DE2206241C1 - - Google Patents

Description

The invention relates to a bomb or a projectile, in particular re to damage runways, pavement ceilings or the like chen, with two in the longitudinal direction of the bomb or floor below Belas solution of an intermediate space for receiving inert material axially arranged one after the other and initiated one after the other explosive charges, of which the front explosive charge as axial forward-facing shaped charge with the one facing away from the occupancy Front conical outer contour is formed, the ignition device with one arranged at the top of the bomb or projectile Neten impact contact, and the rear explosive charge Be part of a grenade is that for the front-facing grenade accelerate one depending on the initiation of the Hollow charge is associated with ignitable propellant charge.

From DE-OS 18 11 331 it is known in an anti-tank defense shot the propellant for the explosive detonate grenades at the time of charge initiation. This is used primarily in operations against runways, road surfaces or the like perceived as disadvantageous.

The present invention is therefore based on the object Bombs or projectiles of the type mentioned at the outset with little effort means that always work reliably for one another  the initiation of the shaped charge delayed, timely propellant ignition.

The object is achieved in that the shaped charge in the shell area of their cone facing away from the occupancy a piezoceramic is arranged between metal plates and by the metal plates lead wires to an electrical detonator for the propellant charge are guided.

The use of a piezoceramic as an energy source for electri cal detonator is known per se. Usually, however with ammunition to load such a piezoceramic on an open pulled back. The electrical energy so available However, gie is only sufficient to ignite special primary ignition medium with extremely high sensitivity, but not for Ignite commercial electrical igniters, so that for the latter additional energy sources must be provided.

In contrast, the situation is different in the case of the invention order of a piezoceramic, which is a large-scale interpretation of the the latter enables and their burden of detonation wave of hollow charge ensures. This is made from a piezo to extract more energy from ceramics than previously was, and that in a commercially available electrical to ignite Kind of igniter of sufficient size.

The invention is based on the Darge schematically in the drawing asked and execution described in detail below example explained in more detail.

The only figure shows a bomb 1 for sustained damage to runways, pavement ceilings or the like. In its shell 2 , which - as seen in the direction of fall - front end 3 is ogival shaped, two explosive charges 5 and 6 are axially arranged one behind the other, leaving a space filled with plastic 4 . The front explosive charge 5 is formed as Hohlla extension. The rear explosive charge 6 is part of egg ner grenade 7 , the thick-walled cylindrical shell 8 runs at the front end in an ogival head 9 of even greater wall thickness. For accelerating the grenade 7 , a propellant charge 13 is accommodated in a combustion chamber 12 provided between the grenade base 10 and the bomb base 11 . During the acceleration phase, the grenade 7 is guided by a section 14 of the bomb shell 2 which is reduced in inner diameter and close to the bo, the effect of which is supported by a guide ring 15 .

The hollow charge 5 has, for example, an existing copper, aluminum or similar metal occupancy 16 in the form of a Ke gel with an obtuse opening angle 17 , in particular between 120 ° and 160 °. On the side facing away from the occupancy, it runs out in a cone 18 directed towards the grenade 7 . In the tip region of the same ( 18 ), an electrical detonator 20 is arranged in a security element 19 and a transfer charge 21 is arranged between detonator 20 and explosive charge. On the input side, this detonator 20 is in operative connection with an impact detonator 22 installed in the bomb head 3 via a double wire 23 .

The shaped charge 5 is also assigned a piezoceramic 26 which is covered on the end face with metal plates 24 , 25 in the jacket region of its cone 18 directed towards the grenade 7 . From the piezoceramic 26 leads a double wire 27 to an embedded in the propellant charge 13 igniter 28 , which is caused by this assignment in the hollow charge detonation of the piezoceramic 26 to respond. With the propellant charge 13 that can be initiated in the above-described manner, the explosive charge 6 of the grenade 7 is pyrotechnically coupled in focus, specifically via a delay set 29 that passes through the granatbo 9 , a flame detector 30 that is fixed in a safety device on the garnet base 10 element 31 is arranged movably, and a transmission charge 32nd

Claims (1)

Bomb or projectile, in particular for damaging runways, pavement ceilings or the like, with two explosive charges arranged axially one behind the other in the longitudinal direction of the bomb or projectile leaving an intermediate space for receiving inert material, of which the front explosive charge is considered to be axially forward acting hollow charge is formed with a tapered outer contour on the end facing away from the occupancy, which has an ignition device with an impact contact arranged on the bomb or Ge bullet tip, and the rear explosive charge is part of a grenade, one for forward-facing grenade accelerations depending on the Initiation of the shaped charge is associated with ignitable propellant charge, characterized in that a piezo ceramic ( 26 ) is arranged between metal plates ( 24 , 25 ) and from the metal plates on the shaped charge ( 5 ) in the jacket region of its cone ( 18 ) facing away from the occupancy ( 24 , 25 ) lead wires ( 27 ) to an electrical igniter for the propellant charge ( 13 ) are guided.