NO139328B - HOLE CHARGING DEVICE. - Google Patents

Abstract

Device for hollow charges.

Description

The present invention relates to a device for hollow charges comprising at their front end a cavity delimited by a single sheath with an obtuse angle, a part of which is intended to constitute the perforating point and the other part to penetrate the target through the perforation.

It has long been sought to increase the destruction caused by hollow charges by having these consist of several different elements which are so chosen and arranged that they cumulate their effects. In general, it has been sought to find systems where the hollow charge itself pierces the target and where a special device brings a harmful element to pass through this opening (in American literature designated as "Follow-thru device"). None of these systems seem to have found application in practice.

The purpose of the invention is to realize the introduction of a harmful element thanks to a simple modification of the construction without adding any auxiliary device to the hollow charge.

For this purpose, the invention is characterized in that

there are arranged annular zones with weakening on one or both sides of the cone shape between the top and the bottom to effect its division into a central tip driven at high speed and splinters that follow the tip at lower speed in a manner known per se.

These weakening zones can in particular be arranged in such a way that some of the thereby separated areas of the mantle exert a maximum ejection force on splinters across the target.

Characteristic features and advantages of the invention will appear more fully from the following description of examples without limitation of the invention and with reference to the drawings where various schematic axial sections are shown in fig. 1 the operation of a hollow charge of the usual type, where the mantle has a very sharp angle/fig. 2 the operation of another hollow charge of the usual type, where the mantle has a very obtuse angle, fig. 3a, b, c three variants of a mantle according to the invention, .fig. 4a a phase of the operation of a -hollow charge with a jacket according to fig. 3a, fig. 4b a subsequent phase of the action of this same hollow charge", and Fig. 5 the state of the target after the action of this charge.

It is known that during the detonation the mantle of a hollow charge is converted into two independent parts, i.e. in fig. 1 a beam a and a core b.

Depending on whether the top angle of the mantle is more or less open or obtuse (fig. 1 and 2), this phenomenon will appear in two different forms: In the event that the charge forms a very sharp angle (ie less than 90°) on fig. 1, the two parts remain separated and the beam provided with a very high speed (of 2000 to 10,000 m/s) produces in the target object a deep perforation, but with a small diameter (fig. 1). This type of hollow charge is often used in anti-tank projectiles.

In the case of very obtuse apex angles (ie greater than 120°) as shown in fig. 2, the beam and kerae elements will not be separated, and the entire mantle equipment will form a single projectile c with a smaller velocity than the beam in the previous case (in the order of 1000 to 2000 m/s). This type of hollow charge is often used for anti-tank mines. In effect

of its dimensions, this core projectile attacks the target object over a large area and a significant part of the mantle's mass is consumed in producing a large diameter perforation.

The invention is based on an embodiment of the mantle which, in the case of hollow charges with a very obtuse angle, makes it possible in a simple way to implement the introduction of a harmful element behind the target through the perforation. It is known from experience that in the case of hollow charges with a very obtuse angle, the enclosure changes to a solid body, general appearance in axial section* shown on 'flg. 2 comprises a central zone c provided with a greater speed than the peripheral zone e which surrounds the same.

The invention consists in effecting the separation according to

a selected line of the central part and the peripheral part of the mantle to clearly distinguish their respective modes of operation. This purpose is achieved by designing a weakening zone with a suitable profile and dimensions on the convex surface at f or on the concave surface at g or simultaneously on the two surfaces at h of the mantle and placed at a suitable distance from the axis as shown in fig. 3a, 3b and 3c.

For this reason, upon firing and under the action of the detonation wave, the central part of the mantle will be thrown out at high speed towards the target object and cause its perforation by means of the same mechanism as the rays from ordinary hollow charges, i.e. according to hydrodynamic laws.

The peripheral part i (Fig. 4a) in the form of a ring or crown differs from the central part j and moves in the same direction, but at a different speed. On impact, the central part j will only pierce the target. The peripheral mass i changes towards a cylindrical shape il which enables it to pass through the perforation produced by the central part jl (fig. 4b). During the passage of the perforation and behind the target, the peripheral part is splintered and causes the perforation to spread on the exit side as shown in fig. 5.

The effect of the invention designed in this way is consequently to produce behind the target a discharge of splinters which are partly from this target and partly from the peripheral part of the mantle. Experience has shown that the number of splinters sent across the target is much more significant than in the case of sheaths of the usual type and that these splinters are distributed over a really larger angle.

One can influence the shape and diameter of the perforation by changing the position of the weakening zone (inner surface or outer surface of the casing), its depth and its diameter, as well as the thickness of the casing (which can be of different thickness) and thus by giving them its weakening zone separated parts of the mantle of very different mass and speed, and thereby in the end produce a maximum effect on the back as shown in fig. 5.

The invention can be used, regardless of the arranged charges, on mantles designed as a cone, ball cone or any kpmbination profile...

The hollow charges according to the invention function under the same conditions as ordinary charges and their method of use is identical.

Claims (1)

Device for hollow charges comprising at their front end a cavity delimited by a single sheath with an obtuse angle, a part of which is intended to constitute the perforating tip: and the other part is to penetrate the target through the perforation, characterized in that there is arranged annular zones (f, g, hj with weakening on one or both sides of the cone shape between top and bottom to effect .its division 0X1 central tip driven at high speed and splinters following the tip at less speed at i and per se known manner.