RU2508520C2 - High-explosive fragmentation shell - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: high-explosive fragmentation shell includes a body with a cylindrical part and a bottom, a carrying detonating fuse and obturating bands. In the obturating band arranged closer to the body bottom there are two through slots parallel and inclined to the body axis. At the body bottom, from the area of the longitudinal axis to the periphery there is a radius cylindrical groove that makes the bottom thickness equal to the cylindrical part of the body.

EFFECT: improving fragmentation properties of a shell.

4 cl, 1 dwg

Description

The invention relates to ammunition, in particular to shells, characterized by devices for their conduct or obturation in the barrel.

A well-known feathered artillery shell containing a body with a fuse and obturating belts according to the USSR author's certificate No. 215495 of March 13, 1984, from which the applicant removed the bar “c” (see the applicant’s letter to VNIIGPE DSP from 05/19/1993. a high-explosive shell was part of the ammunition of a tank with a smooth barrel. A ZOF32 high-explosive fragmentation projectile for the D-10T, D-10s and BS-3 guns is known (see the product catalog of the State Enterprise Scientific Research Institute of Machine Building p.15 “Tank, anti-tank shots” field and naval artillery ”).

Known shell contains a body with a fuse and obturating belts.

With the development of artillery, the requirements for the tactical and technical characteristics of shots and shells increased. One lead belt on the projectile ceased to perform the obturation function, and it was not possible to press the double-width belt into the groove on the body. We switched to two leading belts on the projectile.

During the development of high-explosive fragmentation shells with two leading belts, it was found that at the moment the shell enters the barrel rifling in the zone between the belts, adiabatic compression of the powder gases takes place and they heat up, which leads to an increase in pressure in this zone to values exceeding the maximum value gunpowder gases in the bore approximately 20%. Failure to take this factor into account led to deformation of the hull and cutting of the leading belts. Therefore, when calculating the strength of the shell of the projectile with two leading belts, the maximum pressure of the powder gases acting on the bottom of the projectile was increased by approximately 20%.

It was established by experiments that the shell of a medium-carbon steel shell (C60, 60C2) after stamping and crimping (raw) has the structure of a coarse-plate perlite with large grain and low plastic characteristics (psi = 28-35%, sigma 0.2 = 45-50 kg / mm ² ), provides for the explosion of obtaining the greatest number of fragments of various mass groups.

In the case when the calculated strength characteristics (sigma 0.2) exceed 50 kg / mm², heat treatment of the housing is introduced (quenching, followed by cooling in oil and tempering). The structure of the material goes into sorbitol, mechanical properties and ductility increase (sigma 0.2 = 50-60 kg / mm², psi = 40-50%). It has been experimentally confirmed that a body having this structure has low crushability characteristics (as a rule, a large number of large elongated fragments are formed).

It is proposed that constructive changes to the shell of the projectile and one of the two leading belts solve the problem of increasing fragmentation of the projectile with two leading belts.

This problem is solved in that in the known high-explosive fragmentation projectile containing a body with a cylindrical part and a bottom, carrying a fuse and obturating belts, according to the invention, at least two through grooves are made in parallel to the obturating belt located closer to the bottom of the body in parallel or inclined to the longitudinal axis of the housing, and in the bottom of the housing from the region of the longitudinal axis to the periphery, a radius-cylindrical groove is made, making the bottom thickness equal to the thickness of the cylindrical part of the housing.

Effectively, if the through groove in the obturating belt is made up to the diameter of the body at the location of the obturating belt.

Reliably, if the through groove in the obturating belt is made of a width that does not allow the collapse of the groove by the deformable material of the belt.

It is permissible if the through groove in the obturating belt is made in the amount of four pieces.

The set of distinctive features of the claimed technical solution to the applicant is not known, which is proof of the novelty of the proposal, and each of the signs of the claimed combination does not follow clearly from the prior art, which is evidence of the presence of an inventive step in the proposal. Moreover, the authors emphasize the existence of a causal relationship between the totality of the essential features of the invention and the achieved result, which is of a technical nature.

The invention is illustrated in the drawing, which presents a high-explosive fragmentation projectile in the barrel of the gun during the shot. The projectile consists of a housing 1, including a cylindrical part and a bottom, a carrying fuse 2 and obturating (leading) belts 3. The projectile under the influence of powder gases moves along the barrel 4 of the gun. A cavity 5 is formed between the obturating belts, the body and the barrel, connected with the projection space by at least two through grooves 6, made parallel or inclined to the longitudinal axis of the body. In the drawing, the grooves are shown offset from the longitudinal axis of the housing for clarity. In the bottom of the body from the region of the longitudinal axis to the periphery, a radius-cylindrical groove 7 is made, making the bottom thickness of the same cylindrical part of the body. The through grooves 6 in the obturating belt located closer to the bottom of the body are made up to the diameter of the body at the location of the obturating belt. The through groove in the obturating belt is made of a width that does not allow the collapse of the groove by the deformable material of the belt. Four through slots can be made in the obturating belt.

During the movement of the projectile along the barrel channel, a connection of the capillary volume with the cavity 5 between the leading belts 3 is ensured and pressure is equalized on the bottom of the projectile and on the body in the zone between the belts. This made it possible to reduce the strength characteristics of the casing and abandon its hardening with increased crushability. If, according to the conditions of the shot, the strength characteristics of the hull close to 70 kg / mm ² are required, then the hull is normalized. To increase the crushability of the bottom of the shell shell at the bottom, a radius-cylindrical groove is made from the region of the longitudinal axis of the shell to its periphery, as shown in the drawing.

Comparative tests of 100-mm high-explosive fragmentation shells of the known and proposed options for fragmentation and fragmentation effect were carried out. The first option is without grooves in the belt with heat treatment of the body (hardening and tempering). The second option - four grooves are made on the lower girdle, the body is “raw” with a groove at the bottom. When shells were detonated in a shield target environment, 975 holes in a three-millimeter steel sheet were obtained from the first option, 1563 holes from the second option. Shooting tests of shells with grooves in the lower driving belt showed that the grooves do not affect the projectile in the barrel, while ensuring a stable projectile flight on the trajectory.

Claims (4)

1. A high-explosive fragmentation projectile containing a body with a cylindrical part and a bottom, carrying a fuse and obturating belts, characterized in that at least two through grooves are made parallel to or inclined to the axis of the body in the obturating belt located closer to the bottom of the body, and in the bottom of the body from the region of the longitudinal axis to the periphery, a radius-cylindrical groove is made, making the bottom thickness of the same cylindrical part of the body. 2. The projectile according to claim 1, characterized in that the through grooves in the obturating belt are made up to the diameter of the body at the location of the obturating belt. 3. The projectile according to claim 1 or 2, characterized in that the through grooves in the obturating belt are made of a width that does not allow the collapse of the groove by the deformable material of the belt. 4. The projectile according to claim 1, characterized in that the through grooves in the obturating belt are made in the amount of four pieces.