NO339372B1 - ammunition Unit - Google Patents

Description

The invention relates to an ammunition unit, such as a grenade, a rocket, projectile charge or the like, which has a warhead comprising a kinetic precursor, a main charge, a shock sensor and an ignition system.

An ammunition unit according to the above is for example previously known from the patent application WO 90/12271. According to the aforementioned patent document and especially page 2, the ammunition unit is provided with a reinforced tip which consists of a separate body, preferably of heavy alloy and which has an increased material thickness in the longitudinal direction. Such a tip is mainly intended to be able to force aside reactive armoring for the warhead of the grenade in the form of a shaped hollow charge placed in an intermediate part of the grenade, is ignited. The ammunition unit is mainly intended for penetration of armored targets equipped with reactive armour.

During battles in urban terrain, it is desirable to fight troops behind walls and open large openings in walls. To achieve such effects, a warhead is required which is made up of more than one charge. A first charge of a precharge makes the hole in the wall while the second charge has a main charge that detonates either inside the wall or behind the wall depending on the desired effect. Warheads provided with two or more charges are known for example from US 6 443 068 Bl, US 4 803 928, US 4 063 512 and DE 196 38 295 B3.

In the area mentioned above, it has been shown to keep the weight of the warhead down, but nevertheless to be able to achieve the desired effect from the ammunition unit. There is also great value in being able to make larger openings. Another important thing is to ensure that the ammunition unit is safe for the operator.

The objectives of providing a light weight ammunition unit that is secure in construction and at the same time offering the desired effect when targeting troops behind walls and of larger openings.

According to the present invention, an ammunition unit is provided as stated in claim 1. The purposes of the invention of an ammunition unit according to the invention where a precharge is contained in the kinetic preliminary stage and where the ignition of the precharge is controlled by the ignition system by introducing a time delay between a sensed impact and the ignition of the precharge and the ignition of the precharge is regulated by the ignition system by introducing an additional time delay before the ignition of the main charge.

In addition to introducing a pre-charge into the pre-stage and igniting the pre-charge when the pre-stage has found its target, for example a wall, a hole or opening in the wall is created which a subsequent main charge can advantageously exploit to create a larger opening by the main charge detonates inside the wall in the hole or opening created by the precursor, detonating or igniting the precharge of the precursor inside the wall is advantageous when creating holes or openings due to the precursor being covered by the target material or damping material all the way around with the exception of straight back towards it remaining ammo unit. This leads to a high energy efficiency produced by detonation. At the same time, the detonation inside or behind the wall gives the operator of the ammunition unit good protection. As an alternative, it is also possible to detonate the main charge behind the wall. There will still be good protection for the operator while the detonation of the main charge is effectively used behind the wall.

According to a favorable embodiment of the ammunition unit, the precharge of the preliminary stage is provided with a forward effective charge. Such an ammunition unit is beneficial in combating an armored vehicle that is protected by armor and some type of external additional protection. In such a case, the external additional protection should be able to be eliminated by means of the preliminary stage, so that the main armor is left bare for the main charge.

According to another favorable embodiment of the invention, a pre-stage is provided before the pre-stage. According to this embodiment, it is possible to achieve an even better effect for thicker targets. For the pre-stage detonates or penetrates the target before the pre-stage.

According to another advantageous embodiment, the precursor is constructed with a weight between 1 and 5 kilograms. In this connection, the weight of the preload should be dimensioned to be more than 1/30 of the weight of the precursor and less than 1/10 of the weight of the precursor. A suitable proposed dimensioning of the ammunition unit is that the kinetic precursor radius perpendicular to an axis of rotation in the direction of flight of the ammunition unit is preferably less than half the main charge radius.

According to another advantageous embodiment of the ammunition unit, the kinetic preliminary stage is provided with an enclosure of steel.

According to another advantageous embodiment of the ammunition unit, detonation ignition acts in the preliminary stage as a shock sensor and an ignition system.

The invention will be described in more detail below with reference to the drawings, where: fig. 1 is a schematic drawing, partially in section, of an ammunition unit according to the invention which comprises a first embodiment of a preliminary stage,

fig. 2 is a schematic diagram in section of a second embodiment of a preliminary stage in another ammunition unit according to the invention,

fig. 3 is a schematic view in section of a third embodiment of a preliminary stage with a preliminary stage and comprised through an ammunition unit according to the invention.

The ammunition unit shown in fig. 1 comprises a preliminary stage 2 and a main charge 3. The ammunition unit 1, which may be in the form of a grenade, is covered by an enclosure 4 around the main charge and in connection with the preliminary stage 2.1 the rear end of the ammunition unit three fins 5, 6, 7 are shown The precursor 2 has a fixed enclosure 8, preferably made of high-strength steel. In the wrapping 8 there is an explosive 9 and a detonation igniter 10. The detonation igniter 10 acts as a shock sensor and a delay device. The main charge is preferably a charge with significant explosive effect radially from a rotation axis 13 of the ammunition unit 1. The main charge 3 can also have significant effect in the forward direction and especially if it is provided with a shaped, hollow charge. According to the embodiment in fig. 1, the main charge 3 is provided with a separate shock sensor 11 and a delay device 12 placed between the precursor 2 and the main charge 3. Naturally, it is possible to place the shock sensor 11 and the delay device 12 in another way. The shock sensor 2 has been shown as a box and this is intended to imply that any known type of shock sensor can be used which is suitable in this connection. Before igniting the ammunition unit, it is preferably placed in a cylinder not shown.

When an operator activates an ammunition unit, it is ejected from the cylinder, not shown, and sent toward a target, such as a wall. When the target is reached, the ammunition unit has achieved a not insignificant velocity. The shape and weight of the precursor 2 in combination with its velocity causes the precursor 2 to penetrate the wall. The detonation ignition 10 notifies that the preliminary stage has reached the target and after a delay regulated by the detonation ignition 10, explosives 9 are activated at the detonation ignition 10. The shock sensor 11 of the main charge 3 activates the main charge 3 after a time delay controlled by the delay device 12. The time delay of the delay device 12 is chosen so that the main charge is not activated until the explosive of the precursor 12 has been detonated. As shown dashed at line 14, the shock sensor information of the detonation ignition, by connecting the detonation ignition 10 to the delay device 12, can be used as an alternative to the separate shock sensor 11.

In fig. 2 shows a second proposed embodiment of the precursor 2. An explosive 9 and a detonation ignition are arranged in the enclosure 8 of the precursor in the same way as for the first embodiment shown in fig. 1. In addition to the aforementioned components, a liner 15 is also provided to achieve the effect of a shaped, hollow charge in the forward direction of the ammunition unit. By taking advantage of the shaped, hollow charge, the need for any additional external protection is eliminated.

Fig. 3 shows a third embodiment of the pre-stage 2. In this case, a pre-precharge 15 is provided in front of the pre-stage 2. The pre-precharge can be constructed as a shaped, hollow charge or an explosive body which detonates or penetrates into the target before the pre-charge. Introduction of a pre-charge improves the effectiveness of the ammunition unit for thick targets.

The ammunition unit according to the invention is not limited to the embodiments described above, but can be modified within the framework of the following requirements and the idea of the invention.

Claims (6)

1. Ammunition unit (1), for example a grenade, missile, charge-carrying projectile or the like, which has a warhead comprising a kinetic precursor (2), a main charge (3), an impact sensor and an ignition system (10-12), the the kinetic pre-stage (2) is connected to the main charge (3) via an enclosure (4) during operation, a pre-charge (9) is fitted in the kinetic pre-stage (2), the kinetic pre-marker radius perpendicular to an axis of rotation (13) in flight of the ammunition unit (1) is smaller than the radius of the main charge (3), the ignition of the precharge (9) being controlled by the ignition system by introducing a time delay between a sensed impact and the ignition of the precharge (9) and the ignition of the main charge (3) being controlled by the ignition system by introducing a further delay time (12) before ignition of the main charge (3), characterized in that the precharge (9) of the kinetic precursor (2) is provided with a forward effective shaped charge (9, 15) in the space in the kinetic e premarker (2). 2. Ammunition unit according to claim 1, characterized in that the kinetic precursor (2) radius perpendicular to a rotation axis (13) in the direction of flight of the ammunition unit (1) is less than half the radius of the main charge (3). 3. Ammunition unit according to any one of the preceding claims, characterized in that the kinetic precursor (2) is provided with an enclosure of steel. 4. Ammunition unit according to one of the preceding claims, characterized in that a detonation fuse (10) which is in the premarker (2) functions as an impact sensor and the ignition system. 5. Ammunition unit according to any one of the preceding claims, characterized in that the premarker (2) is designed with a weight of between 1 and 5 kg. 6. Ammunition unit according to claim 5, characterized in that the weight of the preloader (9) is dimensioned to be more than 1/30 of the weight of the premarker (2) and less than 1/10 of the weight of the premarker (2).