EP0116322B1 - Nose fuse - Google Patents

Description

• -einen Geschosskörper;
• - ein Aufschlagzündergehäuse, das eine Ogive aufweist und in den Geschosskörper eingeschraubt ist;
• - wobei das Aufschlagzündergehäuse wesentliche Zünderteile enthält;
• - ein Stahlgehäuse zum Schutze einer Zeitverzögerungseinrichtung.

The invention relates to an impact detonator for a projectile comprising:

• -a projectile body;
• - An impact fuse housing, which has an ogive and is screwed into the projectile body;
• - The impact detonator housing contains essential igniter parts;
• - A steel case to protect a time delay device.

It is common to use either a heavy steel housing or a light metal housing for such a detonator. Steel casings have the advantage that the detonator can penetrate further into the target before it is destroyed. Light metal housings reduce the weight of the igniter.

An impact head igniter of this type is known (see US-A-4 230 042) which has two igniter housings, the front of which is made of a light material, e.g. Plastic, and the other is steel. This known detonator is therefore relatively heavy and therefore does not meet the requirement for a relatively light detonator.

There is also a known impact detonator of this type (see DE-C-525 053) which has a delay set. In this detonator, a delay set is arranged between the initial ignition device and the explosive charge, which has a cavity in front of it. However, this cavity is not reinforced by a steel housing as in the present invention. The walls of this cavity, in particular the front and side inner wall surfaces, project so far from the deceleration rate that they should not reach the deceleration rate in the case of deformation caused by hard targets on the projectile.

However, a cavity alone is not sufficient; it is necessary to line this cavity with a steel housing.

A “switchable detonator” can be switched from instantaneous ignition to delay ignition. For the momentary ignition there is an ignition pin which can be activated by the impact of the projectile in the target. The momentary ignition takes place before the projectile has penetrated deep into the target. A device is available for the delay ignition, which initiates the ignition only after the bullet has hit the target. The delay firing only takes place when the projectile has penetrated deep into the target. If the projectile is to penetrate a concrete wall, there is a risk that the delay device, which is an “essential detonator part”, will be destroyed or the ignition will take place too early.

The object to be achieved with the present invention is to create a light detonator that is as deep as possible in a hard target, e.g. penetrate a concrete wall and ignite reliably, i.e. it should be prevented that e.g. the delay ignition is destroyed prematurely by deformation on impact in the target.

• - das Stahlgehäuse sich vollständig im Inneren des Aufschlagzündergehäuses befindet und in dieses eingeschraubt ist;
• - das Stahlgehäuse zur Auskleidung des Innenraumes des Aufschlagzündergehäuses dient;
• - die Zeitverzögerungseinrichtung im Innern des Stahlgehäuses angeordnet ist;
• - das Aufschlagzündergehäuse aus Leichtmetall besteht.

According to the invention, this object is achieved in that

• - The steel housing is completely inside the impact igniter housing and is screwed into this;
• - The steel housing is used to line the interior of the impact igniter housing;
• - The time delay device is arranged inside the steel housing;
• - The impact igniter housing is made of light metal.

A single embodiment of the head igniter according to the invention is described in detail below with reference to the accompanying drawing, the invention being of course not limited to this embodiment. The only figure in the drawing shows a longitudinal section through the head igniter according to the invention.

According to this single figure of the drawing, a light metal housing 11 is screwed into a projectile body 10. A steel housing 12 and an igniter housing 13 are screwed into this light metal housing 11. This detonator housing 13 contains an amplifier charge 14 and projects into an explosive charge 15, which is located inside the projectile body 10. A first thread 16 connects the projectile body 10 and the light metal housing 11 and a second thread 17 connects the igniter housing 13 to the light metal housing 11. The same thread 17 is also used to fasten the steel housing 12 in the light metal housing 11. An actuation button 18 is arranged in the tip of the light metal housing 11 , which is used to move a firing pin 19. So that no moisture can penetrate into the igniter, the actuation button 18 is covered by an elastic cap 20.

A switching device 21, which prevents the ignition pin 19 from being displaced when the button 18 is actuated, is used to switch the igniter from instantaneous ignition to delay ignition.

The firing pin 19 is used to pierce a squib, not shown, which is located in a slide 22. The slide 22 is slidably mounted in a carrier 23. The carrier 23 is fastened in a manner not shown in the igniter housing 13 and has a bore 24 through which the ignition pin 19 can pierce the primer capsule as soon as the slide 22 has been moved from a safety position into an arming position. The steel housing 12 protects both the pyrotechnic components and the delay device (25) from premature destruction in the event of an impact.

• Falls die Schaltvorrichtung 21 auf Momentanzündung eingestellt ist, wird beim Aufschlag des Geschosses im Ziel der Betätigungsknopf 18 eingedrückt und stösst den Zündstift 19 gegen die Zündkapsel im Schieber 22, der sich während des Geschossfluges in die Scharfstellung verschoben hat. Das Geschoss wird somit gezündet, bevor es ins Ziel eindringen kann.

The operation of the head igniter described is as follows:

• If the switching device 21 is set to instantaneous ignition, the actuation button 18 is turned on when the projectile hits the target pressed and pushes the firing pin 19 against the primer in the slide 22, which has shifted into focus during the bullet flight. The projectile is fired before it can penetrate the target.

However, if the switching device 21 is set to delay detonator, when the projectile hits the target, the actuating button 18 is also pressed in, but it does not push the firing pin 19 against the primer in the slide 22. The projectile is then only after the by the delay device Serve hit at target. During this time, the projectile can penetrate deep into the target, e.g. a concrete wall. During penetration into the target, the pyrotechnic components and the delay device (25) must not be deformed to such an extent that they become inoperable. These deformations are prevented by the steel housing 12 inserted into the light metal housing 11.

Claims (2)

1. An impact fuze for a projectile comprising:

- a projectile body (10);

- an impact fuze housing (11) having a substantially pointed tip (18) and threadably mounted in said projectile body (10);

- said impact fuze housing (11) containing important elements (22, 23, 25) of the fuze;

- a steel housing (12) for projecting a time delay device (25); characterised in that:

- said steel housing (12) is arranged in its entirety in the interior of said impact fuze housing (11) and threadably mounted therein;

- said steel housing (12) is provided for lining the interior of said impact fuze housing (11 );

- said time delay device (15) is arranged in the interior of said steel housing (12);

-said impact fuze housing (11) is being formed of light metal.

2. An impact fuze as claimed in claim 1, characterised in that: said impact fuze housing (11) having a hollow space, limited by a wall; said wall of said hollow space is lined by a steel housing (12) and said time delay device (25) is arranged in its entirety in the interior of said steel housing (12).

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