RU197693U1 - Multiply charged remote stun guns with automatic and manual extraction - Google Patents

Abstract

The utility model relates to non-lethal police and civilian remote electroshock weapons (DESHO). The technical result consists in increasing the reliability and efficiency of the DESHO operation, the possibility of hitting armed targets with two pairs of conductors at the same time, and the possibility of arresting the offender. Multiply charged remote stun guns with firing cartridges with pyrotechnic devices for unlocking cartridges from the weapon body has firing cartridge latches with forced firing of the firing cartridge from the weapon body, a mechanical cartridge lock for automatic unlocking from the weapon body, and an electronic weapon operating time control independent of the trigger position item after shot. 4 s.p. f-ly, 8 ill.

Description

The technical field to which the utility model belongs.

The utility model relates to a multi-charged remote stun gun (DESHO), with an electric weapon.

The level of technology.

Widely known DESHO leading in the field of stun guns of the world company "Axon Enterprise, Inc." (formerly "Taser Int." USA) models Taser X2 and Taser 7 [1] made in the form of a pistol consisting of a housing in which an electronic part with an electronic high-voltage assembly is placed, striking the target (offender, biological target, bio-target) with an electric current and a special pocket (cavity in front of the weapon) in which two firing cartridges are located. The firing cartridges are installed in the housing and held in it by means of latches. Cartridges are in contact with DECHO contact electrodes (electrodes for directly contacting the target by pressing the target cartridges without firing with firing cartridges). When firing from firing cartridges, conductors with devices for holding them onto the target (probes with needles with barbs) are thrown to the target. The high-voltage damaging voltage of the electric current generated by the high-voltage unit is transmitted from the DESO to the target via the current leads that hit the target. The advantage of analogues is the possibility of firing shots at the target with two cartridges one after another (double shot) and the possibility of arrest (capture). More details about these DESHO functions are described below in the description of the prototype of the proposed DESHO.

The disadvantage of analogues is that the firing cartridges are latched to the weapon and after the shot are not automatically separated from the weapon. This significantly limits the ability to quickly and accurately fire a second shot in the event that the next target appears behind the user with a weapon or in the plane behind the current leads already stretching to the first target. The current leads reaching the first target do not allow the user to turn with the weapon toward the target appearing behind his back, because this is prevented by durable current leads fixed by the beards of the probe needles on the clothes of the first target. These wires interfere with the physical turn of the shooter and the quick aiming of the weapon at the target. In addition, on the line of the next shot, there may be current leads from the previous shot stretching to the first target, which will inevitably change the trajectory of the probes of the new shot, and they will not hit the target even with the correct aiming. The production of two consecutive aimed shots is possible only in an arc, from left to right, which is associated with the sequence of initiation of cartridge shots (from left to right) each time the trigger is pulled (trigger element). In the same way, the wires of the previous shot will deflect the flight path of the probes of the next shot when the next target appears in the plane behind the wires stretching to the first target. The disadvantage of analogues is also that the used cartridges for reloading weapons have to be removed from the DESO using both hands of the user. Removing a shot cartridge after a shot is not provided automatically or with one hand of a user holding a weapon. Thus, to reload the weapon, if necessary, to quickly continue shooting, the user loses the time to remove the used cartridge using both hands.

As a prototype, the DESHO according to patent RU No. 2462678 was chosen in the form of a 3-charging pistol having firing cartridges spring-loaded towards the extraction side of the housing and emitting current conductors when fired when they hit the target, they shock the target with high-voltage electric discharges generated by the electrical circuit shocking voltage of an electric current with a power source located in the gun body. Before the shot, the cartridges are fixed in the weapon body for the first cavities of the cartridge case with the teeth of mechanical spring clips located in the weapon body behind the trigger guard of the weapon body, and when fired for the second cavities of the cartridge case with special hooks of the locking element located in the body and interacting with the trigger. The firing cartridges have a propellant charge of a pyrotechnic substance initiated from a low-voltage electric current supplied through special contacts of the cartridge launch to the charge igniter when the trigger is pressed. A charge of pyrotechnic substance throws into the target conductors that have probes at the ends with barbs holding them on the target’s clothing. After the first shot is fired before the second shot, the used cartridge with current leads is extracted from the gun body by a spring compressed when loading (installing) the cartridge into the gun body. After the second shot is fired before the third shot, the second shot cartridge with current leads is also ejected from the pistol body by the spring compressed when loading (installing) the cartridge into the gun body.

A precompressed spring also removes the third shot cartridge with conductors from the gun body. In the prototype weapons, the cartridges are automatically extracted after releasing the trigger pressed during the shot when the user is convinced (visually) of the destruction (usually falling to the ground) of the target. Automatic release of the used cartridges from the gun’s body is done by pressing the teeth of the mechanical spring clips located in the gun’s body from the first cavity of the cartridge’s housing with a special piston of the gas engine that is pulled out of the cartridge’s body by the pressure of the combustion gases of the pyrotechnic propellant charge of the cartridge during firing (throwing probes with current leads to the target). After releasing the trigger pressed by the user during the shot, the locking element interacting with the trigger is pressed from the second cavity of the cartridge housing of the trigger, after which the cartridge is extracted from the weapon body by the force of the expanding springs of the compressed cartridges when the cartridges are charged. The advantage of the prototype is the lack of disadvantages described in the analysis of analogues of the utility model.

The disadvantage of the DESHO prototype is that the extraction of used cartridges with conductors during firing can only be done after the cartridge’s gas engine is triggered. In case of failure of its operation, for example, non-extension of the gas engine piston after firing (due to jamming, sticking, mashing of the gas engine parts due to backwardness of domestic technologies in manufacturing accuracy, freezing (when moisture enters the gas engine parts in the cold season) or the piston does not lock in the extended position after firing due to reasons similar to those described above or inaccuracy in the manufacture of the piston and its fixing elements in the extended position, the cartridge will not be extracted.

Failure of extraction after the first shot of, for example, the first firing cartridge makes the defeat of the second target by the second (and subsequent) shot ineffective, since the damaging voltage of the electric current that must be supplied to the second (and then subsequent) target after the shots of the second (and subsequent) cartridge to the target is shunted by the first target in which got the conductors of the first shot but not extracted cartridge. That is, in case of failure of extraction of one cartridge that hit the target with current conductors, the next shot at the next target will be "short-circuited" (shunted), the damaging electric current voltage that should be directed to the next target will be shunted by the first target hit. Thus, a damaging effect on the second and subsequent target does not occur. But even if the conductors of the first shot do not hit the target and the device for automatically extracting the first shot cartridge fails, the second shot fired at the target will almost always be ineffective for hitting the target, as the conductors of the first shot inevitably intersect when they fall to the ground both in case of a miss by both conductors and a miss on goals with one conductor. In Russia, there are no technologies for the production of analogues of the high-voltage DuPont ™ Tefzel ® ETFE current lead [2] with an electrical insulation strength of 11-16 kV AC (for one core) used in all Axon Enterprise, Inc. DESHO models. The conductors of all Russian DESHO models without exception are a conventional mounting wire of the type MS, ITU or MGTF with a fluoroplast-4D winding sintered or twisted without sintering and designed for a rated voltage of 250-500 V AC (for a common core of a multicore wire). Therefore, in the case of the intersection of DESHO conductors produced and used in Russia with the voltage of a high-voltage damaging electric current operating in the DESHO, an inevitable electrical breakdown of the insulation of the conductors and the corresponding short circuit of the conductors with shunting of the target electric current occur in the DESHO. For a second shot at a target unaffected by the first shot, it is necessary to quickly extract the shot cartridge of the first shot with crossed current leads. In this case, the extraction of a cartridge with a failed gas engine from the body of the DESO prototype can be performed only with two hands of the user. One hand of the user must hold the weapon, and with the other hand the user must press the head (pressure part) of the mechanical spring retainer of the cartridge with the failed gas engine to extract it. It is impossible to carry out the specified extraction of the cartridge with the failed gas engine with the one hand of the user when firing due to the location of the heads of the mechanical spring clips behind the trigger guard of the weapon body beyond the reach of the fingers holding the weapon and the need to press them to extract the cartridge perpendicular to the longitudinal axis of the weapon from the bottom . Due to the need to use both hands of the user in the event of a gas engine failure, the time for reloading with a new cartridge instead of the used one is increased, since the user is forced to use the second hand first to extract the used cartridge and only then to install a new cartridge in the weapon. Considering the more than 25 years of widespread practice of using TESA by the US police, it is known that in many cases of stopping the aggressor’s aggression, the law enforcement officer uses his second hand to hold handcuffs, a flashlight or firearms and thus simply physically cannot quickly use it to extract a shot cartridge for subsequent recharging with a new cartridge. The drawback of the TESA prototype is also the lack of the function of arresting (seizing) the offender, which function is considered standard in TESA models manufactured by the world's leading TESO manufacturer Axon Enterprise, Inc. The arrest function is carried out in all Axon Enterprise, Inc. DESHO models. in which firing cartridges after firing, hitting a target, and releasing the trigger of a DESO by a user of a DESO are not automatically extracted from DESO, but are removed from DESO only manually. In such TESWs, when the trigger is released after a shot is fired and the conductors hit the target, the fired cartridges are not automatically removed from the weapon and connected to the TESHO with the conductors before manually removing the fired cartridge, and the voltage of the damaging current is applied to the target even after releasing the trigger during the timer (up to 5-15 s), depending on the specific DESHO model or destination (police or civilian). Thus, the law enforcer hits the target, releases the trigger, puts the DESO on the ground and while the timer delivers the damaging electric current to the target and the target is immobilized, it puts handcuffs on the immobilized offender. In this way, in the United States for more than 20 years, the majority of arrests (seizures) of offenders have been carried out using DESO. In Russia, however, TESA with the properties of the possibility of making an arrest in the arsenal of the security services has not yet been received. In the DESHO prototype, the cartridges are automatically extracted after the trigger is released, the mode of continuing the operation of the electric circuit of the damaging voltage of the electric current after releasing the trigger is also not provided, therefore, the arrest of the offender with the release of weapons from the user's hands and release of both hands for arrest actions is impossible.

The number of charges of firing cartridges of more than 2 is currently recognized as excessive for DESO. Company "Axon Enterprise, Inc." previously produced a Tesla X3 DESHO model for three firing cartridges. However, the use of three firing cartridges increases the dimensions of the weapon in thickness to unacceptable for comfortable wearing in a holster on the body by law enforcement officers. Currently, the release of the Taser X3 model is discontinued, because based on the experience of using Taser X3 in U.S. law enforcement agencies, US law enforcement officials and the Department of Justice believe that in police practice, two-shot TESA models such as Taser X2 and Taser 7 are enough.

As follows from the many and many years of practice by the US police, the use of TESAW in most cases, the use of multiple-charge TESAA applications, a second shot at a target is carried out if for some reason the first shot does not hit the target (missed target with one or two current leads, breakdown of the current lead, probes falling into thick folds of clothing, etc.). That is, the second shot is used mainly as a reserve or spare, although it can be used to defeat the second offender after the first (Taser X2). In order to reliably defeat an aggressive and armed target in order to exclude the possibility of a target not being hit with one cartridge and losing law enforcement time to realize that the target was not hit (with the corresponding ability of the offender to use a weapon), quick shots are used at the target with two cartridges one after the other (double shot) as well in the usual practice of using firearms in US law enforcement agencies (the destruction of a single target by several quick-firing shots at once). However, quick reloading with new cartridges instead of those shot in the Taser X2 and Taser 7 models is not possible since the used cartridges from the weapon are not automatically removed after firing and need to be removed with the user's second hand.

In the multi-charged DESHO prototype, double hitting a target with quick successive shots is impossible, since when releasing the trigger after firing, cartridges with current leads to the target are automatically extracted from the weapon.

The proposed utility model allows to eliminate the disadvantages indicated for the prototype, thus expanding the arsenal of the possibility of effective application of DESO.

Disclosure of the essence of the utility model.

The technical result of the proposed utility model consists in eliminating the disadvantages inherent in both the TESO prototype and the best world-class TESOs of Axon Enterprise, Inc., namely, obtaining a multiply charged TESHO with increased reliability and operational efficiency consisting in eliminating the effect of DESO bypass after firing, acceleration the speed of reloading weapons in case of failure of automatic extraction of used cartridges, the ability to use low-cost shooting cartridges, the possibility of hitting armed targets with two pairs of conductors at the same time, and the possibility of arresting the offender.

This goal is achieved in that the multiple-charged remote stun gun contains a housing, an electric power source, an electronic circuit generating a high-voltage striking target, an electric current voltage, a trigger element, firing cartridges with throwable current conductors and pyrotechnic devices for fixing cartridges from the weapon body located in firing cartridges, spring extractors of firing cartridges , an electronic sequence for initiating firing cartridges and has at least one mechanical firing cartridge lock with a muscular drive for forced release of the firing cartridge from the weapon body acting from the user's finger holding the weapon, at least one mechanical cartridge lock being activated from automatic firing from the weapon body with a muscular drive acting from the user's finger holding a weapon and the time control of the electronic circuit generating high voltaging target striking electric current voltage independent of the position of the trigger element after the shot.

An additional feature of the claimed device is also that the clamp for forced release of the cartridges from the weapon body is driven by an engine with a movement longitudinal with respect to the weapon body.

An additional feature of the claimed device is also that the clamp for forced release of the cartridges from the weapon body is driven by an engine with a movement transverse to the weapon body.

An additional feature of the claimed device is that the latch forced release of cartridges from the body of the weapon is driven by an engine with a rotary movement.

An additional feature of the claimed device is that the electronic circuit of the order of initiation of the firing cartridges has a switch-selector of the order of initiation of firing cartridges.

The utility model is illustrated by drawings, which depict:

FIG. 1. and FIG. 2. - Appearance of DESHO charged with firing cartridges and firing cartridges.

FIG. 3. - DESHO before the shots with the half of the case removed (internal wiring is not shown) and two types of half of the case with a rotary forced extraction engine.

FIG. 4. - DESHO during the second shot (the first firing cartridge is extracted after the shot) with half of the body removed and two cuts of the trigger housing to various depths.

FIG. 5. - DESHO after a shot with the included forced fixation of the cartridges in the housing (push part 4 and drive-pusher 16 and removed).

FIG. 6. The device of the firing cartridge.

FIG. 7. Low cost firing cartridge and its cut.

FIG. 8. Experienced DESHO with cartridges and with half of the case removed.

Implementation of a utility model.

FIG. 1. and FIG. 2. DESHO consists of case 1 assembled from two symmetrical halves, in the pocket (front hollow cavity for accommodating the firing cartridges) of the case there are firing cartridges fixed in the case 1 when charging 2. On each side of the case there are 3 forced manual release firing cartridges 2 from housing 1 and push parts 4 of the locks of the forced fixation of the cartridges in the housing 1.

The trigger 5 is designed to trigger a DESO electronic circuit generating shocking high-voltage electric current pulses, initiating shots of the firing cartridges 2 and fixing them in the housing 1 during a shot and the time during which the target is struck by electric current, and also to release the cartridges from the housing after the shot. The firing cartridges 2 do not fundamentally differ from the firing cartridges of RU Patent No. 2462678 but have a gas engine which, unlike the cartridges of RU Patent No. 2462678, when firing, does not extend the protrusion from the cartridge, but pushes the movable protrusion 6 on the cartridge 2 into the cartridge housing flush with forming a cartridge case. On the cartridge case, a recess 7 for fixing the cartridge in the case 1 with a trigger 5 and a recess 8 forcing the force in the case 1 are also provided. Electrodes 9 and 10 are located on the front end of the case 1. A removable battery 11 is located in the DESO grip, and a fuse 12 is located in the end of the case 1 and buttons 13 for controlling DESHO operation modes and a display indicator 14 of the operation of electronic weapon systems can be located.

FIG. 3. The firing cartridge 2 is fixed in the housing 1 by its movable protrusion 6 with a movable spring-loaded latch 15 (located in each half of the housing 1) moving vertically downward relative to the weapon casing when interacting with a spring-loaded pusher drive 16 (also located in each half of the housing 1) and connected to the engine 3. When you press the finger of the user’s hand on the engine 3 and move the pusher drive 16 forward relative to the weapon body, it interacts with the latch 15 moving it down relative to the weapon body and the movable protrusion 6 is released from the latch 15 and the cartridge is ejected (extracted) from the weapon case by one of two spring-loaded ejectors 17 (extractors) located in the case 1, (see Fig. 4) the ejecting springs of which are compressed by the cartridge cases when loading the cartridges into the pocket for placing the weapon cartridges. Thus, when pressing the engines 3 with the thumb or index finger of the hand holding the weapon, it is possible to force discharge the weapon from the cartridges loaded into it if it is necessary to discharge the weapon (for example, for storage) or to force the shot cartridge to be extracted after a shot in the event of a gas failure of the movable protrusion drive gas engine 6 and, accordingly, the failure of automatic extraction of the shot cartridge after releasing the trigger 5.

In case 1, there is an electronic circuit 18 generating a high-voltage striking target with an electric current voltage that includes both a part and an electronic sequence for initiating firing cartridges, a timer for controlling the time it takes to produce a striking target, and, if necessary, a display indicator 14 of the electronic circuit, battery (and other information about the work of weapons) and the battery 11 power DESHO.

5. The latch 15 may have a drive as from the engine 3 (buttons) with a longitudinal movement relative to the length of the weapon and from the engine with a transverse movement or with a rotary movement of the engine around a certain axis. Longitudinal, transverse or rotary movement of the engine relative to the body of the weapon determined by the designer. In the two lower views of FIG. 3 (reduced views) shows a type of weapon with a rotary engine having on the inner side of the half of the weapon body a rotary lever interacting with a notch of the drive-pusher and when the rotary engine moves the drive-pusher to unlock the cartridge latch. It is clear that both the pivoting movement and the transverse movement of the engine can be transmitted to the latch 15 by simple devices that are generally applicable and understandable to any specialist in mechanical engineering in the form of levers, inclined planes, pinion gears, or combinations thereof.

FIG. 4. When you press the trigger 5 to fire a shot, with his front protrusion, he acts on the part 19 which, with its front tooth, enters the recess 7 of the cartridge fixation. At the final course of the trigger 5, he with his back ledge includes a clock button 20 which starts the electronic circuit 18 which generates a high-voltage target striking an electric current voltage and a low-voltage electric current initiating a propellant charge of a pyrotechnic substance of a cartridge that throws current wires at a target. At the time of the shot, the gas engine of the cartridge moves the cartridge part 21 having a protrusion 6 on the back of the cartridge inside the cartridge so that the protrusion 6 disengages from the spring-loaded latch 15 and is prevented from being extracted from the weapon body by the spring-loaded ejector 17 only by the tooth of the part 19 included in the recess 7 of the cartridge latch . After hitting the target, the user releases the trigger 5, the tooth of the part 19 leaves the recess 7 and the fired cartridge is released from the housing 1 with extraction of the cartridge with the conductors thrown into the target from the housing 1 by the ejector 17 under the action of a spring compressed by loading the weapon with the cartridge cartridge.

FIG. 5. If it is necessary to fire two quick successive shots (duplicated shots) at the offender to increase the reliability of the defeat or arrest of the armed offender, taking into account the likelihood of a possible failure of immobilization due to the likelihood of a breakdown of the conductor or non-securing of the conductor to the target during the first shot, a TESA law enforcement user the beginning of the shooting, presses the pressure parts 4 of the locks for forcing the cartridges in the case 1 with the index finger of the hand holding the weapon, moving them upward relative to the case of the weapon. The lock bolts 22 (connected to the press part 4) enter the recesses 8 of the cartridge for forced fixation in the housing 1. In this case, even with the protrusion 6 (as shown in Fig. 5) and the trigger 5 released, the cartridge 2 remains in weapons, that is, automatic extraction of a shot cartridge does not occur, which makes it possible to hit the target with the current conductors of two cartridges and to electrically act on it during the time the trigger is held down. If it is necessary for the offender to be arrested, the user must press on the pressure parts 4 of the locks 22 for forcibly fixing the cartridges in the housing 1 and, using one of the buttons 13, switch the operation mode of the weapon to the operation mode of the timer for continuing operation of the electronic circuit 18 for a specified time or intermittent feed mode the established algorithm for supplying current and pause to restore the cardiorespiratory functions of the bio-target) of the high-voltage striking target electric current to the bio-target after releasing the trigger. The button for transferring the operation of the electronic circuit to arrest mode can be connected mechanically or electrically to the lock 22 or the press part 4 of the locks (for example, by means of a magnetic element fixed in the lock 22 or part 4 and a reed switch located in the housing 1 and connected to the button or electronic part 18 of the weapon ), included when transferring the press part 4 to the arrest mode. This mode of operation of the DESHO allows you to hit the target with one or two shots, put the weapon with the working striking part of the electronic circuit 18 on the ground and arrest the offender with handcuffs on him. Extraction of the used cartridges is carried out by pressing the finger of the 4 locks with the index finger moving them down relative to the weapon body.

If it is necessary to demonstrate a spark electric discharge to the offender to relieve his aggression or to use the contact method (without firing), the user, using one of the buttons 13, turns off the operation of part of the electronic circuit 18 responsible for the sequence of initiation of firing cartridges for the shot. In this case, the low-voltage voltage of the electric current that initiates the pyrotechnic charge of the firing cartridge is not generated and is not supplied to the electrical contacts 23 (see Fig. 4) of the electrical initiation of the pyrotechnic charge of the cartridges. When the indicated part of the electronic circuit is disconnected from operation by pressing the trigger 5, the electronic circuit 18 generates a striking electric current voltage with the formation of a visible spark discharge between the electrodes 9 and 10 when the electrostatic discharge is demonstrated or when the electrodes 9 and 10 come in contact with the bio-target body, it produces an immobilizing effect. If necessary, DESHO can have a switch-selector for operation of a part of the electronic circuit of the sequence of initiation of firing cartridges (in the form of, for example, buttons). The selector switch can switch the production of the first shot from the right cartridge to the left or vice versa. This function is used to conveniently charge (recharge) a new cartridge instead of a shot one, depending on the user's right-handedness or left-handedness, since it is more convenient to reload a weapon with one extracted cartridge with the hand that is closer to the side of the weapon with the cavity of the extracted cartridge.

The DECHO is charged by introducing cartridges 2 into the front pocket of the housing, while the ejection springs 17 are compressed to ensure the cartridges are extracted from the pockets after the shot or when the DECO is discharged. When cartridges are inserted into the pocket, the projections of the 6 cartridges press down the spring-loaded clips 15 which, when the cartridges are fully inserted into the pockets, snap onto the protrusions 6, fixing the cartridges in the housing 1. The weapon is discharged by pressing the sliders 3 and thus one manual device for unlocking the cartridges from the housing weapons performs both the function of a device duplicating automatic extraction and the function of a device for discharging weapons.

FIG. 6. Cartridge housing 24, plug 25, part 21 with protrusion 6, piston with plug 26 of a gas engine, gas channels 27, pyrotechnic charge 28 with electric ignition, throwing probes 29 with conductive wire, window 30 of movement of part 21 with protrusion 6. When voltage is applied electric current to the pyrotechnic charge 28, it is initiated and the gases generated by the combustion gases of the charge pass through the channels 27 into the barrel channels of the cartridge, throwing the probes 29 with the current lead to the target. At the same time, the combustion gases of the charge act on the piston with a plug 26 with a fork having bevels which, interacting with the reciprocal bevels of the part 21, lower it in the window 30 so that the protrusion 6 of the part 21 protruding above the forming surface of the housing 24 before the shot is lowered flush with the surface forming the housing 24 . In this case, the cartridge is released from the latch 15 and, accordingly, from the body 1 of the weapon.

FIG. 7. The proposed weapon can also use low-cost firing cartridges that do not have a plug 25, a piston with a plug 26, and parts 21 that require high precision manufacturing and accordingly increase the cost of a shot. The low-cost shooting cartridge 31 has a protrusion 6 integral with the cartridge case and does not have a recess 8. When shooting with such a cartridge from a weapon, automatic extraction does not occur, but the weapon user having the necessary training skill to use forced extraction of the used cartridge using the engines 3 can extract the used cartridge almost at the same speed as with automatic extraction. Moreover, for the production of a duplicated shot or arrest, it is no longer necessary to use locks 22 with pressure parts 4, which simplifies the use of weapons.

Technical implementation.

FIG. 8. Appearance of an experimental DESHO made by 3D prototyping with cartridges milled on a CNC machine. DESHO assembled and with the half of the case removed.

List of cited sources:

1. https://help.axon.com/hc/en-us

https://global.axon.com/products/taser-x2;

https://global.axon.com/products/taser-7

https://www.taser.com/

2. Ladyagin Yu.O. "Remote electric shock weapon" M.: Publishing house of the Stalingrad fund, 2017, p. 173.

Claims (5)

1. Multiply charged remote stun guns containing a housing, an electric power source, an electronic circuit generating a high-voltage striking target, an electric current voltage, a trigger element, firing cartridges with throwable conductors and pyrotechnic devices for decrypting the cartridges from the weapon body located in firing cartridges, spring firing cartridge extractors, an electronic sequence for initiating firing cartridges, characterized in that it has at least one mechanical firing cartridge lock with a muscular drive for forcing the firing cartridge from the weapon body, acting from the finger of the user’s hand holding the weapon, at least one mechanical cartridge cartridge detachments from the body of the weapon with a muscular drive, acting from the finger of the user’s hand holding the weapon and the operating time control of the electronic circuit generating a high-voltage a distinct electric shock voltage, which does not depend on the position of the trigger element after the shot. 2. Weapons according to claim 1, characterized in that the latch for forced release of the cartridges from the weapon body is driven by an engine with a movement longitudinal with respect to the weapon body. 3. Multiply charged remote stun gun according to claim 1, characterized in that the latch for forced release of cartridges from the weapon body is driven by an engine with a movement transverse to the weapon body. 4. Multiply charged remote stun gun according to claim 1, characterized in that the latch for forced release of the cartridges from the weapon body is driven by an engine with rotary movement. 5. Multiply charged remote stun gun according to claim 1, characterized in that the electronic circuit of the order of initiation of firing cartridges has a switch-selector of the order of initiation of firing cartridges.

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