RU2038569C1 - Fixed round - Google Patents

Abstract

FIELD: artillery equipment. SUBSTANCE: fixed round uses shell 7 with tail 18 located in mouth 19 of chamber 10 with perforation 11. Electric primer 9 with flexible member 21 secured on its end is located in tail 18. Perforation 11 is positioned on the external surface of tail 18 behind flexible member 21 of annular shoulder 24. Separating diaphragm 13 made of combustible material is installed in chamber 10 of annular shoulder 12. Location of igniter 17 between separating diaphragm 13 and electric primer 9 enhances the round reliability and stability of characteristics due to reliable ignition of igniter 17 and possibility of regulation of pressure in chamber 10. Provision of retarding pyrocompound 15 in electric primer 9 makes it possible to enhance the shell reliability due to time delay from the instant of actuation of electronic units 8 of shell 7 and electric primer 9 connected to power source 6 to the instant of ignition of igniter 17, which initiates throwing charge 16 in case 1. EFFECT: enhanced reliability. 1 dwg

Description

 The invention relates to artillery technology and can be used to launch shells with electronic components.

Known ammunition containing a shell and a sleeve with a main propelling charge, in which a channel is formed to accommodate the shell [1]
The munition also contains an amplification tube with a closed first end that is attached to the sleeve and an open second end. The pipe passes to the tail end of the projectile inside the axial channel. On the outer surface of the pipe, a first annular groove is made. The projectile also has an annular recess extending from its tail end. The second end of the reinforcement tube enters the recess. An inner conical section is formed in the recess, extending from the tail end of the projectile to the second annular groove to which the cylindrical section adjoins. The pipe has a thin-walled device for connecting it to the projectile when both ring grooves are in contact. The device is placed in each of the grooves. A device is installed in the pipe for generating gases, causing the projectile to move from the pipe inside the channel. Gases, in contact with the main propelling charge, ignite it after moving the projectile. At one end of the sleeve there is a seal pressed into it.

 This design allows you to increase the speed of the projectile by placing the main propellant charge of increased mass along the entire length of the shell and around the projectile, as well as by igniting the charge after the displacement of the projectile.

 The disadvantage of this design is that the described ammunition has large transverse dimensions (the charge is located around the projectile over the entire length of the cartridge case) and can only be used with artillery guns with a large bottle loading chamber, and is not applicable to guns in which the diameter of the cartridge shell and shell are comparable .

Known shot unitary loading, containing a sleeve with a capsule and a propelling charge, a perforated camera and a shell [2]
The disadvantages of the known unitary loading shot are the low reliability of its operation when using a projectile with electronic components, because increased overloads are possible, which can lead to failure of electronic components, as well as low stability of ballistic characteristics.

 The technical result when using the invention is to increase the reliability of the projectile and increase the stability of ballistic characteristics.

 The specified technical result is achieved by the fact that in a shot of unitary loading containing a sleeve with a capsule and a propelling charge, the perforated chamber and the projectile, the projectile is equipped with a shank, in which an electric igniter equipped with a retardant pyro-composition is placed, and a power source electrically connected to the electric igniter is installed in the bottom of the projectile electronic components of the projectile, with the shank located in the chamber of the chamber and a flexible element fixed to its end, and adjacent to the outer surface of the shank in the zone An annular ledge is made adjacent to the flexible element, around which the chamber perforation is located, moreover, an annular protrusion is made in the chamber, on which a separating membrane of combustible material is installed, and an igniter is placed between the electric igniter and the membrane.

 The invention is illustrated in the drawing, which shows a shot of unitary loading in the context. A unitary loading shot contains a sleeve 1 with a capsule 2 and a drummer 3. The drummer 3 is located at one end 4 opposite the capsule 2, and the other end 5 opposite the power supply 6 installed in the bottom of the projectile 7 and electrically connected to the electronic units 8 and the electric igniter 9. In the sleeve 1, a chamber 10 is fixed with a perforation 11 and an annular protrusion 12. A membrane 13 is made of a combustible material, for example, nitrofilm, on a protrusion 12. The protrusion 12 forms a free cavity 14 in the chamber 10 to provide the necessary charge density and eliminate pressure peaks. The electric igniter 9 is equipped with a retarding pyro-compound 15. In the sleeve 1 around the chamber 10 is a propellant charge 16, which perforates the perforation 11. The sleeve 1, the propellant charge 16, the capsule 2, the hammer 3, the chamber 10 with the ignitor 17 comprise a charger. The projectile 7 is provided with a shank 18 in which the electric igniter 9 is located. The shank 18 is located in the duct 19 of the chamber 10. At the end 20 of the shank 18, a flexible element 21 is fixed with an opening 22 for installing the electric igniter 9. On the outer surface 23 of the shank 18, behind the flexible element 21, an annular ledge 24 is made, around which a perforation 11 of the chamber 10 is located. The igniter 17 is located between the membrane 13 and the electric igniter 9.

 The device operates as follows. The trigger mechanism of the gun punctures the capsule 2. The gases of the capsule 2 move the hammer 3 (pressure on the end 4), which end-face 5 drives the power source 6. The electronic blocks 8 and the slowing down pyro-composition 15 are triggered from it. The electronic blocks 8 begin to work, and the slowing down pyro-composition 15 begins to smolder. After the deceleration time, the pyrosostructure 15 ignites a sample of the electric igniter 9, which through the hole 22 reliably ignites the igniter 17 at close range, in focus. Membrane 13 burns out completely. Then, the gases of the igniter 17 and the membrane 13 in the cavity 14 of the chamber 10 bend the element 21, mounted on the end face 20 of the shank 18. At the same time, the shank 18 overlaps the duct 19 of the chamber 10. The gases of the ignitor 17 pass through the cavity of the annular ledge 24 and ignite the propellant charge 16 evenly through the perforation 11 The projectile starts.

 Thus, placement of an electric igniter in the shank, making an annular protrusion in the chamber, installing a separating membrane on it and placing the igniter between the membrane and the electric igniter can improve the reliability of the projectile and the stability of the characteristics due to reliable ignition of the igniter in focus and creating a cavity in the chamber that eliminates pressure build-up and , therefore, increased overload, which would lead to failure of the electronic components of the projectile.

 The implementation of the membrane from a combustible material (for example, nitrofilm) eliminates material residues in the sleeve and in the bore, which increases reliability during subsequent charging.

 Equipping an electric igniter with a retarding pyro-composition can improve the reliability of the projectile due to the time delay from feeding the side of the projectile (the drummer drives the power source at the bottom of the projectile, which is also connected to the electric igniter) until the igniter is ignited.

 The fastening on the end of the shank of a flexible element, for example, from sheet steel, the execution on the outer surface of the shank in the area adjacent to the flexible element, an annular ledge, and the location of the perforation of the chamber around it, allows you to adjust the pressure in the chamber (with increased pressure, the flexible element has a greater deflection and vice versa), leveling it, eliminates the ejection of unburnt igniter grains into the sleeve (the complete gasification of the grains occurs behind a flexible element, in the cavity formed by the chamber and the annular ledge of the tail a).

 All this increases the stability of the pressure in the liner and reduces the dispersion of the velocity of the projectile. The uniformity of these parameters increases the reliability of the projectile: its electronic components are not exposed to excessive overload.

Claims (1)

 Shot of a unitary charge, containing a sleeve with a capsule and a propelling charge, a perforated chamber and a projectile, characterized in that the projectile is equipped with a shank, in which an electric igniter equipped with a retardant pyro-composition is placed, and a power source is installed in the bottom of the projectile, which is electrically connected to an electric igniter and electronic a projectile, wherein the shank is located in the chamber’s barrel and a flexible element is fixed at its end, and on the outer surface of the shank in the zone adjacent to the flexible element, ying annular shoulder, around which the perforation chamber, wherein the chamber has an annular projection to which a separating membrane of the burning material, and between the membrane and electric spark igniter is situated.