DE913753C - Device for remote ignition of the ignition charge surrounded by the explosive charge of a projectile by means of an auxiliary charge - Google Patents

Description

The invention relates to a device for remote ignition of the explosive charge Projectile surrounded ignition charge by means of an auxiliary charge.

The detonation of the main charge of a projectile is known mostly with the help of a Detonator causes which is in contact with the main charge. This capsule is in usually from a distance with the help of a

ίο or several actuators triggered, the z. B. from a highly sensitive percussion fuse together with needle bolts or from a clockwork exist.

In the context of such institutions it is for example it became known that the detonator for the purpose of fire transmission to the charge of the Projectile ejects a small projectile that fires the firing pin for the detonator charge of the projectile forms. Such transmission devices, however, cannot be used there get where the channel between the primer and the primer of the main charge Has obstacles. It is also known to arrange a means between the detonator and the main charge, which is a kind of intermediate igniter or relay. The main charge is ignited by violently throwing off metallic particles. Such a facility too cannot be used when using a channel between the primer and the main charge if there are obstacles in this channel. In addition, such a

direction are not used for such types of detonators, the time ignition and Combine impact ignition.

On the whole it is the case that the direct mechanical transfer of the ignition fire to the main charge Brings difficulties because frictional resistance and moments of inertia have to be overcome are. If there is a time mechanism between the percussion fuse and the detonator, so will ίο the disadvantages of direct mechanical transmission even bigger because the time mechanism has to be bypassed. The use of the pilot light A primer, on the other hand, is only beneficial if the path between primer and the detonator is short and straightforward. The pilot flame cools down rapidly on its way and is easily stopped if the ignition channel shows any kinks. The usage of the gas pressure caused by the detonation of an ignition capsule finally for remote control a striker acting on the detonator is too slow and too unsafe Means of transmission.

The device for remote ignition according to the invention makes it possible to overcome the difficulties described and eliminate disadvantages. This is achieved in that the auxiliary charge, with the help of which the is triggered by the explosive charge of the projectile, is so highly explosive that its shock wave is capable of detonating the detonating charge of the explosive charge at a distance bring. It has been found that the detonation of a powerful charge under certain conditions can cause the detonation of another explosive charge by influence of the former is separated by a gaseous, liquid or even solid substance. The shock wave that proceeds from the auxiliary charge, propagates at considerable speed, e.g. B. with a those from 5000 to 10,000 m / sec. By having this property under appropriate choice takes advantage of the auxiliary charge, it is easily possible without direct mechanical transmission and at a distance without the difficulties associated with a pilot light to trigger a detonator, which in turn detonates the main charge.

The drawing shows in schematic form and for example, several embodiments of the subject matter of the invention.

Fig. Ι shows in section a first embodiment for a double fuse;

Fig. 2 shows in section another embodiment for a double fuse;

Fig. 3 shows in section an instantaneous igniting projectile.

The double detonator shown in Fig. 1 consists of the detonator body 11 with the detonator cover screwed on 12. In the body Ii are the clockwork 13 and a locking device 14 designed as a centrifugal bolt is housed. At the rear end of the body II is the ignition device, consisting of the detonator 15. The clockwork 13 acts by means of a striker 16 on a primer 17, whose Flame through channel 18 and through the safety device 14 through it can cause the detonator 15 to explode. In the foremost At the end of the detonator cap 12 there is a highly sensitive percussion detonator, which targets the Auxiliary charge 20 has acting striker 19, the purpose of this auxiliary charge is to to send out a shock wave capable of causing the detonator 15 to detonate remotely. For this purpose, this auxiliary charge, in contrast to the detonators constructed up to now, exists, not from an ordinary primer to ignite the detonator by either the pilot flame or by the gas pressure acting on a detonator, but from a highly explosive one Charge, consisting z. B. from pentraerythritol tetranitrate combined with lead nitrogen. The one from this one The shock wave emanating from the auxiliary charge at the moment of its explosion is planted through the cavity 21 and the bypass channel 22 and causes the detonator 15 to explode through influence. The speed of propagation depends on the composition of the auxiliary charge used of the shock wave 5000 to 10 000 m / sec. and works practically instantaneously, even though the one from the wave the path to be traversed is not straight. This go speed is much greater than that through the speed achieved by the flame transmission or by the pressure transmission of a primer.

In the embodiment according to FIG. 1, the clockwork is housed in a sealed housing, and the shock wave must circumnavigate the clockwork by means of a channel 22. Fig. 2 shows a variant of the same fuse, but in which the clockwork 13 can be rushed through by the shock wave. This propagates through a number of holes 23 drilled in the plates 24 of the movement. The speed of the wave is considerably reduced as a result of this sequence of changes in direction, but remains much greater than the speed of propagation of the flame of a primer. Incidentally, the speed of propagation of the shock wave can be regulated by that a sequence of obstacles is provided on its way, which the wave repeats itself Force change of direction.

Fig. 3 shows a large, provided with a main charge 25 projectile, the detonation by an impact fuse 26 located in the head part of the projectile is to be caused. Means a striker, this device acts on a highly explosive auxiliary charge 27 for the purpose of a To cause shock wave, which is able to cause the explosion of the main charge at a distance. It has often been observed that the explosion of a spacious cargo does not always occur at the same time takes place homogeneously in the mass of the explosive, which reduces its effect will. To avoid this disadvantage, the projectile shown in Fig. 3 has several over the length 1Z5 of the tube 29 detonators 28 distributed on. the

reached by the auxiliary charge 27 outgoing shock wave the different detonators practically simultaneously and therefore has an undelayed, uniform and complete detonation of the main charge of the projectile.

Claims (5)

Patent claims: 1. Device for the remote ignition of those surrounded by the explosive charge of a projectile Ignition charge by means of an auxiliary charge, characterized in that the auxiliary charge (20, 27) so What is highly explosive is that its shock wave is able to distance the Zündkdung (15, 28) of the Detonate explosive charge. 2. Device according to claim 1, characterized in that the auxiliary charge (20, 27) is located in the front part of the projectile and its triggering by a highly sensitive, with a softwood (19, 26) provided percussion fuse takes place. 3. Apparatus according to claim 1, characterized in that the auxiliary charge (20, 27) with the explosive charge by means of channels (22) crossing at least part of the projectile connected is. as 4. Device according to claims 1 and 3, characterized in that by way of the Shock wave for explosive charge obstacles are provided. 5. Device according to claims 1 and 3, characterized in that in the explosive charge Ending fire channel on its part running in this charge and distributed over its length several detonators (28). Referred publications:
French Patent No. 581,661;
British Patent No. 127,294;
U.S. Patent No. 1,297,499. 1 sheet of drawings © 9510 β.