DE1279510B - Explosive projectile - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

F 42b

German AI .: 72 d - 18/01

Number: 1279 510

File number: P 12 79 510.7-15 (F 43447)

Filing date: July 16, 1964

Open date: October 3, 1968

The invention relates to an explosive projectile with two one behind the other in the longitudinal direction of the projectile arranged explosive charges, each provided with an ignition device, the rear The explosive charge detonates and only after the front charge, which is preferably designed as a shaped charge wherein the outer surface of the front explosive charge is in the shape of a rearwardly tapering cone having.

Explosive projectiles with two explosive charges arranged one behind the other are known per se. The front one Charge usually has the shape of a truncated cone, while the shape of the rear cargo is chosen arbitrarily. In order to prevent the rear Charge through the front when hitting the target through the perpendicular to the rear charge Detonation wave is detonated, it is also already known to inert bodies between to attach to the two charges. However, such an arrangement has disadvantages. On the one hand, an explosive projectile constructed in this way is expensive and, on the other hand, it is not sufficient ensures that the rear cargo is actually not detonated by the front one.

The invention is based on the object of creating an explosive projectile that has the disadvantages of the known Avoids arrangements of this kind with certainty, d. H. in which the rear cargo in the target and is only made to explode in this.

According to the invention this is achieved in that the outer surface of the front explosive charge in a The point of the cone directed towards the rear explosive charge runs out, and this point in front of the point of a conical one Part lies that the cargo space of the rear explosive charge in the manner of a known per se ballistic hood covers. An explosive projectile executed in this way has the advantage that the rear Charge cannot be hit by detonation waves from the front charge and thus through the damage to the target caused by the front load passes through and only in the aim, detonated by its own detonator, produces the intended effect. In addition, such an explosive projectile can be produced simply and efficiently.

A development of the invention can consist in the fact that the front explosive charge and the The sleeve connecting the rear explosive charge is preferably made of a brittle or thin one Fabric consists and that a filling of proportion-explosive projectile

Applicant:

Försvarets Fabriksstyrelse, Stockholm

Representative:

Dipl.-Phys. H. Schroeter, patent attorney,

8000 Munich 25, Lipowskystr. 10

Named as inventor:

Johan Erik Hermann Bergman, Hägerston;

Per Rolf Andersson, Johanneshov (Sweden)

moderately strong, porous and brittle material, for example brittle plastic foam, in the cavity between the explosive charges or between the tips of the two cones and the sleeve is arranged.

The invention is described below on the basis of an exemplary embodiment shown in the figures explained in more detail. It shows

F i g. 1 a schematic representation of a rocket propelled, provided with stabilizing fins Explosive projectile according to the invention,

FIG. 2 shows an embodiment variant of FIG. 1,

F i g. 2a shows a partial section of FIG. 2 and

F i g. 3 shows a longitudinal section through a further embodiment variant the F i g. 2.

The projectile, which is provided with stabilizing fins and is shown schematically in FIG. 1, is known in FIG Way provided with a (not shown) rocket propellant and contains a shaped charge Explosive charge 1 with a conventional conical front profile 2. The explosive charge 1 can by means of a preferably electric detonator 3 are ignited, which is located on the longitudinal axis of the projectile. A short tube or sleeve 4 is arranged in front of the explosive charge 1 and coaxially with it. The sleeve 4 is connected at its front end with a front explosive charge 5, which as Penetration charge is used. This charge is formed with a front penetration profile 6 and provided with a preferably electrical ignition 7 for the explosive charge 5.

The detonators 7 and 3 are arranged in relation to each other so that when the projectile hits the bombardment object detonates the front charge immediately, while the detonator 3 is somewhat delayed, see above

809 619/144

3 4

that the charge is prevented by the rear of the charge and the explosion of the explosive charge 1

Let explosive damage be passed if the explosive charge 1 by the

can before it detonates. In order to prevent explosive damage left behind on the front explosive charge 5

Detonator 3 and the explosive charge 1 is damaged.

the, when the front explosive charge 5 explodes, 5 The sleeve 4 is designed so that they do not

the latter runs out in the shape of a cone point 8, forming protruding lugs that form the rear part

which is opposite the rear cargo and could prevent the projectile from passing through the

some distance from the detonator 3 on the longitudinal hole torn open by the front charge.

axis of the storey. When the front cargo get through. This can e.g. B. achieved thereby

is detonated, the principle of io will be that the sleeve 4 is made of a brittle material

so-called "dead blast angle" application. is produced or, as in FIG. 2 shown that the

During the detonation, most or almost all of the space between them radiate

Front loads, wisely designed as a shaped charge, loads with a hard and brittle material,

dung 5 developed explosion gases about in the right z. B. with brittle plastic foam 22

th angle from the surface of the cone. The 15 fills that on its outside with a very

The igniter 3 is therefore located in a space in which the Ex-thin aluminum protective layer 4 is provided. the

explosion effect is greatly reduced. This will allow aluminum layer at their ends with which

it enables the detonator 3 and the explosive to be attached to the individual parts of the projectile

Charge 1 by which is from the front explosive charge 5, be reinforced.

damage to the target generated, 20 when the projectile hits the target, breaks or

without being damaged by the explosion of this charge, the ballistic jacket 15 deforms so that a

to become. The breakdown profile 6 as a hollow electrical contact between the contact ring 13

Charge formed explosive charge 5 is so designed and the jacket 15 is made. This will

det that a ring-shaped gas jet is created, the one closed an electrical circuit that of

Corresponding opening in the target is one of the poles of the capacitor 9 via the conductor

testifies. Through this opening, the anti-damage 11, the detonator 12, the contact ring 13, the ballistic

endings sensitive rear explosive charge 1, see the jacket 15, the case 4 and the projectile man-

is designed, for example, as a shaped charge, runs straight to the other pole of the capacitor 9,

damaged getting through. The detonator 12 ignites the front explosive charge 5,

The ignition devices 3, 7 can either 30 which then detonated. When the front blasting electric or mechanical detonators, if charge 5 detonates, it also generates an explosive beam equal to electric detonators because of the larger annular cross-section, which is on the front pro-ignition speed the preference is given. Fil 6 is based. This blast cuts a hole multiple so-called double detonators, which are initially inserted into the protective plate of the target; the through front Charge and after a certain delay meter this hole is larger than that of the detonation time the rear charge can cause the projectile. At the same time the insert 22 is made be turned. Furthermore, the Zündvorrich- plastic foam and the greater part of the two independent circuits sleeve blown away. Since the front cargo is the have, one of which has the front charge in the form of a cone point 8, which extends towards and the other ignites the rear charge. 40 th tapered, the rear explosive charge 1 and

The in the F i g. 2 and 2a embodiment shown- their ignition device 3, 16 not damaged. Therefore, for example, a condenser is used in a known manner- the rear charge of the explosive projectile passes through the detonation of the capacitor with the help of capacitors 9 and 10. The hole produced is passed through, and the detonator of the poles of each capacitor 9 and 10 can hit the main armor of the device 3 Object, e.g. B. be connected to the electrically conductive jacket of the Ge 45 as a result of the deformation of the jacket 20 of the fuzzy shot. The other pole of the capacitor 3, the jacket 20 makes electrical contact with the capacitor 9 with the aid of an insulated conductor 11, the contact rod 18, whereby a circuit running through an electrical igniter 12 is also closed by one of the poles of the condensate of an annular contact member 13, the sators 10 via the igniter 16, the conductor 17, which has a sharp-edged front end. The contact rod 18, the jacket 20, the conical part of the clock member 13 is connected to the other pole of the capacitor 10 with the interior of a ballistic jacket 15 by means of an insulating ring 14 21 and the projectile jacket. The detonator 16 ignites the electrically conductive, but brittle or deformed rear explosive charge 1, and the armor of the obbarem material connected. The jacket 15 forms the _un project is penetrated by the explosion beam, the front part of the projectile. 55 'of the front 2 of the explosive charge 1

The other pole of the capacitor 10 is over one goes.

Igniter 16 and an insulated conductor 17 with an In the embodiment shown in Fig. 3 is electrically conductive contact part 18 connected to the rear explosive rod formed as a shaped charge is trained. The front part of Kon- Ladung 1 is fitted with a modified detonator, clock rod 18 is with an annular sharp 60 of a centrally arranged tube 23 beKante is formed, and the rod 18 is supported by one, the front end of which is provided with a pre-insulating socket 19 supported, which is provided on an electrical device 24, which is one of two Conductive sheath 20 is attached, which is connected to the fuse wires existing conductor 25. One who belongs to 3 for explosive charge 1. The conductive wire of this conductor is sheathed over the igniter 26 20 is switched by a conical part 21 preferred 65. The sleeve 4 is made of brittle material, wisely worn from metallic fabric. The coat z. B. a phenolic resin. How the in 20 of the igniter 3 and the conical part 21 are thus F i g. 3 is that of FIG rigidly designed that the ignition of the igniter 3 is similar to the embodiment described above.

The invention does not relate to shaped charges alone. Both explosive charges can be used as shaped charges or as normal explosive charges or one charge as a shaped charge and the other as usual explosive charge.

Claims (2)

Patent claims: 1. Explosive projectile with two arranged one behind the other in the longitudinal direction of the projectile Explosive charges, each provided with an ignition device, with the rear explosive charge detonated only after the front charge, preferably designed as a shaped charge, and wherein the outer surface of the front explosive charge has the shape of a cone that tapers towards the rear has, characterized in that the outer surface of the front explosive charge (5) into a cone point (8) directed towards the rear charge (1) and that this point is in front the tip of a conical part (21) which ao the cargo space of the rear explosive charge (1) covers in the manner of a known ballistic hood. 2. explosive projectile according to claim 1, characterized in that the front explosive charge (5) and the rear explosive charge (1) connecting sleeve (4) preferably from brittle or thin fabric and that a filling is made of relatively strong, porous or brittle material, for example brittle plastic foam in the Cavity between the explosive charges (5 and 1) or between the tips of the two cones and the sleeve (4) is arranged. Considered publications:
French patent specification No. 999 974,
003; British Patent No. 714,747;
U.S. Patent No. 2,918,006. 1 sheet of drawings S09 619/144 9.68 © Bundesdruckerei Berlin