RU2744693C1 - Karbushev pneumatic pistol - Google Patents

Abstract

FIELD: pneumatic guns.

SUBSTANCE: pneumatic pistol comprises a body with a shaft fixed on it, connected by a channel to the housing of an air capacity of the pneumatic mechanism, a handle, a magazine with bullets and a trigger mechanism. Housing of air capacity of pneumatic mechanism is detachable in the form of two parts – air and base, wherein in the air tank cavity the hydraulic tank is made, which is separated from the reservoir air cavity by the piston or the elastic reservoir and is filled with the liquid, in which the discharger electrodes are mounted. Electrodes of the discharger are connected by a device for production of electrohydraulic shock in the liquid. Device comprises power supply, voltage multiplier, capacitors and discharger. Inner surface of air vessel housing base is made cone-shaped. Hydraulic fluid used is antifreeze, or water, or aqueous electroconductive solutions, incl. not freezing at low temperatures.

EFFECT: improved manufacturability and efficiency of weapons.

12 cl, 4 dwg

Description

The invention relates to means of self-defense against attacks by animals and criminals, based both on the use of high voltage for short-term paralysis of the neuromuscular system of the body, and on the use of shock traumatic action of bullets having a high initial flight speed.

Known electroshock device, see RF patent No. 2108526, IPC F41B 15/04, containing an autonomous power source, a switch, a DC voltage converter to increase the voltage of the power source to 600-6000 V, a storage capacitor and a circuit of a high-voltage switch and a low-voltage winding of the output high-voltage transformer connected in parallel to the output of the DC voltage converter, an output air arrester for 30-60 kV and two striking electrodes connected in parallel to the high-voltage winding of a high-voltage transformer, and the high-voltage switch is made in the form of an air or gas arrester with an ignition voltage 15-30% lower than the output voltage of the DC voltage converter without load, while the device is equipped with an additional storage capacitor, one terminal of which is connected to the common point of the first storage capacitor and the DC voltage converter, and the other - to the output of the latter through di od, for charging an additional capacitor from a DC voltage converter, while the output high-voltage transformer is made in the form of an autotransformer, the middle terminal of which, which is the end of the low-voltage winding and the beginning of the high-voltage winding, is connected to the electrode connected to the storage capacitors and the DC-voltage converter, and the beginning of the low-voltage the winding is connected to a high-voltage switch, one of the damaging electrodes being connected to the end of the high-voltage winding, and the other to the common point of the additional storage capacitor and the diode, between the common point of the additional storage capacitor and the diode and the damaging electrode connected to it, a gas or air spark gap with voltage ignition, 2-3 times higher than the output voltage of the converter without load, and a capacitor with a capacity of 100-300 pF is connected in parallel to this spark gap.

The disadvantages of this device include limited technological capabilities and low efficiency, associated mainly with energy losses.

A known method of converting the energy of an electrohydraulic shock, see RF patent No. 2157893, IPC F01B 29/10, - A method of converting the energy of an electrohydraulic shock into mechanical energy by implementing high-voltage electrical discharges inside the volume of a liquid contained in a working chamber, with the formation of hydraulic pressures around the discharge zone, under the influence of which the working body placed in the working chamber performs useful mechanical work, while the frequency of movement of the working body (piston) is regulated by changing the frequency and power of high-voltage electrical discharges, and the moment of occurrence of an electric discharge in the liquid is synchronized with the position of the working body. Symmetrical reciprocating mechanical movement of the free-running piston is carried out by alternate electro-hydraulic shocks through the liquid on both working sides of the piston. The energy of the electro-hydraulic shock of the liquid in the working chamber is converted directly into the rotational motion of the working body, for example, the turbine is rotated by alternate electro-hydraulic shocks of the liquid on the turbine blades, and its speed is regulated by changing the repetition rate and power of high-voltage electric discharges.

The disadvantages of this method include low efficiency of energy conversion of electrohydraulic shocks due to low controllability of the process due to the lack of stability of the occurrence of hydraulic shocks in time and low technological capabilities.

The known design of an air pistol containing a barrel, the rear end of which abuts against the chamber, a trigger connected to the trigger drive mechanism, a handle with a charging device for feeding a ball bullet into the chamber and a container for compressed gas communicating with the chamber through a valve element, which opens instantly as a result hammer blow. See RF patent for invention No. 2333446, M. class. F41B 11/06, - prototype. The barrel is made movable, is directed in a straight line in the axial direction and is connected to the trigger, so that when the latter is pressed, the barrel moves back, activating the sealing element to isolate the chamber from the charging device. The spring pushes the trigger and barrel forward. An option is possible in which the bolt frame connects the trigger to the trigger drive mechanism.

The disadvantages of the known pistol include low technological capabilities associated with the use of only compressed gas (air) for firing a shot, the need to periodically replace the container with compressed air or gas, and the insignificant impact of bullets on the object.

The technical result of the proposed invention is to eliminate the shortcomings of the prototype, in particular, to increase the technological capabilities of the pistol by creating a more effective and multipurpose weapon for short-range destruction of the enemy with traumatic bullets and / or electric current, as well as increasing the effectiveness of the impact action due to the flight of the bullet at a given initial velocity.

The delivered technical result is achieved by using a combination of well-known features common with the prototype, containing a body with a barrel attached to it, connected by a channel with a pneumatic mechanism, a handle, a magazine with bullets and a trigger mechanism, and new features, consisting in the fact that the air tank body of the pneumatic mechanism is made detachable in the form of the air casing-container and the base, while in the cavity of the air casing-container a hydraulic container is mounted, which is separated from the air cavity of the casing-container by a piston or an elastic reservoir and filled with liquid, in which the spark gap electrodes are fixed, connected with the means of obtaining an electrohydraulic shock in the liquid with a powerful shock wave, made in the form of a transformer, a voltage multiplier, including capacitors and diodes, and an arrester connected to a power source.

The inner surface of the base of the air container body is made conical.

Antifreeze or water or aqueous electrically conductive solutions are used as hydraulic fluid.

At the base of the hydraulic part of the pistol, a liquid vapor relief valve and a channel for supplying liquid to the reservoir are mounted.

The arrester is made in the air version, mounted in the front part of the pistol barrel and / or in the hydraulic version, fixed in the base of the elastic reservoir or in the hydraulic reservoir with the liquid.

The arrester electrodes mounted in the front part of the pistol barrel are closed from access by a spring-loaded casing.

The air part of the pneumatic mechanism container is made expanding towards the air outlet from the container into the barrel bore.

In a variant design, the electrodes of the elastic reservoir or hydraulic reservoir are located equidistantly to the angle of the inner cone-shaped surface of the base.

The trigger hook is equipped with a bullet clamping bar in the barrel pivotally connected to it and a discharge switch mounted on the pistol body.

The trigger clamping plate is mounted in the guides of the pistol body and is T-shaped in cross-sectional shape.

The piston of the air container of the pneumatic mechanism is equipped with a return spring, which rests on the one side against the bottom of the piston, and on the other side against the bottom of the air container of the pneumatic mechanism.

A device for obtaining an electrohydraulic shock in a liquid with a powerful shock wave, made in the form of a power supply, a transformer, a voltage multiplier and a spark gap connected to a power source, is mounted in a casing above a barrel with a screw cap.

The novelty of the technical solution proposed as an invention is the implementation of the air tank body of the pneumatic mechanism as detachable in the form of an air body-container and a base, while a hydraulic container is mounted in the cavity of the air body-container, which is separated from the air cavity of the body-container by a piston or an elastic reservoir and is filled with liquid , in which the spark gap electrodes are fixed, connected with the means for obtaining an electrohydraulic shock in the liquid with a powerful shock wave, made in the form of connected with a source; power supply, transformer, voltage multiplier, including capacitors and diodes, and a spark gap.

So, the implementation of the body of the air tank of the pneumatic mechanism is detachable in the form of an air case-tank and a base, while a hydraulic tank is mounted in the cavity of the air tank-tank; which is separated from the air cavity of the container-body by a piston or an elastic reservoir and filled with a liquid, in which the spark gap electrodes are fixed, connected with the means of obtaining an electrohydraulic shock in the liquid with a powerful shock wave - allows you to combine two sources of energy production - pneumatic energy and hydraulic energy and use one source to strengthen the other, to achieve the technical result set by the invention - to increase the technological capabilities of the pistol by creating a more effective and multipurpose weapon for hitting the enemy with traumatic bullets and / or electric current, as well as increasing the effectiveness of the impact action due to the bullet's flight at a given initial velocity. The installation of the means for receiving an electrohydraulic shock in the liquid in the pistol body makes it possible to autonomously and for a long time carry out shots or initiate current discharges on the contact electrodes of the pistol arresters.

The interconnection of the means for obtaining an electrohydraulic shock in a liquid with a powerful shock wave, made in the form of a transformer, a voltage multiplier, including capacitors and diodes, and a spark gap connected to a power source, provides the creation of the necessary, specified air pressure in the air cavity of the air container for the flight of a bullet. Provides the expansion of the technological capabilities of the pistol and allows, depending on the situation, to use one or another type of protection - either to take advantage of the traumatic effect of bullets at a distance, or to use an electric shock to close the enemy with an electric current.

Signs of making the inner surface of the base of the casing of the air tank conical, using antifreeze or water or aqueous electrically conductive solutions as a hydraulic fluid, installing a liquid vapor relief valve and a channel for supplying liquid to the tank in the base of the hydraulic part of the pistol, making an air arrester mounted in the front part gun barrel and / or in a hydraulic version, fixed in the base of an elastic tank or in a hydraulic tank with liquid, installation in the front part of the gun barrel of the arrester electrodes closed from access by a spring-loaded casing, making the air part of the pneumatic mechanism expanding towards the air outlet from the tank into the bore, the arrangement of the electrodes of the elastic reservoir or hydraulic reservoir in the variant version equidistant to the angle of the inner cone-shaped surface of the base, the presence of the trigger mechanism pivotally connected to it the bullet clamping bar in the barrel and the discharge switch mounted on the pistol body, mounting the trigger clamping strip in the pistol body guides of a T-shaped cross-sectional shape, the presence of a pneumatic return spring at the piston of the air capacity of the pneumatic mechanism, which rests on the bottom of the piston on one side, and on the other hand, on the bottom of the air tank of the pneumatic mechanism, the implementation of the means for obtaining in the liquid an electrohydraulic shock with a powerful shock wave, made in the form of a transformer, capacitor and arrester connected to a power source, mounted in a casing above a barrel with a screw cap - are additional features, contributing to a more complete disclosure of the technical content of the proposed solution and contributes to the achievement of the technical result set by the invention.

So, the implementation of the air part of the pneumatic mechanism tank expanding towards the air outlet from the tank into the barrel bore contributes to a more efficient use of the air in the pneumatic mechanism during the electric hydraulic shock by short-term and at the same time gradual, starting from small volumes, its displacement from the space surrounding the elastic reservoir to the side channel for the discharge of compressed air into the barrel of the pistol and contributes to the creation of a more effective effect of compressed air on the bullet.

Making the inner surface of the base of the body of the air container conical contributes to the directed action of the liquid on the volume of air in the cavity of the pneumatic mechanism and to increase the efficiency of creating pressure. At the same time, when expanding during the directional action of a hydraulic shock of an elastic container, the air between its sides and the sides of the cavity of the air body-container, like the air of the cavity of the air body-container, is almost simultaneously displaced towards the exit of air from the container into the barrel bore, contributing to the increase in the efficiency of the air pressure build-up for the subsequent shot.

The use of antifreeze or water or aqueous electrically conductive solutions as a hydraulic fluid helps to expand the technological capabilities of the gun by using almost any fluid.

According to the conducted patent information research, the combination of known common with the prototype features and new features of the proposed technical solution was not found in the sources of scientific and technical literature and patent information, which allows us to conclude about their novelty.

The set of known common with the prototype features and new features of the proposed technical solution does not explicitly follow from the existing state of the art, which allows the features to be attributed to those possessing an inventive step.

The combination of the description of the proposed pistol operation makes it possible to classify the proposed technical solution as industrially feasible.

FIG. 1 schematically shows the proposed pistol with an elastic reservoir for liquid in the cavity of the pneumatic mechanism, made expanding towards the exit of air from the container into the barrel bore.

FIG. 2 shows a fragment of a cross-section of the T-shaped groove of the trigger hold-down plate.

FIG. 3 schematically shows a pistol with a hydraulic reservoir separated from the air reservoir by a piston, with electrodes in the hydraulic part made equidistantly to the inner conical surface of the base.

FIG. 4 View B - in Fig. 3 schematically shows the placement of additional magazines in the pistol grip.

The proposed pistol consists of a body 1 with a handle 2, a barrel 3 with an aiming front sight 4 and a whole 5, a magazine 6 for ball-shaped bullets 7, a pneumatic mechanism capacity, divided into an air 8 and a hydraulic 9 part. An elastic reservoir 10 filled with a liquid, for example, antifreeze, can be placed in the container of the pneumatic mechanism. The housing 11 of the pneumatic mechanism is connected to the barrel 3 on one side and provided on the other side with a base 12 connected to it by means of a thread with a tapered inner surface. The elastic reservoir 10 is fixed on the base 12 by means of a clamping curly concave washer 13. In the hydraulic 9 part of the pneumatic mechanism, filled with liquid, the arrester electrodes 14 are mounted, power to which from the means for creating an electrohydraulic shock is supplied along the conductor 15. The electrodes 14 can be made equidistant to the angle of inclination the cone-shaped inner surface of the base 12. At the end of the base 12 there is a valve 16 for releasing gases from the hydraulic part 9 and a valve 17 for filling the hydraulic part with liquid. The means for creating an electrohydraulic shock contains a power source 18, consisting of a series of batteries, and connected through a transformer 19 with a voltage multiplier 20 made using capacitors and diodes and spark gap electrodes 21 and 14. The electrodes 21 are closed by a spring-loaded spring 22 with a cage 23 with holes for the passage of the electrodes 21. The piston 24 with at least one sealing collar 25 is equipped with a spring 26 resting on the end part of the cavity of the housing 11 of the pneumatic mechanism and on the end surface of the piston 24. The trigger 27 is articulated connected to the clamping bar 28, which has a platform for bullets in the upper part and is mounted in the T-shaped groove 29 of the housing 11 of the pneumatic mechanism. The bullets 7 of the magazine 6 are biased by the spring 30. The magazine 6 is removable, interchangeable and installed, like spare magazines, in the corresponding tubular sockets 31. On the handle 2 on the path of movement of the trigger 27, a switch 32 of the discharge of electrodes is fixed 14. The air part 8 of the capacity of the pneumatic mechanism is connected with barrel 3 with the help of channel 33. The end of the handle 2 is closed by means of a hinged latch 34. On the cover 35 of the body of the electrohydraulic shock device, a switch 36 for the discharge of electrodes 21 is fixed. Power source 18, which is a set of batteries (for example, lithium-polymer batteries), transformer 19 and the voltage multiplier 20 are mounted in the hollow channel of the body of the electrohydraulic shock means and are closed by the cover 35.

The proposed pistol works as follows:

Initially, the hydraulic part 9 of the pistol is filled with liquid. As a filling liquid, you can use antifreeze (so that it does not freeze in frost) or any aqueous conductive solution. Then, the operability of the electrohydraulic shock is checked by pressing the trigger on the button 32, and then by hand on the button 36 with the occurrence of a corresponding discharge on the electrodes 14 and 21 of the spark gaps. In this case, the store must be empty.

After checking the pistol, the magazine 6 is filled with bullets 7 and a socket 31 is installed in a tubular shape for supplying bullets 7 to the barrel 3 of the pistol. Then the gun is ready for use.

To fire a shot by pressing the trigger 27 spring-loaded by the spring 37, the bar 28 is moved along the T-shaped channel 29, cutting off one bullet and pressing it with the bar 28 to the upper surface of the barrel 3. Simultaneously, or with a small time difference, with by tightening the bullet, the trigger 27, continuing its movement, presses the switch 32 with its rear part. A discharge occurs on the spark gap electrodes 14, which are in the liquid and a water hammer. From the discharge and water hammer, an increased pressure is created in the hydraulic fluid 9. The elastic reservoir expands and, with the magnitude of the generated pressure, presses on the air in the air part 8 of the container body 11. The created high pressure through channel 33 pushes the air into the barrel bore 3, where the bullet is located, which flies to the target under air pressure at a given speed.

In the case when, instead of the elastic container 10, the piston 24 is mounted in the housing 11 of the pneumatic mechanism, then, during the discharge between the electrodes 14, an electro-hydraulic shock occurs in the same way in the liquid 9, the piston 24, under the action of the created pressure, presses on the air in the air part 8, which under the created pressure through channel 33 acts on the bullet and throws it towards the target.

If it is necessary to influence the enemy or animal with an electric discharge (use of a stun gun), the pistol barrel is brought to the body of a person or animal and by pressing the button 36 the discharge is carried out. In this case, as a power source, you can use power lithium-polymer batteries that can provide the required current value. The creation of, for example, rectangular pulses by a transformer will provide the conditions necessary for the operation of the stun gun. A voltage multiplier with a series connection of stages (diodes and capacitors) of the multiplier creates a summed high-voltage DC voltage of the required magnitude. When the pistol touches, the spring-loaded protective clip 23, compressing the spring 22, sinks, and the spark gap electrodes 21 become protruding outward. Electrical impact is carried out. In this case, the magnitude of the discharge at the electrodes 21 of the arrester affecting a person can be reduced in comparison with the magnitude of the discharge at the electrodes 14 by appropriately connecting the button 36 of the electrodes 21 to the voltage multiplier 20. When an animal is exposed to an electric shock, sometimes a spark discharge of the arrester is sufficient. Since the magazine 6 of the pistol is removable and interchangeable, then when all the bullets are consumed, the old magazine is removed, and the new one, filled with bullets, is removed from the side slot and installed in its place in the central tubular slot 31.

With repeated use of pistol shooting with 7 or discharge bullets, the liquid heats up and its evaporation is possible. To remove liquid vapors, a valve 16 is mounted on the outer side of the base 12, when pressed on, the accumulated liquid vapors come out. In this case, the hinge latch 34 is preliminarily opened and by pressing the valve 16, fluid vapors are released from the hydraulic cavity 9. The pistol is previously held for several seconds with the handle upwards so that vapors accumulate at the outlet valve 16. If necessary, refueling and refueling the pistol with the latter liquid through valve 17 , for example with a syringe, is injected into the cavity 9. The means 38 for injecting liquid into the reservoir 9 can be stored in the base of the handle 2.

The implementation of the air part of the pneumatic mechanism tank expanding towards the air outlet from the tank into the barrel bore prevents wear of the elastic tank and ensures a more complete displacement of air from the air tank 8 and a better set of pressure required for a shot.

The execution of the pressure plate 28 of the trigger 27, mounted in the guides 29 of the pistol body and T-shaped in cross-sectional shape, allows the bar 28 to reciprocate and press the bullet 7 against the upper surface of the barrel bore 3 with equal force.

The means for obtaining an electrohydraulic shock in a liquid with a powerful shock wave, made in the form of a transformer 19 and a voltage multiplier 20 connected to a power source 18, and a voltage multiplier 20 is mounted in a casing above the barrel of a pistol with a screw cap 35 - is a variant of placing a means for obtaining a high electric discharge and a means of obtaining electrohydraulic shock.

The use of the proposed pistol in connection with the possibility of obtaining high pressure, high initial velocity of the bullet flight and increased destructive power will significantly reduce the cost of producing cartridges, including combat ones using heavier bullets without using gunpowder in cartridges, expanding the range of effects of the pistol, including and on animals, such as dogs, wild animals, will enable civilians to use the pistol.

Claims (12)

1. Pneumatic pistol containing a body with a barrel fixed on it, connected by a channel with the body of the air container of the pneumatic mechanism, a handle, a magazine with bullets and a trigger mechanism, characterized in that the body of the air container of the pneumatic mechanism is split in the form of an air body-container and a base, when At the same time, a hydraulic reservoir is mounted in the cavity of the air body-container, which is separated from the air cavity of the body-container by a piston or an elastic reservoir and is filled with liquid, in which the spark gap electrodes are fixed, connected with the means for obtaining an electrohydraulic shock in the liquid with a powerful shock wave, made in the form of connected with a power supply for a transformer, a voltage multiplier including capacitors and diodes, and a spark gap. 2. A pistol according to claim 1, characterized in that the inner surface of the base of the body of the air container is tapered. 3. A pistol according to claim 1, characterized in that antifreeze, or water, or aqueous electrically conductive solutions are used as the hydraulic fluid. 4. The pistol according to claim 1, characterized in that a liquid vapor relief valve and a channel for supplying liquid to the reservoir are mounted at the base of the hydraulic part of the pistol. 5. A pistol according to claim 1, characterized in that the arrester is made in an air version, mounted in the front part of the pistol barrel, and / or in a hydraulic version, fixed in the base of an elastic reservoir or in a hydraulic container with a liquid. 6. The gun according to claim. 1, characterized in that the arrester electrodes mounted in the front part of the gun barrel are closed from access by a spring-loaded casing. 7. The gun according to claim 1, characterized in that the air part of the pneumatic mechanism container is made expanding towards the air outlet from the container into the barrel bore. 8. The gun according to claim 5, characterized in that, in a variant embodiment, the electrodes of the elastic reservoir or hydraulic reservoir are located equidistantly to the angle of the inner cone-shaped surface of the base. 9. The pistol according to claim 1, characterized in that the trigger hook is provided with a bullet clamping bar in the barrel pivotally connected to it and a discharge switch mounted on the pistol body. 10. The pistol according to claim 1, characterized in that the trigger clamping plate is mounted in the guides of the pistol body and is T-shaped in cross-sectional shape. 11. The piston according to claim 1, characterized in that the piston of the air container of the pneumatic mechanism is provided with a return spring, which rests on the one side against the bottom of the piston and on the other side against the bottom of the air container of the pneumatic mechanism. 12. The gun according to claim 1, characterized in that the means for obtaining an electrohydraulic shock with a powerful shock wave in the liquid, made in the form of a transformer, a capacitor and a discharger connected to the power supply, is mounted in the casing above the barrel with a screw cap.

Images