DE10036815A1 - Pyrotechnic impact detonator - Google Patents

Abstract

An explosive with cavities (16) is proposed for a pyrotechnic impact detonator (100) for explosive projectiles (1). The sensitivity of the explosive is due to the cavities (16) in the class of secondary explosives. Mechanical securing means can therefore be dispensed with.

Description

The invention relates to a pyrotechnic impact detonator according to the Preamble of claim 1.

A pyrotechnic impact detonator is known from DE 196 51 169 A1. In a ballistic hood of an explosive device on a so-called Am boss a commercially available, but especially ignitable secondary explosive 28 is arranged. This secondary explosive is not defined in more detail.

It is therefore the object of the invention to propose an explosive which Serve on a target ignites.

The invention solves this problem according to claim 1.

Advantageous developments of the invention can be found in the subclaims to take.

According to the invention, however, a conventional explosive is used as the impact detonator with evenly distributed, defined cavities. Through these cavities with a diameter of 0.2-1.2 mm, the sensitivity of the blast lies substance below the sensitivity of tetryl. Tetryl is used as a secondary explosive denotes material and does not require any special mechanical securing means, as is required with conventional explosives built into detonators.

The cavities in the primary explosive are defined in a simple manner Glass balls, styrofoam balls, addition of polyurethane, gas supply during casting or through holes that are transverse to the main axis of the explosive device.  

The invention is based on the operating principle that when the projectile hits a shock wave initiation of explosives through imploding pores or Cavities occur in the explosives mixture.

Embodiments of the invention are shown in the drawing and how described as follows: It shows

Fig. 1 is an explosive projectile, in longitudinal section,

Fig. 2 is a phase image and

Fig. 3 shows an explosive charge in a simplified representation.

According to Fig. 1, an explosive projectile 1 consists of a casing 2 with Füh approximately 3 , ground screw 4 , a main charge 5 of explosives and a hood 6th

The hood 6 and an anvil 7 are connected to a threaded ring 8 on the projectile side.

The anvil 7 has a plurality of ignition channels 10 . These connect a hood-side space 11 with a conical recess 12 of the anvil 7th

The ignition channels 10 are closed by foils 9 made of metal, such as aluminum.

A structured explosive 13 , 15 made of PETN, nitropenta with cavities 16 lies in the space 11 and also in the conical recess 12 . In the Ausneh line 12 , a conventional explosive can be arranged. The cavities 16 are defined by corresponding bodies made of polystyrene.

From Fig. 2 shows the ignition course of the explosive structured according to the invention 13 at the target impact 17 of the projectile 1 .

An exemplary shock wave 20 generates ignition potential 21 in phase 1 , which is designated 22 in the structured explosive 13, and causes the partial ignition 17 in the cavities 16 by initiation of shock waves.

In phase 2 , see reference number 23 , the sources of fire 17.1 have expanded and form a detonation front 25 running in room 11 , see also FIG. 1.

If the detonation front 25 reaches the foils 9 at the ignition channels 10 , the detonation to the explosive charge 15 takes place in the conical recess 12 . This then causes the main charge 5 to be ignited, which breaks the casing 2 down into fragments (not shown).

According to FIG. 3, a test body 30 made of PHX, plastic-bound explosive, has bores 32 lying transversely to its longitudinal axis 31 . The implementation of the explosive in detonation energy takes place in the direction of arrow 33 . This is done in the same way as described for FIG. 2.

All military explosives are suitable as explosives.

Claims (3)

1. Pyrotechnic impact detonator ( 100 ) for explosive projectiles and Ge bullets with impact function with a pyrotechnic igniter ( 13 ) in a hood ( 6 ) and
an explosive charge ( 5 ) for dismantling the projectile ( 1 ),
the ignition means ( 13 ) surrounding an anvil ( 7 ) on the projectile side, characterized in that
that a pourable or compressible explosive has uniformly distributed, defined cavities ( 16 ; 32 ) with a diameter of 0.2 to 1.2 mm. 2. impact detonator according to claim 1, characterized in
that are suitable as explosives HWC, hexogen, wax graphite okfol,
Oktol,
PHX, plastic-bound explosives or Petn Nitropenta. 3. impact detonator according to claim 1, characterized in that the cavities ( 16 ) are defined by glass balls, styrofoam body, addition of polyurethane, gas supply during casting or by bores ( 32 ) which are transverse to the axis ( 31 ) of the explosive device ( 30 ) lie.