RU2669976C2 - Shooting cartridge of remote electric shock weapons (variants), apparatus for electroshock weapons for using cartridge variant - Google Patents

Abstract

FIELD: personal protection equipment.SUBSTANCE: invention relates to non-lethal weapons with an electric means of hitting the target – remote electric shock weapon (RESW). Shooting cartridge made of polymeric materials includes probes with conductive wires that are metered by pyrocharges, fastening elements, an initiation mechanism. Initiation occurs either with mechanical action – puncturing the elastic insert with a contact closure, or through electrical contacts on the body. Nozzle is made of polymeric materials, contains elements of attachment to arms, fixation and extraction of cartridges, is electrically connected to the main product (RESW). Initiation of cartridges occurs when the trigger is pressed. Invention can be used for self-defense and as special means in the power structures.EFFECT: technical result is a shooting cartridge for serial RESW with the implementation of multi-charge and contact impact without a shot.6 cl, 11 dwg

Description

The technical field to which the invention relates.

The invention relates to a non-lethal weapon with an electric means of hitting a target, specifically to a remote electroshock weapon (DESO) including a DESO used in a contact way as an electroshock weapon (ESHO).

The level of technology.

Known shooting cartridges for DESHO for example a cartridge according to the patent of the Russian Federation No. 2351871. Cartridges are designed for stun guns used with an attached cartridge as a TESW remotely (by throwing current-carrying conductors (conductors) with a shocking voltage of electric current into an adversary), so without connecting a cartridge in a contact way, like a contact stun gun (ESW), with direct pressure to the body of the enemy. A disadvantage of the analogue is the impossibility of the contact use of weapons as an ESW with a cartridge attached to the weapon. If you try to use a weapon with an attached cartridge in a contact way, the cartridge will be shot at the enemy point-blank, which will inflict mechanical injury on the public order violator (offender). In addition, weapons with an attached cartridge analogue does not allow psychophysical effects on the enemy, i.e. demonstration to the enemy before the beginning of contact or remote use of the form and sound of a striking high-voltage electric spark discharge. The demonstration of a combat electric discharge before the direct use of weapons, as shown by statistics on the use of ESHO and DESO, in most cases reduces the aggression of the enemy, makes him obey the legitimate requirements, which eliminates the need to use DESO. A weapon with an attached cartridge-analogue is thus only a DESO, without the possibility of using it in a contact way as an ECHO with an attached cartridge.

Another disadvantage is the inability to quickly re-shoot from the DESHU into another enemy, threatening, for example, with a knife or a stick in his hand (with an extension of the hand) after the contact application of the ESD to the first enemy. Attaching a new cartridge to a weapon during stress is performed for a period of at least 5-10 and with the need to use a second hand in addition to the hand holding the weapon. The inability to quickly use the weapon remotely after using the contact method reduces the effectiveness of the weapon as a whole, making it impossible to fight with two opponents, and also does not allow the "demonstration of electric discharge" with an attached cartridge.

Currently, civilian use for self-defense and in the power services of the Russian Federation are armed with single-charge DESHO models using cartridges manufactured according to RF patent No. 2351871. Fastening of BTEER-type firing cartridges produced by the RF industry (for self-defense of citizens and DEK (which is in service with the Ministry of Internal Affairs of the Russian Federation and other law enforcement agencies) on all TESO models, both civilian and police, in the Russian Federation is carried out using the standard TESO for the Russian Federation bayonet connection performed by patents for utility model RU No. 84096 U1 and utility model RU No. 102988 U1.

An analogue and prototype nozzle on the DESO for the use of a firing cartridge from the prior art and patent search was not found.

Disclosure of the invention.

The aim of the invention is the creation of a firing cartridge, which allows to implement contact and remote use of TESHO in a mass-produced TESA without disconnecting the cartridge from TESAO or to organize the multi-charge mode of a serial TESAW.

The essence of the invention lies in the fact that the firing cartridge of a remote stun gun containing a power casing, the outer shell of the casing, laying conductors with probes, throwing pyrocharges of conductors with electric spark initiation and a protective electrical insulating layer of initiating pyrolysis electrodes, as well as an element for securing the cartridge on electroshock weapons a power unit made of an insulating material, mainly polymer, installed a mobile load loaded with a spring force a puncture element for the electrical insulating protective layer initiating at least one pyrocharge of the electrodes, a sear that interacts with the puncture element, and also a trigger engine that protrudes onto the outer generatrix of the outer shell of the case, and interacts with the sear and the drive of the engine on electroshock weapons.

The essence of the invention also lies in the fact that the nozzle for an electric shock weapon containing a housing with a fastening lock on the weapon has in the cavity of the housing made of an insulating material, mainly polymer, housed in it and fixed in the cavity by firing conductors with an electric spark initiation and a cartridge ejector loaded with force springs, in the nozzle body there is a pusher controlled by the user's finger and interacting with the cartridge lock lock married in the case and at the same time interacting with the trigger engine of the cartridge firing with current conductors with electrospark initiation after destruction of the protective electrical insulating layer of the initiating throwing pyro charge electrodes fixed in the electroshock weapon outside the nozzle body, said shooting cartridge in the cavity of the nozzle body and said shooting cartridge outside the nozzle body are electrically connected to a high striking voltage on the conductors thrown by cartridges. An additional feature is that said pusher has a return spring.

An additional feature is that the cartridge lock has a return spring. The essence of the invention also lies in the fact that the firing cartridge of a remote stun gun containing a power casing, the outer shell of the casing, laying conductors with probes, throwing pyrocharges of conductors with electrospark initiation and a protective electrical insulating layer of initiating pyrolysis electrodes, the element for securing the cartridge on electroshock weapons is composed of two nodes each of which the cartridge consists of two nodes each of which contains a power housing made of electro the material, mainly polymer, and the outer shell of the said power casing, made of electrical insulating material, mainly polymer, while the first node has at least one throwing pyrocharge of conductors with spark ignition, the second node has at least one pyro charge with spark ignition and protective an electric insulating layer of pyrocharge initiating electrodes and an element for attaching a cartridge to an electroshock weapon, the nodes are interconnected m rod made of insulating material,

predominantly polymer, rigidly fixed in the first node and passing through the cavity of the power housing of the second node, a puncture element of the electrical insulation layer initiating pyrocharge of electrodes loaded with spring force is installed inside the connecting rod, a whisper interacting with the puncture element inside the connecting of the rod and with the connecting rod itself, with the sear, the trigger engine interacts with the protrusion of the bunk zhnuyu forming the outer shell of the second assembly and interacts with the drive engine mounted on the stun guns. An additional feature is that the aforementioned sear consists of two interacting searters, one of which may take the form of a sphere.

Brief Description of the Drawings:

FIG. 1. General view of the firing cartridge of the first embodiment.

FIG. 2 The internal arrangement of the firing cartridge of the first embodiment.

FIG. 3 Internal arrangement of the firing cartridge of the first embodiment (continued).

FIG. 4. Type of stun guns with a cartridge of the first option (2 images).

FIG. 5. General view of the nozzle for firing from a cartridge of the first embodiment (2 images).

6. The internal device of the nozzle for firing a cartridge of the first option (the case is removed).

FIG. 7. Illustration of the description of the operation of the nozzle for firing a cartridge of the first embodiment.

FIG. 8. General view of the firing cartridge of the second option.

FIG. 9. The firing cartridge of the second option (the outer shell of the second node is removed).

FIG. 10. The firing cartridge of the second option (the outer shell of the second node and the power housing are removed in the same image. In the second image, the outer shell of the second node, the power housing and the connecting rod) are removed.

FIG. 11. Type of stun guns with a cartridge of the second option. (2 images).

FIG. 1. The firing cartridge has a polymer outer shell 1, a bursting disc or an openable or resettable plug 2 with combat electrodes 3, an element 4 for attaching the cartridge to stun guns and a trigger engine 5.

FIG. 2. The outer shell 1 of the cartridge contains an internal polymer power housing 6 in which cavities 7 are made for laying tagged current leads 8 (the second current lead is not visible), and the cavity 9 of the trunks.

FIG. 3. In the power casing 6 (casing 6 is removed or worn for clarity) in the cavities of the trunks 9, probes 10 are thrown at the target, equipped with a device for securing to the target, in the form of a needle 11 with a horn, and throwing pyro charges 12 with electrospark initiation are installed, having conclusions 13, located in the recess of the end face of the power housing. The space between the terminals 13 is filled mainly with elastic insulating material 14. In the center of the power housing 6 there is a cavity in which a compressed (tense) spring 15 and a puncture element 16 are located. In the cavity facing the outer surface of the power housing there is a sear 17 over which is installed a trigger engine 5 located between the power housing and the outer shell and exiting with its protrusion through the hole 18 of the outer shell 1 to its outer generatrix.

FIG. 4. Before firing, the cartridge is attached to the front of the stun gun 19 (ESHO-DESHO). In this case, the cartridge fastening element 4 is fixed in the counterpart of the cartridge mount to the weapon assembly. The pusher 20 is in the rear position. When high shock voltage is applied to the DESHO combat electrodes, the shock potential of the electric current passes to the cartridge battle electrodes 3 and the probe conductors 10 electrically connected to them, while a clearly visible and audible spark discharge is organized on the cartridge battle electrodes. In this case, the initiation of pyrocharges of the cartridge does not occur because the chain of initiation of the pyrocharges is open by the insulating material 14 between the conclusions 13 of the pyrocharges. Thus, a cartridge attached to the DESO cartridge can be used for contact action on the enemy or demonstrate combat electrical discharge before use to ensure psychophysical effects on the enemy. If it is necessary to shoot at the enemy, the user presses the thumb holding the DESO (with a very small finger stroke of 3-5 mm) onto the pusher 20 which, with its front end 21, shifts the trigger 5 from the whisper 17 held in place by it, after which it whispers releases the puncture element 16, which, under the action of the force of the compressed spring 15, destroys (punctures) the elastic electrical insulating material 14 between the terminals 13 of the propelling charges 12, closing them and forming a circuit: the generator pole is high voltage of the first striking voltage of the electric current — the first conductor — the first probe — the first pyrocharge — closed leads 13 — the second pyro-charge — the second probe — the second conductor — the other pole of the generator of the high-voltage striking voltage of the electric current. When an electrospark discharge passes through pyro charges, they are initiated and throwing of probes 10 with current leads 8 to the target occurs.

FIG. 5. The nozzle for an electric shock weapon consists of a polymer case 22 having a cavity 23, a fastening place 24 in the form of a dovetail mate and a locking screw 25. The case 22 has protrusions 26 with an electrically conductive coating 27 or glued with a metal foil. In the housing 22, a spring-loaded plunger 28 is installed.

FIG. 6. Housing 22 removed. The pusher 28 has a protrusion 29, interacting with a spring-loaded lock-lock 30, which in turn can interact with a standard element 4 for attaching cartridges. In the cavity of the housing 22 of the nozzle is placed an ejector 31 having a protrusion 32 and a spring 33 of the ejector.

FIG. 7. The use of nozzles is as follows. The nozzle is mounted on an electric shock weapon 19. A cartridge 34 is inserted into the cavity 23 of the nozzle with electric spark initiation of the shot, according to the principle of operation of the RF patent No. 2351871, while the cartridge through the protrusion 32 cockes the ejector 31, which compresses the spring 33. At the end of the cartridge’s stroke, cocking of the spring 33, the lock-latch 30, under the action of its spring, fixes the cartridge 34 in the nozzle cavity for the standard element 4 (in Fig. 1) for attaching the cartridge to stun guns. To the front of the stun gun 19, a cartridge 35 of FIG. 1 with an electrospark initiation and protection of pyro charges by an electrically insulating layer. In this case, the standard cartridge fixing element 4 is fixed in the counterpart of the cartridge mount to weapon assembly. The pusher 28 has a front end 21, interacting with the trigger engine 5 of the cartridge 35 and the protrusion 29, interacting with a spring-loaded lock-lock 30 which in turn interacts with the standard element 4 of the cartridge 34.

If it is necessary to shoot at the first target with current conductors carrying an electric shock striking the target, the user of the weapon presses the trigger element of the stun gun including the high voltage generator of the striking electric current. In this case, the high-voltage electric current through the fighting electrodes of the weapon and the conductive coating 27 of the protrusions 26 reaches the metallization 36 of the cartridge 34, which is the conclusions of the cartridge current lead. The initiation of pyrocharges of the cartridge 34 occurs, while the probes with current leads fly to the target.

If it is necessary to fire a second shot at opponents, the user releases the DESO trigger element with his weapon and presses the pusher 28 with his thumb holding the weapon (with a very small finger stroke of 3-5 mm). The front end of the pusher 21 acts on the trigger engine 5 of the cartridge 35. When this is the destruction (puncture) of the insulating material of the propelling charges of the cartridge 35. Simultaneously with the action of the pusher 28 on the puncture of the insulating material (in fact, with the preparation of the cartridge of Fig. 1 for firing) often 29, the pusher 28 interacts with the spring-latch lock 30 which releases the fixing member 4 of the cartridge 34 in the mouthpiece. In this case, the spring 33 of the ejector 31 by the protrusion 32 energetically ejects (extracts) the cartridge 34 from the cavity of the nozzle. This achieves the separation of the high-voltage weapon generator with the first target to prevent current leakage to the first target when firing at the second target. To produce a second shot, the user with the weapon again presses the DESO trigger element, which includes the high-voltage generator of the striking electric current. In this case, the pyro charges of the cartridge 35 of FIG. 1 electrical insulating material of pyro charges of which by this moment has already been destroyed. The probes with the conductors of the second cartridge fly to the target. If it is necessary to reload the weapon, the shot cartridge 35 of FIG. 1 and install the same new one, and the cartridge 34 is again inserted into the cavity of the nozzle with an effort. The nozzle allows two shots in a row to control firing with only one hand of the user of the weapon. A nozzle using the principle of sequentially firing two cartridges, one of which is special with a puncture of electrical insulation material, and the other standard with the principle of initiating pyro-charges like BTER or DEK cartridges in a different design can be worn on any type of stun guns, for example in the form of an "electric shaver "or batons.

FIG. 8. The cartridge consists of two integral units consisting of a polymer outer shell 37, a first cartridge assembly and a polymer outer shell 38 of a second cartridge assembly with cartridge attaching member 4 to an electroshock weapon. The shell 37 has a bursting disc or an openable or resettable plug 2, and a trigger motor 5 is located on the shell 38. Outside of both shells, tracks of the conductive coating 39 are applied or tracks made of metal foil are made.

FIG. 9. The outer shell 38 is removed. Inside the outer shell 37 is a polymer power cartridge case with spark spark initiation according to the principle of the patent of the Russian Federation No. 2351871. Inside the outer casing 38, a polymer power housing 40 is located, in which cavities 7 are made for laying the labeled current conductors 8 (the second current path is not visible), cavity cavities that do not differ from the cavity cavities of the cartridge of the first embodiment of FIG. 2, and the trigger engine 5.

FIG. 10. (The outer shell 38 and the power housing 40 are removed.) In the cavities of the shafts, probes 10 being thrown at the target are installed, equipped with a device for securing to the target in the form of a needle 11 with a horn, and throwing pyro charges 12 with spark initiation are installed, having conclusions 13 located in the recess of the end face of the power housing 40. The space between the terminals 13 is filled predominantly with elastic insulating material, like the cartridge of the first embodiment of FIG. 3. A cavity is made along the axis of the power housing 40, in which the polymer connecting rod 41 is movably located, one end of which is rigidly fixed to the rear end of the outer shell 37, and the second end passes through the power housing 40 to the terminals 13. A cavity is made inside the connecting rod 41 which is located the compressed (stressed) spring 15 and the puncture element 16. In the cavity extending to the outer surface of the power housing there is a sear 42, on top of which there is a trigger engine 5 located between the power housing 40 and the outer shell 38 and emerging with its protrusion through the opening of the outer shell to its outer generatrix. An intermediate sear 43 is mounted between the sear 42 and the puncture element 16, for example, in the form of a predominantly metal ball located in the hole of the connecting rod 41, with the axis of the hole perpendicular to the axis of the connecting rod.

FIG. 11. The cartridge works as follows. The cartridge is installed on the DESO 19, while the cartridge fixing element 4 is fixed in the counterpart of the DESO. The trigger engine 5 has the ability to interact with a spring-loaded pusher 20, driven by the user's thumb of the weapon.

When applying a high damaging voltage of the weapon through the weapon’s fighting electrodes to the paths of the conductive coating 39, the high-voltage potential is applied to the first cartridge assembly with spark initiation of the shot according to the principle of operation of RF patent No. 2351871 and simultaneously to the second assembly that is special, with destruction (puncture) of the electrical insulation material. When the voltage potential hits the first node, its propellant pyro charges are initiated and the probes 10 with current leads 8 are thrown at the target. In this case, the initiation of pyro charges of the second node does not occur since the undestroyed electrical insulation material in the pyro charges of the second node prevents the passage of current through the pyro charges to initiate them.

If it is necessary to shoot at an opponent (or a second opponent) a second time, the user presses with his thumb the hand holding the weapon (with a very small finger stroke of 3-5 mm) on the pusher 20, which with its front end 21 moves the trigger 5 from it held in place whispered 42, after which the sear released the connecting rod 41 and at the same time the intermediate sear 43, in the form of a ball which releases the puncture element 16. The compressed spring 15 pushes the connecting eraser from the axial cavity by the force of expansion at one end Zhen 41 together with the first cartridge assembly 44 already fired, and the other end acts on the puncture element 16 which punctures the elastic insulating material between the terminals 13 of the throwing pyro charges 12, closing them and forming a circuit: the pole of the generator of high-voltage damaging voltage of the electric current - the first current lead - the first probe - the first pyrolysis charge - closed leads 13 - the second pyrolysis charge - the second probe - the second current lead - the other pole of the generator of high voltage damaging voltage of electric current. When an electrospark discharge passes through pyro charges, they are initiated and the probes are thrown with current conductors of the second cartridge assembly 45. Thus, the cartridge allows you to make two shots in a row with firing control with only one user’s weapon. DESHO with such a cartridge design cannot be used in contact with an attached cartridge; however, it is possible to quickly retake without manipulation with both hands.

Claims (6)

1. A firing cartridge of a remote stun gun containing a power casing, an outer shell of the casing, laying conductors with probes, throwing pyro charges of electric conductors with spark initiation and a protective insulating layer of initiating pyrolysis electrodes, as well as an element for attaching a cartridge to electroshock weapons, characterized in that in power a casing made of an insulating material, mainly polymer, installed a mobile element punctured by spring force electrical insulating protective layer initiating at least one pyrolysis of the electrodes, a whisper interacting with the puncture element, as well as a trigger engine that protrudes onto the outer generatrix of the outer shell of the body and interacts with the sear and the drive of the engine on stun guns. 2. A nozzle for an electroshock weapon, comprising a housing with a lock for mounting on a weapon, characterized in that a cartridge with electrospark initiation and a cartridge ejector loaded with spring force are fixed in the cavity and are mounted in the cavity and are made of electrical insulating material, mainly polymer. a pusher is located on the nozzle body, controlled by the user's finger and interacting with the cartridge lock-lock located in the case and simultaneously acting with the trigger of the cartridge firing the conductors with electrospark initiation after the destruction of the protective insulating layer of the initiating throwing pyro charge electrodes fixed in the electroshock weapon outside the nozzle body, said firing cartridge in the cavity of the nozzle body and said firing cartridge outside the nozzle body are electrically connected by high damaging voltage cartridges conductors. 3. The nozzle for stun guns according to claim 2, characterized in that said pusher has a return spring. 4. The nozzle for stun guns according to claim 2, characterized in that said cartridge lock-retainer has a return spring. 5. The firing cartridge of the remote stun gun, containing the power casing, the outer shell of the casing, laying the conductors with probes, throwing pyro charges of electric conductors with spark initiation and a protective electro-insulating layer of initiating pyro-charge electrodes, an element for attaching the cartridge to electroshock weapons, characterized in that the cartridge consists of two nodes, each of which contains a power housing made of an insulating material, mainly polymer, and an outer shell cased power housing made of an insulating material, mainly polymer, with the first node having at least one propellant pyrocharge of conductors with spark initiation, the second node has at least one pyrocharge with spark initiation, a protective insulating layer of pyrocharge initiating electrodes and a cartridge fixing element on stun guns, nodes are interconnected by a connecting rod made of insulating material, the advantages polymer, rigidly fixed in the first node and passing through the cavity of the power housing of the second node, inside the said connecting rod is a movable puncture element of the electrical insulating layer of initiating pyrolysis electrodes, loaded by the force of the spring, a sear is installed in the cavity of the power housing of the second node, interacting with the puncture element inside of the connecting rod and with the connecting rod itself, with the sear, the trigger engine interacts with the protrusion of the outer image guide the outer shell and the second assembly cooperates with the drive engine mounted on the stun guns. 6. The firing cartridge according to claim 5, characterized in that the sear consists of two searers interacting with each other, one of which may take the form of a sphere.

Images