RU197692U1 - Remote electroshock weapon with the extraction of firing cartridges with one hand - Google Patents

Abstract

The utility model relates to non-lethal police and civilian remote electroshock weapons (DESHO). The technical result consists in obtaining a multiply charged DESHO with increased reloading speed, eliminating the possibility of bypassing the DESHO after the first shot, the possibility of quickly reloading the DESHO with a new cartridge instead of one shot. Remote stun guns with firing cartridges have firing cartridge latches with the ability to unlock firing cartridges from the body of the weapon with one user’s hand holding the weapon, spring firing cartridge extractors and a switch-selector for initiating firing cartridges. 4 s.p. f-ly, 7 ill.

Description

The technical field to which the utility model belongs.

The utility model relates to a multiple-charge remote stun gun (DESHO), with an electric weapon for law enforcement and self-defense of citizens.

The level of technology.

The well-known DESHO TASER X26 [1] of the Taser Int. Company, the leading company in the field of electroshock weapons, was chosen as an analogue. (currently owned by Axon Enterprise, Inc. USA), the most prevalent DESO in the world. DESHO TASER X26, made in the form of a pistol, is designed to temporarily disable biological targets (target, offender, bio-target) by electric shock at a distance or in direct contact with the target. A target is hit at a distance by using a firing cartridge that shoots two probes with targeting devices (needles with barbs), each of which is connected using an insulated wire (current lead) to the corresponding current supply electrode of the cartridge. The current-supplying electrodes of the cartridge are electrically connected to contact (combat) DESHO electrodes that go to the front end of the DESO, to which, when starting the DESO, a high-voltage striking target is supplied with an electric voltage from the electronic high-voltage unit contained in the weapon. The firing cartridges have a starting charge of a pyrotechnic substance, initiated from a high-voltage target that strikes the target with an electric current supplied to it through the DESO contact electrodes connected when the cartridge is charged in the DESO cartridge with the shot current paths of the cartridge. The charge is ignited and, using a cutting device, depressurizes the container with compressed gas, which throws probes with conductors into the target. The cartridge is rigidly attached to the DESO using a mechanical lock-latch located on the cartridge. A target is defeated at a distance when the electric circuit is closed through the bio-target body by means of conductors connecting DESHO contact electrodes, to which a high damaging voltage of the electric current is supplied, with conductors with probes thrown at the target. The defeat of the bio-target by the contact method (contact) is carried out with direct interaction (pressing against the body) of the DESHO contact electrodes with the bio-target body without a shot.

The specified DESHO has the following disadvantages. In order to make a second shot, for example, in case of a miss or in order to hit another target, it is necessary to disconnect the shot cartridge and insert a new cartridge into the DESO. Fixing a cartridge in DESO using a mechanical lock that can be opened only with the use of both hands of a law enforcer (user) takes several seconds to reload the DESO with a new cartridge and fire again. In order to use TESA in direct contact with the target, you must first disconnect the cartridge, because when you start TESA with an attached cartridge, a cartridge shot is always triggered. This is due to the fact that the cartridge is triggered for firing by a high voltage target striking an electric current voltage when the potential of this current appears on the DESO contact electrodes. This property is an obstacle to the quick use of DESO with a cartridge loaded into it in situations where the first contact with the target occurs at close range and a shot from an extremely short distance is undesirable, since it can cause serious mechanical injury to the target.

The analogue’s disadvantage also lies in the impossibility of demonstrating a combat discharge to the enemy without a shot (for the purpose of psychological impact to reduce aggressiveness before using contact or shooting) or contact use with an attached cartridge, since when supplying a striking high-voltage potential to DESO combat electrodes, to which current-carrying conductors are always adjacent electrodes of the cartridge, immediate initiation of the propellant charges of the cartridge followed by firing. It is well known that in the event of a threat of a user using electroshock weapons with a demonstration of a striking electrospark discharge, accompanied by a characteristic noise, and spark sparks in many cases, the aggressor stops aggressive actions, realizing that he will have to deal with electricity and, consequently, subsequent pain. It is also known that aggressive animals (for example, dogs) almost always stop aggression when a person demonstrates electric discharges. Thus, the DESHO analogue can be used in contact (or a demonstration of a combat electric discharge was made) only with a firing cartridge detached from the weapon, which excludes its quick remote use if necessary.

As a prototype, the latest TESO Taser 7 [2] model of Axon Enterprise, Inc. was selected USA), made in the form of a pistol, consisting of a housing in which an electronic part with an electronic high-voltage assembly is placed, which strikes the target with an electric current and a special pocket (cavity in the front of the weapon), in which two firing cartridges are placed (in the form of a “cartridge pair” see below). The firing cartridges are installed in the housing and held in it by means of a mechanical lock-latch located in the weapon casing. Cartridges are in contact with DECHO contact electrodes. In contrast to the analogue, firing cartridges have a starting charge of pyrotechnic substance, initiated not by a high-voltage target striking an electric current voltage, but by a low-voltage electric current supplied through special cartridge launch contacts located on the end of the cartridge facing the weapon on the charge igniter when the trigger is pressed. When fired, as in the analogue, the compressed gas from the depressurized container located in the cartridge throws current conductors at the ends of the probes with barbs holding them on the target’s clothing. Since the cartridge is not triggered for firing by a high-voltage target striking an electric current voltage when the potential of this current appears on the DESO contact electrodes, but as a separate low-voltage circuit, supplying a high-voltage voltage to the cartridge conductors does not cause their initiation with a subsequent shot. Thus, the DESHO prototype, in contrast to the analogue, can be used contactlessly without shots and demonstrate a striking electric spark discharge with firing cartridges attached to the DESHO. 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 prototypes in comparison with the DESO-analogue is the possibility of firing shots at the target with two cartridges one after another (double shot).

As follows from the repeated and long-standing practice of the US police using multiple-shot DESHOs, a second shot at a target is carried out if the first shot for some reason does not hit the target (missed target with one or two current leads, an open lead, rebound of probes from solid objects worn on clothing, probes getting into thick folds of clothing and other causes). The disadvantage of the prototype is that the firing cartridges are connected to the weapon with a snap-lock and after the shot are not automatically separated from the weapon. On the line of the next shot, there may be current leads that are already reaching the target from the previous shot, which will inevitably change the trajectory of the probes of the second shot, and they will not hit the target even if they are correctly aimed at the target. The disadvantage of the prototype is also that the used cartridges for reloading weapons have to be removed from the DESO, using both hands of the user to open the latch lock. Removing a shot cartridge after a shot is not provided automatically or with one user’s hand holding a weapon. Thus, to reload weapons, if necessary, to continue to shoot quickly, the user loses time to remove the fired cartridge using both hands. 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, therefore, simply cannot physically quickly use it to extract the shot cartridge for recharging with a new cartridge.

Since DESHO according to the proposed utility model is supposed to be produced and used, first of all, in Russia it is worth pointing out one more property of the prototype, which is a disadvantage for using such a DESHO in our country. In Russia, there are currently no technologies for the production of analogues of the high-voltage DuPont ™ Tefzel ® ETFE current lead [3] with an electric insulation strength of 11-16 kV AC (for one core) used in the Axon Enterprise, Inc. DESO of the company. The conductors of all without exception the Russian DESHO models used in the Russian Federation are a common 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 multicore core wires). Therefore, in the case of crossing (contacting) DESHO conductors used by the police and citizens in the Russian Federation with the voltage of a high-voltage striking 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 the bypass of the target striking electric current, that is, bypassing the operation of the electronic high voltage the purpose of the electric current by the closed current path of the first shot and the termination of the damaging effect of the electric current on the target. The intersection of the conductors of all currently used models of remote stun guns in Russia is almost always literally in 0.5-1 s of exposure. In this case, even when you try to use a hypothetical multiply-charged DESHO (which in Russia at present is not armed with police and citizens at all), there will be no damaging effect on the target after the second shot. In addition, the intersection of the conductors of the first shot occurs without fail and when the probes do not hit the target with the subsequent fall of the conductors to the ground. To re-shoot at a target unaffected by the first shot with shunted conductors, it is necessary to quickly extract the shot cartridge of the first shot with crossed conductors. In the prototype weapon, the extraction of one cartridge after the first shot cannot be made due to the connection of the two cartridges in the form of a "cartridge pair" (see below). But even the extraction of the "cartridge pair" of cartridges can be done only with two hands of the user. Due to the need to use both hands of the user for extraction, the time for producing a second shot is increased, and reloading with a new cartridge instead of one shot is impossible without extraction of the second cartridge that is still not shot. The inability to recharge with a new DESHO cartridge after the first shot, if the second shot was temporarily not needed, results from the fact that the cartridges are removed from the prototype when the lock-latch button is pressed for the same cartridge for both cartridges and the cartridges are connected together as a single cartridge pair. " Removing only one used cartridge is not possible. Cartridges are removed from the weapon case only when both cartridges (“cartridge pair”) are grabbed with one hand from the side surfaces, the latch lock button is pressed with the second hand, and the “cartridge pair” is removed with the second hand. Recharging a “cartridge pair” with a new cartridge to replace one shot cartridge from a pair is only possible when the cartridges are disconnected and a new cartridge is replaced by a new cartridge to replace the cartridge, that is, again the formation of the “cartridge pair”, which is already being charged in the pocket (front hollow cavity for placement of the firing cartridges) of the DESO housing.

The proposed utility model allows to eliminate the disadvantages indicated for the prototype, thereby increasing the efficiency of using the multiply charged DESHO.

Disclosure of the essence of the utility model.

The technical result of the proposed utility model consists in obtaining a multi-charged TESA with increased reloading speed, eliminating the possibility of bypassing TESA after the first shot, the possibility of quick reloading of TESA with a new cartridge in exchange for one shot with correspondingly increased reliability and efficiency of operation of the reliability of the impact.

This goal is achieved in that the 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, at least one firing cartridge with throwable current conductors located in the firing cartridge, an electronic circuit for initiating firing cartridges, has at least one mechanical lock of the firing cartridges with a muscular drive for unlocking the firing cartridge from the weapon body, acting from the finger of the user's hand holding the weapon, and at least one spring extractor of the firing cartridge.

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

An additional feature of the weapon is that the latch has a cartridge release drive from the finger lever with a rotary movement. An additional feature of the weapon is that the latch has a cartridge release drive from the finger engine with a longitudinal movement relative to the weapon body.

An additional feature of the weapon is that the latch has a cartridge release drive from the finger slide with a transverse movement relative to the weapon body.

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) with a rotary forced extraction lever.

FIG. 4. - DESHO after the second shot (one firing cartridge is extracted after the shot) with half of the body removed and the body of the trigger mechanism cut.

FIG. 5. - DESHO during the extraction of the cartridge (with the half of the case removed), the left cartridge is almost extracted from the weapon body.

FIG. 6. - The device of the firing cartridge.

FIG. 7. - General view and view with the half of the DESHO body removed with an engine for longitudinal movement of forced extraction.

Implementation of a utility model.

FIG. 1. and FIG. 2. DESHO consists of a casing 1 assembled from two symmetrical halves, in the pocket of the casing there are shooting cartridges fixed in the casing 1 during charging 2. On each side of the casing there are pivoting levers 3 for manually unlocking the firing cartridges 2 from the casing 1.

The trigger 4 is designed to trigger a DESO electronic circuit that produces striking high-voltage electrical current pulses and initiates shots of firing cartridges 2.

On the front end of the housing 1 there are contact electrodes 5 (electrically connected together) and 6. There is a removable battery 7 in the DESHO handle, at the end of the housing 1 there is a fuse 8 and buttons 9 for controlling the operating modes of the DESO and a display indicator 10 of the operation of electronic weapons systems .

FIG. 3. The firing cartridge 2 is fixed in the housing 1 by its protrusion 11 (see also Fig. 1 and Fig. 2) with a movable spring-loaded latch 12 (located in each half of the housing 1) moving vertically downward relative to the weapon body when interacting with a spring-loaded pusher drive 13 (also located in each half of the casing 1) and in turn interacting with the carrier 14 (also located in each half of the casing 1), connected by an axis through the wall of the casing 1 with a lever 3 (also located in each half of the casing 1). When the user's finger presses the lever 3 downward relative to the weapon body, it rotates by rotating the carrier 14 connected to it, which, interacting with the recess of the drive-pusher 13, moves the drive-pusher 13 forward relative to the weapon body, while it interacts with the latch 12, moving it down relative to the weapon casing, as a result of which the protrusion 11 of the cartridge 2 is released from the latch 12 and the cartridge is pushed (extracted) from the weapon casing by one of two spring-loaded extractors 15 located in the casing 1 (see Fig. 4), the ejecting springs of which are compressed cartridge cases when loading cartridges into the pocket of the placement of cartridge weapons. Thus, when the lever 3 is pressed with a finger with only 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 subsequent storage), and force extraction of the shot cartridge after the shot if quick extraction is necessary used cartridges. Thus, the use of the second hand of the user for the extraction of cartridges is not required.

An electronic circuit 16 is located in the housing 1, which generates a high-voltage target that strikes electric current, including an electronic sequence for initiating firing cartridges, and, if necessary, a display indicator 10 of the electronic circuit, battery (and other information about the operation of the weapon), and a power battery 7 electronic circuit 16.

FIG. 4. When you press the trigger 4 at its final stroke, it includes a clock button 17 with its rear protrusion, which starts the electronic circuit 16, which generates a high-voltage target striking an electric current voltage and supplying a low-voltage electric current to an initiating propellant of a pyrotechnic substance of the first (for example, left relative to the firing line, with the appropriate setting the sequence of initiation of the firing cartridges for firing (see below) the cartridge that throws the target conductors.After hitting the target, the user releases the trigger 4, the rear protrusion of which releases the clock button 17 and the electronic circuit 16 stops working. To produce the next shot, the user presses the trigger again, and the electronic circuitry cycle is repeated, but the low-voltage electric current, which initiates the propellant charge of the pyrotechnic substance of the cartridge, is already supplied to the second cartridge (for example, the right one) , i.e. switching of the initiating pyrocharge electric current voltage to the next cartridge occurs.

In the context of the weapon of FIG. 4, in the state of the left cartridge that has already been extracted from the weapon, one of the extended extractors 15 is shown, designed to extract the cartridges when the user's hand presses the lever 3 for manually unlocking the firing cartridges 2 from the housing 1 with its spring 18.

The DESHO is charged by introducing the cartridges 2 into the front pocket of the housing, while the springs of the extractors 18 are compressed, which ensure the extraction of the cartridges 2 from the pockets after the shot or when the DECO is unloaded. When cartridges are inserted into the pocket, the protrusions of the 11 cartridges squeeze down the bolts (upper ends) of the spring-loaded clamps 12, which, when the cartridges are fully inserted into the pockets, snap onto the protrusions 11, fixing the cartridges in the housing 1.

FIG. 5. Extraction of the used cartridge (or unloading of weapons for subsequent storage) is done by pressing the lever 3. At the same time, the latch 12 under the action of the drive-pusher 13, advanced forward relative to the weapon body with the carrier 14, lowers its bolt relative to the weapon body (upper ledge), ceases to interact with the protrusion 11 of the cartridge 2 and the cartridge under the action of a compressed spring when loading a cartridge with a cartridge spring 18 is vigorously pushed by the extractor 15 from the pocket of the weapon body. The mechanism of extraction of the second cartridge acts in a similar manner.

Thus, the device for manually unlocking cartridges from the weapon body performs both the function of the device accelerating extraction during firing (and, accordingly, the speed of reloading the weapon with new ammunition), and the function of the device for discharging weapons for its subsequent storage. The required force when pressing the lever 3 is set by the force of the return springs of the latch 12 and the drive-pusher 13.

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 9 disables the operation of the part of the electronic circuit 16, which is responsible for the sequence of initiation of firing cartridges for the shot. In this case, the low-voltage electric current that initiates the pyrotechnic charge of the firing cartridge when the trigger is pressed is not generated and is not supplied to the electrical contacts 19 (see Fig. 4) for electric initiation of the pyrotechnic charge of the cartridges. When the indicated part of the electronic circuit is disconnected from operation by pressing the trigger 4, the electronic circuit 16 generates only a striking electric current voltage with the formation of a visible spark discharge between the electrodes 5 and 6 when the electric discharge is demonstrated, or when the electrodes 5 and 6 come in contact with the bio-target body, it immobilizes the target impact.

Unlike the prototype, where it is impossible to reload weapons with a new cartridge in exchange for one fired cartridge, reloading between shots in the proposed weapon is possible. The electronic cartridge initiation circuit 16 has a switch-selector for initiating the shooting of cartridges for the first shot from the right cartridge to the left or vice versa, switchable using one of the buttons 9. The ability to switch the order of initiation of the shooting cartridges allows the right-handed or left-handed user equally conveniently and accordingly quickly extract the used cartridge and replace it with a new one. Switching the order depending on the user's leading hand allows the right-handed or left-handed user to set the cartridge initiation position on the weapon, which makes it easier (and therefore faster) to reload the weapon with one hand shot and extracted cartridge, which is closer to the side of the weapon with a pocket from which it is already extracted cartridge.

FIG. 6. The power housing 20 of the cartridge 2, the protrusion 11, the plug 21, split plugs of the barrel channels 22, gas channels 23, a pyrotechnic charge 24 with electric ignition, missile probes 25 with a current lead. When a low-voltage electric current is supplied from the electronic circuit 16 to the pyrotechnic charge 24, it is initiated and the gases generated by the combustion gases of the charge pass through the channels 23 into the barrel channels of the cartridge, throwing the probes 25 with the current lead to the target. FIG. 7. The latch 12 can be driven by either a pivot arm 3 or a push engine (or button) with a longitudinal movement relative to the DESO body, and a push button with a lateral movement relative to the DESO body. The rotational longitudinal or transverse movement of the part (lever, slider, button) moving the drive-pusher drive of the latch 12 relative to the weapon body is determined by the designer. In FIG. 7 shows a general view and a view with the half removed of the DESO building with the engine of longitudinal movement relative to the DESO building.

Case 26 DESHO, engine 27 longitudinal movement, drive-pusher 28, latch 12, cartridge 2.

The operation of the cartridge extraction mechanism does not differ from the previous figures described, except that for the extraction of the cartridge, the user's finger holding the weapon longitudinally relative to the housing 26 presses the engine 27 rigidly connected to the drive-pusher 28 through a slot in the wall of the housing 26 The drive-pusher 28 interacts with the latch 12 in the same way as in the above figures. In this case, the latch 12 is disconnected with the protrusion 11 of the cartridge 2, and the extractor with the spring compressed during the loading of the weapon by the cartridge 18 pushes the cartridge out of the weapon body, producing extraction.

It is clear that the force for unlocking the latch 12 can also be transmitted to it from the lateral movement of the engine or button pressed by the user's finger holding the weapon relative to the DESO body. Such a transfer is carried out generally applicable and understandable to any both a technical specialist and a schoolboy by simple devices in the form of levers, inclined planes, pinion gears or their combinations. In the text of the claims, the term "finger lever or slider" is used i.e. an actuator for a release mechanism driven by a finger of a user's hand holding a weapon.

List of cited sources:

1. https://www.axon.com/products/taser-x26p

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

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

Claims (5)

1. Remote stun guns containing a housing, a power source, an electronic circuit that generates a high voltage target striking an electric current voltage, a trigger element, at least one firing cartridge with throwable conductors located in the firing cartridge, an electronic circuit for initiating firing cartridges, characterized in which has at least one mechanical lock of the firing cartridges with a muscular drive for unlocking the firing cartridge from the weapon body, acting from the finger of the user's hand holding the weapon, and at least one spring extractor of the firing cartridge. 2. The weapon according to claim 1, characterized in 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. 3. The weapon according to claim 1, characterized in that the latch has a cartridge release drive from the finger lever with a rotary movement. 4. The weapon according to claim 1, characterized in that the latch has a drive for unlocking the cartridge from the finger engine with a longitudinal movement relative to the body of the weapon. 5. The weapon according to claim 1, characterized in that the latch has a drive for unlocking the cartridge from the finger engine with a movement transverse to the body of the weapon.

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