DE2522927C2 - SYSTEM FOR REPLACEMENT, DISTRACTION AND DESTRUCTION OF ARMS - Google Patents

Description

The invention relates to a system according to the preamble of claim 1. Such a system is that AN / ALE - 39 Goodyear Aerospace Corporation's ECM system featured in Interavia magazine <of February 14, 1975 on p. 7 is described. This id The system is intended for installation in aircraft and consists of a warning receiver for detection approaching guided missiles and a device for ejecting 3 types of disruptive bodies, namely passive electromagnetic baffles (chaff), pyrotechnic baffles and small active ones electromagnetic interference bodies (transmitters). The warning receiver can distinguish whether the approaching The guided missile has a radar and / or infrared seeker head, and the 3 types of disruptive bodies can be ejected individually or together automatically or manually.

A detailed description of the known systems can be found in the magazine »Aviation Weck & Space Technologie "from January 27, 1975 on pp. 88 to 92, 95 and 97 to 99, and 107, and 126, 127.

In the magazine "Wehr und Wirtschaft", Issue 3, 1975, p. 95, remote-controlled microplanes are for Disruption of enemy air defense mentioned.

The known systems mainly serve to confuse the approaching guided missile. With pulsed Infrared signals and infrared flasher control signals are generated in the infrared seeker head, which make the further pursuit of the target difficult or impossible. When the radar seeker passes through broadband interference has a similar effect. The attacking guided missile is caused by the storage measure generally does not detract from the goal for good so that there is a possibility that they might do this flies again after the measures have been stopped. In addition, none of the known disruptive bodies the guided missile exploded.

It is the object of the invention to provide a system of the above specified type, with which guided missiles approaching a target can be reliably deflected from the target and can then be destroyed.

The object is achieved by the means specified in the claim.

Since the disruptive body has a drive, it is also supported by so-called intelligent infrared seekers, the useful targets of interfering targets without a drive through relative speed measurements can distinguish, "not detectable.

The invention will now be explained in more detail with reference to the drawing, for example, which shows a mechanical / electrical block diagram of the system shows.

The ficur shows in the block diagram the parts of the new system, which are in an airplane, on a Ship or in a ground device. For the description it is assumed that the system is on an airplane. With the antenna 10 of a recognition device 11, the Searched the area around the object to be protected for attacking guided missiles. Will be a guided missile detected, the detection device continuously determines their direction, distance and speed and forwards this data to an evaluation device 12.

Information about the thermal image is continuously sent to the output device 12 from a transmitter 13, the flight path and speed of the aircraft.

In the aircraft there is at least one steerable disruptive body 2, which has its own controllable drive, a device for simulating the thermal image of the object according to wavelength, intensity and Beam angle and active or passive means of triggering radar and other proximity detonators Has. In addition, the disruptive body 2 has a programming device 14 for recording the trajectory and thermal imaging program. The programming device 14 is via an electrical connection with the predetermined breaking point, which is indicated by a plug connection, connected to the evaluation device 12.

An ejection device 3 belongs to the disruptive body, which when there is a signal from the evaluation electronics 12 ejects the disruptive body from the aircraft.

In the evaluation device 12, the data from the recognition device 11 and the data setting values for the programming device 14 are continuously calculated by the encoder 13 and transmitted to the latter. In addition, the evaluation device determines the most favorable point in time for the ejection of the disruptive body. In addition to the data from the aircraft and guided missile, the possible trajectories of the Disruptive body taken into account.

The programming of the disruptive body is done in such a way that after ejection the infrared seeker head Missile a very similar to the aircraft heat

image is simulated that the relative speed between the missile and disruptive body on the one hand and the missile and aircraft on the other slowly differ and that the angle between the aircraft, guided missile and disruptive body over time becomes larger, so that on the one hand the distance between the missile and the aircraft is steadily increasing and the other on the other hand, the distance between the missile and the disruptive body becomes steadily smaller, until finally the missile reaches the disruptive body and this ignites them.

The mode of operation of the system will now be explained for 2 possible cases.

1st case:

The guided missile attacks the aircraft from behind. The infrared seeker head sees a thermal image of the Aircraft that is exclusively determined by the trusses and hot exhaust jets. Here there are essentially 2 possibilities for the disruptive body, namely the disruptive body is either on the same Thermal image as programmed by the aircraft, so that the aircraft and the disruptive body differ from one another Take flight paths or the thermal image of the disruptive body is programmed as desired. Its trajectory However, it is set so that he sits between the aircraft and the missile and the The distance to the aircraft steadily increased. In the borderline case, the disruptive body flies towards the missile.

2nd case:

The guided missile attacks the aircraft from the side or from above or below. In doing so, the aircraft offers the infrared seeker head a changing one Thermal image that is in the initial phase of the surface

ίο and the exhaust gas jet and later increasingly from Engine and the exhaust gas jet is determined. The disruptive body must therefore simulate a thermal image that is determined by the currently existing approach angle of the missile and depends essentially on it in which direction the disruptive body should undertake its flight maneuver. There are, among others, the following Options:

The disruptive body settles between the aircraft and the missile or the disruptive body shows up very quickly

so more intense thermal image than the aircraft and controls a course that leads to an increasing angle between aircraft, guided missile and disruptive body (in the case of a Minimum correction of the trajectory of the guided missile, which actually fly a so-called dog curve

* 5 should).

For this 1 plate drawings

Claims (1)

Claim: System for the deception of autonomous guided missiles, consisting of one in the one to be protected Object-located detection device to determine an approaching missile that has an infrared and / or radar seeker head and a proximity fuse, and from one device for ejecting a disruptive body, characterized in that for Distraction and destruction of the missile detection device (11) speed, direction and detects removal of the missile and emits corresponding signals that the disruptive body (2) has a programmable drive, can emit a programmable thermal image and so on is designed that it triggers the proximity fuse of the missile that the signals of the detection device (11) together with the thermal image of the object in the direction of the approaching guided missile and the flight data of the object (encoder 13) in an evaluation device (121 continuously to control variables for the programming device (14) of the disruptive body (2) are processed and transmitted to this and that the evaluation device (12) determines the most favorable time of ejection, with the disruptive body during ejection like this is programmed that the trajectories and / or the speeds and the thermal images of The disruptive body and object are continuously different, with the missile being the disruptive body and is ignited when it is reached by this. 35