DE3736952C1 - Masking-proof fuze initiation - Google Patents

Abstract

The invention relates to masking-proof fuze initiation, in the case of which a "preliminary projectile" is fired off before a projectile reaches the optimum fuzing offset, which preliminary projectile forms a hole or a channel in the target masking, through which the initiation laser rangefinder can measure the range of the actual target surface and can in consequence determine the optimum fuze initiation time. In the case of special shaped-charged projectiles, the front shaped charge which is already arranged there is used for this purpose. Exemplary embodiments are explained. <IMAGE>

Description

The invention relates to a mask-safe triggering according to the Generic term of claim 1.

Modern battle tanks are equipped with so-called active armor, e.g. B. from curtain-like explosive plates, provided when hitting a hollow destroy the charge and make it ineffective for the tank itself. You can counter this, for example, by firing a small precharge at a greater distance from the goal.

With such projectiles and in general with projectiles that are in one larger distance before the target must be fired in order to achieve an optimal we mechanical impact detonators are no longer possible or undesirable for various reasons, so the so-called masks security is no longer given. Namely is the target tank through Busch plant, networks, tarpaulins, etc., the LEM usually resolves too early from, d. H. at the specified trigger distance in front of the mask. The effect of However, shaped charge in the actual target is reduced the more, depending the mask is placed in front of the tank.

One tried to counter this in different ways. In an execution The LEM and its evaluation electronics are examples of the prior art nik assigned a so-called material sensor, for example as Ma magnetic sensor or as a capacitive, inductive X-ray or radar sensor the metal of the tank etc., but not on the bushes in front of it appeals. The problem here is that the distance measurement with such Sensors very inaccurate and the exact optical LEM is blocked to not trigger on the mask. However, this leads to an imprecise outcome Solution of the shaped charge and thus too much reduced effect of the same.

It has become known from DE-PS 28 29 001 by the applicant, a Hollow charge storey with so-called side effects to equip the Task, by a broken up from the main charge in the target Hole to introduce more explosive devices for different directions of action.  

With one of this form-analogous embodiment, the up here would be but did not solve, since here the main hollow charge

• 1. just in is ignited too far by the mask in front,
• 2. at the active armor uselessly "fizzles out" because
• 3. the side effects only in a deep hole in the armor created by the main hollow charge could become sam.

However, the aforementioned solutions do not guarantee absolute mask security unit without loss of tripping accuracy. The material sensor brings out the very considerable additional costs and the optical LEM in the latter Embodiment of course only works with so-called "not op dense camouflage ", i.e. the camouflage must be" permeable ", as it is is also the case with natural shrubbery. There is almost always a view here find gaps, which are then used for detection by the LEM beam will. This is not possible with tarpaulins; here the kick already mention disadvantages fully.

The present invention has for its object to trigger an ignition propose that not only be the disadvantages of the prior art side, but also offers absolute mask security.

This object is achieved by the measures indicated in claim 1. Refinements and developments are set out in the subclaims shows, and in the following description an embodiment explained and also illustrated in the figures. It shows

Fig. 1 is a schematic illustration with a part section of the main hollow charge and the Vorhohlladung and the camouflaged target tank with the "interleaved" masking,

Fig. 2 is a simplified block diagram of the components of the LEM and the main hollow charge.

As is known, a projectile, in particular a shaped charge projectile, must be detonated at a certain larger distance from the target if it is to work optimally and can form the spike. If the target is now "masked", the problems explained at the beginning occur. These are now eliminated in accordance with the present invention in that the masking or camouflage 16 of a target Z with a so-called "projectile" 14 , which can be a so-called "pre-hollow charge projectile" in hollow charge projectiles 10, is broken through or torn and thereby a sufficiently large one Hole is formed in the mask, so that the optical measuring beam 15 of the LEM through this hole 17 through the actual surface of the target Z mes sen. The front floor 14 penetrates both "soft" masks, such as camouflage nets, shrubbery, etc., as well as wooden panels, camouflage panels, etc., so that the line of sight - channel 17 - is actually clear for the LEM to the actual destination. The projectile 14 is dimensioned such that it does not penetrate the target surface (armor).

Once this has been done, further ignition activation takes place as before also. The LEM measures the decreasing target distance and gives the correct preset time or at the optimal target distance the ignition signal for the Shaped charge, pre-shaped charge, etc.

So it is in the main discharge floor 10 integrated projectile 14 ejected or fired before reaching the ignition range and flies in front of the main charge storey to the camouflaged target Z , penetrates its camouflage or masking 16 and thus creates the free view channel 17 through which the optical beam path 15 of the LEM can enter and exit. The laser transmitter 12 a of the distance sensor working as LEM 12 can now bring its measuring beam directly onto the target surface and the beam reflected from it can be received by the receiver of the LEM for evaluation.

The pre-lap 14 may be formed as a so-called plastic projectile having a caliber diameter of 1 to 3 cm, which in a running or discharge pipe 10 b in the head of the main hollow charge 10 and stores a in the axis 10 and by means of a propellant charge 13, the be activated, ejected or fired before the optimum ignition point is reached. A low-smoke propellant charge 13 is used to ensure that the LEM 12 functions properly.

In a special exemplary embodiment, a plurality of such projectiles can also be arranged in a ring shape in their own running tubes 10 b about the central axis 10 a . This makes it possible to break through several masks, for example a camouflaging bush on the way to the target or near the launch system, a bush near the target tank and its direct camouflage through bushes, tarpaulins etc.

The LEM or its optical beam 15 must be bundled very closely and arranged so that it can see through the hole or the channel 17 in the mask 16 . An AM-CW-LEM with 3 mrad divergence is recommended for this.

If the main hollow charge storey 10 is such a weapon design that is already equipped with a pre-hollow charge, the latter can be used in the sense of the present invention as a so-called front storey 14 . This “pre-shaped charge projectile” also penetrates any masking type and likewise creates a sufficiently large hole or channel 17 . The AM-CW-LEM is now arranged at or next to the main cavity so that it can measure through the hole 17 in the mask 16 through onto the target surface. The main hollow charge 10 , however, is no longer ignited - as previously usually provided - with a fixed time delay after the pre-hollow charge - now first floor 14 -, but with a variable time delay which depends on the real target distance measured with the LEM.

In Fig. 2 is a schematic block diagram is shown, which illustrates how the components of the laser rangefinder are linked to solve the task.

Claims (4)

1. Mask-safe triggering of a shaped charge floor or a double shaped charge floor, in which the precharge charge is mounted in the central axis of the missile and is ejected by means of a propellant charge and the respective main charge projectile is provided with a laser range finder (LEM) as a distance sensor, characterized in that a front floor ( 14 ) in the central axis ( 10 a) of the missile ( 10 ) and is imposed by means of a propellant charge ( 13 ) for penetration and channel-like opening ( 17 ) of a mask ( 16 ) in front of the target (Z) that the laser range finder ( LEM) ( 12 ) initiates the launching of the projectile ( 14 ) when it reaches its shooting distance to mask or to the unmasked target (Z) , which stores the LEM ( 12 ) near the projectile and is adjusted in its measuring direction so that it passes through the channel-like opening ( 17 ) of the mask ( 16 ) of the target (Z) through the front ( 14 ) through the st and missing to its real surface and that the LEM ( 12 ) when reaching the effective distance of the shaped charge or the main shaped charge ( 10 ) to the real target (Z) ignites it. 2. Ignition triggering according to claim 1, characterized in that the front floor ( 14 ) is formed as a plastic floor with a caliber of 1 to 3 cm, which is ejected from a running tube ( 10 b) . 3. ignition triggering according to claim 1 or 2, characterized in that around the central axis (10) tubes several pre-shoots (14) with their running (10 b), and - preferably low smoke - propellant charges (13) angeord net are individually successively through the LEM evaluation electronics ( 11 a) are fired for ejection. 4. Ignition triggering according to claim 1, characterized in that the pre-shaped charge (optionally also several), which is assigned to the shaped charge projectile ( 10 ) as a side-effect body, at the same time as a projectile ( 14 ) for penetration and channel-like opening ( 17 ) of the masking ( 16 ) is seen.