RU2810936C1 - Small-calibre electric bullet - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: small-calibre electric bullet comprises a body with rifling protrusions or a driving belt, a source of electrical energy, a switch that is activated when the electric bullet hits a target, a generator of electric current that strikes the target, electrodes-devices for securing the electric bullet to the target, and protective electrodes. The switch is made in the form of a contact element movable relative to the body, located at the front end of the electric bullet body between the electrodes-devices for securing the electric bullet to the target, and is galvanically connected to the first power contact of the generator of the electric current voltage striking the target. On the outer surface of the electric bullet body there is a protective contact electrode galvanically connected to one pole of the electrical energy source, and the other pole of the electrical energy source is galvanically connected to the second contact of the generator power supply.

EFFECT: implementation of the purpose.

5 cl, 6 dwg

Description

Field of technology to which the invention relates

The invention relates to a wireless remote electroshock weapon (RESW) of non-lethal action with an electric weapon, specifically small-caliber electric bullets (electro-bullets) to limit the aggressive actions of offenders (biological target, bio-target, target), use in special power operations, in the areas of which there may be civilian population and for the self-defense of citizens.

State of the art

As an analogue of the electric bullet according to the proposed invention, a small-caliber electric bullet according to the patent was adopted [1]. The electric bullet has a housing, a source of electricity, a switch, a DC-voltage converter of the power supply into alternating or pulsed electrodes in the form of needles, inside the housing there is a battery composed mainly of thin-film microvoltaic cells, batteries or supercapacitors with individual elements made primarily in the shape of a disk with a hole along the axis of the disk or a battery in the form of a plurality of cylinders with separate galvanic elements inside placed radially around the axis of the housing; inside the housing along the axis of the housing body there is an axial current-carrying needle with an electrical insulating coating along the length of the needle and an uncoated front end and an inertial or pyrotechnic device for extending the needle outside the housing body when throwing an electric bullet or after an electric bullet hits a target (biological target, bio-target, offender). The electric bullet has an inertial-rotational type switch.

Electric bullets are in great demand in law enforcement agencies around the world, as they represent a new level of innovation that makes it possible to abandon the current wired technologies for electrocuting targets, increasing the range of action and achieving multiple charges of DESh.

The patent [2] was chosen as the prototype of the claimed invention. The patent describes an electric bullet containing a body with ready-made rifling projections or a leading belt, a power source, a generator of electric current striking the target, electrodes-devices for securing the electric bullet to the target (output electrodes), protective electrodes, a switch that is triggered when the electric bullet hits the target located at the rear end the body of the electric bullet and is a contact in the form of a pressure metal membrane made of elastic metal or plastic metal with an adhesive layer that contacts when fired under the pressure of the gases of throwing the electric bullet with the electrode protruding from the recess of the rear end of the body, which is one pole of the power source. An electrical conductor extending from the membrane and galvanically connected to it is also connected to one power supply contact of the generator, and the second power supply contact of the generator is connected to the other pole of the power supply source. The protective electrodes of the electric bullet, made of adhesive metal foil or metallization, are located on the surface of its body; they represent two electrically conductive tracks or strips of a longitudinal or annular shape, or longitudinal or annular comb shapes on the outer surface of the electric bullet. The protective electrodes are galvanically connected to the output electrodes (needles with barbs) of the voltage generator striking the target. The main disadvantage of the electric bullet is the large design length of the switch device relative to the entire body of the electric bullet.

The total length of the electric bullet body without output electrodes is 31 mm, the length of the electrodes is 9 mm, the total length of the electric bullet is 40 mm. The length of the structural part of the push switch at the rear end of the electric bullet is 4.4 mm, which is 14.2% of the total length of the body (see Fig. 1 and Fig. 5 of the patent [2]). In the version of an electric bullet with a centrifugal switch in the form of an insulating weight (see Fig. 7 of the patent [2]). the total length of the electric bullet body without output electrodes is 31 mm, the length of the electrodes is 9 mm, the total length of the electric bullet is 40 mm. The length of the structural part of the centrifugal switch at the rear end of the electric bullet is 4.5 mm, which is 14.5% of the total length of the body. At the same time, the patent [2] shows not schematic, but real (for manufacturing) dimensions of structures in 3D graphics.

The disadvantage of the prototype electric bullet also lies in the complex design of protective electrodes, characterized by low-tech design (and, accordingly, cost), shaped protective and non-interconnecting electrodes on the body of the electric bullet and the low-tech nature of their reliable galvanic connection with the output electrodes of the generator made of stainless steel due to the heterogeneity of the materials being connected ( Copper protective electrodes made of copper or aluminum foil or sputtering and stainless steel are very difficult to solder or weld together). The prototype electric bullet is a medium-caliber electric bullet (see the caliber classification in the "Implementation of the invention"). A prototype electric bullet of 14.7 mm caliber ([2] Fig. 9 top image) was manufactured and tested by firing for physiological effectiveness in immobilizing a biological target (human) from the DESH (weapon) given in the patent [2]. A prototype electric bullet of 11.4 mm caliber (exactly 11.43 mm) ([2] Fig. 9 bottom image) was manufactured, but did not show reliable immobilization of the target due to the insufficient power output of the power supply, which can still be placed in the prototype bullet with switch design according to patent [2] with a total length of no more than 40 mm, with permanently extended electrodes. The prototype electric bullet of 11.43mm caliber with retractable electrodes could not be implemented due to major insufficiency output power of the power supply due to the occupation of part of the useful volume by the device for extending the electrodes from the housing.

Disclosure of the Invention

The technical problem lies in the need to create a small-caliber electric bullet with overall dimensions and weight suitable for placement in the drums of ubiquitous revolvers and multi-shot magazine pistols with the possibility of obtaining effective immobilization of a biological target with a body weight of at least 70-80 kg, a simplified and technologically advanced device of protective electrodes.

The technical result consists in the implementation of a small-caliber electric bullet with a solution to the specified technical problems. The specified technical results are achieved by the fact that a small-caliber electric bullet contains a body with rifling protrusions or a leading belt, a source of electrical energy, a switch that is triggered when the electric bullet hits the target, a generator of electric current voltage striking the target, electrodes-devices for securing the electric bullet to the target, and protective electrodes, wherein the said switch, triggered when an electric bullet hits a target, is made in the form of a contact element movable relative to the body, located at the front end of the electric bullet body between the electrodes-devices for securing the electric bullet to the target, and the mentioned contact element is galvanically connected to the first contact of the power supply of the generator of the electric current striking the target , and on the outer surface of the electric bullet body there is a contact-protective electrode, galvanically connected to one pole of the electrical energy source, and the other pole of the electrical energy source is galvanically connected to the second contact of the generator power supply.

An additional feature is that the contact-protective electrode located on the outer surface of the electric bullet body is also a protective electrode.

An additional feature is that the contact-protective electrode located on the outer surface of the electric bullet body is made as a metal foil coating or metallization of the bullet body.

An additional feature is that part of the contact-protective electrode located on the outer surface of the electric bullet body and the movable contact element adjacent to it with a gap are covered with an electrical insulating film.

An additional feature is that the surface of the movable contact element, which is not in contact with the contact-protective electrode, is covered with an electrical insulating coating.

Brief description of drawings

Fig.1. External views and section of the electric bullet.

Fig. 2. The appearance of the electric bullet when it hits the target.

Fig. 3. Electric bullet with a protective coating.

Fig. 4. Electric bullet with increased metallization.

Fig. 5. Electric bullets in a small series.

Fig. 6. DESHO on electric bullets.

Carrying out the invention

Since nowhere, neither in foreign nor in domestic sources, was there a classification of DESH for the use (throwing) of electric bullets by caliber and, accordingly, there was no classification by caliber of the electric bullets themselves, here for the first time the following classification will be given:

1. A large-caliber DESHO for throwing electric bullets is considered to be a weapon with a caliber of 12 hunting caliber (18.3-18.5 mm) or more. Examples of large-caliber DESH are, for example, the 12-gauge shotgun TASER X12 LLS [3]), and the 40 mm standard NATO grenade launcher throwing stun grenades Sticky Shocker [4]). At the same time, DESHOs with a caliber greater than 12 gauge have never been mass-produced or sold, primarily due to the enormous probability of the biological target receiving not an electrical shock, but a “commotio cordis” [5]. The TASER X12 LLS electric bullet was mass-produced in the USA, but it has now been proven to be extremely dangerous due to “commotio cordis”, insufficient immobilizing ability, and this electric bullet is no longer produced and has been withdrawn from circulation by the police and the US Marine Corps. Large-caliber DESHO can be manufactured either only in the form of shotguns and rifles, or only in large-sized single- or double-shot pistols.

2. DESHO throwing electric bullets of medium caliber is considered a weapon with a caliber of less than 12 hunting and up to the caliber of a small-caliber DESHO (i.e. up to 12.7 mm, see below). Electric bullets with a caliber of more than 12.7 mm are already so large that short-barreled multi-shot weapons for using such bullets either exceed the dimensions and weight convenient for carrying, or become low-charge 2-4 (max.) charges, which, as historical practice has shown, is no longer enough in terms of the number of charges for police use and only limitedly sufficient for self-defense. An example of a medium caliber DESHO is a 14.7 mm DESHO according to patent [2] (Fig. 13 and Fig. 14 of the patent).

3. A small-caliber DESHO for throwing electric bullets is considered to be a weapon with a caliber of 12.7 mm or less. The classification of small-caliber from a caliber of 12.7 mm and less is natural for DESH because, unlike bullets from firearms with a caliber of even 2.7 mm (Kolibri) or for example 3.55 mm (.14-222), electric bullets have a physical limitation in reducing caliber due to the fact that they are microelectronic products with an output electrical power not lower than that providing sufficient physiological effectiveness for biological purposes and the obstacle to reducing the caliber is, first of all, the output power of power sources, the permissible transmitted and dissipated power of electronic components, as well as the physiologically minimal effective distances between striking electrodes introduced into the body of the biological target. Small-caliber electric bullets DESHO (and, accordingly, small-caliber DESHO for throwing such electric bullets) are electric bullets only of such calibers that are used in standard (known, used, in service with the police or army) samples of multi-charged short-barreled firearms such as pistols and revolvers, i.e. calibers up to 12.7 mm caliber for constant comfortable carrying, as well as police rifles for action against biological targets, which do not exist with a caliber above 12.7 mm. An example of the design of electric bullets for a small-caliber DASH is an analogue electric bullet. The proposed invention describes an electric bullet with a caliber of 11.43 mm, i.e. small-caliber (as well as an analogue device) since the caliber 11.43 (.45) and 9 mm has many pistols and revolvers that are widely used, produced and used in the world today.

Currently, the arms industry of different countries produces samples of pneumatic and firearms short-barreled weapons for body wear, which can be used to throw electric bullets by law enforcement officers and citizens for self-defense. However, all these samples have a limiting length of the cartridges used, which determines the length of the revolver drums and the size of the pistol magazines. Theoretically, the length of the revolver drum can be longer than those indicated in the table of cartridge lengths below, but such revolvers are not ubiquitous and are only curious examples for lovers of heavy-duty revolvers. Multi-shot pistols with a replaceable magazine in the handle are limited by the length of the cartridge for placement in the magazine, while the comfort of grip of the handle (i.e., its width) is still permissible by the anatomical features of the human hand (i.e., its width) and samples of pistols using a cartridge longer than .30 Carbine are generally unknown. At the same time, no more than 300 AutoMag III pistols chambered for this cartridge were produced from 1990 to 2002. pistols and has since been no longer produced, primarily due to the inconvenience of use (only for people with very large hands). A pistol's permanent magazine can accommodate a cartridge 50-52 mm long, but no more. The design of such military firearms is unknown, but aerosol pistols with a permanent magazine chambered for the cartridge (aerosol can) BAM 18x51 are known.

Cartridge Chuck length Weapons for cartridge use .38-40 Winchester 40 Revolver models .45 Long Colt 40.6 Revolver models .41 Magnum 40.3 Revolver models .357 Magnum 40.4 Desert Eagle. .30 Carbine 42.7 AutoMag III .44 Smith & Wesson Special 41 AutoMag model 180, Wildey, Desert Eagle. .44 Magnum 41 Revolver models .440 Cor-Bon 40.4 Desert Eagle. .429 DE 40.4 Desert Eagle. .45 Winchester Magnum 40 AutoMag IV .50 AE 40.9 Desert Eagle, AutoMag V

Cartridge Chuck length Weapons for cartridge use 12.7x55mm 73 Revolver RSh-12 (assault) 12.3x40R 51 Revolver "Udar" KBP 12.3x50R 50 Revolver "Udar" TsNIITochmash 12.5x50R 50 Revolver "Gnome" OTs-20"

From the tables and explanations given, it is clear that the length of the electric bullet should be less than 40 mm, since only this length allows electric bullets to be placed in the drums of ubiquitous revolvers and in hand-held interchangeable magazines of multi-shot pistols, and then only under the condition of using a cartridge with a thin-walled cartridge case for a weakened (micro-volume) propellant charge or only under its own charge of the igniter primer (for example, a side fire that reduces the length of the cartridge case), since electric bullets from a short-barreled DESH are thrown at very low speeds in order to avoid mechanical (kinetic) injuries to the biological target.

Fig. 1. The length of the body of the electric bullet is determined by the dimensions of the voltage of the electric current striking the target, the power source in the form of long-lasting predominantly disk electric batteries (clock batteries), and the switch. The dimensions of the generator of the electric current voltage striking the target cannot be reduced below a certain limit, which is limited by the dimensions of the electronic components of the generator electronic circuit produced by global manufacturers, and the availability of these components. In addition, the dimensions of the generator cannot be reduced due to the need for the electronic components used to withstand the power transmitted in the generator by a very small power source, practically in short circuit mode, to obtain at the output of the generator a damaging electric current with parameters that provide a physiological effect on the biological target sufficient to immobilize the biological target expressed in the impossibility of active actions of a biological target (human) with a body weight of 70-80 kg. and more due to the occurrence of severe tonic convulsions and completely disorienting pain. The minimum possible dimensions of the generator are determined by multiple experimental studies and data obtained. The dimensions of the power supply are determined by the maximum supply current supplied to the generator and the voltage on the power supply, subject to a large voltage drop, which cannot be less than the minimum supply voltage of the generator microcircuits. Moreover, due to the disposability of electric bullets, the cost of the power source should be as low as possible, i.e. The power source should not be specially made (i.e., high cost), but widely used in everyday life or technology. The dimensions of the power supply are determined by multiple studies and data obtained. The only component of the electric bullet that can be somewhat reduced in size is the switch. The inertial-rotational type switch described in the electric bullet analog requires the highest manufacturing precision of both the switch itself and the body parts of the electric bullet, high tolerances in the dimensions of the power supply elements and the damaging current generator, as well as a significant rotation speed (which is difficult to achieve due to the indispensable condition of the obviously low bullet speed under the conditions of inadmissibility of mechanical injuries to a biological target and the impossibility of reducing the pitch of rifling in standard firearms for which an analogue electric bullet is intended) for reliable operation of the switch. The prototype bullet design switch as stated above increases the bullet length by almost 15%.

The electric bullet according to the claimed invention of 11.43 mm (.45) caliber has a non-conductive body 1, a non-conductive head 2, protrusions of finished rifling 3 of the body, a protective contact electrode 4, a movable contact 5 can move to the rear end of the body in the grooves of the body 1, supply flexible conductor 6, output (combat) electrodes 7 of the generator of the damaging voltage of the electric current in the form of needles with barbs, output conductor 8 of the battery, generator 9 of the striking voltage, power supply batteries 10 from disk (clock) batteries, space 11 for breaking the contacts, cone spring 12. Movable contact 5 in the form of a U-shaped bracket (made of a spring predominantly stainless wire that tightly encloses the body and does not allow it to move around the body when handling an electric bullet and a weapon charged with electric bullets (falls, shocks, etc.)) is connected through a flexible conductor 6 with one power supply contact of the generator 9 located in the head 2, and the protective electrode contact 4 located on both sides of the body 1 is connected to one pole of the battery 10 through a conductor 8 and a spring 12. The second pole of the battery 10 is connected to the second power supply contact of the generator 9. Between the contact -protective electrode 4 and the ends of the contact bracket 5 during storage and before the electric bullet hits the target, there is a gap space 11 between the mentioned contacts. The battery contact circuit and the generator power supply contacts are open before the electric bullet is fired and the battery voltage is not supplied to the generator 9. The finished rifling of the body can be replaced by a leading belt; the location of the finished rifling or leading belt on the body in its front or middle part or rear part is not significant meanings.

Fig. 2. When an electric bullet hits a target after being fired from a weapon, the electrodes 7 of the damaging voltage generator are completely embedded in the target, contact 5, under the influence of an impact on the target’s body, moves back relative to the body 1, selects the gap space 11 and closes with the protective electrode contact 4. Flexible conductor 6 is crushed and placed in the recess 13 of head 2. In this case, the circuit between the battery contacts and the generator power supply contacts is closed, the battery voltage is supplied to the generator, and it is put into operation, generating a target-damaging electric current voltage supplied to the electrodes 7 and then into the body of the biological target, which immobilized. Contact bracket 5 with two contact points on both sides of housing 1 makes it possible to duplicate switching to increase switching reliability. The described switch device is located not inside the body, but outside the body of the electric bullet, i.e. not occupying the internal volume of the body, allows you to increase the total length of the 11.43 mm electric bullet together with electrodes 7 to 38.0-39.0 mm, with a length of output electrodes of 9-10 mm. The shorter length of the electrodes is no longer sufficient to penetrate the target’s clothing, epidermis and dermis, and securely attach it to the target’s body. An electrode length greater than 10 mm has a strict medical contraindication (due to possible damage to the heart ventricle in asthenic people). At the same time, the use of a prototype electric bullet switch would increase the length of the electric bullet body by almost 15%, which would no longer allow it to be placed in the drums of ubiquitous revolvers and pistol magazines. At the same time, it is also necessary to take into account that the damaging voltage generator in the prototype electric pool is placed on a round board that fits into the inner diameter of the case, which makes it possible to reduce (the height of the generator), and in the claimed electric pool, the damaging voltage generator is placed on a rectangular board (since its electronic components are on the round board are not physically placed) placed along the body, which further increases the length of the body. At the same time, an electric bullet of 11.43 caliber would have a total body length of at least 40 mm, and the length with needles would be at least 50 mm, which would no longer allow it to be placed in the drums of ubiquitous revolvers and repeating pistols. And most importantly, the length of an 11.43 mm electric bullet with a length of more than 40 mm, as experimental data has shown, no longer allows it to be reliably stabilized in flight by rotation, since the muzzle velocity of electric bullets for police and civilian short-barreled weapons (i.e. used at distances no more than 25 m) is extremely small (to prevent kinetic injuries to the biological target) and is on the order of only 25-40 m/s, and at such an ultra-low speed it is impossible to achieve reliable stabilization of bullets by rotation with a ratio of bullet length to diameter of 50 mm: 11.43 mm = 4.4 (approaching the well-known ratio 6 (six) after which stabilization by rotation of even high-speed combat bullets is no longer possible) even with a very small pitch of rifling on the verge of braking by friction of the bullet in the barrel with failure from the rifling or destruction of the weapon.

Fig. 3. To prevent oxidation of the external contact points during long-term storage of the body and to prevent contamination of the external contact points when firing electric bullets from a firearm from combustion products of the propellant charge breaking through the barrel around the body of the bullet when fired, the electric bullet can have an external lining 14 of the bullet body at the contact points made from predominantly heat-resistant electrical insulating film, for example from Kapton (the figure shows a transparent film).

Fig. 4. The claimed electric bullet, unlike the prototype, has only one protective electrode, which is a contact-protective electrode 4. Defeat the offender who, in some cases (exposure to drugs, alcohol, high pain threshold) may instinctively try to snatch the electric bullet that has gotten into it (get rid of source of pain) occurs along a current loop between one of the electrodes 7 and the contact-protective electrode 4. The contact-protective electrode 4 may not be made as shown in FIG. 1 (two tracks on the sides of the body 1 made of adhesive metal foil or metallization of the body), and in the form of a contact-protective electrode 15 in the form of increased metallization of the body 1, which in principle is not of great importance except for the most acceptable manufacturing technology since the fingers of a person trying tearing the electric bullet out of the body, as experimental data have shown, in any case contacts the contact-protective electrode 4 in any of the specified designs. As a rule, DESH is used against offenders in clothing. When an electric bullet hits the body, an electrically insulating layer of clothing appears between the electrodes 7 and the movable contact 5 and the damaging electric current passes through the body between the electrodes 7, providing standard immobilization. However, if an electric bullet hits, for example, a bare part of the body, a damaging electric current can flow between one of the electrodes 7 and the moving contact 5. In this case, the current loop [6] is halved, which may no longer cause reliable immobilization of the offender. To prevent this phenomenon, the movable contact 5 may have an electrical insulating coating 16 (together with the place of soldering or welding of the conductor 6) in addition to the contact places 17 directly in contact with the contact-protective electrode 4 or 15.

Fig. 5. Electric bullets in a small series. Experimental data have shown that the inventive electric bullet is suitable for placement in the drums of revolvers and magazines of multi-shot pistols, and in terms of physiological effects it is sufficient to immobilize biological targets, which is expressed in the impossibility of active actions of a person with a body weight of 70-80 kg. and more when the claimed electric bullet hits his body or limbs. Experimental data have also shown that a person is not able to independently remove an electric bullet that has entered the body with his bare hand.

Fig. 6. The world's first small-caliber multi-charge DESH on electric bullets of 11.43 mm caliber. A six-shot pneumatic revolver with electric bullets based on an airsoft copy of the Webley Mk.6 revolver with a 40 mm drum length, and a five-shot pistol with electric bullets with a permanent magazine in the handle based on an aerosol pistol chambered for BAM 18x51 cartridges.

List of cited sources:

1. RF Patent No. 2758476

2. RF Patent No. 2788236

3. Ladyagin Yu.O. "Remote electroshock weapon" M.: Stalingrad Foundation Publishing House, 2017, pp. 254-255.

4. Ladyagin Yu.O. "Remote electroshock weapon" M.: Stalingrad Foundation Publishing House, 2017, p. 250.

5. Ladyagin Yu.O. "Remote electroshock weapon" M.: Stalingrad Foundation Publishing House, 2017, p. 251.

6. Ladyagin Yu.O. "Remote electroshock weapon" M.: Stalingrad Foundation Publishing House, 2017, pp. 354-355.

Claims (5)

1. A small-caliber electric bullet containing a body with rifling protrusions or a leading belt, a source of electrical energy, a switch that is triggered when the electric bullet hits the target, a generator of electric current striking the target, electrodes-devices for securing the electric bullet to the target and protective electrodes, characterized in that the said the switch, which is triggered when an electric bullet hits a target, is made in the form of a contact element movable relative to the body, located on the front end of the electric bullet body between the electrodes-devices for securing the electric bullet to the target, and the mentioned contact element is galvanically connected to the first contact of the power supply of the generator of the voltage of the electric current striking the target, and on the outer surface of the electric bullet body there is a protective contact electrode, galvanically connected to one pole of the electrical energy source, and the other pole of the electrical energy source is galvanically connected to the second contact of the generator power supply. 2. A small-caliber electric bullet according to claim 1, characterized in that the contact-protective electrode located on the outer surface of the electric bullet body is also a protective electrode. 3. A small-caliber electric bullet according to claim 1, characterized in that the contact-protective electrode located on the outer surface of the electric bullet body is made as a coating with metal foil or metallization of the bullet body. 4. A small-caliber electric bullet according to claim 1, characterized in that part of the contact-protective electrode located on the outer surface of the electric bullet body and the movable contact element adjacent to it with a gap are covered with an electrical insulating film. 5. A small-caliber electric bullet according to claim 1, characterized in that the surface of the movable contact element, which is not in contact with the contact-protective electrode, is covered with an electrical insulating coating.