DE3900442A1 - Bomblet - Google Patents

Abstract

A bomblet (1) is intended to act from above against a target which is in a protected state. A base surface (6) of an explosive charge (3) is continuously covered with heavy-metal spheres (7). The surface (6) has a convex shape. <IMAGE>

Description

The invention relates to a bomblet with a aerodynamic brake that the Bomblet with its Ground down, and with one by one Detonator explosive charge and with a Splinter allocation.

In DE-OS 28 21 723 is a layer of Splinter elements for an explosive charge described. The splinters are on a concave surface of the Explosive charge arranged to be as parallel as possible To achieve repulsion of the splinter elements. The Splinter elements stand with flat sliding surfaces to each other. This structure is little for a bomblet suitable, since only a small target area of the splinters is hit.

In DE-OS 22 05 074 there is an explosive device Hollow charge and fragment assignments described. The Splitter occupancy is within a Explosive charge enclosing envelope. Through the The fragments are not optimally explosive charge accelerates. In addition, the splinter allocation shows a break in the center of the envelope. In this Splinters cannot take effect in the direction.

The object of the invention is a bomblet of the beginning to propose the kind mentioned above against goals from above is effective, which are under a protective state.  

According to the invention, the above task is for a bomblet initially mentioned type solved in that the Fragmentation of heavy metal balls is formed that the heavy metal balls cover the floor continuously and that the heavy metal balls on a convex surface the explosive charge are arranged.

The detonated explosive charge accelerates the bullets to a very high speed. The balls have to do not penetrate a stable shell of the explosive. By arranging the balls on the convex Scatter the surface of the explosive charge a defined solid angle range. The balls penetrate a protective state, such as Branches or camouflage without further ado.

The above task can be done with a bomblet at the beginning solve the type mentioned in that the Explosive charge is arranged on the ground and the Protection condition is designed to break and that above the Explosive charge in the bomblet is like a fragment mine effective charge is arranged.

With this construction, the first one breaks through Explosive charge the protection state. After that the Splinter-like charge effective at the target.

With such bomblets it is essential that the Explosive charge acts vertically down and over the intended state of protection is breached and then from the Bomblet a sufficient, target-fighting Effect.

In an embodiment of the invention is on the outside on the floor Detector of the detonator arranged. The sensor instructs Pipe piece on which a contact arrangement is assigned is. The contact arrangement is over the pipe section  actuated when the bomblet hits a hard target strikes or a soft material of the ground in the Pipe piece penetrates. Hit the bomblet on a soft one Reason that is snow or swamp, for example this leads to snow or soft soil in the Pipe piece enters so that the contact arrangement to a Ignition of the explosive charge leads. Hit the bomblet on a hard, inelastic ground, then it will Pipe piece so offset that an ignition he follows. In contrast, only hits the pipe section of the bomblet on a flexible, elastic protection state, such as for example branches or camouflage, then leads the sensor has not yet triggered the ignition.

Further advantageous embodiments of the invention result from the subclaims and the following Description. The drawing shows:

Fig. 1 shows a bomblet schematically

Fig. 2 shows a sensor of a bomblets,

Fig. 3 shows the sensor when striking a hard target and

Fig. 4 shows the sensor when it hits a soft floor.

The bomblet ( 1 ) according to FIG. 1 has a cup-shaped casing ( 2 ) which is filled with an explosive charge ( 3 ). A parachute ( 4 ) is arranged on the rear of the casing ( 2 ) as an aerodynamic braking means. A timer ( 5 ) is also located in the rear area of the casing ( 2 ).

The explosive charge ( 3 ) has a convex surface ( 6 ) on the bottom, which is spherical or parabolic.

Heavy metal balls ( 7 ) are arranged on the surface ( 6 ). These are held on the surface ( 6 ) by a sealing compound ( 8 ). The heavy metal balls ( 7 ) are arranged so that when the explosive charge ( 3 ) is ignited they scatter over a solid angle region ( A ), the diameter of which is larger than the diameter ( B ) of the shell ( 2 ). The heavy metal balls (7) are uniformly distributed at the surface (6), so that the heavy metal balls (7) distributed uniformly in solid angle range (A) after being fired. The solid angle range ( A ) can be determined by the design of the surface ( 6 ). In particular, heavy metal balls ( 7 ) are also arranged in the region of the longitudinal axis ( L ) of the bomblet ( 1 ).

The heavy metal balls ( 7 ) are individually coated with a fire mass ( 9 ). This ignites when the heavy metal balls ( 7 ) strike.

The bomblet works as follows:

After the ejection of the bomblet from a carrier, the parachute ( 4 ) takes effect, so that the bomblet ( 1 ) descends from above on a target area. The timer ( 5 ) usually ignites the explosive charge ( 3 ) when the bomblet ( 1 ) is 15 m above the ground, for example. The heavy metal balls ( 7 ) are then ejected into the solid angle region ( A ) with very high acceleration. They then penetrate natural or artificial camouflages for themselves.

The sensor for a bomblet ( 1 ) shown in FIGS. 2 to 4 is arranged on the bottom ( 10 ) thereof. The bomblet ( 1 ) can be a bomblet according to FIG. 1. However, it can also be a bomblet, in the bottom area of which the explosive charge ( 3 ) is arranged and in the rear area of which a fragmentary mine-like charge ( 11 ) is provided. The explosive charge ( 3 ) is designed in such a way that it breaks through a protective state and then the fragment-mine-like charge ( 11 ) takes effect.

The sensor according to FIGS. 2 to 4 has a rod ( 12 ), at the end of which a tube piece ( 13 ) open at the bottom is arranged. A chamber ( 14 ) is formed between the rod ( 12 ) and the pipe section ( 13 ), in which a membrane ( 15 ) is designed as a contact arrangement. If the pipe section ( 13 ) encounters a weak camouflage, such as branches ( 16 ), then the camouflage ( 16 ) is penetrated. However, there is no deflection of the membrane ( 15 ) causing ignition.

However, if the pipe section ( 13 ) hits a hard target ( 19 ), the pipe section ( 13 ) breaks at a predetermined breaking point ( 17 ) and strikes the membrane ( 15 ) so that the explosive charge ( 3 ) is ignited (cf. Fig. 3).

If the bomblet ( 1 ) strikes with its pipe section ( 13 ) on soft ground ( 20 ), such as snow, water, sand, mud, etc., then the pipe section ( 13 ) is not broken at the predetermined breaking point ( 17 ). However, material of the soft bottom penetrates into the pipe section ( 13 ) and acts on the membrane ( 15 ), so that the explosive charge ( 3 ) is ignited (cf. FIG. 4).

Openings ( 18 ) are provided on the circumference of the chamber ( 14 ). These ensure that air can escape from the pipe section ( 13 ). This also ensures that when the bomblet ( 1 ) flies, the air back pressure does not trigger the diaphragm ( 15 ) to respond.

Claims (7)

1. bomblet with an aerodynamic braking means, which causes the bomblet to descend with its bottom in front, and with an explosive charge that can be ignited by an igniter, and with a fragmentation coating, characterized in that the fragmentation coating is formed by heavy metal balls ( 7 ) that the heavy metal balls ( 7 ) cover the floor ( 10 ) continuously and that the heavy metal balls ( 7 ) are arranged on a convex surface ( 6 ) of the explosive charge ( 3 ). 2. Bomblet according to claim 1, characterized in that the surface ( 6 ) is designed in the form of a spherical cap. 3. Bomblet according to claim 1, characterized in that the heavy metal balls ( 7 ) on the surface ( 6 ) of the explosive charge ( 3 ) accommodated in a round, open shell ( 2 ) are fixed by means of a sealing compound ( 8 ). 4. Bomblet according to one of the preceding claims, characterized in that the heavy metal balls ( 7 ) are coated with a fire mass ( 9 ). 5. Bomblet according to the preamble of claim 1, characterized in that the explosive charge ( 3 ) is arranged on the bottom ( 10 ) and the protective state is designed to be refractive and that above the explosive charge ( 3 ) a fragmentary-effective charge ( 11 ) is arranged. 6. Bomblet according to one of the preceding claims, characterized in that a sensor of the detonator is arranged outside on the ground, that the sensor has a pipe section ( 13 ) which is associated with a contact arrangement ( 15 ) and that the pipe section ( 13 ) Contact arrangement ( 15 ) can be actuated when the bomblet ( 1 ) strikes a hard target ( 19 ) or a soft material ( 20 ) penetrates into the pipe section ( 13 ). 7. Bomblet according to claim 6, characterized in that the contact arrangement as a membrane is formed (15) penetrating through the breaking at a predetermined breaking point (17) tubular piece (13) or in the pipe section (13) material is deflectable.