DE102010027575B4 - warhead - Google Patents

Abstract

A warhead comprising a warhead housing (2) with hollow charge (3) arranged therein, comprising a shaped charge housing (5) filled with explosive (6) with a metal coating (7), and a fragmentation charge (4) comprising a fragmentation charge housing (10) filled with explosive (11) ) with at least one splitter occupancy (12), whereby the splitter charge (4) having a passage opening (14) is movable between a position spaced from the positionally stable shaped charge (3) and a position adjacent to the shaped charge (3) in the warhead housing (2).

Description

The invention relates to a warhead comprising a warhead housing.

In the warhead housing of such a warhead an explosive charge is arranged, which can be ignited via a firing and safety device for detonation. Different types are known. One type is a shaped charge comprising a charge envelope filled with an explosive charge. An aligned in the axial direction of the warhead occupancy is z. B. cone, trumpet or dome shaped drawn into the envelope inside. In the case of detonation, the occupancy is pushed outward, forming a so-called thorn of cold-formed metal, which penetrates the target at a very high speed. It is followed by a slower pestle of the main mass.

In addition to a hollow charge can be integrated in the warhead and a fragmentation charge. The splinter charge also includes a shell which is filled with an ignitable explosive. Axially and / or radially, the shell is provided with a splitter assignment, for example in the form of a charge shell axially final splitter plate, or more radially mounted splitter plates. When the explosive is ignited, the splitter occupation is torn by the detonation force, so that the fragments formed therefrom are thrown into the environment, this taking place axially and / or radially depending on the orientation of the occupation.

In known warheads either one or the other type of charge is provided. This means that the function of the warhead is limited to the function or type of integrated charge. For example, from the FR 2 960 054 Al a double pyrotechnic charge is known, in which one charge has a passage opening for the shaped charge spike, which is generated by the other charge. So here is the function of the warhead on hollow charge and blast function limited.

The invention is based on the problem of specifying a warhead whose functionality is improved.

To solve this problem, a warhead is provided according to the invention, comprising a warhead housing arranged therein hollow charge comprising an explosive-filled shaped charge housing with a metal occupancy, and a fragmentation charge comprising an explosive-filled fragmentation charger housing with at least one splitter occupancy, wherein a through hole having splitter charge between a position-fixed shaped charge spaced position and a position adjacent to the hollow charge position in the warhead housing or vice versa is movable.

The warhead according to the invention has two different types of charge, namely on the one hand a shaped charge, on the other hand a splinter charge. While the hollow charge is fixed in position in the warhead housing, the fragmentation charge is accommodated axially movable in the warhead housing, d. h., it can be moved between two excellent positions. In one position, the fragment charge is spaced from the shaped charge. For example, while the shaped charge is at a warhead housing end, the fragmentation charge is at the other end of the warhead housing. The fragment charge has a passage opening lying on the symmetry axis of the hollow charge or is shaped such that it has a passage lying on the axis of symmetry. Now, if the shaped charge ignited with spaced splitter charge on the associated detonator detonates the shaped charge explosive, it comes to the cold deformation of the conical or hemispherical metal occupancy and the initially described spine training. This can spread undisturbed axially in the warhead housing, and penetrate through the through hole of the fragmentation charge to the outside. That is, the fragmentation charge does not hinder the shaped charge function and spine formation when the shaped charge is ignited. At the same time, however, it comes only to the detonation of the hollow charge, but not for splinter charge, d. h., That the warhead in acting in the spaced position fragmentation and ignition of the hollow charge alone acts as a shaped charge warhead.

In principle, it is conceivable for the fragmentation charge to have a separate detonator in order to ignite only the fragmentation charge when the fragmentation charge is in the spaced position, so that the warhead functions only as a fragmentation warhead. However, an improved fragmentation effect is achieved if the fragmentation charge in accordance with the invention another position is brought adjacent to the shaped charge, in which it is positioned as close as possible to the hollow charge and best rests directly on this. If in this case, for example, the shaped charge ignited, it comes to a Überzünden the shaped charge explosive on the splinter charge explosive, ie, that this is ignited over it. Of course, it is also conceivable if the fragmentation charge is assigned its own detonator to detonate the splintering charge explosive and ignite over this on the shaped charge explosive, as of course may be provided separately igniting simultaneously detonator. In any case, there is a detonation of both explosive charges, which the detonation force, compared to the force of only one explosive, significantly increased, resulting in a much larger, stronger fragmentation effect is achieved, which is given radially and / or axially, depending on where the splitter plates are arranged.

While the possibility has been described above to move the fragmentation charge from a position spaced from the hollow charge starting position in a position adjacent to the hollow charge, the direction of movement can of course be reversed. In this case, the fragment charge is in the starting position adjacent to the hollow charge, in this position detonated when ignited a charge and the other charge, it comes to fragmentation. If the warhead, however, only operated as a shaped charge warhead, the splinter charge from the adjacent position in the position removed from the hollow charge z. B. at the other end of the warhead housing moves.

This means that the warhead according to the invention can be operated in two different modes, either as a pure shaped charge warhead with a fragment charge spaced from the shaped charge or as a fragmentation warhead when the fragment charge has been pushed against the shaped charge.

As already described, it is particularly expedient according to the invention if, in the adjacent position, the explosive of the fragment charge can be ignited by the ignited explosive of the shaped charge, d. that is, the splitter charge is not associated with a separate detonator. If the splinter charge is positioned adjacent to the shaped charge, igniting of the shaped charge explosive thus results in over-ignition, the adjacent housing sections being selected in their wall thicknesses and materials such that a simple, good over-ignition is possible. If the splinter charge according to this embodiment of the invention does not have a separate detonator, then the warhead can only be operated as a shaped charge warhead for spaced charges, but as a fragmentation warhead with significantly improved splinter effect in adjacent charges.

In order to allow in particular a good over-ignition and to make the interaction of the separate explosive charges particularly effective, an expedient development of the invention provides that the fragmentation charge housing in the region of the hollow charge end facing one of the shape of the metal occupancy of the shaped charge has at least partially corresponding shape. This means that at z. B. trumpet-shaped design of the metal occupancy and the corresponding end of the fragmentation charge housing due to the intended passage opening is trumpet-shaped, so that it comes to a preferably flat contact the adjacent housing sections. Over this a good over-ignition can be achieved, in particular if, as described, the wall thicknesses are selected to be correspondingly thin. The housings are preferably made of metal, for example aluminum, but it is also conceivable to use fiber-reinforced plastic or the like.

A central feature of the invention is as described in the introduction, the mobility of the fragment charge from one to the other position. In order to enable this automatically, it is provided according to the invention that the fragmentation charge can be moved from one to the other position via a manually or automatically actuatable conveying means. Thus, according to the invention, a conveyor is provided which, when manually or automatically operated, automatically moves the fragmentation load. The operation of the conveyor, so its connection to the charge movement, can either be done manually by a corresponding actuating mechanism (shutter button or the like) is manually operated before the launch of the projectile or missile on the warhead. But of course, an automatic operation is also conceivable, which can be done via the control electronics of the warhead, which is integrated in the fuse and ignition device, d. h., That during flight over a corresponding control signal, the conveyor can be controlled to move the splinter charge and thus to switch the operating mode of the warhead. As an alternative to the automatic movement of the fragmentation charge via the conveying means, it is naturally also conceivable to move the fragmentation charge manually from one to the other position. This can be done for example via a suitable sliding mechanism that can be operated by the user before firing the projectile or missile via an externally tangible lever, d. h. That the user manually moves the fragmentation charge from the one to the other position via the lever and locked in this example by sinking the lever or the like.

If a conveying means is used, according to a particularly preferred embodiment, this comprises at least one tensioned spring element to which a locking element to be actuated for releasing is assigned. The realization of the conveying means via a prestressed spring element is particularly simple since such a spring element, for example in the form of a helical spring, can readily be integrated into the warhead housing. In one position, ie the starting position, the fragmentation charge is fixed by means of a suitable locking element associated with the conveying means or spring element. By pressing the locking element, so releasing the lock, be it manually or as described preferably automatically, the spring element can relax, about what automatically the movement of the splinter charge takes place in the other position.

With regard to the arrangement of the spring element, four different implementation alternatives are conceivable. The spring element mounted in the warhead housing can be compressed via the fragmentation load located in one position. In this embodiment of the invention, therefore, designed as a helical spring spring element at one end of the warhead housing or the shaped charge layer is stored stable, with the other it is superimposed on the fragmentation charge. In this position, the coil spring is compressed by the locked and located either in the spaced or the adjacent starting position fragment charge, so biased. If the lock is released so the spring can relax, the lengthens and pushes the splinter charge against the shaped charge or away from it.

Alternatively, it is conceivable that the spring element between the splinter and the hollow charge is arranged and is elongated at befindlicher in spaced position splitter charge. That is to say that in this case the spring element is supported in a positionally stable manner with the end near the end of the hollow charge, while it is fastened to the splinter charge with the other end. If the fragment charge is in the spaced-apart position, then the spring element, that is to say the helical spring, is stretched in the length, that is to say prestressed again. If the lock is released, the coil spring shortens and pulls the splinter load against the shaped charge. The splinter charge is in a further arrangement alternative in the starting position adjacent to the hollow charge, the elongated spring at the warhead housing end and the splinter charge is arranged upon release of the locking of the splinter charge pulls the shortening here also the splitter away from the shaped charge in the spaced position.

The locking element can be manually operated as already described, d. h., That in this case, the lock must be canceled before launching the warhead. Particularly preferred is the electronically controlled actuation of the locking element via the control electronics, which makes it possible to make the mode switching during the flight as needed. The automatic operation of the conveying means described above is thus realized here by the automatic actuation of the locking element for releasing the same. The locking element may be a locking pin or a locking pawl and the like, which or which is preferably controlled via the control electronics. As is known, an electronic control system is provided in any case since the explosive ignition, etc., is also controlled via this.

As an alternative to using a spring element for forming the conveying means, the conveying means can also be a linear guide system comprising a drive motor. In this embodiment of the invention, the movement of the fragmentation charge via a drive motor, which is controlled by the control electronics. The fragmentation charge is coupled to a suitable slide or the like which is part of a longitudinal guide system. The carriage is moved over the drive motor along the linear guide, about which the fragmentation charge is moved to the hollow charge. It is conceivable, for example, the integration of a ball screw comprising a threaded spindle which is rotated via the motor. On the threaded spindle runs a threaded nut which is coupled in the manner of a carriage with the splinter charge. When turning the threaded spindle, the nut runs along the spindle and thus takes the splinter charge. The engine used is a small, powerful electric motor. It is also conceivable to connect the carriage guided on a linear guide with the motor via a pull wire, which is connected via the motor z. B. wound and so the carriage is pulled.

The splitter occupancy itself is arranged axially or radially lying on the fragmentation charge housing, wherein, of course, axially and radially located splitter occupancies can also be provided, depending on how the fragmentation effect is supposed to be. Preferably, a splitter occupancy has a multiplicity of preformed splinters into which the splinter occupancy bursts during detonation.

• 1 eine Prinzipdarstellung eines erfindungsgemäßen Gefechtskopfs einer ersten Ausführungsform mit einer in der beabstandeten Position befindlichen Splitterladung,
• 2 den Gefechtskopf aus 1 mit in der benachbarten Position befindlicher Splitterladung, und
• 3 eine weitere erfindungsgemäße Ausführungsform eines Gefechtskopfs.

Further advantages, features and details of the invention will become apparent from the embodiment described below and from the drawing. Showing:

• 1 1 is a schematic representation of a warhead according to the invention of a first embodiment with a fragmentation charge in the spaced position;
• 2 the warhead out 1 with fragmentation charge in the adjacent position, and
• 3 a further embodiment of a warhead according to the invention.

1 shows a warhead according to the invention 1 comprising a warhead housing 2 in which a shaped charge 3 positionally fixed at one end of the warhead casing, and in which a fragmentation charge 4 is received axially movable. The hollow charge 3 consists of a shaped charge housing 5 that with an explosive 6 is filled. The axial end of the shaped charge housing 5 is over a trumpet-shaped metal occupancy 7 closed in a conventional manner. To ignite the hollow charge is a fuse and detonator 8th provided, which comprises an igniter, via which an upstream first explosive 9 ignited, then the actual explosives 6 the shaped charge is ignited. Upon ignition of the hollow charge, there is a cold deformation of the metal occupancy 7 , so that forms a very sharp, sharp spike, which forms in the axial direction in the warhead housing and leaves it at the opposite end.

The splinter charge 4 includes a fragmentation case 10 in which also an explosive 11 is provided. At the hollow charge 3 opposite side of the fragmentation charge housing 10 is a splinter assignment 12 provided, which forms the axial housing closure. The opposite side of the splinter load housing 10 has a housing section 13 whose shape is essentially the trumpet shape of the metal occupancy 7 equivalent. This allows these sections to be discussed below 2 is described, can lay flat against each other.

Furthermore, the splinter charge 4 a central passage opening 14 on, that is, the fragmentation case 10 as well as the fragment allocation 12 each have a hole in the middle. This hole allows that when ignited the shaped charge 3 then, when the splinter charge 4 in the in 1 is located, spaced the first position, the spike is through the through hole 14 spread through it and the warhead casing 2 can leave.

Also provided is a subsidy 15 here in the form of a coil spring 16 , which in the embodiment described in more detail here on a collar 17 of the warhead casing 2 is axially supported with its one end. With her other end, she lies at the splinter charge 4 respectively the splinter assignment 12 at. A locking element 18 in the form of a bolt or a pawl and the like arrest the fragmentation charge 4 respectively the coil spring 16 in this first position, in which the coil spring 16 strongly compressed between the annular collar 17 and the splinter charge 4 is included. The locking element 18 is preferably electronically via the fuse and ignition device 8th respectively the control electronics integrated there can be controlled. For example, it may be a movable bolt, which can be moved out of its locking position via a small electromagnet, which can be energized via the control electronics. Immediately associated with this is the release of the spring element, which can then relax. This situation is in 2 shown. While in 1 with at a distance to the hollow charge 3 located splinter charge 4 about the fuse and ignition device 8th only the explosive 6 the shaped charge 3 can be ignited and consequently the warhead can only be operated as a shaped charge warhead, in the charge arrangement according to 2 the warhead as a fragmentation warhead using the explosive effect of both explosives 6 and 11 operate.

Starting from the basic position according to 1 becomes the locking element 18 via the control electronics of the fuse and ignition device 8th controlled, so that the coil spring 16 is released, the lock is thus canceled. This causes the coil spring 16 relaxes and lengthens. This is the splinter charge 4 axially inside the warhead casing 2 against the shaped charge 3 pushed. Obviously, the housing section lays down 13 with its trumpet stump form substantially flat, so almost form-fitting to the trumpet-shaped metal occupancy 7 at. Will now about the fuse and ignition device 8th the shaped charge 3 ignited, it comes with ignition of the explosive 6 immediately to over-ignition on the explosive 11 the splinter charge. This is made possible after the two explosives 6 and 11 separating walls, namely the metal occupancy 7 and the housing section 13 are chosen in their wall thickness and their material so that easily over-ignition is possible. That is, it is immediately a detonation of both explosives 6 and 11 comes. The shaped charge spike can not form in the form here, as in the case of an ignition in the case of the charge arrangement according to FIG 1 , Rather, it comes to an extremely strong detonation, in particular the splinter occupancy 12 with extreme splintering burst. Of course, it is possible to replace only the axially intended splitter assignment 12 also radial splitter assignments, the fragmentation housing 10 radially surrounded to provide.

Instead of a movement of splinter charge 4 from the to the shaped charge 3 spaced position in the adjacent position, the direction of movement may also be reversed, that is, starting from a basic position of the fragmentation charge 4 adjacent to the shaped charge 3 in the spaced position. This would be the coil spring 16 between the shaped charge 3 and the splinter charge 4 to put them so that they are pushed together 3 . 4 is compressed. Will the locking of the splinter charge 4 lifted, so presses the relaxing coil spring 16 the splinter charge from the shaped charge 3 away to the warhead housing end in the spaced position.

The same movement functionality can be readily by using a spring which is elongated in the starting position 16 reach, contracts after releasing the lock and the splinter charge 4 - depending on whether the splinter charge 4 removed in the starting position or adjacent to the shaped charge 3 - moves into the other position as a result.

3 finally shows another embodiment of a warhead 1 , the construction of the warhead 1 from the 1 and 2 equivalent. However, here is a different kind of funding 15 provided, which in the example shown a linear guide 19 together with drive motor 20 For example, a small electric motor, via the fuse and ignition device 8th respectively the control direction which is controlled includes. The linear guide 19 For example, is a threaded or ball screw, comprising a threaded spindle, via the drive motor 20 rotates. On the linear guide 19 , runs a carriage-like component 21 For example, a threaded nut with the splinter charge 4 is coupled, so that these during a movement of the carriage-like component 21 in the direction of the arrow 22 taken along and in the direction respectively against the shaped charge 3 is moved. It then results in a charge end position, as in 2 is shown with the appropriate Überzündmöglichkeit.

That is, even with the warhead 1 out 3 , similar to the warhead 1 out 1 and 2 , a switching between the respective operating mode (shaped charge mode - splinter charge mode) is possible if required.

Finally, it should be noted that the two embodiments described each automatic switching and movements that are so controlled electronically via the control electronics show. In addition, it is also conceivable to provide a pure manual switching mode. In this case, for example, starting from the warhead execution to 1 the locking element 18 manually by the operator before firing the projectile or missile from the locking position to move, for example, to pull out, so that the coil spring 16 relaxes and the splinter charge 4 against the shaped charge 3 emotional.

Claims (11)

A warhead comprising a warhead housing (2) with hollow charge (3) arranged therein, comprising a shaped charge housing (5) filled with explosive (6) with a metal coating (7), and a fragmentation charge (4) comprising a fragmentation charge housing (10) filled with explosive (11) ) with at least one splitter occupancy (12), whereby the splitter charge (4) having a passage opening (14) is movable between a position spaced from the positionally stable shaped charge (3) and a position adjacent to the shaped charge (3) in the warhead housing (2). Warhead after Claim 1 , characterized in that in the adjacent position of the explosive (11) of the fragmentation charge (4) by the ignited explosive (6) of the hollow charge (3) is ignitable. Warhead after Claim 1 or 2 , characterized in that the fragmentation charge housing (10) in the region of the hollow charge (3) end facing one of the shape of the metal occupancy (7) of the hollow charge (3) has at least partially corresponding shape. A warhead according to one of the preceding claims, characterized in that the fragmentation charge (4) can be moved from one to the other position via a manually or automatically actuable conveying means (15) or that the fragmentation load (4) is manually moved from one to the other Position is movable. Warhead after Claim 4 , characterized in that the conveying means (15) at least one tensioned or elongated spring element (16), which is associated with a for relaxation or contraction to be actuated locking element (17). Warhead after Claim 5 , characterized in that the spring element (16) mounted in the warhead housing (2) is compressed by means of the fragmentation charge (4) located in the spaced position, or that the spring element (16) arranged between the fragmentation and the shaped charge (4, 3) is elongated at befindlicher in the spaced position splitter charge (4). Warhead after Claim 5 Characterized in that the warhead casing (2) placed superimposed spring element (16) is elongated at in-the adjacent position fragmentation charge (4), or that between the splitter and the hollow charge (4, 3) located spring element (16) at in the adjacent position splitter charge (4) is compressed. Warhead after one of the Claims 5 to 7 , characterized in that the locking element (17) can be actuated manually or electrically controlled. Warhead after Claim 4 , characterized in that the conveying means (15) is a linear guide system (18) comprising a drive motor (19). Warhead according to one of the preceding claims, characterized in that the splinter assignment (12) on the fragmentation charge housing (10) is arranged axially or radially lying, or that both an axially and a radially disposed splitter occupancy (12) is provided. Warhead according to one of the preceding claims, characterized in that the splinter occupancy (12) has a plurality of preformed splinters

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