The present invention claims priority to European patent application 06445008.3 filed 9 Mar. 2006.
The present invention relates to a method for reducing the amount of ammunition types to be used against a wide set of targets, the method making use of at least two explosive charges in cooperation. The invention also refers to an ammunition device admitting a reduction of the amount of ammunition types to be used, namely an ammunition device, such as a shell, projectile or missile, comprising an adaptable warhead comprising at least two cooperating explosive charges arranged in a row along the direction of movement of the ammunition device when activated.
In future warfare, combat will be carried out in a great and increased number of different areas. A probable scenario for all operative war cases, such as international efforts, invasion defence and terrorist combating, is that the combat will take place in urban areas. For this reason the number of target types that must be considered and defeated is increasing. In addition to known target types such as armoured and unarmoured vehicles, troops in open area and field fortifications or bunkers, other types of targets such as troops in buildings, troops or soldiers behind corners and walls and not to forget buildings per se must be considered.
In the past this was solved by bringing special ammunition for each type of target. However, in view of the increased number of target types now present or expected in the future it is not possible to bring all types. First of all this holds for carried weapon systems but also vehicles have limited space and carrying capacity. Furthermore, if a great number of ammunition types are carried there is a risk that the number of ammunition of each type is to small to solve its mission.
Combat in urban areas also often requires that at least some of the ammunition types carried, if not all, are constructed so that they can be used in confined space. A so called CS capability is desirable. Many heavy weapons now used generate a to high pressure wave to be used in confined space. For this reason the number of ammunition types to be carried or transported may be doubled.
Attempts to reduce the number of ammunition types used are previously known. According to U.S. Pat. No. 6,467,416 B1 and U.S. Pat. No. 5,509,357 A some kind of dual or combined operation of a warhead comprising one single explosive charge is known. U.S. Pat. No. 6,467,416 B1 describes a combined high-blast/anti-armour warhead. After impact with the target, the target sensor will trigger a fuse either immediately or after a short delay, depending on weather the warhead is set to anti-armour or high-blast mode. According to U.S. Pat. No. 5,509,357 A the warhead is provided with a front and a rear detonator. Actuation of the rear detonator alone results in an amour piercing mode of operation whereas near simultaneous actuation of both detonators results in a wider area of impact of the forward focused energy and in an enhanced sidespray fragmentation. These known single explosive charge warheads are limited in their effect and are to be regarded as a compromise in obtaining two different ammunition types that are not as effective as desired.
An object of the invention is to obtain a method and an ammunition device that admit the creation of a more effective warhead for all ammunition type effects to be created by the warhead. Another object is to obtain a warhead that can effect more than two different ammunition types.
The objects are obtained by a method in which each of the explosive charges are given changeable characteristics and are arranged to mutually cooperate in different ways depending on the particular changeable characteristics given to the explosive charges in a specific case and the type of target to be combated. The objects are also obtained by an ammunition device in which each of the comprised explosive charges are switchable between at least two operating conditions having different operating characteristics. By introducing at least two cooperating explosive charges in the warhead and providing each of the explosive charges with a possibility to switch between at least two different operating conditions, it is ensured that a great number of different effective ammunition types can be obtained. According to our solution an ammunition device with an adaptable warhead is obtained in which the operation against the target to be engaged is optimized by changing the operating conditions of the explosive charges included and taking advantage of the cooperation between the explosive charges according to target type. The proposed ammunition device comprises at least two explosive charges that each one can be given changeable characteristics and cooperates in different ways. Accordingly, one single ammunition device is able to have effect on many types of targets and having optimal effect against each of the target types.
According to a first preferred method of the invention a change of characteristics in at least one explosive charge is carried out by choosing different points of initiation.
According to a second preferred method of the invention a change of characteristics in at least one explosive charge is carried out by choosing different stand-off.
According to a third preferred method of the invention a change of characteristics in at least one explosive charge is carried out by choosing different delay times.
According to a forth preferred method of the invention a change of characteristics in at least one explosive charge is carried out by turning off the explosive charge.
According to a fifth preferred method of the invention a change of characteristics in comprised explosive charge is carried out by choosing a mixture of any of the changes proposed according to the first, second, third or forth preferred methods above.
The use of any of the above proposed preferred methods in consideration of the cooperation between comprised explosive charges has turned out to create effective ammunition devices for different types of targets.
In agreement with the above proposed preferred methods there are corresponding preferred ammunition devices in which at least one of the comprised explosive charges comprises at least two different points of initiation corresponding to two different operating conditions, at least one of the comprised explosive charges is provided with a stand off unit switchable between at least two different stand off conditions corresponding to two different operating conditions and/or at least one of the comprised explosive charges is provided with a time delay unit switchable between at least two different time delays corresponding to two different operating conditions.
According to a favourable embodiment of the ammunition device at least one of the comprised explosive charges in one operating condition is designed with a direction of action essentially perpendicular to its direction of movement and restricted to a sector. In this particular operating condition the effect of the explosive charge can be concentrated towards a target perpendicular to the direction of movement of the ammunition device when the ammunition device passes by. Preferably, the ammunition device is arranged to rotate and the sector restricted explosive charge is arranged to be activated under consideration of the rotational position of the explosive charge. Combining the knowledge of the rotation or roll position of the ammunition device with the initiation of a sector restricted explosive charge enables a very accurate effort towards a target while simultaneously the surroundings can be left unharmed. This is very valuable for example when hostile troops and own troops are combating close to each other in urban areas.
According to another favourable embodiment of the ammunition device the device comprises three explosive charges in a row along the direction of movement of the device when activated, the first one being a pre-charge, the second one a main charge and the third one a sector restricted charge in one of its operating conditions. Introducing three explosive charges in which each one of the charges is switchable between at least two operating conditions results in the generation of many different working modes of the ammunition device. For example, if it is assumed that all three comprised explosive charges are switchable between two operating conditions the over all working modes of the ammunition device is 23=8.
Furthermore it is proposed according to still another embodiment that at least one of the comprised explosive charges is a projectile forming shaped charge. According to another embodiment it is proposed that at least one of the comprised explosive charges is a jet forming shaped charge. It is also proposed that at least one of the explosive charges is provided with a fragmentation envelope and furthermore that at least one of the explosive charges is provided with metal rods around the periphery of the charge. Furthermore it is proposed that at least one of the explosive charges is provided with a crush sensor immediately activating a detonation of the explosive charge if sensing a crash. These proposed embodiments considered all together make it clear that a great number of different combinations of effects of the ammunition device can be obtained within the scope of the invention.
The invention will now be described in more detail with reference to the accompanying drawings in which:
a and 3b illustrate the effect of a first use of an ammunition device according to the invention in a first exemplified mode.
a and 4b illustrate the effect of a second use of an ammunition device according to the invention in a second exemplified mode.
a and 5b illustrate the effect of a third use of an ammunition device according to the invention in a third exemplified mode.
The ammunition device 1 schematically shown in
In the ammunition device shown, the front explosive charge 3 is provided with a liner 9 to create a shaped charge. Furthermore the front charge 3 is provided with a fragmentation envelope 10. The rear explosive charge 4 is also provided with a liner 11 to create a shaped charge adding to the penetration of the front charge or pre-charge 3. Furthermore the envelope of the rear charge is provided with metal rods 12 of concave or other shape.
The front charge is constructed to be switchable to generation of full calibre holes in walls, to creation of encroachment holes in thick armour, to clearance of reactive armour or generation of a first fragmentation field. The switchability is obtained by suitable choice of points of initiation and stand off for the front charge.
Requirements of the rear charge 4 could be that the charge should pass through a hole in a wall and detonate behind the wall, blast an entrance hole in the wall for a soldier, demolish a field fortification, penetrate main armour or continue in a hole that a front charge has started to create. Detonating the rear charge in the air shall result in that a secondary fragmentation field is generated separated from the fragmentation field generated by the front charge. The switching of the rear charge is carried out by changing points of initiating and time delays.
It is to be noted that in the case that the ammunition device is to be carried by a soldier some of the operating facilities may be deleted to reduce the weight of the ammunition device. For such carried ammunition devices a combination that is possible to carry and presenting optimal effect against desired types of targets is chosen.
The ammunition device 1 showed in
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Finally it is discussed below how three explosive charges of an ammunition device can be used in different operating modes depending on the type of target to be combated. In the following the charges are denoted first charge 3, second charge 4 and third charge 13. The first charge 3 can also under certain circumstances be called a precursor, while the second charge can be called a main charge. The third charge is a non-symmetrical charge which can create an explosive blast or directed fragmentation.
When used against a main battle tank, MBT, or an infantry fighting vehicle, IFV, the first charge is set to clear reactive armour and to create initial penetration. The second charge continues the penetration while the third charge can be set to a turned of condition if needed for low collateral effect.
When used against an thin armoured personal carrier, APC, the first charge is set to create a full calibre entry hole while the second and third charges are set to burst close to and/or behind armour plates.
When used against an unarmoured vehicle the first charge is set to burst behind the surface of the unarmoured vehicle or set to be turned off. The second charge is also set to burst behind the same surface or set to be turned of. The third charge can be set to directed blast or set to be turned off.
When used against a fast attack craft, FAC, the first charge is set to create an entry hole while the second charge is set to burst close to and/or behind hull plates. The third charge can be set to generate directed fragmentation or set to be turned off.
When used against a helicopter it is proposed to initiate all three charges simultaneously. The ammunition device can be set to directed fragmentation or direct hit.
When used against soldiers in buildings the first charge is set to create an entry hole in a wall, roof or similar obstacle. The second charge can be set to be turned off and the third charge can be set to be initiated behind the obstacle in a directed fragmentation condition or to be set to be turned off.
When used against soldiers in the open area the third charge can be set to directed fragmentation. All charges can then be set to be initiated simultaneously or alternatively the first and/or the second charges can be set to be turned off.
When used against a field bunker the first charge can be set to create a channel while the second and third charges are initiated simultaneously with a delay.
When used against concrete structure the first charge can be set to create a channel and the second and third charges can be set to be initiated simultaneously by a crush sensor.
The device for indicating the direction according to the invention is not limited to the embodiments described above, but can be modified within the framework of the following claims and concept of the invention.
Number | Date | Country | Kind |
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06445008.3 | Mar 2006 | EP | regional |