RU222186U1 - Portable device for emergency destruction of removable storage media - Google Patents

Abstract

The utility model relates to information and explosive technology, in particular to portable devices for emergency destruction of information. The information destruction device contains a printed circuit board located in the housing, on which are located: a connector with the ability to install a storage medium, an electric igniter contact, a rechargeable battery, a control programmable microcontroller, an output connector for a contactless RFID reader module for activating/deactivating the device, at least three surface disconnect buttons installation, pyrotechnic briquette with electric igniter, battery charging indicator, activation indicator LED, data exchange output loop, battery charging connector, printed circuit board mounting bolts, external activation button. In this case, the connector with the installed storage medium and the control microcontroller are located between the printed circuit board and the pyrotechnic briquette, which is pressed by the flat housing cover to the surface-mounted breaker buttons located on the board at the vertices of the polygon until they are pressed, and the connector is designed in such a way that the inserted in it, the information carrier had tight contact with the vertical wall of the case on the side of its removal from the connector. The technical result consists in expanding the functionality of the information destroyer by eliminating the disadvantages of known analogues.

Description

Technical field

This utility model relates to information and explosive technology, in particular to portable devices for emergency destruction of information.

State of the art

To date, many devices are known that implement methods for the emergency destruction of restricted access information in the event of a threat of its unauthorized receipt. All known methods can be divided into two groups: destruction of information by changing (logical rewriting) the contents of the memory cells of the data carrier and by direct destruction (destruction of the structure) of the medium itself.

The first group of methods and devices (see, for example, inventions: RU 18795 U1, published 07/10/2001; RU 84614 U1, published 07/10/2001; RU 108200 U1, published 09/10/2011; RU 2256955 C1, published 07/20 .2005; RU 2368019 C1, published September 20, 2008) is the most common type of solution with the advantage of preserving the storage medium and the possibility of authorized integration of such technical solutions with computer technology. At the same time, changing the contents of memory cells of an information storage device cannot ensure timely and complete destruction of data in emergency situations in the event of an unauthorized attempt to extract or read data from a removable storage device due to the limited write speed. Also, the strength of the magnetic field and the method of rewriting memory cells of removable media depend on its type, which narrows the scope of application. For example, you cannot magnetically rewrite information recorded on an optical disc.

An analogue of the proposed device is a device for the rapid destruction of restricted access information media (see utility model RU 172500 U1, published 07/11/2017), which includes a safe for placing an information storage device, a container with an explosive (for example, a grenade), a container with a composition self-propagating high-temperature fusion (SHS), rocket engine as igniter and cocking mechanism. While it is possible to work with any type of storage media, the disadvantages of the claimed device are the use of chemically hazardous and military explosives, the use of which requires special licenses and permits, strong noise and smoke upon activation of the product, large weight and dimensions, limited applicability for transportation and storage of media information.

The SHS composition is also used in a similar mobile device for the rapid destruction of restricted access media in the field (see utility model RU 166550 U1, published November 27, 2016), which gives the same disadvantages.

Another analogue is a device for destroying information located on a solid-state digital SSD drive (see patent RU 2654163 C1, published May 16, 2018), containing a flat spiral coil excited from a battery, the surface of which is similar to the surface of the digital information storage device facing it and is fixed relative to it, located between the coil and the digital information storage device, a movable electrically conductive anchor, the flat surface of which is adjacent to it by means of a fixing element, and a number of orderly arranged impact elements in the form of a nail, the flat surface of which faces the electrically conductive anchor, and the pointed end is directed towards the digital storage device information. The disadvantage of this analogue is the possible resistance of the information storage device to mechanical shock, as well as the large mass of the structure due to the need to use a sufficiently powerful electromagnet with metal impact elements.

The closest analogue is a portable device for emergency guaranteed destruction of solid-state storage devices of limited access (see patent RU 2735822 C1, published 09.11.2020), consisting of a housing with a technological container for the storage medium located inside, one or more pyrotechnic briquettes or tablets and their ignition system, which includes an electric current source and an electric igniter. The key advantage of the prototype is the combination of the compactness of the device with the provision of emergency complete destruction of the information carrier through a more reliable thermal effect for this purpose, which is suitable for destroying information on any type of digital media. The key disadvantage of the prototype is the lack of indications about the presence of an information reading connector, a system of breaker buttons, a control unit for the destruction mechanism, and an indication system. The absence of these elements in the design excludes the possibility of authorized integration of this system with any computer and allows for the possibility of unauthorized removal of the information storage device from the pyrotechnic container after preliminary X-ray diagnostics of the “non-standard product,” as well as accidental activation or failure of the device due to a lack of understanding of its status.

Brief description of drawings

In fig. Figure 1 shows a top view of the design of a portable device for emergency destruction of a removable storage medium with the cover of the supporting housing removed, where the numbers indicate the following structural elements: housing 1, printed circuit board 2, connector 3 with the possibility of placement inside the storage medium 4, electrical igniter contact 5, battery 6 , control programmable microcontroller 7, output connector of the RFID module of the contactless device activation/deactivation reader 8, surface-mount disconnect buttons 9, pyrotechnic briquette with electric igniter 10, battery charging indicator 11, activation indicator LED 12, data exchange output loop 13, charging connector battery 14, fastening bolts 15, output for external activation button 16.

In fig. 2 shows a side section A–A of Fig. 1, the number 17 indicates the cover.

In fig. Figure 3 shows a photograph of an embodiment of the device according to the proposed utility model with the flat cover 17 and the pyrotechnic briquette 10 removed.

In fig. Figure 4 shows a photograph of a variant of the flat cover 17 of the supporting body 1 of the product (see Fig. 3) with a pyrotechnic briquette 10 with a built-in electric igniter, the leads of which are connected to contact 5.

Disclosure of the essence of the utility model

The proposed utility model is aimed at eliminating the shortcomings of known analogues.

To achieve this goal, a portable device for emergency destruction of removable storage media has been proposed, see Fig. 1 and 2, designed for emergency destruction of on-board storage media on an unmanned aerial vehicle (UAV) in the event of a threat of unauthorized access.

The inventive device contains a printed circuit board 2 located in the housing 1, on which are located: a connector 3 with the possibility of placing an information carrier 4, an electric igniter contact 5, a rechargeable battery 6, a control programmable microcontroller 7, an output connector for a contactless RFID reader module for activation/deactivation of the device 8, at least three surface-mount disconnect buttons 9, pyrotechnic briquette with electric igniter 10, battery charging indicator 11, activation indicator LED 12, data exchange output loop 13, connector for charging the battery 14, printed circuit board mounting bolts 15, output for an external activation button 16. The control microcontroller 7 and connector 3 with installed storage medium 4 are located between the printed circuit board 2 and the pyrotechnic briquette 10, which is pressed by the flat cover 17 of the housing 1 to the surface-mounted buttons 9, located on the board 2 at the vertices of the polygon, until they are pressed. , and connector 3 is designed in such a way that the information carrier 4 inserted into it has tight contact with the vertical wall of the housing 1 on the side of its removal from connector 3.

Detailed Description of Preferred Implementation and Application

In the preferred embodiment, a micro SD card with a capacity of 4 to 128 GB is used as a storage medium, which is installed in a standard slot that allows both insertion and removal of such a memory card by pressing on it (push-push injection method). A convenient connector option for charging the device’s battery is a USB type C connector. Any 32-bit programmable microcontroller with USB interface support, for example, STM32F103C8T6, can serve as a microcontroller. Suitable for thermal destruction of SD cards can be any pyrotechnic composition that provides an ignition temperature of 900 ºС, for example, based on aluminum and/or magnesium powders, metal oxides Fe ₂ 0 ₃ , or TiO ₂ and carbon C. It can be used as an electric igniter any compact electric igniter suitable for igniting the pyrotechnic briquette used, for example, EVF-SP1. When using the device on board a UAV and the flight mission time is up to 40 minutes, it is preferable to use a lithium-ion battery of size 18650 to provide power. An RFID system for short-range identification is used as an RFID module, since in order to avoid signal interception, RFID systems should be used, a key -the activator of which is triggered at a distance of no closer than 4 cm from the RFID module.

The preferred logic for using the device according to the proposed utility model is as follows. A device with a charged battery is installed on a UAV as an on-board recorder of payload parameters for conducting terrain reconnaissance. Before the flight, it is activated using a contactless RFID reader module, which is triggered no further than 40 mm from the module, setting the beginning of the countdown to the unconditional activation of the pyrotechnic briquette, taking into account the duration of the flight mission and the limit of the possible time the UAV will be in the air, for example, 60 minutes. Thus, in the event of the loss of the UAV after a period of time or in the event of an unauthorized attempt to remove the information carrier, the output data exchange loop is disconnected, the voltage drop reaches a critical level of 3 V, or the disconnect buttons are opened, the igniter of the pyrotechnic briquette is activated with the instant destruction of everything recorded during the flight. tasks with information. Upon successful return of the UAV to the base with the information recorded on the medium, the destruction device is also deactivated using a contactless RFID reader module and the intelligence data is read from the information medium. During operation of the device, indicator LEDs show its status: activated/deactivated and the charge level of the battery that powers the electric igniter.

Claims (1)

A portable device for emergency destruction of a removable storage medium, containing a housing configured to be placed inside the storage media, with a pyrotechnic briquette and its ignition system, which includes a battery, an electric igniter with an electronic blocking and switching device, characterized in that the housing additionally contains a printed circuit a board on which are located: a connector made with the possibility of installing a storage medium, an electric igniter contact, a rechargeable battery, a control programmable microcontroller, an output connector for a contactless RFID reader module for activating/deactivating the device, at least three surface-mounted release buttons, a pyrotechnic briquette with an electric igniter , battery charging indicator, activation indicator LED, data exchange output cable, battery charging connector, printed circuit board mounting bolts, output for an external activation button; in this case, the connector and the control microcontroller are located between the printed circuit board and the pyrotechnic briquette, which is pressed by the flat cover of the housing to the surface-mounted buttons located on the board at the vertices of the polygon until they are pressed, and the connector is designed in such a way that the storage medium inserted into it had tight contact with the vertical wall of the housing on the side of its removal from the connector.