DE3614883C1 - Extendable (telescopic) impact contact for shaped charges - Google Patents

Abstract

The invention relates to an extendable impact contact for shaped charges, whose design is worked out in accordance with the cannon principle, according to which an annular gas generator is arranged outside the jet collapsing space, the gases from which annular gas generator cause the jet to extend. An exemplary embodiment is described and is sketched in the drawings.

Description

The invention relates to an extendable impact contact for Hohlla dungen according to the preamble of claim 1.

Extendable impact contacts for shaped charges are in different Known embodiments based on the so-called rocket principle be driven. The applicant itself has a facility for exiting Ren the impact contact of a shaped charge for triggering the ignition beat (see DE-PS 35 22 009), in which this contact in the rest position is stored in the recess of the shaped charge, the Ab carrying it the mandrel is extended by a selectable distance and the Ignition circuit for the detonator is closed. Here is at the front end of the spacer mandrel, a propellant charge outside the spike formation area arranged, this propellant charge through a piezo generator Launch acceleration of the warhead automatically ignited and by the recoil of the spacer mandrel slanted back is extended. These missile-type embodiments have generally works well, but has some shortcomings tet, because the respective rocket booster when extending the spacer must also be accelerated. Basically, however, such a missile requires booster uses high-quality manufacturing technologies primarily for reasons of space the precision engineering sector.

A similar embodiment is disclosed in GB-PS 9 57 956. Here, too, the propellant charge (in gas cylinders) is outside the Sta chelating room stored. Also, most execution examples of the impact contact on a non-extendable spacer chel arranged, but this makes the projectile unstable.

In the further exemplary embodiments, a retracted and extendable spike revealed before service; however, this will extended by spring force. Aside from being in stock permanently preloaded springs weaken relatively quickly and therefore in their  Mode of action is impaired to achieve optimal Hollow charge performance here is a relatively large cover head for the recording of the long spine required, while that formed by the occupancy Space remains unused.

The invention has for its object an extendable surcharge to create contact that allows hollow charge projectiles with small Installation dimensions and high shaped charge output to produce, at the same time the aerodynamic stability of the projectile during flight is increased.

This task is ge by the measures listed in the characterizing part of claim 1 solves. Advantageous refinements are set out in the subclaims shows and in the following description is an embodiment explained and shown in the figures of the drawing. It shows

Figure 1 shows a cross section through the shaped charge body provided with the extendable Aufschlagkon.

FIG. 2 shows a section along the line AA according to FIG. 1.

As illustrated in FIG. 1, the shaped charge body is composed of the charge carrier 20 provided with the charge 17 and the occupancy 16 and the covering hood 19 . The inner cavities 21, 22 of both components 19, 20 in the interconnected state take up the impact contact 8 in its retracted rest position. This extendable Aufschlagkon clock 8 is mounted with its front part and the head contact seated on it 8 in a guide tube 9 , which is connected by means of an external thread 9 a and a contact nut 10 with the cover 19 a related party.

The end of the cover 19 designed as a connecting surface for the charge carrier 20 receives an annular gas generator RG ( FIG. 2), the gases of which flow into the aforementioned inner cavities 21, 22 and, from there, as described below, act on the impact contact for its extension.

In the ring gas generator RG , which is shown in FIG. 2, two electrical igniter pills 1 are ignited electrically and the hot gases generated by both igniter pills ignite the propellant charge powder. The gas pressure arising in the annular channel, which is formed from the antechambers 2 and the actual annular chambers 3 , escapes via the distributor nozzles 4 into the spiked collapse space formed by the inner cavities 21, 22 , from which it acts via gas inflow slots 6 on the end face of the impact contact 8 .

The extendable impact contact is formed from a tubular body which carries - as mentioned - the impact contact 8 at its front end, which is held by means of a fastening pin 11 . The ignition contact lines are designated 8 a , they are only drawn for the area of the contact 8 , the continuations to the detonator etc. are omitted for reasons of clarity. Furthermore, a shear pin 12 is arranged in the front part of the impact contact 8 , which fixes the rest position in the guide tube 9 . The rear end of the Aufschlagkon clock 8 is provided with the gas inlet slots 6 already mentioned and the end edge is out as a conical stop and fixing projection 18 forms. The end portion is provided with a pressing member 7 which has even a cone 7 a for sealing engagement with the assignment 16, and further includes a discharge cone 7 has b in the extension direction, which in the catch cone 13 of the guide tube 9, the outward movement of the Aufschlagkon clock 8 stops.

The guide tube 9, in turn, is provided with gas outlet slots 15 , which allow ei nen gas outlet into the atmosphere, and is also equipped on its inner surface with a catch groove 14 , into which the impact and fixing attachment 18 engages at the end of the extension movement.

The gas pressure arising in the ring channel 2, 3 escapes - as mentioned - via the distributor nozzles 4 into the spaces 21, 22 , engages via the gas inlet slots 6 in the cavity of the slidably mounted Aufschlagkon cycle and presses there onto the end face of the contact 8 . The shear pin 12 is sheared off by the acting pressure force and the impact contact 8 is extended. In the cone 13 of the guide tube 9 , the pressure piece 7 hangs and the adhesive connection with which this pressure piece is attached to the end of the impact contact 8 , tears off. The ke gelige stop and fixing lug 18 is compressed in the cone 13 . Through the gas inlet slots 6 and the torn-off pressure piece, this tube end has become considerably more elastic, and springback is possible with contact with the inner tube wall of the guide tube 9 . In this movement state Be the gas inlet slots 6 are under the gas outlet slots 15 of the guide tube 9 , so that now the hot Ga se can escape into the atmosphere. Since the hot gases occur only briefly during the extension process, the occupancy 16 is largely protected. The latching of the conical stop and fixing projection 18 in the catch groove 14 prevents the impact contact 8 from being pushed back.

Claims (5)

1. Extendable impact contact for shaped charges, the plunger is extended by compressed gas and is axially displaceably mounted in a guide tube, characterized in that an annular gas generator (RG) outside the load carrier ( 20 ) in the conically tapered cover hood ( 19 ) is arranged , whose gases flow into the inner cavities ( 21, 22 ) formed by the latter ( 19, 20 ) and in gas inlet slots ( 6 ) of the impact contact ( 8 ) and drive them into the operative position. 2. impact contact according to claim 1, characterized in that the impact contact ( 8 ) attached in a known manner to a rohrför shaped body ( 5 ) at its rear end with a plurality of gas inlet slots ( 6 ), a conical stop and fixing attachment ( 18th ) for the installation and centering of an attached pressure piece ( 7 ). 3. impact contact according to claim 1 or 2, characterized in that the guide tube ( 9 ) at its rear end with an inward catch cone ( 13 ) for the corresponding cone in the extension direction ( 7 b) of the pressure piece ( 7 ) , Furthermore, on its inner surface with a catch groove ( 14 ) for the stop and fixing attachment ( 18 ) and in the central part in a defined position with gas outflow slots ( 15 ) is provided. 4. impact contact according to claims 1 to 3, characterized in that it is connected in the retracted position via a shear pin ( 12 ) with the guide tube ( 9 ). 5. impact contact according to claims 1 to 4, characterized in that the guide tube ( 9 ) is provided at its rear end with an external thread ( 9 a) for a lock nut ( 10 ) for fastening supply to the cover ( 19 ) and on Its end, which faces the charge carrier ( 20 ), is designed as a ring gas generator (RG) and has spatially encapsulated electrical primers ( 1 ), prechambers ( 2 ) and ring chambers ( 3 ), the latter ( 3 ) gas distributor nozzles ( 4 ) to the so-called - Formed from the inner cavities ( 21, 22 ) - have collapse space.