RU2772601C1 - Micro-sized remote electroshock gun - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: micro-sized remote electroshock weapon-transformer contains a non-conductive body with unitary cartridges remote electroshock gun, a source of electrical energy, a generator of damaging electrical impulses, a start switch, protective-combat electrodes. The housing consists of two parts with the possibility of transforming the overall shape of the housing into a state for use and a state for loading, while the high-voltage output stage is located in the space of one part of the housing between unitary cartridges.

EFFECT: reduction in weight and size characteristics.

4 cl, 11 dwg

Description

The field of technology to which the invention belongs

The invention relates to a non-lethal remote electric shock weapon (DESHO), with an electric means of destruction for the self-defense of citizens and law enforcement officers of the Russian Federation.

State of the art

As analogues of the proposed invention, the DESHO according to the patent [1] was chosen. A small-sized remote electric shock weapon contains a body with a pocket for a firing cartridge with low-voltage initiation with projectile conductors and a pyrotechnic device for releasing the cartridge from the body of the weapon located in the firing cartridge, a source of electrical energy, a generator of high-voltage damaging pulses with an electric switch to start it, a mechanical fuse-starting element, interacting with the electric switch for starting the generator of high-voltage destructive impulses and the additional electric switch for initiating the shot of the firing cartridge, the fuse-lock for preventing the movement of the fuse-trigger element during its unauthorized movement and fixing the firing cartridge in the body during the shot, and the latch for fixing the firing cartridge in the body. DESHO analogue has the following disadvantages. For comfortable and permanent carrying of self-defense weapons by citizens and law enforcement officers, such as a backup (backup), its size should be as small as possible. This is especially true for civilian weapons of self-defense, and especially for women, which must always be worn, and it can only be used once, or never used at all. At the same time, it is no longer possible to reduce the dimensions of the case of a small-sized DESHO analogue beyond the limit set by the main limitation for the DESHO, namely, by the fact that the distance from the fingers of the hand holding the weapon to the combat electrodes, on which a high damaging voltage is induced when the DESHO is turned on and fired from the DESHO, does not can be lower than the distance of high-voltage electric spark breakdown by a sliding discharge along the DESHO case. In the DESHO analogue, the distance of guaranteed non-breakdown by a sliding damaging discharge is actually equal to the length of the firing cartridge, since the start button of the DESHO (button pos. 7 of the push-button electrical start switch [1]) is adjacent almost point-blank to the rear end of the firing cartridge. To reduce the size of the DESHO-analogue, it would be possible to shorten the compartment of the power supply (accumulator or battery) of the electronics and generate a high damaging voltage (the back of the DESHO to the start button), but in this case the user simply cannot reliably hold the DESHO in his hand, because how the back of the weapon for holding by hand will no longer be suitable for any reliable grasp and hold of it by hand. In addition, if modern technologies make it possible to reduce the size of the power supply and electronics, then the reduction in the size of the main limiting part of the physiologically effective impact of the high-voltage transformer DESHO is already the limit for modern design. Thus, taking the location of the start button as the central part of the DESHO, a further reduction in the size of the DESHO of the analog is limited in front by the length of the firing cartridge, and at the back by the size of the power supply (battery or battery) and electronics and the generation of high damaging voltage (rear part of the DESHO). Increasing the thickness (height) of the DESHO to more than 20-22 mm (that is, to the value for a compact firearm such as a pistol) is not advisable, since the thickness, to a greater extent than the length and width of the DESHO, increases the inconvenience of wearing a DESHO (flat underwear, or for carrying in bags, weapons are always preferable for carrying). The dimensions of the DESHO analogue are 126x19x55 mm. The weight in the state charged by a cartridge is 0,140 kg.

As a prototype, DESO was chosen according to the patent [2]. The small-sized remote electroshock weapon contains a non-conductive body with a pocket for a firing cartridge with high-voltage initiation, a source of electrical energy, a generator of high-voltage damaging pulses with a trigger button, a movable mechanical element of fixation in the body of the firing cartridge and influencing the initiation of the firing cartridge by pressing a part cartridge or by shifting the entire cartridge relative to the body of the weapon, and the trigger button of the high-voltage damaging pulse generator interacts with the mechanical element of the impact when it moves.

The DESHO prototype has the same drawbacks as the analog, namely, the impossibility of a significant reduction in size with sufficient convenience in holding the hand and using the start button (button 8 for turning on the high-voltage generator according to [2]). The dimensions of the DESHO of the prototype are 120×18×53 mm. The weight in the state charged by a cartridge is 0,130 kg.

Thus, even a change in the design of the firing cartridge and the method of its initiation for a shot gave a decrease in overall dimensions by only 1-6 mm (on different sides of the DESH), and the weight in the state of the loaded cartridge was only 10 g. In fact, an unprincipled reduction in overall dimensions gave only a slight decrease in dimensions firing cartridge in comparison with the DESO cartridge of the analogue.

The disadvantages of the known technical solutions is the impossibility of reducing the dimensions and weight in excess of those already achieved in the DESHO analogue and prototype, with the ever-existing need to reduce the dimensions of self-defense weapons that must be worn constantly, but its use is only probabilistic while maintaining their effectiveness no less than that of existing samples. DESHO analogue and prototype are also distinguished by a rather complex device with a number of parts and assemblies that need to be adjusted during assembly for proper interaction, as well as complex high-cost firing cartridges.

The technical problem of the claimed invention consists in solving the problem of creating a micro-sized DESHO for permanent long-term wear by the user with the possibility of influencing the offender safely for the user from being hit by their own high-voltage electric current of the DESHO.

Disclosure of invention

The technical result of the claimed invention is a reduction in weight and size characteristics due to the possibility of transforming the DESHO while maintaining the efficiency of electrical destruction of objects.

This goal is achieved in that the miniature remote stun weapon - transformer contains a non-conductive body with pockets for unitary cartridges of remote stun weapons, a source of electrical energy, a generator of damaging electrical impulses with a high-voltage output stage with an electric switch to start it, hot and cold combat electrodes of the high-voltage output stage , at the same time, it is made with the possibility of the first and second transformation of the general shape of the body due to the fact that the specified body is an internal and external linearly mutually movable parts with a device for restricting their movement relative to each other into a state for use, which is the first transformation of the general shape of the body and the state for loading , which is the second transformation of the overall shape of the housing, while the electrical switch is located in the inner part of the housing and before the parts are shifted into the state of use, it is closed by the outer part of the housing a, a, when transferred to the state for loading, the pockets of the inner part of the case are opened for loading unitary cartridges in them, while the high-voltage output stage is located in the space of the inner part of the case between the pockets of unitary cartridges.

An additional feature is that the socket for charging the source of electrical energy, which is a battery or a supercapacitor, in the inner part of the housing is opened for access during the second transformation of the overall shape of the housing.

An additional feature of the transforming weapon is that the device for restricting the movement of body parts relative to each other can be made in the form of a separate unit, or in the form of a spring fixation device with counterparts made on the said body parts.

An additional feature of the transforming weapon is also that it has a safety electrode located in the pocket of the unitary cartridge of the inner part of the case and with one end adjacent to the cold combat electrode, and with the other end forming a spark discharge gap with a hot combat electrode through the series circuit of the unitary cartridge located in the corresponding pocket. hot combat electrode.

Brief description of the drawings.

Fig. 1. Appearance of the DESHO transformer in the protection position. Two kinds.

Fig. 2. DESHO transformer with the lower cover of the inner case removed, (the outer case is removed from the DESHO).

Fig. 3. DESHO transformer with loaded firing cartridges and the top cover of the inner case removed (the outer case is removed from the DESHO).

Fig. 4. DESHO transformer in the position of transformation for the production of a shot.

Fig. 5. DESHO transformer in the position of transformation for loading with cartridges.

Fig. 6. View of the DESHO with a safety electrode in the pocket.

Fig. 7. Two views from one side of the working model of the DESHO transformer with rubber coating and without rubber coating in protection transformation.

Fig. 8. Two views from one side of the working model of the DESHO transformer in the transformation of loading and the transformation of the production of a shot.

Fig. 9. Type of DESHO with rubber coating and without rubber coating in the loading transformation.

Fig. 10. View of DASHO in hand in protection transformation.

Fig. 11. View of the DASHO in the hand in transformation in the transformation of the production of a shot in the hand.

Implementation of the invention

Fig. 1. Inner non-conductive case 1, outer non-conductive case 2, combat electrodes 3 of contact action, firing cartridges 4 (unitary cartridges, cartridges), housing blocking engine 5, recess 6 locks, rubberizing 7 of the switch window.

Fig. 2. Inner case 1, electrodes 3, channels 8 for the passage of high-voltage conductors to electrodes 3 (conductors not shown), slider 5 for blocking the cases (removed), lock 9 for the safety position of the cases, slider 10, lock 11 for the working position of the cases, springs 12 for locks, the channel 13 of the conductor of the connector of the firing cartridges 4 (the conductor is not shown), the bottom cover 14 of the inner case 1 (removed).

Fig. 3. Inner case 1, electrodes 3, cartridges 4 in the cartridge pockets of the case 1, high voltage transformer 15, start switch 16, inverter 17, battery 18, charging socket 19, top cover 20 of the inner case (removed).

Fig. 4. To fire a shot from the DESHO, the user, while holding the DESHO in his hand with his thumb, presses the housing blocking slider 5, moving it forward towards the electrodes 3. At the same time, the slider 5 connected to the slider 10 moves it forward and the slider interacts with the reciprocal bevel of the lock with its bevel 9 of the safety position of the hulls makes it also move inside the hull. The lock 9, compressing the spring 12 of the lock, extends from the recess 6 of the housing 2 and slides into the housing 1. When the lock 9 disengages from the housing 2, the housing 1 moves forward, moving out of the housing 2. When the recess 6 of the housing 2 is brought to the lock 11, its spring 12 vigorously pushes the lock 11 into the recess 6 and thus blocking the movement of the housings relative to each other. This position of the hulls is the first transformation of the general form for firing. Turning the DESHO in the palm of your hand by 360° and directing it with the end with electrodes 3 to the target (biological target (bio-target), the offender), the user shifts the slider of the switch 16 opened in the window 21 of the housing 2 (rubber coating 7 in the figure is removed) to the start position of the DESHO. In this case, the inverter 17 starts to work and the high-voltage transformer 15 generates a striking high-voltage electric current supplied to the contact electrodes 3 through the conductors of the channels 8. The high-voltage transformer in the shown version is a high-voltage output stage, but in other versions it can be replaced by a high-voltage output stage of a different circuitry, for example, a high-voltage cascade generator with pre-ionization (pre-ionization) of the spark channel of the striking electric current. From the electrodes 3, a high-voltage electric current is supplied to the conductors of commercially produced AO "RTEH-NO" firing cartridges with high-voltage initiation of a propellant charge (such cartridges are described, for example, in [3]). The closure of the initiation circuit of the cartridges is formed as a result of their serial connection by a conductor in channel 13. The propellant pyrotechnic substance in the cartridges is ignited by a high-voltage spark discharge of a shocking electric current passing through it. There is a throwing of conductors from the cartridges at the target and at the same time breaking the initiating circuit of the cartridges. Probes of cartridges with conductors are fixed on the target with needles with barbs, and through the current conductors stretched from the DESHO, a shocking voltage of electric current from the electrodes 3 is supplied to the target. The use of sliding or push-button switches with fixation makes it possible to carry out the "arrest" mode at the place of use and use the "Safe Escape" program with subsequent compensation to the user of the cost of the DESHO by the manufacturer. (“Safe Escape” program) [4]. The first transformation of the body with a flip in one hand and the inclusion of a DESHO for a shot takes no more than 1.0-1.5 s. When the switch 16 is turned off, 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 biotarget by current ducts with probes attached to it. To resume immobilization of the target, it is enough for the user (for example, a law enforcement officer in case of non-compliance of the offender with his requirements) to turn off the switch 16 again. without breaking the conductors leading to the first target. If it is necessary to remove the spent cartridges after hitting the target and reload the DESEW with new cartridges, the user turns off the DESEW with switch 16, breaks the current ducts leading to the target, and reloads the DESEW as indicated in the description of Fig. 5. The device for preventing the housings from shifting relative to each other and fixing them in the state of the first transformation is performed mainly in the form of a separate unit with locks controlled by a finger slider as shown in the figures, but in another simplified and more budgetary version it can be made in the form of a spring fixation on wrung out elastic elements made directly on the parts of the body when they are molded from thermoplastics.

Fig. 5. If it is necessary to discharge or recharge the DESHO or charge the battery, the user performs the actions described for the first transformation of the body, and then, pulling the body 1 out of the body 2, presses the body blocking slider 5, moving it back relative to the electrodes 3. In this case, the slider 5 connected to the slider 10 moves it back and the slider with its bevel interacting with the reciprocal bevel of the lock 11 of the working position of the housings. The lock 11, compressing the spring 12 of the lock, extends from the recess 6 of the body 2 and slides into the body 1. When the lock 11 disengages from the body 2, the body 1 moves even further forward from the body 2 until the limiter 22 of the body 2 stops at the end of the groove 23 of the body 1 This position of the hulls is the second transformation of the general shape for loading and the maximum distance of shifting the hulls relative to each other. In this position, it is possible to remove the spent cartridges from the pockets of body 1, load new cartridges, discharge the DESHO and charge the battery (in rechargeable battery versions of the DESHO (see below) and through the charging socket 19. When loading and holding in the DESHO, as well as recoil actions during shot, the cartridges are held in the pockets by their steps resting against the reciprocal steps of the pockets.

The charging socket 19 is located inside the housing 1 in order to prevent the occurrence of "capacitive breakdown" [5] on the user and the corresponding "fear of one's own weapon" by the user. The electrically conductive parts of the start switch 16 are separated from the user's finger by a sufficient distance of the slider or switch button, which is greater than the length of the electric spark discharge developed during the "capacitive breakdown", while the window 21 can be either rubberized (as in the figures above), or not rubberized, or rubberized with sticky peripherals can be installed optionally (and attached to the DESHO as a material occasionally consumed when charging the battery), so the only weak point for the development of "capacitive breakdown" is the battery charging socket. In the proposed design, the connector is removed inside the housing 1 closed by the housing 2 in the mode of the first transformation of the housings, which completely eliminates the development of "capacitive breakdown" on the user.

Fig. 6. The high-voltage transformer 15, which produces a striking high-voltage electric current, is located in the space of the housing 1 between the pockets of the cartridges 4. This arrangement of the high-voltage output stage allows the high-voltage current-carrying parts and, most importantly, the "hot" output (hot end) of the high-voltage output stage to be removed from the user's fingers as far as possible. At present, before the advent of new generations of high-voltage capacitors, only high-voltage transformer output stages with preionization can be used for the production of high-voltage miniature cascade generators for a microsized DESEW, due to the fact that in miniature sizes it is impossible to have an output high-voltage pulse transformer with an effective pulse duration for use in DESEW with sufficient open circuit voltage and sufficient amplitude at a standard load (1000 ohms). In this case, the division of electrodes into "hot and cold" is also inevitable in a cascade generator of both classical types (Cockcroft-Walton, Marx, etc.) and cascade generators with preionization. The proposed DESHO uses a high-voltage transformer output stage with preionization, which means that one output end of the high-voltage winding of the transformer is hot, and the other end, connected to the preionization circuit, transmits high-voltage potential to all conductive parts of the inverter, power source, switch and charging socket and is cold. The defeat of the user from the parts of the high-voltage striking (combat) electric current of the DESHO is possible only if the parts of the user's hand can serve as a conductor from the hot end of the transformer to the cold one. To prevent the user from being hit by the combat electric current of the DESHO as a result of non-initiation of one of the cartridges when fired, in the pocket of the cartridge corresponding to the cold electrode 3 and the end of the transformer connected to the preionization circuit, there is a safety electrode in the form of a conductive track 24, one end of which is adjacent to the cold electrode 3, and the other end is located a short distance from one exit 25 into the cartridge pocket of the firing cartridge connector conductor located in the channel 13 of the housing 1. The other exit 26 of the conductor of the firing cartridge connector is located in the cartridge pocket corresponding to the hot electrode 3 (not indicated in Fig. 6). The combat discharge of the DESHO can hit the fingers of the user's hands if the pocket cartridge corresponding to the electrode 26 is not initiated when the DESHO is started. Cases of non-initiation of pyrotechnic charges of DESD cartridges during high-voltage initiation of firing cartridges occur because the process of initiating pyrotechnic charges is probabilistic and the reliability of initiating two pyrotechnic charges in two series-connected cartridges depends on the frequency of generation of high-voltage damaging pulses by the DESD output stage. The frequency of discharges may decrease, for example, with an extremely discharged power supply of the DESHO. If the cartridge is not initiated by the corresponding hot electrode 3, the high-voltage potential hits the electrode 25 and thus turns out to be close enough to the finger of the user who presses the switch 16. A high-voltage spark breakdown by a combat electric current is possible on the finger and hand of the user with a sliding discharge in the event of the slightest violation or wetting of the body insulation of the DESHO , which is also encountered in the practice of using DESHO. In the case of non-initiation of the pocket cartridge corresponding to electrode 26, the high-voltage potential through the serial circuit of the non-initiated cartridge and further from electrode 25 excites a spark discharge between electrode 25 and the end of the conductive track 24 at the end of the pocket near electrode 25. In this case, the distance of the spark discharge gap between electrode 25 and the end of the current-conducting track 24 at the end of the pocket is selected more than the length of the sliding discharge on a specific material of manufacture of the housing 1 between the electrode 25 and the end of the conductive track 24 at the end of the pocket while limiting the "cutoff" of the open-circuit voltage of the output stage at the effective breakdown distance of the layer of the pyrotechnic composition of the cartridge with high-voltage spark initiation according to [3] and similar designs of cartridges. In another version, the discharge gap may be located not on the case material as a sliding discharge gap, but in the air (in the pocket space) as an air gap, but in this case, for its device, it is necessary to separate the end of the cartridge and the partition with the electrode 25, which will increase the length of the DESHO case by a value of at least 5-6 mm, which is impractical.

The proposed DESHO in the wearing state currently has the smallest weight and size dimensions in the world (84x54x20 mm), the weight in the charged state of the cartridge is 0.096 kg, with an output electric power of up to 10 W. The length of the DESHO in the state of the first transformation for use is 110 mm, that is, even in the state for direct use, it is somewhat less than that of the analogue.

Such dimensions make it possible to constantly carry the DESHO in pockets or women's handbags, without creating inconvenience and without protruding from under clothes. Reducing the length of the proposed DESHO is currently impossible in principle, since in the case of such a reduction, the safe holding of the weapon by the user’s hand becomes dangerous for the user due to the fact that even with a slight reduction in dimensions (only a few millimeters, with a difference in uniform casting properties and the quality of castings of body materials , and roughness of molds) the length of a high-voltage electric spark breakdown by a sliding discharge (along the body) can theoretically reach the user's fingers, and in conditions of high humidity, fog, and precipitation, the user will definitely be hit in the hand by the electric impact of his own weapon.

Due to the low cost, the proposed DESHO can be produced as a one-time non-rechargeable or with a limited amount of use until the battery runs out. In that case, the battery is replaced by an electric battery and the charging socket 19 is excluded, which further reduces the cost of the DESHO. The simplicity of the design of the proposed DESHO and, accordingly, its low cost for the manufacturer makes it possible to carry out the function of self-defense of citizens under the Safe Escape program.

The above description discusses the preferred embodiments of the present invention, which can be changed 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 prototype of the prior art did not reveal an identical match of the essential features of the invention. The proposed differences of the claimed electroshock weapon, which directly follow from the statement of the purpose of the invention, are not obvious to a specialist in electroshock devices.

Sources of information

1. RF patent No. 2744303.

2. RF patent No. 2750466.

3. RF patent No. 2701290; RF patent No. 2607701.

4. 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

5. Ladyagin Yu.O. "Remote electric shock weapon". M.: Publishing House of the Stalingrad Foundation, 2017, pp. 308-312.

Claims (4)

1. A miniature remote electroshock weapon-transformer contains a non-conductive body with pockets for unitary cartridges of remote electroshock weapons, a source of electrical energy, a generator of damaging electrical impulses with a high-voltage output stage with an electric start switch, hot and cold combat electrodes of the high-voltage output stage, characterized in that what made with the possibility of the first and second transformation of the overall shape of the body by the fact that the said body is an inner and outer linearly mutually movable parts with a device for limiting their movement relative to each other in the state for use, which is the first transformation of the overall shape of the body and the state for loading, which is the second transformation of the overall shape of the case, while the electric switch is located in the inner part of the case and before the parts are shifted into the state of use, it is closed by the outer part of the case, and when transferred to the state for loading, the pockets of the inner part of the case open for loading unitary cartridges in them, while the high-voltage output stage located in the space of the inner part of the body between the pockets of unitary cartridges. 2. A transforming weapon according to claim 1, characterized in that the socket for charging a source of electrical energy, which is a battery or a supercapacitor in the inner part of the case, opens for access during the second transformation of the overall shape of the case. 3. A transforming weapon according to claim 1, characterized in that the device for restricting the movement of body parts relative to each other can be made in the form of a separate unit, or in the form of a spring fixation device with counterparts made on the mentioned parts of the body. 4. A transforming weapon according to claim 1, characterized in that it has a safety electrode located in the pocket of a unitary cartridge of the inner part of the case, and at one end adjacent to the cold combat electrode, and at the other end forming a spark discharge gap with a hot combat electrode through a serial circuit a unitary cartridge located in a pocket corresponding to a hot combat electrode.

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