DE1199662B - Device for triggering an explosive charge for the defense of ground vehicles - Google Patents

Description

GERMAN

PATENT OFFICE

EDITORIAL

German KI .: 72 d- 17/08

Number:
File number;
Registration date:
Display day:

1199 662
B69095Ic / 72d
4th October 1962
August 26, 1965

The invention relates to a device for triggering an on a stationary launching frame with explosive charges attached to the ground and used to combat ground vehicles a metal coating, the axial direction of which is essentially parallel to the floor surface and which under the known effect of a shaped charge when the explosive charge detonates forms a projectile from the conical cavity lining. ίο

Shaped charge projectiles are known for combating ground vehicles, in particular tanks, which are fired from a ground-mounted launcher by means of manual remote triggering against the target and detonated on the armor of the vehicle by an impact fuse whereupon the beam formed by the shaped charge lining penetrates the armor.

In addition to shaped charge projectiles of the aforementioned type, however, anti-tank missiles can also be used Explosive charges are used, in which under the known effect of a shaped charge the entire lining mass when the explosive charge is detonated to form a coherent projectile-like structure Body is deformed, which reaches speeds between 1000 and 2000 m / sec and has a high penetration power at distances of up to about 100 m.

Both shaped charge projectiles and projectile-forming explosive charges have the disadvantage, however afflicted that the type of their triggering, which was previously by means of a long-distance line by hand by a Protect or by means of a pressure detonator activated when the vehicle collides with an explosive charge takes place, the modern deployment and combat tactics of armored vehicles no longer do justice will.

The object of the invention is to design a device of the type mentioned in such a way that apart from an operator-independent triggering also ensures optimal accuracy at distances of up to about 100 m is guaranteed, whereby the device is in principle simple and dependent on the respective ground and weather conditions should have a functionally reliable structure that cannot be influenced.

A solution to this problem is achieved according to the invention in that the explosive charge is triggered directly by the object to be combated when crossing two electrical contact thresholds connected to an ignition device, extending essentially in the direction of action of the projectile and laid on the floor, which device for triggering an explosive charge
for fighting ground vehicles

Applicant:

Bölkow limited liability company,

Ottobrunn near Munich;

Dipl.-Ing. Franz Rudolf Thomanek,

Sandizell (Kr. Schrobenhausen) 38 ¹ A

Named as inventor:

Dipl.-Ing. Franz Rudolf Thomanek,

Sandizell (Kr. Schrobenhausen)

connected in series and symmetrically to the direction of action of the projectile at a distance are arranged from each other.

Various embodiments of the invention are shown in the figures. This is where they are the aforementioned and other advantages resulting from the invention are explained in more detail. It shows

F i g. 1 in longitudinal section a projectile-forming explosive charge arranged in a container, at which the explosive charge opposite container part in a free space of the same an electrical ignition device as well as two contact thresholds are housed, the explosive charge is with the triggering device shown in transport condition,

F i g. 2 the arrangement of the explosive charge according to FIG. 1 with those used to trigger the explosive charge Contact thresholds in the field,

F i g. 3 is a circuit diagram of an electrical release device according to FIG. 1.

As shown in FIG. 1 shows the explosive charge 1 in a tubular, thin-walled container 2 added, which at the opposite end of the explosive charge a free space 3 to Accommodation of the electrical ignition device 4 and two provided for triggering the explosive charge 1 Has contact thresholds 5. In the transport state of the explosive charge shown in the figure the free space 3 is closed by a cover 6.

The explosive charge 1 has on its front a cavity 7 open in the firing direction, which is in the

509 658/160

Embodiment is conical. However, the invention is neither limited to that shown in the figure cylindrical shape of the explosive charge still on the conical shape of the cavity? limited, but just as advantageously could in certain applications in the tubular container 2 can also be arranged as an explosive charge with a conical shape, as on the other hand a spherical design would also be possible for the cavity 7.

The cavity 7 has a metal coating 8, which in a detonation of the explosive charge 1 to a coherent, bullet-like body is deformed, which at high speed in Axial direction of the explosive charge is thrown off and on the vehicle to be fought with a high dielectric strength. The explosive charge 1 is ignited in a manner known per se Way by means of an igniter 9, which is connected to the ignition device 4 via an electrical line 10 connected is.

In Fig. 2 shows the explosive charge in an operational state. As can be seen from this figure, three legs 11, 12, 13 are attached to the tubular container, with which the line of fire of the explosive charge can be adjusted to a height H of approximately 1 to 1.5 m approximately parallel to the ground surface. To better align the explosive charge with the presumed target direction, a sighting device consisting of a rear sight 14 and a front sight 15 is attached to the top of the container 2.

The ignition device 4, which was originally placed in the free space 3 of the container during transport, and the contact thresholds 5 serving as a trigger path are removed from the container after the cover 6 has been loosened and, according to a further feature of the invention, in the immediate vicinity of the explosive charge parallel to the direction of action of the projectile in one Distance a / b laid on the floor.

The contact thresholds, the structure of which can be of a type known per se and therefore not shown in more detail is, for example, from a perforated insulating tape surrounded by an insulating protective tube exist, on which a metal foil is attached on both sides. Hole size and thickness of the electrical tape as well as the metal foil composition and its thickness determine the sensitivity of the Contact threshold against a pressure load. When rolling over the contact thresholds 5 through a vehicle to be fought, the metal foils are brought into contact and in the ignition device 4 a circuit is closed, which detonates the explosive charge 1.

The arrangement of two contact thresholds, which are connected in series, has the advantage of increased security against unintentional triggering. When entering only a single contact threshold z. B. the ignition circuit is not closed. The ignition is only triggered when both contact thresholds are entered or crossed at the same time. The distance alb that the contact thresholds have from one another is between 1 and 5 m, depending on the probable size of the vehicle to be fought.

F i g. 3 shows a circuit diagram of the electrical ignition device 4 accommodated in a housing. Thereafter the device comprises an ignition capacitor 16 with a diode or spark gap with discharge resistor 17, a charging resistor 18, a battery 19, a safety switch 20 and a Time switch 21. The two contact thresholds, 5 are in their function is indicated symbolically in the circuit diagram by the contacts 22, 23.

The mode of operation of the ignition device 4 with the contact thresholds 5 is as follows:

After the electric detonator 24 has been inserted into the explosive charge, the voltage is switched on beforehand Tested battery 19 connected and the timer 21 set to a certain time. After expiration this time, e.g. B. 5 to 10 min., The safety switch 20 closes the circuit as required to the battery 19, whereby the explosive charge 1 is armed. If you enter or exit at the same time Both contact thresholds 5 are passed over which correspond in their effect to thresholds 5 Switches 22 and 23 closed and after the ignition capacitor 16 has been charged accordingly the detonator 24 triggered the detonation of the explosive charge 1.

When using two parallel adjacent contact thresholds as in FIG. 2, in particular over a longer distance, e.g. B. up to about 100 m, may vary under certain circumstances make the disadvantage noticeable that if the distance between the contact thresholds is too great and at a correspondingly high speed of the vehicle to be fought after triggering the Explosive charge the projectile formed by the lining no longer fully hits the target and in borderline cases flies past behind the vehicle.

On the other hand, if the distance between the contact thresholds is too small, and relative slower speed of the vehicle this when driving close to the explosive charge may only be taken in the front part, so that z. B. in armored vehicles an absolute Incapacity to fight is not guaranteed with the desired certainty.

According to a further feature of the invention, the aforementioned disadvantages can be eliminated by that the contact thresholds are arranged diverging towards the explosive charge.

Claims (4)

Patent claims: 1. Device for triggering a fixed to a stationary launching frame above the ground, explosive charges used to combat ground vehicles with a metal covering, whose axial direction is essentially parallel to the ground surface and which under the known effect of a shaped charge when the explosive charge detonates the conical cavity lining forms a projectile, characterized in that that the explosive charge (1) directly through the object to be attacked when crossing two connected to an ignition device (4), essentially in the direction of action of the projectile extending electrical contact thresholds (5) laid on the ground is triggered, which are connected in series and symmetrical to the direction of action of the projectile are arranged at a distance from each other. 2. Apparatus according to claim 1, characterized in that the contact thresholds (5) are parallel are arranged to the direction of action of the projectile. 3. Apparatus according to claim 1, characterized in that the contact thresholds against the explosive charge are arranged in a divergent manner. 4. Device according to claims 1 to 3, characterized in that the contact thresholds (5) and the electrical ignition device (4) during transport in a tubular container formed behind the explosive charge (1) (2) are included. Documents considered: German Patent No. 1101 227; Swiss Patent No. 214 642; French Patent Nos. 815 386, 629;
British Patent No. 453 335. 1 sheet of drawings 509 658/160 8.65 © Bundesdruckerei Berlin