RU2657151C1 - Shooting electric shocker - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: invention relates to the field of non-lethal weapons, namely to shooting electric shockers. Shooting electric shocker contains shooting cartridges that are triggered for shooting by electric current from an electrical circuit. Cartridges are held in the housing from being thrown out by electromechanical locks. Shot cartridges are ejected from the housing when opening of the electromechanical locks corresponding to these cartridges.

EFFECT: enabling an increase in the reliability of the electric shock device operation.

5 cl, 3 dwg

Description

FIELD OF TECHNOLOGY

The invention relates to shooting stun guns for temporary immobilization of dangerous criminals by electric current.

BACKGROUND

A firing stun gun according to US patent No. 7800885 B2 is selected as an analogue of the invention in the form of a 3-charging pistol having firing cartridges placed in its body, which throw darts with electric current conductors when they hit the target and cause electric shock from high-voltage electric discharges on the target generated by an electrical circuit with a power source located in the gun body. The firing cartridges have a charge of compressed nitrogen inside with a shut-off valve that opens from an electric current supplied to the special contacts of the cartridge firing device when the shutter button is pressed. The charge of nitrogen accelerates and throws into the target conductors having darts with hooks at the ends. The first drawback of the analogue is that the cartridges are connected to the weapon by means of a mechanical latch located in the cartridge, and after the shot are not thrown out of the gun. This makes it impossible to quickly and accurately fire the next shot if the next target appears behind the shooter. Conductors reaching for the affected first target do not allow the user to turn with the weapon to a new target that has appeared behind his back, because this is prevented by durable conductors, fastened with darts with hooks at the ends, on the clothes of the first target. Conductors interfere with the rotation of the shooter and aiming, since the strength of the conductors does not allow the gun to aim at a new target. Conductors from the first shot may appear on the line of the next shot, which will change the trajectory of the conductors with the darts of the new shot and they will not hit the target. The second drawback of the analogue is that for electric shock to all three targets when they hit them, it is necessary to transfer to all three targets and the full electrical effect, which is impossible at the same time, since the resistance of the targets is different (both the resistance of the body of the goals themselves and the resistance determined by the penetration distance of the spark discharge on the target due to the different thickness of the clothes, the different depths of penetration of the dart needles into various clothes, etc.) and thus while supplying electricity one in three parallel current circuits one goal short circuit total (parallel) and an electric circuit of an electric current for other purposes will not occur. For the impossibility of shorting the targets with other goals, the analogue has not one output high-voltage channel of action on the target, but three separate high-voltage channels, which, successively turned on in a certain order, transmit electric current to each target separately for some time. Three times the number of high-voltage channels, each of which consists of overall high-voltage transformers, capacitors, increases the overall dimensions and weight of the analogue. The triple number of high-voltage channels significantly increases the cost of the gun, since the high-voltage transformer is the most critical and expensive part of the design of the electrical circuit of any stun gun, characterized by the high cost of assembly, filling with a curable high-voltage insulator and requiring the highest qualification of the working personnel in these works. A firing stun gun using the above patent was issued in the USA by TASER Int. called the TASER X3 model, but its price was so high (more than 2000 USD) that there were practically no sales and the TASER X3 is currently discontinued.

The prototype of the present invention is the firing stun gun according to RU patent No. 2462678 in the form of a 3-charging pistol having firing cartridges spring loaded in the housing that are removed from the housing and held in the housing by mechanical spring clips and ejecting conductors when fired at the target have an electric shock effect on the target from high-voltage electric discharges generated by an electric circuit with a power source located in the gun body. The firing cartridges have a pyrotechnic substance inside which is ignited by a low-voltage electric current supplied through special contacts of the cartridge launch to the charge igniter when the trigger is pressed. A charge of pyrotechnic substance is thrown into the target by conductors having darts with hooks at the ends. After the first shot is fired, before the second shot, the shot cartridge is ejected from the pistol body by a spring compressed when loading (installing) the cartridge into the gun body. After the second shot is fired before the third shot, the second shot cartridge is also ejected from the pistol body by a spring compressed when loading (installing) the cartridge into the gun body. A third spring cartridge is also removed from the gun body by a compressed spring. The disadvantage of the prototype is that the holding after the shot (and the corresponding electrical impact on the target) of the fired cartridge in the gun body occurs with the help of a mechanical locking element with the trigger fully pressed, and the force on the hook with its own return spring to hold the cartridge pushed out by the compressed spring is very long, and the holding time of the hook in the pressed position should be sufficient to reliably immobilize the target. A lot of effort on the hook is uncomfortable for the shooter. The disadvantage of the prototype also lies in the fact that for a safe target temporarily immobilizing the target with electric currents according to the standards of the Ministry of Health of Russia and GOSTs for electroshock devices, a time of no more than 3 seconds is required. At the same time, electric current is transmitted to the target through the shot conductors only while the shooter is holding the cartridge (only when the hook is fully depressed). If the shooter releases the hook earlier than in 3 s, the target may not receive the necessary amount of electricity to immobilize, but if the shooter does not release the hook more than 3 seconds, the target may receive the amount of electricity more than permitted by regulatory documents, which can cause health consequences up to fatal. The most significant drawback of the prototype lies in the complex device of the firing cartridge, in which the drive mechanism for unlocking the mechanical spring retainer that holds the cartridge in the stun gun housing is installed for subsequent ejection of the cartridge from the housing after firing. The implementation of the fixation of the drive piston 7 and 13 (Fig. 1 patent RU No. 2462678) in both types of construction requires high precision manufacturing of molded from thermoplastics or machined parts, which unreasonably increases the cost of the cartridge, and hence the final cost for the consumer . The prototype pistol model called "PDG-S3" was exhibited at the Interpolitech 2011 exhibition, but such a gun has not been put on sale to date.

SUMMARY OF THE INVENTION

The technical problem to which the present invention is directed is to increase the accuracy and shooting comfort of a firing stun gun with high operational reliability and ease of production and low cost of firing cartridges for it.

The required technical result is achieved by the fact that the firing stun gun contains firing cartridges that are spring-loaded for ejection from the casing and are launched for firing electric current from the circuitry, the cartridges being kept in the casing from being ejected from the casing by electromechanical locks, and the fired cartridges are ejected from the casing when opening the electromechanical locks corresponding to these cartridges.

The use of electromechanical locks in the stun gun according to the present invention makes it possible to provide a small stroke and a small force connected only with the electric switch of the trigger, by pressing which a shot is fired. Small stroke and low effort on the start key allows you to increase the comfort and accuracy of the shot.

The use of electromechanical locks in the stun gun according to the present invention makes it possible to use firing cartridges of a simple device for firing, which do not require precise internal unlocking drives holding the cartridges in the stun gun housing, can increase the reliability of the stun gun, and significantly reduce the cost and final price of the firing cartridge, and therefore and increased sales of stun guns themselves.

An additional feature of the stun gun is that the electromechanical lock can be driven by an electromagnet or several electromagnets. The use in the stun gun according to the present invention of several small-sized electromagnets corresponding to each firing cartridge with cores representing retractable lock bolts allows the invention to be carried out in the simplest way. The bolts of all locks can be driven in sequential action and with one electromagnet through, for example, a stepper (ratchet rail and dog) transmission.

An additional feature of the stun gun is also that the electromechanical lock can be driven by an electric motor or several electric motors. The use of a lock bolt drive electric motor in the stun gun according to the present invention makes it possible to open several locks with just one electric motor by means of a screw-nut or pinion gear or an anchor linear stepper motor, in which the lock bolts open sequentially when moving along a bolt screw or nut or armature of a linear stepper motor. At the same time, it is possible to use individual electric motors for each lock.

An additional feature of the stun gun is that electromechanical locks are controlled by a microprocessor in an electric circuit. The use of a microprocessor in the stun gun according to the present invention, which sets the opening sequence of electromechanical locks, makes it possible to carry out the invention in the simplest way without the use of unreliable mechanical sequential electrical switches of electromechanical locks, for example step locks.

An additional feature of the stun gun is that electromechanical locks are controlled by a microprocessor and an electronic timer of the electric circuit. The use in the stun gun according to the present invention of a microprocessor and an electronic timer as part of an electrical circuit for controlling the time of supplying a high-voltage electric current to the target and the delay in opening electromechanical locks allows the supply of the amount of electricity to the target that is precisely consistent with the legislative regulatory documents.

The essence of the proposed technical solution is illustrated by schemes that have a purely illustrative purpose and do not limit the amount of claims of the totality of the features of the formula.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention is explained below in more detail with some specific examples of its implementation with reference to the accompanying schemes.

FIG. 1, Schematic illustration of a firing stun gun before firing.

FIG. 2, Schematic illustration of a shooting stun gun during a shot.

Figure 3, Schematic illustration of a shooting stun gun during removal of the cartridge from the device after the shot.

DETAILED DESCRIPTION OF THE INVENTION

In more detail, the design and principle of operation of the firing stun gun according to aspects of the present invention are set forth on the basis of the drawings.

In FIG. 1, the stun gun consists of a housing 1, in which several (for example 3 pcs.) Shooting cartridges 2 are placed, spring-loaded with springs 3 and held in the housing 1 by retractable bolts 4 with electromagnets 5. Instead of electromagnets, microelectromotors with gear reduction gears can also be used to increase the impact force on the crossbars. In the housing 1 there is also an electric circuit 6 with a power source 7, for example, a battery, and a start switch 8 connected to the release button 9. To the rear pairs of electrical contacts of the cartridge launch devices for firing cartridges (for example, as in Fig. 1, item 4, patent RU No. 2462678) preloaded electrical pairs of contacts 10 of the housing 1, connected to the electrical circuit 6 and secured in the housing 1. To the front contacts of the cartridges themselves, which are connected to the cartridge conductors aimed at the target close or slightly a gap, but so as not to interfere with the insertion of the cartridges into the housing and the exit of the cartridges from the housing, common high-voltage electrodes 11 of the housing 1 are suitable (for example, as in FIG. 1, item 19 of the patent RU No. 2462678) of the electric circuit 6 (high-voltage current supply to the electrodes 11 from the electric circuit in the figures is not shown due to clutter with additional lines of the figure). In the stun gun position before firing, cartridges 2, which tend to extend the springs 3 from the housing, are held by the hollows 12 of the cartridges (clearly visible in FIG. 3) with bolts 4 and cannot extend from the housing 1.

In FIG. 2 when the arrow is pressed on the shutter-release button 9 through switch 8, the electric circuit 6 turns on and generates an electric current that enters the first pair of contacts 10 to the pair of rear contacts of cartridge No. 1, but does not go to contacts 10 and, respectively, the rear contacts of cartridges No. 2 and No. 3. The electric current supplied to the contacts 10 can be either a low 1-12B or a high voltage of 0.5-50 kV, depending on the type of cartridge used to launch the cartridge for the shot. The firing cartridge has inside a cartridge firing device for firing a shot, for example a charge of a pyrotechnic substance or a charge of compressed gas.

The pyrotechnic substance ignites from the electric current supplied to the contacts of the cartridge launch device, forming compressed gas, or the compressed gas is released as a result of opening the shut-off valve of the compressed gas charge by electric current. Compressed gases throw darts with hooks and conductors from the cartridge to the target, darts fly at the target, stick into the clothes of the target and cling to the target. Simultaneously with the electric current supplied only to the rear contacts of the cartridge No. 1 and not applied to the rear contacts of the cartridges No. 2 and No. 3, the electric circuit 6 supplies a high voltage electric current to all common electrodes 11 of the housing 1. High voltage electric current supplied through the electrodes 11 to the front contacts of all cartridges, applies to the target along the conductors of cartridge No. 1 shot at the target and produces an effect on the target with its immobilization. But the high voltage of the electrical circuit 6, which was also applied to cartridges No. 2 and No. 3 through common electrodes 11, does not fire shots of cartridges No. 2 and No. 3 because electric current from the electrodes 10 is not supplied to their triggering devices. Depending on the task being solved by the shooter immobilizing the criminal, a high-voltage electric current from the electric circuit 6 can be supplied to the target until the shooter releases the trigger 9, or with the programmed electronic timer in the circuit 6 for a while, even if the shooter releases the trigger accelerator key.

In FIG. 3, when the arrow is released by the shooter 9, the electric circuit 6 stops supplying a high voltage electric current to the common electrodes 11 and the action of the electric current on the target ceases. Simultaneously or with a delay in the timer program from the moment the trigger is released, an electric current is supplied to the electromagnet 5 of cartridge No. 1. The electromagnet 5 opens the crossbar 4 of the cartridge No. 1, holding the cartridge in the housing 1. By the force of the previously compressed spring 3, the cartridge No. 1 is pushed out of the housing 1 and falls to the ground. The connection of the stun gun with the target by the conductors is broken (and after pushing the cartridge out of the housing, the electromagnet turns off and the lock comes to the initial position so that its spring-loaded crossbar 4 can snap into the cavity 12 of the new cartridge when it is inserted into the ejected cartridge and lock it in the housing 1) .

After ejecting the shot cartridge, the stun gun is ready for the next shot. The next shot at the target when the shutter-release button 9 is pressed is made by cartridge No. 2 according to the algorithm described in the description of FIG. 2, for cartridge No. 1. After hitting the second target, cartridge No. 2 is thrown out of the device according to the algorithm of this description item, and the next shot is fired by cartridge No. 3 according to the described algorithms for firing and removing a shot cartridge from the stun gun body. After ejecting all the cartridges from the housing 1, new cartridges can be placed in the places of their installation to continue shooting, fixing them in the housing with bolts 4. New cartridges can be inserted into the installation locations of the cartridges that have already been thrown out and in the interval between shots before shots from all cartridges, since the microprocessor electrical circuit 6 supplies the starting cartridges with electric current to the electrodes 10 only in a certain order sequentially from cartridge No. 1 to No. 2 and No. 3. In the stun gun according to the present invention there is also a mode for the contact action of the shocker on the target’s body without shots, as in the considered analogue and prototype. For this, the stun gun has a special button on the case, when pressed, the circuit 6 supplies a high voltage of electric current to the common electrodes, but does not supply the electric current that triggers the cartridges for firing, to a single pair of electrodes 10 to any cartridge. In this case, shots do not occur, but a high voltage appears on the electrodes 11 located in front of the stun gun body 1 and the stun gun can be pressed against the target’s body by acting on it in contact.

The electric circuit 6 has a microprocessor, which sets the sequence for supplying electric current to the contacts 10 and the electromagnets 5 when the release button 9 is pressed and released. The electric circuit 6 can also have an electronic timer that controls the time the high-voltage electric current is supplied to the target and the delay in opening the crossbars 4 after releasing arrow shooter.

A comparison of the proposed technical solution with the identified analogues of the prior art did not reveal an identical match of the totality of the essential features of the invention. The proposed differences of the remote stun gun are not obvious to a person skilled in the field of electroshock devices, which directly follow from the purpose of the invention.

Claims (5)

1. A firing stun gun containing firing cartridges spring-loaded for ejecting from the casing, which are fired to shoot electric current from the circuitry, characterized in that the firing cartridges are kept in the casing from being ejected from the casing by electromechanical locks, and the fired cartridges are ejected from the casing when opened corresponding to these cartridges of electromechanical locks. 2. The stun gun under item 1, characterized in that the electromechanical locks are driven by an electromagnet or several electromagnets. 3. The stun gun under item 1, characterized in that the electromechanical locks are driven by an electric motor or several electric motors. 4. The stun gun under item 1, characterized in that the electromechanical locks are controlled by a microprocessor electrical circuit. 5. The stun gun according to claim 1, characterized in that the electromechanical locks are controlled by a microprocessor and an electronic timer of the electrical circuit.

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