RU205191U1 - DEVICE TO REDUCE THE PROBABILITY OF EXPLOSION - Google Patents

Abstract

The present utility model concerns 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 proposed, wherein at least one a layer of material made of aramid fiber, characterized in that the material used for the manufacture of such a dome contains aramid fibers metallized with heavy metal ions, in addition, at least one emitting signal blocker antenna is installed inside the dome. In this case, the signal blocker can be configured to emit aiming, barrage or sweeping interference. The proposed device may contain several layers of material made of aramid fiber, and metallization of the material with heavy metals can be carried out after its manufacture from aramid fibers. The technical result of the claimed utility model is to increase the security of the population. 5 p.p. 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 an isolated VU still works (for example, from a 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. Also, the negative side is that if somehow the VU works, the negative consequences will not be reduced.

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 at least one layer of material made of aramid fiber is used as a material for the manufacture of the dome, characterized in that the material used for the manufacture of such a dome contains aramid fibers metallized with ions of heavy metals; in addition, at least one radiating antenna for a radio signal blocker is installed inside the dome.

The technical result is to increase the security of the population. It is known that heavy metals such as copper, nickel, silver (as well as their alloys), etc. have good shielding properties from electromagnetic radiation. They are used for the manufacture of various materials with such properties, for example, Aaronia X-Dream - a fabric that shields against electromagnetic interference (100 dB) [http://elkor.ru/bezehovye-kamery-i-ekrankamery-ekxaniruyushchie-materialy/aaronia- x-dream-tkan-ekraniruyushchaya-ot-elektromagnitnyh-pomeh-100-db]. This fabric has a frequency range of shielded signals 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 practically do not penetrate through such fabric: GSM and / or DECT, and / or BLUETOOTH, and / or WLAN and other electromagnetic signals in the range from 1 MHz to 30 GHz.

In this case, the metallization of aramid fibers can be performed using any of the existing technologies (including spraying), for example, as specified in the RF patent 2144965.

The most suitable metal for shielding is copper. The first stage of metallization in this case is pre-pickling - contacting aramid fibers with a pretreatment acid (this can be aqueous nitric acid, or chlorofluorosulfonic acid in an organic liquid that does not react with acids). This process is carried out at a temperature of 20 to 40 ° C and at a time of 5 to 60 seconds, depending on the acid concentration of the pretreatment (within 75-95%), if the fibers are in contact for more than 120 seconds in certain cases, then they are destroyed. The purpose of the first stage is to create some structural changes and microcracks on the fiber surface to facilitate further better adhesion of the metal to the fiber.

After pickling, the fibers are washed either with water to reduce the concentration of acid on the fiber, or with a base or basic sodium bicarbonate salt to neutralize the acid and remove it from the fiber. Then, desirably, but not necessarily, the fibers are dried to better remove excess moisture or acid, then a salt with a palladium and tin cation as a catalyst is added to an aqueous solution of copper, and the acid-etched and washed fibers are immersed in it and mixed to ensure surface activity fibers to interact with copper. Then, the fibers are removed from this solution, and, if necessary, immersed in an accelerator bath with dilute mineral acid to saturate the fiber surface with minerals.

Next, the metallization stage begins directly, for this, the fibers are placed or passed through a metallization bath, in which there are copper ions in a mixture with formaldehyde (catalyst), the copper concentration in these cases is diverse, but the more preferable copper concentration is 1-5 g / l, the fibers in the bath is moderately stirred for 10-20 minutes for active metallization, if the speed suddenly decreases, then formaldehyde, a pH-correcting alkaline solution and a solution with copper ions are added to the bath. All this is carried out at various temperatures from 10 to 60 ° C, but more preferably 20-40 ° C, after which the metallized fibers are removed from the bath.

In the case of metallization with silver, the method is carried out under similar conditions, only after etching is the washing of the tin chloride and hydrochloric acid solution used, and in the metallization stage a mixture of silver nitrate and ammonia is used.

Similarly, metallization is carried out with nickel, and with cobalt, and with other metals.

In addition, metallization with heavy metals for this product can be carried out both the aramid fibers themselves and materials made from them (for example, Kevlar).

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.

Implementation of the utility model.

The suspicious object is covered with the declared device, and at least one layer of material made of aramid fiber metallized with heavy metal ions is used as a material for the frame, which has good shielding properties from electromagnetic interference, which, in turn, will not allow the signal to come out created by the blocker (noise generator) outside the dome (and therefore will not interfere with the communication of law enforcement officers and citizens) and reduces the likelihood of initiation of the VU via the radio channel.

At the same time, the same material, made of aramid fiber metallized with heavy metal ions, will provide a reduction (leveling) of damage in the event of initiation of a VU for some reason (for example, a noise generator will not block the control range or a timer will be used instead of a remote control).

It should be noted that as a blocker in this application is meant any device capable of interfering (usually by means of a generated signal) at certain radio frequencies (frequency ranges). In various sources, such blockers are sometimes called jammers, communication blockers, jammers, noise generators, RVD blockers, etc.

Dome - creates additional shielding from EMP, in addition, protects against the negative consequences of an explosion. Radio signal blocker provides signal blocking!

But, besides this, they create a useful effect through sharing. So, due to the fact that the material used for the frame is a material that shields against electromagnetic interference, which does not allow "the signal created by the blocker to go outside the dome (and therefore will not interfere with communications for law enforcement officers and citizens) ...".

In addition, experiments have shown another effect obtained when a dome and a noise generator (blocker) are used together. So, the blocking range of 2 radio stations (range 446-447 MHz, up to 1 W) when placed under such a dome is significantly greater (at least 1.3 times) than when placed in an open space (with blockers in both were at the same distance from the receiving radio station). This effect is obviously associated with the physical phenomenon of interference (since the electromagnetic waves emitted by the noise generator have no possibility of leaving the dome due to the use of an additional layer shielding from EMP, the waves will partially add up, reinforcing each other, as a result of which the power of the noise generator is required less than if the dome were not used).

The radio signal blocker itself can be fixed outside the dome at the manufacturing plant in any possible way (soldering, gluing, etc.).

Thus, the applicant believes that in the claimed utility model the devices are completely in "structural and functional unity" and, therefore, the applicant has the right to obtain a patent for a utility model under this application.

Claims (6)

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, at least one layer of material made of aramid fiber is used, characterized in that the material used for the manufacture of such a dome contains aramid fibers metallized with ions heavy metals, in addition, at least one emitting signal blocker antenna is installed inside the dome. 2. The device according to claim 1, characterized in that the signal blocker is configured to emit targeted interference. 3. The device according to claim 1, characterized in that the signal blocker is configured to emit barrage interference. 4. The device according to claim 1, characterized in that the signal blocker is configured to emit sweeping interference. 5. The device according to claim. 1, characterized in that it contains several layers of material made of aramid fiber. 6. The device according to claim. 1, characterized in that the metallization of the material with heavy metals is carried out after production from aramid fibers.