RU2100759C1 - Composite artillery shell case - Google Patents

Abstract

FIELD: ammunition, in particular, composite artillery shell cases, can find a wide application in production of artillery shell cases with a plastic body. SUBSTANCE: in the known shell case, using a plastic body and a metal bottom plate, the bottom plate wall is conjugate to the bottom in radius, the total height of the bottom plate from the flange equals 1.22 - 0.68 of the conjugation radius. EFFECT: improved design. 1 dwg

Description

 The invention relates to the field of ammunition, in particular to prefabricated artillery shells, and can be widely used in the manufacture of artillery shells with a plastic case.

One of the most important requirements for prefabricated artillery shells with a plastic case is to provide an obturation of powder gases when firing at charges at minus (up to -50 ^o C) temperatures.

 Known seamless artillery shell (Latukhin A.N. Modern artillery. M. S. 101-102, 108-109), having a barrel, body, bottom and flange.

The obturation of the powder gases after the shot is carried out by the body of the sleeve. However, such a sleeve has disadvantages:
high consumption of special steel and brass;
a large mass of shells and ammunition;
use in the manufacture of sleeves of large-sized press equipment;
great efforts in the extraction of cartridges after a shot.

 Over the past years, prefabricated sleeves with a plastic casing, which are devoid of the above disadvantages, are finding wider application in artillery.

 Currently known, the closest in technical essence and the achieved technical effect, prefabricated sleeve with a plastic casing (US patent N 3170401, application. 23.02.65. NKI 102-43), containing a metal tray, plastic casing, plastic seal and lock, selected by the authors for the prototype.

Known sleeve has a drawback. So when shooting at low temperatures (-50 ^o C) at low pressures (1500 kgf / cm ² -300 kgf / cm ² ) is not provided obturation of powder gases.

The study showed the following. The temperature coefficient of linear expansion of plastics is an order of magnitude greater than that of metal. This leads to a significant gap at -50 ^o C between the plastic casing (obturator) and the walls of the barrel chamber. Under the pressure of the powder gases (when fired), the plastic shutter is deformed, but the time to close the gap with the plastic shutter is longer than the passage of the powder gases from the sleeve to the shutter, i.e., the latter breaks through the breech of the gun, which is unacceptable. But at low pressures of the powder gases (1500-300 kgf / cm ² ), there is not enough force for plastic deformation of the upper obturating part of the metal pan within the initial gap, i.e. the pan is not obturating.

 Unlike the prototype, in the proposed prefabricated artillery sleeve, the total height of the pallet from the flange is made equal to 1.22-0.68 radius of the pairing.

 Common signs of the known sleeve with the proposed is the presence of a plastic case and a metal pallet, and the wall of the pallet is mated with the bottom in radius.

 These signs, which are distinctive from the prototype, and to which the requested amount of legal protection applies, are sufficient in all cases.

The proposed design has advantages over the prototype. Thus, the implementation of the total height of the pallet from the flange equal to 1.22-0.68 radius of the mating radius provides a reliable obturation of powder gases when fired at pressures of 1500-300 kgf / cm ² and a charge temperature of up to -50 ^o C inclusive.

 This allows us to conclude that there is a causal relationship between the totality of the essential features of the proposed technical solution and the achieved technical results.

The objective of the invention is to create a prefabricated artillery shell with a plastic case, reliably obturating powder gases when firing at temperatures from +50 to -50 ^o C and pressures of 1500-300 kgf / cm ² .

 The essence of the invention lies in the fact that in a prefabricated artillery sleeve containing a plastic case and a metal pallet, the wall of the pallet mating with the bottom along the radius, in contrast to the prototype, the total height of the pallet from the flange is made equal to 1.22-0.68 radius of mating.

 The invention is illustrated by the drawing, where on the longitudinal section of the sleeve there is a plastic case 1, a metal pallet 2 with a bottom A, a wall B and a flange C, a metal ring 3, a nut 4, a sealing rubber gasket 5, H is the total height of the pallet from the flange C, R is the mating radius bottom A and wall B.

 The radius R as a result of working out of plastic sleeves is defined as equal to 20-23 mm.

 The wall thickness of the pallet at the top is not more than 1 mm, since a larger size (larger protrusion of the pallet 2 behind the housing 1) leads to cleavage of the extractor legs when the sleeve is inserted into the gun chamber.

 The total height of the pallet from the flange, depending on the radius of the mating is established experimentally.

 With a total height of the pallet from the flange of more than 1.22 mating radius, the metal consumption increases, the internal volume of the sleeve decreases.

If the total height of the pallet from the flange is less than 0.68 of the mating radius, obturation is not provided at a pressure of 1500-300 kgf / cm ² .

 The functioning of the sleeve is carried out in the following way.

 After sending the projectile into the bore in the gun chamber, the sleeve with the discharge is sent, the shutter is closed. They press the trigger, the capsule sleeve works, the powder charge in the sleeve ignites, a shot occurs. Under the influence of the pressure of the powder gases, the metal tray 2 and the plastic housing 1, deforming, select the gaps between the inner surface of the charging chamber (not shown) by the tray 2 and the housing 1.

At a charge temperature of -50 ^o C, a pressure of 1500-300 kgf / cm ^{2 is} sufficient to deform the upper obturating part of the pallet 2 and the time to close the gap between the wall In the pallet 2 and the gun chamber is less than the passage of powder gases from the cut of the sleeve to the pallet 2 (at 0.68≅H≅1.22), i.e. pan 2 prevents the breakthrough of powder gases through the breech of the gun when firing.

The design of the prefabricated artillery shell with a plastic casing avoids the breakthrough of powder gases when firing at pressures of 1500-300 kgf / cm ² and temperatures up to -50 ^o C inclusive.

 According to the invention, design documentation was developed, according to which an experimental batch of cartridges was made.

 Tests on strength, extraction, obturation and ballistics showed positive results.

 According to the test results, the proposed design of the prefabricated artillery shell with a plastic case is recognized as promising and recommended for production.

Claims (1)

 A prefabricated artillery sleeve containing a plastic case and a metal pallet, the wall of the pallet being mated with the bottom in radius, characterized in that the total height of the pallet from the flange is 1.22 0.68 mating radius.