PL199692B1 - Impact fuse, particularly for hollow charge shells - Google Patents

Abstract

) The fuse comprises a coil (3) cooperating with a magnet (14), wherein the coil (3) is connected via diodes (7, 8) to a system of primers (9, 10) initiating the firing of pyrotechnic elements of the fuse, and the fuse is equipped with a spring, preferably a spiral spring, installed on the body (6). The magnet (14) is connected to a sleeve (13) slidably mounted on the body of the fuse.

Description

Description of the invention

The subject of the invention is an impact fuse, especially for cumulative armor-piercing projectiles.

In the hitherto practice, the initiation of an explosion in the heads of cumulative armor-piercing missiles is carried out by means of mechanical detonators or detonators containing piezoelectric elements, which generate an electric charge enabling the initiation of an explosion at the moment of a missile collision with a target. In both cases, before the explosion is initiated, the shaped charge caused by the collision of the load cause its deformation significantly reducing the penetration capacity.

An impact fuse, especially for cumulative anti-tank missiles, comprising a pyrotechnic self-eliminator and a mechanical safety system, according to the invention is characterized in that it comprises a coil cooperating with a magnet, the coil being connected via diodes to the system of primers initiating the activation of the pyrotechnic elements of the fuse. The fuse is equipped with a spring, preferably helical, installed on the body of the projectile.

In an alternative version of the solution, the coil is connected to the plate via a diode and a thermistor. Preferably, the magnet is associated with a sleeve slidably mounted on the fuse body and is in the form of a ring.

In the solution according to the invention, the primer initiating the explosion of the charge activates the electric impulse caused by the movement of the magnet in relation to the coil connected via the diode with the primer.

The main advantage of the solution according to the invention is that the energy necessary to activate the fuse is not stored therein, but is generated during the launch or collision of the projectile with the target. Moreover, the acceleration of the shaped charge accompanying the collision of the projectile with the target is small, because the element that collides with the obstacle is the spacer sleeve, not the head body. The loads caused by the impact are transferred to the body via a spring, which significantly reduces the momentary loads of the shaped charge, and thus protects it from damage that reduces the penetration rate.

The solution is particularly suitable for use in fuses of cumulative warheads.

The subject of the invention is presented in the drawing, in which Fig. 1 shows a cross-section of the projectile in the position before use (throwing), Fig. 2 - a cross-section of the projectile at the time of throwing, and Fig. 3 - a variant of the fuse with one diode and a thermistor.

The sub-projectile containing the fuse is placed in the cartridge in the position as in Fig. 1. After the sub-projectile is released from the cartridge, under the action of the spring 12, the sleeve 13 moves to the position shown in Fig. 2. This movement is accompanied by the development of an electromotive force in the coil 3. The current generated in this way flows through the diode 8 and activates the primer 10, which ignites the pyrotechnic retarder 11, and this, after a predetermined time and burning of the pyrotechnic mass blocking the diaphragm 4, allows the spring 5 to move the diode 4 to the position that opens the fire path between the primer 9 and a detonator 15. During the collision of the projectile with the target, the sleeve 13 moves with respect to the body 2 of the projectile and the associated magnet 14 with respect to the coil 3 in the opposite direction to the movement caused by the spring 12 during the release of the projectile from the cartridge. This movement again causes an electromotive force in the coil 3, and the flow of current through diode 7 activates the primer 9 and this detonator 15 and the main charge 1 of the projectile. In the event of failure of the fuse, the projectile self-eliminates by stimulating the detonator 15 with a flame from the retarder 11. The electric circuit uses diodes connected in such a way as to ensure the flow of current through the predetermined primer in each of the two movements of the magnet in relation to the coil, which is accompanied by the creation of an electromotive force current flow in two opposite directions. In the solution shown in Fig. 3, after the projectile has been fired, the electromotive force, caused by the movement of the sleeve 13 with the magnet 14 against the coil 3 installed in the body 2, activates, through the diode 7, a primer 10 that ignites the pyrotechnic retarder 11. This system includes a thermistor 16, in in which the energy from the pyrotechnic retarder 11 raises the temperature to a value where its resistance drops to a level that allows a current of sufficient intensity to activate the primer 9 at the moment of collision of the projectile with the target. In this case, the energy generated twice during the relative movement of the magnet and the coil in the same direction is used.

Properly selected length of the sleeve 13 allows to trigger detonation when the distance of the accumulating insert from the obstacle guarantees the maximum penetration of the generated cumulative stream.

Claims (5)

Patent claims 1. Impact fuse, especially for cumulative anti-tank missiles, containing a pyrotechnic self-eliminator and a mechanical safety system, characterized in that it comprises a coil (3) cooperating with a magnet (14), the coil (3) being connected to the primer system (9, 10) initiating the activation of pyrotechnic elements of the fuse, and the fuze is equipped with a spring, preferably a spiral, installed on the body (6). 2. A fuse according to claim The device of claim 1, characterized in that the magnet (14) is associated with a sleeve (13) slidably mounted on the fuse body. 3. A fuse according to claim A device as claimed in claim 1, characterized in that the coil (3) is connected to the primer assembly (9, 10) via diodes (7, 8). 4. A fuse according to claim A device according to claim 1, characterized in that the coil (3) is connected to the detonator (9) via a diode (7) and a thermistor (16). 5. An igniter according to claim 1 The device of claim 1, characterized in that the magnet (14) is in the form of a ring.