DE2527206C2 - Facility for distributing military defensive elements - Google Patents

Description

The invention relates to a device for quickly distributing a possibly very large number of military defensive elements held ready in the device, preferably chaff, in a given spatial area near the current location of the defensive elements, possibly on a vehicle.
Chaff are known to be dipoles tuned to the radar frequency, which form a chaff cloud distributed in large numbers in the air and absorb or reflect incident radar waves, making them suitable for military object protection in electronic warfare. As defensive elements, which can be distributed in a given spatial area by means of the device according to the invention, other known arrangements for interfering with the enemy direction finding and locating devices of radio, infrared or laser technology come into consideration, for example infrared decoy targets ( Infrared burners or torches). Luminous bodies, laser beam reflectors and small radio interference transmitters on parachutes.

In naval warfare technology, it is very effective to defend against the threat to one's own ships and boats from self-seeking missiles using a radar method to continuously eject chaff from the threatened vehicle during the immediate threat period, which then in the direction of the relative wind a coherent chaff plume (chaff cloud) of a few hundred Meters in length. This shifts the radar center of gravity of the threatened ship or boat in the direction of the radar center of gravity of the chaff, as far as it is in the detection range of the opposing missile, which has the consequence that a hit by the ship or boat is prevented with a high degree of probability. This defense measure is mainly taken by ships or boats without special missile defense weapons.
The chaff is ejected, for example, at the end of a pipeline that is located at the highest possible point on the ship's superstructure, for example at the top of the main mast; the chaffs are driven through this pipe by means of a continuous stream of air to the end of the pipe, where they emerge into the environment at a certain angle. With this discharge method, it is important to place the end of the pipe (discharge opening) over the turbulence zone caused by the ship's superstructure.
To accelerate the chaff distribution opposite

It is still the case with the known method described above known to transport the chaff with the help of short-range missiles in the given spatial area and there by detonating an explosive device

to distribute (see. DE-OS 22 44 826).

The invention is based on the object of a device Specify the type mentioned in the preamble of claim 1, which is as uniform as possible Distribution of the individual defensive elements in the given spatial area guaranteed.

The solution to this problem according to the invention is given in the characterizing part of claim 1. the Subclaims contain advantageous designs and developments of the invention.

While there war march frequently arises the need to keep under poor weathering and sea conditions, the device of the invention for use, under circumstances over many hours or days without interruption of time. Rain and splash water must not penetrate the facility, in particular as far as the defensive elements. It is therefore advisable to close the tubes with a membrane-shaped cover when using deep gas-operated gun tubes, which can withstand the pressure of the propellant gas and which can be detached when the shot is released. The detonation device for this purpose is expediently designed as a ring charge which can be ignited electrically.

An embodiment of the invention is characterized in that the package sleeve as a result of the choice of material and / or is gas-permeable due to the small openings provided in it in such a way that, on the one hand, the pressurized gas can be introduced from outside the package by placing the package at least in places with an external Pressurized gas atmosphere is exposed at least until the desired internal pressure in the intermediate and possibly cavities is achieved, and on the other hand the pressure drop during the time interval between termination the introduction of the compressed gas and reaching the specified spatial distribution area by the package does not exceed a specified size.

In an alternative embodiment of the invention to the last mentioned, the envelope of the package is made of Defensive elements are largely pressure-tight and at least one check valve is arranged in them, that allows the introduction of pressurized gas, but its escape after completion of the gas introduction in prevents the package and the envelope from opening.

The compressed gas that is in the intermediate and possibly in the cavities within the package of defensive elements is initiated, according to an alternative feature of the invention, at least one packet-internal Pressurized gas source can be taken. As such, a pyrotechnic element is preferably found in the respective package usage; this element is preferably used during transport, for example At the beginning of the transport, the defensive elements detonated to the spatial distribution area, whereby a Forms packet-internal pressure wave and brings about the desired introduction of pressurized gas.

The pressure level of the stored compressed gas in the individual packages of defensive elements is at of the invention selected in accordance with the desired size of the spacing force with which the Defensive elements and their bundles are acted upon in the distribution area.

In order to generate a large-scale cloud of defensive elements in the distribution area, a decomposition is necessary several packages of defensive elements at different Locations of the district expedient. The controlled Time and cock-dependent disassembly in one embodiment of the invention in; more known per se Way achieved by unrolling tapes or cords with which the packet sleeves are wrapped This unrolling happens automatically. The lengths of the ribbons or cords are different according to Provision of different distances of the desired Disassembly locations of the individual packages selected by the storage location of the same.

In another embodiment of the invention, the different packets are broken down below

ίο Use of pyrotechnic delay sets known per se in the packages with different delay times adapted to the duration of the flight, in such a way that the respective package envelope is destroyed at the desired dismantling location by the pressure wave of the igniting pyrotechnic body, the compressed gas stored in the respective package additionally driving the desired apart Exerts force on the defensive elements.
A particularly advantageous package of defensive elements has two pot-shaped or disc-shaped end elements of its shell; these end elements are connected to one another via a tensile force-absorbing organ, which can be destroyed in the desired dismantling location, for example with the aid of a pyrotechnic charge, and when it is destroyed opens the shell, whereupon the defensive elements are automatically distributed.

A launcher tube for receiving several packages of Denfensiv elements is in a further embodiment designed as a rectangular tube and its use is then carried out in such a way that the longitudinal axes of the Chaff packages are perpendicular to the pipe's longitudinal axis and are ejected in this position, so that the aforementioned Possibility of dismantling the packages depending on the time and flight path by unrolling tapes or Lacing can be implemented particularly cheaply.

1 and 2 are the following exemplary embodiments the invention explained in more detail.

With 1 two chaff packages are referred to in Fig. 1, which are coincident with each other in their outer shape circular cylindrical.

They are located at the front end of a launcher tube 2, the empty space 3 of which can be used as a propellant gas container and for this purpose can be filled with, for example, compressed air via a compressed gas supply line 7 and a valve 8. With this filling, the intermediate spaces and possibly cavities in the chaff packs are filled, provided that their shells are so gas-permeable due to the choice of material and / or due to the small openings provided in them or if there are inlet valves, preferably check valves, in the shells until the pressurized gas in the intermediate and possibly cavities is stored. So that the compressed gas cannot escape from the launcher tube, the front end is closed with a membrane 4, which can be blown away from the launcher tube by means of an explosive charge, preferably designed as a ring charge 5, when the chaff packages are ejected from the launcher tube 2. Mil 6 is called an annular seal.
As soon as the chaff packages 1 leave the launcher tube 2, the valve head at the end of the valve tappet 9 is no longer pressed into the open position of the valve 8 shown, but rather by the pressure gas flowing through it against the valve seat of the valve 8, so that the valve 8 is automatically activated when it is ejected the chaff package 1

<v5 closes and the further supply of pressurized gas into the Throwing tube prevented. In this way, the maximum ejection pressure in the throwing ear can be maintained up to the moment of ejection and a useless additional feed

ren of pressurized gas can be automatically prevented after the chaff packages have been ejected.

F i g. FIG. 2 shows a particularly advantageous embodiment of a package of defensive elements that are shown in FIG An example is the chaff 11, with its envelope and other individual construction parts.

The shell of the package according to FIG. 2 consists of one upper closure top 2 and a lower closure pot 3, which are joined together in the area of a parting line 4 and sealed there. Mil 5 is a back in Check valve referred to, can be introduced through the compressed gas in the package to the compressed gas in the intermediate and to save cavities between the dowels if necessary.

The package according to FIG. 2 is, for example, the same ejected from a launcher tube, as shown in the Fig.! is described. When ejecting, over two electrodes 7 and an internal line 8 an ignition current through a pyrotechnic ignition element with delay 6 sent, whose delay time is equal to the flight time of the package to the launcher tube to the desired Place in the distribution area of the chaff is selected where the package is to be automatically dismantled. To When this delay time expires, this element 6 destroys the cohesion of the closure pots 2 and 3, whereupon the dismantling of the chaff package begins automatically and the stored compressed gas causes the Distribution of the chaff in the distribution area is supported.

In addition, the air resistance acts on the airborne, opening package in such a way that it inflates.

The line 8 is not only used for the electrical ignition current supply, but at the same time as a tie rod for the mechanical cohesion of the two closure pots 2 and 3 before dismantling the package. With 9 cavities for compressed gas storage are designated while 10 is a double cylinder which is in communication with hollow piston-shaped projections on the bottoms of the closure pots.

Instead of a launcher tube operated with propellant gas or pyrotechnically when ejected, according to the invention trained packages of defensive elements also in connection with other institutions are used that are suitable for transporting or starting the packages in their distribution area, for example in Connection with small launch vehicles or with pipes, for example at the rear of an aircraft open out and through which the packets are simply pushed outwards without using a propellant.

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For this purpose 2 sheets of drawings

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Claims (10)

Patent claims: ! Facility for the quick distribution of a possibly very large number of items kept ready in the facility military defensive elements. for example chaff, in a given spatial area close to the current location of the defensive elements, characterized in, that the defensive elements (11) before their distribution in at least one so designed, by a cover (2,3) closed package (1) are summarized that in itself when packing of the defensive elements of self-resulting gaps between the individual defensive elements and / or in additionally provided artificial cavities (9) between the defensive elements Pressurized gas can be stored, which after dismantling the shell on the defensive elements bundle in the sense of a wide and even distribution of the individual elements of the Bundle exerts a dispersing force 2. Device according to claim 1, characterized by a package-internal compressed gas source. 3. Device according to claim 1, characterized in that the package envelope as a result of the choice of material and / or due to the small openings provided in it is gas-permeable in such a way that on the one hand the Pressurized gas can be introduced from outside the package in that the package is at least in places exposed to an external pressurized gas atmosphere at least until the desired internal pressure in the intermediate and possibly cavities is achieved, and on the other hand the pressure drop during the time interval between completion of the introduction of the compressed gas and reaching the specified spatial Distribution area through the package does not exceed a specified size. 4. Device according to claim 1, characterized in that that in the package cover at least one inlet valve, preferably designed as a check valve is provided for the compressed gas stored in the intermediate and possibly cavities. 5. Device according to claim 3 or 4, characterized in that the package in a launcher tube is kept ready, the contents of which can be expelled by means of a propellant gas, and that during the standby time the propellant gas is introduced into the spaces between the packages as compressed gas. 6. Device according to claim 5, characterized in that the launcher tube at its front End is closed with a closure element, preferably a detachable membrane. 7. Device according to one of claims 1 to 6, characterized in that for generating a large-scale cloud of defensive elements, for example a chaff cloud, a breakdown of the parcels in different places guaranteed is. that a time and trajectory-dependent decomposition in a known manner by rolling is achieved by tapes or cords with which the package envelopes are wrapped and which automatically roll off during the flight, their length being selected according to the flight distance. 8. Device according to claim 7, characterized in that that the launcher tube is designed as a rectangular tube and the longitudinal axis of the Düppclpakets in Pipe is perpendicular to the pipe's longitudinal axis. 9. Device according to one of claims 1 to 8, characterized in that the packages are pyrotechnic Contain delay sentences that initiate the packet laying as soon as the respective packet has reached the desired Has reached the place of its dismantling. 10. Device according to one of claims 1 to 9, characterized in that the package of defensive elements has two opposing pot-shaped or disc-shaped end elements of its shell, which have a tensile force-absorbing Organ are connected to each other, which can be automatically interrupted at the dismantling site.