DE2426237A1 - Ignition of shell explosive charge - using pressure changes caused by flying target to detect it and trigger sensor - Google Patents

Abstract

Explosion of explosive charge of the shell (A) is initiated by a pressure change sensor (E) in the shell, which detects a disturbance in the atmosphere caused by a pressure wave from a flying target. The sensor is located at a point outside the pressure wave produced by the shell itself, and is pref. made of piezoceramic material. In the drawing, the shell is flying at an angle at speed v1 towards the target (B) which is moving at a speed less than or equal to Mach 1 (= v2), and producing a pressure wave D which is processed in circuitry (F) in the shell.

Description

Initiation of a projectile explosive charge by the in immediate Change in pressure occurring near an air target and emanating from the air target.

It is well known that the effectiveness of Fla-Closed unsatisfactory with impact or impact fuses due to the high rate of misses is.

Measures by proximity detonators that have the effect of infrared, magnetic or static changes in electrical fields as the triggering moment because of the high level of electronics required, especially for small-caliber ones Floors technically not feasible.

On the other hand, such active target search methods have the disadvantage on that they are recognized by the missile through appropriate countermeasures and in their effect will be nullified.

All of these methods are based on the principle of active location. In contrast to this, uses the one on which the invention is based thought those reactions to the perception of the flying object to be located, which are caused by run out of the flying object itself.

It is assumed that a missile (aircraft, rocket), which moves in the atmosphere of the earth, whether it is in the subsonic or supersonic range flies, a pressure wave from every point of its outer skin through the disturbed atmosphere generated, moving in front of it (subsonic) or behind it (supersonic).

As can be deduced from the flow equation for gases, the pressure change is proportional to twice the value of the change in speed of the flowing gas.

The invention consists in a pressure change sensor in one Projectile for the pressure wave disturbance in the atmosphere generated by the flying target to be provided.

So if a projectile trajectory crosses one in the immediate vicinity of the missile particularly intense pressure change wave and is the projectile with a Sensor equipped to respond to such pressure changes in the immediate vicinity of the interfering missile responds, this increases the surface area of the Target reached and in the vicinity of the target the explosive charge of the projectile initiated. The resulting splinters should wings and Damage the missile's fuselage.

According to a further invention, the pressure change-dependent sensor is preferred attached to such a point of the projectile, where by projectile shaping or suitable means are taken to ensure that at this point the changes in air pressure, evoked. by the missile to be detected, unhindered to the sensor can get.

The figure of the drawing serves to further explain the invention, The projectile A flies at an oblique angle with the speed v1 on the flight target B to. It is assumed that the projectile A is traveling at supersonic speed flies. The flight destination B moves at a speed <= Mach 1 = v2. When the pressure wave D crosses, the projectile sensor E, the one behind the projectile bang is, a pressure change is generated, which is further processed in an electronic evaluation unit F. and leads to the ignition of the explosive contained in the projectile.

According to the invention, the sensor E can be made of piezoceramic material or Another substance can be made that converts pressure into electrical Energy is suitable and, through suitable shaping, is best suited to mechanical stresses, which take effect on a flying projectile.

Patent claims:

Claims (3)

Claims: t; Arrangement for initiating a projectile explosive charge in the immediate vicinity of an air target, characterized by a pressure change sensor in a projectile for the pressure wave disturbance generated by the flying target in the atmosphere. 2. Arrangement for initiating a projectile explosive charge according to claim 1, characterized in that the pressure change sensor at one point on the projectile attached outside of one's own; pressure wave generated by the projectile itself lies. 3. Arrangement for initiating a projectile explosive charge according to claim 1 and 2, characterized in that the pressure change sensor is preferably piezoceramic Material is used in a suitable shape. Blank page