RU2823951C1 - Bullet irritating organs of vision and respiration - Google Patents

Abstract

FIELD: non-lethal weapons.

SUBSTANCE: invention relates to weapons of non-lethal action with substances irritating organs of vision and respiration for limiting aggressive actions of offenders. Bullet, which irritates the organs of vision and respiration, comprises a body with ready grooves or a guide collar, inside which an irritant is placed. In the body there is a pyrotechnic charge of the smoke generator with an irritant, on the cylindrical generatrix of the body there is at least one smoke outlet. Body contains a pyrotechnic initiator of ignition of a pyrotechnic charge of an impact, grating or piercing type or a flame-conducting hole. On the front end part of the body there is at least one device for fixation on the target in the form of a needle with a barb.

EFFECT: implementation of the design of a bullet which irritates the organs of vision and respiration, with the possibility of obtaining accuracy of fire, approaching accuracy of samples of weapons with a rifled barrel, and the ability to create a high effective concentration or long exposure time on the target of the respiratory and visual irritant substances at their lower concentration.

9 cl, 10 dwg

Description

Field of technology to which the invention relates

The invention relates to non-lethal weapons (NLW) with substances that irritate the organs of vision and respiration (irritants) to limit aggressive actions of offenders (biological target, biotarget, target).

State of the art

As an analogue of the proposed invention, widely known rifle grenades with tear gas compositions (lacrimators), sprayed by the explosion of a small explosive charge, were chosen, first in the world developed for use by the French police in 1912 and massively used by the French army in the First World War already in August 1914 [1]. With a fairly effective non-lethal physiological effect upon reaching the required concentration of the lachrymator near the virgin soil, the weapon had the disadvantage that it could only be used when using a combat rifle to throw grenades at a target, and when hitting a person and especially at close range, it could cause fatal mechanical injury due to the large caliber (26 mm.) and weight of the grenade.

Another analogue is a projectile (bullet) for the non-lethal pepperball weapon popular in the West today [2]. A hollow spherical bullet, usually made of a brittle material (for example, gelatin), is usually filled with PAVA powder (vanillyl amide pelargonic acid, capsaicin II on an inert powder carrier). When a bullet is fired from a smooth-bore pneumatic weapon, it hits the target and breaks against the target, throwing out PAVA powder with some dispersion. Currently, pepperball bullets are used that have aerodynamic stabilization (small stabilizer feathers), as well as dispersion upon impact with the target of not powder, but a semi-liquid (gel) lachrymator. The advantage of a bullet compared to, for example, aerosol or jet canisters with irritants or pyro-liquid weapons with irritants is a sufficient range of action on the target (up to 50 m). The disadvantage of a bullet, both spherical and with stabilizers, is the insufficient accuracy of fire, as with any small-caliber bullets with aerodynamic stabilization. Another disadvantage of a bullet is the short-term (no more than 1-3 s) concentration of the ejected lachrymator created around (near) the target, since both the powder and the sprayed gel settle very quickly around (near) the target due to insufficient dispersion of spraying upon impact with the target at a low speed (up to 100 m/s). In conditions of use in atmospheric precipitation (rain, snow, or wind), spraying and maintaining the suspension of powder or gel aerosol are further impaired, in some cases reducing the effectiveness of the physiological action on the target to zero.

The bullet of the 7.92 x 94 Panzerbüchse[3] cartridge of the German anti-tank rifle PanzerbüchsePzB 38 was selected as an analogue of the proposed invention. The bullet, fired from a rifled barrel, had a shell in which a hard-alloy armor-piercing core and a charge of pressed lachrymator made of chloroacetophenone (CN) were placed. When hitting armored vehicles, the bullet pierced the armor (barrier), simultaneously breaking up and spraying the lachrymator in the internal volume of the armored vehicle upon impact, forcing the crew to either abandon the armored vehicle or complicating combat operations. Like any bullet stabilized by rotation, the bullet analogue had excellent firing accuracy and, accordingly, a several times greater range of an aimed shot from a weapon equipped with such a bullet compared to a smoothbore weapon. The disadvantage of the bullet is the extremely small amount of lachrymator loaded into it according to the necessary main ballistic characteristics of armor penetration, the loss of part of it upon impact even before the barrier is penetrated, and the insufficient dispersion of its spraying upon impact. The effectiveness of using the 7.92 x 94 Panzerbüchse cartridge bullet against armored vehicle crews was extremely low due to the semi-crimogenic physiological impact due to the impossibility of creating significant concentrations of lachrymator inside armored vehicles. The main disadvantage is the impossibility of using the 7.92 x 94 Panzerbüchse cartridge bullet as a non-lethal weapon due to its high muzzle energy required to destroy the bullet shell and, accordingly, the certainly lethal effect on the biotarget.

The prototype of the proposed invention was not found by the information and patent search.

Disclosure of invention

The technical problem solved by the claimed invention consists in obtaining a bullet design that irritates the organs of vision and respiration, stabilized by rotation to obtain increased shooting accuracy and create a short-term high effective concentration or a long time of action on the target of lachrymators or sternites at their lower concentration.

The technical result consists in the implementation of a design of a bullet that irritates the organs of vision and respiration, with the possibility of obtaining a shooting accuracy approaching the accuracy of weapons with a rifled barrel and the possibility of creating a high effective concentration or a long time of action on the target of substances that irritate the organs of respiration and respiration at a lower concentration.

The specified technical result is achieved in that the bullet irritating the organs of vision and respiration contains a body with ready-made rifling or a leading belt, inside which an irritant is placed, characterized in that a pyrotechnic charge of a smoke generator with an irritant is located in the body, at least one smoke exhaust hole is located on the cylindrical generatrix of the body, the body contains a pyrotechnic initiator of ignition of a pyrotechnic charge of a percussion, friction or impaling type or a igniter hole, at least one device for fixing to a target in the form of a needle with a barb is fixed on the front end part of the body.

An additional feature is that the pyrotechnic charge has an axial internal channel.

An additional feature is that an inertial striker is installed in the rear part of the axial internal channel of the pyrotechnic charge with the ability to move along the channel, and a percussion or impact cap is located in the end front part of the body.

An additional feature is that an inertial striker is installed in the front part of the axial internal channel of the pyrotechnic charge with the ability to move along the channel, and a percussion or impact cap is located in the rear end part of the body.

An additional feature is that in the front end of the body there is a hole through which the striker passes with the support surface of its front end protruding above the outer front end of the body and passing through the channel of the pyrotechnic charge, and in the rear end of the body there is a percussion or impact cap.

An additional feature is that in the front end of the body there is a hole through which the striker passes with the support surface of its front end protruding above the outer front end of the body, and on the front part of the pyrotechnic charge there is a percussion or impact cap installed.

An additional feature is that the pyrotechnic charge has an additional igniter or delay composition or a combination of both.

An additional feature is that the smoke outlet is covered with an easily pierced or fusible membrane.

An additional feature is that the barbed end of the needle passes through the front end of the housing into the internal cavity of the housing.

Brief description of the drawings

Fig. 1. Bullet with a striker in the channel and a striker igniter in the front end part (external view)

Fig. 2. Bullet with a firing pin in the channel and a percussion igniter in the front end part (section).

Fig. 3. Bullet with a striker in the channel and a percussion igniter in the rear end part (external view).

Fig. 4. Bullet with a striker in the channel and a percussion igniter in the rear end part

(section).

Fig. 5. Bullet with a protruding striker and a percussion igniter in the rear part of the pyrotechnic charge (external view).

Fig. 6. Bullet with a protruding striker and a percussion igniter in the rear part of the pyrotechnic charge and (section).

Fig. 7. Bullet with a protruding striker and a percussion igniter in the front part of the pyrotechnic charge (external view)

Fig. 8. Bullet with a protruding striker and a percussion igniter in the front part of the pyrotechnic (section).

Fig. 9. A bullet with devices for fixing to the target passing into the internal cavity of the body and a pyrotechnic charge (transparent image of parts).

Fig.10. Bullet with devices for fixing to the target passing into the internal cavity of the body and a pyrotechnic charge (section).

Implementation of the invention.

Fig. 1. The bullet consists of a body 1 with ready-made grooves 2, a head 3 with barbed needles 4 fixed to it, slit-shaped smoke exhaust openings 5 of the body, a breakthrough or fusible membrane 6 covering the openings 5.

Fig. 2. A striker 7 is installed inside the body 1, which is capable of free movement along the channel 8 of a pyrolytic composition mixed with an irritant, for example CN, made in a smoke-forming cartridge 9 (pressed, cast, cemented, rammed types), and a small pistol cap 10 is installed in the head 3. The striker 7 is secured (for example by gluing) to the rear inner end of the body 1 with the possibility of a small shear force sufficient to hold the striker in place in the channel 8 when handling a bullet or a cartridge with it during their falls and concussions and insufficient to hold the striker during its inertial start and forward movement to strike the cap 10 when the bullet hits the target. The bullet operates as follows. When fired from a rifled barrel weapon, the bullet flies toward the target, stabilized by rotation, and hits the biotarget with its front end, securing itself to the target's clothing and body with barbed needles 4. When the bullet hits the target, the striker 7, under the action of inertial forces, breaks its adhesive bond with the inner end of the body 1 and, moving along channel 8, strikes the primer composition of the primer 10, initiating it. The flame force of the primer 10 ignites the smoke-generating charge 9, which, releasing a highly dispersed irritant aerosol, breaks through the membrane 6 with the pressure of gases or their temperature. The aerosol, irritating the respiratory or visual organs, flows out of the smoke exhaust openings 5 and spreads near and along the target's body, creating a physiologically sufficient concentration of irritant near the biotarget, forcing the biotarget to stop active aggressive actions. Depending on the mass, burning rate, composition of the 9-piece, the necessary physiologically effective concentration of irritant is created near the target in a short time (1-2 sec.), or with a longer burning time (10-20 sec.) a lower concentration but with a longer time of impact on the target. In any case, the effectiveness of the physiological effect of irritants dispersed during combustion exceeds the action of irritants sprayed mechanically as in the analogue or prototype with the same mass of irritant in the proposed bullets and the analogue and prototype.

Fig. 3. The bullet consists of a body 11 with ready-made grooves 2, a head 12 with barbed needles 4 fixed to it, smoke exhaust holes 13 of the body, a breakthrough or fusible membrane 14 covering the holes 13.

Fig. 4. A striker 7 is installed inside the body 11, which can move freely along the channel 8 in the smoke-forming charge 9 of the pyrolytic composition mixed with the irritant, and a small pistol cap 10 is installed on the rear inner end of the body 11. The striker 7 is secured (for example, by gluing) to the rear inner end of the head 12 with the possibility of a small shear force sufficient to hold the striker in place in the channel 8 when handling the bullet or the cartridge with it during their falls and concussions and insufficient to hold the striker in the head from the action of the forces of static inertia during the acceleration of the bullet in the barrel of the weapon. The bullet operates as follows. When fired from a weapon with a rifled barrel, the bullet flies towards the target, stabilizing itself by rotation, and hits the biotarget with its front end, being secured to the target by needles 4 with barbs. When the bullet starts accelerating in the barrel of the weapon, the striker 7, having the inertia of rest and remaining practically in place, breaks its adhesive connection with the head 12. The body 11 of the bullet, moving forward, is pushed forward by the primer composition of the primer 10 onto the striker 7 and is initiated. The flame force of the primer 10 ignites the charge 9, which, releasing an aerosol of irritant by the pressure of gases or their temperature, breaks through the membrane 14. The aerosol, irritating the respiratory or visual organs, flows out of the smoke exhaust holes 13 and spreads near and along the body of the target, creating a physiologically sufficient concentration of irritant near the biotarget, forcing the biotarget to stop active aggressive actions.

Fig. 5. The bullet consists of a body 11 with ready-made grooves 2, a head 15 with needles 4 with barbs fixed to it, smoke exhaust holes 13 of the body, a breakthrough or fusible membrane 14 covering the holes 13. A striker 16 with a large-area front end (for example, in the form of a disk) is installed inside the channel 8.

Fig. 6. The striker 16 has the ability to move freely along the channel 8 in the smoke-forming grenade 9 of the pyrotechnic composition mixed with the irritant, and a small pistol cap 10 is installed on the rear inner end of the body 11. The striker 16 is secured in the head 15 (for example, by gluing) with the ability to apply a small shear force sufficient to hold the striker in place in the channel 8 when handling the bullet or the cartridge with it during their falls and vibrations or the acceleration of the bullet in the barrel of the weapon and insufficient to hold the striker from impact when the bullet hits the target. The bullet operates as follows. When fired from a weapon with a rifled barrel, the bullet flies towards the target, stabilizing itself with rotation, and hits the biotarget with its front end, being secured to the target by needles 4 with barbs. When the bullet hits the target, the disc-shaped part of the striker 16 stops moving and breaks its adhesive bond with the head 15. The body 11 of the bullet, moving forward, is pushed forward by the primer composition of the primer 10 onto the striker 16 and is initiated. The flame force of the primer 10 ignites the charge 9, which, releasing an aerosol by the pressure of gases or their temperature, breaks through the membrane 14. The gas dispersion, irritating the respiratory or visual organs, flows out of the smoke exhaust holes 13 and spreads near and along the body of the target, creating a physiologically sufficient concentration of irritant near the biotarget, forcing the biotarget to stop active aggressive actions.

Fig. 7. The bullet consists of a body 1 with ready-made grooves 2, a head 15 with needles 4 with barbs fixed to it, smoke exhaust holes 5 of the body, a break-through or fusible membrane 6 covering the holes 5. A striker 17 with a large-area front end is installed in the head 15.

Fig. 8. The firing pin 17 is secured in the head (e.g. by gluing) with the possibility of a small shear force sufficient to hold the firing pin in place in the head when handling the bullet or the cartridge with it during their falls and concussions or the acceleration of the bullet in the barrel of the weapon and insufficient to hold the firing pin from impact when the bullet hits the target. A smoke-forming charge 18 of a pyrolytic composition mixed with an irritant is installed in the body, with a small pistol cap 10 installed in it. The bullet operates as follows. When fired from a weapon with a rifled barrel, the bullet flies towards the target, stabilizing itself by rotation and hits the biotarget with its front end, being secured to the target by needles 4 with barbs. When the bullet hits the target with the disk-shaped part of the striker 17, it stops moving and breaks its adhesive connection with the head 15. The body 11 of the bullet, moving forward, is pushed forward by the primer composition of the primer 10 rigidly fixed in the solid charge 18 onto the striker 17 and is initiated. The flame force of the primer 10 ignites the charge 18, which, releasing an aerosol by the pressure of gases or their temperature, breaks through the membrane 6. The gas dispersion, irritating the respiratory or visual organs, flows out of the smoke exhaust holes 5 and spreads near and along the body of the target, creating a physiologically sufficient concentration of irritant near the biotarget, forcing the biotarget to stop active aggressive actions.

Fig.9 and Fig.10. A bullet differing from the bullet of Fig.7 and Fig.8 by the presence of needles 19 with barbs fixed to the head but passing through the head 20 and then through the cavity 21 formed between the charge 22 and the inner end surface of the head 20 into the charge of the pyrolytic composition mixed with the irritant of the charge 22 which may have pressed (or drilled) mating holes for placing the ends of the needles 19 in them. The bullet operates as described in Fig.7 and Fig. 8 with the difference that when the bullet hits the biotarget and combustion of the charge 22 is initiated, the ends of the needles 19 passing through the cavity 21 into the pyrotechnic composition of the charge 22 are heated by the flow of hot gases from the combustion of the pyrotechnic composition and, due to the thermal conductivity of the material of the needles (steel, bronze or cold-worked copper), transfer heat to the body of the biotarget, causing pain. Irritating smoke and additional pain sensations produce a synergistic effect that enhances the immobilizing effect and further complicates active aggressive actions compared to a bullet with only irritating smoke.

The bullet body in all possible designs, both shown in the figures and not shown, is equipped with ready-made cast rifling or a cast protruding annular belt performed during the manufacture of the body from heat-resistant polymers or a leading belt, for example, an annular internal stamping protruding onto the outer surface of the body in the case of the body being made of thin-walled metal. Smoke exhaust holes are located predominantly perpendicular to the cylindrical generatrix of the body or at a small angle directing the smoke flow to the plane of the target so that the smoke emitted during combustion of the charge does not exit to the side of the target body into which the bullet hit, but parallel to the body. A breakthrough or low-melting membrane 6 or 14 protecting the initiator and pyrotechnic composition of the charge from atmospheric moisture can be either installed or not installed in the case of sealing the bullet from moisture in the cartridge case or the barrel of the weapon. The main difference between the new type of irritant projectiles and the known ones (bullets with powder irritant filling for pepperball guns or pressed irritant filling like an armor-piercing bullet) is that, unlike these bullets, when hitting the target, the cloud of fragmented irritant does not disperse instantly even from small air currents and the weight of its own large particles and does not settle for several seconds (due to the high degree of dispersion of the smoke aerosol compared to mechanically sprayed irritant powder), but remains near the surface of the target's body due to the Coanda effect during the entire combustion of the smoke-emitting composition, maintaining the concentration of the irritant near the target and thus increasing the time of possible impact of the active lachrymator or sternite on the visual and respiratory organs of the biotarget, thus satisfying the provisions of Haber's law. It is advisable to make smoke exhaust openings of a slit type in order to obtain flattened smoke streams, although openings of a different shape are also possible. In this case, due to the heat of combustion, the smoke-emitting body of the bullet has a temperature that does not allow the bio-object to pull the bullet that has entered it out of the clothes and body. The smoke-forming composition of flameless combustion must have a minimum combustion (decomposition) temperature to exclude the possibility of ignition of clothing from the action of flame or high-temperature smoke streams and significant thermal decomposition of irritants, but at the same time have a temperature sufficient for evaporation of the irritant. When performing smoke exhaust holes on the rear end of the body in the design of the bullet according to Fig. 3, Fig. 4, Fig. 5, Fig. 6, the possibility of ignition of the target's clothing from the probability of emission of flame or sparks of combustion of the smoke-forming composition is reduced, but the possibility of adhesion of smoke streams to the plane of the target is also reduced. The smoke-generating composition in the form of a checker is installed in the bullet body by pressing or glue or by means of additional elements that prevent the checker from shifting when fired or when hitting the target in order to prevent the checker from blocking the smoke exhaust holes. The channel of the pyrotechnic charge of the smoke generator may have armor to prevent the transfer of the combustion reaction through the channel and increase the combustion area to progressive, or it may not have it, which depends on the selected required smoke emission rate and the combustion rate of the smoke generator charge. In the figures shown, the ignition initiator of the smoke-generating pyrotechnic composition of the checker is indicated as the simplest impact or thrust type, however, it can be of the friction type, in which case the friction composition can be, for example, applied to the inner surface of the channel, and the friction can be an inertial striker or a pressure striker. For the given types of initiators, it is possible to use the declared bullets in pneumatic weapons. In another embodiment for use in a firearm, the initiation of combustion of the smoke-forming charge can be carried out by transferring the flame thrust from the burning propellant charge of the weapon to the smoke-forming charge through the firing hole in the rear end of the bullet body. In this case, in order to prevent combustion of the charge still in the barrel of the weapon, it is advisable to use a gas-free pyrotechnic delay composition between the firing hole and the combustion surface of the charge. The use of a delay composition is also advisable when making a bullet according to Fig. 3 and Fig. 4, since the initiation of combustion of the charge also occurs actually still in the barrel of the weapon. In this case, to ignite both the delay composition and the smoke generator of the charge itself from the flame thrust of the primer, a transitional igniter composition can also be used. At the same time, it is obvious to any specialist that there may be many specific designs of initiators-igniters of a pyrotechnic smoke-forming composition when it hits the target or even during the movement of the bullet along the barrel of a weapon in the claimed invention, but in any case, their activation will be based on the energy of the forces of inertia at rest, inertia of motion, movement of the drive element from pressing upon impact with the target or centrifugal forces.

List of cited sources:

1.https://webharvest.gov/peth04/20041017045619/http:/www.cgsc.army.mil/carl/resources/csi/Heller/HELLER.asp

2. WO2000062006

3. https://cartridgecollector.net/cartridge/792-x-94-panzerbusche/

Claims (9)

1. A bullet that irritates the organs of vision and respiration, comprising a body with ready-made rifling or a leading belt, inside which an irritant is placed, characterized in that a pyrotechnic charge of a smoke generator with an irritant is located in the body, at least one smoke exhaust hole is located on the cylindrical generatrix of the body, the body contains a pyrotechnic initiator of ignition of the pyrotechnic charge of the impact, friction or impaling type or a igniter hole, at least one device for fixing to a target in the form of a needle with a barb is fixed on the front end part of the body. 2. A bullet according to item 1, characterized in that the pyrotechnic charge has an axial internal channel. 3. A bullet according to item 2, characterized in that an inertial striker is installed in the rear part of the axial internal channel of the pyrotechnic charge with the ability to move along the channel, and a percussion or impact cap is located in the end front part of the body. 4. A bullet according to item 2, characterized in that an inertial striker is installed in the front part of the axial internal channel of the pyrotechnic charge with the possibility of its movement along the channel, and a striking or impaling cap is located in the rear end part of the body. 5. A bullet according to item 2, characterized in that in the front end portion of the body there is an opening through which a striker passes with the support surface of its front end protruding above the outer front end portion of the body and passing through the channel of the pyrotechnic charge, and in the rear end portion of the body there is a striker or impaler cap. 6. A bullet according to item 1, characterized in that an opening is made in the front end portion of the body through which a striker passes with the support surface of its front end protruding above the outer front end of the body, and a percussion or impact cap is installed on the front portion of the pyrotechnic charge. 7. A bullet according to item 1, characterized in that the pyrotechnic charge has an additional igniter or delay composition or a combination thereof. 8. A bullet according to item 1, characterized in that the smoke exhaust hole is closed with an easily pierced or fusible membrane. 9. A bullet according to item 1, characterized in that the end of the needle with the barb passes through the front end portion of the body into the internal cavity of the body.