RU2056617C1 - Cartridge - Google Patents

Abstract

FIELD: grenade throwers. SUBSTANCE: cartridge includes case and shell with fuze of inertial type coupled by gas dynamics to case chamber. In bottom of case chamber there is made protrusion in the form of sleeve which houses propelling charge. Explosive device is partially put into sleeve and is separated from propelling charge by wad. Explosive device has body with hole in bottom, blasting cap and spring-loaded firing pin fixed by stopper. Axle made fast with one end to firing pin and with the other end protruding out of body is installed in hole of bottom of body. Stopper is produced from guickly-burning material, is put on axle outside of bottom and pressed against it with washer. Bottom of body has cylindrical skirt, stopper and washer are placed in its space to form clearance between washer and inner surface of skirt. EFFECT: simplified design, improved operational efficiency. 3 cl, 1 dwg

Description

 The invention relates to military equipment and can be used in the design of small ammunition mainly for grenade launchers.

 Known fuses for the shells that are part of the cartridges, containing a detonator, a spring-loaded striker, fixed by several types of stoppers. Such fuses are reliable, safe to handle. However, they are applicable only for rotating shells, since the stopper system releases the firing pin only under the action of centrifugal forces, in addition, the fuses have relatively large dimensions and weight, which makes it impossible to use them in small cartridges.

 A known cartridge containing a sleeve with a combustion chamber and a propellant charge, a projectile and an inertial-type explosive device including a detonator capsule and a striker mounted in a housing with a bottom, is fixed by a stopper sleeve coupled gasdynamically to the propellant combustion chamber.

 A cartridge with such a fuse is safe to handle. Cocking the fuse is provided by the energy of the powder gases propellant charge. However, the reliability of ignition of the stopper sleeve at low pressures inside the sleeve is relatively small. Such a fuse is applicable both in rotating and non-rotating shells, however, the small weight of the firing pin with small fuse dimensions makes it difficult to select a spring from the condition of ensuring safety in official handling and reliability when meeting an obstacle.

 The objective of the invention is the creation of a cartridge with a small fuse having high reliability and ensuring safety in official use.

 This is achieved due to the fact that in a cartridge containing a sleeve in which a propellant charge is placed, and a projectile with an inertial-type explosive device connected gasdynamically to the sleeve chamber and including a detonator capsule and a striker fixed in the stopper in the case with a bottom, the sleeve chamber at the bottom has a protrusion in the form of a glass for accommodating a propellant charge, while the explosive device is partially buried in the glass and separated from the propellant wad.

 And also due to the fact that a hole is made in the bottom of the housing, in which an axis is mounted rigidly connected at one end to a hammer made spring-loaded and protruding from the housing, the stopper being made of quick-burning material, for example powder composition, mounted on an axis with an external side of the bottom and tightened to it with a washer mounted on an axis.

 In addition, the bottom of the body is made with a cylindrical skirt, and the stopper and washer are placed in the cavity of the skirt, and a gap is formed between the washer and the inner surface of the skirt.

 The drawing shows a cartridge.

 It contains shell 1, propellant charge 2, sleeve 3 with a propellant combustion chamber, igniter 4, fuse 5, detonator caps 6, hammer 7, spring 8, stop 9, axis 10, washer 11, fuse housing 12, bottom 13 fuse, cavity 14, communicating with the propellant combustion chamber, cup 15, wad 16.

 The proposed design works as follows.

 When the igniter capsule 4 is activated, the propellant charge 2 ignites, while through the cavity 14 communicating with the propellant charge combustion chamber, the propellant combustion products enter the stopper, and it ignites. At the same time, under the influence of excess pressure arising in the combustion chamber of the propellant charge of the sleeve, the projectile flies out of the barrel. After combustion of the stopper, the firing pin is able to move freely inside the fuse body. As a result of the braking of the projectile when it hits an obstacle, the projectile moves along the body, punches the detonator capsule, causing it to fire and detonate the projectile.

 In official circulation, the stopper, pucked by the washer 11 to the bottom of the fuse block, ensures the fixation of the hammer. In addition, the striker is so light that the spring 8 is able to compensate for the kinetic energy of the striker in case of accidental drops, i.e. there is another level of protection.

 To ensure reliable ignition of the stopper's pyrocomposition, as well as the safety of the firing shot in case of incomplete combustion of the propellant, i.e. when the stopper burned out and the projectile did not fly out of the barrel, the propellant charge is placed in a special prechamber glass, while it is separated from the stopper by the wad and the glass walls.

 The depth of the stopper into the glass is determined from the condition of retention of the wad when the propellant is burned with a washer securing the sleeve on the axis. The diameter of the glass is selected from the condition of free entry of the stopper while eliminating the breakthrough of gases along the periphery of the wad.

 The thickness of the walls of the glass is determined from the condition of its destruction at pressures in the prechamber, ensuring the exit of the projectile from the barrel. The installation of a pre-chamber glass on the axis of symmetry of the sleeve provides ignition of the propellant charge installed in it from the igniter capsule and isolation of the igniting impulse from the stopper by the walls of the glass.

 The implementation of the stopper from quick-burning material allows you to securely fix the drummer on the one hand, preventing its movement in official circulation, and, on the other hand, ensure cocking (releasing the hammer) at a certain distance from the barrel (due to the burning time of the composition), ensuring the safety of the firing squad.

 It should be noted that the appropriate selection of the powder composition provides sufficient stopper strength (it retains its integrity when a compressive force of 1.1.5 t is applied to it).

 The stopper is connected with the hammer using a standard threaded connection or a washer with the axis or the axis and the hammer are made in one piece, while the bottom of the fuse box acts as the element on which the hammer is held. A hole made in the bottom allows the axis to move freely with the hammer after combustion of the stopper.

 The installation of a stopper in the cavity in communication with the propellant charge combustion chamber provides free access to it of the propellant combustion products in order to ignite the powder composition, while the stopper can be installed inside the projectile, it is only necessary that the cavity in which the sleeve is installed communicates with the camera combustion propellant charge.

 If it is necessary to increase the cocking limit of the fuse with limited dimensions of the stopper, it is installed in the housing, and the end face is blocked with a washer, and the stopper will burn in axial rather than radial direction as with an open side surface. And since the burning area decreases, the combustion time of the stopper will increase. The gap between the housing and the washer is determined from the condition of ignition of the powder composition from which the stopper is made, and also based on the required combustion area of the composition.

 Thus, the use of this technical solution will allow you to create a cartridge with a small fuse that has high reliability while ensuring safety in official use.

Claims (3)

 1. A cartridge containing a sleeve, in the chamber of which a propellant charge is placed, and a projectile with an inertial-type explosive device connected gasdynamically to the sleeve chamber and including a detonator capsule and an impactor installed in the bottom housing, fixed by a stopper, characterized in that in the sleeve chamber at the bottom there is a protrusion in the form of a glass for accommodating a propellant charge, while the explosive device is partially buried in the glass and separated from the propellant wad.  2. The cartridge according to claim 1, characterized in that a hole is made in the bottom of the housing, in which an axis is mounted rigidly connected at one end with a hammer made spring-loaded and the other protruding from the housing, the stopper being made of quick-burning material, for example a powder composition , mounted on an axis from the outside of the bottom and pressed against it by a washer mounted on the axis.  3. The cartridge according to claim 2, characterized in that the bottom of the body is made with a cylindrical skirt, and the stopper and washer are placed in the cavity of the skirt, and a gap is formed between the washer and the inner surface of the skirt.

Images