DE974557C - Procedure for controlling and reinforcing the effect of explosive devices - Google Patents

Description

Explosive devices are often used to pierce or perforate solid bodies or walls used, which are detonated in the immediate vicinity or at a short distance. Included a large part of the energy released during the detonation is lost, i. i.e., he will be because of the after all sides of the space propagating pressure wave not exploited for the intended purpose, and the The effect of the explosive device is therefore unsatisfactory. To intensify this effect one often has from made use of the so-called shaped charge principle.

It is true that a substantial increase in the effect is achieved on a narrowly delimited space, the However, energy utilization is also low here.

It has now been found, surprisingly, that the effect of explosive devices can be increased, if between the explosive device and the target a tapering towards the target, made of any material Hollow body is used.

It is enough z. B. in front of a conical or cylindrical explosive charge with a smooth, against the Aimed surface to attach a thin-walled funnel-shaped hollow body to a to achieve a blatant improvement in the penetration power of the explosion plumes. This effect is all the more surprising, as the hollow body, which is made of a wide variety of materials, such. B. made of metal, Wood, plastic, pressed cardboard or a. can exist in the detonation is completely destroyed. It has

109 505/7

shown that the effect of this measure can be improved if the hollow body from a specifically particularly heavy material, e.g. B. lead manufactures or made particularly heavy and durable The hollow body can also be made up of several layers. Reinforcing the effect of the Hollow body is controllable by changing the inclination of the angle of the hollow body or by the Length of the hollow body as well as the distance ίο between the hollow body and the target.

The explosive device to be used is expediently equipped with a for handling reasons Coat, e.g. B. from sheet metal of various wall thicknesses provided. You can now use the conical Hollow body either directly with the jacket for the explosive device from one piece or it place it on the edge of the jacket and fasten it in any way, it is enough to include it with to attach to an adhesive tape. The hollow body can even be a small distance from the upper edge of the explosives jacket. - The formation of the surface of the explosive can be varied within wide limits vary. One can also advantageously use the principle of the shaped charge with the arrangement according to the invention of the conical hollow body. Furthermore, one can also, similar to what is known for shaped charges is, on the arbitrarily designed surface directed towards the target, one of easily deformable or attach an existing cover to easily meltable or vaporizable metal to ensure the effect nqch_j; u increase. The by the invention The effect achieved with the hollow body differs from the hollow charge effect. In connection with a shaped charge der.'Hohlkörper results in an additional effect to the shaped charge effect, especially with regard to the depth of penetration and smoothness of the wall.

It has also been shown that the described effect also occurs when the conical hollow body at the top completely or partially closes, the formation of the tip in various forms, for. B. can be flat, concave or convex.

In Figs. 1 to 9 are for example and schematically various embodiments of explosive charges with attached conical hollow bodies shown.

In the figures, the explosive charges are marked with 1 and 2 denotes the conical hollow body placed in the direction of the target.

According to Fig. 1 of the explosive device 1 located in a metal jacket is connected to the hollow body 2 by the adhesive tape 3, while Fig. 2 is a measure of the slope of the hollow body by delineation is an angle of 17 ^0. In Fig. 3 the explosive device 1 has a downwardly bulging lower surface, and in Fig. 4 the hollow body 2, which according to Figs. 1 to 3 was cut off smoothly and open at the bottom, is rounded downwards and closed.

Fig. 5, in turn, shows an explosive charge in which the metal sleeve 2, in turn, is secured by an adhesive tape 3 is connected to the explosive charge, forms an angle of 25 °. Fig. 6 gives one at the tapered side with a funnel-shaped insert closed hollow body 2 together with a Explosive 1 again, while Fig. 7 shows an arrangement in which in the explosive a section representing a sector of a circle insert 4 from z. B. copper is provided. To this The principle of the shaped charge is connected to the arrangement according to the invention. To Fig. 8 an iron sleeve is used as a conical hollow body, with the one with 5 a homogeneous lead is indicated. Finally, Fig. 9 shows another embodiment in which the explosive device 1 in the hollow body 2 protrudes. The invention is further illustrated by the following examples.

example 1

An explosives mixture was placed in a metal mold (see Fig. 1), consisting of trinitrotoluene hexogen 40:60, poured in. That achieved in the example Loading weight was 75 g.

The diameter of the explosive charge was 50 mm at its largest point. According to Fig. 1 the conical sleeve was attached with adhesive tape. The charge prepared for demolition turned out to be like this in front of the iron plate to be blasted, that the distance between the case mouth and the plate is 15 mm fraud. In this example, an iron plate 8 mm thick was used. After the demolition the iron plate had a punched-out hole 40 mm in diameter inside. In the case of a comparison explosion without a conical sleeve, on the other hand, only achieved a bump-like deformation of the material.

Ί3 e i s ρ i el "2" "" "■ - · ——— ■ - ■

A metal sleeve according to Fig. 5 was with. 48 g .. Sprengstpjfverbindungen poured out. the conical sleeve was taped in place. The fully assembled explosive charge was directly on a Steel plate - 30 "mm thick with the tapered part of the sleeve placed on it. Pointed after the detonation the steel plate has a cavity with a diameter of 30 mm. In the comparison explosion without a sleeve only a scarcely noticeable depression was obtained.

Example 3

An explosive charge identical to that of Example 2 was produced. Instead of the arrangement according to Fig. 5, an iron sleeve homogeneously leaded according to Fig. 8 was used. The conical cone jacket provided with a lead jacket was, as described in Examples 1 and 2, attached and placed on the blasting pad. After blasting a "■■ similar crater-like cavity has been achieved the material, the degree of erosion was stronger than when using a simple iron bushing.

Example 4

A metal sleeve analogous to Fig: 5 was filled with 48 g of a liner mixture of explosives, consisting of trinitrotoluene-hexogen 50:50, poured out. The diameter of the explosive charge was at its widest Place 45 mm. A cone-shaped hollow body "open on both sides" was made by means of an adhesive tape 0.5 mm sheet metal, the outer surface of which has a slope

of 25 ° against the axis and which was 35 mm high, attached to the explosive charge and that was done mounted explosive device placed with the tapered end on a steel plate of 15 mm thickness. To After the blast, the steel plate had a punched out hole about 25 mm in diameter.

When using a cone-shaped hollow body of the same material of 52 mm in height, its outer surface with the axis formed an angle of 15 ^0, an interleaf of about 30 mm in diameter was obtained with the same explosive charge in a steel plate of 15 mm thickness. A corresponding hollow body 80 mm high, the outer surface of which was inclined 10 ° to the axis, punched a hole about 32 mm in diameter from the 15 mm thick steel plate when placed on the same explosive charge.

Example 5

As described in Example on an explosive charge, is open at both ends, cone-shaped hollow body made of polyethylene of 1 mm wall thickness and 31 mm in height, its outer surface had an inclination of 30 ⁰ relative to the axis, with tape analog Drawing 5 is attached. When placed on a steel plate with a thickness of 10 mm with the tapered end of the hollow body, the explosive device achieved a penetration of about 15 mm in diameter during the detonation.

Claims (11)

Patent claims: 1. A method for steering and enhancing the effect of explosive devices, marked thereby characterized, that between the detonators and a tapered target against the target, created of any material hollow body is used. 2. The method according to claim 1, characterized in that that the hollow body is not placed directly on the target, but with one Distance to the target is installed, which is not greater than twice the length of the hollow body. 3. The method according to claim 1 and 2, characterized in that the hollow body is directly on or at a short distance from the explosive device. 4. explosive device for performing the method according to claim 1 to 3, characterized in that that the shell of the explosive device and the hollow body consist of one piece. 5. explosive device for carrying out the method according to claim 1 to 3, characterized in that that explosive device (1) and hollow body (2) are connected to one another by an adhesive tape (3) are. 6. explosive device for performing the method according to claim 1 to 3, characterized in that that the hollow body is open on the tapered side. 7. explosive device for performing the method according to claim 1 to 3, characterized in that that the hollow body on the tapered side is flat, concave or convex, in whole or in part closed is. 8. explosive device for performing the method according to claim 1 to 3, characterized in that that the hollow body is made of specifically heavy material. 9. explosive device for performing the method according to claim 1 to 3, characterized in that that the hollow body consists of several layers, for. B. made of homogeneously leaded iron. 10. explosive device for carrying out the method according to claim 1 to 3, characterized in that that the surface of the explosive charge facing the target is flat, convex or after Principle of the shaped charge is built. 11. explosive device for carrying out the method according to claim 1 to 3, characterized in that that the surface of the explosive charge facing the target with an easily deformable or easily meltable or vaporizable material, preferably soft sheet metal or copper entirely or is partially covered. Considered publications:
German patent application ρ 29 525 IV a / 78 η D
(announced on July 5, 51);
British Patent Nos. 618 617, 694 144;
Belgian Patent No. 504149;
U.S. Patent No. 2,605,703. 1 sheet of drawings 109 505/7 2.61