DE3732752A1 - Cluster munition (submunition carrier projectile) with submunitions - Google Patents

Abstract

Until now, submunitions which can be ejected from a cluster munition required adjustable means for setting the detonation separation for the shaped charge to achieve an optimum effect in the target zone, as a result of which, however, it is not possible to prevent the shaped-charge diameter being reduced or the penetration performance of the shaped charge being adversely affected as a result of the adjusting mechanism. The invention is intended to avoid these measures which adversely affect performance without having to dispense with the previous transportation arrangement (which has a high packing density) of the submunitions within a cluster munition. The detonation spacers 7 are for this purpose mounted in a fixed position on the front outer casing 11 of the submunition sleeve 3 and are held during transportation in a length, which projects significantly beyond the submunition 2, in longitudinal grooves 8, 8', 8'', 8''' of the fillers 4, 5, 6, 6' which exist in the cluster munition. The direct mounting of the detonation spacers 7 on the outer casing 11 of the submunitions 2 furthermore simplifies submunition production, the position of the detonation spacers 7 and of the associated longitudinal grooves in the fillers 4, 5, 6, 6' ensuring that the submunitions are ejected from the cluster munition without any disturbances. <IMAGE>

Description

The invention relates to a bomblet carrier floor according to the preamble of claim 1.

Such a bomblet carrier floor is an example wise from the magazine "Wehrtechnik" 10/85, page 113. Those in a variety of bomblet carriers shot into a target area to be transported blets become within the carrier floor Swirl transmission arranged between the bomblets Neten fill pieces held. The bomblets included to achieve a maximum effect of the shaped charge in the target area means that after the bom blets from the main floor and descend to the finish area detonation at a certain minimum ensure distance above the target surface. So far for example from DE 22 42 930 A1 or from EP 01 78 486 A1 known means of guarantee this minimum distance (stand off) are adjustable bar, preferably ver forward via compression springs slidable and during transport in the carrier placed inside the bomblet. As Firing spacers trained means can for example extendable legs that are inside the outer shell of the bomblet are guided. These Arrangement can, however, with an unchangeable Trä bullet diameter to reduce the hollow lead charge diameter. Furthermore, it can Means to achieve the optimal ignition distance for example also designed as an ignition spacer tube to be one within the Hollow the shaped charge arranged compression spring be  necessary, which affects the penetration performance of the shaped charge may not be sufficient is close.

The invention is based, the Zündab to arrange stand elements on the bomblet in such a way that Changes to the bomblet that are particularly performance-related require pregnant measures, are unnecessary, and that the previous high packing density having transport arrangement of the bomblets within of the bomblet carrier floor remains guaranteed.

This task is solved by the in the license plate of claim 1 specified features.

The invention makes it possible in an advantageous manner from the filler pieces between the bomblets in the Bomblet girder-filled space usable for the arrangement of the ignition spacers close. The ignition spacers can by the inclusion in the longitudinal grooves of the filler directly in the production at an optimal ignition interval attached to the outside wall of the bomblet. The Invention significantly simplifies production, because a Me required in known solutions mechanism for extending the ignition spacers is unnecessary. The ignition spacers are invented arranged according to the outer jacket of the bomblet net, which means no diameter reduction of the hollow charge is required and therefore the breakthrough performance of the shaped charge is not affected. The inclusion of the ignition spacer within the Longitudinal grooves of the filler also causes no restriction on the number of bomblet Carrier floor for bomblets to be transported.  

Advantageous refinements and developments the invention emerge from the subclaims.

The location of the attachment of the ignition spacers the size of the bomblets guaranteed due to the because of a spacer in each an adjacent filler after bomblet ejects an immediate release from the carrier floor the filling pieces from the bomblets.

Furthermore, the ignition spacers allow one multilayer, in particular two-layer arrangement of Bomblets within the main floor without the Endanger the ejection process of the bomblets.

The invention is based on an embodiment explained in more detail in the drawings.

It shows:

Fig. 1 shows a bomblet partially in longitudinal section;

Fig. 2 shows a cross section through a load floor known per se with an illustration of arranged bomblets.

Fig. 1 shows a bomblet designed as a projectile head 2, an outer casing 3 to the on acceptance of a liner 12 having a dung Hohlla 13 and comprises a arranged in the rear region of the shell 3 detonator fourteenth The casing 3 of the bomblet 2 is constricted in the detonator area, so that the bomblet 2, which essentially has a cylindrical casing 3 , within a bomblet carrier projectile 1 ( FIG. 2) presented in the periodical "Defense Technology" 10/85, page 113. FIG. can be stacked closely one behind the other.

For swirl transmission and securing the lateral spacing of the bomblets 2 are arranged according to FIG. 2 inside half of the bomblet carrier level 1 in the radial and circumferential direction between the bomblets Füllstüc ke 4 , 5 , 6 , 6 ', the wall on the inner 9th of the bomblet carrier level 1, fillers 4 , 5 each fill the adjacent free space between two adjacent bomblets 2 . The cross-sections of these on the inner wall 9 of the Bom blet carrier floor 1 filler pieces 4 , 5 are mirror images of the same, the contact surfaces 15 , 15 'of the filler pieces 4 , 5 form a radial axis of symmetry of the free space. The swirl transmission from the carrier floor 1 to the bomblets 2 takes place via a not shown tongue and groove connection.

The bomblets 2 adjacent to the inner wall 9 form a second layer around a bomblet 2 arranged centrally on the longitudinal axis 10 in the carrier storey 1 , the clearance between the central bom blet 2 and the surrounding bomblets 2 being likewise divided by halves of circular segment-shaped filler pieces 6 , 6 'is filled.

Each bomblet 2 contains to ensure an optimal firing distance a when the bom blets 2 hit a target surface (not shown ) 3 rod-shaped firing spacers 7 which are non-slidably attached to the front outer wall 11 of the casing 3 of the bomblet 2 . The ignition distance holder 7 are connected in a known manner, for example, by an adhesive connection or rivet connection to the outer wall 11 of the bomblet. In cross section, the ignition spacers can be, for example, square ( FIG. 2) or in a manner not shown as a polygon that is different from the square shape or circular or semicircular.

According to a preferred embodiment, the ignition distance a is 2.5 to 3 caliber diameters of the bom blet, the fastening length of the ignition distance holder on the outer wall 11 of the bomblet being approximately 0.5 caliber diameter. The filler pieces 4 , 5 , 6 , 6 'have the cross-section of the respective Zündabstandshal ter 7 adapted longitudinal grooves 8 , 8 ', 8 '', 8 '''for receiving the ignition spacer 7 . The Zündabstandshalter 7 are arranged such in a bomblet 2, for example, that every once in each case includes at the inner wall 9 of the bomblet carrier projectile 1 to lying bomblet 2 on both sides to the inner wall 9 is a Zündabstandshalter 7, which by a longitudinal groove 8, 8 'between the bomblets 2 and the inner wall 9 arranged filling pieces 4 , 5 is received. The third firing spacer of this on the inner wall of the supporting floor 1 bomblets 2 is each taken from the ring-shaped and centrally arranged filler pieces 6 , 6 'in outside longitudinal grooves 8 ''. For receiving the central in the bomblet carrier projectile 1 arranged bomblet 2, the ring-shaped filler pieces 6, 6 'on the inside with longitudinal grooves 8' '' is provided.

Reference symbol list:

1 bomblet main floor
2 bomblets
3 case
4, 5, 6, 6 ′ filler
7 ignition spacer
8, 8 ', 8'',8''' longitudinal groove
9 inner wall
10 axis
11 outer wall
12 lining
13 shaped charge
14 detonators
15, 15 ′ area
a length

Claims (3)

1. Bomblet carrier level ( 1 ) with bomblets ( 2 ) and fillers ( 4 , 5 , 6 ) arranged between the outer casings ( 3 ) of the bomblets ( 2 ) and with ignition spacers ( 7 ) which are rod-shaped on each bomblet ( 2 ) , characterized in that the spark gap holder (7) non-displaceably on the wall of the front exterior (11) of the envelope (3) of the bomblet (2) are fastened and in a substantially front side projects beyond the bomblet (2) length (a) find in longitudinal grooves ( 8 , 8 ', 8 '', 8 ''') of the filler pieces ( 4 , 5 , 6 ). 2. bomblet-carrier projectile according to claim 1, characterized in that each on the inner wall ( 9 ) of the bomblet-Trägerge lap ( 1 ) adjacent bomblet ( 2 ) on both sides to the inner wall ( 9 ) each contains an ignition distance holder ( 7 ), of a longitudinal groove ( 8 , 8 ' ) one between the bomblets ( 2 ) and the inner wall ( 9 ) arranged filler pieces ( 4 , 5 ) is taken up, the filler pieces ( 4 , 5 ) mirror-symmetrically the area between two adjacent Fill in bomblets ( 2 ). 3. bomblet carrier floor according to claim 1 or 2, characterized in that annular coaxial to the bomblet carrier floor axis ( 10 ) arranged filler pieces ( 6 , 6 ') inside longitudinal grooves ( 8 ''') for receiving an egg nem central bomblet ( 2 ) attached firing spacers ( 7 ) and outside longitudinal grooves ( 8 '') for receiving one firing spacer ( 7 ) from the outside on the filler ( 6 , 6 ') bomblets ( 2 ) included.