DE3918005A1 - Shell of high target accuracy - Google Patents

Abstract

The shell comprises: 1) a cartridge case with receiver for propellant charge powder, 2) a rigid interlock between front of receiver and rear of projectile, break-able when shell is fired, 3) a hollow charge liner, 4) a cylindrical fragment forming projectile casing, 5) an explosive charge in casing, 6) a base detonator, 7) an annular projection at rear of housing base having an internal threading and a preset breakpoint adjacent the base. The preset break point of the projection has a continuous external annular groove, whilst the protection is provided with a number of bores serving as gas passages.

Description

The invention relates to a grenade projectile with Hohlla insert and splinter-forming, possibly pre-fragmented bullet housing for firing z. B. from a 40 mm grenade gun for use against armored targets with a broad impact at the same time. The shell shell has a range of around 300 to 400 m.

Such grenade projectiles are made from cartridge cases shot that a free below the floor have space as a gas pressure space, the actual propulsion charge powder is in a central driver (primer) arranged in the bottom of the cartridge case. Bullet and cartridge case are usually over one Snap connection or snap connection ver bound; they can also be glued together be. To protect against environmental influences (moisture) the connection area is often still one Protective lacquer layer covered.

But all of this causes uneven pull-out forces the bullet from the cartridge case when firing what to unequal starting speeds and bad ones Results.

This problem was solved according to DE-OS 35 07 643 for a Fog projectile in 40 mm caliber with tracer insert a firm and positive screw connection between a constructively long trained driver and  a thick-walled bottom part screwed in at the back of the fog floor eliminated. After tearing off a debit the front threaded piece remains in the driver of the driver hang on the floor and a telescope like sliding sleeve system should initially prevent that the propellant gases at the beginning of the projectile into the free space of the cartridge case. First after the sliding sleeves, of which the inner sleeve also remains connected to the projectile body are drawn together and ver their sealing contact gating, the propellant gases get into the already strong increased clearance of the cartridge case; thereby he however, there is a sharp drop in pressure or pressure swan kungen and no uniform acceleration of the Ge shot.

Because of missiles not so high accuracy as is required of live projectiles, this is tearable connection for the fog floor or a corresponding floor with tracer and other use charge such as B. a flash, bang, color and / or Smoke charge ideally suited; for a sharp projectile with thin-walled bottom without tracer insert, where just below the floor in the cartridge case there is little space, however, this known arrangement is not suitable.

It is therefore an object of the present invention to firm and positive connection between driver, the cartridge case and a sharp combat grenade projectile that can be torn off when fired, one even pressure build-up with even storey allows acceleration and without adverse effects on the floor an unchanged high accuracy through reproducible constant initial speeds guaranteed.  

This object is achieved by the claim 1 contained technical teaching solved. There remain no disadvantageous remnants of the connection on the floor yourself back. After removing the from the floor torn threaded sleeve from the driver thread can Cartridge case with driver again advantageously be used.

The sub-claims contain further advantageous Design options of the invention.

The invention is described in the following in the Drawings shown embodiment closer explained and described.

Show it:

Fig. 1 is a sharp grenade projectile with front-active part and schematically indicated rear impact detonator in longitudinal section and

Fig. 2 shows the tear-off between floor and driver's rule in longitudinal section.

In Fig. 1, reference number 10 is a sharp Gra natengeschoß, z. B. in 40 mm caliber. The grenade projectile has a front part, be standing from a specially shaped stand-off hood 12 , z. B. made of aluminum alloy or plastic, a cylindrical optionally pre-fragmented projectile shell 14 z. B. made of steel or heavy metal with stored therein explosive charge 16 and trumpet-shaped hollow charge insert 18 .

At the cylindrical projectile envelope 14 closes back a one-piece cup-shaped projectile housing 20 z. B. made of steel or aluminum alloy with smooth flush dig floor 21 , which includes a trained as a floor igniter 22 impact detonator. The bottom gun of FIG. 22 is only shown schematically by an axially movable ignition needle 24 , a detonator charge 26 and a transmission and booster charge 28 connected to the explosive charge 16 .

The interior within the very thin-walled projectile housing 20 is completely filled by the floor igniter 22 and a tracer is not provided. The invention is to be implemented and used for this floor.

The grenade projectile is shown in FIG. 2 with the cup-shaped rear projectile housing 20 completely in a cylin drical cartridge case 30 with a central driver 32 is inserted. A tight connection of projectile and the cartridge case 30 is carried out via the inventive tearable firm screw driver 32 and Shell projectile 10th A front snap connection or adhesive bond between the cartridge case and grenade projectile is no longer required. For sealing against environmental influences, only an elastic circumferential sealing ring 31 is provided on the inside on the front edge of the cartridge sleeve 30 or the outer wall of the floor.

On the outside of the floor 21 and firmly connected thereto, an annular sleeve projection 32 pointing rearward is provided. Directly on the floor 21 , the sleeve projection 32 has a predetermined breaking point as an inventive tear-off connection in the form of an outer circumferential annular groove 34 .

The annular sleeve projection 32 is provided with an internal thread 36 which opens towards the floor 21 in a free rotation (rotation). The free rotation is simultaneously formed as a circumferential annular groove 38 arranged on the inside directly on the floor 21 , which represents an annular channel for gas pressure compensation and a gas passage for the propellant gases.

The driver 40 is inserted centrally in the bottom of the cartridge case 30 and sealed by means of an annular seal 41 . The cartridge case can advantageously be made from an aluminum alloy or from plastic.

The driver 40 has a shock-sensitive squib 42 on the bottom for igniting the propellant charge 44 . The propellant charge 44 is fixed in the driver 40 by means of a rupture disk 45 . In front of the propellant charge 44 or the rupture disk 45 there is a free space 46 in the driver 40 , which is open towards the floor 21 .

On the outer circumference, the driver 40 has a corresponding to the internal thread 36 of the sleeve projection 32 corresponding external thread 48 . By screwing the two threads 36 , 48 together, the driver 40 and the projectile 10 are firmly seated in the cartridge case 30 .

The driver 40 can be screwed in until its front end face abuts the floor 21 as a screw stop.

So that the propellant gas in the free space 50 inside the cartridge case 30 under the floor 21 to bump out and accelerate from the projectile, several, preferably four recesses 52 are provided in the front end face of the driver 40 as gas through openings. Corresponding gas passage openings are provided in the form of holes 54 within the ring groove 34 of the sleeve projection 32 or directly on the floor 21 .

As a particularly important feature of the invention, the driver 40 is very short in the projectile direction, that is to say only as long as its diameter. The predetermined breaking point as a material weakening in the sleeve projection 32 can also be formed by a plurality of closely spaced holes 54 '. An annular groove 34 is then no longer absolutely necessary.

In the event that more propellant charge powder is to be accommodated in the driver, it may be expedient that the driver 40 in its front part or in the area of its front external thread 48 has a smaller diameter than in the rear fastening area for the cartridge case 30 , ie that there the driver 40 has a larger diameter than previously.

Due to the size and number of recesses 52 in the end face of the driver 40 , the pressure build-up in the free space 46 of the driver and free space 50 of the cartridge sleeve 30 can be set in a targeted manner. About the defined material weakening in the area of the predetermined breaking point by means of numerous holes 54 'and / or the depth of the outer annular groove 34 , a material durability or the point can be set that no longer withstands a certain preselectable gas pressure and breaks off the fixed connection.

Functional description

After the squib 42 (primer cap) has been acted on and the propellant charge 44 has burned off, there is an increase in pressure in the free space 46 of the driver 40 . A propellant gas is introduced and the pressure is increased in the free space 50 of the cartridge case 30 via the recesses 52 , the annular channel 38 and the bores 54 .

As soon as the gas pressure in the spaces 46 and 50 (gas pressure chambers) has reached a defined height, the annular sleeve projection 32 tears off at the predetermined breaking point directly on the floor 21 and the floor is pushed out and accelerated evenly and without adverse pressure fluctuations from the cartridge case 30 , So that before the swirl-dependent first effective acceleration-dependent separate fuse elements of the ground igniter guaranteed until reaching the pipe mouth from the starting or securing position are in the focused function position.

Claims (7)

1. Grenade projectile with cartridge case and a driver inserted therein, containing the propellant powder, in which there is a firm and positive connection between the front driver and the rear floor, which is provided with corresponding predetermined breaking points, so that the connection can be torn off when shot, whereby

• - The grenade projectile ( 10 ) as the active part has a forward-facing shaped charge insert ( 18 ), a cylindrical, radially outward splinter-forming, possibly pre-fragmented projectile shell ( 14 ) with explosive filling ( 16 ) and a rear-side base igniter ( 22 ),
• - The floor igniter ( 22 ) enclosing the rear shell ( 20 ) with the floor ( 21 ) is thin-walled and cup-shaped and represents the projectile part which is inserted into the cartridge case ( 30 ),
• - On the outside of the floor ( 21 ) an annular sleeve projection ( 32 ) pointing backwards is provided,
• - The annular sleeve projection ( 32 ) has a Innenge thread ( 36 ),
• - The sleeve projection ( 32 ) in the immediate vicinity or directly on the floor ( 21 ) has the predetermined breaking point,
• - The driver ( 40 ) inserted into the cartridge case ( 30 ) has an external thread ( 48 ) corresponding to the internal thread ( 36 ) on the front, and
• - The driver ( 40 ) is approximately the same length in the longitudinal direction of the floor as its diameter.

2. Grenade projectile according to claim 1, characterized in that the predetermined breaking point provided in the sleeve projection ( 32 ) is designed as an outer circumferential annular groove ( 34 ). 3. Grenade projectile according to claim 1 or 2, characterized in that the sleeve projection ( 32 ) on the inside directly on the Ge floor ( 21 ) has a circumferential annular groove ( 38 ) as a gas pressure ring channel. 4. grenade projectile according to claim 1, 2 or 3, characterized in that the driver ( 40 ) in its front end face, the jump in the positive connection between Trei ber ( 40 ) and floor ( 21 ) or the sleeve sleeve ( 32 ) as Screw stop is used, several recesses ( 52 ) are provided as gas passage openings. 5. grenade projectile according to claim 1, 2, 3 or 4, characterized in that the sleeve projection ( 32 ) within the annular groove ( 34 ) also has a plurality of bores ( 54 ) as gas passage openings. 6. Grenade projectile according to one of the preceding Ansprü surface 1 to 5, characterized in that the predetermined breaking point as a material weakening in the sleeve projection ( 32 ) through a plurality of closely spaced holes ( 54 ), which simultaneously serve as gas passage openings, is formed. 7. Grenade projectile according to one of the preceding claims 1 to 6, characterized in that the driver ( 40 ) has a smaller diameter in the region of its front external thread ( 48 ) than in the rear fastening region for the cartridge sleeve ( 30 ).