RU2308668C2 - Design of fixed cartridge for throwing of hand arms electric wire for remote injury of targets by electric current - Google Patents

Abstract

FIELD: communication for electric shock weapon.

SUBSTANCE: the cartridge has a body with a cavity, shell with a head having a device for fastening on the target, container of electric wire, whose and end is fastened in the cartridge body, and the ohter is connected to the shell head. The electric wire container is made in the form of a frameless coil, and a pyrotechnic charge with an electrical or mechanical initial is placed in the cavity of the cartridge body, the pyrotechnic charge is made for formation of non-currentconducting combustion products.

EFFECT: enhanced reliability and efficiency of target injury at small overall dimensions of the cartridge.

13 cl, 8 dwg

Description

The technical field to which the invention relates.

The invention relates to a device for throwing an electric wire of a weapon for remote destruction of various targets by electric current, specifically to cartridges (cartridges) of a propelling device of an electric wire of a weapon for remote destruction of various targets of electric current transmitted through an electric wire. Currently, typical representatives of such weapons are remote electric shock weapons (DESO) firms (Stinger Systems) USA.

The level of technology.

A device of the "Electric apparatus for hunting whales" (US patent No. 8843), comprising a harpoon electrically connected to an electric wire being wound when throwing a harpoon from a harpoon or harpoon gun mounted on an electric cable bay, is known. The disadvantages of the device are significant dimensions, making it impossible to use the indicated device of a missile electric wire in a hand-held remote weapon for defeating various targets, and in particular in modern hand-held remote stun devices like “Air Taser”

A device is known according to US patent No. 5654867 containing a double cartridge (cartridge) missile electric wire for remote destruction of various targets.

The cartridge contains a common casing, inside of which there are two barrels with missile projectiles, which are oblong cylindrical rods equipped with needles with horns (such as fishing ones) at the ends, the projectiles are pushed out of the barrels with the help of a pyrotechnic charge initiated by the high-voltage firing used in DESO to hit targets.

The special pockets of the cartridge contain two stacks of electrical wire pulled by shells when fired from the body. When shells hit the target, they are fixed on it with needles with horns, and the high-voltage shock voltage DESHO is transmitted to the target via two wires extended from the cartridge.

One of the options for a device for throwing an electric wire (US patent No. 3803463, published April 9, 1974, Fig. 15), containing a common housing, inside which there are four barrels with obturators (wads) and missile shells, which are multi-needle balls connected to an electric wire placed (laid) on cone mandrels (to facilitate winding during firing). Gunpowder (pyrotechnic charge) is ignited by electric current and, when ignited, simultaneously throws ball projectiles with shuttles accelerated in four trunks (wads). At the same time, ball projectiles fly out of the barrel of the cartridge, pulling the electric wires wound on the cone mandrels, and unwinding them from the cone mandrels. During the flight, the electric wires are wound from conical mandrels until the ball projectiles hit the target and the ball projectiles are fixed to the target with the help of a multi-needle "burdock" type warhead.

Currently, in all types of cartridges for DESHO, not multi-needle burdock shells are used, but elongated shells with a needle, as the most effective ones according to the criterion of fixing on the target with maximum manufacturability.

The described type of device - cartridge, in fact, is a double unitary cartridge containing a common housing and an energy source for throwing (powder or pyrotechnic charge), means of initiating an energy source (electric igniter), two (or more) barrels, two ( or more) a projectile for pulling the electric wire from the cartridge housing and securing the electric wire to the target, two (or more) compact locations for a correctly laid electric wire for its correct (without the possibility of putyvaniya and ruptures when unwinding at a speed of at least 30 m / s) delivery to the target when fired. However, in comparison with a unitary cartridge for a firearm, combining in one case (sleeve) an initiation tool (capsule), an energy source for projectile throwing (gunpowder), and a missile projectile (for example, a bullet), the described cartridge (cartridge) device has significant difference. In the case of the described type of cartridge also contains (combined) and a means of initiation, and a pyrotechnic source of energy, and a projectile (shells), and the laying of an electric wire necessary for this type of cartridge, but they are located separately from each other, thus occupying a considerable volume greater than the volume of a unitary firearm cartridge, in which all the components necessary for firing are placed in the common cavity of the body (sleeve). A separate arrangement of the components necessary for firing, in addition to increasing the volume (i.e. dimensions) of the cartridge, automatically increases the total weight of the cartridge, since a separate arrangement of the elements of the shot entails the need to increase the volume of material for making the case with separate places for placing the components of the shot , which means an increase in the weight of the body material.

The need to combine at least two shells and at least two mutually isolated stackings of the electric wire in the case of one cartridge is dictated by the impossibility of efficiently transmitting electricity to the target, except by means of a two-wire method of transmitting electricity using two mutually insulated air gap or insulation of wires. In the cartridge of the described type, two pyrotechnic sources of throwing energy of two shells can be used, each of which works on a separate barrel, the design principle does not change from this, the general pyrotechnic source of throwing energy is used only to reduce the dimensions and reduce the price of the product.

The need to have an air gap of at least 30-40 mm between the trunks of a double cartridge, which does not allow electrical breakdown through the air between two electric wires when fired, further increases the dimensions of the cartridge and the weight of the body material. Comparison of the specific energy indicators of a unitary firearm cartridge (for correctness with the lowest possible muzzle energy) and the described type of cartridge by volume or weight (J / cm ³ ; J / g), shows that a firearm cartridge with a minimum muzzle energy such as a side-fire cartridge 5 , 6 mm "Shortened target" has specific characteristics of about 75 J / cm ³ or 14 J / g, per shot, and the best examples of cartridges with a pyrotechnic energy source for throwing the described type have specific characteristics of no more than 0.4 J / cm ³ , or 0.26 J / g per double shot. At the same time, it is taken into account that both a fire cartridge, designed not to hit targets with kinetic effects, but only to cut through a paper target, and the DESO cartridge perform, first of all, one task, i.e. projectile delivery to the target. Even with a negligible muzzle energy of a projectile per shot from a single barrel of a cartridge (not more than 4 J) or 8 J per double shot, the specific energy characteristics of the cartridges required to pull the electric wire out of the cartridge and fly to the target at a speed of about 30-40 m / s of the described type are inferior by an order of magnitude to the energy characteristics of unitary cartridges for firearms designed to mark holes in a paper target.

To accelerate a projectile being thrown at the target, which draws an electric wire laid into the housing when flying toward the target, the barrel is used, which is a cylindrical cavity in which the shutter-pushing element (wad) accelerating the projectile is accelerated. Although the “barrel” device is a part of the weapon, not the cartridge, in this case the cartridge barrels, which are located in the housing common for the projectile and charge, can be characterized as elongated cartridges of cartridges of modern cartridges of the type SP-4 “Val”, or cartridges type 18x45 and 18x70 for self-defense devices of the PB-4 Osa type. Such cartridges, being actually cartridges, also carry the function of barrels in weapons, for which barrels in their pure form (i.e. mounted on the weapon itself) for some reason are undesirable. In DESHO weapons, the barrel is practically undesirable due to the insignificant required muzzle energy, low requirements for accuracy of fire, and high requirements for the compactness of the weapon due to the placement in it, in addition to the propelling device, also of an electrical device that generates electric current pulses that hit the target. Thus, the notion of a "DESHO cartridge" falls under the concept of a "double cartridge" or "double cartridge carrying a barrel", in which individual elements of the shot such as "means of initiation", "powder charge", "projectile" and the main necessary addition DESHO weapon shells - “laying an electric wire” located even in one housing, is extremely irrational in comparison with a unitary cartridge for firearms (including a cartridge with an elongated sleeve, which is also a barrel), where everything necessary for firing comp nents are placed in a single package.

Compared with a unitary cartridge, for a firearm combining in one case (sleeve) an initiation tool (capsule), an energy source for projectile throwing (gunpowder), and a missile projectile (for example, a bullet), the described cartridge (cartridge) device has an essential difference. The case of the described type of cartridge also contains (combined) both a source of energy for throwing (pyrotechnic or powder charge), and a projectile (shells), and the laying of an electric wire necessary for this type of cartridge, but they are located separately from each other, thus occupying , a volume significantly larger than the volume of a unitary firearm cartridge, in which all the components necessary for firing are placed in the common cavity of the body (sleeve). A separate arrangement of the elements necessary for a shot, in addition to increasing the volume (i.e. dimensions) of the cartridge, automatically increases the total weight of the cartridge, since a separate arrangement of the elements of the shot automatically entails the need to increase the volume of material for manufacturing the case with separate places for placing the components of the shot , which means an increase in the weight of the body material. The disadvantages of this device are:

1. Placing the electric wire on the cone mandrels in special cartridge compartments (cavities) separated from the shafts, in connection with which minimizing the dimensions of the cartridge in excess of a certain value determined by the length of the reeled wire, the dimensions of the mandrels and cavities for their placement in the cartridge case, the distance values to prevent breakdown of air gaps between the supply electrodes is impossible.

2. Separate placement of the projectile necessary for firing a component of an electric wire, throwing a pyrotechnic charge, a classic type of barrel, does not allow to reduce the overall dimensions of the firing system.

3. The impossibility of creating multiple-charge weapons (over two shots in one DESO) of one hand (such as a pistol or revolver) on double cartridges (cartridges) of the described type due to their large dimensions.

A different variant of a weapon cartridge for stopping and capturing is known (US patent No. 3803463, published April 9, 1974, Fig. 9), a prototype comprising a body with a cavity, a projectile with a head having a device for securing to the target, laying an electric wire, one end of which fixed in the cartridge case, and the second end attached to the head of the projectile. The electric wire was laid on a mandrel fixed in the cavity of the projectile, in connection with which the projectile, and therefore the cartridge, have an increased mass and dimensions. In this version of the cartridge, the projectile is fired either due to the action of a compressed spring on it or due to a pneumatic drive, which does not always allow to provide the required characteristics in range and accuracy.

Disclosure of invention

The invention is aimed at solving the problem of creating a miniaturized unitary cartridge for throwing electric wires for use in hand-held remote electric shock weapons (DESHO), projectile throwing of which is carried out due to the action of a pyrotechnic energy source with high accuracy and range.

The problem is solved in that the cartridge for a hand gun for remote electric shock targets contains a body with a cavity, a projectile with a head having a device for securing to the target, laying an electric wire, one end of which is fixed in the cartridge case, and the second end is attached to the head of the projectile. Laying the electric wire is made in the form of a frameless coil, and a pyrotechnic charge with electrical or mechanical initiation is placed in the cavity of the housing, while the pyrotechnic charge is made with the possibility of the formation of non-conductive combustion products.

The body of the cartridge can be made of metal or plastic.

The mounting device on the target can be made in the form of one or more needles with a horn or sticking part.

Laying the electric wire can be cemented with a plastic or brittle-plastic bundle.

The projectile can be made with a cylindrical shell in the form of an oblong shell, which encloses the laying of the electric wire.

One of the ends of the stacking electric wire can be rigidly or movably fastened to the cartridge case through a non-conductive lead made of heat-resistant or refractory material laid over or around the pyrotechnic charge and fixed at the end of the cavity of the cartridge case.

The cavity of the cartridge case may have a front part of a reduced diameter, while the pyrotechnic charge is separated from the projectile by the wad-seal, and the end of the non-conductive lead is mounted on the wad-seal.

The cavity of the cartridge housing can be made conical, with a diameter of the front part smaller than the rear.

The cartridge case can be made of plastic mass, the cavity of which has a front part of a reduced diameter, at the beginning of the transition point into which a conductive output is made from the cavity to the outer surface of the cartridge case, while the end of the stacking electric wire is fixed to the metal part of the wad-shutter, which also has obturating part.

The projectile in the cartridge housing can be fixed with a split sleeve, or with an elastic insert, or with an adhesive film that is made of metal or metallized.

The laying electrical wire may be insulated or uninsulated.

The laying of the electric wire in the form of a frameless coil allows for a smooth and reliable straightening of the wire, which does not destabilize the flight of the projectile, as well as reduce the overall dimensions of the cartridge.

Placing a pyrotechnic charge in the body cavity of the cartridge with electrical or mechanical initiation allows increasing the range and accuracy of shooting and reducing the dimensions of the firing device.

Performing a pyrotechnic charge with the possibility of the formation of non-conductive combustion products makes it possible to ensure the reliability of the operation of the cartridge, to exclude the possibility of electric current passing not through the conductors and through the target of the defeat, but by closing in the cartridge case.

As the composition forming non-conductive combustion products, compositions that do not contain elemental metals, for example, mercury and lead, non-metals, for example carbon, acids, for example HCL, can be used in the combustion products. Such compositions can be obtained by creating a positive oxygen balance. Composition example: KClO ₃ - 80%, thiourea 20%. Conventional capsule formulations almost always contain conductive products in the form of elemental mercury, or lead, or carbon.

The proposed implementation of the cartridge allows you to create weapons DESHO, similar to multi-shot firearms of a non-automatic and automatic type. In such a DESHO, unlike conventional firearms, there are two magazines or two replaceable clips with the proposed unitary cartridges, and the device of the weapon does not allow internal electrical short circuit or internal air high-voltage breakdown by electric wires fired at the target. Shops or clips of DESHO weapons are equipped with the proposed unitary cartridges of throwing electric wires, and the necessary double shot for delivering two conductors to the target is carried out by simultaneously initiating two cartridges of the proposed type located in the store or DESHO clip.

The elimination of shot noise and the release of combustion products of a propellant pyrotechnic composition into the atmosphere in an embodiment of the invention is achieved by cutting off the powder (pyrotechnic) gases in the cartridge case.

Brief Description of the Drawings

Figure 1. the cartridge according to claim 1, claim 3, claim 4 of the claims with laying the wire with a cemented brittle plastic bond, with a projectile head equipped with a needle, and with shock initiation of the pyro charge.

Figure 2. The cartridge according to claim 1, claim 3, claim 4 of the claims at the time of the shot.

Figure 3. The cartridge according to claim 5 of the claims with the laying of the wire placed in the power shell of the projectile, with a needle and the initiation of pyrolysis by an incandescent bridge.

Figure 4. The cartridge according to claim 6, claim 7 of the claims with the laying of the wire placed in the power shell of the projectile, with a needle and non-conductive lead, laid around the pyrolysis case.

Figure 5. The cartridge according to claim 8 of the claims with a reduced diameter of the front part of the cavity, wad-seal and non-conductive lead.

6. The cartridge according to claim 8 of the claims at the time of the shot.

7. The cartridge according to claim 9 of the claims with a conical cavity, with a wad-seal and with a metallized adhesive film.

Fig. 8. The cartridge according to claim 10 of the claims with a conductive terminal.

The implementation of the invention

Depending on the type of DESO used or the capabilities of the technology, various cartridge arrangements may be used. The cartridge device according to claim 1, claim 3, claim 4, claims 1 consists of a body 1 of metal, inside the cavity 2 of which a projectile 3 is placed and the electric wire is laid in the form of a sealed single-layer, multilayer or hybrid frameless wire coil. One end of the wire laying the projectile 3 is connected, for example, by soldering or rolling to the head 4 of the projectile, made mainly of heavy metal (copper, lead or their alloys). The head 4 has a mounting device on the target in the form of a needle 5 with a horn. The other end of the laying wire of the projectile 3 is attached to the ring (washer) 6, which serves to secure the end of the laying wire in the cartridge case. At the end of the cartridge is pressed or screwed onto the thread capsule 7 shock. Laying the projectile 3 is cemented by a bundle 8, for example paraffin or ceresin. Fixing the laying of the projectile 3 is carried out by a split sleeve 9 and (or) an adhesive film 10, which prevents the extension and loss of laying the projectile 3 together with the head 4 when the cartridge falls to the ground and impacts during transportation.

Figure 2 shows the cartridge device according to claim 1, claim 3, claim 4 of the claims at the time of the shot. The drummer of the DESHO weapon punctures the capsule 7, the initiating pyro-charge of which is simultaneously a throwing pyro-charge. By the pressure of the pyrolysis combustion gases, the laying of the projectile 3 is accelerated in the cavity 2, while discarding the split sleeve 9 and breaking through the adhesive film 10 with the head 4. The laying of the projectile 3 begins to move toward the target. When moving the laying of the projectile 3 together with the head 4, the end of the laying wire held by the ring 6 remains in the cavity 2 of the cartridge, the main part of the laying of the wire, cemented by a bundle 8 together with the head 4, flies to the target. The short duration of the effects of hot combustion gases on the electric wire for laying the projectile 3 allows the wire to be made both uninsulated and insulated. During the flight of laying the projectile 3, the electric wire is pulled out from the compact mass of the projectile, destroying the bunch 8. When it hits the target, the head 4 with the remaining compact mass of laying is fixed to the target with a needle 5 with a horn. The high-voltage potential of the DESHO weapon is fed to the target by supplying it to the cartridge case and then through the laying electric wire.

Figure 3 shows the cartridge device according to claim 1, claim 5 of the claims. In the cavity 2 of the housing 1 of metal, an electric wire 11 is laid in the form of a compacted single-layer, multilayer or hybrid frameless wire coil enclosed in a cylindrical power shell 12 in the form of an elongated shell with an open and a blind end, made of metal in this example. A needle 5 with a horn is fixed in the head. One end of the laying wire 11 is connected (for example, by pasting, or passing the wire through the through hole in the blind end and knitting at the outlet of the assembly) to the head 4, and the other end of the laying wire 11 is attached to the ring (washer) 6, which serves to secure the end of the wire laying the projectile 3. At the end of the cartridge a capsule 13 is pressed in, which is simultaneously a projectile pyro-charge initiated by an incandescent bridge from a low-voltage power source for the DESHO weapon. Fixation of the sheath 12 with the laying of the wire 11 is carried out, for example, by an adhesive film 10, which prevents the extension and loss of the sheath 12 with the laying of the wire when the cartridge falls to the ground and impacts during transportation. When initiating the capsule 13, the pyrolysis combustion gases in the cavity 2 accelerate the sheath 12 with the laying of wire 11, which, breaking through the film 10, makes a flight to the target. In this case, the wire 11 laid in the sheath 12 is held at one end in the cartridge case 1 by a ring 6 and is pulled out of the sheath 12 during its flight. The short duration of exposure to hot combustion gases on the wire 11 allows you to perform it both uninsulated and in isolation. When the goal is reached, the sheath 12 with the remains of the unstretched wire 11 is fixed to the target with a needle 5. The high-voltage potential of the DESHO weapon is fed to the target by supplying it to the cartridge case and then through the laying electric wire.

Figure 4 shows the cartridge device according to claim 1, claim 6, claim 7. In the housing 1 of metal or plastic inside the cavity 2, a projectile is placed with the laying of the electric wire 11 in the form of a sealed single-layer, multilayer or hybrid frameless wire coil enclosed in a power cylindrical shell 12, in this example of metal. In the head of the projectile 3 is fixed a needle 5 with a horn. One end of the laying wire 11 is attached to the head, and the other end of the laying wire 11 is connected to a non-conductive lead 14 of 5-20 cm length, made of heat-resistant or refractory material, for example, Nomex polyaramide fiber or impregnated with a flame retardant natural fiber. The lead 14 is laid around the housing of the capsule 13 to protect it at the initial moment of the shot from the force of the flame of the pyro charge of the capsule 13. The end of the lead 14 is fixed at the end of the housing 1, for example, by clamping it in the housing when pressing the capsule 13. The shell 12 is fixed with the wire 11 being laid, for example , split adhesive film 10. When initiating the capsule 13, the pyrocharge combustion gases in the cavity 2 accelerate the shell 12, which, breaking through the film 10, begins to fly toward the target, while the lead 14, which is held around one them end in the housing 1 of the cartridge, out of the housing. The short duration of the effects of hot pyrolysis combustion gases on the leash 14 prevents its burnout and destruction. When the leash 14 is fully extended, its end, attached to the end of the laying wire 11, pulls the laying wire 11 from the sheath 12 when it is flying toward the target. When the target is reached, the sheath 12 with the remains of the unstretched wire 11 is fixed to the target with a needle 5. The high-voltage potential of the DESO weapon is fed to the target by supplying it to the end of the stacking wire 11 connected to the non-conductive lead 14 through the contact of the barrel guide made at the end of the DESO weapon body.

Figure 5 shows the cartridge device according to claim 8 of the claims. In the housing 1 of metal or plastic inside the cavity 2, a projectile with laying the electric wire 11 in the form of a sealed single-layer, multilayer or hybrid frameless wire coil enclosed in a power cylindrical shell 12. In the head of the projectile 3, a needle 5 with a horn is fixed. The cavity 2 has a reduced diameter of the front part 15. At the end of the housing 1 there is a capsule 13, initiated by an incandescent bridge, which is separated from the shell 12 by laying the wire 11, wad-obturator 16, which has the ability to secure the end of the lead 14 in it, for example, a loop fixed in the wad-obturator body. One end of the laying wire 11 is connected to the head of the projectile, and the other end of the laying wire 11 is connected to a non-conductive lead 14, the end of which is attached to the wad-seal obturator 16. The sheath 12 is fixed with the laying of wire 11, for example, with a split adhesive film 10 made of metallized or non-conductive .

Figure 6 shows the cartridge device according to claim 8 of the claims at the time of the shot. When the capsule 13 is initiated, the pyrolysis combustion gases in the cavity 2, acting on the wad-shutter 16, accelerate the sheath 12 with the laying of wire 11, which breaks through the film 10. After the wad-shutter 16 reaches the reduced diameter 15 (muzzle narrowing) of the cavity 2, it slows down in the muzzle narrowing 15, and the sheath 12 with the laying of wire 11 continues to move by inertia and, leaving the cavity 2 of the cartridge, makes a flight to the target. In this case, the end of the leash 14, held at one end in the wad-shutter 16, stopped in the housing 1 of the cartridge, leaves the housing. When the leash 14 is fully pulled out, its end, attached to the end of the laying wire 11, pulls the main part of the laying wire 11 from the sheath 12 when it is flying toward the target. When the goal is reached, the sheath 12 with the remains of the unstretched wire 11 is fixed to the target with a needle 5. The high-voltage potential of the DESO weapon is fed to the target by supplying it to the end of the stacking wire 11 connected to the non-conductive lead 14 through the contact of the barrel guide made at the end of the DESO weapon body.

Figure 7 shows the cartridge device according to claim 9 of the claims. In the housing 1 made of plastic inside the cavity 2, which is also a barrel, a projectile 3 is placed with the laying of an electric wire in the form of a compacted single-layer, multi-layer or hybrid frameless wire coil. The inner surface of the cavity 2 is made conical with a diameter of the front part less than the rear. In the cavity 2, there is an electrospark ignition capsule 17 made of a non-conductive elastic material, which is also a wad-seal. Laying the projectile 3 is cemented by a plastic bundle 8. One end of the wire laying the projectile attached to the head 4, made mainly of heavy metal. The head 4 has a mounting device on the target in the form of a needle 5 with a horn. The other end of the laying of the wire of the projectile 3 is connected to the wad-sealer 17 with an electrical outlet of the end of the wire through the end to the pyro charge placed in the cavity of the capsule. The end face of the cavity 2 has a metal plug 18 mounted on the thread or pressed into the housing 1. Fixing the laying of the projectile 3 with the head 4 is carried out, for example, by a split adhesive film 10 made, for example, metallized or metal. When the capsule is initiated by applying high-voltage potentials of the DESHO weapon to the plug 18 and the needle 5 through an adhesive film 10, an electric spark discharge inside the capsule between the plug 18 and the electrical outlet of the stacking wire through the end face of the capsule ignites the pyro charge. Accelerated by the capsule, the laying of the projectile 3 moves in the cavity 2 and breaks the film 10 with the head 4. After the wad-sealer 17, gradually deforming in the conical cavity 2, decelerates at the narrowed end of the cavity and stops, the laying of the projectile 3 continues to move, leaving the cavity by inertia 2 rounds. When the laying of the projectile 3 along with the head 4 moves, the end of the laying wire, held by the wad-seal 17, which has braked in the cavity 2, remains in the cartridge cavity 2, the main part of the laying of the wire cemented by the bundle 8, together with the head 4, makes a flight to the target. During the flight of laying the projectile 3, the electric laying wire is pulled out from the compact mass of the projectile, destroying the bundle 8. When it hits the target, the head 4 with the remaining compact laying mass is fixed to the target with a needle 5 with a horn. The high-voltage potential of the DESHO weapon is delivered to the target by breakdown of the air gap between the metallized film 10 and the electric wire coming out of the cartridge barrel. The gap of the high voltage circuit in the cavity 2 is carried out similarly to the description of Fig. 8.

On Fig depicts a cartridge device according to claim 10 of the claims. In the housing 1 made of plastic inside the cavity 2, a projectile is placed with the laying of the electric wire 11 in the form of a compacted single-layer, multilayer or hybrid frameless wire coil enclosed in a cylindrical power shell 12. A needle 5 with a horn is fixed in the head of the projectile. The cavity 2 has a reduced diameter of the front part 15, at the end of the housing 1 there is an electric spark ignition capsule 19 made of non-conductive material, which is separated from the shell 12 with the laying of wire 11, wad-seal, consisting of an elastic obturating part 20 and a resistant metal part 21, the end of the electric wire 11 laying the projectile passes through the obturating part 20 and is attached to the resistant metal part 21 of the wad-obturator, for example, winding the tip of part 21 and securing the winding to the obturator part 20 worn on the tip. At the beginning of the transition of the cavity 2 into a reduced diameter of the front part 15, a conductive terminal 22 is made from the cavity 2 to the outer surface of the housing 1. The sheath 12 is fixed with the wire 11 laid by a split sleeve 9 and (or) an adhesive film 10. When initiating the capsule 19 by application high-voltage potentials of the DESHO weapon to the electrode 23 of the capsule 19 and the conductive terminal 22, an electric spark discharge inside the capsule 19 between the electrode 23 and the thrust metal part 21 of the wad-shutter ignites the pyrocharge of the capsule 19.

Accelerated by pyrocharge of the capsule 19, the sheath 12 with the laying of the wire 11 throws out the split sleeve 9 and breaks the film 10. After the wad-obturator reaches the reduced diameter 15 (muzzle narrowing) of the cavity 2, it is inhibited in the muzzle narrowing 15 and stops, and the sheath 12 with styling wire 11 continues to move by inertia and, leaving the cavity 2 of the cartridge, flies to the target. The rupture of the high voltage circuit (spark discharge) necessary to ignite the pyro charge, but unacceptable after firing, is achieved by increasing the distance above the super-breakdown between the electrode 23 of the capsule 19 and the thrust metal part 21 of the wad-shutter extended until narrowing 15. To prevent high-voltage breakdown of electric current through the conductive pyrolysis combustion products deposited in cavity 2, a pyrocharge of capsule 19 is used, which forms non-conductive combustion products. When the sheath 12 with the wire 11 moves toward the target, its end held in the wad-shutter remains in the housing 1, the main part of the wire 11 is pulled out of the sheath 12 when it is flying toward the target. When the target is reached, the sheath 12 with the remains of the unstretched wire 11 is fixed to the target with a needle 5. The high-voltage potential from the DESHO weapon is supplied to the target through the conductive terminal 22, the metal part of the wad-shutter and the electric wire coming out of the cartridge’s barrel and secured to the target after firing.

Claims (13)

1. A cartridge of a hand weapon for remotely hitting targets with electric shock, comprising a body with a cavity, a projectile with a head having a device for securing to the target, laying an electric wire, one end of which is fixed in the cartridge body, and the other end is attached to the head of the projectile, characterized in that the laying of the electric wire is made in the form of a frameless coil, and a pyrotechnic charge with electrical or mechanical initiation is placed in the cavity of the cartridge case, while the pyrotechnic charge is made in zmozhnostyu formation of non-conductive products of combustion. 2. The cartridge according to claim 1, characterized in that the housing of the cartridge is made of metal or plastic. 3. The cartridge according to claim 1, characterized in that the device for securing to the target is made in the form of one or more needles with a horn or made glued. 4. The cartridge according to claim 1, characterized in that the laying of the electric wire is cemented with a plastic or brittle plastic bond. 5. The cartridge according to claim 1, characterized in that the projectile is made with a cylindrical shell in the form of an oblong shell, which encloses the laying of the electric wire. 6. The cartridge according to claim 1, characterized in that one of the ends of the laying electrical wire is rigidly or movably fastened to the cartridge housing through a non-conductive lead. 7. The cartridge according to claim 6, characterized in that the non-conductive lead is made of heat-resistant or refractory material, laid over or around the pyrotechnic charge and fixed at the end of the cavity of the cartridge case. 8. The cartridge according to claim 6, characterized in that the cavity of the cartridge housing has a front part of a reduced diameter, while the pyrotechnic charge is separated from the projectile by wad-seal, and the end of the non-conductive lead is mounted on the wad-seal. 9. The cartridge according to claim 1, characterized in that the cavity of the cartridge housing is made conical with a diameter of the front part of a smaller diameter of the rear part. 10. The cartridge according to claim 1, characterized in that the cartridge housing is made of plastic mass, and its cavity has a front part of a reduced diameter, at the beginning of the transition point into which a conductive output is made from the cavity to the outer surface of the cartridge housing, while the end of the electric wire laying is fixed to the metal part of the wad-shutter, which also has a blocking part. 11. The cartridge according to claim 1, characterized in that the projectile in the cartridge housing is fixed with a split sleeve, or an elastic insert, or an adhesive film. 12. The cartridge according to claim 11, characterized in that the adhesive film is made of metal or metallized. 13. The cartridge according to claim 1, characterized in that the electric wire laying is made insulated or uninsulated.

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