RU2530461C1 - Air target - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: air target comprises airframe, nose cowl, parachute system with canopy made of radio wave reflecting material and midflight engine. Aerodynamic fins are secured at midflight engine perpendicularly across each other. Midflight engine and said fins are made of radio wave reflecting material.

EFFECT: unguided air target with high efficiency of scatter surface.

Description

The invention relates to means of simulating air targets, in particular to moving targets, and can be used to develop technical characteristics, control the technical conditions of anti-aircraft systems with radar guidance systems, as well as training calculations of the said systems when conducting combat training.

The target situation for firing anti-aircraft systems is created by using various types of air targets that reproduce the characteristics of modern air attack systems: trajectory, reflective in the radar range in various directions, etc.

Known adopted for the prototype air target (RF patent No. 2187064, IPC F41J 9/00, F41J 2/00, 08/10/2002), containing a Central body, mounted on it mounting plate and head fairing attached to the mounting plate in front, target equipped with a cylinder with a bottom parachute system and a figured compartment located in the central body, while a combustible composition is pressed into the cylinder with a bottom, and the figured compartment is fixed at the bottom of the cylinder between the last and the parachute system, and the figured compartment is heat-resistant with a figured side surface and the central hole in which the parachute system is located, fixed in the center of the bottom of the cylinder.

This invention relates to the device of targets designed to work with radar and thermal weapons systems.

The parachute system provides a slow reduction of the cylinder with a combustible composition.

An air target is delivered to a height by a carrier aircraft or a solid-fuel engine, for which, after removing the removable cover, a mid-flight engine is installed, which is detached after the target is delivered to a predetermined height.

After the target is delivered to a predetermined height after the time set by the temporary mechanism, the main canopy of the parachute system is activated. A cylinder with a burning composition is reduced by parachute to the ground.

The figured compartment is made with the formation of a figured side surface, which provides an increase in its surface. The invention improves the reflectivity of the target when it is irradiated with radar stations.

This design provides an imitation of a moving target having an effective scattering surface, light and thermal radiation.

However, this target has a low radio detectability.

Also, the scattering diagram in the plane perpendicular to the longitudinal axis of the target has structurally caused dips, which is not always sufficient for radio visibility from all directions.

Known adopted for the prototype air target (see patent FR No. 2867616, F42B 12/42, G02B 17/00, September 16, 2005), comprising a housing, a head fairing, a mid-flight engine, a parachute system, the dome of which is made of radio-reflecting material.

The implementation of the dome of the parachute system of radio-reflective material allows you to increase the reflectivity of the target when it is irradiated with radar stations.

However, this target requires a sufficiently large size to provide the necessary radio visibility.

The present invention solves the problem of expanding the technical capabilities of the target and reduce the cost.

The technical result obtained by carrying out the invention is to develop the design of an inexpensive uncontrolled aerial target, which, with small dimensions, has a high effective scattering surface.

The specified technical result is achieved in that in an air target containing a body, a head fairing, a mid-flight engine, a parachute system, the dome of which is made of radio-reflecting material, it is new that the target is equipped with an in-line marching engine, which are mounted crosswise perpendicularly aerodynamic stabilizers to each other, while the main engine and aerodynamic stabilizers are made radio-reflective.

The supply of the target with the marching engine inseparable from the parachute during descent, on which aerodynamic stabilizers are mounted crosswise perpendicular to each other, the performance of the marching engine and aerodynamic stabilizers with radio reflectors can significantly increase the effective dispersion surface of the device, especially in the lower hemisphere, reduce the starting weight, dimensions and, accordingly, the cost of the target .

Technical solutions with features distinguishing the claimed solution from the prototype are not known and do not follow explicitly from the prior art. This suggests that the proposed solution is new and has an inventive step.

The location of the starting positions of anti-aircraft systems and the launcher of the target is determined by the combat training or research task.

The flight path of the target is determined by setting elevation angles and course.

As soon as all units are ready, the firing director sets a fire mission and gives a command to launch the target.

The target under the action of the main engine thrust flies to a predetermined height, where after the time delay set by the device exceeds the engine operating time, the parachute system opens.

The canopy of the parachute system, made of radio-reflecting material, is filled and takes the form of a reflector having high radar signature in the direction to the lower hemisphere. The radio-reflecting marching engine with a crosswise perpendicular to each other fixed aerodynamic stabilizers is reduced by parachute to the ground. The total effective dispersion surface of the listed components of the device is sufficient to detect and track anti-aircraft systems with radar guidance systems at very significant ranges.

During the descent, the target can be fired by anti-aircraft complexes.

Claims (1)

An air target comprising a body, a head fairing, a marching engine, a parachute system, the dome of which is made of radio-reflecting material, characterized in that it is equipped with a marching engine, which are inseparable from the parachute during descent, on which aerodynamic stabilizers are mounted crosswise perpendicular to each other, while the marching the engine and aerodynamic stabilizers are made radio-reflective.