RU2267078C1 - Cartridge case - Google Patents

Abstract

FIELD: ammunition, in particular design of cartridge cases, applicable in production of seamless steel cartridge cases of small arms.

SUBSTANCE: the cartridge case a body, whose inner surface is conjugated to the bottom in radius and made in the form of tapered sections, the thickness of the body wall at height h=0.30-0.53H from the line of conjugation of the radius to the body inner surface corresponds t=0.08-0.20T, where t = the thickness of the body wall in the critical section, H - the total height of the tapered sections, T-the thickness of the cartridge case bottom.

EFFECT: improved extraction of steel seanless cartridge cases for cartridges of small arms due to optimization of the thickness of the cartridge case body wall in the most critical section.

1 dwg

Description

The invention relates to the field of ammunition, in particular to the design of cartridge cases, and may find application in the production of seamless steel shells of small arms.

Known brass cartridge case (see US patent No. 5507232), containing the bottom and the housing, the inner surface of which is made in the form of conical sections and is conjugated with the bottom along the radius.

The disadvantages of this sleeve are the relatively low reliability of extraction and obturation at high pressure (over 3000 kgf / cm ² ) of powder gases due to the relatively low strength properties, as well as the high cost and tendency to cracks during long-term storage.

Known steel cartridge case (see RF patent No. 2179701), containing the bottom and the housing, the inner surface of which is conjugated with the bottom in radius and made in the form of conical sections, the total height of which is 21.2 ... 23.4 radius of conjugation of the bottom with the inner surface of the housing.

Such a sleeve has a high reliability of extraction and obturation at high pressure of powder gases (over 3000 kgf / cm ² ) compared to the analogue due to a change in the profile of its inner surface.

This sleeve is taken as a prototype, as it has the most common features with the proposed solution.

The disadvantage of this sleeve is the relatively low strength of the sleeve body wall due to the uneven distribution of the sleeve wall deformation, which can lead to tight extraction and to rupture of the sleeve body.

The objective of the invention is to improve the extraction of steel cartridge case by optimizing the thickness of the wall of the shell body in the most dangerous area.

The task is achieved by the fact that in the known cartridge case containing the housing, the inner surface of which is mated with the bottom in radius and made in the form of conical sections, the wall thickness of the housing at a height h = 0.30 ... 0.53H from the interface line of radius s the inner surface of the housing corresponds to t = 0.08 ... 0.20T, where t is the thickness of the wall of the housing in a dangerous section, N is the total height of the conical sections, T is the thickness of the bottom of the sleeve.

The drawing shows the proposed steel cartridge case, section.

The proposed steel cartridge case contains a dulce 1, connected by a ramp 2 with a housing 3 having a bottom 4 with a groove 5 and a flange 6. The inner surface of the housing 3 is made in the form of conical sections and is conjugated with the bottom 4 along the radius R. The total height H of the conical sections is composed of conical sections of height h ₁ , h ₂ , h ₃ , h ₄ . It was experimentally established that the sleeve 3 experiences the greatest deformation at the boundary of the second and third sections, starting from the interface line (transition) of radius R to the inner surface of the case 3. The height h of the dangerous section is equal to h ₁ + h ₂ and corresponds to (0.30. ..0.53) H. The thickness t of the wall of the housing 3 in a dangerous section (at height h) corresponds to (0.08 ... 0.20) T, where T is the thickness of the bottom of the sleeve.

These parameters were obtained experimentally when testing the design of a steel sleeve of 12.7 mm caliber.

With a height h of more than 0.53H, with a wall thickness of t more than 0.20T, cases of insufficient obturation of the sleeve during a shot are possible, because of which powder gases penetrate between the chamber and the sleeve, and with a wall thickness of less than 0.08T, cases of rupture of the sleeve under the influence of high pressure of powder gases.

If the height h is less than 0.30 N and the wall thickness t is more than 0.20 T, a tough extraction is possible, and if the wall thickness t is less than 0.08 T, the sleeve body can break.

The sleeve works as follows. When fired under the influence of the pressure of the powder gases, the walls of the body 3 of the sleeve experience both radial and axial deformations, which have a maximum value in the zone close to the bottom 4. The implementation of the inner surface of the body 3 in the form of conical sections helps to reduce maximum stresses and displace them from the danger zone on the conical sections h ₁ and h ₂ . Tests have shown that the border between the second and third conical sections is the most “dangerous section”. Performing t of the wall thickness at a height of h = 0.30 ... 0.53H in the range of 0.08 ... 0.20 T further reduces the intensity of axial tensile stresses. Under the pressure of the powder gases, the gap is sampled between the chamber of the weapon and the shell case 3. The walls of the housing 3, clinging to the chamber, provide obturation, preventing powder gases from penetrating between the liner and the chamber, and due to residual plastic deformation, provide the necessary extraction force, eliminating pinching of the liner.

Thus, the advantage of the proposed solution in relation to the prototype is to improve the extraction of steel seamless shells for small arms cartridges by optimizing the thickness of the wall of the shell body at the most dangerous site.

Claims (1)

A cartridge sleeve containing a housing, the inner surface of which is mated with the bottom in radius and made in the form of conical sections, characterized in that the wall thickness of the housing at a height h = 0.30 ÷ 0.53 N from the interface line of the radius with the inner surface of the housing corresponds to t = 0.08 ÷ 0.20 T, where t is the wall thickness of the housing in a dangerous section, N is the total height of the conical sections, T is the thickness of the bottom of the sleeve.