RU2744303C1 - Small-sized remote electroshock weapon - Google Patents

Abstract

FIELD: weapons.SUBSTANCE: small-sized remote electroshock weapon has a non-conductive body with a pocket for a firing cartridge with low-voltage initiation and throwable conductors and a pyrotechnic device for unlocking the cartridge from the body of the weapon located in the firing cartridge, a source of electrical energy, a generator of high-voltage damaging impulses with an electric switch to start it. The weapon has a movable, mechanical safety-trigger element that is controlled by the finger of the hand holding the weapon. The element interacts with an electric switch for starting the generator of high-voltage damaging impulses and an additional electrical switch for initiating the firing cartridge. There is a safety lock that obstructs the movement of the safety-trigger element during its unauthorized movement and fixes the firing cartridge in the body during a shot. There is a latch for fixing the firing cartridge in the body which is controlled by a user's hand holding the weapon.EFFECT: small-sized remote electroshock weapon can demonstrate an electrospark discharge and produce a contact effect in a charged firing cartridge state. The weapon is characterized by the possibility of accelerated reloading. The invention increases safety in use.5 cl, 10 dwg

Description

The technical field to which the invention relates.

The invention relates to a non-lethal remote electroshock weapon (DESHO), with an electric weapon for law enforcement and self-defense of citizens.

State of the art.

As analogs of the alleged invention, the world-famous small-sized models DESHO TASER C2 [1] and TASER PULSE [2], ([3] dimensions and characteristics), previously produced and manufactured today by the world's leading in the field of electroshock weapons by Taser Int . " (currently "Axon Enterprise, Inc." ("Axon") USA),

DESHO of the TASER C2 model, made in a form approaching a pistol one and the TASER PULSE model, made in the form of a pistol, are intended for temporary disabling (immobilization, defeat, holding in a state of paralysis) of biological targets (target, offender, bio-target, bio-object) by electric current on distance or in direct contact with the target. The defeat of the target at a distance is carried out using a shooting cartridge that shoots at the target two probes with devices for fixing on the target (needles with barbs), each of which is connected by means of an insulated wire (conductor) laid in the cartridge (in packing) with the corresponding current-carrying electrode on cartridge. The current-supplying electrodes of the cartridge electrically (or through a gap of 0.1-0.5 mm) when charging the cartridge in the DESHO are connected to the combat (contact) electrodes of the DESHO coming out to the front end of the DESHO, to which, when the DESHO is started, a high-voltage electric current striking the target is supplied from the generator of high-voltage damaging pulses contained in the weapon and between which a combat (striking the target) high-voltage spark discharge is formed. Firing cartridges have a propellant charge of a pyrotechnic substance (pyrocharge) initiated from a high-voltage target-striking voltage of an electric current supplied to it when the DESHO is turned on. The charge is initiated and, with the help of a cutting device, depressurizes the container with compressed gas, which expands in the barrel openings of the cartridge and throws probes with current leads into the target. The cartridge is rigidly attached to the DESHO using a mechanical latch-lock located on the cartridge. Target immobilization at a distance is carried out when the electrical circuit of the damaging current through the body of the bio-target is closed by means of conductors connecting the combat electrodes of the DESHO with the probes that hit the target. Immobilization of the bio target by the contact method (contact) is carried out by direct interaction (pressing the combat electrodes to the body) of the DESHO with the body of the bio target without firing a shot.

The indicated DESHO models have the following disadvantages. To use the DESHO contact, you must first disconnect the cartridge, because when you try to use the DESHO with the attached cartridge contact, the cartridge always fires (since the firing cartridge is initiated by a damaging high-voltage spark discharge), that is, a point-blank shot and mechanical injury to the target. This property is an obstacle to the rapid use of a DESHO with a cartridge loaded in it in situations where the need to immobilize a target arises at a close distance (for example, in a confined space) and a shot from an extremely short distance is undesirable, since it can cause serious mechanical injury to the target or is meaningless since the target can be influenced by contact. The disadvantages of analogs are also in the impossibility of demonstrating a combat high-voltage electric spark discharge to the enemy without firing a shot in a state charged with a firing cartridge (for the purpose of psychological impact to reduce aggressiveness before use, contact or remotely), since when a destructive high-voltage potential is applied to the combat electrodes of the DESHO, which are always adjacent to the current supply the cartridge electrodes are followed by immediate initiation of the cartridge pyrocharge with the production of a shot. At the same time, it is well known that when the user threatens to use an electroshock weapon with a demonstration of a damaging electric spark discharge accompanied by a characteristic noise and spark discharge, in many cases the offender stops aggressive actions, realizing that he will have to deal with electricity and, accordingly, subsequent pain. It is well known that aggressive animals (for example, dogs, wild animals) almost always stop their aggression when a person demonstrates electric discharges. Thus, the DESHO analogs can be used by contact (or a demonstration of a combat electric discharge is made) only with a firing cartridge disconnected from the DESHO, which excludes its rapid remote use in case of need for remote impact on the target. To reload the weapon with a firing cartridge, for example, in the event of a miss on a target or in order to immobilize another appeared target, it is necessary to disconnect the spent cartridge and insert a new cartridge into the DESHO. Removing a spent cartridge from a weapon is possible only when using both hands of the user and for a less trained user it takes a few seconds to reload the DESHO with a new cartridge and fire a second shot. During this time, the offender can attack a law enforcement officer, try to hide, or use his weapon.

As a prototype of the alleged invention, a small-sized DESHO PhaZZer Hornet of the company "Double Dragon Development & Trading Corporation" (Taiwan) [4], made in the form of a rectangle, consisting of a case in which a generator of high-voltage damaging pulses is located, which generates a striking voltage of electric current and consists of an inverter converting low-voltage voltage (7.2 V) of a battery or accumulator into an increased voltage of 1.4-2 kV and a high-voltage unit for converting a voltage of 1.4-2 kV into an output high-voltage target-striking voltage of 50 kV. DESHO PhaZZer Hornet is charged with a shooting cartridge, through which the high-voltage damaging voltage of the electric current generated by the high-voltage unit and supplied to the combat electrodes of the DSHO through the current conductors fired from the cartridge with devices for their fastening to the target is transmitted to the target.

The disadvantage of the prototype, as well as the analogue, is the impossibility of using contact and demonstration of a combat electric spark discharge to the enemy without firing a shot in the state of the firing cartridge, and also the fact that the spent cartridge for reloading the weapon has to be removed from the pocket of the DESHO (front hollow cavity of the body DESHO for placing firing cartridges) using both hands of the user to open two latches located on the cartridge. Removing the spent cartridge after firing with one hand of the user holding the weapon is impossible. Thus, to reload the weapon, if necessary, to quickly continue firing, the user loses time to remove the spent cartridge using both hands. Due to the need to use both hands of the user to remove the spent cartridge from the weapon, the time for the second shot is increased. That is, the unloading of the prototype weapon is carried out in a baggy manner, which affects the time it takes to produce the next shot in the event of a miss on the target or in order to immobilize another target that appears. The device of the prototype firing cartridge does not differ from the device of the cartridge described for analogs. DESHO analogs and prototype have a fuse that can be removed and installed manually protecting the button for turning on the generator of high-voltage damaging impulses, which initiates the firing of the firing cartridge. Thus, if the user, while reloading the DESHO with a new cartridge instead of the shot one, forgets to put the DESHO on the fuse, then he can accidentally press the button to turn on the generator of high-voltage damaging pulses and fire an abnormal shot either at others or at himself (for example, into the charging hand). This property of DESHO analogs and prototype reduces the safety of the device both for the user and those around him.

The technical problem of the existing small-sized remote electroshock weapon thus consists in the impossibility of carrying out a contact action and demonstrating a combat electric spark discharge to the enemy in a state charged with a firing cartridge and a baggy reloading. DESHO analogs and prototype have little safety for the user at the time of reloading the weapon with a new cartridge instead of a shot one, since they have only one stage of non-automatic protection.

Disclosure of the invention.

The technical result and purpose of the alleged invention is to create a small-sized DESHO with the possibility of demonstrating an electric spark discharge and producing a contact effect in a charged firing cartridge state, with the possibility of accelerated reloading of weapons, with increased safety for the user and with the possibility of competing in the field of DESHO with the world's leading foreign companies, since the proposed weapon in terms of simplicity of the device, small size and flexibility of use surpasses the best samples of DESHO (analogs and prototype) of the leader of the world DESHO-structure of the company "Axon Enterprise, Inc." and even more so the company Double Dragon Development & Trading Corporation. In addition, the cartridge used in the claimed invention can also be used in full-size models of Russian-made multi-charge DESHO, which improves the logistics of supply, for example, the DESHO for law enforcement agencies with ammunition.

This goal is achieved by the fact that a small-sized remote electroshock weapon contains a non-conductive body with a pocket for a firing cartridge with low-voltage initiation with projectile conductors and a pyrotechnic device for unlocking the cartridge from the body of the weapon located in the firing cartridge, a source of electrical energy, a generator of high-voltage damaging impulses with an electric switch for starting it, a movable mechanical fuse controlled by the finger of the hand holding the weapon a trigger element interacting with an electric switch for starting the generator of high-voltage striking impulses and an additional electrical switch for initiating a shot of a firing cartridge, a safety lock preventing the movement of a safety-trigger element during its unauthorized movement and fixing the firing cartridge in the body during a shot, and a latch for fixing the firing cartridge in the body controlled by the user's hand holding the weapon.

An additional feature is that the movable safety-trigger element can be fixed in certain positions relative to the body of the weapon.

An additional feature is that the movable safety-trigger has an intermediate position lock.

An additional feature lies in the fact that a spring-loaded ejector of the firing cartridge is located in the body of the weapon.

An additional feature is that the source of electrical energy in the form of a battery has a charging socket located in the pocket for the firing cartridge.

Brief description of the drawings.

FIG. 1. General view of DESHO with a firing cartridge in the "safety" position.

FIG. 2. General view of DESHO in the "contact action" position.

FIG. 3. General view of DESHO in the "remote action shot" position.

FIG. 4. Bottom view of DESHO.

FIG. 5. Types of firing cartridge.

FIG. 6. DESHO with the fuse-starting element removed.

FIG. 7. Longitudinal section of DESHO (the firing cartridge is pushed out of the body pocket).

FIG. 8. DESHO with the upper half of the body removed and a view of the part of the safety lock, DESHO with the upper half of the body removed and a longitudinal section.

FIG. 9. DESHO cut from above and without a firing cartridge.

FIG. 10. Experienced DESHO.

Implementation of the invention.

FIG. 1. DESHO consists of a polymer body 1 assembled from the lower and upper halves, in the pocket (cavity) of the body there is a firing cartridge fixed in the body 1 during loading 2. On the upper half of the body there is a movable (rotary) safety-trigger element 3 with a radial cutout, a movable spring-loaded safety catch 4, and a latch 5 for fixing the cartridge 2 in the housing 1. In the case shown in FIG. 1, the DESHO position is in the position of protection against accidental activation and firing ("on the safety catch"), since the rotation of the safety-trigger element 3 counterclockwise is prevented by the upper protrusion of the safety-catch 4 extended from the housing 1 into the cutout of the safety-starting element 3.

FIG. 2. When pressing the upper protrusion of the safety-lock 4 with the user's thumb holding the DESHO, the protrusion descends into the body compressing its spring and allowing the safety-trigger 3 to rotate counterclockwise with the same finger of the user's hand. At the same time, when rotated by an angle of about 90 ° counterclockwise, the cutout of the fuse-triggering element 3 opens the recess 6 of the upper half of the body in which the button 7 of the push-button electrical switch for starting the generator of high-voltage damaging pulses located in the lower half of the body is located (see below). FIG. 2 DESHO is in a position for contact action on a biological object ("contact action").

FIG. 3. The position of the safety-trigger 3 when turning counterclockwise, when the protrusion 8 of the safety-trigger 3 reaches the latch 5 and abuts against it corresponds to the position of "remote action" (starting the generator of high-voltage striking pulses and initiating the firing cartridge).

FIG. 4. On the lower half of the body 1 there are combat electrodes 9 and 10 to which the output of the generator of high-voltage damaging pulses is connected.

FIG. 5. The firing cartridge 2 has the device described in the patent for utility model RU No. 197693 [5] and is initiated by a low voltage (1.5-12.0 V.) from a source of electrical energy DESHO in the form of an electric battery or accumulator. The cartridge 2 has a housing with recesses 11 in the rear part, a movable protrusion 12 is also located in the housing, and barrel holes 13 with plugs 14 are made, which hold the probes in the barrel holes with the conductor laying. A pyrotechnic energy source 15 for throwing probes with electric low-voltage contacts for initiating a pyrocharge is located in the rear end of the cartridge housing. In the state prior to initiation of the cartridge energy source 15, the protrusion 12 protrudes above the surface of the cartridge body. After the initiation of the energy source 15 and the firing of the probes with the conductors at the target, the part with the protrusion 12 with the help of the gas engine placed inside the cartridge moves in the housing so that the protrusion 12 retracts into the housing flush with the surface of the cartridge housing. In the top two figures of FIG. 5 the cartridge is shown before the shot, and in the lower picture the cartridge is shown after the shot.

FIG. 6. The safety-triggering element 3 has projections 16 and 17 with beveled ribs on the inside. An annular groove 18 is made in the upper half of the housing 1 and an electrical microswitch 19 (SMD clock button) is located.

FIG. 7. Spring electrical contacts 20, extractor 21, extractor spring 22, spring 23 of the latch 5 for fixing the cartridge, microswitch 19.

FIG. 8. In the upper view of the figure in the position of the safety-trigger 3 "on the safety", the lower protrusion 24 of the safety-catch 4 does not fit into the recess 11 of the cartridge 2. The cartridge 2 is held in the housing 1 of the DESHO by the latch 5 by the protrusion 12 of the cartridge.

In the lower view of the figure in the position of the safety-triggering element 3 "remote action shot" the lower protrusion 24 of the safety-catch 4 held in this position by the lower plane of the safety-triggering element 3 pulled over it is inserted into the recess 11 of the cartridge 2. At the same time, at the time of the shot, the protrusion 12 of the cartridge goes inside the cartridge housing and is disengaged from the latch tooth 5. Thus, after the shot, the cartridge 2 is held in the DESHO body 1 only by the lower protrusion 24 of the safety lock 4.

FIG. 9. Spring electrical contacts 20, extractor 21, charging socket 25, generator of high-voltage damaging impulses 26, battery 27.

The work of DESHO is carried out as follows.

DESHO is charged in the position of the fuse-starting element 3 "on the fuse" by inserting the cartridge 2 into the pocket of the housing 1 from the front, while the protrusion 12 presses the latch 5 for fixing the cartridge by compressing its spring 23, after which the tooth of the latch 5 sinks into the protrusion 12 and fixes the cartridge in the housing 1. When the cartridge is inserted, it presses the extractor 21 with its rear end and pushes it into the DESHO housing, compressing the extractor spring 22.

Unloading the DESHO, if necessary, is done by pressing the rear end of the latch 5 with the thumb of the hand holding the DESHO. In this case, the latch rotates on its axis, compressing the spring 23, the latch tooth rising up disengages from the projection 12 of the cartridge, after which the spring 22 compressed during charging by means of the extractor 21 ejects the cartridge from the pocket of the DESHO body. Thus, the discharge of the DESHO or the extraction of the spent cartridge to load a new cartridge in order to produce a quick re-shot can be carried out only by the user's hand holding the DESHO and faster than in analogs and the prototype, since the user does not need to use the other hand to remove the spent cartridge from the weapon.

If it is necessary to demonstrate a high-voltage spark electric discharge to an offender to remove aggression from him or to use it by a contact method (without shots) with a firing cartridge loaded in the DESHO, the user presses with the thumb of the hand holding the weapon on the upper protrusion of the safety lock 4 while simultaneously turning the safety-trigger with the same finger element 3 counterclockwise to the "contact action" position. This opens access to the button 7 in the recess 6 of the housing 1 and the user presses the button 7 with his thumb. This turns on the generator of high-voltage damaging pulses 26 and the high-voltage damaging voltage of the electric current is supplied to the contact electrodes 9 and 10, forming between them a demonstration spark high-voltage discharge, or when pressing the DESHO to the target body, the damaging voltage of the electric current is supplied through electrodes 9 and 10 to the target body, producing an immobilizing effect on the target. When demonstrating a high-voltage spark electric discharge to the offender or contact action on him, the initiation of the firing cartridge does not occur. The independence of the initiation of the firing cartridge from the operation of the generator of high-voltage damaging pulses is achieved because the electrical initiation of the firing cartridge is not produced from the high-voltage damaging voltage of the electric current generated by the generator of high-voltage damaging impulses as in analogs and the prototype, but only from the low-voltage voltage of the electric current supplied to the pyrotechnic energy source 15 throwing the cartridge probes only in the "remote action shot" mode. The mode of contact action or demonstration of an electric discharge with a firing cartridge charged in the DESHO is fundamentally impossible for analogs and a prototype. To improve the positioning of the cutout position of the safety-triggering element 3 above the button 7, a separate, for example, spring-ball retainer of the intermediate position of the safety-triggering element 3 installed in it or in the housing 1 can be used.

If it is necessary to remotely influence the offender (firing a shot) with a short-term immobilization of the offender, the user presses the safety catch 4 with his finger while simultaneously turning the safety trigger 3 counterclockwise through the "contact action" position to the "remote action shot" position. When the fuse-starting element 3 is turned by an angle of more than 90%, the protrusion 16 of the fuse-starting element 3 moving in the annular groove 18 with its bevel moves towards the button 7 of the electric start switch of the generator of high-voltage striking pulses 26 and turns on the switch that starts the generator. With further rotation to the stop, the protrusion 8 of the safety-trigger element 3 into the latch 5 (which serves as a rotation limiter), the protrusion 17 of the safety-trigger element 3 moving in the annular groove 18 with its bevel slides onto the button of the microswitch 19 and turns it on. When the microswitch 19 is turned on, the low-voltage voltage of the power source DESHO from the battery 27 is supplied to the electrical contacts 20 adjacent to the electrical contacts of the pyrotechnic energy source 15 of throwing the probes of the cartridge 2. The energy source 15 of the cartridge 2 is initiated, which throws the probes with current leads into the biocell. When the probes with current leads enter the biocele while the generator of high-voltage damaging impulses 26 is already working, the damaging voltage of the electric current through contact electrodes 9 and 10, adjacent to the leads of the cartridge 2, enters the biocele through the probes fixed on it, producing immobilization of the biocoel.

If the user wants to stop the immobilization of the bio-target, the user with his thumb turns the safety-trigger element 3 clockwise back to the "contact action" or "on safety" position. In the "contact action" position, the protrusion 16 releases the button 7 and the impact of the damaging electric current on the target stops, but can be resumed at any time, since the DESHO continues to be connected to the bio-target by conductors with probes attached to it. To resume immobilization, the user (in case of disobedience of the offender to the requirements of the law enforcement officer) is enough to press button 7 again with his thumb, as in the production of a contact action. If the user wants to finish immobilizing the target completely or to shoot at another bio target, he turns the safety-trigger element 3 clockwise back to the end (all the way) to the “safety” position. The lower plane of the fuse-trigger element 3, shifted from the upper protrusion of the safety-catch 4, ceases to hold it in the pressed position, and the cut-out of the safety-trigger element 3 makes it possible, under the action of the previously compressed spring, to move the upper protrusion of the safety catch 4 out of the body, and, accordingly groove 11 of the cartridge 2 of the lower protrusion 24 of the safety lock 4. Since after the shot the protrusion 12 of the cartridge 2 is pushed into the cartridge case and no longer interacts with the latch 5, the cartridge 2 is energetically ejected from the DESHO case along with the conductors going from it to the biocell under the action of the extractor 21. Thus, when the DESHO is set to the "on safety" position, the spent cartridge is automatically extracted. Thus, if it is necessary to quickly reload the DESHO after the shot, the reloading process, compared to the forced extraction of the cartridge 2 by pressing the latch 5 with the thumb, is even more accelerated, since there is no need for unnecessary movement of the finger with the interception of the DESHO for the convenience of pressing the latch 5.

However, the possibility of non-automatic extraction (in addition to the automatic one described above) of a spent or a failed cartridge with the help of one hand of the user holding the DESHO by pressing the latch 5 allows, in addition to the cartridge described here, to use also a shooting cartridge of a reduced cost, also described in the patent [5], or to extract the spent cartridge in case of an accidental failure of a gas engine in its composition or possible various kinds of cartridge malfunctions and misfires. Reload the DESHO with the standard fired cartridge according to Fig. 5 is possible only by putting it in the "safety" position. It is impossible to extract the spent cartridge with the latch 5 and insert a new cartridge into the housing pocket without putting the DESHO in the "on safety" position. This increases the safety of the user in the DESHO use in terms of the impossibility of inserting a new cartridge into the DESHO pocket, when a low-voltage electric current can be applied to the electrical contacts 20 and there is a possibility of injury to the user from the cartridge firing at an unexpected time for the user and the direction of throwing the probes.

If it is necessary to arrest the offender (longer-term immobilization), the user, after firing a shot and immobilizing the target with its fall to the ground, does not turn the safety-trigger element 3 back to the "contact action" or "on safety" position, but simply puts the weapon with a working high-voltage striking generator impulses to the ground and arrests the offender with handcuffing. After making the arrest, the user must turn the fuse-starting element 3 to put it in the "fuse" position, thus turning off the generator of high-voltage striking pulses.

In this case, DESHO can be equipped with an electronic timer for the duration of the generator of high-voltage damaging pulses. For example, 3 s. impact on the offender - 2 sec. rest of the offender (to restore the work of the respiratory and cardiac apparatus). After that, the cycle can be repeated until the user sets the DESHO "on fuse".

The charging socket 25 is located inside the housing 1 in the pocket for installing the cartridge 2 in order to prevent the occurrence of "capacitive breakdown" [6] on the user and the corresponding "fear of his own weapon" by the user. Due to the smallest design of the proposed DESHO available in the world today, the body of the proposed DESHO in serial production must be made of two halves welded with ultrasound in order to prevent the discharge of "capacitive breakdown" from passing through the gaps between the halves of the case. The electrically conductive parts of the button 7 are separated from the user's finger by a sufficient distance (especially in the "remote action shot" mode, which is the main for DESHO), which is greater than the length of the electric spark discharge developed during the "capacitive breakdown"; therefore, the only weak point for the development of "capacitive breakdown" is the battery charging socket in which is used, for example, a micro-USB connector. In the proposed design, the connector is removed inside the housing, which completely excludes the development of "capacitive breakdown" for the user. The battery is charged by a network charger in the form of a cartridge inserted into the DESHO pocket and connected by its protruding contacts (male) with the DESHO connector (female).

The above description discusses preferred embodiments of the present invention, which may be altered or modified without departing from the scope of the present invention as defined in the claims.

Comparison of the proposed technical solution with the identified analogues and the prior art prototype did not reveal an identical coincidence of the set of essential features of the invention. The proposed differences of the claimed electroshock weapon, which directly follow from the formulation of the purpose of the invention, are not obvious to a specialist in electroshock devices.

The proposed DESHO has the minimum overall dimensions in the world as of the date of filing an application for an invention (126x19x55 mm) for the DESHO as a remote action with the possibility of contact use in a discharged state, and even more so with the possibility of contact action in a charged state. Such dimensions, which are slightly (only in thickness) surpassing the dimensions of modern smartphones, make it possible to constantly carry it in pockets or women's handbags, without creating inconvenience and without protruding from under clothes. Reducing the length of the proposed invention by more than 5-6 mm is fundamentally impossible, since in the case of such a reduction, safe holding by the user's hand of the weapon becomes dangerous. This is a consequence of the fact that the length of the high-voltage electric spark breakdown by a sliding discharge (along the body) can reach the user's fingers even under normal atmospheric conditions, and in conditions of high humidity, fog, atmospheric precipitation, the user will be unambiguously hit in the hand by the electric action of his own weapon. This reduction can be accomplished by reducing the length of the firing cartridge in comparison with that described in the patent [5] by reducing the length of the laid conductor from 8-12 m (for law enforcement agencies) to 4.5-5 m (for citizens). The simplicity of the design of the proposed DESHO and, accordingly, its low cost theoretically allows the self-defense function of citizens to be carried out, leaving the DESHO in the "arrest" mode at the place of application and with subsequent compensation for the cost of the DESHO by the manufacturer (Safe Escape program) [7]. This program, launched since the founding of Taser Int., Has been in effect for 26 years now. In Russia, because of the poverty, such programs do not exist.

An example of implementation.

FIG. 10 Appearance of an experienced DESHO made by 3D prototyping and a firing cartridge. The experimental DESHO used a Turnigy nano-tech Lipo Pack 300 mah 7.4V 90 C battery, a pre-ionization damaging pulse generator, and a small-sized coreless transformer [8]. The output electrical power of the experimental DESHO can be adjusted from 3.0 W to 10.0 W, which allows the production of DESHO both for use by citizens and law enforcement agencies.

List of references.

1.https://www.beststungun.com/product/taser-c2-laser-gold-package/

2.https://buy.taser.com/products/taser-pulse-plus

3. Ladyagin Yu.O. "Remote electroshock weapon" Moscow: Stalingrad Foundation Publishing House, 2017, pp. 71-72.

4.https://lesslethalarms.wordpress.com/tag/phazzer-hornet/

5. Utility model RU No. 197693

6. Ladyagin Yu.O. "Remote electroshock weapon" Moscow: Stalingrad Foundation Publishing House, 2017, pp. 308-312.

7.https://buy.taser.com/pages/safe-escape-product-replacement-guarantee

https://www.stun-gun-defense-products.com/buy-stun-gun/taser-lifetime-replacement-guarantee.html

8. Ladyagin Yu.O. "Remote electroshock weapon" Moscow: Stalingrad Foundation Publishing House, 2017, pp. 457-464.

Claims (5)

1. Small-sized remote electroshock weapon, containing a non-conductive body with a pocket for a firing cartridge with low-voltage initiation with projectile conductors and a pyrotechnic device for unlocking the cartridge from the body of the weapon located in the firing cartridge, a source of electrical energy, a generator of high-voltage striking impulses with an electric switch for starting it, characterized in that it has a movable controlled finger a hand holding a weapon, a mechanical safety-trigger element interacting with an electric switch for starting the generator of high-voltage damaging pulses and an additional electric switch for initiating a firing cartridge, a safety-catch that prevents the movement of the safety-trigger element during its unauthorized movement and fixing the firing cartridge in the body during shot, and a latch for fixing the firing cartridge in the housing, controlled by the user's hand holding the weapon. 2. The weapon according to claim 1, characterized in that the movable safety-trigger element can be fixed in certain positions relative to the weapon body. 3. The weapon of claim. 1, characterized in that the movable safety-triggering element has an intermediate position lock. 4. The weapon according to claim 1, characterized in that a spring-loaded ejector of the firing cartridge is located in the body of the weapon. 5. The weapon of claim. 1, characterized in that the source of electrical energy in the form of a battery has a charging socket located in a pocket for a firing cartridge.

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