RU2153645C1 - Small arms with ammunition - Google Patents

Abstract

FIELD: production and employment of small arms and ammunition used both for the military purpose as a means of protection and attack, and for sporting purpose. SUBSTANCE: small arms with ammunition has a body, feeder of cartridges to the barrel and trigger mechanism secured in it. In the rear part of the barrel provision is made for a sealed bottom accommodating the trigger mechanism element in the form of a spark gap, opening for delivery of cartridge to the barrel and a cartridge catch in the barrel. The cartridge has no case and primer cap. The spark gap may be made in the form of a piezoelectric crystal with an electrode directed inside the barrel, or electrocontacts connected to an electric feeder and closing the electric circuit by an element, for example, button, plate, core. EFFECT: simplified design. 3 cl, 6 dwg

Description

 The invention relates to the production and use of firearms (pistol, machine gun, rifle, etc.) using cartridgeless cartridges and can be used in a wide variety of areas related to the use of firearms.

 Known for a wide variety of weapons (pistols, revolvers, machine guns, machine guns) using cartridges with cartridges and capsules (Zhuk A.V. Small arms; revolvers, pistols, rifles, submachine guns, machine guns. - M.: Military ed., 1992 - 1; Zhuk A.V. Revolvers and pistols. - M.: Military Publishing House, 1990 - 2), in particular pistols (1, p. 219-448), characterized by different layout of the pistol assemblies, design, bullet caliber, etc. The most diverse solutions of connecting the nodes of the gun, its specific nodes (barrel, frame, bolt, trigger mechanism, cartridge feeder into the barrel of the chamber, cartridge ejection mechanism, etc.) are described. In this case, the gun barrel can be smooth or rifled. However, all of them are based on the use of various cartridges with shells and capsules, which mainly determines their common shortcomings: multi-stage and variety of various components and parts of the gun, design complexity, high costs and losses of raw materials, energy, labor in manufacturing and operation of weapons.

 Famous 9-mm Makarov pistol (PM) (Manuals on small business, Ministry of Defense of the USSR. - M.: Military ed., 1987, p. 521-569), consisting of a frame with a barrel and a trigger guard, a bolt with a striker , ejector and fuse, return spring, trigger mechanism, handle with screw, bolt stop, magazine. When you pull the trigger, the trigger strikes the hammer, which breaks the cartridge capsule. When the powder charge ignites, the pressure of the powder gases ejects a bullet from the rifled bore of the barrel, takes the bolt back through the bottom of the sleeve, holding the sleeve with the ejector and compressing the return spring. The sleeve when meeting with the reflector is thrown out through the shutter window. The bolt when retreating to its extreme rear position turns the trigger on the trunnions back and puts it on a combat platoon. From the extreme rear position, the bolt, under the influence of a return spring, returns forward, moving the next cartridge into the chamber from the store with a rammer. The barrel is locked with a free bolt and after releasing the trigger and pressing it, a shot follows again. The disadvantages of the gun are similar to the above: multi-stage and a variety of components and parts of the gun, the complexity of the design, high costs and losses of raw materials, energy, labor in the manufacture and operation of weapons; a lot of energy is spent on extracting the sleeve when moving the barrel forward and sending the cartridge into the barrel and turning on the locking device when the shutter moves along the axis of the barrel in the direction of movement of the bullet; the possibility of using only cartridges with a capsule and a sleeve, which increases the costs of operating and manufacturing a pistol and ammunition for it, contributes to a large return and knockdown of the target when shooting.

 Known pistol (US Pat. USSR N 1802868, class F 41 C 3/00, 03/15/93), consisting of a frame with a support and combat platform with lateral vertical jaws holding the sleeve, a spring-loaded slider supporting the sleeve from above. The barrel has a protrusion on the breech cut for squeezing the slider at the end of the return stroke. The cartridge case is pushed upward by the pressure of the next cartridge from the magazine with a feeder and a feeder spring. The feeder spring is made with the possibility of contact at one end with the back of the feeder, and the other with the back of the store. The trigger mechanism includes a trigger with an axis and an opening for the trigger rod, a trigger, ankle of the trigger with a protrusion for the mainspring, a protrusion for the stop trigger and release the protrusion. When firing, after pressing the trigger, the trigger rod rests on the protrusion of the ankle and rotates it with the trigger clockwise. The ankle with a protrusion closes the mainspring, releasing the ankle protrusion, which, together with the trigger, sharply rotates counterclockwise under the action of the spring and breaks the cartridge capsule. After a shot due to the spring, the spent sleeve is squeezed up by the pressure of the next cartridge. The disadvantages of a pistol are similar to weapons in which cartridges with a capsule and a sleeve are used, and are discussed above.

 The closest technical solution to the claimed invention is a small arms ammunition containing a housing, a barrel, a cartridge feeder, a trigger with an element in the form of a spark gap for igniting a combustible substance of a cartridge. This weapon is known from US Pat. No. 5,272,828 A, cl. F 41 A 19/61, F 41 A 19/58, 12/28/1993.

 The disadvantage of this weapon is the possibility of a breakthrough of powder gases, the different force of the impact of powder gases on a bullet and a decrease in the accuracy of fire. In addition, it is quite difficult to manufacture.

 The objective of the invention is to increase the reliability and accuracy of firing, saving money on the manufacture of weapons and ammunition.

 This problem is solved due to the fact that in small arms with ammunition containing a housing, a barrel, a cartridge feeder, a trigger with an element in the form of a spark gap for igniting the combustible substance of the cartridge, according to the invention, the barrel is made with a sealed bottom and a cartridge lock made without shells and capsule-free, and the element of the trigger mechanism for igniting the combustible substance of the cartridge is located in the bottom of the barrel.

 In addition, the spark gap is made in the form of a piezocrystal with an electrode directed inside the barrel. It can also be made in the form of electrical contacts connected to the power supply and closing the circuit with an element, for example, a button, a plate, a rod.

 The invention is illustrated in FIG. 1-4, which schematically shows: FIG. 1 - location of the main components and components of the weapon with the trigger mechanism and the use of a piezocrystal; FIG. 2 - the same in the context of AA; in FIG. 3 - different options for the placement of elements and parts of the starting mechanism and the cartridge feeder: a - push-button starter and power supply in the store; b - the same and power on the trunk; FIG. 4 - a diagram of the entry of cartridges into the barrel, rotating around its axis: a - when the cartridge is inserted into the barrel, b - before the shot.

 Small arms with ammunition consists of a body 1, on which a barrel 2 is mounted, a feeder 3 of cartridges 4 and a trigger 5. In the simplest case, for example, when manually loading a cartridge into the barrel, a variant of the weapon is possible without using case 1. Barrel 2 in its rear part has a sealed bottom 6 with the trigger mechanism element 7 located therein, a hole 8 for the cartridge to enter the barrel and the cartridge retainer 9 in the barrel. The cartridge consists of an element ejected from the barrel - a bullet 10 and a combustible substance - a powder charge 11. The feeder 3 cartridges depending on the selected layout of weapons can be made in different ways: for example, it can consist of a magazine 12 with cartridges placed in it and a feeder 13 supplying cartridges to the barrel, as well as the mechanism 14, which closes or opens the hole 8 in the barrel 2 before the shot and after the shot. The mechanism 14 can be, for example, a plate 15 with an opening 16 moving along (Fig. 1) or around (Fig. 4) the axis of the barrel. The trigger 5 can be performed in different ways: for example, in the form of a traditional trigger 17, striker 18, a piezocrystal with an electrode - element 7 and a system of mechanisms 19 that ensure the interaction of these elements (Fig. 1), or buttons 20, of the power supply - batteries 21, electrical wiring (not shown in Fig. 1-4) and element 7 in the bottom 6 in the form of a spark gap (Fig. 3). Closing the electrical circuit with the push-button version of the trigger mechanism is possible directly manually or through a system of mechanisms (not shown in Fig. 1-4) from the trigger 17. The cartridge latch 9 in the barrel represents placed around the axis of the barrel in its internal part, for example, in a plane perpendicular to the axis of the barrel uniformly or unevenly, throughout its entire interior or only in separate places and / or on the plate 15, outside the hole 16, facing the inside of the barrel cavity or grooves or grooves 22, filled with easily deformed materials - polymer and / or metal springs, plates or other substances, compounds - 23. Thanks to the retainer 9, the cartridge 4 is fixed in the barrel 2, is held in it until the pressure of the gases generated during the combustion of the powder charge 11, directed along the axis of the barrel, will exceed the effect of radial forces holding the cartridge in the rear of the barrel with the help of a retainer 9. The latter also favors an increase in pressure in the barrel near the sealed bottom 6 at the initial stage of the shot, i.e. provides an increase in the speed of the bullet 10 at the exit from the barrel. Cartridge 4 does not have a capsule and sleeve. The powder charge 11 is placed inside the metal shell 24, which is actually part of the bullet 10, because rigidly connected to the core of the bullet and flies out of the barrel 2 through the outlet. Therefore, it is not necessary to solve the problem of removing from the barrel after firing the remainder of the cartridge (for example, a sleeve). Element 7 in the bottom 6 is a spark gap and can be made, for example, in the form of a piezocrystal with an electrode directed inside the barrel, or electrical contacts connected to the power supply 21, wires and closing the circuit elements, for example in the form of a button - keys, plates, rods .

 Small arms works as follows. When the trigger mechanism 5 is activated, a spark arises in the bottom 6 of the barrel 2 due to a spark gap igniting the powder charge 11 inside the shell 24 of the cartridge 4. Sealed barrel structure in the ignition zone of the charge (sealed bottom 6, barrel 2 with a closed hole 8 and retainer 9 cartridges inside the barrel) favors a sharp increase in pressure in this zone. At certain pressures, the latch 9 cannot hold the bullet, and together with the shell of the cartridge 4 and with the remaining charges 11, it begins to move along the axis of the barrel towards its outlet. At the same time, due to the turbine (not shown in Fig. 1-4), located at the end of the shell, and the gases escaping from the shell, which are formed during the combustion of the powder charges 11, the bullet 10 acquires rotational motion around its axis both in and outside the barrel. The shell and the bullet itself break out of the barrel, fly and fall into the target, freeing the barrel to receive a new cartridge 4 from magazine 12. The trigger 5 is connected through a device system (for example, based on decisions generally accepted in weapons technology) to mechanism 14, opening the hole 8 in the barrel 2 for entering the next cartridge. After the cartridge gets into the barrel and the hole 8 is closed with the help of the mechanism 14, the cartridge 4 is clamped in the barrel by the retainer 9, and getting into the barrel of a new cartridge before the shot becomes impossible. When the trigger 5 is pressed, a shot follows again, either automatic or manual (depending on the selected cartridge feeding scheme for the barrel and design features linking the trigger 5 and mechanism 14, adaptation systems) the next cartridge is fed into the barrel.

 The advantages of the invention in comparison with the prototype are as follows: the manufacturing technology of weapons and cartridges is simplified, the cost of weapons is reduced, the costs of raw materials, energy, human labor, environmental pollution in the manufacture of weapons and shooting are reduced.

Claims (3)

 1. Small arms with ammunition, comprising a housing, a barrel, an ammunition feeder, a trigger mechanism with an element in the form of a spark gap for igniting the combustible substance of the cartridge, characterized in that the barrel is made with a sealed bottom and a cartridge lock made without shells and capsuleless, and the trigger element a mechanism for igniting the combustible substance of the cartridge is located in the bottom of the barrel.  2. Small arms according to claim 1, characterized in that the spark gap is made in the form of a piezocrystal with an electrode directed inside the barrel.  3. Small arms according to claim 1, characterized in that the spark gap is made in the form of electrical contacts connected to an electric power supply and an element that closes the electric circuit, for example, a button, plate, or rod.

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