CH626168A5 - Explosive projectile having a shaped explosive charge and having a proximity fuze - Google Patents

Description

626168 2

Claims (4)

PATENT CLAIMS The object of the invention is to create an explosive 1. Explosive projectile with a shaped explosive charge and shot of the type mentioned, which has the known disadvantages-with a proximity fuse that avoids ter versions when approaching a target, the particular aim being to provide an electrical signal, characterized by a sen- that the during ignition forming jet of flame by sor, which is not influenced by a ring-shaped electrical coil (18) with a 5 the sensor of the proximity igniter, a large number of turns and from a coil (18) This task is characterized by the in Part of the ring-shaped permanent magnet arranged coaxially in this way is solved according to the measures defined in claim 1. (22) is that the field lines generated by it close again at least partially across the coil (18) and shot are described in claims 2 to 4. by an amplification and threshold circuit (24) connected to the latter. This sensor arranged in front of the explosive charge clears a channel. 2. Explosive projectile according to claim 1, characterized in that the jet of flame triggered by the sensor via the amplification and threshold circuit is characterized in that the sensor in the head (12) of the explosive projectile is practically un (10) arranged and that the inner diameter of the coil prevents escaping and come into effect better than on (18) is dimensioned in such a way that the explosive is detonated in the event of an explosion. tion (16) formed jet of flame can escape practically unhindered A preferred embodiment of the invention. status is explained in more detail below using the drawing, 3. Explosive projectile according to claim 1, characterized in that the diagrammatically depicts a proximity fuse explosive projectile showing the gain and threshold circuitry. (24) is arranged in the base (14) of the projectile (10). 20 The explosive projectile 10 has a ballistic cap 12, 4. Explosive projectile according to claim 1, characterized in that the axis of the coil (18) and the axis of rotation (20) shaped, e.g. hollow explosive charge 16 comprising main body of the projectile in one lie line. as of 11. The latter has a jet-forming insert 36 on the front side. 25 In the ballistic cap 12, i.e. in front of the explosive charge 16, an electric coil 18 and in it an annular permanent magnet 22 is arranged, which, like the coil 18, is arranged coaxially to the axis of rotation 20 of the explosive projectile 10 and The invention relates to an explosive projectile according to Oberbe having a radial or axial magnetization. handle of claim 1. 30 The coil 18, which has a plurality of turns of very Such explosive projectiles are generally used for fine wire, e.g. only 10 microns thick, is designed to pierce metal plates or the like, for example designed to provide sufficient induced voltage from the emise of armored vehicles, although it can also be obtained against a few millivolts . Flight destinations can be used. If the shaped For this purpose, it should be noted that the Explosive charge, a jet-forming insert, e.g. made of copper, is known to be called a hollow charge. approaching a magnetic object, e.g. an armored vehicle, With such explosive projectiles, it was often only possible to change the opening. This change induces 18 detonators to be used in the coil. Such an impact fuze is an electrical voltage due to magnetic flux changes usually located in the front of the projectile and in the coils, and the larger the number of coils, the larger the set of piezoelectric quartz or ceramic knobs . Stand up for reasons of space. a very thin coil wire is therefore preferably used. However, such impact igniters have several disadvantages. It is essential that the sensor in the cap 12 of such an impact fuse is arranged in the front part of the projectile explosive projectile 10 and that the inner diameter located, i.e. in front of the formed explosive charge, it lies exactly in knife 26 of the coil 18 is dimensioned in such a way that the explosive the trajectory of the jet of flame, the jet of flame formed by the explosion of this 45 sion of the explosive charge 16 practically un- tion is generated. Practically, this will allow a rapid and prevented escape. direct effect of the jet of flame on the object to be destroyed. In addition, it is not possible with known impact detonators; the effect of the projectile impact ignition the optimal distance of the explosive charge from the ses is therefore much better than with impact ignition. Maintaining the surface area of the intended target, which is essential for the satisfactory effect of a shaped charge. Finally, in the case of impact ignition, the time that elapses between the impact and the point in time at which the device 32 is triggered depends on a mechanical or mechanical ignition. The sound-perfect jet of flame to perforate the target device 24 is fed by a battery 30 in order to start opening it, triggering the ignition from the kinetic energy of the projectile in the eye of a gate, not shown. view of the impact. Since the latter depends, among other things, on the distance from The proximity fuse 10 triggers the ignition process in one Target and depends on the ballistics, is thus also said specific distance from the target, which is chosen so that the Time span dependent on distance and ballistics. Effect of the explosive charge 16 is optimal. C 1 sheet of drawings