RU108199U1 - DATA STORAGE DEVICE, PROVIDING THEIR EMERGENCY REMOVAL PERFORMED IN THE SERVER HOUSING - Google Patents

Abstract

 1. A device for storing data with the possibility of emergency removal, characterized in that it is made in a server case with quick-detachable compartments for hard drives, in some of which are located information storage devices, and in other compartments of a similar design, electromagnetic emitters are placed, and to At least one compartment adjoins each compartment in which the information storage device is located, inside of which there is an electromagnetic emitter connected to an energy storage device, which is located wives outside the compartment in the inner part of the server enclosure, inside which is also located an activation device equipped with at least one, and preferably several different devices for recording or receiving an external signal and the subsequent initiation of the supply of electricity from the energy store to electromagnetic emitters in order to deleting data from information storage devices. ! 2. The device according to claim 1, characterized in that at least one compartment with an electromagnetic emitter is located between the compartments in which the information storage devices are located. ! 3. The device according to claim 1, characterized in that the electromagnetic emitter is rigidly fixed inside the compartment, for example, using standard means of fixing hard drives, which are equipped with each compartment of the server housing (in the description), and / or additional fasteners. ! 4. The device according to claim 1, characterized in that the electromagnetic emitter is permanently adhesive connected to the walls and / or the bottom of the compartment, for example, by means of a compound and / or epoxy resin and / or plastic and / or rubber

Description

The device relates to the field of information security technologies, namely to data storages with the possibility of emergency data deletion on magnetic information storage devices, such as, mainly, computer hard drives.

The prior art device for erasing records on a magnetic storage medium contains a power source, a solenoid, a block of storage capacitors, a current switch with control and power inputs and a unipolar normally closed output, a switch start block, a start switch, a controlled charge chopper, a voltage divider, a comparator voltage indicator, standby indicator, power switch, comparator of voltage supply, automatic switch, controllable switch of operating modes, device of choice voltage, rectifier, power indicator, voltage stabilizer, battery discharge indicator, DC / AC converter, AC / AC converter. The solenoid is made with oblique winding at an angle lying within 45 ° ± 30 ° to the axis of the solenoid. Three variants of the invention are distinguished by power sources: a battery, an on-board or city network, and modified connections of circuit elements. The technical result consists in improving the performance of erasing quality on a magnetic medium, improving energy performance, reducing the time spent on erasing the record, ensuring the operability of the product in the laboratory and transportation conditions (RU 2331934 C1, G11B 5/024, 08.20.2008).

The prior art device for erasing recorded information contains: first and second power supply, voltage divider, first and second cylindrical reactors, first and second ring reactors, first, second and third capacitors, first and second switches with normally open and normally closed contacts (NOC and NZK), sensor, control unit, connector and four-wire cable. Ring chokes are connected in series and in phase, one of their output is connected to one input of the sensor, and the other to the output of the second capacitor, and the output of the second power source, the second terminals of the second capacitor and the second power source are connected through the NPC of the second key. The second sensor input is connected to the normally NOC of the second key, and its output is to the input of the switch. The first power source and divider are connected in parallel. One terminal of the first cylindrical throttle is connected to the NLC of the first key. The second terminal of the first cylindrical inductor, the terminal of the first capacitor, the terminal of the first power source and divider, and one end of the first wire of the four wire cable are connected. The second end of the first cable conductor is connected to the first input of the connector. The second terminals of the first capacitor are connected through the NLC of the first key, with the first power source and voltage divider. A second cylindrical inductor is connected in parallel with the third capacitor. Their common conclusions are connected to the second and third wires of the cable, which are respectively connected to the second and third inputs of the connector (RU 60255 U1, G11B 5/024, 10.01.2007).

It is also known a device for erasing recordings on magnetic media containing a two-position switch, two circuits with solenoids, each of which includes a capacitive storage capacitor, a constant voltage source and a damping diode, which form an energy supply unit with a two-position key, in which the two-position key is used to connect sources DC voltage to capacitive storage, and after charging the latter - their connection to the solenoids, characterized in that between the solenoids and the power supply unit a pair of switches is introduced, the outputs of each of which are connected to the corresponding solenoid, and the inputs are connected to the corresponding two outputs of the on-off key, and the control inputs of the switches are connected and connected to the first output of the control unit, the second output of which is connected to the input of the on-off key to switch the last from one position in another, while the solenoids are located so that their longitudinal axes are mutually perpendicular. (RU 2239884 C2, G11B 5/024, 10/10/2004)

In addition, it is known a device for erasing recordings on magnetic recording media which consists of a housing that includes a mounting base for installing magnetic recording media at a given angle and magnetization means that cover the magnetization coil and the housing where the magnetic recording medium is mounted on a mounting base with hollow parts (JP 2010287302 A, G11B 5/024, 12.24.2010).

Devices for erasing magnetic information, including a demagnetizing device, capable of generating intense magnetic fields with low voltage. Coil voltage is applied to create an erasing magnetic field with which the magnetic information on the hard disk will be erased. Demagnetizing devices are coils having magnetic field directions parallel in one plane, with individual coils electrically connected in parallel or in series, and voltage supplied to all coils simultaneously (WO 2007091400 A1, G11B 5/024, 08/16/2007).

The disadvantage of all known technical solutions is the inability to delete data instantly and the resulting lack of reliability of data storage from unauthorized access, as well as the complexity and complexity of devices, which affects their material consumption and cost.

The task to which the technical solution is directed is to create comprehensive protection and complete instantaneous deletion of data from computer storage media without the possibility of its recovery.

The problem is solved due to the fact that the device for storing data with the possibility of emergency removal, according to the utility model, is made in a server case with quick-detachable compartments for hard drives (preferably 2.5 or 3.5 inch format), one of which contains drives information of the aforementioned format, and in other compartments of a similar design, electromagnetic emitters are placed, moreover, at least one compartment adjacent to each compartment in which the information storage device is located is inside an electromagnetic emitter is switched on and is connected to a power storage device, which is located outside the compartment in the inner part of the server enclosure, inside which there is also an activation device equipped with at least one, and preferably several, various devices for recording or receiving an external signal and subsequent initiation of supply electricity from an electric energy storage device to electromagnetic emitters in order to delete data from information storage devices.

At least one compartment with an electromagnetic emitter may be located between the compartments in which the storage media are located.

The electromagnetic radiator can be rigidly fixed inside the compartment, for example, using standard means of fixing the hard drives with which each compartment of the server enclosure and / or additional fasteners are equipped.

The electromagnetic emitter may be permanently adhesive connected to the walls and / or the bottom of the compartment, for example, by means of a compound and / or epoxy resin and / or plastic and / or rubber and / or polymer composition and / or adhesive composition.

The electromagnetic emitter is preferably a field-forming circuit, which is made of a flat or flattened insulated conductor, spirally twisted into coils, stacked one in the other and tightly adjacent to each other, with each of the coils fixed with the restriction of its displacement relative to the adjacent coil.

To limit the displacement of the coils relative to each other, the field-forming circuit of the electromagnetic emitter can be placed inside a separate housing and / or filled with a compound.

The housing of the electromagnetic emitter can be placed inside the hard drive bay of the server chassis.

The storage media are preferably hard drives. In this case, electromagnetic emitters are placed parallel to the planes of rotation of the hard drive plates

The electromagnetic emitter may be a flat single-pass inductor (that is, made in the form of a flat spiral in one thread).

The device can be additionally equipped with information storage devices made resistant to electromagnetic fields or placed outside the electromagnetic field of electromagnetic emitters.

The energy storage device may be made in the form of at least one capacitor.

The server-type enclosure can be a standard “Rackmount” type server enclosure, or an ATX or EATX or Tower type server enclosure.

Or, a server-type enclosure can be a server enclosure, at least one size of which is a multiple of one 1U unit (1 unit = 1.75 inches) of a modular dimensional system — the form factor of server enclosures, for example, a “1U” or “form factor” enclosure 2U ”or“ 4U ”or“ 4U half rack ”.

The server chassis may be a chassis similar in size and / or configuration to the blade server chassis.

The server enclosure is preferably configured to be mounted inside standard 19-inch telecommunications or racks and / or cabinets or 23 or 10-inch telecommunications or racks and / or cabinets

The compartments and the housing design can be made in accordance with the “hot swap” technology - “Hotswap”, which ensures quick removal of the desired compartment from the housing without the need for disassembly.

The activation device may be a control unit including an electronic computing device.

The activation device is made in the form of a control circuit board.

Devices for recording or receiving an external signal are made in the form of a WI-FI module and / or a Bluetooth module and / or a GSM module and / or a GPRS module and / or GPS module.

A device for recording or receiving an external signal can be made in the form of at least one modem and / or at least one Ethernet module.

The activation device may include a central processing unit.

The activation device may further comprise a contactless card reader and / or key fob with a sensor (Em-marine, Mifare, ProxCard, etc.) or an unlock signal sensor for the contactless card reader.

In this case, the sensor or the sensor signal of the unlocking of the contactless card reader can be displayed on the external panel of the server chassis.

The device as a whole may further include a proximity card and / or key fob, configured to establish wireless communication with the activation and delivery device.

In this case, the keyfob may be equipped with a display or the keyfob may be configured to provide feedback to the activation device and / or display the operating modes or status of the activation device.

The activation device can be equipped with a power supply or a voltage transformer from an external 220 V network to provide power to the activation device or activation device and information storage devices.

The device may include at least one backup power source, for example, an uninterruptible power supply and / or a battery, to provide power to the activation device or activation device and information storage devices in case of a sudden outage in an external 220 V power supply.

The device may further comprise an electronic event recording device.

The electronic event recording device can be equipped with non-volatile memory and is configured to record information about the operation of the components of the activation device in said memory, including events preceding the removal of data from information storage devices.

The device may be further provided with at least one sensor and / or a sensor for detecting changes in the configuration of the device or device operation and / or external changes in the space surrounding the server.

In this case, the sensor or the sensor can be mounted inside the housing and connected to the activation device by wire or wireless or mounted outside the housing with the possibility of triggering and signaling by wire or wireless to the activation device in case of unauthorized actions.

The device may further include at least one tamper-evident sensor configured to operate and provide a signal to the activation device in the event of an unauthorized opening of the server-type case.

The device may be equipped with at least one sensor for unauthorized removal of the compartment and / or at least one remote wired sensor for unauthorized entry into the server storage.

In addition, the device may also be provided with at least one optical displacement sensor and / or at least one housing displacement sensor.

The technical result achieved by using the device is to provide instant removal of data from information storage devices located inside the device, which are equipped with the proposed electromagnetic emitters during unauthorized access attempts by optimizing the placement of device components in the server enclosure, including the ability to delete data by one emitter at the same time from two disks and masking the data store under a regular server, which reduces the probable probability of bypassing the device’s protective systems due to the “surprise effect”, as well as the possibility of inspecting electromagnetic emitters for the integrity of their configuration and replacing them if necessary without disassembling the case, the possibility of placing bulk components inside the server case, including components that ensure non-volatility parts of the device responsible for protecting data from unauthorized access and configured to receive an external control signal for initiating tion process permanently remove data from the device.

The claimed technical solution is illustrated by drawings illustrating possible private forms of its implementation:

Figure 1 shows the server case of the device with closed compartments;

Figure 2 shows the server case of the device with two partially extended compartments, in one of which is the emitter, and in the other an information storage device;

Figure 3 shows the design of the emitter (isometric view);

Figure 4 shows the design of the emitter (plan view);

Figure 5 shows the placement of the coil in the extracted compartment of the server chassis (plan view);

6-7 embodiments of the housing of the emitters.

A device for storing data 1 with the possibility of emergency removal is disguised as a server. To do this, it is made in a server case 2 with quick-detachable compartments for hard drives of 2.5 or 3.5 inches format, and in some compartments 3 there are information storage devices 4 of the mentioned format, while in other compartments 5, of a similar design, electromagnetic emitters 6 are placed .

Each compartment 3 in which the information storage device is located is adjacent to at least one compartment 5 in which the electromagnetic emitter 6 is located and connected to the electric energy storage device (not shown conditionally).

The energy storage device is located outside the said compartments 3, 5 in the inner part of the server enclosure (not shown conditionally), inside which an activation device is also placed (not shown conditionally).

The activation device is equipped with several different devices for recording or receiving an external signal and then initiating the supply of electricity from the energy storage device to the electromagnetic emitters 6 in order to delete data from the storage devices.

The activation device performs the function of a control unit and includes an electronic computing device. The components of the electronic computing device are located on the control circuit board, mounted inside the server chassis with the help of connecting elements and / or devices of the server chassis for mounting the motherboard. The printed circuit board is smaller in size than the motherboard, which allows you to place accumulated electricity in the case, which are quite large capacitors of large capacity.

The server enclosure should include at least two rows of compartments to allow emitters to be placed above or below the information storage devices. Preferred placement of emitters in the compartments above the hard drives. In this case, the emitter 6, the thickness of which is several times less than the height of the walls 7 of the compartment is laid and fixed on the bottom 8 of the compartment, thus, the emitter 6 is located in the maximum proximity to the disk (above the disk), the height of which is comparable with the height of the walls 7 of the compartment 5.

Information storage devices are mainly SATA or SCSI disks of 3.5 inch or 2.5 inch format (the size is selected depending on the size of the quick-detachable compartment)

In a preferred embodiment, the device above each of the compartments in which the information storage device (hard disk) is located is the compartment in which the electromagnetic emitter is located, while the compartments are arranged in different rows. (figure 1-2)

It is also possible that the server chassis includes three or more rows of bays. In this case, the emitters are placed in the middle row, thus, providing the impact of one emitter simultaneously on two disks of the upper and lower rows (not shown conditionally). That is, a number of compartments with electromagnetic emitters are located between the rows of compartments with information storage devices.

The device can be additionally equipped with information storage devices made resistant to electromagnetic fields or placed outside the electromagnetic field of electromagnetic emitters.

It is also possible to install the server in a vertical position ("on the edge"), because hard drives can work in this position, and the industry produces telecommunication racks and cabinets for both vertical and horizontal server locations. In any case, a necessary condition for the complete removal of data from the disk is the adjoining of the compartment with the emitter to the compartment with the information storage device - a hard disk with the emitter located above or below the rotating plates of the hard disk on which information (data) is recorded and stored. In the case of a vertical arrangement of the server case, the compartment with the emitter will be located on the side of the compartment with the information storage in the adjacent row.

The electromagnetic emitter is rigidly fixed inside compartment 3, for example, using standard means of fixing hard disks (not shown conditionally) with which each compartment 3, 5 of the server case and / or additional fasteners are equipped.

In a preferred embodiment, the electromagnetic emitter can be permanently connected to the walls 7 and / or the bottom 8 of the compartment, for example, by means of a cured adhesive composition - compound, epoxy resin, polymer composition, etc.

Preferably, the electromagnetic emitter is an electromagnetic emitter 6 is a flat one-way inductor, namely a field-forming circuit, which is made of a flat or flattened insulated conductor 9, spirally twisted into coils 10, stacked one into another and tightly adjacent to each other, while each of the turns is fixed with a restriction of its displacement relative to the adjacent turn.

An electromagnetic emitter can be made in the form of a flat inductor of two or three threads, but it is much more complicated than one.

An electromagnetic emitter 6 is laid on the bottom 8 of compartment 5 glued to the bottom 8 with its base, or completely filled with a cured polymer mass - compound, epoxy resin, plastic, rubber, etc. (not shown in the drawings)

Fixing the emitter inside the compartment is necessary for several reasons. The first reason is the need to maintain the correct orientation of the emitter at the time of transportation and installation of the server enclosure of the device. The correct orientation is the location of a flat one-way coil (field-forming circuit) parallel to the plane of rotation of the plates of the hard disk. The second reason is the need to limit the displacements of the turns of the field-forming circuit relative to each other at the moment of activation of the device for activation and supply of electricity to the turns of the circuit. A powerful electromagnetic field is generated in the turns, which knocks the turns out of the coil and sometimes deforms the conductor in such a way that it is not possible to lay it back without special equipment. During installation and commissioning of the device to verify its operability requires several on and off (without hard drives). Fixing the emitters inside the compartments allows checking without disturbing their configuration. In addition, it becomes possible to reuse the device without replacing or repairing the emitters.

To limit the displacement of the coils relative to each other, the emitter can be made in a separate housing 11. The emitter housing can have a wall 12 and / or bottom 13, and the emitter is laid in the housing and filled with compound 14. Or the emitter housing can be two plates 15, tightened interconnecting connecting elements 16, while the emitter is sandwiched between these plates.

The case of the emitter with the emitter inside is placed in the compartment of the server enclosure and fixed in it, preferably rigidly and motionless by means of connecting elements and / or additional devices and / or means for mounting hard drives inside the compartments with which each of the compartments of the standard server enclosure is equipped, including holes for screws in the walls of compartments, sleds, etc.

Standard server enclosures include Rackmount enclosures, ATX, EATX, or Tower formats.

All server enclosures must conform to a modular dimensional system, the form factor of server enclosures, according to which the enclosure dimensions must be multiples of one 1U unit (1 unit = 1.75 inches).

In accordance with the form factor, the cases are distinguished by “1U” or “2U” or “4U” cases whose dimensions (width) are multiples of the whole number of units.

It is theoretically possible to install the device’s systems in small-sized servers such as “4U half rack” or a blade server.

The server enclosure is designed to be mounted inside standard 19-inch telecommunications or racks and / or cabinets. Some cases are mounted in 23 or 10-inch telecommunications or racks or cabinets.

The compartments and the design of the standard server enclosure are made in accordance with the “hot swap” technology - “Hotswap”, which ensures quick removal of the desired compartment from the enclosure without the need for disassembly.

This quality of the server enclosure makes installation, replacement and testing of emitters in compartments as convenient as possible.

The control printed circuit board of the activation device includes a processor unit that processes information from sensor sensors and other devices to which the board is connected. Some devices, such as a GPRS module, an Ethernet module, etc. can be placed directly on the board, while another part, for example, the contactless card reader and / or key fobs, is located in the server case at a distance from the board and connected to it by a wired and / or wirelessly.

The control printed circuit board can include, or can be connected electrically via cables to devices such as a module and / or GPS module, Ethernet module.

The device can be equipped with radio modules such as WI-FI, Bluetooth, GSM (GPRS) and others. In order to be able to send a “delete data” signal to the activation device via radio channels. Devices can also be configured to delete data and / or send messages to the owner and / or service personnel about unauthorized access attempts.

The device can be configured to immediately delete all data when trying to gain unauthorized access, or it can request preliminary confirmation of data deletion. Data from all disks is mainly deleted at the same time, however, it is possible to delete one by one or delete information from only part of the disks.

The GPS module and / or WI-FI can be configured to delete the device when the position (coordinates) is deleted, for example, if the device goes beyond a certain radius of action as a result of the abduction, seizure and similar actions unauthorized by the device owner.

Preferably, the processor unit is connected to a proximity card reader, such as Em-marine, Mifare, ProxCard, etc., and the server chassis is equipped with sensors and / or sensors and / or switches responsive to opening compartments and / or removing the case from the racks and / or cabinets and / or attempts to remove the housing cover or other attempts to open the housing.

If the person who wants to access the components of the device does not confirm the access validity by means of a contactless card and / or key fob and / or in another way, for example, via GPRS communication, then the activation device initiates the data deletion process or sends notifications to the owner and / or maintenance personnel with A request to confirm the deletion of data. To provide GPRS communication, a GSM or GPRS module includes a SIM card slot that supports the corresponding communication standard, for example, GSM-800, 900/1800 MHz.

For the same purposes, the device can be equipped with a 3G or 4G module.

In general, WI-FI, Bluetooth, GSM (GPRS), Ethernet, 3G or 4G-modules are modems that provide reception and / or transmission of the corresponding signals to and from the activation device.

The device can be equipped with an additional radio system, for example, a design similar to the common radio systems for remote control of cars.

Such a system includes a radio module associated with and a key fob for issuing commands through the radio module to the activation device.

The key fob preferably includes means for displaying the operating modes of the device and / or feedback from the user (owner) of the device. Display and / or feedback means include a display, for example, an LCD display, diodes, an audio device such as a speaker. To ensure the operation of the keychain, it is equipped with a battery or battery.

To control the device through computer networks, an Ethernet module and / or WI-FI modules are used. A message about attempts of unauthorized access and / or deletion of data can be received by e-mail of the owner and / or personnel, in addition, data deletion can be initiated by means of an external signal received via an Ethernet cable to an Ethernet module and processed by an activation device.

The device can be equipped with one or more buttons of "emergency deletion" of data installed outside the server enclosure and a module for receiving a signal from these buttons connected to the activation device.

These buttons can be installed both in the server storage and in other rooms, for example, office rooms, and activated (pressed) in case of danger, for example, when unwanted and / or potentially dangerous persons appear in the room. Buttons can be hidden or disguised from outsiders.

For control and / or programming, the device can be equipped with a wireless control panel and, for example, an IR communication module for communication with the activation device.

The device can be equipped with additional sensors and / or sensors with buttons and / or tags, for example, RFID tags for recording environmental parameters, recording movement and / or attempts to manipulate the server case or components inside it.

The activation device is equipped with an electronic event recording device, which is equipped with non-volatile memory and is configured to record information about the operation of the components of the activation device in the mentioned memory, including events preceding the removal of data from information storage devices and data from sensors, sensors, buttons, tags, etc. d.

The server case of the device is equipped with a power supply or voltage transformer from an external 220 V power supply network to provide power to the activation device or activation device and information storage devices.

The server case of the device is equipped with or connected to at least one backup power source, for example, uninterruptible power supply and / or battery, to provide power to the activation device or activation device and information storage devices in case of a sudden outage in an external 220 V power supply.

Thus, the device is fully operational in the event of a power outage before attempting unauthorized access. Preferably, the device is programmed to delete all data in response to a signal from an uninterrupted source of information about running out of energy in the battery. This is necessary in order to ensure security in the event that the attackers are aware of the presence of an activation device and do not open the case, waiting for the end of the charge in uninterruptible power batteries. The battery lasts for several weeks.

The device is equipped with at least one switch (button) or a tamper switch for the server enclosure. These devices, as well as the previous ones, are connected with the activation device to initiate the data deletion process.

Cables about information storage devices (hard drives) are removed from the case with the possibility of connecting them to a server that is installed in the same rack or cabinet as the server case of the device.

As a rule, several servers are installed in such a rack and the server enclosure of the device looks like one of many servers. Thus, the device is disguised as a server. Visually from the front, the device is indistinguishable from the server. Due to the 100% simulation of the server by the device, a “surprise effect” is achieved that does not allow attackers to even attempt to bypass the device’s defense mechanisms.

The device operates as follows:

The energy storage device located in the inside of the server chassis is being charged. It is connected to an activation device. In the event of an emergency in which it is necessary to quickly remove data from the hard drives, a control signal is received to the device for recording or receiving an external signal, which is transmitted to the activation device, which closes the electric circuit and the electric energy from the energy storage capacitor is supplied to electromagnetic emitters - field generating contours that generate a powerful magnetic field of at least 350 kA / m, acting on the magnetized plates of the hard drives, magnetizing them and thereby removing I have all the data from them. After the field is applied, absolutely all information, including the zero track, is deleted from each processed disk - information storage device. The information cannot be restored, and the restoration of the disk after this operation is possible only in the factory.

Thus, it provides instant removal of data from information storage devices located inside the device, which are equipped with the proposed electromagnetic emitters in case of unauthorized access attempts, as well as the possibility of inspecting the electromagnetic emitters for the integrity of their configuration and replacing them if necessary without disassembling the housing, the ability to place bulk components inside the server enclosure, including components that ensure the non-volatility of parts of the device -keeping responsible for the protection of data from unauthorized access and adapted to receive an external control signal to initiate a process to permanently delete the data from the device.

Claims (35)

1. A device for storing data with the possibility of emergency removal, characterized in that it is made in a server case with quick-detachable compartments for hard drives, in some of which are located information storage devices, and in other compartments of a similar design, electromagnetic emitters are placed, and to At least one compartment adjoins each compartment in which the information storage device is located, inside of which there is an electromagnetic emitter connected to an energy storage device, which is located wives outside the compartment in the inner part of the server enclosure, inside which is also located an activation device equipped with at least one, and preferably several different devices for recording or receiving an external signal and the subsequent initiation of the supply of electricity from the energy store to electromagnetic emitters in order to deleting data from information storage devices. 2. The device according to claim 1, characterized in that at least one compartment with an electromagnetic emitter is located between the compartments in which the information storage devices are located. 3. The device according to claim 1, characterized in that the electromagnetic emitter is rigidly fixed inside the compartment, for example, using standard means of fixing hard drives, which are equipped with each compartment of the server housing (in the description), and / or additional fasteners. 4. The device according to claim 1, characterized in that the electromagnetic emitter is permanently adhesive connected to the walls and / or the bottom of the compartment, for example, by means of a compound and / or epoxy resin and / or plastic and / or rubber and / or polymer composition, and / or adhesive composition. 5. The device according to claim 1, characterized in that the electromagnetic emitter is a field-forming circuit, which is made of a flat or flattened insulated conductor, helically twisted into coils, stacked one in another and tightly adjacent to each other, with each of the coils fixed with the restriction of its displacement relative to the adjacent turn. 6. The device according to claim 5, characterized in that to limit the displacement of the turns relative to each other, the field-forming circuit of the electromagnetic emitter is placed inside a separate housing and / or filled with a compound. 7. The device according to claim 6, characterized in that the housing of the electromagnetic emitter is placed inside the compartment for the hard drives of the server chassis. 8. The device according to claim 1, characterized in that the information stores are hard drives, and the electromagnetic emitters are placed parallel to the planes of rotation of the plates of the hard drives. 9. The device according to claim 8, characterized in that the electromagnetic emitter is a flat single-pass inductor. 10. The device according to claim 1, characterized in that it is additionally equipped with information storage devices made resistant to the effects of an electromagnetic field or located outside the electromagnetic field of electromagnetic emitters. 11. The device according to claim 1, characterized in that the energy storage device is made in the form of at least one capacitor. 12. The device according to any one of claims 1 to 11, characterized in that the server-type enclosure is a standard “Rackmount” type server enclosure, or an “ATX” or “EATX” or “Tower” type server enclosure. 13. The device according to any one of claims 1 to 11, characterized in that the server-type enclosure is a server enclosure, at least one size of which is a multiple of one 1U unit of a modular dimensional system — the form factor of server enclosures, for example, the form factor enclosure 1U ”, or“ 2U ”, or“ 4U ”, or“ 4U half rack ”. 14. The device according to any one of claims 1 to 11, characterized in that the server case is a case similar in size and / or configuration to the blade server chassis. 15. The device according to any one of claims 1 to 11, characterized in that the server case is configured to be mounted inside telecommunication or racks and / or cabinets. 16. The device according to any one of claims 1 to 11, characterized in that the compartments and the housing design are made in accordance with the “hot swap” - “Hotswap” technology, which ensures quick removal of the desired compartment from the housing without the need for disassembly. 17. The device according to any one of claims 1 to 11, characterized in that the activation device is a control unit comprising an electronic computing device. 18. The device according to any one of claims 1 to 11, characterized in that the activation device is made in the form of a control circuit board. 19. The device according to any one of claims 1 to 11, characterized in that the device for recording or receiving an external signal is made in the form of a WI-FI module, and / or a Bluetooth module, and / or a GSM module, and / or GPRS- module, and / or GPS module. 20. The device according to any one of claims 1 to 11, characterized in that the device for recording or receiving an external signal is made in the form of at least one modem and / or at least one Ethernet module. 21. The device according to claim 1, characterized in that the activation device includes a central processing unit. 22. The device according to item 21, wherein the activation device also comprises a contactless card reader and / or key fobs with a sensor or sensor for the unlock signal of the contactless card reader. 23. The device according to p. 22, characterized in that the sensor or sensor signal unlock the block reader of contactless cards displayed on the external panel of the server chassis. 24. The device according to p. 22, characterized in that it further includes a contactless card and / or key fob, configured to establish wireless communication with the activation device. 25. The device according to paragraph 24, wherein the key fob is equipped with a display. 26. The device according to paragraph 24, wherein the key fob is configured to provide feedback to the activation device and / or display the operating modes or status of the activation device. 27. The device according to any one of claims 1 to 11, characterized in that the activation device is equipped with a power supply or a voltage transformer from an external 220 V network to provide power to the activation device or activation device and information storage devices. 28. The device according to claim 1, characterized in that it includes at least one backup power source, such as an uninterruptible power supply and / or battery, to provide power to the activation device or activation device and information storage devices in case of a sudden power outage in the external power supply 220 V. 29. The device according to claim 1, characterized in that it further comprises an electronic event recording device. 30. The device according to clause 29, wherein the electronic event recording device is equipped with non-volatile memory and is configured to record information about the operation of the components of the activation device in said memory, including events preceding the removal of data from information storage devices. 31. The device according to claim 1, characterized in that it is equipped with at least one sensor and / or a sensor for detecting changes in the configuration of the device or device operation and / or external changes in the space surrounding the server. 32. The device according to claim 1, characterized in that the sensor or sensor is mounted inside the housing and connected to the activation device by wire or wireless or mounted outside the housing with the possibility of triggering and signaling by wire or wireless to the activation device in case of unauthorized actions. 33. The device according to claim 1, characterized in that it includes at least one tamper-evident sensor configured to activate and supply a signal to the activation device in case of unauthorized opening of the server-type case. 34. The device according to claim 1, characterized in that it is equipped with at least one sensor for unauthorized removal of the compartment and / or at least one remote wired sensor for unauthorized entry into the server storage. 35. The device according to claim 1, characterized in that it is equipped with at least one optical displacement sensor and / or at least one body displacement sensor.