DE703716C - Missile impact fuse - Google Patents

Description

The invention relates to an impact fuse for rocket projectiles.

This igniter has a locking member, which under the pressure of the propellant gases of the projectile is triggered to arm the detonator. The detonator is through characterized in that the locking cap protrudes from the bottom of the detonator and through which it can be pushed through Membrane formed front floor of the missile set space is displaceable. With this facility it is possible a missile detonator of very simple construction and safe operation > Create 5.

There are already fuses for artillery shells, i.e. without propulsion by rocket propellant gases, became known, in which the arming by the penetration of the gases of the gunpowder into the interior of the detonator takes place in that a locking member is changed by the pressure. They are here now Channels provided for this purpose, which this locking member, which inside of the detonator body is resting, connect to the outside air. Such an arrangement has the Disadvantage that it calls into question the sealing of the detonator, since it is against atmospheric Influences, can never be sealed tight. Another disadvantage of penetrating 3 " The powder gases in the interior of the detonator can cause premature ignition of the detonator which means that the projectile can explode even if it is still in the barrel.

Furthermore, these fuzes, in which ³ S propellant gases penetrate into the interior, cannot be used under all circumstances for a projectile moved by rocket gases, because the burning time of such propellant gases can take several seconds, and the heating,

Claims (1)

which communicates itself to the parts of the detonator would be able to do this by itself cause ignition of the squib. Detonators have also become known which underwater at a certain depth under the action of hydrostatic pressure kes work; but such detonators cannot be used for impact detonation in rocket projectiles Use because the pressure causes the igniter to ignite and not only simply arming it for later work at the moment of the impact provides. The igniter of the invention is free from such drawbacks. A flexible membrane, which is inserted tightly, separates the igniter from the chamber of the propellant gas in such a way that the gases thereof do not penetrate into the body of the detonator can. The use of a cap as a locking member protruding from the bottom of the Fuze allows sharpening to be carried out by pressure, whereby any admission of the propellant gases is securely prevented by the igniter. in the drawing is an embodiment shown. Fig. Ι shows an axial section through a drop bomb with a rocket drive, which 3 »by reaction of the burning propellant that acts with an igniter of the present invention is ignited. Fig. 2 is an axial section through the detonator on a larger scale. The detonator 1 (Fig. 1) according to the invention is in the rear cavity of the bomb body 2 installed, which contains an explosive charge 3 and ge-4u through a flexible intermediate disk 4 from a chamber 5 which contains the propellant charge 6 acting by reaction, its gases through a nozzle 7 exit. The body 1 of the igniter is embedded in the cavity of a screw plug 8 and has a bore 9 in which a cap 10 acting as a bolt is displaceable is, which is set in the rest position by a shear pin 11, which this cap 10 with a fixed socket 12 connects. This is firmly attached to Part 1 and serves as a guide for the Needle bolt 13, whose distance from the squib 14 is maintained by a locking spring 15 will. The cap 10 is arranged so that its rear end over the igniter body 1 protrudes out; on this rests the flexible washer 4, which has a bulge 16 at the location of the cap 10. Balls 17 or other similar organs are provided for locking the needle bolt, in the locked position in engagement with a groove 18 on the needle bolt 13 by the the balls enclosing cap 10 are held. This shows itself inside Surface a groove 19 which is intended to receive the balls 17 in order to arm them to bring the detonator out of engagement with the firing pin. A shear pin 20 connects the needle bolt 13 to the socket 12 and, in conjunction with the locking spring 15, maintains the same distance from the squib 14 until it hits the impact. The effect is as follows: When the ^7S pressure created by the combustion of the reaction charge 6 in the chamber 5 reaches a certain level, the membrane 16 is pushed through and presses the cap 10 into the bore 9 after the pin 11 has sheared off. The balls 17 are then located opposite the throat 19, so that they emerge to the side as a result of the centrifugal force caused by the projectile twist. If this has not happened, however, the balls are ejected laterally through the needle pin 13 on impact if it is thrown against the squib 14 due to inertia. The retaining bolt 20 is sheared off and the spring 15 is compressed. Such an impact fuse can also be used for projectiles which are stranded with a reaction incendiary charge and which are thrown from the ground with any device or even shot through a gun barrel, in the same way as the usual projectiles. The reaction charge can already come into effect when it is fired or only on the trajectory in order to add the reaction effect to the original driving force for the acceleration of the projectile. Ρλ τ ι: ν τ α ν SPKU c η: Rocket projectile - impact fuze with a locking member which is triggered under the pressure of the propellant gases of the projectile for arming the fuze, characterized in that the locking cap (10) protrudes from the bottom of the fuze (1) and through which as a push-through membrane i »o (4) formed front floor of the missile set room is displaceable. 1 sheet of drawings i; EDKt; r: KT in dkk