RU205172U1 - DEVICE TO REDUCE THE PROBABILITY OF EXPLOSION - Google Patents

Abstract

The present utility model relates to the isolation of explosive or suspicious objects and the prevention of the initialization of an explosive device in them, the detonator of which is controlled via a wireless connection. A device for reducing the likelihood of an explosion, consisting of a frame in the form of a dome, is used as a material for making the dome, a material shielding from electromagnetic interference, characterized in that a noise generator is installed inside the dome in the range from 100 MHz to 2470 MHz, in addition, a receiving antenna is located on the outside of the dome, connected to a control device that is connected to a noise generator, while the receiving antenna is made with the ability to receive a control signal from the remote control, which, as a result, makes it possible to control the noise generator remotely via a wireless channel. The technical result of the claimed utility model is to increase the security of the population. 1 wp f-ly.

Description

This utility model relates to the isolation of explosive or suspicious objects by preventing the initialization of an explosive device in them, the detonator of which is wirelessly controlled [F42D 5/04].

In the event that a suspicious object is found, in particular, one left in a public place, then, as a precaution, it should not be touched or moved, and all people in the vicinity must be evacuated. Considering the danger of a possible explosion of a suspicious object, they try to isolate it in order to reduce the consequences of a possible explosion.

Known technical solution - "Method of preventing the initialization of an explosive device" (RU (11) 2728042 (13) C1, published on July 28, 2020), which uses a protective dome containing a layer of tissue, covering the dome with a suspicious object lying on the surface, characterized by that the dome is made in the form of a frame, moreover, a fabric that shields against electromagnetic interference is used as a fabric, and a portable GSM signal suppressor is installed inside the dome and a suspicious object is covered with the dome so that a layer of tissue shields signals from the GSM signal suppressor, preventing them from escaping from the outside of the dome ... This solution was chosen as a prototype.

The negative side of this solution is that if the isolated VU still works (for example, from the clockwork), this method will cause significant damage. Also, the disadvantage of this prototype is the use of a GSM suppressor, which has a limited number of blocking ranges. After all, an attacker theoretically can use almost any range to initiate a VU via a radio channel. In addition, the GSM blocker can cause spontaneous initiation of the IU.

The technical problem to be solved by the proposed utility model is to increase the efficiency of the device in isolating dangerous objects.

The solution to this technical problem is achieved due to the fact that a device consisting of a frame in the form of a dome, and as a material for the manufacture of the dome, at least one layer of material shielding from electromagnetic interference is used, characterized in that a noise generator is installed inside the dome in the range from 100 MHz to 2470 MHz, in addition, a receiving antenna is located on the outside of the dome, connected to the control device, in turn, connected to the noise generator, which as a result allows the noise generator to be controlled remotely via a wireless channel (at a safe distance, which can be approximately estimate based on the size of the unidentified device).

This frequency range is designed to "overlap" as many digital communication protocols as possible, such as GSM, Wi-Fi, Bluetooch.

The technical result is to increase the security of the population.

As a material shielding against electromagnetic interference, shielding against electromagnetic interference, for example: Aaronia X-Dream - Shielding fabric against electromagnetic interference (100 dB) [http.//el-kor.ru/bezehovye-kamery-i -ekrankamery-ekraniruyushchie-materialy / aaronia-x-dream-tkan-ekraniruyushchaya-ot-elektromagnitnyh-pomeh-100-db].

This fabric has a shielded signal frequency range of 1 MHz - 30 GHz.

Shielding efficiency 70 dB; 99.999999% at 20 GHz.

The material of the fabric is a mixture of copper and nickel, the backing is polyester. The type of shielded signals is HF and LF electric fields. Available in sizes from 1 m ² to 50 m ² . Wireless signals of standards such as GSM and / or DECT and / or BLUETOOTH and / or WLAN do not penetrate through such fabric. For the material, it is preferable to use a shielding material with a maximum absorption coefficient in the range from 100 MHz to 2470 MHz.

In addition, in order to increase the safety of the population, it is permissible to use a layer of ballistic fabric in the manufacture of the dome.

Ballistic materials - special fabrics, materials (for example, Bakelite) and products made from them with high resistance to high-speed impact. They are characterized by high mechanical strength, elasticity, and a certain allowable deflection after firing at them. Designed for the manufacture of body armor, etc. (https.//fashion.academic.ru/160/%D0%91%D0%B0%D0%BB%D0%BB%D0%B8%D1%81% D1% 82% D0 % B8% D1% 87% D0% B5% D1% 81% D0% BA% D0% B8% D0% B5_% D0% BC% D0% B0% D1% 82% D0% B5% D1% 80% D0% B8 % D0% B0% D0% BB% D1% 8B)

Of the currently existing ballistic materials (https://lastday.club/armor-materials/), it is preferable to use ballistic fabric based on aramid fibers, in particular Kevlar (as the most effective in countering the negative effects of an explosion).

As a signal suppressor, for example, the blocker RVU GRIFON-10T in the range from 20-6000 MHz can be used (https://detsys.ru/). Moreover, the noise generator (blocker) can be configured to emit various types of interference: barrage, aiming, sweeping, etc.

The dome can be of any shape (round, rectangular, etc.), as well as any size. It is not protected by this application.

As a material for the frame, at least one layer of material shielding from electromagnetic interference is used, which will not allow “the signal generated by the noise generator to go outside the dome (and therefore will not interfere with communications for law enforcement officers and citizens) and reduces the likelihood of initiation of the VU by radio channel.

It is also permissible to use at least one more layer of ballistic material as a material for the dome. So if in some way the VU is initiated, this layer will reduce the possible damage.

Dome - creates additional shielding against EMP, in addition, due to the ballistic fabric, protects against the negative effects of the explosion. The noise generator provides signal blocking!

In addition, experiments have shown a certain "synergistic effect" obtained when using a dome made with a layer of EMP shielding material and a noise generator together. It is obviously associated with the physical phenomenon of interference (since the electromagnetic waves emitted by the noise generator have no possibility of going beyond the dome due to the use of an additional layer shielding from EMP, the waves will partially add up, amplifying each other, resulting in the power the noise generator is needed less than if the dome were not used). Also, due to the use of ballistic tissue, if the explosion is initiated at electromagnetic frequencies not covered by the generator (for example, at a frequency of 6500 MHz), the layer of ballistic tissue will significantly reduce the negative consequences of the explosion.

The layers of ballistic fabric can be bonded to the EMP shielding layer in any possible way (gluing, stitching, etc.).

The noise generator itself can be fixed inside the dome in any possible way (soldering, gluing, etc.).

In addition, for the convenience of the user (or, for example, to improve the design), separate parts of the noise generator (for example, one or more radiating antennas) can be placed and / or fixed inside the dome, and the generator body itself can be placed (fixed) outside.

It is also known that radiation, especially at MW frequencies, can lead to "abnormal operation" of the WA. So, for example, in the description of the patent for invention No. 2637725 dated 05/12/2016, the results of an experiment are given, where an EMP source was used at a frequency of 848 MHz, as a result, at distances of 1 meter, the test VU abnormally triggered in 100% of cases.

Therefore, it is obvious that for the safety of others, it is necessary to turn on and control such a device remotely.

Therefore, it is proposed to add a receiving antenna from the outside (this antenna can be fixed to the dome in any possible way), connected to the control device (by wire), while the control device is connected (by wire) to the noise generator.

The control device can be fixed in any possible way inside or outside the dome (depending on design tasks).

These devices are made with the ability to remotely switch on and control the noise generator.

Implementation of the utility model.

A suspicious object (for example, a found suspicious bag) is covered with the body of the device. Law enforcement officers and citizens are evacuated to the maximum possible distance and remotely give a command to turn on the device (noise generator). Evacuation is necessary because there is some possibility that an explosive device could be initiated when the noise generator is turned on. After a remote command to turn on the device, the control signal goes to the receiving antenna located on the outside of the case. Further, through the control device, the noise generator is turned on, which will reduce the probability of initiation of the VU via the radio channel in the range from 100 MHz to 2470 MHz.

Thus, the applicant believes that in the claimed utility model the devices are completely in “structural and functional unity”.

Claims (2)

1. A device for reducing the likelihood of an explosion, consisting of a frame in the form of a dome, and as a material for the manufacture of the dome, a material shielding against electromagnetic interference is used, characterized in that a noise generator is installed inside the dome in the range from 100 MHz to 2470 MHz, in addition , on the outer side of the dome, there is a receiving antenna connected to a control device that is connected to a noise generator, while the receiving antenna is configured to receive a control signal from a remote control, which as a result allows controlling the noise generator remotely via a wireless channel. 2. The device according to claim 1, characterized in that ballistic material is used in the manufacture of the dome.