RU203970U1 - ARMORED VEST WITH PROPERTIES OF PROTECTING ORGANS FROM ELECTROMAGNETIC RADIATION - Google Patents

Abstract

The utility model refers to personal protective equipment, namely to body armor that protects the human body from mechanical stress, bullets, impacts, fragments. in the form of front and rear panels to protect the user from the front, rear parts of the body, respectively, characterized in that the body armor is also equipped with a removable apron for protecting the user's groin, made of a package of interconnected several layers of material made of aramid fiber, while used in such an apron, aramid fibers are metallized with heavy metal ions.

Description

The utility model refers to personal protective equipment, namely, body armor that protects the human body from mechanical stress, bullets, impacts, and fragments.

Domestic and foreign industry produces a fairly large number of body armor made of steel, Kevlar and other ballistic fabric.

Known bulletproof vest, including the front and rear parts, as well as means for installing additional elements, made in the form of pockets (US Pat. RU No. 2103640, publ. 27.01.1998). According to the well-known solution, additional armor is supposed to be used as additional elements. In this case, one of the pockets for installing armor is proposed to be performed on the back of the body armor

Also known are body armor using layers of aramid fiber (for example, kevlar) bonded together as ballistic fabric. Such bulletproof vests are notable for their small mass while retaining the ability to effectively counteract various physical particles with high kinetic energy (bullets, fragments, etc.). For example, (https://armo99.ru/catalog/bronezhilet/iz-aramidnogo-volokna-kevlar-tvaron/).

It is also known a bulletproof vest (https://yandex.ru/patents/doc/RU94043270A1_19970227), containing packages of layers of high-modulus ballistic fabric fastened together, formed in the form of front and rear panels fastened together with sidewalls to protect the user from the front, rear and side parts of the body, respectively, as well as means for installing rigid and semi-rigid armor, characterized in that the means for installing rigid armor is an inner pocket for a one-piece cuirass-type armor plate, made in at least one of these panels between the inner and outer relative of this pocket and the user's body with layers of high-modulus ballistic fabric of the corresponding package with the possibility of free installation and removal of one-piece cuirass-type armor plate when completing a heavy or light type body armor, respectively, and a means for installing semi-rigid armor is a pocket for a package of interconnected alternating layers in high modulus ballistic fabric and layers formed by sets of rigid plates displaced relative to similar plates in another layer to form a continuous barrier, and the pocket of means for installing semi-rigid armor is located on the surface of at least one of these panels with the possibility of free installation and removal of the specified package layers of high-modulus ballistic fabric, alternating with layers of sets of rigid plates, when completing body armor. In addition, according to claim 9 of the formula, a bulletproof vest, characterized in that it is equipped with a removable apron to protect the groin of the user, made of a package of interconnected 15-35 layers of high-modulus ballistic fabric and equipped with a means of fixing it by means of a fastening waist belt, and on the outer surface the back panel has a pocket for this apron for storing it there in an inoperative position.

A common disadvantage of all existing similar products is the lack of protection of vital organs, namely the organs of the genitourinary system, from the effects of harmful electromagnetic radiation (hereinafter - EMP).

After all, the harmful effect of EMR on the human body has been known for a long time. For example, the nervous system is the most vulnerable spot for EMP. Under the influence of EMR, the exchange of potassium ions is disrupted, which causes a malfunction in the nervous system. It is also known that EMR reduces the body's immunity, due to a violation of the production of immune cells. Also, under the influence of EMR, the pituitary-adrenal system is stimulated, as a result of which the level of adrenaline in the blood increases, which causes changes in the adrenal glands, by the release of cortisol. Cortisol, in turn, causes increased excitability, sleep disturbances, mood swings, jumps in blood pressure, irritability, weakness, as well as a tendency to obesity and depression, (scientific article - Kudratillaev, K.R. What is EMR? Influence of electromagnetic radiation on a person / K .R. Kudratilaev. - Text: direct // Young scientist. - 2020. - No. 23 (313). - P. 78-80. - URL: https://moluch.ru/archive/313/71253/ (date request: 09/01/2020)

EMR is especially dangerous for the sexual function of men. So, for example, according to the results of her research, the candidate of biological sciences Ivanova Svetlana Vladimirovna writes "Electromagnetic irradiation has a negative effect on the fertilizing ability of irradiated male rats at maximum parameters of the electromagnetic field ..." (https://www.dissercat.com/content/vliyanie-elektromagnitnogo -oblucheniya-nizkikh-chastot-na-morfofunktsionalnoe-sostoyanie-sem

For example, military personnel who, for the sake of personal safety, are forced to be in close proximity to a radiating radio communication blocker for a long time in order to prevent possible detonations of a radio-controlled explosive device, the total radiation power of which can reach more than 300 watts, can be exposed to the harmful effects of EMP. In some cases, military personnel are forced to use wearable blockers for several hours, which are located next to the operator's body. For example, known is a wearable knapsack-type blocker "Pelena-6RM22", made in the form of a knapsack for wearing behind the back so that a person's hands remain free, and having a mass of no more than 9 kg and the following dimensions: width 367 mm, height 373 mm, thickness 96 mm (URL: / http://kobra.su/catalog/nosimyj/item/338-pelena-6rm22/; date of treatment 09/02/2020).

The technical problem to be solved by the proposed utility model is to eliminate the shortcomings of the prototype, namely, to provide these products with additional useful properties (protection of the organs of the genitourinary system from the negative effects of EMR).

The problem is solved due to the fact that a bulletproof vest containing packages of interconnected layers of material made of aramid fiber, formed in the form of front and back panels to protect the user from the front, rear parts of the body, respectively, characterized in that the bulletproof vest is also equipped with a removable an apron for protecting the user's groin, made of a package of interconnected several layers of material made of aramid fiber, while the aramid fibers used in such an apron are metallized with heavy metal ions.

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://el-kor.ru/bezehovye-kamery-i-ekrankamery-ekraniruyushchie-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 the 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 suddenly the rate 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 a solution of tin chloride and hydrochloric acid used, and a mixture of silver nitrate and ammonia is used in the metallization stage.

In this case, a removable apron to protect the groin can be attached to the body armor in any possible way (sewn, glued, etc.)

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

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

These features are new, essential and industrially feasible and are aimed at solving the technical problem posed by the utility model.

The technical result of the proposed utility model is to improve the protective properties of body armor, such as shockproof, splinterproof, bulletproof, as well as limiting electromagnetic radiation by expanding the protective cover to the area of the genitourinary system using a removable apron made of a package of interconnected several layers of material made of aramid fiber metallized with heavy metal ions.

Claims (1)

Bulletproof vest with the properties of protecting organs from electromagnetic radiation, containing packages of bonded layers of material made of aramid fiber, formed in the form of front and rear panels to protect the user from the front, rear parts of the body, respectively, characterized in that the bulletproof vest is also equipped with a removable apron to protect the user's groin, made of a package of interconnected several layers of material made of aramid fiber, while the aramid fibers used in such an apron are metallized with heavy metal ions.