WO2020197439A1 - Firing cartridge and remote-acting electroshock weapon for the use of a cartridge - Google Patents

Abstract

Field of the invention: The invention relates to firing cartridges for non-lethal remote-acting electroshock weapons and to a remote-acting electroshock weapon for the use of such cartridges. Field of use: Non-lethal remote-acting weapon with electrical means of incapacitating biological targets. Technical result: The creation of a firing cartridge for a remote-acting electroshock weapon having an internal source of energy for activating a propellant charge, and technically simple embodiments of remote-acting electroshock weapons, inter alia multiple-charge weapons which are not sensitive to electrostatic discharges and can therefore be used in any atmospheric conditions for direct contact or for showing the incapacitating electrical discharge of a remote-acting electroshock weapon having a firing cartridge connected thereto, said remote-acting electroshock weapons having smaller dimensions. The present firing cartridge has barrel channels with probes and with a conductor disposed in said probes or in cavities, a propellant charge, and a source or generator of electrical or mechanical energy for activating said propellant charge, said source or generator being actuated by an actuating member of the remote-acting electroshock weapon. A remote-acting electroshock weapon for the use of a cartridge has a housing, a source of electrical energy, a generator of high-voltage incapacitating pulses, a generator deactivation switch, pockets for receiving cartridges, or a magazine or a clip well for receiving a plurality of cartridges, an actuating member for acting on the source or generator in order to trigger a shot and on the generator deactivation switch which interacts with the actuating member.

Description

Shooting cartridge and remote electroshock weapon for cartridge use

BACKGROUND OF THE INVENTION The invention relates to firing cartridges of non-lethal remote electric shock weapons (DESHO) and to DESHO for using such cartridges.

State of the art

Known firing cartridge DESHO by RF patent JSf "2351871 [1]. selected as an analogue of the alleged invention. The cartridge consists of an inner plastic case with two barrel channels in which probes (projectiles) are installed with devices for fixing on the target (needles with barbs) and propellants equipped with a pyrotechnic propellant sensitive to a high-voltage electro-spark initiating pulse. The propellant electrodes are connected to each other by a connecting conductor laid outside the inner case. A cavity is located between the barrel channels, divided by a partition into two parts. In each of the two parts of the cavity (pockets) there is a laying of an electric wire (current lead) belonging to one barrel channel, one end of which is connected to one of the probes, and the other to the cartridge body and is a current-supplying electrode. The inner case is placed in the outer case and fastened to it by means of a non-separable connection. When fired, initiated by a combat high-voltage electric spark discharge DESHO supplied to the combat electrodes of the DESHO and then to the propellant charges of the cartridge, the propellant charges accelerate the probes that are ejected from the canals to the target (the offender). During the flight of probes, the current lead is pulled out of the cartridge pockets up to hitting the projectile on the target and securing it with a device for securing to the target

The disadvantage of an analog cartridge is the impossibility of firing one cartridge when another cartridge (or several cartridges) is located close to it. With a close arrangement of cartridges in multi-charge DESHOs, for example, in pockets or in a magazine or in a permanent store, the initiation of the first cartridge causes the initiation of the nearest cartridge and subsequent cartridges, since the length of the high-voltage electrospark destructive discharge is simultaneously the initiating discharge of the cartridge pyrotechnic throwing devices. For effective destruction of targets with an electroshock weapon (breakdown of dense clothing), a significant length of the spark penetration distance through the air is required, equal to 20-40 mm. At the same time, taking into account the sliding discharge inevitably developing on the surfaces of the DESHO (which can exceed the distance of the air spark discharge at the same high voltage potential by more than two times), almost all cartridges in the cage (or cartridges compactly located next to each other in the pockets of the multiply charged DESHO) can be initiated simultaneously with the mechanical destruction of the DESHO body or the simultaneous ejection of all probes at the target. The length of the creeping discharge is increased even further by atmospheric conditions, which create a conductive film or layer on the outer and inner surfaces of the DESHO (for example, wet weather, rain, sleet, fog, sea fog and salt spray). In all these cases, a shot from a multi-charge DESHO with the indicated cartridge device causes an inevitable abnormal operation of all (or most) of the charged cartridges when the first cartridge is initiated.

Thus, the inevitable initiation of neighboring cartridges during the initiation of the first cartridge in the compact DESHO designs forces the distances between the cartridges to increase, which increases the dimensions of the multiply charged DESHO to unacceptable sizes for wearing on the body, which is proved by the practice of using the DESHO in different countries since the invention of the first DESHO in the USA in 1970.

Another drawback of the analog cartridge is the possibility of the cartridge being triggered outside the DESHO (for example, loading or discharging the DESHO with cartridges) when exposed to an electrostatic discharge accumulated on the user's clothing and body. Such an abnormal operation is possible when an electrostatic discharge rushes to any of the current-supplying electrodes, then to a conductive stack of an electric wire, and then through one propellant charge along a connecting conductor to a second propellant charge and to an electric capacity of an electric wire. In this case, both propelling charges are initiated with an abnormal triggering of the cartridge with the ejection of striking probes with sharp needles and possible mechanical injury to the user at close range.

In addition to the listed shortcomings, the DESHO on the analog cartridge does not have the ability to demonstrate the combat discharge to the enemy (for the purpose of psychological impact to reduce aggressiveness before using contact or firing) or contact use with an attached cartridge, since when the combat high-voltage potential is applied to the combat electrodes, the DESHO is always adjacent to and the current-supplying electrodes of the cartridge are followed by the immediate initiation of propelling charges of the cartridge with the production of a shot. Thus, DESHO on an analog cartridge can be used in contact (or a demonstration of a combat electric discharge is made) only with the cartridge disconnected from the weapon, which excludes its rapid remote use if necessary.

Known shooting arthridge DESHO according to RF patent Ns "2 632 ^' " 828 [2], which with a certain degree of similarity can be taken as a prototype. The cartridge consists of a body or an outer and inner body of plastics with two barrel channels in which probes are installed with conductors laying in their cavities and with devices for fixing on targets and propelling charges, equipped with a pyrotechnic propellant sensitive to a high-voltage electro-spark initiating pulse. The initiating electrodes of the propelling charges emerging from the internal barrel cavities of the body are isolated from each other by an elastic or viscoplastic electrical insulating material with a thickness that does not allow its electrical breakdown at an idle potential that damages the high-voltage electric spark discharge DESHO. If a shot is required, the electrical insulating material between the electrodes of the propelling charges is destroyed by piercing it with a conductive needle, while the electrodes are electrically connected and the electrospark pulse passing through the propellant charges initiates them with the production of a shot. Propellant charges accelerate probes that are ejected from the barrel channels towards the target. During the flight of the probes, a conductor is pulled out of their cavities until the projectile hits the target and is secured on it by a fixing device on the target. Such a cartridge arrangement does not have the disadvantages described for the analogue. The disadvantage of such a cartridge device is the need for puncture mechanisms in the DESHO and, in connection with this, an increase in the dimensions of the DESHO itself, where a separate volume should be provided to accommodate the specified mechanism. At the same time, as mentioned above, the DESHO should have dimensions that are acceptable for long-term wearing on the body, and especially the DESHO should not be of a police type, which is used quite often in connection with the official functions of a law enforcement officer, but civilian purposes, which are used very rarely (probably) but should be worn constantly. Another disadvantage of the device of the cartridge under consideration is the technological complexity of the execution of an elastic insulating layer of the required electrical strength with a minimum thickness and conditions to prevent aging of elastic compounds with the loss of elastic properties and properties of the required electrical strength during the shelf life of the cartridges.

A direct prototype of the claimed device from the prior art was not found as a result of a patent search.

Disclosure of invention

The purpose of the invention is to create a DESHO firing cartridge free from the flaws of an analogue and similarity of a prototype, which makes it possible to create technologically simple DESHO samples, including multiply charged ones, insensitive to electrostatic discharges and allowing their use under any atmospheric conditions, with the possibility of contact application or demonstration of a damaging electric discharge DESHO with attached firing cartridge. Also, the aim of the invention is to create samples of a multiply charged DESHO with reduced overall dimensions, resulting from the lack of the need to have additional volumes inside the DESHO body to space the cartridges from each other or to accommodate large-scale cartridge initiation devices for a shot in the DESHO itself.

The essence of the invention lies in the fact that the firing cartridge of a remote electroshock weapon contains a body with barrel channels and projectiles with devices for securing to targets, conductors laid in the projectiles or cavities of the body, at least one propellant charge, a source or generator of electrical or mechanical energy is installed in the body initiation of a propellant charge with electrical or mechanical initiation, which is activated by pressing or impact transmitted from the impact element of a remote electroshock weapon or by moving the cartridge body relative to the remote electroshock weapon by the impact element of a remote electroshock weapon. An additional feature is that the electric power generator is a piezoelectric shock or push type generator.

An additional feature is that the source of electrical energy is an electrical battery or accumulator.

An additional feature is that the mechanical energy generator is a pre-stressed or pre-stressed elastic body before firing.

An additional feature is that the source or generator of electrical or mechanical energy has an intermediate-transfer trigger element for interaction with the element of action of the electroshock weapon.

An additional feature consists in the fact that the source or generator of electrical energy or intermediate transfer starting element is movably sealed.

Remote electroshock weapon contains a housing, a source of electrical energy, a generator of high-voltage destructive impulses, at least one pocket for installing a firing cartridge with a source or generator of initiation of a propellant charge, or a magazine or a magazine for a clip for several firing cartridges, at least one element of the impact of the weapon on the source or a generator for initiating a shot of a firing cartridge by pressing or hitting or moving the cartridge relative to the body of the weapon and a switch of the generator of high-voltage damaging pulses interacting with the impact element.

An additional feature lies in the fact that the element of impact of the weapon is a pusher or rod connected to the trigger, key or kind of ring, interacting with the switch of the generator of high-voltage damaging pulses and b firing cartridge with the ability to disconnect from the firing cartridge when it is extracted from the weapon after firing.

An additional feature is that the impact element is a thrust or pusher, or a feeder connected to an electromechanical actuator by an activated trigger and interacting with the switch of the generator of high-voltage damaging pulses.

An additional feature is that the impact element has an additional elastic element for transmitting the impact to the source or generator of initiation of the firing cartridge or to the firing cartridge.

Brief Description of Drawings

Fig. 1. One of the possible versions of the firing cartridge (appearance, two images).

FIG. 2. One of the possible versions of the firing cartridge (cut, two images).

FIG. 3. One of the possible versions of DESHO (appearance, two images). Top image with firing cartridges removed, bottom image with firing cartridges installed (charged).

FIG. 4. One of the possible DESHO versions (two images, one half of the split case is shown, the other half of the case is removed).

FIG. 5. One of the possible versions of DESHO (when shooting). External view: top image up to the moment of the shot, bottom image at the moment of the shot, the ejected probes and probe plugs are visible. FIG. 6. One of the possible DESHO versions (two images, at the moment of cartridge extraction, the trigger rod bent to extract the cartridge is visible).

FIG. 7. Photographs of the double-charged DESHO of FIG. 3 in comparison with the DESHO of the company "MART GROUP".

Implementation of the invention

Fig. 1. The firing cartridge consists of a polymer body 1 with a polymer cover 2 of the cavity for placing an electric power generator, a polymer engine 3 of an electric power generator, barrel channels 4 with plugs of probes and leads 5 of conductors (see below).

FIG. 2. In the housing 1, barrel channels 4 are made in which probes 6 are placed with a device 7 for holding onto the target (needles with barbs) and laying the current lead 8 in the inner cavity of the probe with leads 5 of the current lead 8 on the outer surface of the housing 1. In the cavity 9 of the housing 1 is located an electric power generator in the considered version in the form of an electric piezo generator 10 of the shock type, one electrode 11 of which is in contact with one of the initiating electrode of the pyrotechnic source of energy 12 of throwing energy with electrospark initiation, and the second electrode of which 13 is located near (with a small spark gap or directly touches) another initiating electrode pyrotechnic source 12 of throwing energy. The movable engine 3 (an intermediate-transfer starting element of interaction between the parts of the generator or power source and the element of action of the weapon) interacts with the pressure element of the electric piezoelectric generator 10, activating it when the engine moves backward relative to the outputs of the barrel channels. Channel 14 hydraulically connects the barrel channels 4 and the throwing energy source 12. Between the probes 6 and the ends of the barrel channels there are non-conductive wads 15 sealing the barrel channels. As an electric piezoelectric generator type in the considered version of the device uses a standard readily available "piezoelectric element" for gas lighters produced in many countries of the world, and the cost of such a piezoelectric generator, for example, made in China is no more than $ 0.10-0.30 US [3].

The cartridge works as follows. When the weapon impact element (trigger piece or trigger element) of the DESHO is pressed on the engine 3, it moves inside the cavity 9 compressing the inner spring with the striker of the electric piezo generator 10. At the end of the stroke of the engine 3, the spring with the striker is released and strikes with the striker on the piezo element of the electric piezo generator 10. The piezo generator 10 generates a high-voltage electrical pulse, which is fed through the electrodes 11 and 13 of the electric piezo-generator 10 to the electrodes of the pyrotechnic source 12 of throwing energy. The throwing energy source 12 is initiated by an electric spark discharge and the combustion gases of the pyrotechnic composition are fed through channel 14 to the barrel channels 4 by acting on the wads 15 and through them accelerating the probes 6 in the barrel channels, which fly out of the barrel channels and fly to the target choosing the current lead laid in them. In another version of the cartridge, the conductor can be laid not inside the probes, but in additional cavities of the cartridge.

In another version of the cartridge, instead of the electric piezoelectric generator 10, a chemical source of electricity in the form of a battery or accumulator can be installed in the cavity 9, which has a push switch interacting with the engine 3 or directly with the trigger piece or a DESHO element and a pyrotechnic source of throwing energy initiated by Joule heat (for example, heated wire bridge). As a chemical source of electricity, it is advisable to use batteries or rechargeable batteries with a long-term storage without significant loss of electrical capacity, for example, microlithium headsets for bluetooth, the choice of which many countries of the world are extremely large, and the cost of such, for example, Chinese production is no more than $ 0.10-0.50 US [4].

In another version of the cartridge, instead of the electric piezoelectric generator, a source of mechanical energy can be installed in the cavity 9, for example, in the form of a pre-stressed spring released when pressed by the trigger piece or by the DESHO element on the engine 3 or by the trigger piece or the DESHO element tensioned at the moment of pressing on the engine 3 and released in at the end of its stroke equipped with a striker and a pyrotechnic source of throwing energy with the initiation of a blow (for example, a shock capsule).

Accordingly, in various versions (designated for the use of different types of sources or generators of electrical or mechanical energy to initiate a propellant charge), a pyrotechnic source of propelling energy can be ohmic (Joule heat) (electrocapsule, electric igniter), electrospark, or shock-capsule initiation (shock igniter). The use of an ohmic-type electric igniter is less preferable than an electric-spark igniter due to the high cost of ohmic-type electric ignitors. The use of a percussion cap igniter is also less preferable as compared to an electric spark igniter due to the complexity and high cost of a percussion mechanism of miniature dimensions placed in the cavity of the cartridge.

The claimed device of the cartridge, despite the use of an electric spark initiation of a pyrotechnic source of energy for throwing probes with conductors, is completely protected from the possibility of triggering a pyrotechnic source of energy for throwing probes from electrostatic discharges accumulating on the user's body when loading, unloading and carrying weapons, since the electrostatic potential hits the initiation electrodes

Yu a pyrotechnic source of throwing energy is impossible due to the impossibility of an electric spark breakdown from conductors 8 to the initiating electrode of a pyrotechnic source of throwing energy through sealed and non-conductive wads 15 and channel 14, the half parts of which are obviously longer than the length of the spark channel in a static discharge from the human body, and the capacity of the piezoelectric element is known less capacity required for the development of an electric spark discharge with an energy sufficient to initiate a pyrocharge.

To exclude the possibility of moisture or other foreign substances entering the cavity 9 and further to the energy source or generator and disabling them, the source or generator of electrical or mechanical energy to initiate a propellant charge or engine 3 (can be movably sealed with plastic, elastic or viscoplastic substances, for example grease or sealants with the properties of ensuring its mobility after long-term storage.In versions of a cartridge with a source of electrical energy in the form of a battery or accumulator, the role of an intermediate-transfer starting element can be played directly by a micro-button switch, which in this case is also sealed, for example, by an elastic membrane.

The piezoelectric generator, as well as the generator of mechanical energy, both with a spring-loaded element and a pre-stressed spring element, can be stored practically indefinitely. A chemical source of electricity, for example, a lithium battery or accumulator, can remain operational for at least 1 year or more with a loss in electrical capacity of only a few percent.

FIG. 3. Double-charged DESHO consists of a split (of two halves) polymer case 16 in which a push-button switch 17 of the generator of high-voltage damaging pulses is installed, fuse switch 18, pockets 19 are made for installing firing cartridges (as described in Fig. 1 and Fig. 2.) with a partition 20 between them, two-sided (on both halves of the body) movable and elastic polymer trigger rods 21 with trigger rings 22, teeth 23 and spring-loaded disconnectors 24 located in the rod. Combat electrodes 25 are located at the front end of the body 16. The trigger rod acts as an element of the weapon's impact (trigger piece or trigger element) DESHO. However, since the trigger ring is a part of the trigger rod, the trigger ring or, for example, a trigger in a different design of the weapon is also an action element or at least an integral part of a weapon action element on a source or generator of electrical or mechanical energy to initiate the propellant charge of the cartridge.

FIG. 4. The electroshock weapon has a generator of high-voltage damaging pulses located in the housing 16 (in the upper image the generator of high-voltage pulses is removed from the half of the housing, in the lower image it is inserted into the housing), a source of electrical energy in the form of a battery 27, a switch 28 of the generator of high-voltage damaging pulses electrically connected in parallel with the switch 17. In the cavity 29 (made in each half of the split body 16) there is an ejector 30 with an ejection spring 31, and spring-loaded disconnectors 24 mounted on the trigger rod 21. The high voltage potential from the generator of high-voltage damaging pulses 26 is supplied to the combat electrodes 25. In the second half of the split body, not shown in FIG. 4 also contains a switch 28 (also electrically connected in parallel with the switch 17), an ejector 30 with a spring 31 and spring-loaded disconnectors 24 mounted on a second trigger rod 21.

FIG. 5. When loading an electroshock weapon, firing cartridges are put into pockets 19, while ejectors are 30 ejection springs 31 are compressed, the projections of the cartridge sliders 3 buried in the cartridge body jump over the teeth 23 of the elastic trigger rods 21. When this occurs, the cartridges are fixed in the pockets 19. The force of the compressed release springs 31 is much less than the force required to press the sliders 3 when the cartridge is fired. If it is necessary to make shots, the user with his thumb removes the weapon from the fuse 18, which is mainly a slide switch for supplying power to the electronic circuit of the generator of high-voltage damaging pulses. When the user's thumb presses (backward relative to the body 16) on the trigger ring 22, the rod 21 connected to it by the tooth 23 presses the cartridge slide 3 until the cartridge electric piezo generator 10 is triggered and the pyrotechnic source 12 of the probe throwing energy is initiated. A shot is fired and probes 6 fly at the target with current leads 8 selected from them. At the end of the trigger ring 22 backward, its rear protrusion 32, entering when the ring moves back into the inner cavity of the body 16, presses the switch 28 of the generator of high-voltage damaging pulses, turning it into operation, when In this case, striking high-voltage pulses are fed to the combat electrodes 25, and from them to the terminals of 5 current paths of the cartridges. Thus, a high-voltage damaging voltage of an electric current is applied to the probes flying at the target with current conductors, acting on the target when it hits it and fixing the fired probes on it (with the help of the target holding devices 7). At the end of the stroke of the rod 21 with the ring 22 backward, the protrusions of the disconnectors 24, under the action of the compressed spring, come out of the rod into the recesses 33 of the housing 16 opposite the slopes 34 of the housing. When one cartridge is fired, the potential of high-voltage damaging voltage also falls on the terminals 5 of the conductors of the second cartridge, but the initiation of the pyrotechnic source 12 of the energy of throwing the probes of the second cartridge does not occur due to the fact that the high-voltage potential does not affect initiating electrodes of the pyrotechnic source 12 of the second cartridge.

FIG. 6. After the shot is fired and the offender is immobilized, the user with the weapon pulls the trigger ring 22 (forward relative to the body 16) with his thumb, while the protrusions of the disconnectors 24 of the thrust 21 run over the bevels 34 of the case 16 and raise (squeeze) the end of the elastic thrust 21 from the body 16 and the tooth 23 comes out of engagement with the projection of the engine 3 of the cartridge recessed into the cartridge. The released cartridge, together with the current leads going to the target, is thrown out of the pocket 19 by the ejector 30 under the action of the ejection spring 31 compressed when charging. Thus, the fired cartridge is instantly extracted and the user can quickly install a new firing cartridge into the empty pocket. To produce the next shot, the user with the weapon presses the trigger ring 22 of the thrust 21 on the other side of the weapon, the shot and the extraction of the second cartridge occurs according to the algorithm described above.

If it is necessary to make a contact effect on the offender or demonstrate an electric discharge to him without firing shots, the user removes the weapon from the fuse switch 18 and presses the button of the switch 17 of the generator of high-voltage damaging pulses with his thumb. In this case, a striking voltage appears between the electrodes 25. At the same time, pressing the weapon with electrodes to the offender's body, the user can produce a contact effect or, at a distance from the offender, demonstrate an electric spark discharge, reducing the offender's aggression. In this case, the firing of probes from the firing cartridges charged into the pockets of the weapon does not occur due to the fact that the potential of high-voltage damaging pulses does not fall on the electrodes of the pyrotechnic sources 12 of cartridge throwing energy and cannot initiate them. In another version, the starting thrust 21 can have own return spring. In this case, the trigger ring 22 can be replaced with a different shape of the trigger (for example, the trigger) that does not provide for the possibility of either pressing with a finger or pushing it off in the opposite direction (which may be unusual for users despite the familiarity of the shape of the trigger in the form of a ring in samples firearms). The trigger rod can also have a special stopper that stops it in the pressed position of the shot. In this case, the user, by stopping the pull rod 21 in the pressed position, can perform long-term immobilization of the offender without constantly pressing the trigger ring or other trigger.

If necessary, the weapon is unloaded by pressing the ends of the rods 21 upward relative to the weapon body 16 by the user. In this case, the cartridges are ejected from the pockets 19 under the action of 30 ejectors.

In another embodiment, the weapon described in FIG. 1 and FIG. 2.Cartridges can be designed as a single-shot (in fact, half of the body described above two-shot DESHO), as well as multi-shot with magazine or magazine loading, both with a constant magazine, and with a replaceable clip with a spring-loaded magazine or magazine with firing cartridges similar to cartridges in permanent magazines or replaceable firearms clips. In the multiple-charge version of the weapon, when the user presses the trigger of the weapon, for example, the trigger or key), the cartridge is fed from the magazine or clip forward relative to the weapon using a feeder acting due to the user's muscular force or an electric drive (for example, an electromechanical actuator of a particular design) when In this case, an ejection spring is located between the feeder and the cartridge, which is compressed by the feeder before starting the actual forward feed of the cartridge. In the front end of the case the weapon is equipped with a movable sear with which, when the cartridge body moves forward under the action of the feeder, the engine 3 interacts. Thus, when firing a shot, the feeder first compresses the ejection spring, which, having completely compressed, begins to transfer the feeder force to the cartridge. Free movement forward of the cartridge is prevented by the sear against which the engine 3 rests. When the cartridge body moves forward under the action of the feed force through the compressed ejection spring, the engine 3 compresses the spring of the electric piezo generator 10 until the electric piezo generator is triggered and the pyrotechnic source of energy for throwing the cartridge probes is initiated. A shot occurs and the conductors fly towards the target. If a pyrotechnic source of throwing energy in the form of a battery or a battery is placed in the cartridge cavity, the feeder, shifting the cartridge, presses the button of the microswitch installed inside the cartridge, which supplies electric current to the electric igniter of the pyrotechnic source of throwing energy, thereby initiating and firing it. After firing a shot and immobilizing the offender, when the user releases the trigger of the weapon, the sear releases the cartridge, which, under the action of the ejection spring compressed by the feeder, is thrown forward from the weapon along with the conductors that hit the target. After that, the feeder, together with the already unclasped ejection spring, moves back and the next cartridge rises to the place freed from the extracted cartridge under the action of the spring of the magazine or holder. The described algorithm of shots is repeated until the cartridges in the magazine or magazine are used up. Another version of the multiple-charge weapon is also possible, in which the extraction of the spent cartridge does not take place under the action of the ejection spring compressed by the feeder before the start of the actual forward feed of the cartridge, but with the help of a long stroke of the feeder under the action of an electromechanical actuator up to the complete withdrawal of the shot cartridge outside the body of the weapon. Another version of the multiple-charge weapon is also possible, in which a movable part, driven by an actuator or directly by the muscular force of the shooter, presses on the engine 3, initiating the cartridge's shot, and the cartridge is ejected with the help of another actuator until the spent cartridge is completely withdrawn outside the weapon body as forward , and sideways after the release of the slider 3 from the moving part, producing pressing on it. In the above embodiments with the use of electromechanical actuators, the trigger or key is also an element of action or at least an integral part of the element (or unit) of the effect of the weapon on the source or generator of electrical or mechanical energy to initiate the propellant charge of the cartridge.

FIG. 7. Dimensions of a double-shot DESHO according to Fig. 3 in comparison with the DESHO of the company "MART GROUP" (Russia). Compared with the claimed device, the DESHO of the company "MART GROUP" is only a single-shot DESHO without the possibility of contact action and demonstration of a striking high-voltage electric discharge to the offender with an attached firing cartridge, and without the possibility of rapid extraction of the spent cartridge for subsequent reloading.

List of cited sources:

1. RF patent ^D a 2351871

2. RF patent Ns 2 632 828

3.htps: //www.alibaba.com/product-detail/Piezo-spark-ignition-igniter-gim- for_874562429.html? Spm = a2700.details.maylikehoz.5.9d201517SEHrQ3

htps: //www.alibaba.com/product-detail/Hot-sale-Piezo-igniter-bbq- torch_60149362535. html? spm = a2700.details.maylikehoz.5.53a023ccIKlfbI 4.htps: //russian.alibaba.com/product-detail/micro-lipo-battery-60mah-3-7v- for-bluetooth-headsets-60619418939.html

Claims

Claim

1. A firing cartridge of a remote electroshock weapon containing a housing with barrel channels and projectiles with devices for fastening to targets, conductors laid in the projectiles or cavities of the housing, at least one propellant charge, characterized in that a source or generator of electrical or mechanical initiation energy is installed in the housing a propellant charge with electrical or mechanical initiation, activated by pressing or impact transmitted from the impact element of a remote electroshock weapon, or by moving the cartridge body relative to the remote electroshock weapon by the impact element of a remote electroshock weapon.

2. The firing cartridge according to claim 1, characterized in that the electric power generator is a piezoelectric shock or pressure generator.

3. The firing cartridge according to claim 1, wherein the source of electrical energy is an electrical battery or accumulator.

4. The shooting cartridge according to claim 1, characterized in that the mechanical energy generator is a pre-stressed or pre-stressed elastic body before firing.

5. Shooting cartridge according to claim. 1, characterized in that the source or generator of electrical or mechanical energy has an intermediate-transfer trigger element for interaction with the element of action of the electroshock weapon.

6. The firing cartridge according to claim 1, characterized in that the source or generator of electrical energy or the intermediate-transfer trigger element is movably sealed.

7. Remote electroshock weapon containing a housing, a source of electrical energy, a generator of high-voltage damaging pulses, characterized in that it contains at least one pocket for installing a firing cartridge with a source or generator of initiation of a propellant charge or a magazine or a magazine for several firing cartridges, at least least one element of the impact of the weapon on the source or generator of the initiation of the firing cartridge by pressing or hitting or shifting the cartridge relative to the body of the weapon and the switch of the generator of high-voltage damaging pulses interacting with the element of action.

8. Remote electroshock weapon according to claim 7, characterized in that the element of impact of the weapon is a pusher or rod connected to the trigger, key or kind of ring, interacting with the switch of the generator of high-voltage striking impulses and the firing cartridge with the possibility of disconnection from the firing cartridge when extraction from the weapon after the shot.

9. Remote electroshock weapon according to claim 7, characterized in that the impact element is a thrust or pusher or feeder connected to an electromechanical actuator by an activated trigger and interacting with the switch of the generator of high-voltage damaging pulses.

10. Remote electroshock weapon according to claim 7, characterized in that the impact element has an additional elastic element for transmitting the impact to the source or generator of initiation of the firing cartridge or to the firing cartridge.