RU2112206C1 - Armor-piercing bullet (variants) - Google Patents

Abstract

FIELD: small arms ammunition intended for shooting light armored targets. SUBSTANCE: the bullet has a stepped envelope consisting of head, leading, intermediate and tail parts, as well as a jacket and a slug, having head, tail and intermediate parts between them. According to the first variant, the envelope intermediate part has a tapered surface, and the slug intermediate part is a truncated cone. According to the second variant, the envelope intermediate part has a tapered external surface, and the slug intermediate part is made in the form of conjugated cylindrical, adjoining the head part, and tapered sections. EFFECT: enhanced combat characteristics of bullet and adaptability to its manufacture. 2 cl, 2 dwg

Description

 The invention relates to the field of small arms ammunition intended for firing at lightly armored targets.

 Known bullets for a similar purpose, containing a shell, shirt and armor-piercing core, for example, bullets B-32 (index 7-B3-3.000, drawing N 4-27366. TSNIITOCHMASH, inv. 18155), bullets 7N10 (brochure PO "Barnaul Machine Tool factory "), SP 6 (Russia), PPI (brochure for Anthena, France), ARM8 NATO (brochure for Anthena), etc.

 These bullets have a high penetrating effect, however, the presence in their design of a high-strength armor-piercing core significantly increases their radial stiffness, which increases the dispersion of the initial bullet velocity, impairs accuracy and reduces the effective firing range.

 High-strength armor-piercing cores are made, as a rule, by cutting or sintering from metal-ceramic alloys, which is a less technologically advanced and more laborious method compared to the cold stamping method, with which the remaining elements of bullets are made.

 The closest analogue (prototype) of the proposed design is a cartridge bullet SP6 (drawing KRAG.771812.004 SB, TSNIITOCHMASH, inv. 006318), which has marked shortcomings, containing a shell, the inner and outer surfaces of which are stepped and which has a head, leading, tail conical part and an intermediate cylindrical part located between the leading and tail parts, as well as a jacket and a core located in the shell, having a head, tail conical and intermediate parts between them.

 The aim of the invention is to increase the combat characteristics of the bullet and the manufacturability of its manufacture.

 This goal according to the first embodiment of the invention is achieved by the fact that in the pool the outer surface of the intermediate part of the shell is made conical, and the intermediate part of the core is made in the form of a truncated cone. In the pool according to the second embodiment of the invention, the outer surface of the intermediate part of the shell is also made conical, and the intermediate part of the core is made in the form of a cylindrical adjacent to the head part of the core, and conical sections connected with it.

 In FIG. 1 shows the construction of the bullet according to the first embodiment, and in FIG. 2 - according to the second embodiment.

 As can be seen, the bullets of the proposed designs contain a shell (1), a shirt (2) and a core (3). Bullets have a step-shaped shell, consisting of the head (G.Ch.O.), leading (V.Ch.O.), intermediate (P.Ch.O.) and tail (X.Ch.O.) parts. A core is placed inside the shell, which is fixed along the inner surface of its intermediate and tail parts.

 The core has a head part (G.Ch.S.), a tail (X.Ch.S.) conical and an intermediate part located between them (P.Ch.S.), which is made conical in the first embodiment of the invention, and in the second embodiment it consists of two sections interconnected - cylindrical adjacent to the head part, and conical.

 The implementation of the outer surface of the intermediate part of the conical shell contributes to a smoother exit of the bullet from the barrel and to obtain a bullet significantly smaller initial disturbances acting on the bullet at the moment of leaving its barrel. Since the maximum diameter of a bullet is larger than the diameter of the barrel channel along the rifling fields (which is necessary to ensure that the bullet cuts into the grooves of the barrel channel) and the bullet moves along the barrel channel with an interference fit, then when the bullet exits the muzzle section, its shell is abruptly unloaded (springed). However, due to inaccuracies in the manufacture of the barrel and the bullet, their misalignment (which always takes place), the unloading of the bullet shell does not occur symmetrically to the longitudinal axis of the bullet, but from one side. As a result of this, the bullet receives a randomly directed impulse in the direction perpendicular to the longitudinal axis of the bullet. In addition, during the aftereffect, at the time of the bullet's departure from the barrel channel, an uneven annular gap is formed between the pool shell and the barrel channel. Powder gases, breaking through the gap, further increase the unevenness of its formation and give additional disturbances to the tail of the bullet. Thus, the configuration of the tail and the form of transition from the leading to the tail have a significant impact on the accuracy of the cartridge. The steeper the configuration of the part of the bullet located behind the leading part, the sharper the disturbances the bullet gets when exiting the barrel. The execution of the intermediate part of the shell, located between the leading part and the tail, in the form of a conical surface allows for smooth unloading of the bullet shell and to reduce disturbances from the action of powder gases at the moment the bullet exits the muzzle section of the barrel channel, which leads to a significant increase in the accuracy of the battle and increase the effective range firing.

 The execution of the intermediate part (P. C. C.) of the core in the form of a truncated cone according to the first embodiment of the invention allows to increase the breakdown effect of the bullet due to a significant reduction in the work of friction forces when the core penetrates the barrier and to produce the core by cold stamping. Known armor-piercing bullets (B-32, SP6, 7N10, etc.) have an extended cylindrical intermediate part in the armor-piercing core, and during cold stamping of cores of this configuration on the cylindrical surface of the core due to friction forces, considerable efforts arise when pushing the semi-finished product from stamping matrices. This reduces the resistance of the tool, and with a sufficiently large length of the cylindrical section, the manufacture of the core becomes impossible due to breakdowns of the ejector.

 The implementation of the intermediate part of the core in the form of a truncated cone can significantly reduce the force of ejection of the semi-finished product from the stamping matrix and make the core by cold stamping.

 The implementation of the bullet according to the second embodiment of the invention leads to a further increase in the manufacturability of the core. This is achieved by performing the intermediate part of the core in the form of a cylindrical section adjacent to the head part by the cores of the conical section mating with it. In this case, a change in the lengths of the animated part and the conical section of the intermediate part does not lead to a change in the maximum core diameter.

 Bullets of the proposed options are currently being manufactured in the pilot production of TsNIITOCHMASH. According to preliminary estimates, the complexity of their manufacture will be reduced by 30 - 40% compared with the prototype - SP6 bullet.

Claims (2)

 1. Armor-piercing bullet containing a shell, the inner and outer surfaces of which are stepped and which has a head, leading, tail and an intermediate part located between the leading and tail parts, and a shirt and a core having a head, tail and intermediate between parts thereof, characterized in that the outer surface of the intermediate part of the shell is conical, and the intermediate part of the core is in the form of a truncated cone.  2. Armor-piercing bullet containing a shell, the inner and outer surfaces of which are stepped and which has a head, leading, tail and an intermediate part located between the leading and tail parts, and a shirt and a core having a head, tail and intermediate between parts, characterized in that the outer surface of the intermediate part of the shell is made conical, and the intermediate part of the core is in the form of a conjugate cylindrical adjacent to the head part, and conical areas.

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