DE1240760B - Tank incendiary bullet - Google Patents

Description

GERMAN W9WW> PATENT OFFICE

EDITORIAL

German class: 72 d- 19/04

Number: 1240 760

File number: D 405891 c / 72 d

^ 240 760 filing date: December 24, 1962

Open date: May 18, 1967

The invention relates to an incendiary armored projectile with a penetration core and a front the pyrotechnic mass arranged in the breakdown core, which is enclosed by a ballistic hood is, as well as with a further pyrotechnic mass arranged behind the breakdown core, preferably incendiary material that comes into effect in the target, with the pyrotechnic masses on impact be ignited.

Smaller caliber projectiles with multiple effects are already known which have a pyrotechnic filling in the tip of the projectile under a casing, a penetration core behind this filling and, in turn, a pyrotechnic mass, primarily an incendiary mass, behind this. The task of such a projectile is, in addition to other effects, to cause fire on the one hand and penetration on the other. The stated type of projectile structure has the effect that, in addition to the pyrotechnic mass of the tip, the incendiary material arranged behind the penetration core also splashes apart approximately radially to the axis of the projectile when the target hits the target. As a result, this incendiary mass is only able to cover the target object superficially with fire, even if the penetration core penetrates the target armor. Only the mass of the punch core is effective here. Neither from the pyrotechnic mass of the tip nor from the incendiary mass which is arranged behind the penetration core and which splashes away to the side on impact, a detectable amount of fire behind the armor to be penetrated is achieved. At best, fire is drawn inwards through the hole created by the breakthrough.

In contrast, the object of the present invention is to prevent the impact of the projectile on the armor plate, the second incendiary material arranged behind the penetration core hosed sideways and thus the target behind the armor plate no longer or only insufficiently Extent reached.

This object is achieved according to the invention in that the incendiary material intended for action behind the armor penetration core is arranged within the penetration core and, after penetrating the armor in the target, emerges forwards in the area of the projectile tip. In a further embodiment of the invention, it is proposed to harden the projectile tip and to keep the rear part of the armored penetration core soft, with a predetermined breaking point being provided in the intermediate part. The predetermined breaking point can be designed as a wall thickness reduction of the hollow core and armored incendiary projectile

Applicant:

Diehl, Nuremberg, Stephanstr. 49

Named as inventor:
Wilhelm Perniss, Nuremberg

consist, for example, of a constriction or recess. Furthermore, the projectile tip can also be provided with a central bore, primarily a blind bore. It has proven to be useful to provide the hollow armored penetration core at the rear with a strong base that is screwed, glued or crimped into the soft rear of the projectile. This axially fixed bottom can have a flare in a known manner . In it, a narrow channel can be provided between the flare filling and the incendiary compound.

The incendiary armored projectile according to the invention has the advantage over the projectile mentioned at the outset that its second incendiary material, housed in the penetration core, does not splash away laterally when it hits the armor, but only flies forward after the armor has penetrated the armor with the fragments arising from the projectile body. The mass of the fire filling thus contributes fully to the breakdown. With such tank incendiary ammunition, combustible material can still be safely ignited at a distance of several meters behind the armor. But even with non-combustible goods, apart from the splinter effect, the incendiary device in a vehicle, airplane or a shelter produces such a strong smoke and mist formation that its personnel are incapable of fighting. The hole in the storey floor between tracer and incendiary charge offers the advantage that in the case of failure of the armored incendiary projectile, z. B. because of not hitting sufficiently solid targets, the incendiary material is ignited from behind and slowly glows so that it is not dangerous later.

709 580/78

Details of the invention and other advantages will become apparent from the description of some in the drawings illustrated embodiments. It shows

Fig. 1 is a sectional view of an armored fire projectile according to the invention with a hollow body as Armored penetration core, a hole in its tip and with a ballistic cover,

FIG. 2 shows a sectional view of an armored fire projectile according to FIG. 1 with one designed as a constriction Predetermined breaking point and with a flare in the floor of the storey,

F i g. 3 and 4 each show a partial sectional view of an incendiary tank projectile according to FIG. 1, in which the centric Hole in the tip is designed as a blind hole,

F i g. 5 is a partial sectional view of an armored incendiary bullet with a hardened tip, the hollow of which The breakdown core has no predetermined breaking point at the transition to the softer tail.

The training and use of the various types of projectiles depend on the desired sensitivity and the required penetration performance.

In Fig. 1, an inner cavity 1 of an armored penetration core 2 serving as a balancing projectile is filled with a known incendiary compound 4. The inner cavity 1 is closed to the rear by a rigid base 3 which is glued or crimped into the core 2. While at least the tip of the punch core 2 is hardened, its rear is mainly soft. A central bore 5 is provided in the tip of the core 2. The projectile also has a hood 6 , which is preferably - at least partially - also filled with incendiary compound 7.

After Fig.2 2, the armor piercing core below a hardened nose cone 14 in a recess 13 formed as a constriction or predetermined breaking point. Incendiary compound can again be provided between the tip 14 and the hood 6 , which is shown empty here. In FIG. 2 is screwed a flare composition sleeve 16 in the soil or instead of a base in the soft rear of the hollow core 2, whose light-emitting or fuel assembly 17 is connected via a channel 18 with the incendiary composition. 4

In Fig. 3, the central bore in the tip of the penetration core 2 is designed as a blind bore 9 , which does not quite extend to the incendiary compound 4 .

Such a blind hole 10 can, as FIG. 4 shows, also from the inside, that is to say as an extension of the inner cavity 1, to be provided so as to protrude into the tip of a puncture hollow core 11 and to be filled with incendiary material 4.

According to FIG. 5, a pronounced predetermined breaking point can be omitted. Here, too, the body 12 hardened from the front is splintered upon penetration during the armor penetration and, after penetrating the armor with the incendiary compound 4, flies to the target.

In the case of the floor according to FIG. 1 ignites the incendiary compound 7 accommodated in the ballistic hood 6 when the projectile hits a resistant target, possibly superficially. The impact projectile formed from armor penetration core 2 including incendiary material 4 and base 3 penetrates armor up to a certain wall thickness of, for example, 20 mm. This can be achieved by appropriate hardening of the tip

Bullet to penetrate this without bursting on impact. When exiting the armor on the back of the plate, the incendiary compound 4 is now thrown forward in the area of the projectile tip.

The process from the example according to FIG. 2 recognize or explain. While by correspondingly tough hardening of the projectile tip 14 this - if necessary after penetration of

ίο Protective covers , wooden structures or the like - hits the armor, whereby the entire projectile 2 , 3 together with incendiary material 4 transfers its inertial forces to the projectile tip 14, this tip is probably already separated along the predetermined breaking point 13 , but from the soft part of the armor penetration core 2 and the incendiary mass 4 driven on. After the penetration of the armor the nose cone 14 flies forward away and defines the internal cavity 1 forward free, so that the fire mass 4 may exit the hollow core. 2 When the armor plate penetrates, however , a force acting radially inward is also effective on the hollow core 2, as must be inferred from the diameter of penetrations, which is smaller than the bullet caliber. This force splinters the part of the hollow core 2 that adjoins the predetermined breaking point 13. It also squeezes the incendiary compound 4 in the weft direction. Splinters and incendiary material fly, scattering in an approximately conical shape, into the target provided, for example, behind said armor, which is formed by fuel tanks or canisters, stacks of ammunition and the like. When air is admitted, the incendiary material, which is not self-igniting in a cold state, ignites due to the impact shock, the heating that occurs when the armor penetrates or from the hot splinters of the jacket. The target is opened by the splitter, z. B. punch through a container wall and fuel is released and ignited by the incendiary material. Studies have shown that this effectiveness extends to several meters behind the armor. Thus while the incendiary material 7 of the hood 6 preferably burns before the actual armoring or ignites easily penetrable obstacles, the hollow core 2 penetrates the armor. The incendiary material 4 in the armor penetration core 2 only leads to fire behind an armor that penetrates up to a certain thickness.
If the projectile does not capture a fixed target, does the incendiary material come? the hood 6 for ignition, the incendiary material 4 of the core 2, however, remains unaffected. But if the bottom 16 is now, as shown in FIG. 2 illustrates, between an arc or fuel assembly 17 and the fire mass 4 provided with a bore 18, so a Nichtauftreffens of the penetrator core 2 takes place in the case of a fixed target inflammation of the fire mass 4 from the rear 18 through the bore of the fire mass 4 glows slowly and the projectile is not dangerous afterwards. In a similar way, the incendiary compound 4 can also be ignited from the front through the bore S on the part of the previously inflamed incendiary compound 7 in the hood 6 .
According to their geometric shape and the arrangement of the predetermined breaking point, the projectiles described have different penetration effects and sensitivity. In a known way, therefore, cartridge belts with different projectile

Claims (6)

sen equipped, with pure tank fire, for example, on the incendiary mass? the ballistic hood 6 can be dispensed with. Patent claims: 1. Armored incendiary projectile with a penetration core and a pyrotechnic mass arranged in front of the penetration core, which is enclosed by a ballistic hood, as well as with a further pyrotechnic mass arranged behind the penetration core, preferably incendiary mass, which comes into effect in the target, the pyrotechnic masses at charge be ignited, characterized in that disposed behind the armor piercing core (2) intended to effect incendiary composition (4) within the armor piercing core (2) and after the penetration of the armor in the target in the range ao the bullet tip (14) exiting to the front. 2. Armored incendiary projectile according to claim 1, characterized in that the projectile tip (14) is hardened and the rear part of the armor penetration core (2) is soft, a predetermined breaking point (13) being provided in the intermediate part. 3. Armored incendiary projectile according to claims 1 and 2, characterized in that the projectile tip (14) is provided with a central bore (5), in particular with a blind bore (9 or 10) . 4. Armored incendiary projectile according to claims 1 to 3, characterized in that the predetermined breaking point is designed as a recess (13) provided between the projectile tip (14) and the rear part of the armor penetration core (2) . 5. Armored incendiary projectile according to claims 1 to 4, characterized in that the inner cavity (1) of the armor penetration core (2) to the rear closing bottom (3 ) is screwed into the soft rear of the armor penetration core (2) , glued or crimped and optionally with a Flare set (17) is provided. 6. Armored incendiary projectile according to claim 5, characterized in that the base (16) is provided with a narrow bore (18) which connects the luminous or fuel assembly (17) with the incendiary compound (4). Considered publications:
German patent specifications No. 622 288, 307147,
273210; French Patent Nos. 656112, 491843;
British Patent No. 126,328;
U.S. Patent No. 1190,578. 1 sheet of drawings 709 580/78 5.67 © Bundesdruckerei Berlin