RU2688507C1 - Artillery projectile - Google Patents

Abstract

FIELD: weapons and ammunition.SUBSTANCE: invention relates to defense equipment, specifically to artillery projectiles. Artillery projectile comprises a housing with a groove, in which is installed with a gap and possibility of rest against its front end of a freely rotating drive belt, consisting of a metal ring with a sealing element of plastic material, wherein sealing element is freely movable along metal ring, metal ring is made expanding in direction of front end of groove, wherein inner surface of sealing element is made equidistant with contact surface of metal ring, and outer diameter of sealing ring does not exceed shell size, wherein the sum of the maximum thicknesses of the ring and the sealing element exceeds the maximum size from the bottom of the groove to the caliber of the projectile.EFFECT: higher efficiency of obturation of artillery shells in rifled and smooth-bore artillery pieces due to overlapping the gap between the driving band and the barrel of the weapon, provided the projectile revolutions, at which the projectile control system elements can function.3 cl, 3 dwg

Description

The invention relates to defense technology, namely to artillery shells.

In artillery shells designed for loading from the muzzle of the gun, this is especially true for smooth-bore mortars to ensure the obturation of the barrel, on the body of the projectile perform annular grooves forming a labyrinth seal.

To ensure free loading, exclude compression when loading from the muzzle of the gun, the outer surface of the body of the projectile is performed with a guaranteed clearance to the inner surface of the barrel of the gun. The presence of this gap does not allow for reliable obturation of the gunpowder bore.

In artillery shells (with a copper lead girdle), intended for loading from the breech of the gun, obturation occurs in the process of firing the projectile due to the compression of copper in the barrel notches.

The MO 120-RT-61 mortar uses PR14 mines (see JANE'S AMMUNITION HANDBOOK Fifth Edition 1996-97, p. 453, 120-mm mine PR 14), which have a contour of an artillery shell with a leading belt, on which are pre-cut, corresponding to Mortar bore cuts, and to ensure obturation, a polymeric sealing ring is installed on the conical tail of the mine.

When fired, under the pressure of powder gases, the sealing ring, plastically deforming, moves forward along the tail section of the mine and completely fills the barrel rifling.

However, this technical solution cannot be used in guided artillery ammunition, since with the leading belt rigidly connected to the mine body, the angular velocity of the ammunition will be unacceptably high.

In the well-known artillery shell (RF patent №2103653 from 27.02.1996), chosen for the prototype, the task of obturation is solved by a leading belt installed in the bore of the shell, made of a metal ring with a fixed element made of plastic material, mainly copper and provided with an annular protrusion, which has an outer diameter greater than the diameter of the bore along the rifling of the barrel. When sending a projectile into the barrel of an artillery piece from the breech, this belt with its plastic material element cuts into the rifled part of the barrel (bullet entrance of the barrel) by scaling the material, which completely fills the barrel grooves, eliminating the breakthrough of powder gases when firing. At the same time, the girdle design is such that during movement along the barrel it is not connected with the projectile in order to realize projectile rotational speeds at which elements of the projectile control system can function (onboard equipment, a drop-down stabilizer unit, etc.).

However, this performance of the leading belt does not provide the possibility of free loading of an artillery projectile into muzzle-loading and breech-loading artillery pieces.

The task of the invention is to increase the efficiency of artillery shells in rifled and smooth-bore artillery guns, provided that the projectile speeds are provided, at which elements of the projectile control system (onboard equipment, a drop-down stabilizer unit, etc.) can function, as well as to ensure free loading in muzzle-loading and breech-loading artillery guns.

To do this, in an artillery projectile containing a housing with a groove, in which a freely turning leading belt, consisting of a metal ring with a sealing element made of plastic material, is installed with a gap and the possibility of a stop at its front end, the sealing element is freely moving along metal ring, and the metal ring is made expanding in the direction of the front end of the groove, while the inner surface of the sealing element is made tantnoy with the contact surface of the metal ring, the outer diameter of the sealing ring is less than the projectile caliber, wherein the sum of the maximum thickness of the ring and the sealing element exceeds the maximum size of the bottom of the groove to the projectile caliber.

The invention is illustrated graphic materials, where in FIG. 1 shows a general view of an artillery projectile; FIG. 2 is a view of the groove when the projectile is placed in a rifled barrel and in FIG. 3 - view of the groove when placing the projectile in a smooth barrel.

The artillery projectile includes a housing 1, a stabilizer block 4, a driving belt 3 consisting of a metal ring 7 with a sealing element in the form of a ring 9 made of plastic material (polymer) located in the groove 12 of the housing 1. The driving belt 3 moves freely in the groove 12 due to the gap 8. The sealing ring 9 with its inner conical surface 10 lies on the outer conical surface 5 of the metal ring 7, while the conical surfaces 5 and 10 are made with increasing diameter to the front end 6 of the groove 12. Naru ny diameter of the seal ring 9 has a size not exceeding the projectile caliber.

This device works as follows. When loading the lead belt 3 artillery shells freely passes into the barrel 2 artillery guns. In the process of firing under the influence of propellant gases 11 of the propellant charge, the sealing ring 9 with its inner surface 10 moves along the outer inclined surface 5 of the metal ring 7 towards the front end 6 of the groove 12, while being radially deformed. The sealing ring 9 finishes moving when it stops at the front end 6 and fills the cavity between the housing 1 and the barrel 2 in the area of the leading belt (Fig. 2, Fig. 3), thereby eliminating the breakthrough of powder gases 11. The gap 8 does not impede the free turn the leading belt 3 in the groove 12, thereby providing the artillery projectile necessary and sufficient momentum.

Thus, the proposed technical solution increases the efficiency of artillery shells in rifled and smooth-bore artillery guns by closing the gap between the leading belt and gun barrel, provided that the projectile speed is maintained, under which elements of the projectile control system (on-board equipment, drop-down stabilizer unit and etc.), and also provides the possibility of free loading in muzzle-loading and breech-loading artillery guns.

Claims (3)

1. Artillery projectile, comprising a housing with a groove, which is installed with a gap and the possibility of an emphasis in its front end freely turning the leading belt, consisting of a metal ring with a sealing element of plastic material, characterized in that the sealing element is made freely moving along a metal ring , the metal ring is made expanding in the direction of the front end of the groove, while the inner surface of the sealing element is made equidistant from contact surfaces of the metal ring. 2. Artillery projectile, made according to claim 1, characterized in that the outer diameter of the sealing ring does not exceed the caliber of the projectile. 3. Artillery projectile, made according to claim 1, characterized in that the sum of the maximum thickness of the ring and sealing element exceeds the maximum size from the bottom of the groove to the caliber of the projectile.

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