RU98567U1 - TURBOREACTIVE Shell - Google Patents

Abstract

 A turbojet projectile containing a rocket engine, a warhead, characterized in that it additionally introduces a braking engine, an opening device attached to it, located in the bow along the axis of the projectile, while the warhead consists of sleeves adjacent to the outer surface of the rocket engine, representing they are hollow cylindrical segments in which disk-shaped warheads are placed, a knockout charge located at the end face from the nozzle block side, attached using the ear-plug connection to to the pilaf block of the rocket engine and connected by another end face, closed by a plug and fixed by a stopper, by means of steel tapes with a belt mounted on the rocket engine.

Description

The utility model relates to defense technology, in particular to turbojet projectiles, providing an increased area of destruction.

Famous M-14-OF turbojet projectile (N.A. Makarovets, L.A. Ustinov, D.A. Avotyn "Launch and technical systems of multiple launch rocket systems", Publishing house TulSU, 2008, p.76), selected as an analogue containing a fuse, a high-explosive fragmentation warhead, a rocket engine consisting of a chamber, a powder charge, an igniter, a diaphragm, a nozzle block and a candle. The stabilization of the projectile in flight is achieved by rotation due to the expiration of powder gases through inclined holes made in the nozzle bottom of the engine at an angle to the longitudinal axis.

The disadvantage of this projectile is the uneven distribution of the damaging factors over the lesion area. At the point of impact, a high-explosive fragmentation warhead has excessive action.

Known turbojet projectile M-24F OF (N.A. Makarovets, L.A. Ustinov, D.A. Avotyn "Launch and technical systems of multiple launch rocket systems", Publishing house TulSU, 2008, p. 82), selected as the most close analogue, consisting of a fuse, a high-explosive warhead and a rocket engine. The rocket engine includes a camera, powder charge, nozzle block, igniter, diaphragm and a candle. The stabilization of the projectile in flight is carried out by rotation provided by nozzles inclined to the longitudinal axis of the projectile.

The disadvantages of such a projectile are the excessive action of a high-explosive warhead in the immediate vicinity of the point of impact of the projectile, as well as the irrational use of mass and energy of the warhead due to the absence of warheads.

The technical task of this utility model is to increase the area of destruction by using disc-shaped warheads and ensuring their flight along the surface of the earth with the possibility of subsequent rebounding.

The technical problem is solved in the proposed utility model by the fact that the turbojet shell contains a rocket engine, a warhead and a braking engine. The warhead consists of sleeves adjacent to the outer surface of the rocket engine and an opening device located in the bow along the axis of the projectile and fastened to the braking engine. The sleeves are hollow cylindrical segments in which disk-shaped combat elements are placed, a knockout charge located at the end face from the nozzle block side, attached using the ear-plug connection to the rocket engine nozzle block and connected to the other end face, closed by a plug and a fixed stopper, by means of steel tapes with a belt mounted on a rocket engine.

The invention is illustrated by drawings, where in Fig.1. depicts a General view, figure 2 is a projectile with open arms before the engine is activated, figure 3 is a projectile after the engine is activated in the process of throwing disc-shaped combat elements.

The turbojet projectile contains a rocket engine 1, to the nozzle block 2 of which one end is attached using the ear-plug connection sleeves 3, fixed in the initial position by the stoppers 4, and forming the outer surface of the projectile. Inside the sleeves 3 there are knockout charges 5 installed at the end attached to the nozzle block 2, and disk-shaped combat elements 6. From the other end of the sleeve 3 are closed with plugs 7 and connected to the belt 8 mounted on the rocket engine 1 through steel bands 9. In the nose of the projectile braking engine 10 and opening device 11 are located.

The operation of the described device is as follows.

After the projectile is launched, when the time point previously set on the tamper 11 is reached, a command is issued to actuate the stoppers 4, which release the sleeves 3. Under the influence of the centrifugal force provided by the rotation of the turbojet, the sleeves 3 are rejected. This process is inhibited by steel bands 9, which, being connected to the belt 8 descending along the rocket engine 1, provide synchronization and braking of the deflection of the arms 3 and limit the angle of this deflection. The opening of the sleeves 3 leads to a sharp increase in the drag of the projectile. The result is a curvature, and then verticalization of the trajectory. The tamper 11 determines the distance to the surface of the earth and the rate of fall. When the calculated height is reached, the braking engine 10 is turned on. When the fall speed is reset to zero, a signal is generated to ignite the outburst charges 5 at the base of the sleeves 3. The plugs 7 are knocked out and the disk-shaped combat elements 6 are pushed out of the sleeves 3.

Thus, the proposed device turbojet projectile provides an increase in the area of destruction due to the use of disk-shaped warheads and ensuring their flight along the surface of the earth with the possibility of subsequent rebounding.

Claims (1)

A turbojet projectile containing a rocket engine, a warhead, characterized in that it additionally introduces a braking engine, an opening device attached to it, located in the bow along the axis of the projectile, while the warhead consists of sleeves adjacent to the outer surface of the rocket engine, representing a hollow cylindrical segments in which disc-shaped warheads are placed, a knockout charge located at the end face from the nozzle block side, attached using the ear-plug connection to pilaf block of the rocket engine and connected by another end face, closed with a plug and fixed stopper, by means of steel tapes with a belt mounted on the rocket engine.