RU2599142C2 - Multicharge remote electric-shock weapon - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to multicharge weapons with an electric target killer (to remote electric-shock weapon and can be used as a weapon well suited for fighting with service and special ammunition. Multicharge electric-shock weapon comprises a moving case which is spring-loaded relative to a fixed back plate of a pistol handle and made of plastic mass, in which there is a cage with unitary cartridges containing current lead, fixed back plate can cover the movable case or be arranged inside the case. Movable case can be fixed relative to the fixed back plate of the pistol handle for storage of arms in compact state or for implementation of the target capture function.

EFFECT: technical result is creation of an electric-shock weapon, allowing using any type of special ammunition, with minimum number of parts, higher reliability and reduced overall dimensions of the folded weapon.

8 cl, 7 dwg

Description

FIELD OF THE INVENTION

The invention mainly relates to multi-charged weapons with an electric means of hitting a target (remote electric shock weapons (DESHO), can be used as weapons that allow firing, for example, military and special ammunition.

State of the art

Known device TASER M26 described in US patent No. 6636412. The TASER M26 device is designed to temporarily disable biological objects (people and animals) by electric current at a distance and in direct mechanical contact with the object. The defeat of the object at a distance is carried out using a cartridge that shoots two projectiles at the target, each of which is connected using an insulated wire to the corresponding current-supplying electrode of the cartridge. The current-carrying electrodes of the cartridge are electrically connected to the fighting electrodes of the device, to which a high voltage is applied when the device is started. The cartridge is rigidly attached to the device using a mechanical connector. The defeat of the object at a distance is carried out when the electric circuit is closed through the body of the object by means of electric wires connecting the fighting electrodes of the device to which high voltage is supplied with missile projectiles that are mechanically fixed to the body or clothing of the object.

The defeat of the object in direct contact is carried out with mechanical contact of the fighting electrodes of the device with the body of the object.

The high voltage supplied to the device’s electrodes allows electric current to be transmitted through the object’s body, even if there are air gaps between the object’s body and the current-carrying elements (projectiles or combat electrodes of the device). In this case, an electric spark arc is formed between the body of the object and the current-carrying elements of the device, through which electric current is transmitted to the body of the object. TASER M26 has a maximum output voltage of about 50 kV, which allows you to transfer current through the body of the object via an electric arc in the presence of a total air gap between the current-carrying elements of the device (shells or combat electrodes) and the body of the object up to 50 mm.

The specified device has the following disadvantages. The TASER M26 has a single cartridge. In order to make a second shot, for example, in case of a miss or in order to hit another target, in the TASER M26 device it is necessary to disconnect the shot cartridge and insert a new cartridge into the device. Rigidly fixing the cartridge in the device using a mechanical connector takes about 10 seconds to recharge the device with a new cartridge and fire again. In order to use the TASER M26 device in direct contact with the target, you must first disconnect the cartridge, because when you start the device with the cartridge attached, the cartridge is fired. This is an obstacle to the quick use of a device with a loaded cartridge in situations where the first contact with the target occurs at close range and a shot from an extremely short distance is undesirable, since it can cause serious mechanical injury to the target. In the patent of the Russian Federation No. 2305245, selected as a prototype, options for hand-held multi-shot weapons for remote destruction of targets by electric current are described. In this application, a variant of multiple-charge weapons is described that uses unitary cartridges located in a clip or in a permanent store, in which a shot is fired by pressing a trigger element (key), which, using mechanical coupling with cartridges, moves a pair of cartridges from the clip to the shot position. 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 with current conductors are fired at the target, 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.

The unitary cartridge, mainly used in the proposed weapon, is the type of cartridge with a release protrusion described in PCT patent WO / 2009/025575 Al (PCT / RU 2007/000456) (Fig.16a; 16b; 16c). The weapon described in the patents of the Russian Federation No. 2305245 2305245, and its development according to PCT application No. WO / 2009/025575 Al, selected by the applicant as a prototype, has the following disadvantages.

The first drawback is the inability to place weapons in the handle of FIG. 5 of RF patent No. 2305245 both with a permanent magazine, and even more so in a replaceable clip of cartridges of the required size to accommodate the necessary amount of wire for the distance of the shot. Currently in the world's first PDG-S5 DESHO using a unitary cartridge: http://supershoker.ru/produkciva/desho pdg-s5 / http://www.googIe.ru/search?um=l&ie=UTF-8 “Fehl = ru & tbm = isch & source = ogifesa = N & tab = wi & q = PDG-S5, a 55 mm long cartridge is used (55 × 12 × 12). At the same time, today the longest (and most powerful in muzzle energy) cartridge for automatic pistols (i.e. for placing cartridges in the handle) is a cartridge. 454 Casull with a length of only 45 mm and a further increase in the length of the cartridges placed in the weapon retention handle is physically impossible due to the anatomical features of the structure of the human hand.

At present, the length of the cartridge and its volume cannot be reduced due to the inability to place in a smaller volume the amount of insulated wire sufficient to fire even at the minimum shot range of 4.5 m, which has already been accepted for DESO in the world.

It is also impossible to reduce the dimensions of the cartridge case made of a polymer material, since the maximum mechanical characteristics (tensile strength, Shore or Izod impact strength) of the most durable injection polymers today withstand the internal (with the shock-like build-up) pressure during firing (polycarbonates and polyamides), do not allow to reduce the wall thickness of the sleeve over the existing (2 mm) while maintaining a minimum margin of safety of 1.5-2.5, necessary for the safety of the shooter.

The second disadvantage is the impossibility of holding the recoil of the shot of two rounds with one finger of the hand with the weapon variant of FIG. 6 of RF patent No. 2305245.

When firing, the cartridges are held at the firing position by the muscular effort of the finger arrow on the start key. At the same time, at the moment of the shot, the cartridges acquire a recoil impulse, which is transmitted through the cartridge transfer system to the position of the shot to the start key, held only by the arrow finger. If, at the time of the shot, the holding force of the start key with the arrow is less than the recoil force, then the start key will begin to move. At the same time, the cartridges will also be displaced from the position of the shot, which will negatively affect the accuracy of the shot, and, in addition, will lead to a finger injury, which is called “drying (drying) of the finger”, which is characteristic of an improperly designed trigger (trigger mechanism) of a firearm. Finger drying takes place even when throwing relatively low-speed DESHO shells (probes with a current lead) and even more so when cartridges with an enhanced recoil momentum are used, namely special cartridges (metal bullets and lancet bullets), traumatic cartridges (elastic bullets) and the like. To prevent the phenomenon of “drying” according to PCT application No. WO / 2009/025575, a device was developed for fixing cartridges during firing with the special part “stopper” (Figure 10; item 54) or which does not allow the transfer of a recoil pulse to the finger arrow.

However, weapons made on this application (DESGHO PDG-S5 see above) are not technologically advanced and complicated (USM includes 3 different standard sizes of springs and 10 parts, 8 of which are metal according to the required strength condition, although metal parts are permissible only according to the DESHO design rules as a separate exception, since it is precisely the metal parts that internal breakdowns of high voltage occur). Low technology increases the cost of the product, and the complexity and excessive number of places of interaction of parts and places of friction of parts reduces the reliability of the trigger and, accordingly, the weapon as a whole.

But even when using the “stop” part in weapons according to PCT application WO / 2009/025575 Al, it is impossible to use cartridges with an enhanced recoil momentum compared to cartridges necessary only for throwing conductors to the target.

Obstacle to the impossibility of using cartridges with a high recoil momentum is the mechanically weak point of the weapon structure of Fig. 10a "Pusher" pos. 53 "protrusion" pos. 61. The pusher pos. 53, in order to prevent breakdown from the cage into the electrical part of the weapon, should be made only of dielectric material (for example, fiberglass according to the application text). In a real design, which provides the convenience of holding in the hand (it is impossible to increase the size due to the passage of the pusher between the release button (index finger) and the other three fingers), the cross section of the pusher pos. 53 is only 12 mm ² . Even with the use of a non-conductive composite (fiberglass), such a section is not enough to withstand multiple pulses of double recoil of live ammunition. An even more problematic place for possible destruction from recoil impulses of cartridges with an enhanced recoil impulse is the metal protrusion of pos. 61, which has a diameter of only 3 mm according to the design conditions. The recoil impulse, acting on the edges of the notch pos. 62 of the pusher pos. 53, causes its destruction by a “ramp” on the metal protrusion pos. 61, which completely stops the functioning of the weapon (jamming of the pusher and non-extraction of spent cartridges).

Disclosure of the invention.

The aim of the invention is the creation of a multiply-charged remote stun gun devoid of the disadvantages of a prototype that uses a standard 55 × 12 × 12 cartridge for DESHO, which allows the use of any kind of special ammunition, which has a minimum number of parts, increased reliability, minimum cost and reduced overall dimensions when folded (by 15 -20% less prototype in length).

The essence of the invention lies in the fact that in the device of a multi-charged remote stun gun containing a housing, a removable clip or a permanent magazine with a movable bolt, with unitary cartridges of throwing electric wires initiated from an electronic striking weapon circuit at the firing position, the position of the firing position, which is the location of the hull weapons, is moving over the cartridges that are stationary relative to the shooter, interacting with the shutter of a clip or a permanent magazine that is stationary relative to the shooter, which e, in turn, interact with the back plate of the pistol grip of the weapon, which is stationary relative to the shooter, and the shot is fired in the very process of moving the case with the position of the shot on the cartridge or some time after the body is completely moved with the position of the shot on the cartridge.

An additional feature is that the fixed butt plate of the pistol grip interacts with the bolt of the clip through the protrusions of the fixed butt plate passing through the movable body of the weapon.

An additional feature is that the fixed back plate of the pistol grip covers the handle of the weapon, which moves inside the fixed back plate. An additional feature is that the handle of the weapon covers the fixed back plate of the pistol grip and moves outside the fixed back plate.

An additional feature is that the fixed recoil pad of the pistol grip and the movable body of the weapon have the ability to fix with each other when the body is pushed or pulled over the recoil pad.

An additional feature is that the electronic weapon striking circuit contains a timer that delays the time of the shot after the body is pushed with the position of the shot on the cartridge.

An additional feature is that the latch of the replaceable clip is located at the bottom of the shaft for the clip of the weapon body. An additional feature is that the moment the shot is started can be adjusted outside the back plate of the pistol grip.

Brief Description of the Drawings:

Figure 1. General view of the weapon in a compact storage state.

Figure 2. Weapon left view before firing (cut).

Figure 3. Weapon view from the left at the time of the shot (cut).

Figure 4. Weapons during manipulations with it.

Figure 5. Weapon top view.

6. The main details of the kinematics of weapons.

7. Weapon view on the right (cut).

Figure 1. The weapon has a non-conductive body 1 made of plastics, made of two bonded halves, with fighting electrodes 2. In the shaft 3 of the body there is a replaceable clip 4 with cartridges that does not differ in design from a replaceable clip with cartridges according to PCT application No. WO / 2009/025575 A1 (Fig.6, 7a, 76). The housing 1 has an unfinished pistol grip 5 that does not have a butt plate. The recoil pad 6 of the pistol grip is a separate part with the housing 1 movable and spring-loaded relative to it. In the compact storage state or in the state of the weapon performing the “target capture” function, the housing 1 is fixed in the recoil pad 6 by a latch 7.

Figure 2. Case 1, shaft 3, holder 4 with cartridges 8.

The pistol grip plate 6 fixed during firing has two spiral springs 9 symmetrical with respect to the butt plate 6 (only one spring is visible in the section, the location of the other is indicated by a dotted line), compressible during the shot and pushing the housing 1 forward relative to the butt plate 6 and the arrow hands during the extraction of axial cartridges or spent cartridges. Figure 3. When fingers press the arrow on the pressure part 10 of the unfinished pistol grip 5, the entire housing 1, together with the clip 4 located in the shaft 3, moves back relative to the back plate 6 and the arrow hands. In this case, the springs 9 are compressed. The protrusions 11 of the fixed back plate 6 interact with the shutter 12 of the holder 4, which, in turn, interacts with the cartridges 8, and the housing 1, pushed onto the cartridges 8, which are stationary relative to the arrow, moves until the cartridges 8 are practically at the end of the shot position 13. However, the moment of the shot never coincides with the full installation of the cartridges 8 at the position of the shot 13, since the moment of the casing 1, limiting the position of the shot 13 in the cartridges 8, never coincides with the moment of operation of the limit switch 14 shots, including an electronic circuit of the weapon, which delivers the initiating high voltage pulse to the cartridges. The proposed weapon can fire either at a non-profit position of the shot to the cartridge (which can reduce the accuracy of firing at large distances due to the fact that the cartridges are not rigidly fixed between the position of shot 13 and the bolt 12) or produce a shot when the cartridge is fully fixed by the position of the shot. For firing a shot with full fixation in the weapon, a timer is used in the electronic circuit, which, after the limit switch 14 is fired, turns on the electronic circuit of the weapon, which delivers the initiating high voltage pulse to the cartridges not immediately, but after a time delay of 0.01-0.1 s. In this case, the shot is fired when the position of the shot of the cartridge is fixed to the bolt 12. The time delay of the shot in the indicated interval does not affect the firing at fixed targets and is not physically felt by the shooter.

Figure 4. To place the weapon in compact (hidden) storage (reduced by 15-20% of the total length of the weapon), the fuse 16 of the electronic circuit (main switch) of the weapon is turned off, the pressure part 10 of the incomplete pistol grip 5, in the same movement as for firing, is introduced in the back plate 6 and is fixed in this position by the latch 7 for the protrusion 17 of the housing 1. In this case, the cartridges are set to the position of the shot, the limit switch of the shot is on, but the cartridges are not triggered, since the fuse 16 is in the off state and and does not supply current to the power source (battery) to the electronic circuit. To produce the first shot, it is necessary to remove the clamp 7 with the thumb 17 from the protrusion 17, slightly release the pressure part 10, preventing the extraction of cartridges, then turn on the fuse 16 and, aiming, squeeze the pressure part 10 of the unfinished pistol grip 5 to the stop. In another embodiment of compact storage, the weapon is used in the usual way, however, the first pair of cartridges at the firing position is removed manually when setting up for compact storage. In this case, the number of shots in the holder is reduced by one shot, but complex manipulations with the limited release of the pressure portion 10 are not required. That is, the weapon is removed from the latch 7 (while increasing in length by 15-20%), then the fuse 16 is normally turned on and shots are fired in the usual way.

Another purpose of the latch 7 is the implementation of the function "capture target". In a multiply charged DEShO on unitary cartridges according to RF patent No. 2305245 and according to PCT application No. WO / 2009/025575, the impact of a high-voltage damaging electric discharge on the target is carried out only when the trigger is held by the finger of the hand and when the trigger is released, the cartridges are extracted with wires, which means the cessation electric impact on the target. However, in many cases of police use of TESW, including only one police officer, it is necessary not only to hit the target at once (the special term “stopping the target”), but also to keep it inactive for a certain time to hold the target (the special term is “target capture”) , i.e. putting on detained handcuffs. In the proposed weapon for the “target capture” function, after firing the shot, the pushing part 10 of the unfinished pistol grip 5, pushed into the back plate 6, is fixed in this position by the latch 7. In this case, the limit switch 14 of the shot remains on and the damaging electric discharge continues to go to the target. Weapons can be laid on the ground, approach the detained criminal, handcuffed on him, and only after that remove the weapon from the latch 7, after which the spent cartridges will be extracted, the limit switch will turn off and the electric shock will cease to affect the target. The weapon can also be equipped with a contact action button, which allows, for example, to demonstrate a combat electric discharge or directly act on an intruder.

Figure 5. Top view of the weapon for a better understanding of the previous figures. 6. The kinematics of the proposed weapons, therefore, actually consists of only three parts. Housing 1 (consisting of two molded from plastic halves), a fixed butt plate 6, molded from plastic together with the protrusions 11 (or a maximum with additional also molded from plastic stops 15 protrusions 11, necessary in a particular design only for the convenience of assembling weapons), and two identical spiral springs 9. Compared with the prototype, which includes 3 sizes of springs and 10 different parts, the kinematics of the proposed weapons is extremely technological and in accordance with a small number of mechanical ties and friction units sochayshey reliability.

Due to the large area of the pressing part 10 of the incomplete pistol grip 5 and the distribution of this entire area by as many as 4 fingers, the impulse - the recoil during firing of cartridges - can be significant, but in fact almost 4 times more than the impulse of the cartridges “drying” the index finger when you press the prototype trigger. At the same time, even a powerful recoil impulse transmitted from the cartridges through the shutter 12 of the cage to the protrusions 11 of the backplate 6 cannot damage the kinematics of the weapon, since the protrusions 11 cast along with the backplate 6 have a large cross-section taking the load from the recoil impulse (not less 50 mm ² ), preventing them from breaking, and work mainly on compression. These advantages allow you to use in the proposed weapon, in addition to unitary cartridges equipped with a current lead, and special live ammunition (metal bullets and lancet bullets), traumatic cartridges (elastic bullets), powerful noise cartridges and signal-illuminating cartridges with luminous "stars". 7. The latch 18 with the spring 19 of the removable holder 4 is located below the weapon. The adjustment of the moment of the start of the shot can be precisely regulated by the adjusting screw 20 installed in the backplate 6 and interacting with the limit switch 14.

Claims (8)

1. Multiply charged remote stun guns containing a housing, removable clip or a permanent magazine with a movable shutter, with unitary cartridges of throwing electric wires initiated from an electronic weapon striking circuit at the time of installation at the shot position, characterized in that the position of the shot being the place of the gun body , approaches the cartridges which are motionless relative to the arrow, interacting with the shutter of a clip or a constant magazine, motionless relative to the arrow, which, in turn, they interact with the back plate of the pistol grip of the weapon, which is stationary relative to the shooter, and the shot is fired in the very process of pushing the case with the position of the shot on the cartridge or some time after the body is fully pushed with the position of the shot on the cartridge. 2. Multiply charged remote stun gun according to claim 1, characterized in that the stationary recoil pad of the pistol grip interacts with the bolt of the clip through the protrusions of the stationary recoil pad passing through the movable body of the weapon. 3. Multiply charged remote stun gun according to claim 1, characterized in that the fixed back plate of the pistol grip covers the handle of the weapon, which moves inside the fixed back plate. 4. Multiply charged remote stun gun according to claim 1, characterized in that the handle of the weapon covers the stationary butt plate of the pistol grip and moves outside the stationary butt plate. 5. Multiply charged remote stun gun according to claim 1, characterized in that the fixed back plate of the pistol grip and the movable body of the weapon have the ability to be fixed to each other when the case is pushed or pulled over the back plate. 6. Multiply charged remote stun gun according to claim 1, characterized in that the electronic weapon striking circuit contains a timer that delays the time of the shot after the body is pushed with the position of the shot on the cartridge. 7. Multiply charged remote stun gun according to claim 1, characterized in that the latch of the replaceable clip is located at the bottom of the shaft for the clip of the weapon body. 8. Multiply charged remote stun gun according to claim 1, characterized in that the moment the shot is started can be adjusted outside the butt plate of the pistol grip.

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