RU2632828C2 - Isolated bullets and cartridges resw and resw for their use (versions) - Google Patents

Abstract

FIELD: weapon and ammunition.

SUBSTANCE: group of inventions refers to a multi-charge remote electric shock weapon (RESW) for bullets and cartridges shooting. The invention can be used for self-defense in police techniques and techniques for immobilizing wild or rabid animals. Bullets and cartridges REWS have electrically insulating protective coverings, not allowing their initiation before destruction of covering. A multi-charge REWS with removable clips or a permanent magazine for bullets or cartridges or pockets for placing several cartridges using bullets and cartridges with electrically insulating coating, have devices for destroying the coating of bullets and cartridges immediately before the shot.

EFFECT: ensuring the insensitivity of bullets and cartridges to electrostatic discharges and weather conditions, reducing the size of remote electric shock weapons, the possibility of demonstrating electrical discharge.

16 cl, 29 dwg

Description

The technical field to which the invention relates.

The invention relates primarily to unitary cartridges and cartridges (double cartridges) of remote electroshock weapons (DESO) and DESO for the use of such cartridges or cartridges

The level of technology.

Analogs of unitary cartridges for DESHO by patent search and prior art reviews were not found.

As a prototype of the alleged invention selected unitary cartridge throwing electric wires according to the patent of the Russian Federation No. 2308668. According to Russian terminology with an internal barrel channel, a shell with a current lead and a device for securing to the target and propelling charge having an initiating electrode brought to the rear end of the cartridge sleeve is placed in a polymer case, which is a sleeve of a unitary cartridge cartridge of a “barrelless type”. One end of the laying of the current lead is fixed to the front end of the cartridge sleeve and is a current-conducting electrode. When fired from a spark pulse of a high voltage shock discharge DESHO, a projectile that is sensitive to a high voltage electric spark discharge accelerates a projectile that is ejected from the barrel to the target. When a projectile is flying from its casing or cemented wire laying without a casing, a current-carrying wire is pulled until the projectile hits the target and is attached to it by the fixing device on the target.

Serial unitary cartridges for the given patent:

http://supershoker.ru/produkciya/ditans/kartridzh_ktr/

The disadvantages of unitary cartridges with the initiation of a high-voltage spark discharge shot are similar to those of double cartridges described in detail below.

Known cartridge (double cartridge) according to the patent of the Russian Federation No. 2351871.

The cartridge consists of an inner casing of polymer mass with two barrel channels, in which are installed probes (shells) with devices for securing to the target (needles with horns) and pyrotechnic propelling charges.

Throwing charges in serial cartridges "BTER" and "DEK" according to this patent:

http://www.shoker.ru/shop/accessories/bter/

http://www.shoker.ru/shop/mvd/dek/

They are plastic caps with electrodes that are screwed onto a thread in the back of the barrel channels and equipped with a propellant that is sensitive to an electric spark initiating pulse.

The electrodes of propelling charges are interconnected by a connecting conductor laid outside the inner casing. Between the barrel channels is a cavity divided by an insulating partition into two parts. In each of the two parts of the cavity (pockets) there is a laying of an electric wire (current lead) related to one barrel channel, one end of which is connected to one of the probes and the other to the cartridge case and represents a current-conducting electrode. The inner case is placed in the outer case and fastened to it by means of a non-separable connection (glue). When fired, high-voltage spark-discharged electric current sources of throwing accelerate probes that are ejected from the barrel channels to the target. When flying probes from the pockets of the cartridge, the current lead is pulled out until the projectile hits the target and is secured to it by the device for securing to the target

A drawback of a cartridge is the inability to fire only one cartridge when another cartridge (or several cartridges) is close to it. When the cartridges are close (for example, in a clip or in a permanent magazine, pressed against each other and pressed by the spring of the clip or magazine), the initiation of the first cartridge initiates the closest cartridge and then subsequent cartridges, since the length of the high-voltage shock discharge is simultaneously the initiating discharge of the pyrotechnic throwing devices of the cartridge. To effectively hit targets with electroshock weapons (breakdown of tight clothing), a significant length of the spark breakdown distance in the air is equal to 20-40 mm. In this case, taking into account the surface discharge inevitably developing on the TESA surfaces (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 cartridge (or cartridges of compactly arranged rows in other designs of multi-charged TESA) can be initiated at the same time as mechanical destruction of the DESHO body or at the same time throwing all the probes into the target.

Initiating adjacent cartridges when initiating the first cartridge creates significant difficulties in the construction of a multiply charged DESHO. To prevent the initiation of adjacent cartridges when initiating the first cartridge, it is necessary to increase the distance between the cartridges, which increases the dimensions of the multiply charged DESHO to unacceptable sizes. Another disadvantage of the analogue is the possibility of the cartridge being triggered outside the DESO when exposed to an electrostatic discharge accumulated on the user's clothing and body. Such a non-standard operation is possible when an electrostatic discharge jumps on any of the current-carrying electrodes, then on the conductive laying of the electric wire, and then through one throwing charge along the connecting conductor to the second throwing charge and on the laying capacity of the electric wire. In this case, both propelling charges are triggered with the cartridge operating abnormally with the release of shock probes with sharp needles and possible mechanical injury to the user point-blank.

In addition to the listed disadvantages, TESO on cartridges does not have the ability to demonstrate a combat discharge to the enemy (with the aim of psychological impact to reduce aggressiveness) or contact use with an attached cartridge, since when supplying high-voltage combat potential to TESO combat electrodes, immediate initiation of the cartridge’s electrodes is always adjacent to them cartridge propellant shots. Thus, TESA on cartridges can be used in contact (or a demonstration of a combat electric discharge) only with a cartridge detached from the weapon, which in fact already excludes its quick remote use.

At present, the multi-charged TESA on double cartridges (cartridges) initiated by a high-voltage shock discharge TESA is not known to the prior art. It is also unknown that a single-charge TESA on double cartridges initiated by a high-voltage shock discharge, which has the possibility of using TESA in contact with an attached cartridge.

DESO "Advanced Taser M-26" is also known, which is described in US Pat. No. 6,663,412, in which conductors that are aimed at the target, to which high voltage is supplied from a high-voltage pulse generator located in the weapon body, are used to target a biological target. The conductors are delivered to the target by throwing conductors from a firing cartridge with a pneumatic throwing energy source. The cartridge is mounted in the DESO using a mechanical connector, and the projectile is energized by the projectile being energized by a high-voltage pulse generator.

The described DESHO has a single cartridge that is rigidly connected to the device using a mechanical connector, which significantly limits the ability to quickly fire a second shot. To produce a second shot, the shooter must disconnect the shot cartridge and attach a new one. At the same time, to change the cartridge, the shooter is forced to use his second hand, which may be damaged, or is occupied by the police with the second control weapon (firearm).

Another disadvantage is that the device with the attached cartridge cannot be used for the psychological demonstration of a high-voltage combat discharge to reduce aggression in the troublemaker, and most importantly in a contact way without initiating a cartridge throwing source. To use the device in a contact way without firing a shot, you must first disconnect the cartridge, which takes time, and again engages the second hand.

The prototype of a multi-charged DESO on unitary cartridges is a weapon according to the patent of the Russian Federation No. 2305245 and its development according to the application PCT WO / 2009/025575 A1 (PCT / RU 2007/000456) using the above described unitary cartridges located in the clip or permanent store according to the patent of the Russian Federation No. 2308668, with this shot is carried out by pressing the trigger element (key) which, by mechanical connection with the cartridges, moves a pair of cartridges from the holder to the position of the shot. At the moment the cartridges are set to the firing position, the launch element includes an electronic weapon striking circuit that initiates a propellant in the cartridges with high-voltage electric pulses. In this case, a shot occurs, as a result of which probes are fired at the target with current paths through which a striking electric discharge is transmitted to the target.

The extraction of cartridges and the cessation of the effect on the target of a damaging electric discharge is carried out when releasing the starting element. After this, the cycle can be repeated many times.

Unitary cartridge used in weapons prototype according to PCT application WO / 2009/025575 A1 (PCT / RU 2007/000456):

http://supershoker.ru/produkciya/desho_pdg-s5/

http://www.google.com/search?um=1&ie=UTF-

8i & hl = ru & tbm = isch & source = og & sa = N & tab = wi & q = PDG-S5

with a sleeve length of 55 mm, has an open initiating electrode of a propelling charge.

The operability of the described multi-charged DESHO is based on the long course of both cartridges advanced to the position of the shot. In the PCT application formula WO / 2009/025575 A1 (PCT / RU 2007/000456), numerical ratios are indicated at which the inability to initiate subsequent cartridges when initiating the first cartridges is achieved and the main value from the indicated cartridges, the amount of cartridges moving to the firing position “F”.

The disadvantage of DESO according to PCT application WO / 2009/025575 A1 (PCT / RU 2007/000456) is the inability to reduce the overall dimensions (length of the weapon) due to the need to have the amount of movement of cartridges "F" not less than indicated.

The long course of cartridges before a shot allows the weapon in question to be used in contact (or to demonstrate a combat electrical discharge) in a state loaded with cartridges. For such use, using DESHO in contact or demonstrating a combat electric discharge, the cartridges do not advance to the position of the shot by launching current on the DESHO combat electrodes with a separate button.

Another disadvantage of the prototype is the possibility of triggering the cartridge outside the DESO when exposed to an electrostatic discharge accumulated on the clothes and body of the user. Such a contingency operation is possible when an electrostatic discharge jumps onto the initiating electrode brought to the rear end of the cartridge sleeve, and then through a propelling charge to the stacking capacity of the electric wire. In this case, the initiation of a propellant charge occurs with the abnormal response of the cartridge with the release of the damaging probe with a sharp needle and possible mechanical injury to the user at point-blank range.

The main disadvantages are the impossibility of using the DESHO of the considered design under atmospheric conditions that increase the length of the surface discharge (for example, wet weather, in fog, sea fog, and salt spray), and in atmospheric conditions that create conductive films or layers on the external and internal surfaces of the weapon ( e.g. rain, sleet). In all these cases, a shot from a multiply charged DESHO causes the inevitable abnormal operation of all (or most) charged cartridges upon initiation of the first cartridge.

The length of the cartridge, the progress of the cartridge from the holder or magazine to the firing position, and accordingly the dimensions of the prototype weapons using it, cannot be reduced at present. If the effective breakdown distance of a high-voltage damaging discharge (30–40 mm) in the air is selected for hitting the target, it is impossible to exclude the initiation of subsequent (lower) cartridges in a clip or magazine when initiating the first (upper) cartridges. The length of the cartridges and the distance of their movement from the cartridge or magazine to the firing position are connected in the prototype weapons with strict ratios, the violation of which entails either a decrease in the breakdown efficiency of thick or winter clothes, or a 100% chance of the operation of all cartridges in the cartridge or magazine during the first shot with destruction of weapons and injury to the user. The use of weapons of the prototype in wet weather, fog, rain, wet snow, salt fog and splashes is completely excluded due to the increase in the distance of the surface discharge on the parts of the weapon and clip (magazine) or simply on a film of water.

Patent search and prior art reviews of analogues and prototypes of multi-charged DESHOs on cartridges (double cartridges) with cartridges that are movable before firing and the possibility of contact action in a charged state without a shot with high-voltage initiation of the shot were not found.

As an indirect analogue or prototype of a double-charged TESA on cartridges (double cartridges), a double-charged weapon was selected according to the RF patent No. 2461785, although the use of unitary cartridges and cartridges cannot be considered similar due to various principles of constructing TESA on cartridges and cartridges.

The weapon with a stretch selected by the “analog prototype” has a body, battle electrodes, a power source, a voltage converter, a high voltage generator, a trigger element and unitary cartridges with a current lead. Two pairs of cartridges are installed in special pockets in the weapon body and are fixed with spring locks. One pair of cartridges made with the possibility of automatic extraction after the first shot when releasing the trigger element pressed to produce a shot. Simultaneously with the extraction of the first pair of cartridges, the high-voltage voltage is switched to the second pair of cartridges produced by the extractor, which is also a long-stroke air-surface switch. The disadvantage of the prototype is the impossibility in a charged state of the cartridges to demonstrate an electric discharge for psychological impact on the target or contact effects on the target without firing a shot. The second disadvantage is the impossibility of using the weapon in question in a humid atmosphere, during rain, wet snow, in conditions of salt fog. If you try to fire the first pair of cartridges, the second pair of cartridges will immediately initiate, since with the compact design of the weapon in question in the air-surface switch, it is impossible to achieve discontinuous distances of the high-voltage initiating electric current excluding surface discharge on a wet surface or surface with a water film.

A patent search for analogues and prototypes of small-sized double-charged DESHOs on cartridges (double cartridges) with high-voltage initiation of the shot was not found.

Disclosure of the invention.

The aim of the invention is the creation of a unitary cartridge and cartridge (double cartridge) DESHO devoid of the disadvantages of the analogue and prototype that allows you to create compact samples of DESHO with the initiation of high-voltage shock discharge, including multi-charge, insensitive to electrostatic discharges, allowing use under any atmospheric conditions, and with the possibility contact application or demonstration of a combat electric discharge with an attached cartridge.

It is also an object of the invention to create samples of a multiply charged DEShO with reduced overall dimensions resulting from the absence of the need to have long strokes and significant spacing of cartridges or cartridges to prevent abnormal initiation not affected by electrostatic discharges acting under any atmospheric conditions.

The essence of the invention lies in the fact that in a TESA cartridge containing a case in the form of a sleeve, a projectile with a current lead and a device for securing it to the target, a propellant charge with a shutter, an initiating electrode of a propellant charge emerging from the internal barrel cavity of the housing to the outside of the housing at the rear end of the cartridge housing, an initiating electrode propellant charge is isolated from the outer surface of the cartridge case by an elastic or visco-plastic insulating material with a thickness that does not allow its electrical breakdown When potential idling combat high-voltage discharge DESHO destructible immediately prior to initiation of the propellant charges.

An additional feature is that said electrical insulating material is protected by a durable lid with an opening opposite the initiating electrode above said electrical insulating material.

An additional feature is that the said electrical insulating material is destroyed by a pointed puncture element located directly in the cartridge itself or located in the weapon.

An additional feature is that the insulating material has a predetermined hardness. The essence of the invention also lies in the fact that in a DESHO cartridge (double cartridge) containing a housing or an inner and outer housing, in the form of a double sleeve, shells with stacking conductors and devices for securing to targets, propelling charges with obturators, initiating electrodes of propelling charges emerging from internal barrel cavities of the housing to the outside of the housing at the rear end of the housing, or under the outer shell of the housing, the initiating electrodes of propelling charges are isolated from each other by an elastic or visco-plastic insulating material having a thickness of not allowing its electric breakdown at the potential of the idle combat high-voltage discharge DESHO, breakable before initiation of propellant charges puncture element located directly within the cartridge or located separately from the cartridge into the gun.

An additional feature is that the initiating electrodes of propelling charges emerging from the internal barrel cavities of the housing to the outside of the housing at the rear end of the housing are continued in the form of foil tracks or metallizing coatings or conductors separated by said electrical insulating material.

An additional feature is that said electrically insulating material has a protective cover with an opening for the passage of said puncture element.

An additional feature is that a hole is made in the outer shell of the housing for the passage of said puncture element.

An additional feature is that the said puncture element in the form of a needle is located directly at the end of the casing.

The essence of the invention also lies in the fact that in a multiply charged DESh, with a high-voltage initiation of a shot containing a housing, combat electrodes, a removable clip with a movable shutter, throwing cartridges of electric wires initiated from an electronic striking circuit, an independent contact action key, the cartridges have an initiating electrode electrical insulation device propellant charge, the movable shutter of the holder has needle-shaped elements for the destruction of the electrical insulation of the initiating electrodes of the cartridges before the installation of cartridges to the firing position or after setting the cartridges to the firing position, an independent contact action key is installed under the index finger of the user's hand, the weapon body consists of two parts moving relative to each other, the weapon body consists of two parts moving relative to each other, the inclusion of the initiating cartridges of an electronic hitting circuit and the supply of cartridges to the position of the shot occurs when they are mutual movement.

An additional feature is that in the movable shutter of the cage spring-loaded protrusions are installed interacting with the rear ends of the cartridges.

An additional feature is that the electronic circuit generating the damaging pulses is switched on with a time delay after the cartridges are set to the position of the shot.

The essence of the invention also lies in the fact that in a multiply charged DESh with a high-voltage initiation of a shot containing a housing, combat electrodes, a trigger element, throwing cartridges of electric wires initiated from an electronic weapon striking circuit, the cartridges have a device for electrical insulation of the initiating electrodes of propelling charges, Deshaw contains a permanent store, the shutter movable relative to the housing and the magazine, in turn, having a spring-loaded part movable relative to it, in turn, having a needle idny element or elements acicular insulation failure initiating cartridges electrodes cooperating with the trigger element in turn interacts with a switch also electronic circuit lethal weapons, the housing has abutment protrusions body interacting with cartridges.

An additional feature is that the electronic circuit that generates the damaging pulses is switched on with a time delay after the cartridge reaches income until the housing protrudes stubbornly.

The essence of the invention also lies in the fact that a multi-charged DESPO, with a high-voltage initiation of a shot containing a housing, combat electrodes, a release button to initiate shots from an electronic striking circuit, use cartridges with an electrical insulation device for the initiating electrodes of propelling charges, DESO contains pockets for placing cartridges, more than one the shutter button, whispering holding the cartridges in a charged state and whispering holding cartridges after pressing the shutter buttons, You puncture the electrical insulation of the initiating electrodes of the propelling charges interacting with the release buttons, spring devices for removing used cartridges.

The essence of the invention also lies in the fact that in a multiply charged TESW with a high-voltage initiation of a shot containing a housing, combat electrodes, the release button for initiating shots from an electronic striking circuit uses cartridges with a device for electrical insulation of the initiating electrodes of propelling charges with an integrated puncture element, the DESO contains pockets for placing cartridges, more than one trigger button, which are simultaneously the whispers of holding cartridges after pressing the trigger buttons, whispered holding cartridges in a charged state, spring-loaded device for removing used cartridges.

Brief Description of the Drawings:

Figure 1. Appearance of an isolated cartridge without a puncture element (two types from different sides).

Figure 2. A cartridge without a puncture element in a section.

Figure 3. Appearance of an insulated cartridge without a puncture element (two types from different sides).

Figure 4. Inner cartridge case without puncture element.

Figure 5. Cartridge without a puncture element in the section.

6. Appearance of an insulated cartridge with a puncture element.

7. Inner cartridge case with puncture element.

Fig. 8. Cartridge with a puncture element in the section.

Figa and Figb. Appearance of multi-charged DESHO on isolated cartridges in the folded and unfolded state of the case.

Figure 10. The holder of the multiply charged DESHO (two types) is a full view and a view without a part of the outer case.

11. Shutter holder multicharged DESHO.

Fig. 12. Multiply charged DESHO on cartridges without a puncture element before a shot (left half of the case removed).

Fig.13. Multiply charged DESHO on cartridges without a puncture element at the time of the shot (the left half of the case is removed).

Fig.14. Appearance of a multi-charged DESHO on insulated cartridges without a puncture element.

Figa and Figb. Appearance of a multi-charged DESHO on insulated cartridges without a puncture element before a shot (left half of the case removed).

Figv Multiply-charged DESHO on cartridges without a puncture element before a shot (cut from above).

Figa and 16b. Multiply charged DESHO on isolated cartridges without a puncture element at the time of the shot, (left half of the case removed); Figv (section from above)

Fig.17. Appearance of a double-charged DESHO on insulated cartridges without a puncture element before firing.

Figa and Figb. (left half of the case removed). Double-charged DESHO on cartridges without a puncture element before firing.

Fig.19. (left half of the case removed). Double-charged DESHO on cartridges without a puncture element at the moment of firing with one cartridge (left button is pressed).

Fig. 20 Appearance of a double-charged DESHO on insulated cartridges with a built-in puncture element (two views from different angles).

Fig.21. (left half of the case removed). Double-charged DESHO on cartridges with a built-in puncture element before firing.

Fig.22. (left half of the case removed). Double-charged DESHO on cartridges with a built-in puncture element at the time of the shot (the left button is pressed).

Fig.23. (left half of the case removed). Double-charged DESO on cartridges with a built-in puncture element at the time of extraction of the used cartridge (left button released).

The implementation of the invention.

Figure 1. The cartridge consists of a housing 1 in the form of a sleeve of circular or multifaceted cross-section in the cavity of which a projectile and a propellant charge are located.

Figure 2. The cartridge contains a housing 1 made of a polymeric material, the internal cavity 2 of which is a barrel, a projectile 3 with a current lead 4 and a fixing device 5 on the target in the form of a needle with a horn, a propellant charge housing 6 with a shutter, an initiating electrode 7 of a propellant charge 8 exiting from the inner barrel cavity 2 of the housing 1 to the outside of the housing to the rear end of the cartridge housing, covering the outlet of the electrode 7 is elastic (for example, rubber or an elastic adhesive film or a curable silicone compound) or viscoplast -screw (e.g., polyethylene alloy paraffin) insulating material 9 with a thickness which does not allow its electrical breakdown at full capacity idling DESHO combat high-voltage discharge. The front end contains a current lead, for example, in the form of a metallized coating.

Immediately before the moment of firing, a puncture element in the form of a metal needle located in the DESO (which is its part) and driven by the trigger element of the DESO punctures a layer of electrical insulating material 9. One pole of high damaging voltage through the front current lead of the cartridge and the conducting projectile 3 is applied to the throwing electrode 10 , and the second pole through the piercing needle to the initiating electrode 7. The high voltage potential is then applied to the spark gap inside the meta real charge 8, which is filled with a pyrotechnic mixture (pyro mixture) sensitive to a spark discharge. The pyro mixture is ignited and throws a projectile with a current path from the barrel of the cartridge.

Another embodiment of the cartridge provides for the protection of the insulating material 9 with a polymer protective cover with an opening for a piercing device (similar to the outer protective case of the cartridge; Figures 4 and 5 are described). In this case, the protective cover is attached (for example, glued to the insulating material 9 or protrusions (shoulders) of the rear perimeter Another embodiment of the cartridge provides a puncture element (for example, a small metal needle located directly in the end face of the cartridge and on top of the electrically insulating material 9.

Figure 3. The cartridge consists of a housing 11 in the form of a rectangle or other shape, for example a cylindrical one (Fig. 3 is a rectangular shape). The housing 11 can be both a main power and an external one, which is a thin-walled protective shell containing an internal power case. Figure 3, the housing 11 is an outer thin-walled protective shell invisible to the figure of the inner power housing. In the thin-walled rear end of the housing 11, a hole 12 is made.

Figure 4. The outer casing 11 (in FIG. 3) has an inner casing 13 inside, in two identical side selections of which are laid the conductors 14. In the rear end of the casing 13 there is a recess with shoulders in which there are extensions of 15 electrodes in the form of metal foil tracks. The recess along with the extensions of the electrodes 15 is poured on the shoulders with elastic or viscoplastic electrical insulating material (of the same type as in the description to Figure 2). The front end of the housing is closed by a bursting disc 16, and on the sides are current leads 17.

Figure 5. The outer casing 11, with the inner casing 13 inserted into it, which contains two identical internal cavities representing trunks, two identical shells 18 with devices 19 for fixing onto targets in the form of needles with a horn, bodies 20 of propelling charges 21 with obturators 22, initiating electrodes 23 propelling charges emerging from the barrel cavities of the housing 13 outside the housing into a recess with shoulders of the rear end of the housing 13 and electrically connected to the extensions 15 of the electrodes 23 in the form of tracks made of metal foil laid on top of each other (on top of each other parallel to the plane of the end face of the cartridge) and isolated from each other by a layer of elastic insulating material 24 (for example, cured with a silicone compound). Laying the conductors 14 (Figure 4) is connected to the shells 18 and the front current leads 17 (Figure 4). In various embodiments, the insulating material may have a protective cover or shell, and not have it. In the variant without a cover or a shell, there is a probability of violation of the integrity of the insulating material as a result of abnormal mechanical influences. In the above cartridge embodiment, the inner case 13 has an outer protective shell 11, in which a hole 12 is made for the passage of a pointed piercing element for puncture of the insulating material and the connection for firing a continuation of 15 electrodes 23. The end of the cases is closed by a bursting membrane 16.

Immediately before the moment of the shot, a puncture element, for example, in the form of a metal needle located in the DESO (and being a part of it) and driven by the DESO trigger through the hole 12, pierces the insulating material 24. One pole of high damaging voltage through one front current lead 17 of the cartridge, one laying of conductors 14 one conductive shell 18, one conductive obturator 22 is applied to one propellant charge 21, and the second pole through the second front current lead of the cartridge, the second laying the second projectile, the second obturator is applied to the second propellant charge. When a needle punctures a layer of insulating material 24 between extensions 15, extensions 15 of the initiating electrodes 23 turn out to be electrically closed.

In this case, the high voltage potential is applied to the spark gap inside the propelling charges 21, from the pyrotechnic mixture sensitive to the spark discharge.

The propellant propellant mixture ignites and throws shells with conductors from the barrel of the cartridge.

6. The appearance of the cartridge with an integrated puncture element may not differ from the cartridge without a puncture element, but in the above embodiment it has a visible part of the needle 26 of the puncture element embedded in the cartridge that extends to the outer surface of the outer thin-walled body 25.

Fig. 7 The outer casing 25 (Fig. 6) has an inner casing 27 inside, in two identical lateral samples of which the conductors are laid 14. In the rear end of the casing 27 there is a recess with shoulders in which 28 electrodes in the form of metal foil tracks are located . A puncture element in the form of a needle 26 is also located in the recess (callouts of Fig. 7 show the needle along its entire length). The recess along with the extensions of 28 electrodes on the shoulders is filled with elastic or visco-plastic insulating material as in the description of FIG. 2. The front end of the housing is closed by a bursting disc 16, and on the sides are current leads 17.

Fig. 8. The outer casing 25 has an inner casing 27 containing two identical internal cavities of the trunks described in FIG. 5, two identical projectiles 18 with devices 19 for fixing onto targets in the form of needles with a horn, casings 20 of propelling charges 21 with obturators 22, initiating electrodes 23 propellant charges coming from the barrel cavities of the housing 27 to the outside of the housing into the recess of the rear end of the housing 27 and electrically connected to the extensions 28 of the electrodes 23 in the form of tracks made of metal foil, located opposite each other (with bent ends for puncture one above the other perpendicular to the plane of the end face of the cartridge) and isolated from each other by an elastic electrical insulating material 24 (for example, a cured silicone compound). When filling in the extensions with 28 compounds, a channel is formed in the filling for insertion into it with the possibility of fairly easy movement without rubbing the puncture element in the form of a needle 26. The needle 26 passes outside the case 25 through a special hole for its passage in a thin-walled case. The end of the housing is closed by a bursting disc 16 and has outputs of the current leads 17.

Immediately before the moment of the shot, the DESHO trigger releases the part of the needle 26 protruding onto the outer surface of the housing or the protective sheath. One high-voltage striking pole through one front cartridge current lead, one laying of the current lead, one shutter is applied to one throwing charge, and the second pole through the second front current lead of the cartridge, the second laying of the current lead of the second shell, the second obturator is applied to the second propellant charge. When a needle 26 punctures a layer of electrical insulating material 24 between the bent ends of the extensions 28 of the initiating electrodes 23, they turn out to be electrically closed. In this case, the high voltage potential is applied to the spark gap inside the propellant charges, which is filled with a pyro mixture sensitive to the spark discharge. The propellant propellant mixture ignites and throws shells with conductors from the barrel of the cartridge.

Figa. DESHO when folded. DESHO consists of a plastic case having a front part 29 and a rear part 30. Parts are assembled from two halves fastened together by a screw or glue.

In the front part 29 are placed combat electrodes 31, a laser target indicator 32, a clip 33 for unitary cartridges with an insulating material of an initiating electrode of a propelling charge (as described in FIG. 2) inserted into the shaft of the weapon store located in the front part 29, a spring-loaded clip latch 34 of the clip, a spring-loaded curtain 35 ammo protection. In the rear part 30 there is a fuse 36, a button 37 for unfolding the weapon from the compact state to the normal state and for applying the “stop and grab” mode, contact trigger 38, a replaceable battery compartment 39.

Figb. DESHO in the unfolded state (before firing). To unfold the DESHO, the user presses the button 37 while the front part 29 under the action of the compressed springs (Fig. 12 position 44)) moves away from the rear part 30.

Figure 10. Full view of the clip and view with the removed part of its body. Cartridge feed spring not shown.

The clip 33 with the unitary cartridges 40 (as described in FIG. 1 and FIG. 2) and the shutter 41 are externally arranged similar to the clip of the prototype weapon according to PCT application WO / 2009/025575 A1 (PCT / RU 2007/000456).

11. The metal shutter 41 of the cage has metal needle-shaped elements 42 and, in some embodiments, spring-loaded protrusions 43.

Fig. 12. Before firing, the DESHO is removed from the fuse 36, which is an electric switch that supplies power to the electronic circuit of the weapon. The front part 29 of the casing is moved relative to the rear part 30 of the casing by expanded return springs 44. The protrusions 45 of the casing 30 located above and below the casing 30 (the protrusion from the bottom is shown in FIG. 12) are opposite the bolt 41 of the cage 33, which does not interact with the needle-shaped cartridges 40 elements 42. The springy protrusion 46 of the housing 30 does not interact with the microswitch 47 launch electronic circuitry 48 weapons.

Fig.13. When the shot starts under the muscular effort of a compressible hand of the user's hand, the front part 29 of the body spring-loaded by return springs 44 moves back relative to the fixed back part of the body 30 resting on the hand by compressing the return springs. The protrusions 45 of the weapon body 30 located above and below the body 30 (the protrusion from the bottom is shown in Fig. 13) press the shutter 41, which compresses its cartridge return springs, pushing its cartridge return springs 40 in the holder towards the muzzle of the weapon. In this case, the needle-shaped elements 42 of the shutter 41 can pierce the insulating material of the initiating electrodes of the cartridge, and can only “poke” it not to a complete puncture, which depends on the set intrinsic hardness of the insulating material and the friction resistance of the movement of the cartridges. When the cartridges are brought to an abutment 49 in the front part 29 of the housing or with some non-profit to the abutments 49, the protrusion 46 includes an internal microswitch 47 and the electronic part 48 of the weapon starts to work, which gives out damaging voltage to the fighting electrodes 31 which are electrically connected to the cartridge contacts at the location of the abutments 49. When the cartridges 40 are brought to a stop 49, the electrically insulating material of the cartridges is pierced to the end with any chosen own hardness. In this case, a high-voltage electric discharge passes through the propellant charges of the cartridges along the initiating electrodes of the cartridges which are no longer protected by electrical insulation material (it is pierced by the needle-shaped elements 42 of the shutter 41) and closes through the shutter 41. The spark discharge passes through the pyrotechnic mixture of the propellant charges of the cartridges, as a result of which it is initiated and two rounds are fired simultaneously. Shells with conductors (wires) from the barrels of cartridges fly into the target and hit it with a high-voltage electric discharge transmitted to the target from weapons through the conductors. Before the movement of cartridges during firing and during firing, the cartridges subsequent to the upper cartridges in the holder have an intact layer of electrical insulation material of initiating electrodes of propelling charges. The full potential of a high-voltage discharge generated by an electric circuit of a weapon cannot penetrate even a single layer of electrical insulation material of one cartridge, and even more so two cartridges in a cage lying below the upper cartridges, even if this full potential is applied to them under adverse conditions. Adverse conditions are those conditions when the distances determined from the numerical relationships in the weapon at which it is impossible to initiate subsequent cartridges when initiating the first cartridges and the main value from the indicated ones, the amount of cartridges moving to the firing position indicated in the description of PCT application WO / 2009 / 025575 A1 (PCT / RU 2007/000456) are leveled in conditions of high humidity, fog, rain, wet snow, salt spray and spray. Thus, the initiation of propellant charges of cartridges can occur only after a puncture of the insulating material of two cartridges and the initiation of the first cartridges will not cause the initiation of the underlying cartridges under any conditions.

In another embodiment, when the shot starts, the protrusions 45 of the rear weapon body 30 press the shutter 41, which through the spring-loaded protrusions 43 (11) advance cartridges 40 in a clip towards the muzzle of the weapon. In this case, the needle-shaped elements 42 of the shutter 41 do not pierce the electrically insulating coatings of the initiating electrodes of the cartridges until the cartridges completely bump into the stops 49. Only when the cartridges are pushed into the stops 49 and the shutter forces are applied to the cartridges, the spring-loaded protrusions 43 are compressed and the needle-shaped elements of the shutter 42 are pierced electrically insulating coatings of initiating electrodes of cartridges. With some non-profit to the stops 49, the internal microswitch 47 is turned on, while the electronic part 48 of the weapon starts to work, which gives out damaging voltage to the fighting electrodes 31, which are electrically connected with the contacts in the places of the stops 49.

DESHO can work both in the remote action mode (shots at a target from a distance) and in the contact action mode (direct action of the fighting electrodes 31 on the target’s body) and pressing the contact action trigger 38 mounted on the axis, without moving parts 29 relative to each other and 30. In the contact action mode, a high-voltage electric spark discharge due to the presence of a distance from the fighting electrodes to the current leads of the cartridges (described above as “F” and preventing an electric spark breakdown for initiating Ania propellants) can not develop at all. It can not develop in the case of the use of DESHO contact in adverse conditions due to the fact that the insulating material of the two cartridges is not punctured.

After the shot, the hand is unclenched by the user and the front part 29 of the body under the action of the compressed return springs 44 of the weapon moves away from the rear part 30 of the body.

In this case, the compressed return springs of the shutter 41 in the holder (PCT application WO / 2009/025575 A1 (PCT / RU 2007/000456) Fig. 7a, item 42) return the shutter 41 to the rear position in the holder, after which the cartridges are extracted from the weapon opening and closing after extraction of the spring-loaded shutter 35 and readiness for the next shot (cartridge extraction as described in FIG. 16 of PCT application WO / 2009/025575 A1 (PCT / RU 2007/000456)).

After that, the shot can be repeated by pressing the trigger. In addition to the contact and remote action modes, the proposed DESHO can carry out the police regime “IMMOBILIZATION AND CAPTURE” (“stop and capture”). To perform this mode, after firing the shot, without opening the wrist, the user presses the button 37 for unfolding the weapon from the compact state to the normal state and applies the “stop and hold” mode with the thumb of the shooting hand. In this case, the front part 29 of the housing is mechanically connected to the rear part 30 of the housing. After that, when the user opens the wrist, the parts of the housing 29 and 30 are not pushed apart, and the shot cartridges with ejected current leads reaching the target do not extrude, and the damaging high-voltage voltage continues to reach the target through the current leads of the cartridges until the button 37 for folding the weapon from the compact state in normal condition. Weapons can be put on the ground and proceed to the arrest of the target. In this case, the effect of the striking voltage can be either constant until the target is arrested (handcuffed on the target) or performed according to a special program determined by the microcontroller of the electronic circuitry of the weapon.

Fig.14. DESHO consists of a plastic case 50 assembled from two halves that are fastened together and fastened with screws or glue.

In the front part of the case, there are placed combat electrodes 51, laser target indicators 52 (Figs. 14 show laser beams), a permanent cartridge store 53 for cartridges 54 (as described in FIG. 5), a spring-loaded shutter 55 for protecting the cartridges. A fuse 56, a contact action button 57, a trigger 58, a removable battery compartment 59 are located in the rear of the case.

Cartridges 54 are inserted into the shaft of the permanent store 53 with the electrically insulating material of the initiating electrodes in the rear end of the cartridge of the cartridge’s propellant charges lying on top of each other in the store and pressed by the magazine spring from below.

Figa; Fig 15b; Figv (section from above).

On figa protection curtain 55 of the cartridges 54 is raised, the left half of the housing is removed. The trigger 58 mounted on the axis can interact with the shutter 60 through the movable and spring-loaded relative to the shutter part 61 in which the needle-shaped puncture element of the electrical insulation material of the cartridge is installed. Cartridges 54 located in the store on top of each other are pulled up to the shutter 60 by a feeder 62 with a spring. Cartridges are held in the store by the projections of 63 shutters by the protrusions of 64 cartridges. The shutter 60 is spring-loaded relative to the housing by a return spring 65 (Fig. 15b). The movable part 61 is spring loaded relative to the shutter 60 by the springs 66 (Fig. 15c). In the movable part 61, a needle-shaped element 67 for puncture of the electrical insulation material of the initiating electrodes of the cartridge 54 is fixed (Fig. 15c).

The weapon magazine is loaded by manually opening the shutter 55 by sequentially inserting the cartridges 54 into the magazine shaft 53 with pressing down and moving them to the rear end of the weapon under the protrusions 63 of the shutter 60. The magazine can be discharged in the reverse order.

Fig; 16a; 16b. Before firing, the DESHO is removed from the fuse 56, which is an electric switch that supplies power to the electronic circuit of the weapon. When the shot starts, the trigger 58 interacts with the movable part 61 of the shutter 60, which in turn interacts with the shutter 60 through the springs 66 (Fig. 15c) moving it forward and compressing the return spring 65 (Fig. 15b). In this case, the force of the springs 66 is greater than the shear force of the cartridge in the magazine and its movement relative to other cartridges and the force of the spring 65. When the shutter 60 moves forward, its end moves the upper cartridge in the magazine and feeds it forward by a distance of the width of the protrusion 63 (Fig. 15a) or slightly (2-3 mm) more. When the front protrusion 68 of the cartridge reaches the stop tabs 69 (Fig.16a) of the housing 50, the cartridge stops together with the shutter 60, and the trigger 58 continues to act on the movable part 61 of the shutter which continues to move forward compressing the springs 66. In this case, the needle-shaped element 67 made of metal punctures the insulating material of the initiating electrodes in the rear end of the cartridge. Simultaneously with the puncture, or somewhat earlier than the start of the puncture, or with some delay after the front protrusions 68 of the cartridge reach the persistent protrusions 69 of the housing, the internal microswitch 71 (Fig. 16c.) Turns on and the electronic part 70 of the weapon starts to work, which gives out striking voltage to the combat electrodes 51 are electrically connected to the contacts for the cartridge near the stop tabs 69. In this case, a high-voltage electric discharge passes through the initiating electrodes of the propellant charges of the cartridge which are no longer protected by with insulating material (it is already pierced by a needle-shaped element 67) through an electrically conductive needle-shaped element. A spark discharge passes through the pyrotechnic mixture of propellant charges of the cartridge 54, after which it is initiated and the shot of the two barrel of the cartridge.

Shells with conductors from the barrel of the cartridge fly to the target and hit it with a high-voltage electric discharge transmitted to the target from weapons through the conductors reaching the target.

Prior to the start of the cartridge movement during the shot and during the shot, the cartridges subsequent to the upper cartridge in the magazine have intact electrical insulation material of the initiating electrodes of propelling charges. The full potential of the high-voltage discharge generated by the weapon circuitry cannot penetrate the insulating material of the initiating electrodes of the propellant charges of the upper cartridge in the cartridge holder and other cartridges lying in the magazine below the upper cartridge even if this full potential is applied to them under adverse conditions. Adverse conditions include conditions of high humidity, fog, rain, wet snow, salt fog and spray. Thus, the initiation of propellant charges of the cartridges can occur only after a puncture of the insulating material of the cartridge and the initiation of the first cartridge will not cause the initiation of the underlying cartridges under any circumstances.

DESHO can work both in the remote action mode (shots at a target from a distance) and in the contact action mode (direct action of the combat electrodes 51 on the target’s body) and pressing the contact action button 57, without pressing the trigger 58. In the contact action mode high-voltage electric spark discharge due to the presence of undestroyed electrical insulation material of the initiating electrodes of the propellant charges of the cartridges, which prevents the electrospark breakdown for initiating propellant poisons can not develop. It cannot develop in the case of the use of DESHO contact in adverse conditions due to the fact that the insulating material of the cartridges is not punctured.

After the shot, the trigger 58 is released.

In this case, the compressed springs 66 return the movable part 61 back, and the return spring 65 returns the shutter 60 with the movable part 61 to the rear position. The trigger 58 comes into the initial unpressed position.

The protrusions 63 of the shutter 60 begin to descend from the protrusions 64 of the cartridge, since it remains in the forward position because the cartridge has a ledge on the upper surface (a description of the action of the weapon with a ledge on unitary cartridges is described in PCT application WO / 2009/025575 A1 (PCT / RU 2007/000456). The rear end of the overlying cartridge when it is moved forward when firing goes beyond the ledge of the underlying cartridge which prevents the upper cartridge from moving above under the action of friction with the shutter when the shutter moves backward when the trigger is released.

When the protrusions 63 of the shutter are completely shifted from the protrusions 64 of the cartridge, it is released and, under the action of the compressed spring when loading the feeder 62, the magazine is extracted upward with opening and closing after extraction of the spring-loaded shutter 55. After this, the shot can be repeated by pressing the trigger. The design may provide for the installation of the trigger stopper 58 in the pressed position, which allows to implement the IMMOBILIZATION AND CAPTURE mode.

Fig.17. DESHO consists of a plastic case 72 assembled from two half-fastened together fastened together with screws or glue with a pocket in the front (or pockets in the form of a pocket with a partition) for placing cartridges 73 with electrically insulating material of the initiating electrodes in the rear end of the cartridge of cartridge throwing charges (as described 5) located in a pocket next to each other, combat electrodes 74 which can be made as metal spraying, foil coating or conductive paint coating, laz Black target designator 75 (Fig. 17 shows the laser beam of the laser beam), two release buttons 76 and 77, a fuse 78, a contact action button 79 and discharge protrusions 80.

The accumulator or battery can be either permanently located in the housing without the possibility of changing without disassembling or interchangeable in the plug-in outside in the DESO battery compartment.

Fig. 18a, and Fig. 18b, Fig. 18a, cartridges are removed from the pocket of the housing 72. The spring-loaded release buttons 76 and 77 are movably fixed in the housing 72 by pressing the pressed axes pressed into them when pressed and released can interact with those mounted on the axes spring-loaded needle holders 81 and 82, by means of drive copiers made therein. In the needle holders 81 and 82, needle-shaped elements (metal needles) 83 and 84 puncture the electrical insulation material of the initiating electrodes of the cartridges.

The shutter buttons 76 and 77 can interact when pressed with the spring-loaded cartridge retainers 85 and 86 on the axles holding the cartridges after pressing the shutter buttons and with the spring loaded cranks 87 and 88 mounted on the axes holding the cartridges in the charged state. The cartridges 73 charged into the pocket of the housing 72 interact with their rear ends with spring-loaded ejectors 89 and 90.

On Figb cartridges are inserted into the pockets, and the springs of the ejectors 89 and 90 are compressed.

When pressed, the release buttons 76 and 77 through their protrusions 91 can also interact with a spring-loaded frame 92 which, in turn, with its protrusion 93 can interact with the microswitch 94. The contact action button 79 can also interact with the frame 92 when pressed.

Before firing, the DESA is charged with two cartridges 73 which are inserted into the housing pocket, and the ejection springs 89 and 90 are compressed by the muscular effort of the user. At the end of the cartridge’s stroke, the protrusions 95 of the cartridges are placed on the sear 87 and 88 of holding the cartridges in the charged position when they are inserted into the housing pocket.

When unloading weapons, they press the protrusions 80, whispering 87 and 88 of holding the cartridges in charge, leaving the outer side surfaces of the housing 72. In this case, the cartridges are ejected from the pocket of the weapon outward by the force of the compressed springs of the ejectors 89 and 90.

Fig.19 The shooting cartridge in Fig.19 is removed. Before firing, the DESHO is removed from the fuse 78, which is an electric switch that supplies power to the electronic circuit of the weapon. When the thumb is pressed with the shutter button 76 or 77 (the left button 76 is pressed in FIG. 19) in any sequence selected for firing, their lower protrusion 96 presses on the middle part of the lever of the whisper 87 and 88 to hold the cartridges in a charged state (in FIG. 19 whispered 87). In this case, the working end of the sear starts to lower, compressing its spring and releasing the protrusion 95 of the cartridge (Fig. 19 shows the protrusion of the adjacent cartridge). At the same time, the protrusion 97 of the button 76 presses on the end 98 of the lever of the whisper of the cartridges 85 or 86 after pressing the release buttons (in Fig. 19, the whispered 85 is pressed) while the working (i.e., interacting with the protrusion 95 of the cartridge) end of the whisper begins to rise, compressing its spring and holding the protrusion position of the protrusion 95 of the cartridge. By further pressing the button 76 and completely lowering the working end of the whisper 87, the protrusion 95 of the cartridge is released and the cartridge, under the action of the spring force of the ejector 89 (FIG. 19 is compressed), passes 1-2 mm forward and protrudes with the protrusion 95 into the working end fully raised by this moment the working end whispered 85 holding cartridges after pressing the shutter buttons.

Simultaneously with the operation, the needle holders 81 or 82 whispered under the action of the press axes of the buttons interacting with the drive copiers (the needle holder 81 is moving in Fig. 19), one or the other needle holder moves with the needle element 83 or 84 towards the end of the cartridge with the insulating material of the initiating electrodes in the rear end of the cartridge cartridge throwing charges. By the end of the stroke of the pressed shutter button 76, the needle-shaped element (needle 83 in FIG. 19) completely punctures the electrical insulation material of the initiating electrodes. At this point, or somewhat earlier, the protrusion 91 of the button 76 or 77 presses the frame 92, which in turn includes a microswitch 94. In this case, the electronic part of the weapon starts to work, which gives out damaging voltage to the combat electrodes (item 74 in Fig. 17).

In this case, a high-voltage electric discharge passes through the initiating electrodes of the propellant charges of the cartridge, which are no longer protected by an insulating material (it is already pierced by a needle-shaped element) through an electrically conductive needle-shaped element. A spark discharge passes through the pyrotechnic mixture of the propellant charges of the cartridge whereby it is initiated and a shot of two barrel of the cartridge occurs. Shells with conductors from the barrel of the cartridge fly into the target and hit it with a high-voltage electric discharge transmitted to the target from weapons through the conductors.

During the firing of one cartridge, another cartridge standing nearby in the pocket of the case has intact electrical insulation material of initiating electrodes of propelling charges. The full potential of the high-voltage discharge generated by the electric circuit of the weapon cannot penetrate the insulating material of the initiating electrodes of the propellant charges of the cartridge even if this full potential is applied to them under adverse conditions. Adverse conditions include conditions of high humidity, fog, rain, wet snow, salt fog and spray. Thus, the initiation of cartridge propellant charges can occur only after a puncture of the electrically insulating material of the cartridge and the initiation of the first cartridge will not trigger the initiation of cartridges in a pocket in any case under any circumstances.

DESHO can work both in remote mode (shots at a target from a distance) and in contact mode (direct action of combat electrodes 74 on the target’s body) and pressing the contact action button 79, without pressing the shutter buttons 76 and 77. frame 92 includes a microswitch 94. In the contact mode, a high-voltage electric spark discharge due to the presence of intact electrical insulation material of the initiating electrodes of the propellant charges of the cartridges, which prevents electric a screen breakdown for initiating propellant charges cannot develop.

It cannot develop even in the case of the application of DESHO contact in adverse conditions due to the fact that the insulating material of the cartridges is also not punctured.

After firing one cartridge, the fully pressed shutter release button 76 or 77 is released. In this case, the lower protrusion 97 ceases to press on the end of the lever of the sear 85, the working end of which falls under the action of its compressed spring, releasing the protrusion 95 of the cartridge.

In this case, the working end of the sear 87 did not interact with the protrusion 95 of the cartridge of the past working end of the sear 87 by 1-2 mm.

One of the ejectors (in Fig. 19 the ejector 89), under the action of the force of its compressed spring, energetically ejects the fired cartridge from the pocket of the housing forward of the weapon. After that, the shot can be repeated by pressing the second trigger button.

The design may include a stop of buttons 76 and 77 in the pressed position, which allows for the implementation of the IMMOBILIZATION AND CAPTURE mode.

Fig.20. DESHO consists of a plastic case 99 assembled from two halves that are fastened together and fastened with screws or glue. The housing has a front pocket in the front or separate pockets for accommodating cartridges 100 with the insulating material of the initiating electrodes and a built-in puncture element in the rear end of the cartridge (as shown in Fig. 8) located in the pocket of the front of the housing next to each other, combat electrodes 101 ( made by analogy with the description to Fig. 17), a laser designator 102 (Fig. 20 shows the laser beam of the laser beam), two shutter buttons 103 and 104, slider 105 of the trigger locks 105, 106, the main fuse 107 and the button contact action 108. Discharge buttons 109 are located at the bottom of the casing. The battery or battery can be either permanently located in the casing without the possibility of change without disassembly or interchangeable in the battery compartment that is plug-in externally in the DESO.

Fig.21. The spring-loaded release buttons 103 or 104 (only the button 104 is visible in FIG. 21) movably fixed in the housing 99 can interact with the spring-loaded searters 110 or 111 mounted on the axles to hold the cartridges 100 in a charged state. The upper protrusions 112 of the buttons 103 or 104 are adapted to interact with the puncture elements of the cartridges 100 and the lower protrusions 113 of the cartridges. Cartridges have the ability to interact with their rear ends with spring-loaded ejectors 114. Before firing, DESHO is charged with cartridges 100 which are inserted into the housing pocket, and the springs 115 of the ejectors 114 are compressed by the muscular effort of the user. 110 or 111 holding cartridges in a charged state. When unloading weapons, they press on the protrusions of the ends, whispering the cartridges are kept held by the serving discharge buttons 109. At the same time, the cartridges are thrown out of the weapon pocket by the force of the compressed ejection springs 114. Slider fuses 105 and 106 can lock the release buttons 103 and 104 in two positions, fully depressed and fully depressed.

Fig.22. Before firing, the DESHO is removed from the main fuse 107, which is an electric switch that supplies power to the electronic circuit of the weapon. After that, the trigger buttons 103 or 104 are removed from the “fully depressed” position using the sliders 105 and 106 (depending on which button the first shot is going to be fired). When the thumb is pressed with the shutter release button 103 or 104 in any sequence selected for firing (the button pos.104 is pressed), their lower protrusions 116 begin to press the end of the sear lever 110 or 111 (the whisper pos.111 is pressed ) In this case, the working end 117 of the sear 111 starts to lower, releasing the protrusion 113 of the cartridge 100.

At the same time, the working end 118 of the upper protrusion of the button 104 (below, the operation of only the button 104 is considered), when it descends, it presses the end of the needle-shaped element of the cartridge piercing (pos. 26 in Fig. 8) that protrudes from the cartridge case, which begins to pierce the electrical insulation material of the initiating electrodes of the cartridge’s propellant charges and at the same time take the holding position of the upper protrusion 119 of the cartridge (see Fig. 23.) When the button 104 is further pressed and the working end 117 is fully lowered, the sear 111 of the cartridge protrusion 113 is released and the cartridge j under the action of the spring force of the ejector 114 extends forwardly at 1-2 mm utykayas upper lip 119 of the cartridge in the working end 118 is fully lowered by this time the upper lip 112 of the button 104.

Simultaneously with the described work, the needle-shaped element pierces the piercing of the insulating material of the initiating electrodes of the propellant charges of the cartridge. Towards the end of the downward stroke of the release button 104, the puncture element completely punctures the electrically insulating material of the initiating electrodes of the cartridge. At this point, or somewhat earlier, the bottom end 120 of the button 104 includes a microswitch 121 (a total of two microswitches, one under each button). At the same time, the electronic part of the weapon starts to work, which gives out striking voltage to the fighting electrodes 101.

At the same time, a high-voltage electric discharge passes through the initiating electrodes of the cartridge’s propellant charges which are no longer protected by an electrically insulating material (it has already been pierced by a needle-shaped cartridge puncture element through its electrically conductive needle-shaped element. A spark discharge passes through a pyrotechnic mixture of cartridge propellant charges whereby it is initiated and two cartridge barrels are shot Shells with current leads from the barrel of the cartridge fly into the target and hit it with a high-voltage electric discharge given to the target from weapons through conductors.

During the firing of one cartridge, the cartridge standing nearby in the pocket of the housing has intact electrical insulation material of the initiating electrodes of propelling charges. The full potential of the high-voltage discharge generated by the electric circuit of the weapon cannot penetrate the insulating material of the initiating electrodes of the propellant charges of the cartridge even if this full potential is applied to them under adverse conditions. Adverse conditions include conditions of high humidity, fog, rain, wet snow, salt fog and spray. Thus, the initiation of cartridge propellant charges can occur only after a puncture of the electrically insulating material of the cartridge and the initiation of the first cartridge will not trigger the initiation of cartridges in a pocket in any case under any circumstances.

DESHO can work both in the remote action mode (shots at a target from a distance) and in the contact action mode (direct action of combat electrodes 101 on the target’s body) and pressing the contact action button 108, without pressing the release buttons 103 or 104. When pressed On button 108, it includes a third microswitch that is connected electrically in parallel with two microswitches 121. In the contact mode, a high-voltage electric spark discharge due to the presence of intact electrical insulation material For initiating electrodes of propellant charges of cartridges, an inadmissible electrospark breakdown for initiating propellant charges cannot develop. It cannot develop in the case of the use of DESHO contact in adverse conditions due to the fact that the insulating material of the cartridges is also punctured.

Fig.23. After firing one cartridge 100, the fully pressed release button 104 is released. In this case, the working end 118 of the upper protrusion 112 of the pressed shutter release button releases the upper protrusion 119 of the cartridge. The working end 117 of the sear 111 no longer interacts with the protrusion 113 of the cartridge which has passed the working end 117 by 1-2 mm.

One of the ejectors 114, under the action of the force of its compressed spring, energetically ejects the fired cartridge 100 from the housing pocket forward from the weapon. After that, the shot can be repeated by pressing the second trigger button.

In addition to the contact and remote action modes, the proposed DESHO can carry out the police regime “IMMOBILIZATION AND CAPTURE” (“stop and capture”). To execute this mode, after pressing the shutter button 103 or 104, the engine 105 or 106 of the fuse-locks of the buttons corresponding to the pressed shutter button, with the thumb pressing the shutter button, put in the position to lock the fully pressed button “fully pressed”. In this case, the tongue of the fuse-lock motor falls into the corresponding sample of the housing 99, after which the finger force can be removed with the shutter button pressed. In this case, the shot cartridge is not ejected, and the damaging high-voltage voltage continues to reach the target through the cartridge conductors thrown into it until the fuse-lock motor is moved to the neutral position. Weapons can be put on the ground and proceed to the arrest of the target. In this case, the effect of the striking voltage can be either constant until the target is arrested (handcuffed on the target) or performed according to a special program determined by the microcontroller of the electronic circuit of the weapon.

Claims (16)

1. DESO cartridge containing a case in the form of a sleeve, a projectile with a current lead and a device for fixing it on a target, a propellant charge with an obturator, an initiating propellant electrode emerging from the inner barrel of the housing to the outside of the housing at the rear end of the cartridge housing, characterized in that it initiates the propelling charge electrode is isolated from the outer surface of the cartridge case by an elastic or viscoplastic electrical insulating material with a thickness that does not allow its electrical breakdown at a single potential of course fighting high-voltage discharge DESHO, destroys itself before initiating the propellant charges. 2. The cartridge according to claim 1, characterized in that the said insulating material is protected by a durable lid with an opening opposite the initiating electrode above said insulating material. 3. The cartridge according to claim 1, characterized in that the said insulating material is destroyed by a pointed puncture element located directly in the cartridge itself or located in the weapon. 4. The cartridge according to claim 1, characterized in that the insulating material has a predetermined hardness. 5. A DESHO cartridge (double cartridge) containing a housing or an inner and outer housing in the form of a double sleeve, shells with stacking conductors and devices for securing to targets, propelling charges with obturators, initiating electrodes of propelling charges emerging from the internal barrel cavities of the housing outside the housing in the rear end of the housing, or under the outer shell of the housing, characterized in that the initiating electrodes of propelling charges are isolated from each other by an elastic or viscoplastic electrical insulating material with schinoy not allowing its electric breakdown at the potential of the idle combat high-voltage discharge DESHO, breakable before initiation of propellant charges puncture element located directly within the cartridge or located separately from the cartridge into the gun. 6. The cartridge according to claim 5, characterized in that the initiating electrodes of propelling charges emerging from the internal barrel cavities of the housing to the outside of the housing at the rear end of the housing have extensions in the form of foil tracks or metallizing coatings or conductors separated by said electrical insulating material. 7. The cartridge according to claim 5, characterized in that said electrically insulating material has a protective cover with an opening for the passage of said puncture element. 8. The cartridge according to claim 5, characterized in that an opening is made in the outer shell of the housing for the passage of said puncture element. 9. The cartridge according to claim 5, characterized in that said puncture element in the form of a needle is located directly at the end of the housing. 10. Multiply charged DESHO with a high-voltage initiation of a shot, comprising a housing, combat electrodes, a removable clip with a movable bolt, throwing cartridges of electric wires initiated from an electronic striking circuit, an independent contact action key, characterized in that the cartridges have an electrical insulation device for the initiating throwing electrode, the movable shutter of the cage has needle-shaped elements for the destruction of the electrical insulation of the initiating electrodes of the cartridges before the cartridges are installed at the position of the shot or When the cartridges are set to the position of the shot, an independent contact action key is installed under the index finger of the user's hand, the weapon body consists of two parts moving relative to each other, the initiating cartridges of the electronic striking circuit are turned on and the cartridges are fed to the position of the shot when they are moved together. 11. DESHO according to claim 10, characterized in that spring-mounted protrusions are installed in the movable shutter of the cage interacting with the rear ends of the cartridges. 12. DESHO according to claim 10, characterized in that the electronic circuit generating the damaging pulses is turned on with a time delay after the cartridges are set to the position of the shot. 13. Multiply charged TESA with high-voltage initiation of a shot, comprising a housing, combat electrodes, a trigger element, throwing cartridges of electric wires, initiated from an electronic weapon striking circuit, characterized in that the cartridges have a device for electrical insulation of the initiating electrodes of throwing charges, DESO contains a permanent magazine, movable relative to case and store shutter, in turn having a spring-loaded part movable relative to it, in turn having a needle-shaped element or needle-shaped Since the elements of destruction of the electrical insulation of the initiating electrodes of the cartridges interacting with the trigger element, which in turn interacts also with the switch of the electronic weapon striking circuit, the housing has persistent projections of the housing interacting with the cartridges. 14. DESHO according to item 13, wherein said electronic circuit generating damaging pulses is switched on with a time delay after cartridge income to the persistent projections of the housing. 15. Multiply charged DESHO with a high-voltage initiation of a shot, comprising a housing, combat electrodes, a release button for initiating shots from an electronic striking circuit, characterized in that it uses cartridges with a device for electrical insulation of the initiating electrodes of propelling charges, contains pockets for placing cartridges, more than one trigger buttons, whispered holding the cartridges in a charged state and whispered holding the cartridges after pressing the shutter buttons, elements of puncture of electrical insulation in initiating electrodes of propelling charges, interacting with the release buttons, spring devices for removing used cartridges. 16. Multiply charged DESHO with a high-voltage initiation of a shot, comprising a housing, combat electrodes, a release button for initiating shots from an electronic striking circuit, characterized in that it uses cartridges with a device for electrical insulation of the initiating electrodes of propelling charges with an integrated puncture element, contains pockets for placing cartridges , more than one release button, which are simultaneously the cartridges retention whispers after pressing the shutter buttons, whispered the cartridge retention in When loaded, spring-loaded cartridge removal devices.

Images