RU2672644C2 - Method of electric spark initiation of pyrotechnical charges of weapons and weapons device for implementation of the method (variants) - Google Patents

Abstract

FIELD: firearms.SUBSTANCE: invention relates to methods of electrospark initiation of projectile pyrotechnic charges (pyrocharges) of multi-barreled firearms. Field of application is a cheap weapon of self-defense, one-time weapons, portable shooting devices. Method of electrospark initiation of pyrotechnic charges consists in combining the electrodes of the discharge gaps sensitive to the electric spark discharge of pyrocharges into a parallel circuit and the supply of consecutive short high-voltage pulses to this circuit. Weapon for realization of the method consists of a block of trunks and a frame with a trigger element and the possibility of attaching a handle. Piezoelectric generator, built into the frame and driven by the trigger element of the weapon, performs sequential initiation of projectile pyrocharges of the block of trunks. Weapon-transformer for the realization of the method consists of two blocks of trunks with frames with trigger elements. Blocks of trunks with frames are connected by an axis with the possibility of their rotation relative to each other by an angle providing the formation of a pistol-like structure. Piezoelectric generators, built into the frames and driven by the trigger elements of the weapon, carry out sequential initiation of projectile pyrocharges of blocks of trunks.EFFECT: technical result is the possibility of sequential initiation of pyrocharges without switching devices in various types of replicative weapons.14 cl, 6 dwg

Description

FIELD OF THE INVENTION

The invention relates to methods for electric spark initiation (ignition) or to initiate detonation in pyrotechnic charges (pyro charges) of various weapons, and mainly to ignition of projectile pyro charges of multi-barreled firearms and multiple charged barrelless firearms, as well as to methods of initiating pyro charges in various devices using multiple pyro charges. Weapons with the proposed method of initiating a shot can be used as a special disposable and as a cheap weapon of self-defense.

State of the art

A known method of initiating pyrotechnic charges with an electric spark discharge is used, for example, in the invention according to the patent of the Russian Federation No. 2351871. In this invention, the working substance (TNRS) of the so-called "baric arrester" (Fig. 6 patent) for throwing projectiles is ignited by a high-voltage electric spark discharge. The disadvantage of this method is the impossibility of sequential (one after another) ignition of pyro charges without the use of a high-voltage switch. The device according to the patent is single-shot.

The prototype of the proposed method is a method of sequential spark spark initiation of pyro charges using a high-voltage switch used in the invention according to the patent of the Russian Federation No. 2461785. In this invention, sequential ignition of pyro charges by the electric spark method is achieved by using a long-stroke air commutator (switch). The disadvantage of the prototype is the impossibility of sequentially igniting many pyrocharges without increasing the dimensions of the device, since for each subsequent switching of the switch to the next flammable pyrocharge, a long stroke of contacts of the switch with a stroke length of at least the stroke length of the first switch is required. In addition, the device of the mechanical part will also become more complicated since for sequential switching it is necessary to use the mechanics of step finders, that is, to use ratchet wheels, doggie spring elements and the like, which will inevitably impair the manufacturability of the product and increase its cost.

A weapon is known in which the initiation of a propellant charge is produced by electrospark ignition, for example, in weapons according to US Pat. No. 6,663,412. The weapon is designed to incapacitate biological objects with electric current at a distance. The object is damaged at a distance by using a throwing cartridge that shoots two projectiles at the target, each of which is connected using electric wires with a high-voltage electric shock to the weapon’s electric unit. In this case, the ignition of the pyro-charge of the throwing cartridge is carried out by the electric spark method using a high-voltage spark discharge generated by the high-voltage generator of the striking weapon block. Known multiple barreled barrelless (actually multi-barrel with cartridges that perform the strength role of the barrels) traumatic self-defense weapon with the trade name "Wasp", described in various ways in the patents of the Russian Federation No. 2172460; No. 2213923; No. 22218538.

Weapons according to the indicated patents on the method of ignition of a throwing pyro charge are related to ignition by Joule heat (specifically, a wire bridge). For pyrocharges initiating in this way, it is necessary to use either sufficiently capacious chemical sources of electricity (battery or accumulator) or a magnetic pulse generator. For sequential ignition of pyro charges in this way, regardless of the source of electricity, a mechanical or electronic switch is required. The disadvantage of the method of igniting pyrocharges with Joule heat and weapons working in this way is the need to have a chemical source of electricity that has a tendency to self-discharge or a magnetic pulse generator that changes characteristics as a result of demagnetization, which has significant overall dimensions and in both complex, unreliable or costly mechanical or electronic switchboard.

The prototype of the alleged invention of the weapon selected weapon according to the patent of the Russian Federation No. 2461785. The prototype weapon is a multi-shot (dual-charge), and in fact multi-barrel with cartridges that perform the strength role of barrels with the ignition of the first and second propellant charge of a pair of cartridges in an electrospark manner. In this case, the first charge of the first pair of cartridges is initiated by supplying it with a direct high voltage electric current generated by the high voltage generator of the striking electronic circuit of the weapon, and the second charge of the second pair of cartridges initiated sequentially after the first charge is initiated by mechanical switching of the high voltage that ignites the first charge to the second charge. Switching is carried out using a long-stroke air circuit breaker whose switching is carried out with the help of energy previously loaded by the muscular effort of the spring weapon user. The disadvantage of the design of the prototype is the inability to make more than two shots in a row, the complexity of the switching mechanism, the need to cock the switch spring by the user when loading the weapon, the spring in the cocked (compressed) state during the constant carrying of the weapon, which leads to the gradual precipitation of the spring and the loss of part necessary for reliable work weapon efforts.

Disclosure of invention

The aim of the invention is to create a simple method of sequential spark spark initiation or initiation of detonation in the pyrolysis of various weapons and in various devices using multiple pyrocharges without the use of a high-voltage switch and creating a weapon for implementing this method without prototype weapons, namely, the complexity of the device, the increased dimensions, low technology and high cost .

The essence of the invention lies in the fact that the method of electrospark initiation of pyrotechnic charges of a weapon is carried out when the electrodes of the discharge gaps of electrospark-sensitive pyro charges are electrically connected in parallel with the possibility of increasing the discharge gaps as a result of the initiation of the said charges, and then they are fed to two common conclusions formed as a result of the parallel connection of the discharge gaps of electrodes of individual pyrocharges consecutive short pulses Exposure to extreme stress with a small pulse energy.

An additional feature is that a piezoelectric generator with mechanical shock excitation is used as a short-pulse shaper. An additional feature is that lead trinitroresorcinate or a mixture of lead rhodanide and potassium chlorate are used as a pyrocharge sensitive to an electric spark discharge.

An additional feature is that the pyro charges have a housing.

The weapon for implementing the method of electric spark initiation of pyrotechnic charges of a weapon contains a block of barrels, charges and shells or unitary cartridges, a frame, a trigger element, a fuse, a high voltage generator, and non-conductive barrels have individual electrodes electrically connected together, located near pyro charges sensitive to an electric spark discharge and being the general conclusion of the block of trunks, or the body of metal trunks is a single general conclusion of the block of trunks, the general conclusion of the block of the trunk electrically connected to one pole of a piezoelectric generator with mechanical shock excitation located in the frame and actuated by a trigger element, individual electrodes corresponding to individual trunks are electrically connected in place and are a common output of the frame or one common electrode is the output of the frame, the common output of the frame is connected to to the second pole of the said piezoelectric generator, the common output of the barrel unit and the general output of the frame are mutually insulated.

An additional feature is that the said trigger element simultaneously performs the function of protecting against an accidental shot.

An additional feature is that the barrel block and frame are made of plastic and have electrically conductive inserts and electrodes.

An additional feature is that the barrel blocks are made of plastic with metal barrel liners. An additional feature is that the barrel block is made of metal.

An additional feature is that the said trigger element is made in the form of a folding trigger-fuse.

The transformer weapon for implementing the method of electric spark initiation of pyrotechnic charges of a weapon contains a barrel block, charges and shells or unitary cartridges, a frame, a trigger element, a fuse, a high voltage generator, and the weapon contains two barrel blocks on two frames with a trigger in each frame, a frame with the barrel blocks are connected by a common axis with the possibility of rotation of the frames with the barrel blocks relative to each other at an angle of up to 300 °, non-conductive trunks of each of these blocks have individual e the electrodes are electrically connected together and located near the pyro charges sensitive to an electric spark discharge and are the common output of each barrel block, or the metal barrel bodies of each of the mentioned blocks are a single common output of each barrel block, the common output of each barrel block is electrically connected to one pole of the piezoelectric generator with a mechanical shock excitation located in each frame and actuated by the trigger element in each frame, in each frame is installed individual electrodes corresponding to individual trunks each block trunks electrically connected together and being the common terminal of each frame or a common electrode terminal of each frame, the general conclusion of each loop is connected to the second pole each of said piezoelectric generator, the general conclusion of each barrel unit and the common terminal of each frame vzaimoizolirovany. An additional feature is that the mentioned trigger elements simultaneously perform the function of protecting against an accidental shot.

An additional feature is that the mentioned barrel blocks and frames are made of plastic and have metal inserts electrodes.

An additional feature is that the mentioned blocks of trunks are made of plastic with metal barrel liners. An additional feature is that the said barrel blocks are made of metal.

An additional feature is that the said trigger elements are made in the form of folding fuses.

Brief Description of the Drawings

FIG. 1 Scheme explaining the method (principle of operation).

FIG. 2. General view of the weapon for implementing the method.

FIG. 3 General view of the weapon with an attached handle.

FIG. 4 Weapons with the removed block of barrels (two types) and the trigger element shifted from the place of its regular location.

FIG. 5. General view of the weapon-transformer for implementing the method when folded.

FIG. 6. General view of the weapon-transformer when unfolded.

FIG. 1. When the piezoelectric generator 1 is triggered with mechanical shock excitation (generating a piezoelectric discharge (impulse) with a single shock of the striker accelerated by the force of a spring-loaded spring) in a parallel circuit with equal electric spark gaps between the electrodes inside and outside the pyrolysis 2 in the pyrolysis group 3 and the pyrolysis gas removed from the shot only one pyrocharge from the group is always ignited by the part of the electrode 4 until the end of the irozar sequentially ignited from the supply of pulses poisons. In this case, it is impossible to determine in advance which pyrolysis from the group will be ignited by one or another electrical impulse.

The proposed method is based on the effect of self-organization of an individual high-voltage spark discharge in multiple discharge gaps of equal distance with a known pulse duration and its energy. Several parallel-connected pyrotechnic devices that are not structurally different from the "baric arrester" device according to RF patent No. 2351871 (Fig. 6 patent) equipped with a pyrotechnic charge of a substance sensitive to a spark discharge when they are initiated by a spark discharge from a high pulse voltage source with a single short initiating pulse with a small energy in a pulse are not initiated simultaneously, but sequentially randomly, provided that the discharge gap in each m first pyroelectric charge resulting in the destruction of the electrode (or electrodes) or detonation combustion products. Each high-voltage pulse of a current source causes the operation of only one "baric arrester" and does not initiate other "baric arrester". With each pulse, only one group pyrolysis is triggered, but it is impossible to guess which one from the group in advance. As a generator of short high-voltage pulses with low energy, it is most advisable to use a piezoelectric generator with mechanical shock excitation (generating a piezoelectric discharge with a single shock from an accelerator driven by a spring).

For example, the parameters of a high-voltage pulse from a standard piezoelectric element of a household gas piezo-lighter widely used in all countries of the world that have an insignificant cost and insignificant overall dimensions satisfy the necessary requirements for the necessary parameters of short high-voltage pulses for igniting pyro charges:

The voltage of the electrical impulse without load is 4.5-5 kV.

The duration of the electric pulse is 10 ns.

The energy of the electric pulse is 0.00005 J.

It is also possible to use electronic high-voltage generators of short high-voltage pulses of small frequency (5-15 Hz) and with low energy in the pulse. In this case, it is possible to create multi-barrel firing devices with an automatic fire mode with a rate of fire corresponding to automatic weapons. In this case, the rate of fire is determined by the frequency of successive high-voltage pulses of electric current supplied to the ignition of the pyro charges.

As a pyrocharge sensitive to spark sparks during the implementation of the proposed method, one can use storage-resistant individual initiating explosives (TRS), for example, lead trinitroresorcinol, or a mixture of fuel and oxidizing agent, for example, a mixture of lead rhodanide and potassium chlorate and others. Depending on the active substance or mixture used in the pyrolysis, it is possible to develop both an ignition pulse and directly detonation with its transition to intermediate explosive or explosive increased power.

FIG. 2. The weapon consists of a block of 5 barrels connected to a frame 6 on which the trigger element is located 7. The trigger element is controlled (firing shots) by the thumb. The trigger element due to the significant effort on it during the descent simultaneously performs the function of protecting against an accidental shot.

FIG. 3. If necessary, the pistol grip may be attached to frame 6. In this case, the trigger element, which is a folding trigger, leans back and is controlled by the index finger of the hand and is at the same time a guard against an accidental shot. The handle can be attached to frame 6 for example on a dovetail mount, self-tapping screw (s) or by gluing, on glue or double-sided tape.

FIG. 4. The barrel unit 5 has shafts 9 with chambers 10 into which pyrocharges are screwed, inserted, or pressed into housings 11 from non-conductive material with an initiating electrode 12. An individual lead of the common barrel electrode 13 is located inside each chamber or a conductive insert, for example, in the form of a sleeve 14 is electrically connected to a common electrode 13 trunks. If, for example, the block of trunks with trunks is made entirely of metal, then the common electrode of the trunks is the body (body) of the barrel block itself. A frame 6 made of non-conductive material has a cavity 15 in which an impact piezoelectric element 16 is located, having an output of one pole to the contact electrode 17, and the output of the other pole to the contact plate 18. The piezoelectric element is activated by the trigger element 7. If, for example, the barrel unit with trunks is made entirely of metal, then frame 6 does not have a common contact plate, but several individual needle-type electrodes connected together electrically and located on a non-conductive frame opposite to the initiating electrodes Electrodes 12 buildings 11 pyrozaryad.

For firing, chamber 10 of the barrels 9 is loaded with pyro-charges in the hulls 11 and the necessary shells (for example, bullets, flash drives, powder or liquid charges of tear substances and the like). Put the charged block of 5 trunks on the frame 6.

Holding the weapon in the palm of the hand, press the trigger element 7 with the thumb of the hand and release it, as many times as there are loaded trunks in the block of 5 trunks, thus making consecutive shots. After firing, the fired block of trunks is removed and a new block of trunks is put on the frame. The block can be instantly replaced with a new one by taking out the shot block up along the guides of the frame, and installing a replacement charged block in its place.

The block of trunks can be fixed in the grooves-protrusions of the frame due to interference fit with friction and elasticity of the material or special stoppers. After replacing the barrel unit, the shooting can continue.

The block of trunks can be removed both completely and can be hinged in one direction or another relative to the frame according to the principle of folding trunks of hunting rifles or pistols of the "derringer" type. In this case, loading is performed by inserting special cartridges with electrospark initiation into the barrel chamber. Block trunks in the execution of molded plastic mass can be disposable, that is, thrown after shooting all the charges in the trunks. In this case, the charges can be installed in the unit without the possibility of overloading, for example, on threads and glue, press-fit with a lock, etc. The plastic block of the trunks can be equipped with non-lethal gas or capsaicin fillers. In the case of using the pistol grip 8 attached to the frame, the weapon is used as a regular gun while unlatching the trigger of the trigger element 7 and pressing it with the index finger to fire shots. The initiation of the pyro charges is carried out through the chain: one pole of the piezoelectric element 16 - contact electrode 17 - common electrode 13 of the trunks - pyrocharge - initiating electrode 12 - contact electrode 18 - the other pole of the piezoelectric generator.

FIG. 5. The transformer weapon consists of two blocks of 5 barrels arranged similarly to those described above and connected to two frames 19 (also similar to the above-described frames 6 but equipped with protrusions for rotation and placement of the axis) on which the trigger elements 7. The frames 19 are interconnected by an axis 20 and have the ability to rotate around the axis relative to each other.

FIG. 6. If it is necessary to fire the frames 19 with attached charged barrel blocks, unfold (unfold) relative to each other all the way to the axis 20, and a pistol-like device is formed which can be held in your hand like a regular gun, unfold the triggers of the trigger elements 7 and press them to fire shots forefinger. When the charges of one block of barrels are used up, the gun turns over in the hand (turning over is easily done with one hand without the help of the other hand) so that the already discharged block of barrels with its frame serves as the handle of the gun for firing from the charged block of barrels. The frames are fixed in the folded and unfolded position due to the selected friction force set by the tightening force of the screw axis, or by special stoppers of the folded and unfolded position.

When folded, the transformer weapon is an almost rectangular block without protruding parts. This form fits easily into pockets, bags, and the like without attracting attention. When executing barrel blocks and frames entirely from molded plastic materials, the gun due to the negligible metal content is practically not detected by metal detectors and can be used for special operations of power services. After shooting the charges of all the trunks of both blocks, the blocks can be easily replaced by new charged ones as in the description to FIG. four.

Claims (14)

1. The method of electrospark initiation of pyrotechnic charges of a weapon, characterized in that the electrodes of the discharge gaps of electrospark-sensitive pyro charges are electrically connected in parallel, provided that it is possible to increase the discharge gaps as a result of initiation of the pyro charges, and then they are fed to two common leads resulting from the parallel connection of the discharge gaps of the electrodes individual pyrocharges consecutive short pulses of high voltage with low energy th in impulse. 2. The method according to p. 1, characterized in that as a shaper of short pulses using a piezoelectric generator with mechanical shock excitation. 3. The method according to claim 1, characterized in that lead trinitroresorcinol or a mixture of lead rhodanide and potassium chlorate are used as a pyrocharge sensitive to an electric spark discharge. 4. The method according to p. 1, characterized in that the pyro charges have a housing. 5. Weapons for implementing the method of electric spark initiation of pyrotechnic charges of a weapon, containing a barrel block, pyrocharges and shells of barrels or unitary cartridges, a frame, a trigger element, a fuse, a high voltage generator, characterized in that the non-conductive barrels have individual electrodes of the discharge gap for initiating a pyro charge with a high-voltage spark discharge, electrically connected together and being the common conclusion of the block of trunks, or the body of metal trunks is a single common conclusion the barrel block house, the common terminal of the barrel block is electrically connected to one pole of the piezoelectric generator with mechanical shock excitation, located in the frame and driven by the trigger element, in the frame are individual electrodes of the discharge gap of the initiation of the pyro charge by a high-voltage spark discharge, corresponding to the individual trunks, electrically connected together and being a common conclusion of the frame, or one common electrode of the discharge gap of initiation of pyro charges individual trunks, while the common terminal of the frame or the common electrode of the discharge gap for initiation of pyrocharges of the individual trunks is connected to the second pole of the piezoelectric generator, the common terminal of the block of trunks and the common terminal of the frame or the common electrode of the discharge gap for initiation of pyrocharge of the individual trunks are mutually insulated. 6. The weapon according to claim 5, characterized in that the trigger element simultaneously performs the function of protecting against an accidental shot. 7. Weapons according to claim 5, characterized in that the trigger element is made in the form of a folding trigger-fuse. 8. The weapon under item 5, characterized in that the barrel unit and the frame are made of plastic and have electrically conductive inserts and electrodes. 9. The weapon according to claim 5, characterized in that the barrel blocks are made of plastic with metal barrel liners. 10. Transformer weapons for implementing the method of electrospark initiation of pyrotechnic charges of weapons, containing a barrel block, pyro charges and shells of barrels or unitary cartridges, a frame, a trigger element, a fuse, a high voltage generator, characterized in that the weapon contains two barrel blocks on two frames with trigger element in each frame, the frames with the barrel blocks are connected by a common axis with the possibility of rotation of the frames with the barrel blocks relative to each other at an angle of up to 300 °, non-conductive trunks of each of the blocks and they have individual electrodes of the discharge gap of the initiation of a pyro charge by a high-voltage spark discharge, electrically connected together and being the common output of each block of trunks, or the bodies of the metal trunks of each of the blocks are a single common output of each block of trunks, the common output of each block of trunks is electrically connected to one pole of the piezoelectric generator with mechanical shock excitation located in each frame and driven by a trigger element in each frame, in each p individual electrodes of the discharge gap for initiating pyrolysis with a high-voltage spark discharge are installed that correspond to the individual trunks of each barrel block, are electrically connected together and are the common output of each frame, or one common electrode of the discharge gap for initiating pyrocharges of the individual trunks of each frame, with the output of each frame or each common the electrode of the discharge gap of initiation of pyrocharges of individual trunks is connected to the second pole of each ezoelektricheskogo generator, the general conclusion of each unit barrel and a common terminal of each frame or each common electrode discharge gap initiation pyroelectric charge vzaimoizolirovany individual trunks. 11. Transformer weapon according to claim 10, characterized in that the trigger elements simultaneously perform the function of protecting against an accidental shot. 12. Transformer weapons according to claim 10, characterized in that the trigger elements are made in the form of folding trigger fuses. 13. Transformer weapons according to claim 10, characterized in that the barrel blocks and frames are made of plastic and have metal inserts and electrodes. 14. Transformer weapons according to claim 10, characterized in that the barrel blocks are made of plastic with metal barrel liners.

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