SE519542C2 - Ammunition unit with one or more action shells - Google Patents

Abstract

An ammunition device (4) comprising one or more warhead effect jackets (17), each jacket containing warhead effect elements (18). The ammunition device also incorporates one or more explosive compositions arranged inside each warhead effect jacket that in or close to the target is/are triggerable by means of a triggering device. One or more separation charges is/are arranged adjacent to each warhead effect jacket that when actuated cause removel of one or more said warhead effect jacket(s). The actuation devices incorporate or interact with a programming device that operates with a first mode that can be an initial mode in which the actuation devices remain non-actuated, and a second mode in which the programming device actuates the actuation devices for initiating the separation charges, thereby causing ejection of each warhead effect jacket concerned.

Description

20 25 30 5192 542 amition units of both types and that despite this there is a risk that the wrong type of ammunition will be pushed away towards the current target. The invention makes it possible to determine at a late stage with which ammunition effect (Lex. Splitter in combination with pressure effect) a target is to be fought.

There is thus a need to be able to streamline control at the same time as the range of ammunition units can be reduced. The invention intends to solve e.g. this problem and proposes that the ammunition units should be arranged with action shells that can be pushed away before the aiming or felling, ie. It must be possible to adapt the ammunition unit during application or during the time that the ammunition-carrying unit or its carrier circles over the target area. It is then essential that unambiguous and safe firing functions for the action shells can be utilized so that the efficiency of the ammunition units can be maintained. In addition, it is important that the ammunition units can function with high safety when handling and servicing on the ground and when applying to any carrier of the ammunition unit or ammunition units. There is also a desire to be able to use the ammunition unit in several different ways. The invention also intends to solve this problem.

What can mainly be considered to be characteristic of the initially mentioned ammunition unit is i.a. that in connection with the respective action shells one or more separation charges are arranged to cause the removal of one or more of the action shells during their respective activations by means of dedicated activation means and that activation means comprise or cooperate with setting means working with a first position, e.g. a starting position, where the activating means remain unaffected and a second position, where the adjusting means actuate the activating means for triggering the separation charge or the separation charges for repelling the respective affected action shells.

Embodiments of the inventive concept include e.g. that the adjusting means must be arranged on the ground or carrier of the ammunition unit, e.g. a carrier in the form of an airplane. In said embodiments, the respective shells may be made with breaking instructions 10 15 20 25 30 519 542 J; or weakened portions or surfaces, via which the shell cracks during the activation or activations of the separation charge or separating charges. Specific designs can then be used for the shells and the propellant charges, respectively, and thus the shells and the propellant charges can assume different cross-sectional shapes where the shell or shells have a hexagonal shape and the propellant charge has a circular shape in the cross-section, or vice versa. Depending on the design of the shell or the propellant charge in the cross section, the separation charge or charges can be assigned different geometric designs in the cross section. Thus, the separation charges in said cross section may have sector-shaped, disc-shaped, etc. designs.

The separate charge can also be arranged in parts of the action shell and Lex. be evenly distributed in its cross section so that appropriate fitting functions are present. In one embodiment, only a part of the shells is removed, with the result that the splitting effect occurs only in selected sectors. This is advantageous if the target is in the vicinity of something (objects, squad, people, etc.) that you do not want to damage with a shattering effect. In further embodiments, the ammunition unit can be provided with fl your concentric action shells with intermediate separation charges. The shells can then consist of e.g. large and small splinters or light and heavy splinters. The combat part can also be arranged to burst with all the splitter shells in place, which gives the effect at a long distance with large splinters and the effect at a short distance with small splinters with a high splinter density per unit area. If the shell with large splits is removed when the act of war breaks out, the effect is obtained from the small splits.

The radius of action of the combat unit can thereby be limited. When all the shells have been removed from the combat part, only the pressure effect remains. The radius of action is then small in relation to the radius of action with splits. In this way, the effect can be selected by target type in three levels with different radii of action. Further embodiments of the inventive concept appear from the following subclaves and the description.

Through the above proposed, an ammunition unit is obtained which in a technically and economically advantageous manner can be adapted to different target types in connection with loading and unloading at targets. The combat of the different target situations can thus take place with basically the same ammunition unit that can be influenced for conversion to the different target types. Well-proven components can be used in this context, which guarantees a high level of safety when handling and servicing the ammunition units. The ammunition unit 10 15 20 25 30 519 542 4 the unit can Lex. applied to fl eye plane, robot (eg cruise robot), artillery grenade, etc. that circulate or fl eye over the target area where different target types may be present. In connection with the launching of the ammunition unit, this can finally be set for the right type of target, which is then fought effectively. Separately known separation charges can be used. Thus, it can be decided at a late stage whether the ammunition unit is to fight a target in question with only a pressure effect or whether splinters, bullets, etc. are to be included in the triggering effect.

A presently proposed embodiment which exhibits the features significant for the invention will be described below with simultaneous reference to the accompanying drawings where the figure in principle diagram form shows different target types, the ammunition unit's different trigger functions and the ammunition unit's impact from fl planes and / or ground, in different sections of drive shells and drive and separation charges arranged inside Figures 2-7, Figure 8 in cross section shows a further embodiment which gives splitter action in only selected sectors, and Figure 9 in cross section shows yet another embodiment which enables three-level function with respect to the action functions .

Figure 1 shows different target types 1 and 2 within a target area 3. In accordance with the invention, it must be possible to combat each target type in an optimal way with one and the same type of ammunition unit. Alternatively, one of the said targets 1 or 2 should be able to be controlled with different control effects which can be selected at a late stage in the control in question. In the figure an ammunition unit 4 is shown in a first position 5. In position 5 the ammunition unit 4 is above the target type 2 and according to the example the ammunition unit attacks the target 2 with a tripping effect which gives a pressure effect 6 in combination with splitter or bullets 7. The ammunition unit 4 can perform an alternative action, e.g. towards the target 1. In this alternative action, the ammunition unit operates in two stages, the ammunition unit in the first stage having the designation 4 'and the position 5'. In this step, separation charges described in more detail below have been activated, which results in the displacement of the action shell 8, also in accordance with the following.

After firing, the unit 4 'can occupy the position 5 "in closer proximity to the target 1. In the position 5" the target 1 is fought with only a pressure effect 6 ". It is understood that this alternative influence can also take place of the target type 2. type carried by a fighter 9. The aircraft 9 fires in the case of 4, 5 the ammunition unit 4 towards the target 2. The ammunition unit is equipped with time circuits 4a which in a manner known per se can be triggered either from the fighter, the robot, etc. via wireless connection 10 or by means of time circuits which are started when ejected from the plane 9 or the like.

The ammunition unit also comprises activating means 4b for the separation charges described in the following.

Alternatively, the eyepiece (or equivalent) can extend the ammunition unit 4 "according to positions 5 'and 5". After the ejection from the eye plane (or equivalent), setting means 9a in the eye plane are actuated to trigger via a wireless connection 11 the separation charge (s) mentioned above with the symbol 4b '. In this position, the actuating means for the ammunition unit's propellant charge or propellant charges are unaffected. The action of the member 4b 'causes the action shell or action shell parts 8 to be separated from the body of the ammunition unit 4'. Alternatives to a trip signal or setting signal from the plane 9a can consist of per se known time circuits, which are thus activated in connection with the launch from the aircraft 9 (or equivalent) and come into operation when the ammunition unit 4 'is at a safe distance from the plane. . With the action shell thus separated, the ammunition unit 4 'can abut further towards the target 1' to Lex. the position 5 "where the release of the propellant charge takes place by means of the means 4a 'which can be actuated via wireless connection 12 or by means of time circuits which are started in connection with ejection from the eye plane 9. The release thus causes only the pressure effect (without splinters, balls, etc.) to be effected towards the target 1. The ammunition unit may alternatively, as above, be of the type fired from the ground, e.g. robot or cruise missile, said adjusting means being arranged in a grounded equipment 13, which thus comprises means corresponding to said means 9a. The ground equipment affects the ammunition unit via wireless connection 14, 15 and 16 respectively.

In figure 2 an action shell is shown with 17 and the action elements included in the shell in the form of bullets are shown with 18. Inside or inside the shell an explosive charge or propellant charge is arranged 19. According to the embodiment shown, the action shell has a substantially circular shape in the figure 2 showed the cross section. The propellant charge 19 has in the same cross section the shape of a polygon, which in the exemplary embodiment consists of a hexagon. The action shell 17 is provided with breaking instructions or weakened surfaces or portions 20 which facilitate the cleaning of the shell as this is to be pushed away before the release of the propellant charge 19. The corners 19a of the hexagonal propellant charge 19 adjoin or abut the inner surface 17a of the actuator shell. The connection points for the corners 19a are then arranged in connection with said crime instructions 20. Through said shapes on the action shell and the propellant charge, sector-shaped spaces 21 are obtained between the sector charge 19b of the propellant charge and said inner surfaces 17a on the actuator shell, in which sector-separated spaces 22 are located. The separation charges are of a kind known per se and are triggered in a manner known per se with the means 4b, 4b ° indicated above. The separation charges must not cause the propellant charge 19 to be triggered during their activations, since this must be triggered at a later stage.

In the embodiment according to Figure 3, the action shell 17 'is instead shaped like a polygon, which in the exemplary embodiment consists of a hexagon. The propellant charge 19 'has a circular design in the current cross section. The spaces thus obtained between the inner surface 17a 'of the action shell and the outer surface 19b' of the propellant charge have a substantially triangular shape where the base of the triangular is arcuate in accordance with the circular outer surface of the propellant charge. The tip 22a of the respective triangle is then arranged in accordance with said crime instruction or weakened portion or surface 20 '. The tripping of the propellant charges in this case also entails an effective splitting of the action shell and that the propellant charge 19 ”remains unaffected. Of course, the propellant charges 19 and 19 'are then arranged so that they are retained in the ammunition unit after the separation of the action shell. In the embodiment according to Fig. 4, both the action shell 17 "and the propellant charge 19" are made with circular cross-sections in the current cross-section shown in Fig. 4. The shell 17 "has a radius R which exceeds the radius R" for the outer surface of the explosive kit 19 ". An annular gap 21 'is formed in which a similarly annular separation charge 22" is arranged. In this embodiment a number of wedge-shaped members 23 are used which extend from the separating charge 22 "to positions between two adjacent balls 18 ', 18". The members 23 are evenly distributed along the circumference of the shell and in the case shown are four in number. The wedge-shaped members strive to divide the shell into four substantially equal parts, one of which is indicated by 17c, in the radial direction r outwards from the center 24. The respective part 17c constitutes a quarter of the circumference of the shell.

In the embodiment according to Figure 5, there are also circular cross-sections for the shell 17 "'and the propellant charge 19"'. In this case, the difference between the radius R of the inner surface of the shell is only slightly exceeding the radius R "of the outer surface of the explosive charge 19". In this case, the separation charges have been divided into four smaller separation charges 25, 26, 27 and 28 which are arranged in the shell, and in the present case in the ball path of the shell where the respective charge, e.g. the charge 25, is inserted between a pair of balls 18 "'and 18" "in the ball path. In the present case, four separation charges are used which are evenly distributed along the circumference of the shell and are arranged at a mutual distance of 90 °, ie. the shell is in principle divided into four substantially equal parts which can be separated from the explosive charge 19 "'in connection with the activations or tripping of the separation charges.

In the embodiment according to Figure 6, the separation charges 26 "are divided in the same way as in the embodiment according to Figure 5. In this case, the action shell 17" "is assigned a hexagonal design in the cross section shown in Figure 6. The separation charges 26 'are six more The action shell is thus divided into six different separable action shell parts which are effectively separated from the explosive charge 19 "" at their releases. The propellant 19 "" has a circular design in the exemplary embodiment shown. 30 m H »- Also in the exemplary embodiment according to Fig. 7, the action shell 17" "is made hexagonal in the cross section according to Fig. 7. The propellant charge 19" between the corners of the hexagonal shape which are then provided with criminal instructions or weakenings 20 ”in accordance with the above. The explosive charge is in this case circular and holds the separation charges in place by co-operation 27 at the center of the disc-shaped separation charges.

According to Figure 8, only a part of the action shell can be removed, and in the present case half of the action shell has been removed or pushed away so that only the other half 29 of the action shell is included or remains at the trigger of the ammunition unit.

The sector 30 initiated by the action scale part (29) in question exerts a splitting effect, while the sector 31 only exerts a pressure effect (without splinters due to the action scale part not shown in Figure 8).

In the embodiment according to Figure 9, the ammunition unit 32 is provided with koncent your concentric action shells 33, 34, 35 with separation charges, (tubular ones) 36, 37 intermediate. The different action shells may comprise small and large splits 38, 39, respectively. The figure shows different layers of action shells and it will be appreciated that the number of layers can be varied.

With all the splitter shells in place at the release of the unit 32, the effect is obtained at a long distance with the large splitters and the effect at a short distance with the small splitters, which also gives a high splitter density per unit area. If the action shell with the large splinters is removed before the triggering of the ammunition unit, the said effect is obtained from the small splinters and the radius of action of the combat part is thus limited at the triggering of the ammunition unit. If both or all the shells are removed before the unit is tripped, there is only a pressure effect from the unit which can thus have an effect on the number of concentric action shells corresponding to level effects at its tripping.

The invention is not limited to the embodiment shown above by way of example, but may be subject to modifications within the scope of the appended claims and the inventive concept.

Claims (18)

10 15 20 25 519 54.2 7. <. ~. f PATENT REQUIREMENTS An ammunition unit with one or more action shells (17) comprising action elements (18), Lex. in the form of bullets or splinters, and one or more explosive sets (propellant charges) (19) arranged inside respective action shells which are triggerable in or adjacent to targets (1, 2) by means of trigger means (4a), characterized therefrom , that in connection with the respective action shell (17), one or more separating charges (22) are arranged (22) arranged to cause, in their respective activations by means of actuating means (4b) intended for this purpose, removal of one or more of said action shells. , and that the activating means comprise or cooperate with setting means (9a, 13a) operating with a first position, Lex. a starting position, where the activating means remain unaffected and a second position where the setting means actuate the activating means for triggering the separation charges for repelling the respective affected action shells. Ammunition unit according to claim 1, characterized in that the respective action shell is made with breaking instructions (20) or weakened portions or surfaces, via which the action shell cracks during the activation or activations of the separation charge or separations. Ammunition unit according to claim 1 or 2, characterized in that the respective action shell is made with a substantially circular cross-section, that the explosive charge set is made with a substantially polygonal, e.g. hexagonal cross-section, where the corners of the polygon are arranged adjacent to the inner surface (17a) of the action shell and where sector-shaped spaces (21) between the outsides (19b) of the explosive kit (19) and the inner surface (17a) of the action shell include the separation charges (22). 10 15 20 25 30 519 542 / O Ammunition unit according to claim 3, characterized in that =. .U-. . 1 ~. . the corners of the hexagon (19a) are located at said crime directions (20) and weakened portions or surfaces, respectively. Ammunition unit according to claim 1 or 2, characterized in that the respective action shell has the shape of a polygon, e.g. a hexagon, that the explosive charge is made with a substantially circular cross-section and where the space (21 ') is arranged between the outer surface (19b') of the explosive charge and the inner surface (17a °) of the action shell to accommodate the separation charges (22 '). Ammunition unit according to claim 5, characterized in that said crime instructions or weakened surfaces or portions are located at the corner of the hexagonal-shaped action shell in the current cross section. Ammunition unit according to claim 1 or 2, characterized in that both the explosive charge / propellant charge (19) and the respective action part (17) have substantially circular cross-sections, and that the explosive charge and the action shell are arranged with intermediate annular space (21 "), in which the separation charge (22 ”) is arranged. Ammunition unit according to claim 7, characterized in that wedge-shaped members (23) are located evenly distributed along the circumference in the current cross section are arranged to, at the initiation of the separation charge, bring about or participate in the splitting of respective action shells in a number of arcuate parts. 9. An ammunition unit according to claim 8, characterized in that each part has a stretch corresponding to about a quarter of the circumference of the action shell in the current cross section. 10. An ammunition unit according to claim 1 or 2, characterized in that both the explosive charge / propellant charge and the respective action shell have 10 15 20 25 30. . . . n 519 5112 ll substantially circular cross-sections where the outer surface of the explosive charge adjoins substantially the inner surface of the affected action shell (with gap) and where separation charges are arranged in the affected action shell. 11. ll. Ammunition unit according to claim 10, characterized in that the separation charges are evenly distributed in the cross section of the action shell and the explosive charge / propellant charge. Ammunition unit according to claim 1 or 2, characterized in that the action shell has a polygonal cross-section, e.g. a substantially hexagonal cross-section, and the explosive charge / propellant charge a substantially circular cross-section and that the separation charge is arranged at the corner of the polygon / hexagon or that the separation charges in the cross section are formed in disc shape and extend between the polygon corners performed with criminal instructions or performed with weakened parts or surfaces to facilitate the removal of the action shell. Ammunition unit according to one of Claims 1, 2 or 3, characterized in that only parts of an action shell, e.g. a tubular action shell, is removable before the device is triggered to cause different action effects in different sectors and directions from the device when the device is triggered. 14. An ammunition unit according to any one of the preceding claims, characterized in that it is provided with a number of apart and concentrically arranged operating shells with assigned discharge charges. 15. An ammunition unit according to claim 14, characterized in that the unit is triggerable with all action shells remaining, wherein a first effect is present, e.g. an effect where the unit operates at a larger (radial) distance with larger splinters in combination with the fact that it also operates at a smaller (radial) distance with smaller splitters which can also give a large splitter density. 10 12 Ammunition unit according to claim 15, characterized in that each action shell is removed before the triggering of the unit, the action effect from the unit depending on whether the action shell (s) with the large or small splinters are removed before the triggering of the unit. An ammunition unit according to any one of claims 13-16, characterized in that the action shells are assigned tubular separation charges. Ammunition unit according to one of the preceding claims, characterized in that adjusting means (9a, 13a) are arranged on the ground or in or on the ammunition unit carrying unit (9).