DE4022329C1 - Twin hollow charge shell for use against actively armoured targets - has inflatable bag or layer arranged around shell to initiate early firing of main charge - Google Patents

Abstract

A projectile or shell is used against armoured targets which are equipped with active armour. The shell has a twin hollow charge loading (2, 5). The armour has a splinter generator (20) for use against conventional twin hollow charge shells. On impact of the shell with the target (19) the first charge (2) activates the splinter generator (20). The shell is surrounded by an inflatable layer or bag (15). On impact, the forward impact activates a gas generator (13) positioned inside the hollow charge, which inflates the bag (15). Splinters (21) impact against the bag (15) which has two electrically conducting layers. When a splinter (21) passes through the bag, the main charge (7) is triggered electronically. The hollow charge spike has time to form before the splinters disrupt it. ADVANTAGE - The shell can be used against active armoured targets of the splinter generating type where conventional twin hollow charge shells would not be successful.

Description

The invention relates to a missile for Combat targets with active armor after the preamble of claim 1.

Armored vehicles are increasingly using active armor equipped. Underneath is a sandwich arrangement one between two plates of inert material arranged explosive layer to understand the oblique to the main threat direction and before serves to protect against shaped charges. If the Hollow charge spike the explosive layer Detonation, namely flies in the general steel outer plate of the Sandwich arrangement obliquely towards the shaped charge spike, so that he can only penetrate the plate with one cut can, whereby his energy is so far consumed that he is no longer able to get the main armor penetrate. This classic active armor can however through so-called tandem shaped charges, i.e. H. one a Missile with pre-charge and main charge, be fought. Modern active armor is therefore  trained so that they also the main charge of a make such tandem cargo harmless that they is no longer able to fire an effective sting form. These include, in particular, target-side fragment genes rators, d. H. a splinter occupancy instead of the outer one Plate of the classic active patch described above tion is arranged on an explosive layer. If the before hollow charge detonated the explosive, the broken fragments fly from the armor with high Ge speed towards the main hollow charge, so that this when hitting the main hollow charge, for example Deflagration of their explosive charge no longer an effective sting can train.

In order to combat shaped charges, so-called masks are also used puts. This means lamella stores u. a. before the Main breading arranged light structures by the sensor of the missile and in a tandem shaped charge to a detonation of both shaped charges in such an ab stood by the main breading cause the breakdown the main charge is too low to close the main breading penetrate.

A tandem hollow charge is known from DE 36 05 580 C1, at the main hollow charge when touched by a scarf Contact is ignitable on the warhead mantle. With that a elaborate time delay circuit for the ignition of the main hollow charge is eliminated. DE 26 45 419 A1 describes a shaped charge ammunition, the one at the front end after the ammunition output to an ogival hood inflatable bellows.

The object of the invention is to provide a missile, with such active breading with high mask security can be fought against the splinters or other active parts  form that at high speed on the shaped charge flying towards the missile to render it ineffective. This is according to the invention with that in claim 1  marked missile reached. In the Advantageous embodiments of the Invention reproduced.

In the missile according to the invention, a the bellows of the missile arranged by a bellows Inflator inflated when the missile is on the Target hits. This bellows that is inflated State surrounding the main hollow charge has two electrically insulated from each other Layers or layers. If the active armor is triggered by the impact of the missile, that is for example with active armor Splitter generators on the Warhead flying metal splinters the bellows penetrate and thereby the two electrically conductive It is necessary to connect layers of the bellows with each other an electrical contact through which the immediate Ignition of the explosive charge of the main hollow charge is initiated, i.e. the shaped charge spike is formed.

The splinter flies after penetrating the bellows naturally continue towards the shaped charge. For training of the shaped charge spike the shaped charge or Main hollow charge, therefore, a period of time is given resulting from the flying speed of the splinters in Direction of shaped charge, the angle of the flight direction of the Splinter to the longitudinal axis of the missile and the distance the inflated bellows from the shaped charge, the so-called Trigger distance, results. At a  Splinter speed of approx. 1300 m / sec this distance, for example, about 80 mm.

According to the invention, a gas generator can be used as the gas generator are used, such as for the inflatable protective pillow (airbag) one Impact protection system for motor vehicle passengers known is. The time to inflate the bellows is different from that Performance, especially the size of the gas generator, the Volume of the inflated bellows and the distance between the Hollow charge of the missile from the target when the Gas generator dependent. That is, it is in itself desirable to choose this distance as large as possible, because the gas generator can be made smaller can.

As impact sensors for igniting the gas generator therefore, electronic sensors per se are particularly suitable, because with them the distance from the target at which the Gas generator is ignited, practically any size can be chosen. Step on electronic sensors but problems when the armor one Has mask. To be able to recognize masks, a electronic sensor namely relatively expensive be constructed.

This disadvantage occurs with service contacts or -switches for igniting the gas generator do not open. When Impact contact can be the one at the top Tandem shaped charge serve the intended contact. If a mono shaped charge is used to fight the target , it must be at a distance at least that of the Main hollow charge corresponds to a tandem hollow charge,  be placed behind the impact contact.

If this distance is insufficient, it is preferred the one attached to the front tip of the missile Impact contact to the front, i.e. in the direction of flight extendable, for example by a mechanical device with a spring or pneumatic. This impact contact can already follow Launched missile launch. Of the Impact contact is preferably designed so that it only responds when he is on the hard main armor hits, but not when hitting one before Main armor attached mask.

The extendable impact contact can also be used Ignition of the pre-charge and main charge used if there is an appropriate facility is interposed by which the Pre-charge and main charge with the corresponding Time delay to be fired.

When the missile is launched, the bellows lies close to Mantle of the missile. This can e.g. B. thereby achieved that the bellows is elastic and shrink-wrapped on the coat, or by that the bellows folded on the mantle of the missile is attached. This is the overall height, that is Outer diameter of the missile practically unchanged, so that existing systems with the invention Missiles can be easily retrofitted.

However, the bellows may still be fired after the missile has been fired  not to be inflated because, apart from aerodynamic problems, through a mask in front of the Armor would be destroyed. That is, as above mentioned, must be by appropriate distance sensors be sure that with such a mask the Bellows is not inflated until after the mask happened.

So only active parts of the active armor in Penetrating the bellows, the explosive charge of the shaped charge initiate, d. H. a contact between the two cause electrically conductive layers of the bellows, a device is provided that only after the bellows activated by inflation, i.e. enabled Initiate explosive charge of the shaped charge.

The device for activating the bellows after Inflation can be a contact spring or one Device that causes the bellows to activate first when the gas generator has been ignited.

The electrically conductive layers of the bellows can through an electrically conductive plastic film and / or an electrically conductive lacquer can be formed which the on the outside of an electrical not conductive plastic film is applied.

The missile according to the invention can be a missile or be without a twist.

Below is an embodiment of the Missile according to the invention with reference to the drawing explained. Each shows schematically:  

Fig. 1 shows a longitudinal section through the front part of the missile upon impact with an armor; and

Fig. 2 shows the area Z of the bellows of FIG. 1 in an enlarged representation.

According to FIG. 1, the missile 1 has a warhead with a tandem hollow charge, ie a smaller precharge 2 with a funnel-shaped coating 3 and explosives 4 and a main hollow charge 5 with a funnel-shaped coating 6 and an explosive charge 7 . The pre-hollow charge 2 is provided in the front region of the spiked hood 8 of the warhead and the main hollow charge 5 at a relatively large distance behind it in the enlarged section of the shell 9 of the missile 1 .

At the front end, that is, at the tip of the hood 8 , an impact contact 10 is provided, by means of which the pre-shaped charge 2 and the main hollow charge 5 are ignited with a time delay when the impact contact 10 comes into contact with the target 11 .

A gas generator 13 is arranged in the spike formation space 12 of the main hollow charge 5 . In order not to impede the formation of the spike of the main hollow charge 5 from the occupancy 6 , the gas generator 13 is designed as a ring. It is filled with a fuel, not shown, and can be ignited by an ignition unit, not shown, as is known from an airbag.

The gas outlet openings arranged on the outer circumference of the gas generator 13 are connected to passage openings 14 in the enlarged section of the jacket 9 which receives the main hollow charge 5 . To the extended portion of the shell 9, a bellows 15, the front with his or rear end to the front and rear ends of the expanded portion of the casing 9 extends gas-tightly connected. The bellows 15 is inflated in the radial direction by the gas generated by the gas generator 13 , emerging from the jacket 9 through the passage openings 14 and entering the bellows 15 according to the arrows 16 .

The gas generator 13 is ignited by an impact contact 17 which can be extended from the tip of the hood 8 . The impact contact 17 is extended by a spring 18 arranged in front of the pre-hollow charge 2 after the missile 1 has been fired.

The target 1 has a main armor 19 , which is provided with a splinter generator 20 , which is initiated, for example, by an explosive layer (not shown) when the missile 1 strikes, and thus forms splinters which, according to the arrows 21, in the direction of the main hollow charge 5 of the attacking missile 1 to fly.

As shown in FIG. 2, the bellows 15 consists of two electrically conductive outer layers 22 , 23 which are electrically insulated from one another by an electrically non-conductive layer 24 . If the two electrically conductive layers 22 , 23 of the inflated bellows 15 are electrically connected by a splinter 21 penetrating the bellows 15 , the explosive charge 7 of the main hollow charge 5 is initiated immediately, so that a hollow charge spike forms from the occupancy 6 before the relevant one Splitter 21 'has traveled the route a between the bellows 15 and the jacket 9 .

That is, by the electrical impact contact 17 at the tip of the missile 1 , which ignites the gas generator 13 at a target advance with a time advance to detonation of the precharge 2 , the bellows 15 , which until activation on the jacket 9 of the missile 1 is applied, brought into a defined distance from the jacket 9 . Splinters 21 , which, like the splitter 21 ', penetrate the activated bellows 15 , trigger the immediate detonation of the main hollow charge 5 before it is destroyed. The late activation of the protection in Target 1 achieves a high level of functional security (mask security) with the greatest possible protective effect of the entire shaped charge against splinters.

Claims (8)

1. missile to combat targets with active armor, the missile having a pre-charge and a main hollow charge and being provided with an impact sensor, characterized by a gas generator ( 13 ) which is ignited by the impact sensor and one on the jacket ( 9 ) of the missile ( 1 ) adjacent bellows ( 15 ) which can be inflated in the radial direction when the gas generator ( 13 ) is actuated, the bellows ( 15 ) having two electrically conductive, mutually insulated layers ( 22 , 23 ) through which in the case of electrical connection, the main hollow charge ( 5 ) is initiated by an electrically conductive active part ( 21 ') of the active armor penetrating the inflatable bellows ( 15 ). 2. Missile according to claim 1, characterized in that the gas generator ( 13 ) in the spike formation space ( 12 ) of the main hollow charge ( 5 ) is arranged. 3. Missile according to claim 2, characterized in that the gas generator ( 13 ) is annular. 4. Missile according to one of the preceding claims, characterized in that the impact sensor is designed as an impact contact ( 17 ). 5. Missile according to claim 4, characterized in that the impact contact ( 17 ) in the flight direction of the missile ( 1 ) is designed to be extendable. 6. Missile according to claim 4 or 5, characterized in that the impact contact ( 17 ) is formed from such that it only responds when it hits a hard object. 7. Missile according to one of the preceding claims, characterized in that a device is easily seen through which the bellows ( 15 ) is activated only after inflation to initiate the main hollow charge ( 5 ). 8. Use of the missile according to one of the preceding claims for combating active armor, which has a splitter generator ( 20 ).