RU2303234C1 - Radio-controlled missile - Google Patents

Abstract

FIELD: armament.

SUBSTANCE: the radio-controlled missile has a sustainer stage detachable zero-stage engine with a fairing an the front end face, antenna device provided with a zero-stage branch in the form of antennas located in the fairing and coupled to the equipment by wave-guides passing through a base in the form of a tube firmly coupled to the engine and installed on the body of the sustainer stage. The zero-stage branch is made detachable in the rolling plane of the waveguides. The parts of the waveguides located inside and outside the body of the sustainer stage are provided with flanges located opposite the ports made in the, body of the sustainer stage. The outer parts of the zero-stage branch are installed on the base and compressed to the flanges of the inner parts of the waveguides through and insert, cavities are made in the front part of the fairing, in which covers of radio wave reflection material are installed, they are movably fastened on the outer surface of the sustainer stage and made with a provision of overlapping of the ports in the sustainer stage when, the covers are in the closed position.

EFFECT: reduced distances arising at a separation of the missile enhanced noise immunity of the missile.

2 cl, 2 dwg

Description

The present invention relates to the field of weapons and can be used in small-sized radio-controlled missile systems.

Known radio-controlled rocket, selected as a prototype, containing a detachable starting engine with a fairing at the front end, which houses the antennas of the starting branch of the antenna device, a marching branch with an antenna located at the rear end of the rocket, antennas are connected to the equipment by waveguides, there is a marching stage on the main body the base in the form of a pipe, through the conical openings of which the waveguides of the starting branch are passed (patent of the Russian Federation No. 225297, IPC F42B 15/10).

The disadvantages of such a device are:

- separation of the parts of the starting branch located outside the marching stage occurs by cutting the protruding waveguides in the transverse plane. This leads to an increase in the separation force, and, therefore, increases the separation time, which at supersonic speeds leads to the appearance of additional perturbations;

- after the engine is separated, the open ends of the waveguides continue to radiate energy, having a wide radiation pattern, which reduces the noise immunity of the rocket, in addition, through the open cavities of the waveguides, an incoming air stream acts on the equipment, which increases the likelihood of damage to it in flight;

- one-piece execution of waveguides of the starting branch is a technological difficulty in terms of their output from the main stage body.

The objective of the present invention is to reduce disturbances that occur during separation, increase the noise immunity of the rocket, simplify the technology of outputting waveguides of the starting branch from the main stage body.

The solution to this problem lies in the fact that in a known radio-controlled rocket containing a marching stage, a detachable starting engine with a fairing at the front end, an antenna device equipped with a starting branch in the form of antennas located in the fairing and connected to the equipment by waveguides passing through the mounted on the body marching stage, the base in the form of a pipe, rigidly connected with the engine, the starting branch is made detachable along the transverse plane of the waveguides, while the parts of the waveguides inside and outside the march stage housing, equipped with flanges located opposite the windows made in the march stage housing, the outer parts of the starting branch are mounted on the base and pressed to the flanges of the internal parts of the waveguides through the insert, cavities are made in the front part of the fairing, in which the covers are made of radio-reflecting material movably fixed on the outer surface of the march stage and made to ensure that the windows of the march stage are overlapped when the covers are closed. Preloading the outer parts of the starting branch to the flanges of the inner parts of the waveguides through the insert is made using screws that interact with the base.

The invention is illustrated in graphic materials, in which Fig. 1 shows the construction of a radio-controlled rocket before engine separation, and Fig. 2 - after engine separation.

The device and principle of operation of a radio-controlled rocket is as follows:

The radio-controlled rocket consists of a detachable engine 1, marching stage 2, the aft part of the marching stage is provided with a cylindrical base 3, which is rigidly connected to the engine, the front end of the engine is protected by a cowl 4 mounted on the base, the outer parts of the starting branch of the antenna device, consisting of waveguides 5 and antennas 6. Inside the march stage housing there is a marching branch 7 and the inside of the starting branch in the form of a waveguide splitter 8, one end of which is connected to the input the control equipment 9, and the rest are connected to the inner wall of the housing and equipped with flanges 10, to ensure manufacturability of the assembly, the width of the splitter along the flanges does not exceed the internal diameter of the housing. The waveguides of the external parts of the starting branch are provided with flanges 11 and are drawn to the flanges of the internal parts of the waveguides through the inserts 12 mainly with screws 13 interacting with the base. The inserts are installed in the windows 15 of the march stage housing. In the cavities 16 of the fairing mounted cover 14 of radio-reflective material, mounted on the outer surface of the sustainer stage.

At the launch site, the reception and transmission of radio commands is carried out through the transmission line of the launch branch, consisting of an internal part, an insert and external parts, while due to flange connections, losses in the transmission path are minimal.

After complete combustion of the fuel, the starting engine is separated from the sustainer stage together with the cylindrical base and the external parts of the starting branch and the cowl mounted on it. This ensures the shift of the outer parts of the starting branch along the surfaces of 17 inserts. Under the action of the oncoming flow, the covers are closed with their fit on the surfaces 17 and the channels of the transmitting path of the starting branch are blocked (Fig. 2). After engine separation, the reception and transmission of signals by the equipment is carried out along the transmission line of the marching branch.

Thus, the invention provides:

- reduction of disturbances arising during separation due to the shift of the outer parts of the starting branch of the antenna device;

- increasing the noise immunity of the rocket by closing the channels of the transmission paths after separation;

- simplification of the technology for outputting waveguides of the starting branch from the main stage body due to the detachable design of waveguides.

Claims (2)

1. A radio-controlled missile containing a marching stage, a detachable starting engine with a fairing at the front end, an antenna device equipped with a starting branch in the form of antennas located in the fairing and connected to the equipment by waveguides passing through a tube-shaped base rigidly connected to the marching stage with an engine, characterized in that the starting branch is made detachable along the transverse plane of the waveguides, while the parts of the waveguides inside and outside the march stage casing, filled with flanges located opposite the windows made in the march stage housing, the outer parts of the starting branch are mounted on the base and pressed to the flanges of the internal parts of the waveguides through the insert, cavities are made in the front part of the fairing, in which the covers are made of radio-reflecting material, movably fixed on the outer surface march stage and made with the provision of overlapping windows in the march stage with the covers closed. 2. The radio-controlled missile according to claim 1, characterized in that the outer parts of the starting branch are drawn to the flanges of the inner parts of the waveguides through the insert using screws that interact with the base.

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