DE4112613C1 - Cratering munitions has probe which is adapted to be driven into and through hardened layer and which includes longitudinal passageway by which explosive slurry is injected below hardened layer by probe - Google Patents

Abstract

The cratering munition has a probe (5) which is adapted to be driven into and through a hardened layer (10a) and which includes a longitudinal passageway (6) by which an explosive slurry (7) is injected below the hardened layer by the probe. On initiation of the slurry explosive there is a disruptive effect below the hardened layer. The probe serves as a tamping member in the hardened layer. The probe is driven into the surface by an explosive charge (3).

Description

The invention relates to an explosive device with a the surface layer of a target from below or behind it the explosive charge that breaks first implanted under or behind the surface layer becomes. Devices of this type are often called craters educational explosives are trained and against construction works, such as roads, bridges, taxiways, armored buildings and other structures used a hardened surface layer over a softer one Have substructure.

Purpose of implanting the breaking charge under half of the surface layer, d. H. below or behind, is to make sure that most of the exploit ion energy, which is usually found in expanding gases is below the surface in the immediate through area is held and distributed so that the Surface layer around the breakdown area is moved or lifted extensively. The substructure under  this large area is attacked and ge squeezes what effective repair measures specifically he sword. The obvious effectiveness of explosives direction compared to an immediate attack to the surface, considerably increased, and the blasting device can be smaller for a given effect being held.

For explosive devices of the above type is therefore the containment process below the surface of the Of particular importance. Be in practice however, many compromises were made because of the introduction the disintegrant has a hole in the surface layer must be done. The hole usually has one large diameter, and the material around the hole tends to break or is easily destroyed, so that a considerable part of the energy of the breaking charge escapes through the hole.

Another problem arises from the different forms of such devices used in practice, such as devices often used by aircraft sometimes also be dropped as part of multiple weapons. A kinetic energy can be used for the breakdown zender "penetrator" or an auxiliary explosion process to care. In any case, however, this leads to a varia tion of the effective length of the penetration path due to of the varying angle of impact and accordingly to a variation of the embedment depth in the relative soft substructure below the hardened target surface. These effects reduce the effectiveness of the weapon.

It is an object of the invention to at least part of the  to avoid the above disadvantages and an explosive device Direction to indicate in the losses at breakaway Charge energy due to the penetration process considerable Lich be reduced.

In a further aspect, the object of the invention is a funnel-forming ammunition with a defined position to create the target surface.

According to the invention, in a first aspect, one is Explosive device is provided, which is marked through a viscous load, a penetrator, means that drive the penetrator into a target surface, means, which enable the viscous charge to be carried through the Penetra flow behind the target surface, and means to Ignite the viscous charge.

The penetrator preferably comprises a longitudinal one the channel with openings spaced apart from each other conditions for the entry and exit of the viscous load.

In a preferred embodiment of the invention Penetrator held in a body of the device or managed, with means to limit the outward or Forward movement of the penetrator relative to the body are provided. The two openings have one such a distance that one of them is outside and in considerable distance from the body while the other opening is still inside the body when the penetrator its most advanced position occupies.

In another aspect, the invention relates to a  funnel-forming ammunition, characterized by a Penetration probe for penetrating a target layer and to inject a viscous explosive charge in the form of a Slurry beyond the layer to form a arranged breakup charge behind the layer, the Probe serves as an insulating body in the layer.

In the following the invention with reference to a drawing explained in more detail. Here shows:

Figure 1 is a simplified representation of a Sprengvor direction according to the invention.

FIG. 2 shows the blasting device according to FIG. 1 with the penetration probe already extended;

Fig. 3 is a detailed illustration of a blasting device according to the invention and

Fig. 4 shows a variant of an explosive device with automatic erecting device.

Fig. 1 shows a simplified representation of an explosive device or ammunition with a cylindrical body 1 , which comprises a counter mass 2 . A charge 3 is arranged between the counter mass 2 and a head 4 designed as a piston and a penetration probe 5 . The probe 5 is designed as a penetrator. In the lower part of the blasting device a chamber 7 is provided which contains a viscous charge in the form of a slurry. The shaft of the probe 5 extends through the chamber 7 filled with the slurry. Above the slurry, a partition 9 is provided which limits the downward or forward movement of the probe 5 and serves as an impact for the head 4 .

The shaft of the probe 5 is partially hollow and contains a longitudinal channel 6 with two openings 7 a, 7 b or groups of such openings. The lower opening 7 b is arranged near the tip or the free end of the probe 5 , while the upper or more rear opening 7 a is arranged so that it remains even within the body 1 of the explosive device when the probe occupies its most forward position, in which the head 4 of the probe 5 rests on the partition 9 .

Fig. 1 shows the gun in an already upright placed on a target surface 10 position. The Zieloberflä surface 10 consists for example of a hardened layer 10 a and a softer base or substrate 10 b.

Fig. 2 shows the ammunition after the charge 3 has been detonated. The probe 5 is propelled by the pressure of the explosion gases acting on the head 4 of the piston, the counter mass 2 assisting the propulsion. Fig. 2 shows the probe 5 after it has been driven through the hardened layer 10 a, which is normally a concrete layer, and into the substrate 10 b. The forward movement of the probe 5 was limited by the partition 9 .

The upper opening 7 a in the probe 5 now lies in the area of the explosive slurry, while the lower opening 7 b lies within the area of the substrate 10 b.

Now devices can be operated, press the Sprengstoffaufschlämmung the manner of a syringe through the probe 5 and into the substrate 10 b to 10 b in the substrate below the layer 10 a is a Aufbrechla dung to install. At a suitable point in time of this process, the slurry remaining in the body 1 can be detonated. The in the hollow probe exploiting Dende material is the detonation as Anstauladung in below the layer 10 are a part of the Aufbrechladung couple.

The penetration hole formed by the probe only has to have a diameter large enough to allow the probe to penetrate. The probe can therefore serve as a seal or insulating body for the breakup charge, which is formed by the slurry 8 a flowing out of the probe under layer 10 a.

The depth at which the slurry charge is introduced is determined by the deployment of the probe and can be optimized for a special target surface.

The ammunition is preferably only active when its The main axis is perpendicular to the target surface.

Fig. 3 shows details of one embodiment of the invention.

The ammunition shown in Fig. 3 comprises a cylindri's body 11 , the partition wall 12 at its front end with extendable or extendable stabilization feet 13 has. The partition 12 is provided with a central opening 14 .

On this end of the ammunition, a matching end cap 15 can be placed, which is removed or at least unlocked before the weapon is used.

At the other end of the body 11 , a plate 17 is easily seen, the 19 actuated latches 18 carries. The bolts 18 hold an end cap 20 designed as a flange on a tubular body 21 , the tubular body 21 extending axially to the body 11 when the cap 20 is engaged by the bolts 18 . The lower end of the tubular body 21 is received by a sleeve 22 which is provided at the upper end of a tubular part 23 arranged upright relative to the partition wall 12 . The tube part 23 is provided with openings 24 for a purpose to be explained below.

At the upper end of the tubular body 21 , a charge 25 with associated igniter 25 a is provided above the plate 17 forming a partition.

A penetrator 26 corresponding to the probe 5 from FIG. 1 is located within the tube part 21. The upper end of the penetrator 26 is designed as a piston head 27 which is located immediately below the load 25 before the probe is deployed or extended. The probe 26 has lateral recesses 28 formed in the head of the piston, which are connected by a transverse channel 29 and a subsequent longitudinal channel 30 to a recess 31 which extends to the facing side of a probe tip 32 . The probe tip 32 may be beveled, as shown at 33.

The cutouts 28 and 31 correspond to the openings 7 a and 7 b of the arrangement according to FIG. 1.

The probe tip 32 is initially held by a plate 34 which is secured within the tubular body 21 by pins 35 . The plate 34 can be made of a fragile material.

Arranged near the lower end of the cylinder or body 11 is a transverse wall 36 which delimits a chamber for one or more containers 37 containing the slurried explosive 38 . The slurry is of a consistency that it can be expelled through the opening or openings 24 , provided that they are open. The slurry can be driven out of the tank 37 by gas from a cylinder 39 controlled by a valve 40 . The valve 40 , a suitable detonator for the slurried explosive, the actuators 19 and the detonator 25 a for the explosive 25 can all be controlled by a control unit 41 which is electrically connected to the various actuators and detonators. The control unit 41 can be of conventional design and is not part of the invention.

FIG. 4 shows the ammunition or the explosive device from FIG. 3 in the unfolded state, the penetrator 26 having already been driven into a target which, for example, consists of an upper concrete layer 10 a, a sand layer 10 b and a concrete aggregate layer 10 c can exist. Fig. 4 further shows that the ammunition is provided with an automatic erecting device, which comprises a plurality of schraubför shaped wing 42 , which are initially held in the pretensioned state on the body 11 , but which rotate after release and expand laterally outwards , These wings make it possible to set up the ammunition if it is used horizontally on the surface when it is being put down or otherwise.

The automatic erecting device is not detailed NEN, as described in British Patent 2,101,280 of November 17, 1980 is explained in detail.

The operation of the ammunition shown in FIG. 3 has been described in principle with reference to FIG. 1. The explosive charge 25 (corresponding to the charge 3 ) is ignited, whereby the piston 27 is driven downwards and drives the penetrator or the probe 26 into the hardened layer. The forward movement of the probe is limited in this embodiment by the partition 12 be, the shaft of the probe 26 exiting through the central opening 14 .

In the front setting of the probe, the lateral recesses 28 lie opposite the openings 24 for the slurry, so that the slurry is pushed out of its container into the transverse channel 29 and down through the longitudinal channel 30 , whereby the slurried explosive is removed the probe flows out. When the slurry is ignited, the detonation is transmitted through the remaining slurry in the manner discussed above.

Although the invention is in the context of a counter a horizontal surface to be used form has been described, it is understood that the Gun also turned against a non-horizontal surface can be set, if using a suitable stabilizer lisators or a bracket is ensured that  an appropriate location relationship between ammunition and target is maintained.

The ammunition can be done by hand or by machine be put on or spelled out with a parachute be opened.

The charges 3 or 25 need not be explosions. Other forms of force devices to advance the probe can also be used.

Claims (16)

1. Explosive device, characterized by
a viscous load ( 38 ),
a penetrator ( 26 ),
Means ( 25 ) which drive the penetrator ( 26 ) into a target surface,
Means ( 24 , 30 ) which enable the viscous load ( 38 ) to flow past the target surface via the penetrator ( 26 ) and
Means ( 41 ) for igniting the viscous charge ( 38 ). 2. Blasting device according to claim 1, characterized in that the penetrator ( 26 ) has a longitudinal channel ( 30 ) with spaced openings ( 28 , 31 ) for the entry and exit of the viscous charge ( 38 ). 3. Blasting device according to claim 2, characterized in that the penetrator ( 26 ) is held in a body of the device and means ( 12 ) for limiting the forward movement of the penetrator ( 26 ) are provided relative to the body. 4. Blasting device according to claim 3, characterized in that a first ( 28 ) of the two openings lies within half of the body when the penetrator ( 26 ) is in its foremost position and the second opening ( 31 ) at the foremost position of the Penetra tors outside of and away from the body. 5. Blasting device according to claim 4, characterized in that the second opening ( 31 ) is in the region of a tip of the penetrator ( 26 ). 6. Blasting device according to one of the preceding claims, characterized in that the means driving the penetrator ( 26 ) comprise a propellant charge. 7. Blasting device according to claim 6, characterized in that the penetrator ( 26 ) comprises a piston ( 5 ; 27 ) which can be driven out by the propellant charge. 8. Blasting device according to claim 3 and 7, characterized in that the means provided for limiting the forward movement of the penetrator ( 26 ) comprise a support and / or partition ( 9 ; 12 ) on which the piston ( 5 ; 27 ) strikes , 9. Blasting device according to one of the preceding claims, characterized in that the viscous charge ( 38 ) is a slurry. 10. Blasting device according to claim 9, characterized in that means ( 24 , 39 ) for expelling the slurry from a container ( 37 ) in the Penetra gate ( 26 ) are provided. 11. Blasting device according to one of the preceding claims, characterized in that means are provided, which cause the penetrator ( 26 ) to a predetermined position relative to the target surface. 12. Blasting device according to one of the preceding Claims, characterized in that the vorbe  correct position is normal to the target surface. 13. Blasting device according to claim 11 or 12, characterized in that the device is provided with an automatic erecting device ( 42 ). 14. hopper forming ammunition, characterized by a dielectric probe (5) layer to penetrate a target and in the form of manure for injecting a viscous Sprengla (38) a slurry beyond the layer to form a angeord Neten behind the layer Aufbrechladung, wherein the probe (5) serves as an insulating body in the layer. 15. Ammunition according to claim 14, characterized in that means ( 3 ) for driving the probe ( 5 ) are provided in the target layer. 16. Ammunition according to claim 14 or 15, characterized records that means are provided that the On slurry from a reservoir through the probe by driving out.