RU2130580C1 - Shaped charge ammunition - Google Patents

Abstract

FIELD: armor-piercing bullet of shaped action for plain-barrel guns. SUBSTANCE: shaped charge ammunition of small caliber ( up to 30 mm ) has caliber bullet with combat shaped charge in jacket, bottom fuze and stabilization and safety means. Bullet is put together with wad-container into blank cartridge of plain-barrel gun that includes case with powder charge, cap, fixation and obturation means. Charge is solid. Central fire-communicating tube with cord is placed behind it on centering members. Bottom fuze is inertial one, it includes disc main detonating charge structurally joined to member, washer-shaped pricker with pins and initiating cap charge placed in sequence. The latter is mounted for linear inertial movement towards pricker when bullet meets obstacle and is separated from pricker by countersafety spring. Stabilization means include empennage with stabilizing members in folded state placed within bounds of inner diameter of wad-container. Free end of tube is fitted snugly in hole of wad-container. Safety means can be supplemented with arc-shaped elastic plates which ends are correspondingly located in front of charge and above spring-loaded members. EFFECT: enhanced efficiency of hand firearms, provision for high technical and operational characteristics. 5 cl, 4 dwg

Description

 The invention relates to ammunition (ammunition) with a cumulative charge and is intended as an ultra-small cumulative ammunition (SKB) for firing smooth-bore guns (in particular, carbines) for the through penetration of bulletproof vests and other highly effective light armored structures.

 The improvement of individual armored protective equipment, primarily body armor, as well as small armored objects has already determined the insufficient effectiveness of handguns in relation to such objects.

 Improvement of bullets and their adaptation to the case of a gun or smoothbore carbine complete with standard or upgraded propelling charges, igniter caps.

 To defeat large armored targets (tanks, armored vehicles, etc.), cumulative ammunition has been used for medium and large-caliber artillery for a long time. URSs (ATGMs), onboard anti-tank mines and grenades, the development of which is currently proceeding mainly along the path of optimizing the geometry and material of the lining of cumulative excavations. In particular, rifle grenades of caliber (40 ... 75) mm have devices for firing from rifled army small arms, equipped with cartridges and (or) rocket-propelled grenades. These are fairly close analogues in relation to the proposed device. But, due to the difference in the calibers of the grenade itself and its cartridge (“over-caliber ammunition”), they exclude the possibility of cartridge loading (ammunition as a whole from the breech), reduce the possibility of increasing the rate of fire and automate shooting, and have other drawbacks.

 Thus, the existing cumulative ammunition is too powerful and complex, expensive and poorly adapted to deal with the arisen problem. They are made only starting with a caliber of 40 mm. Small-caliber cumulative ammunition cannot be created by directly reducing the size of a number of design features.

 The closest to the proposed device for the intended purpose and the set of essential design features is a cumulative munition containing a caliber projectile with a continuous cumulative warhead charge in the shell, an inertial bottom fuse, stabilization and safety means, as well as a cartridge case with a propellant powder charge, an igniter capsule and fixing means and obturations [RU 20066438, F 42 B 12/10, 02.27.96].

 However, as emphasized in the characteristics of analogues, such ammunition is applicable only for artillery weapons and is intended to destroy tanks and other targets with powerful armor. When trying to reduce the caliber of ammunition to 30 mm and lower (with the aim of adapting for smoothbore guns and carbines), the traditional fuse-safety system scheme, the inability to stabilize by rotation and the complexity of the design became an obstacle. The value of the last drawback increases with decreasing caliber to the specified desired range.

 The problem to which the invention is directed, is to increase the effectiveness of handguns (smoothbore guns and carbines) in the fight against lightly armored targets, while ensuring high technical and operational characteristics of a cumulative ammunition of an ultra-small caliber (effectiveness of a cumulative jet, simplicity of design, safety of operation) .

 The solution to this problem is ensured by the fact that in a cumulative munition containing a caliber projectile with a continuous cumulative warhead charge in the shell, an inertial bottom fuse, stabilization and safety means, as well as a sleeve with a propellant powder charge, an igniter capsule and fixing and obturation means, the shell is made in the form of a bullet with a diameter of not more than 30 mm, the bottom fuse includes a sequentially mounted disk main detonating charge and a washer-shaped filler and initiating to an apse charge, while the latter is installed with the possibility of linear inertial movement in the direction of the pruning device when the bullet meets the obstacle and is separated from the pruning device by a counter-safety spring, and the safety equipment includes a rigid tube with an eyeliner installed coaxially to the shell on the centering elements behind the cumulative combat charge, and counter safety spring.

 The problem is also solved by additional distinctive design features, namely, that (options) one of the centering elements (front) and the main detonating charge of the bottom fuse are structurally combined in one product adjacent to a given end face of the combat cumulative charge and to the inner surface of the shell, and coupled to the tube by means of a central blind hole, and the other (rear) centering element is installed behind the initiating capsule charge of the bottom fuse and is made in the form of a net th disk; the pruner is made in the form of a mesh disk with symmetrically located tips; means of fixation and obturation include at least a wad-container, covering the bullet and isolating it with its bottom from a propellant charge; stabilization means include tail assembly with stabilizing elements in the folded state within the inner diameter of the wad container, fixed last, while the bases of the stabilizing elements are rigidly fixed to the tube behind the rear centering element, and the free end of the tube is tightly inserted into the central through hole made at the bottom of the wad-container; On the periphery of the rear centering element and the initiating capsule charge, symmetrically located and parallel to the tube grooves are provided, in which arcuate elastic plates with ends, in the free state are oriented towards the tube, forming a safety level of protection means, while one of the ends of each plate is pressed by the corresponding folded stabilizing element to the inner cylindrical surface of the wad container.

 None of the analog devices described above, including the prototype, as well as other devices known from literary, patent, and other published sources in Russia and foreign countries, contain the proposed combination of essential design features and cannot solve the problem.

 In FIG. 1 depicts a cumulative ammunition assembly; in FIG. 2 - a bullet of cumulative ammunition, version without tail unit; in FIG. 3 - the same, complete with wad-container; in FIG. 4 - version with tail and wad-container.

 The cumulative ammunition contains a caliber projectile in the form of a small-caliber bullet 1 d≤30 mm (preferably d = 23 mm), a wad-container 2 (preferably plastic, petal type, full-time or similar to the standard one for a smooth-bore gun), a cartridge case 3 corresponding to a bullet of caliber d , with a propellant powder charge 4, the primer 5 and means 6 fixation and obturation.

 The composition of the bullet 1 includes a military cumulative charge 7, made continuous, without a central fire-tube within the charge. It fills the middle part of the shell 8, which has a cylindrical and head streamlined parts. For the charge 7 is installed coaxially to the shell 8 on the centering elements 9 and 10 of the rigid tube 11 with a cord-liner 12, which is part of the safety equipment. Bullet 1 also contains an inertial-type bottom fuse, which includes a disk main detonating charge sequentially mounted on the tube 11 and a washer-shaped filler 13 and an initiating capsule charge 14. In this case, the charge 14 is installed with the possibility of linear inertial movement in the direction of the pruning device 13 when bullet 1 meets with a barrier (target) and is separated from the stings 15 of the piercer 13 by the counter-safety spring 16, which is part of the safety equipment. The spring 16 is made either cylindrical (Fig. 2), or in the form of a spring clip (Fig. 3). The latter option is more reliable. Charge 14 may consist of two layers: the charge itself and the inertial mass on the back side.

 In a preferred constructive embodiment, the front centering element 9 and the main detonating charge are structurally combined in one product (9), which is adjacent to the rear end of the combat charge 7 and to the inner surface of the shell 8 and is coupled to the tube 11 through a central blind hole. The rear centering element 10 is installed behind the charge 14 and is made in the form of a mesh disc. The pruning device 13 may also have a lightweight structure: a mesh disk with a symmetrical arrangement of tips 15.

 The wad-container 2, which is an optional, but desirable essential structural feature of the device, covers the bullet 1, isolates it with its bottom from the propellant charge 4 and is part of the fixation and obturation means.

 A central through hole 17 may be provided at the bottom of the wad container 2, into which the free end of the tube 11 is tightly inserted. The petals of the wad container 2 can be made with an annular thickening 18 under the corresponding annular groove 19 on the outer surface of the shell 8. To fix the thickenings 18 in the groove 19 from the opposite side to the bulges 18, an annular groove 20 for the latch 21 can be provided on the petals.

 In the recommended embodiment, the design of the cumulative ammunition stabilization means include tail unit with stabilizing elements 22 in the folded state within the inner diameter of the wad container 2, the last recorded. Elements 22 are thin elastic metal plates. Their bases are rigidly fixed on the tube 11 to the element 10, for example by means of a sleeve 23 with longitudinal slots. The sleeve 23 and the elements 22 are fixed from rotation and axial displacement by a latch 24, preferably easily removable. The free end of the tube 11, as in the previous embodiment of the device, is tightly inserted into the central through hole 17 in the bottom of the wad-container 2.

 The latter constructive option can be supplemented by a stage of protection of safety equipment that prevents the inertial movement of the charge 11 to the tips 15 until the wad-container 2 is separated from the bullet 1. The protection stage can be structurally designed as follows. On the periphery of the element 10 and charge 14, there are symmetrically located and parallel to the tube 11 grooves in which elastic plates (leaf springs) are laid with the ends 25, 26, in the free state oriented towards the tube 11. One of the ends (rear 26) of each the plates are pressed by the corresponding folded element 22 to the inner cylindrical surface of the wad container 2, so that the free (front) end 25 of the plate is removed from the wall of the shell 8 to a greater extent than in the free state of the rear end 26. To fix the plate Stin in the longitudinal direction, their middle part, inserted into the grooves, is made narrowed.

 A constructive version of the bullet 1 with an easily removable fairing of the shell 8 (for use in pyrotechnic devices) is possible.

 The device operates as follows.

 In the initial state, the latch 21 holds the wad container 2 on the pool 1 when stored outside the empty cartridge. The wad container 2, in turn, holds the elements 22 in the folded state. Moreover, in the embodiment of FIG. 4, the front ends 25 of the plates are maximally bent and prevent accidental approach of the charge 14 and the pruning pin 13 with the stings 15. The cylindrical spring 16 performs the same function in parallel. When the spring 16 is made according to the embodiment of FIG. 3, the piercer 13 does not have the inertial movement towards the charge 14 (when the bullet 1 leaves the sleeve 3), but allows the force inertial movement of the charge 14 towards the piercer 13. When the bullet 1 is loaded with the wad-container 2 into the sleeve 3, the latch 21 is removed. The fixation of the bullet 1 in the composition of the ammunition equipped in this way is ensured by crimping the sleeve (with the formation of a neck, a cardboard or plastic cap) or by landing with friction.

 The shot is fired in the usual way: the shotgun pierces the igniter 5, initiating the ignition of the propellant charge 4. Means 6 and 2 provide an obturation of the gases formed. Wad container 2 with bullet 1 fly out of the sleeve 3 and moves along the barrel of the gun. At the same time, the liner-cord 12 is ignited, preparing a self-liquidating bullet in case of fuse failure.

 When leaving the trunk, the petals of the wad-container 2 open with the exit of the bulges 18 from the groove 19, and the oncoming air stream inhibits it. Bullet 1 continues its free flight without container 2. At the same time, the unlocked elements 22 are straightened out (partially or completely depending on the given working form) and stabilize the flight along the calculated path. At the same time, the fixing of the rear ends of the 26 plates is removed. They sag, reducing the deflection and, accordingly, the elasticity of the front ends, which continue to partially participate (together with the spring 16) in preventing the fuse from tripping prematurely.

 When a bullet 1 hits an obstacle (target), the charge 14, under the action of a linear inertia force, slides along the tube 11 towards the pruning rod 13, overcoming the elastic forces of the spring 16 (Fig. 2, 3) or the springs 16 and 25 (Fig. 4). When the charge 14 is pierced by stings 15, the charge 14 ignites, initiating the detonation of the main charge 9 of the fuse. The mesh design of the pruning device provides free access of the products of combustion of the charge 14 to the charge 9. The operation of the fuse 9 causes, in turn, the ignition of the combat charge 7. The cumulative jet formed due to the extraction of the charge 7 causes the expected damaging effect (taking into account the penetration of the crumpled cowling around the shell 8).

 The described possible options for the device and its operation do not exclude other options within the framework of the proposed set of essential design features.

 The use of the invention allows to increase the effectiveness of handguns (smoothbore guns and carbines) in the fight against lightly armored targets and to ensure high technical and operational characteristics of the cumulative ammunition of this caliber.

Claims (6)

 1. Cumulative ammunition containing a caliber projectile with a continuous cumulative warhead charge in the shell, an inertial bottom fuse, means of stabilization and safety, as well as a sleeve with a propellant powder charge, an igniter capsule and means of fixation and obturation, characterized in that the projectile is made in the form bullets with a diameter of not more than 30 mm, the bottom fuse includes a sequentially mounted disk main detonating charge and a washer-shaped pruner and an initiating capsule charge, while The latter is installed with the possibility of linear inertial movement in the direction of the pruning device when the bullet meets the obstacle and is separated from the pruning device by a counter-safety spring, and the safety equipment includes a rigid tube with an eyeliner installed coaxially to the shell on the centering elements behind the cumulative combat charge, and a counter-safety spring.  2. The ammunition according to claim 1, characterized in that one of the centering elements (front) and the main detonating charge of the bottom fuse are structurally combined in one product adjacent to the rear end of the combat cumulative charge and to the inner surface of the shell and paired with the tube through a central deaf holes, and another (rear) centering element is installed behind the initiating capsule charge of the bottom fuse and is made in the form of a mesh disk.  3. The ammunition according to claim 1, characterized in that the pruner is made in the form of a mesh disk with symmetrically located stings.  4. The ammunition according to claim 1, characterized in that the means of fixation and obturation include at least a wad container, covering the bullet and isolating it with its bottom from the propellant charge.  5. Ammunition according to claims 1 and 4, characterized in that the stabilization means include tail unit with stabilizing elements when folded within the inner diameter of the wad container, fixed last, while the bases of the stabilizing elements are rigidly fixed to the tube behind the rear centering element, and the free end of the tube is tightly inserted into the central through hole made in the bottom of the wad-container.  6. The ammunition according to claim 5, characterized in that on the periphery of the rear centering element and the initiating capsule charge symmetrically arranged and parallel to the tube grooves are provided, in which arcuate elastic plates with ends, in the free state oriented towards the tube, forming a means of protection means are laid safety, while one of the ends of each plate is drawn by the corresponding folded stabilizing element to the inner cylindrical surface of the wad container.

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