RU2310809C2 - Missile - Google Patents

Abstract

FIELD: rocketry, applicable in small-sized missile systems.

SUBSTANCE: the missile has an engine with a solid-propellant charge, barrel assembly with a propellant charge positioned in the longitudinal axis in which the separated projectile is installed. The barrel assembly is positioned in the engine and supported as a cantilever on its front cover, and its rear part is installed for longitudinal motion in the radial fixed members rigidly coupled to the engine inner surface. The engine charge is made telescopic consisting of a central outside-burning grain and an outside inner-burning grain. Its central grain is installed on the external surface of the barrel assembly, and the outside grain is fastened on the inner surface of the engine body.

EFFECT: reduced overall dimensions of the missile in length at a reduced passive weight of the missile, enhanced stiffness of the missile and reduced disturbance at projectile separation.

1 dwg

Description

The invention relates to the field of rocket technology and can be used in small-sized missile systems.

Known rocket [patent RU No. 2108537, IPC ⁶ F42B 12/06, 15/00], the design of which is the closest technical solution to the proposed invention and adopted by the authors as a prototype. It contains an engine with a charge of solid fuel, a receiver mounted in the head part, in which a propellant charge and a detachable shell are located. The engine contains a longitudinal axial strut made in the form of a pipe. The device provides various options for performing a charge of solid fuel:

- a charge of solid fuel with a central channel for placement in it with a clearance of the axial strut;

- a charge of solid fuel with a central channel for placement in it with a tight fit axial strut and with longitudinal cylindrical channels located along the median circumference of the charge;

- various types of sectional charges.

The device provides separation on the trajectory of the projectile.

The disadvantages of the device are as follows:

- when the charge is burning, especially the end one, heating of the rack walls can occur, which will lead to a decrease in its strength, which requires the introduction of additional thermal protection, and therefore, an increase in the passive mass;

- when separating the projectile, the engine casing experiences compressive loads, which can lead to a loss of stability, deformation at the time of separation and the projectile's lateral disturbances;

- the placement of a detachable shell in the head of the rocket increases its dimensions along the length and reduces the rigidity of the shell;

- all the presented charge variants, due to the chosen shape, have a large mass of degressively burning residues at the end of combustion, which leads to disturbance on the trajectory and a decrease in engine efficiency.

The objective of the invention is to reduce the dimensions of the rocket in length while reducing the passive weight of the rocket, increasing its rigidity, reducing disturbances in the separation of the projectile.

The technical solution consists in the fact that in a rocket containing an engine with a charge of solid fuel, a missile launcher placed along the longitudinal axis, in which a detachable shell is installed, the receiver is placed in the engine and cantilevered to its front cover, and its rear part installed with the possibility of longitudinal movement in radial struts, rigidly connected with the inner surface of the engine, and the engine charge is made telescopic, consisting of a central block of the outer Oren checkers internal and external combustion, while its central block is mounted on the outer surface of the receiver installation, and the outer block is fixed to the inner surface of the motor housing.

The burning of the central piece of the telescopic charge on the outer surface is usually ensured by applying a reservation on the inner surface of the piece, thereby eliminating the possibility of a flame appearing in this area. In this case, the central checker by means of an adhesive composition is installed on its inner surface on the outer side surface of the receiver, while coating the charge with the armor provides additional thermal protection of the outer surface of the receiver from combustion products, which eliminates the need for special thermal protection. The external checker is similarly attached to the internal surface of the engine, which also eliminates the application of special thermal protection to the engine wall, which significantly reduces passive weight. In addition, such a charge mount eliminates the use of constructive charge mounts in the combustion chamber (grids, stops, diaphragms), which further reduces the passive mass of the engine and the rocket as a whole.

The radial shape of the internal struts connecting the barrel mount with the inner surface of the engine’s combustion chamber gives additional rigidity to the structure, while the engine is actually located on the stern of the detachable shell, which further increases the rigidity of the structure. In addition, the placement of the detachable projectile in the receiver, which, in turn, is located inside the engine along its longitudinal axis, can reduce the dimensions of the rocket in length, which also increases the rigidity of the rocket.

The essence of the invention is illustrated by graphic material, where the drawing shows a rocket. The rocket contains an engine 1 with a charge of solid fuel 2, a receiver 3, in which a detachable projectile 4 is located, and a propellant charge 5, a front cover of the engine 6 and radial struts 7 associated with the receiver and the inner surface of the engine.

A detachable projectile 4 is mounted in a barrel mount 3 located on the longitudinal axis of the engine 1. The barrel mount 3 is cantilevered on the front of the engine cover 6, and the rear is connected via radial struts 7 to the inner surface of the engine. The charge of solid fuel 2 has a telescopic shape, with the central block using the adhesive composition installed on its inner surface on the outer surface of the receiver, and the outer block on the inner surface of the engine block.

The device operates as follows.

In flight, the combustion of the checkers is carried out by the gap between them, thereby the heat-shielding functions are performed by the charge 2 itself, which protects the inner wall of the combustion chamber of the engine and the outer wall of the barrel installation from heating. The central checker increases the resistance of the barrel mount 3 to the external pressure acting on it, especially in the initial section. Installing the rear of the barrel mount 3 in radial racks increases its strength to external pressure, in addition, the barrel mount unloads the engine 1 from the action of lateral loads arising in flight.

After fuel is burned, a propellant charge 5 is ignited, which acts on the rear end of the detachable projectile 4 and through the radial struts 7 on the rear end of the engine 1, which causes tensile forces in its body and reduces disturbances during separation.

Thus, the proposed technical solution makes it possible to reduce the dimensions of the rocket along the length while reducing the passive weight of the rocket, increasing its rigidity, and reducing disturbances in the separation of the projectile.

Claims (1)

A rocket containing an engine with a charge of solid fuel, a missile launcher placed along the longitudinal axis, in which a detachable projectile is installed, characterized in that the receiver is placed in the engine and cantilevered on its front cover, and its rear part is mounted with the possibility of longitudinal displacements in radial struts, rigidly connected with the inner surface of the engine, while the engine charge is made telescopic, consisting of a central block of external combustion and an external joint ki internal combustion, its central block is mounted on the outer surface of the receiver installation, and the outer block is fixed to the inner surface of the motor housing.