of the table to the upper portion so that the storage medium input space is formed at the bottom A perforated plate that is spaced apart and fixed, a plurality of vertical axes that are configured to be vertically movable and movable in a horizontal direction on the outside of the table, and fixed to be movable in a vertical direction by being inserted into a vertical axis, and a guide hole of a long hole in the horizontal direction is drilled through. A moving plate formed in parallel with the table, a cylinder in which a plate-shaped guide plate having a larger area than the guide hole is formed on the upper and lower surfaces of the guide hole through the guide hole of the moving plate, and a cylinder in the lower part of the moving plate It consists of a perforation member fixed to the guide plate of the perforated plate and having a perforation pin formed at a position corresponding to the through hole of the perforated plate.In step (c), based on the information of the existing storage medium and the input storage medium from the user terminal to the server An object of the present invention is to provide a crushing method, characterized in that the perforation member is moved by determining the crushing position.

In addition, to provide a crushing method, characterized in that the perforation pins of the storage medium perforation device are configured to have different heights of adjacent rows.

In addition, at one side of the storage medium drilling device, a supply conveyor that transfers the storage medium and continuously supplies it to the storage medium drilling device is configured, and on the other side of the storage medium drilling device there is a transfer conveyor that discharges the storage medium punched in the storage medium drilling device. It is intended to provide a crushing method characterized in that the configuration.

In addition, it consists of a case of a certain size and an X-ray tube installed on the inner upper surface of the case and configured to irradiate X-rays, and inspects the storage medium transferred from the transfer conveyor to check for destruction errors, and transmits information to the server. It is an object of the present invention to provide a crushing method comprising a ray inspection device and a discharge conveyor that receives and transfers a storage medium that has been inspected by the x-ray inspection device.

In addition, the storage medium crushing unit is to provide a storage medium crushing method using a storage medium crushing system, characterized in that the return conveyor is configured to supply the storage medium determined as a puncture error from the discharge conveyor to the supply conveyor.

In addition, the storage medium crushing unit is characterized in that a rotation tray is formed between the discharge conveyor and the return conveyor to rotate at a certain angle by a motor, and the storage medium transferred from the discharge conveyor is rotated and transferred to the return conveyor. It is intended to provide a storage medium crushing method using a storage medium crushing system.

In addition, the x-ray inspection apparatus for the storage medium crushing unit has a fixing part formed on the side of the x-ray tube, and the fixing part is screwed to the side of the vertical axis where the x-ray tube rotates by a motor, and the vertical axis rotates by the operation of the motor so that the x-ray tube is vertical. An object of the present invention is to provide a storage medium crushing method using a storage medium crushing system, which is configured to be movable.

In the storage medium crushing method using the storage medium crushing system of the present invention, the data of the storage medium is destroyed by physically destroying it according to the type of storage medium automatically supplied to the drilling device remotely, and resupply or discharged by inspecting for defects. The process can be carried out in a continuous process so that the extraction of data recorded in the storage medium can be completely blocked. In particular, the user operates the shredding device by remotely checking it from a user terminal such as a computer or smartphone In addition to being able to check the crushed storage medium and results, the storage medium that has been judged to be defective by the inspection device is supplied to the drilling device in a continuous process so that the data recorded in the storage medium can be completely destroyed. It has a very useful effect.

The following drawings attached to the present specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings. It is limited and should not be interpreted.
1 is a diagram schematically showing a storage medium crushing system used in a storage medium crushing method using the storage medium crushing system of the present invention.
2 is a diagram schematically showing a storage medium crushing method in the storage medium crushing unit of the present invention in sequence.
3 is a view showing a front view and a plan view of the storage medium drilling apparatus of the present invention.
Figure 4 is a diagram partially showing the storage medium ceiling of the present invention.
5 is a diagram showing an x-ray inspection apparatus of the present invention.
6 is a plan view showing another embodiment of a storage medium crushing unit in the storage medium crushing system of the present invention.

In the following, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the disclosed embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention will be described in detail according to a preferred embodiment.

1 is a diagram schematically showing a storage medium crushing system used in a storage medium crushing method using the storage medium crushing system of the present invention.

1, the storage medium shredding method of the present invention uses a storage medium shredding system to shred a storage medium such as an HDD or SSD.

The storage medium shredding system of the present invention includes a storage medium shredding unit 2 capable of physically shredding a storage medium, a server 1 for performing wired and wireless communication with the storage medium shredding unit 2 and storing storage medium information. , It comprises a user terminal (3) for receiving the information stored in the server (1) and operating the storage medium shredding unit (2).

The server 1 stores information on the existing storage medium 10 and stores the information measured by the storage medium recognition device 280 of the storage medium drilling device 200, and the storage unit 110 It consists of a communication unit 120 to communicate the information of the wire or wireless. In the storage unit 110, the size, standard, and internal information of a storage medium such as an existing HDD or SSD (for example, the size and location of the platter according to the HDD or SSD manufacturer and model, and the NAND Flash Memory) are mounted. Location, etc.), and the information measured by the storage medium recognition device 280 is received and stored together with the existing storage information.

The storage medium crushing unit 2 includes a storage medium drilling device 200 for physically crushing the supplied storage medium, a storage medium recognition device 280 configured on one side of the drilling device 200, and a storage medium. A control unit 21 configured to operate the drilling device 200, a communication unit 22 connected to the control unit 21 to enable wired or wireless communication, and a monitoring camera configured on the other side of the drilling device 200 It is made including 800.

The perforation device 200 constitutes a device such as a separate perforation pin to physically crush the storage medium, and the controller 21 controls the perforation device 200 to operate or stop, and the communication unit 22 It communicates with the terminal 3 by wire or wirelessly to control the drilling device 200 through the control unit 21.

The user terminal 3 is made of various devices such as a computer, a mobile phone, and a smart pad, and enables communication with the storage medium shredding unit 2 and the server 1.

First, in the storage medium crushing method using the storage medium crushing system of the present invention, the storage medium 10 is put into the storage medium drilling device 200 (a).

2 is a diagram schematically showing a storage medium shredding method in the storage medium shredding unit of the present invention in sequence, and FIGS. 3 and 4 are diagrams showing the storage medium ceiling of the present invention.

In the storage medium crushing unit 2 in the present invention, the storage medium drilling device 200 automatically supplies the storage medium 10 to the drilling device 200 and punctures the storage medium 10 as shown in FIG. 2. Destruction of data after physical destruction is very easy and work efficiency can be improved, as well as a continuous process that integrates physical destruction and inspection, which is very convenient to connect with other processes, and additionally, x-ray inspection device 400 ) In the storage medium 10 may be checked for the presence or absence of unperforated chips.

The perforation device 200 in the present invention is to perforate the storage medium 10 supplied using the perforation pins 261, and as shown in Figs. 2 to 4, a table 210 having a predetermined size and , A perforated plate 270 that is spaced apart from the center of the upper surface of the table 210 and fixed to the upper portion by a predetermined distance so that the storage medium input space 271 is formed at the lower portion of the plate shape through which the plurality of through holes 272 are penetrated. ), and a plurality of vertical shafts 220 configured to be vertically movable and movable in the horizontal direction on the outside of the table 210, and fixed to be movable in the vertical direction by being fitted to the vertical shaft 220 The guide hole 251 is formed through a hole and penetrates the moving plate 250 configured in parallel with the table 210 and the guide hole 251 of the moving plate 250, and the upper and lower surfaces of the guide hole 251 The cylinder 240 is formed with a plate-shaped guide plate 241 having a larger area than the guide hole 251 on the surface, and is fixed to the guide plate 241 of the cylinder 240 under the moving plate 250 It consists of a perforation member 260 in which a perforation pin 261 is formed at a position corresponding to the through hole 272 of the perforated plate 270.

As shown in FIG. 3A, the perforated plate 270 is fixedly installed on the top of the table 210, and a storage medium input space portion 271 is formed under the perforated plate 270 for insertion of the storage medium 10 to be stored. Allows the medium 10 to be fed.

Through holes 272 are formed in the perforated plate 270 at regular intervals in the transverse direction and the longitudinal direction. At this time, the through hole 272 is a portion through which the perforation pin 261 passes, and is formed somewhat larger than the size of the cross-section of the perforation pin 261 so that friction does not occur.

The vertical shaft 220 is configured in a vertical direction on the outside of the table 210 and formed in pairs so that there is no shaking when the moving plate 250 is vertically moved.

The moving plate 250 allows the vertical axis 220 to penetrate so that the moving plate 250 itself can vertically move along the vertical axis 220, and the vertical movement of the moving plate 250 is performed by a separate cylinder 240 at the top. ) To move in the vertical direction.

The cylinder 240 passes through the guide hole 251 of the moving plate 250 and is fixed to the guide hole 251, and each guide plate 241 having a plate shape larger than the area of the guide hole 251 The cylinder 240 is fixed to the cylinder 240 so as to be located on the upper and lower surfaces of the 251 so that the cylinder 240 can be moved horizontally along the guide hole 251.

The cylinder 240 allows the movement in the horizontal direction along the guide hole 251 of the moving plate 250 using various known devices such as cylinders and rails, so that the type or standard of the storage medium 10 According to the perforation pin 261 can be moved. At this time, the perforation plate 270 is formed to have an area corresponding to the entire position in which the perforation pin 261 is movable so that the perforation pin 261 moves to enable perforation.

With this configuration, the moving plate 250 moves vertically along the vertical axis 220 and vertically moves in the direction of the perforated plate 270, and a separate plate for perforation of the storage medium 10 under the moving plate 250 A perforation member 260 is formed.

The perforation member 260 may be configured to form a rail and be detachably fitted thereto, as shown in the lower portion of the moving plate 250, and according to the vertical movement of the moving plate 250, the perforating member 260 ) Also moves vertically.

At this time, a plurality of perforation pins 261 are formed in the lower part of the perforation member 260 to protrude downward, and the perforation pins 261 penetrate through the storage medium 10 to be perforated. It is formed at each interval, and is formed at a position corresponding to the through hole 272.

In particular, in the present invention, by densely positioning a plurality of perforated pins 261 in the transverse and longitudinal directions, the platter 12 or the NAND flash memory 11 having different locations or sizes depending on the manufacturer, standard, capacity, etc. It can be made to be able to perforate without missing.

In addition, the perforation pin 261 of the storage medium perforation device 200 may be configured to have a constant height of the lower end, but may be configured to have different heights of adjacent rows as shown in FIGS. 3B and 4A.

That is, if the perforation pins 261 are densely positioned, excessive pressure is applied when perforating the storage medium 10, and the storage medium 10 is not perforated and is broken or crushed. Therefore, the height of the perforated pins 261 is different. Thus, the perforation pin 261 of the row, which is further protruded to the lower part of the pressure at the time of perforation, is pressed first to facilitate the perforation of the storage medium 10, and the perforation of the storage medium 10 again with the perforation pin 261 of the next height This is to make it easier.

In addition, by varying the height of the perforated pins 261, in the case of SSD, the height through which the perforated pins 261 penetrate is different depending on the location or height and layer of the platter 12 or the NAND flash 11 By allowing penetration to occur, complete data destruction is possible.

When configured in this way, as shown in FIG. 3B, after receiving the storage medium 10 from the supply conveyor 100 and placing it in the storage medium input space part 271, the drilling pin 261 is lowered by lowering the drilling member 260. The storage medium 10 located in the storage medium input space 271 is drilled through the through hole 272.

Thereafter, information including the type and location of the storage medium 10 inserted into the storage medium drilling device 200 is recognized by the storage medium recognition device 280 and transmitted to the server 1 (b).

At one side of the drilling device 200, a storage medium recognition device 280 is configured. The storage medium recognition device 280 is capable of checking and recognizing information on various known storage media 10 such as a monitoring camera and a barcode recognition device. A device may be used, and the server 1 through the communication unit 22 configured to enable wired or wireless communication by recognizing the type or information of the storage medium 10, the shredding location, etc. in the storage medium recognition device 280 ).

Thereafter, the user terminal 3 determines the crushing position based on the information of the existing storage medium 10 and the information of the input storage medium 10 to the server 1 to determine the puncture position (c).

The storage medium 10 information measured by the storage medium recognition device 280 is received from the server 1 and compared with the existing storage information to determine a physical shredding location.

Thereafter, the storage medium perforation device 200 is operated to crush the storage medium 10 (d).

After transporting the cylinder 240 in the horizontal direction along the guide hole 251 so as to be located at the perforation position determined according to the type or standard of the storage medium 10, the perforation pin 261 is lowered in the vertical direction, and the storage medium 10 To shred.

Finally, after the storage medium 10 is shredded, an image is acquired from the monitoring camera 800 and transmitted to the server 1 to be stored (e).

After the crushing of the storage medium 10, the monitoring camera 800 captures the crushed storage medium 10 and transmits it to the server 1, so that the administrator can grasp the physical crushing location and state of the storage medium 10. It is to allow this information to be sent back to the customer.

In particular, as shown in FIG. 2, a supply conveyor 100 for continuously supplying the storage medium 10 to the storage medium drilling device 200 by transferring the storage medium 10 is configured on one side of the storage medium drilling device 200, and the storage medium drilling device On the other side of 200, a transfer conveyor 300 for discharging the storage medium 10 perforated by the storage medium perforation device 200 is configured, so that the storage medium 10 is automatically supplied to the perforation device 200, and The process of physically destroying and discharging data from the storage medium 10 is performed in a continuous process, so that data destruction is very easy and work efficiency can be improved, as well as connection with other processes is very convenient. You can do it.

The supply conveyor 100 may use all of a variety of known conveyors, and serves to transport the storage medium 10 to the drilling device 200.

5 is a diagram showing an x-ray inspection apparatus of the present invention.

In particular, in the present invention, the storage medium 10 perforated by the storage medium perforation device 200 may be configured to configure a separate x-ray inspection device 400 to check whether or not the perforation is defective by the transfer conveyor 300. have.

Although the x-ray inspection apparatus 400 is not shown, separate inlets and outlets are formed on one side and the other side of the case 411 so that they are completely blocked from the outside during x-ray irradiation.

In addition, by irradiating X-rays to the storage medium 10, which is configured with an X-ray tube 412 on the inner upper surface of the case 411, complete perforation and destruction of the NAND flash 11 in the storage medium 10 is prevented. Investigate and confirm whether it happened or not.

In the lower part of the case 411, a separate internal conveyor 420 may be configured so that the storage medium 10 is transferred, and the storage medium 10 transferred from the transfer conveyor 300 is inspected to check for destruction errors. do.

Particularly, the x-ray inspection device 400 allows the x-ray tube 41 to move in a vertical direction, as shown in FIG. 5, thereby adjusting the distance from the supplied storage medium 10 to the NAND flash memory 11 It is also possible to examine in detail whether or not each layer is penetrated when drilling.

For this configuration, the fixing part 416 is formed on the side of the X-ray tube 412, and the vertical shaft 414 is configured as a vertical lower part on the upper part of the case 411, and the vertical shaft 414 is a motor 413 ) To rotate.

A screw thread is formed on the outer circumferential surface of the vertical shaft 414, and the fixing part 416 is fitted to the vertical shaft 414, but a nut groove is formed on the inner circumferential surface through which the vertical shaft 414 passes. The X-ray tube 412 is configured to be vertically moved.

The storage medium shredding method using the storage medium shredding system is performed by receiving the SSD that has been inspected by the x-ray inspection device 400 and transferring it through the discharge conveyor 500 to discharge or re-perforate the storage medium 10. To lose.

In addition, as shown in FIG. 2, by allowing a plurality of monitoring cameras 800 to be configured such as a location to which the storage medium 10 is supplied, a location to be transferred, a location to be drilled, and a location before or after the inspection, the requester and the manager A series of storage media shredding systems can be identified.

6 is a plan view showing another embodiment of a storage medium crushing method using the storage medium crushing system of the present invention.

As shown in FIG. 6, the return conveyor 700 can be configured so that the storage medium 10 determined as a perforation error in the discharge conveyor 500 is resupplied to the supply conveyor 100 and supplied to the perforation device 200. have.

In this way, by inspecting the storage medium 10 perforated by the perforation device 200 by the x-ray inspection device 400, the platter 12 or the NAND flash memory 11 of the storage medium 10 is not destroyed. If not, it is supplied to the supply conveyor 100 through the return conveyor 700 again, thereby significantly reducing the perforation defect rate of the storage medium 10, while resupplying and re-drilling are also performed in a continuous process. In addition, it is possible to significantly reduce the processing time while reducing the defect rate and increasing the work efficiency.

In particular, the storage medium 10 transferred from the discharge conveyor 500 is formed by forming a rotation tray 600 that enables rotation at a certain angle by a motor between the discharge conveyor 500 and the return conveyor 700 The position of the platter 12 or the NAND flash memory 11 for each manufacturer and the position of the platter 12 or the NAND flash memory 11 is rotated again to be supplied to the drilling device 200 by rotating at a certain angle according to the interval or arrangement of the drilling pins 261 of the drilling device 200. Other arrangements can also be made to allow perforation.

Although not shown, the rotation tray 600 has a configuration in which the storage medium 10 is rotated at a certain angle by a movable means such as a motor in the shape of a disk, and is transferred to the return conveyor 700 by rotating the storage medium 10 at a certain angle. This is to re-perforate in the perforation device 200.

The storage medium crushing method using the storage medium crushing system of the present invention includes a supply conveyor 100 for transferring the storage medium 10, a drilling device 200 for physically destroying the storage medium 10 by drilling, and A transfer conveyor 300 for transferring the storage medium 10 to the x-ray inspection device 400, an x-ray inspection device 400 for inspecting whether chips of the perforated storage medium 10 are destroyed, and an inspection Consisting of including a discharge conveyor 500 to discharge the finished storage medium 10, the storage medium 10 can be supplied, drilled, inspected, and discharged in a continuous process.

By configuring the in-line system of such a continuous process, it can be easily linked to a separate case removal process, lamination after discharge, or recycling process before and after the system of the present invention.

The storage medium crushing method using the storage medium crushing system of the present invention as described above is physically destroyed according to the type of storage medium automatically supplied to the drilling device, destroying the data of the storage medium, and inspecting for defects and resupply or discharge. It is possible to completely block the extraction of data recorded in the storage medium by performing the process in a continuous process. In particular, the user can check the shredding device remotely from a user terminal such as a computer or smartphone. In addition to being able to check the operation and shredded storage medium and results, the storage medium that has been judged to be defective in the inspection device is supplied back to the drilling device in a continuous process so that the data recorded in the storage medium can be completely destroyed. Has a very useful effect.

Until now, the present invention has been described in detail with reference to the presented embodiments, but those of ordinary skill in the art can make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such modifications and variations of the invention, but is limited by the claims appended below.

1: server
2: storage medium shredding unit
3: User terminal
10: storage medium
11: NAND flash memory
12: platter
100: feed conveyor
200: storage medium drilling device
210: table
220: vertical axis
240: cylinder
250: moving plate
260: perforation member
261: drilling pin
270: perforated plate
271: storage medium input space
272: through hole
300: transfer conveyor
400: x-ray inspection device
411: case
412: X-ray tube
413: motor
414: vertical axis
416: fixed part
500: discharge conveyor
600: rotating tray
700: return conveyor
800: monitoring camera

Claims (8)

A table 210 of a predetermined size and a plate shape of a predetermined size through which a plurality of through holes 272 are penetrated, and a predetermined distance from the center of the upper surface of the table 210 so that the storage medium input space portion 271 is formed at the bottom A perforated plate 270 spaced apart and fixed, a plurality of vertical shafts 220 configured to be vertically movable and movable in a horizontal direction on the outside of the table 210, and vertically movable by being inserted into the vertical shaft 220 The guide hole 251 of the long hole in the horizontal direction is formed through a hole, and the moving plate 250 is formed parallel to the table 210, and the guide hole 251 passes through the guide hole 251 of the moving plate 250. The cylinder 240 in which the plate-shaped guide plate 241 having an area larger than the guide hole 251 is formed on the upper and lower surfaces of the 251, respectively, and the cylinder 240 at the bottom of the moving plate 250 A storage that is fixed to the guide plate 241 and consists of a perforation member 260 having a perforation pin 261 formed at a position corresponding to the through hole 272 of the perforated plate 270 to perforate the supplied storage medium 10 The medium perforation device 200, the storage medium recognition device 280 configured on one side of the perforation device 200, the control unit 21 for operating the storage medium perforation device 200, and the connection to the control unit 21 A storage medium shredding unit 2 including a communication unit 22 configured to enable wired or wireless communication, and a monitoring camera 800 configured on the other side of the drilling device 200; A storage unit 110 that stores information on the existing storage medium 10 and stores information measured by the storage medium recognition device 280 of the storage medium drilling device 200, and the information of the storage unit 110 by wire or A server 1 comprising a communication unit 120 for wireless communication; Using a storage medium shredding system including a user terminal 3 that receives information stored in the server 1,
(a) inputting the storage medium 10 to the storage medium drilling device 200;
(b) recognizing information including the type and location of the input storage medium 10 by the storage medium recognition device 280 and transmitting the information to the server 1;
(c) The user terminal 3 determines the crushing position based on the information of the existing storage medium 10 and the information of the input storage medium 10 to the server 1 to determine the crushing position to make the perforation member 260 Moving;
(d) crushing the storage medium 10 by operating the storage medium drilling device 200; And
(e) crushing the storage medium using a storage medium crushing system comprising; (e) obtaining an image from the monitoring camera 800 after crushing the storage medium 10 and transmitting it to the server 1 for storage. Way. delete The method according to claim 1,
A storage medium crushing method using a storage medium crushing system, characterized in that the puncture pins 261 of the storage medium puncture device 200 are configured to have different heights of adjacent rows. The method according to claim 1,
On one side of the storage medium drilling device 200, a supply conveyor 100 that transfers the storage medium 10 and continuously supplies it to the storage medium drilling device 200 is configured.
A storage medium crushing method using a storage medium crushing system, characterized in that a transfer conveyor 300 for discharging the storage medium 10 perforated by the storage medium drilling device 200 is configured on the other side of the storage medium drilling device 200 . The method of claim 4,
It consists of a case 411 of a certain size and an X-ray tube 412 installed on the inner upper surface of the case 411 and configured to irradiate X-rays, and inspects the storage medium 10 transferred from the transfer conveyor 300 An x-ray inspection device 400 that inspects destruction errors and transmits information to the server 1, and a discharge conveyor 500 that receives and transfers the storage medium 10 that has been inspected by the x-ray inspection device 400. A storage medium crushing method using a storage medium crushing system comprising a. The method of claim 5,
The storage medium crushing unit 2 is a storage medium crushing system, characterized in that the return conveyor 700 is configured to supply the storage medium 10 determined as a puncture error in the discharge conveyor 500 to the supply conveyor 100. The storage medium shredding method used. The method of claim 6,
The storage medium shredding unit 2 has a rotation tray 600 formed between the discharge conveyor 500 and the return conveyor 700 to enable rotation at a predetermined angle by a motor, and is transferred from the discharge conveyor 500. A storage medium crushing method using a storage medium crushing system, characterized in that the storage medium 10 is rotated and transferred to the return conveyor 700. The method of claim 5,
The storage medium crushing unit 2 is a vertical shaft 414 in which the x-ray inspection device 400 has a fixed portion 416 formed on the side of the x-ray tube 412 and the x-ray tube 412 rotates by a motor 413 Using a storage medium crushing system, characterized in that the fixing part 416 is screwed to the side and the vertical axis 414 is rotated by the operation of the motor 413 so that the X-ray tube 412 is vertically moved. Storage medium shredding method.

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