RU2166723C2 - Bullet shot of super-small shaped-charge ammunition - Google Patents

Abstract

FIELD: ammunition for smoothbore weapon. SUBSTANCE: the bullet shot has an envelope in the form of a cup with a nose fairing, shaped, detonating and initiating primer cap charges, piercer, striker spring and an inertia mass successively installed in the envelope cavity, rigid tube with a connecting cord of the self-destructor coaxial to the envelope and connecting the detonating charge to the hole in the envelope bottom part, as well as a metal facing of the shaped charge with flanging, the latter is cylinder shaped and envelops the shaped, detonating and initiating primer cap charges adjoining one another, the piercer is installed between the striker spring and the inertia mass, and the rigid tube is installed to make a distance piece. EFFECT: enhanced adaptability to manufacture and enhanced safety. 2 cl, 2 dwg

Description

 The invention relates to ammunition (ammunition) with a cumulative charge and is intended as an ultra-small cumulative ammunition (SKB) to smooth-bore weapons (rifles, carbines, pistols) for penetrating highly effective light armored structures.

 Known SKB with bullet shells containing a shell with a head fairing and installed in the shell cumulative, detonating and initiating charges (RU 2110753 C1, 05/10/1998).

 In them a contact fuse of instant action is built into the head fairing, which is connected by a channel or a flame-feeding tube organized in the body of a cumulative charge with the bottom part of the fuse formed by the aforementioned sequentially established initiating and detonating charges.

 With all its advantages, munitions with a contact-action head fuse have a number of disadvantages, in particular, the presence of a central channel in the body of a cumulative charge, which reduces the diameter (caliber) utilization factor. This becomes especially significant with ultra-small calibers, that is, for SKB as a new type of cumulative ammunition.

 One of the possible ways to eliminate this drawback is to use inertial bottom fuses.

 The closest analogue to the proposed device for the intended purpose and the set of essential structural features is a bullet shell of an ultra-small cumulative ammunition containing a shell in the form of a glass with a head fairing, cumulative, detonating and initiating capsule charges, a pruner, a counter-safety spring and an inertial mass installed in the cavity of the shell on the longitudinal axis of the bullet, a rigid tube with a self-liquidator eyeliner cord, a coaxial shell and connecting the detonating charge with a hole in the bottom of the shell, as well as a metal lining of the cumulative charge with installation flanging (RU 2130580 C1, 05.20.1999).

 In it, the installation flanging of the lining of the cumulative charge is made disk and is coupled with the open end of the shell-cup on one plane and with the end of the head fairing on its other plane, the pruner is installed between the counter-safety spring and the detonating charge, the rigid tube with the front end inserted into the blind hole provided with an end stop in the detonating charge, and the rear end into the through hole provided in the bottom of the shell-glass.

 In the version of the munition with a tail stabilizer, the latter is removably mounted on the rear end of the rigid tube with an eyeliner, and the bottom of the shell-glass covers the middle section of the rigid tube.

 However, the known device has a number of disadvantages, including unused reserves for improving manufacturability (which will affect the cost of SKB in mass production and, accordingly, the competitiveness of these products). This refers, first of all, to the manufacturing technology of the cumulative charge - detonating charge - cladding assembly. In addition, with random axial dynamic effects, it is possible that the charges move backward (with separation from the shell), accompanied by compression deformation of the counter-safety spring and, accordingly, a decrease in the gap between the pruner and the initiating capsule charge, and the placement of the latter in the socket of the metal inertial mass can under some conditions chemical incompatibility. All this somewhat reduces the level of safety of such a design. The location of the tail on the self-liquidator tube increases the dynamic load on it and (through it) on the detonating charge and other components of the fuse, promotes axial movement of the tube back during the flight of the projectile or dismantling of the tail.

 The problem to which the invention is directed, is to increase the manufacturability and safety of the SKB bullet projectile with an inertial bottom fuse.

 The solution to this problem is provided by the fact that in a bullet projectile of an ultra-small cumulative ammunition containing a shell in the form of a glass with a head fairing, a cumulative, detonating and initiating capsule charges, a pruner, a counter-safety spring and an inertial mass installed in the shell cavity on the longitudinal axis of the bullet, are a rigid tube with a self-liquidator eyeliner cord, a coaxial shell and connecting a detonating charge with an opening in the bottom of the shell, as well as a metal cladding cumulatively charge with installation flanging, the latter is cylindrical and covers adjacent to each other cumulative detonating and initiating capsule charges, the pruner is installed between the counter-safety spring and the inertial mass, and the rigid tube is installed by surprise.

 The problem is further solved due to the fact that in a bullet projectile with the specified set of restrictive and distinctive features, the bottom part of the shell is made with a cylindrical threaded drive, while the hole in the bottom of the shell for installing a rigid tube with an eyeliner is partially made in the drive. The claimed combination of essential structural features included in the restrictive and distinctive parts of the independent claim 1 of the claims provides a solution to the problem. The claimed configuration of the lining facilitates the formation (molding) of "tablets" of three explosive charges (the lining itself is a mold); favorable features of the thermal regime are used during pouring; the cladding-charges block is easier and safer to install in the shell-glass after the other components of the fuse; a rigidly installed rigid tube with a lead-in cord guarantees restriction of the landing of the block (closure of axial forces on the shell); the “inertial mass” part also becomes more technologically advanced. The tube spacing and the spatial separation of the initiating capsule charge and inertial mass increase the safety of the device in the storage, transportation, and combat use of SKB.

 The execution of the bottom part of the shell with a cylindrical overhang under the tail unit unloads the rigid tube and associated components of the fuse from undesirable dynamic influences from the tail unit, facilitates the conditions for plugging the rear end of the tube into a blind hole, improves the overall layout.

 In FIG. 1 shows an ultra-small cumulative ammunition as a combination of a bullet shell, wad-container and cartridge case; in FIG. 2 is an example of a structural embodiment of a bullet projectile in the context, an option with a removable tail.

 In the general case, the ultra-small cumulative ammunition assembly includes (see Fig. 1) a bullet shell 1 (hereinafter - the "bullet"), a caliber (d) wad container 2 and a standard sleeve 3 for smooth-bore weapons (rifle, carbine, pistol ) caliber d up to 30 mm.

 In the particular case of wad container 2 may be absent, while the projectile 1 must be a caliber (d).

 Bullet 1 contains (see Fig. 2) a shell 4 in the form of a cup with a head fairing 5 (preferably removable on the thread 6) and, preferably, with a cylindrical threaded run 7 for installing the tail stabilizing tail 8. In the bottom of the shell 4 there is a system of two the main holes - a larger diameter (9) and a smaller diameter (10). The hole 9 is partially made in the drive 7.

 In the cavity of the shell 4 on the longitudinal axis of the bullet are installed: a continuous cumulative charge 11, detonating charge 12, initiating the capsule charge 13, the pruner 14, the counter-safety spring 15 and the inertial mass 16. In this case, the pruner 14 is installed between the spring 15 and the inertial mass 16 and is oriented by sting toward charge 13. Coaxially to shell 4 there is a rigid tube 17 with a self-liquidator eyeliner cord, which is inserted with an end stop (rear) with an end stop into hole 9, and the other (front) - deaf (also from the end vym focus) in charge 12. Thus, the tube 17 is installed between the charge vraspor sleeves 7 and 12 casing 4. Items 11-14, 16 represent a body of revolution in the form of tablets or pucks. The cumulative recess of the charge 11 is made with a metal lining 18 having a cylindrical, developed installation flanging 19 (can be made by pressure or stamping), directed inward. In this case, explosives of charges 11-13 fill a cavity formed by flanging 19 (can be poured directly into the lining 18-19 before installation in the shell 4). It is possible to fix charges 11-13 in the specified cavity by bending inwardly part of the flanging edge 19 (not shown). The inertial mass 16 is mounted, preferably, on the tube 17 with the possibility of a working stroke (in Fig. 2 to the left) along it as a guide. However, it is desirable to have an additional stage of protection in case of "abnormal" dynamic loads. The simplest example of such a latch is a locking screw 20, screwed directly through the radial holes in the wad-container 2 and the sheath 4. Relatively simple designs of automatic locks are possible. It is possible that the automatic lock described in the closest analogue can be used.

 The device operates as follows.

 When storing the bullet in the wad-container 2, the opposed tube 17 eliminates the possibility of moving the construct (assembly) 18, 19, 11-13 in the direction of the splitter 14 under "abnormal" axial loads.

 When the ammunition is equipped, the screw 20 is removed and the bullet 1 together with the wad-container 2 is inserted into the sleeve 3. At the same time, the tube 17 inserted in the opposite continues to provide the distance between the elements 13, 14.

 When fired, the wad container 2 with bullet 1 is separated from the sleeve 3 and moves along the barrel. At the same time, due to the breakthrough of powder gases through the hole in the bottom of the wad-container 2 to the hole 10 and the rear end of the tube 17, the supply cord is ignited, preparing for the self-destruction of the bullet 1 in case of failure of the inertial fuse.

 When leaving the trunk, the wad container 2 is separated from the shell 4 by a counter flow of air. The tail unit 8 opens under the action of its elastic forces and stabilizes the further flight of the bullet 1.

 When a bullet 1 strikes the cowl 5 into an obstacle (target), the inertial mass 16 overcomes the spring force 15, moves the pruner 14 in the direction of the charge 13. The interaction of the latter causes the charges 13, 12, 11 to act sequentially. The cumulative jet resulting from the recess and lining 18 affects obstacle (target), taking into account the penetration of the fairing deformed during impact 5.

 The described example of the device and its operation does not exclude other options in the framework of the proposed set of essential design features.

 Using the invention allows to solve the problem, namely to improve the manufacturability and safety of the device.

Claims (2)

 1. A bullet shell of an ultra-small cumulative ammunition containing a shell in the form of a glass with a head fairing, a cumulative, detonating and initiating capsule charges, a pruner, a counter-safety spring and an inertial mass installed in the cavity of the shell on the longitudinal axis of the bullet, a rigid tube with a self-dropping cord, coaxial shell and connecting the detonating charge with the hole in the bottom of the shell, as well as the metal lining of the cumulative charge with installation flanging, characterized in that the mounting flange facing the shaped charge is cylindrical and covers adjacent to each other is cumulative, and detonating the initiating capsule charges nakalyvatel kontrpredohranitelnoy mounted between the spring and the inertial mass and the rigid tube installed vraspor.  2. The bullet projectile according to claim 1, characterized in that the bottom of the shell is made with a cylindrical threaded drive, while the hole in the bottom of the shell for installing a rigid tube with a cord-liner is made partially in the drive.

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