RU165294U1 - ARTILLERY SHIP TO A SLING WEAPON - Google Patents

Abstract

An artillery projectile for a rifled weapon containing a steel body and a leading belt, characterized in that the leading belt and the body are a single unit and the leading belt has longitudinal and circular slots, the shape and location of which repeat the location of the cuts in the bore, while the diameter of the slots corresponds to the diameter of the centering thickening of the shell of the shell.

Description

Artillery shell for rifled weapons

The proposed utility model relates to military equipment and can be used in the development and modernization of artillery shells for rifled weapons.

Known artillery shell for rifled weapons, (patent No. 149768 "Artillery shell for rifled weapons" IPC F42B 14/02), comprising a steel shell of ammunition and a leading belt formed in the form of alternating annular grooves and protrusions.

However, the specified artillery shell has several disadvantages. When the projectile passes through the bore, part of the kinetic energy is spent on crushing the protrusions of the girdle by the rifling of the bore, this leads to some decrease in the range of the projectile. Due to the integrity of the protrusions, the main effect of the powder gases is on the extreme of them, which causes some loss of kinetic energy.

In addition, the artillery shell for rifled weapons is known (RF patent No. 2224212 "Artillery shell", IPC F42B 14/02), which is the prototype of the proposed utility model. It contains a housing with a leading belt, on which protrusions are made corresponding to the cuts of the gun barrel, and grooves are made along the contour of the outer surface of the leading belt across the longitudinal axis of the projectile, while the depth of the grooves is less than half the width of the protrusions, and the leading belt is made in the form of a ring, elastically deformable in the radial direction, and mounted in a recess on the housing with a gap in the radial and axial direction, providing the ability to rotate the belt relative to the longitudinal axis of the projectile.

However, this artillery shell has several disadvantages. Since the lead belt is a separate part, the provided possibility of rotation cannot always provide the rotation necessary for a stable flight of the projectile, which can affect the range. The device of the belt is such that the pressure of the powder gases is applied, in addition to the zapoyasko part of the shell of the projectile only to the last annular protrusions of the leading belt, which practically does not affect the range of the projectile.

The objective (technical result) of the proposed utility model is to increase the range of the projectiles when fired, to increase the area of interaction of the powder gases with the projectile. The problem is achieved in that in the well-known artillery shell for rifled weapons, which contains a steel body and a leading belt, the leading belt and the body are a single unit, and the leading belt has longitudinal and circular slots, the shape and location of which repeats the location of the rifling in the barrel bore .

In FIG. 1 shows a fragment of the hull of the proposed artillery shell with a lead belt, where 1 is the lead belt made integrally with the body, 2 is the flow of powder gases during firing, 3 are the annular protrusions of the lead belt, 4 are transverse rifling, and 5 are longitudinal rifling, repeating the shape section of the barrel bore of an artillery gun; rifling 4 and 5 are made so that the diameter of the housing in them coincides with the diameter of the centering thickening.

FIG. 2 is a sectional view of a bore of a barrel 1 when interacting with a housing with a leading belt 2. The protrusions of the leading belt at the vertices have a diameter D _da equal to the diameter of the bottom of the grooves of the barrel channel, and the grooves between them are made so that they have a diameter D c.u. - the diameter of the centering thickening. D bp - the diameter of the rifling field of the bore. In the gap between the rifling fields and the centering bulge, powder gases propagate.

The proposed utility model works as follows. In preparation for the shot, it is necessary to combine the artillery shell and the barrel channel so that the grooves 5 of the leading belt 1 and the bottom of the grooves of the gun barrel coincide. Since the shape of the grooves of the leading belt corresponds to the grooves of the barrel, when fired, neither the shell nor the barrel will experience increased load, and the speed and range will increase due to a decrease in the kinetic energy consumption for pushing. Since with the proposed shape of the leading belt, its crushing practically does not occur, there is no need for large recesses between the formed protrusions to accommodate the material being crushed, therefore the diameter of the body in the cuts 4 and 5 does not exceed the diameter of the centering thickening of the shell of the artillery shell. The flow of powder gases 2, penetrating along the longitudinal grooves 5 into the gaps between the bore and the leading belt, fills the formed "pockets" 4 between the annular projections 3, which increases the area of interaction of gases with the shell of the projectile and leads to the transfer of more energy to the projectile. This, in turn, increases the range of the projectile.

Thus, the proposed utility model allows to increase the flight range of shells and increase the area of interaction of powder gases with the bore.

Claims (1)

An artillery projectile for a rifled weapon containing a steel body and a leading belt, characterized in that the leading belt and the body are a single unit and the leading belt has longitudinal and circular slots, the shape and location of which repeat the location of the cuts in the bore, while the diameter of the slots corresponds to the diameter of the centering thickening of the shell of the shell.

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