DE3928965A1 - Tandem ballistic missile assembly - has joint between bodies released by wind pressure on leaving gun-barrel - Google Patents

Abstract

The tendem missile assembly comprises two missile bodies (14, 16) one behind the other in the axial direction in a propulsion cage, and bearing against each other. The two bodies are positively joined together via a joint (20) which releases under the effect of wind pressure on leaving the gun-barrel. Portions on the guide fins of the bodies can be subject to different wind pressures, so as to pull them apart. USE/ADVANTAGE - Tandem missile which separates after leaving gun-barrel connector. Safely centres and supports front body during passage through gun-barrel.

Description

The invention relates to a tandem floor arrangement with two in a common sabot arranged axially one behind the other Projectile bodies according to the preamble of claim 1.

Such a floor arrangement of two wing-stabilized sub-caliber bullets in a common sabot is z. B. from DE-OS 32 07 220 known. Here are the front balancing floor at the rear and the rear balancing floor on the tip side for the moment via conformal flat surfaces the launch acceleration in supportive contact.

Such floor arrangements are provided to combat armor provided with explosive active modules. The pilot flies the active module so that the follower as the main penetrator can penetrate the target armor undisturbed. In order to achieve an optimal effect, both balancing bullets must hit the same target point at a certain distance from each other. The spacing of the balancing projectiles is achieved by a so-called "aerodynamic coupling", ie by different aerodynamic properties or by influencing the respective drag coefficient c _w or by a corresponding geometry (size, bevel etc.) of the tail wings.

This allows an optimal distance adjustment of the balance projectiles, however, only for a limited distance area of the target can be selected. During the pipe The front projectile body can pass only slightly are supported by the following projectile body, so that centering and for the most part also support must be done over the sabot. This will make one accordingly large or long training of the sabot required; this is then quite heavy and bothers him Detachment from the projectile bodies.

It is also considered disadvantageous that the front Projectile body at the muzzle passage and beginning front opening of the sabot segments first be removed from the rear floor body and there only afterwards again at the optimal floor distance must become. If the projectiles are too far apart, also the effect of the aerodynamic coupling - the Nachflieger remains with its tip in the flow channel or "slipstream" of the previous flyer - impaired.

It is an object of the present invention, a genus moderate tandem storey arrangement to specify that for pipe secure centering and support of the front floor guaranteed and during the Ge lap flight a separation and gradual spacing of the two storeys from each other on a predeterminable optima len target impact distance enabled.

This object is achieved with the in the character nung part of claim 1 specified structural Features resolved. Because the two projectile bodies too next are positively connected with each other at the launch acceleration a safe centering and Ab support of the front floor body guaranteed. Since the Positive connection only after leaving the gun barrel mouth can be released by the attacking air flow forces  is not done immediately after the sabot is removed segments an oversized spacing of the two storey bodies by each other. Rather, the spacing is constant and slow, so the benefits of an aerodynamic head fully exploited.

In an embodiment of the invention are on the tail wings of the front or rear floor body special measure Men provided so that air currents of different strengths forces on the tail wings and the shape final connection solely by the difference of those of the Tail wings exerted on the projectile body rotation moments is solvable.

In a further embodiment of the invention, that the two projectile bodies in the contact area one have common screw connection and the Leit factory wing of the front and rear storey body are bevelled, the orientation of the Screw connection or the thread between the two Projectile bodies is chosen so that by the on torque exerted on air-flowing tail wings the screw connection is detachable.

In one embodiment of the invention it is provided that so the tail wings of the rear floor body are bevelled so that the rear floor body turns to the right turns and the tail wings of the front floor body are so beveled that the front floor body to the left turns around, the screw connection a left-handed Ge has winch.

In a corresponding embodiment of the invention, it is provided hen that the tail wing of the rear floor body are so beveled that the rear floor body on the left turns around and the tail wing of the front floor body are bevelled so that the front floor body turns clockwise, the screw connection a right common thread.  

Through these two aforementioned embodiments a relatively quick dissolution of the positive connection extension or separation of the two projectile bodies from each other works.

If it is intended that the two projectile bodies separate from each other only after a certain flight distance or the detachment process of the two projectile bodies from one another other is slower, it is useful if the Tail wings of the two storeys aligned are chamfered and the screw connection through the difference between that of the two tail wings generated torques is releasable.

By spacing the two projectile bodies from each other is to be prevented beyond an optimal distance expediently provided that in addition between the a mechanical coupling in the form of both storeys a thin wire rope is provided.

Further advantageous design options of the Erfin are specified in the subclaims.

The invention is based on in the drawing illustrated embodiments explained in more detail and described.

Show it:

FIG. 1 shows a known tandem bullet assembly

Fig. 2 is a form-locking connection according to the invention two successively arranged projectile bodies,

Fig. 3 and Fig. 4 each embodiment of the invention speed of the positive connection according to the invention two axially one behind the other projectile body.

In Fig. 1, a known Tan dem-floor arrangement is shown with the reference number 10 . It consists of a rear projectile body 16 of large mass and an axially there in front of front projectile body 14 with a smaller mass, both of which are enclosed by a one-piece Treibkä fig 12 . For transferring the acceleration forces from the sabot to the projectile body are each not shown usual positive locking means such. B. ring grooves or thread grooves are provided. The vorde re projectile body 14 is supported on the rear side in a flat contact area 18 on the flat tip of the direct projectile body 16 . The two projectile bodies 14 , 16 are each sub-caliber projectiles and have tail tails 22 and 24 on the tail for flight stabilization.

In Fig. 2, the front Ge body 14 and only the tip region of the rear body body 16 is shown in an enlarged view. According to the invention, a zen-locking positive connection 20 is provided here in the contact area of the two floors. For this purpose, the rear projectile body 16 , which is larger in diameter, has a recess or bore 34 with an internal thread 36 on the tip side. The front reduced in diameter Geschoßkör by 14 has a threaded pin 30 on the rear side with an external thread 32 arranged thereon. The two Ge fired bodies 14 and 16 are connected by means of the screw 26 in such a manner that the screw connection can be released by the 22 and 24 applied to the air being flowed tail wings torques 26th

In Fig. 3, a further embodiment of the screw connection 26 between the two Geschoßkör pern 14 and 16 is shown. Here, the front Ge lap body 16 has a bore 38 on the rear side with an internal thread 40 ; the projectile tip 46 of the rear projectile body 16 is correspondingly reduced in diameter and has a corresponding external thread 44 in the connection area. The elongated projectile tip 46 is cylindrical out over a certain portion of its length and is in contact with the inner surface of the bore 38 , so that it also takes centering tasks and relieves the screw connection 26 .

Fig. 4 shows a connection of the two projectile bodies with an additional mechanical coupling in the form of a wire rope 48th To accommodate the wound or spooled wire rope 48 in the rear recess 38 of the front projectile body 14 , the projectile tip 46 of the rear projectile body 16 is further reduced in diameter in the tip area and forms a spool 50 out. The ends of the wire rope 48 are each centrally or centrally in the front projectile body 14 and in the Ge lap tip 46 or the coil mandrel 50 of the rear Ge lap body 16 attached. The wire rope is in the initial state stood as wire spool 52 wound around the mandrel 50 . After firing the projectile arrangement, the front projectile body 14 can then only remove a maximum distance according to the length of the wire rope 48 from the rear projectile body 16 .

With the construction of a releasable form according to the invention coherent connection becomes a stable guide, Ab support and centering of the two projectile bodies during the pipe passage reached; by solving the form final connection becomes slow after passage of the muzzle and continuous spacing of the two storey bodies from each other.  

Reference symbol list

10 tandem storey arrangement
12 sabot
14 before Projectile body
16 hint. Projectile body
18 touch area
20 positive connection
22 empennage wings
24 empennage wings
26 screw connection
30 threaded pin 16
32 external thread 30
34 hole 16
36 internal thread 34
38 hole 16
40 internal thread 38
42 threaded pin 16
44 external thread 42
46 storey top
48 wire connection
50 spool
52 wire spool

Claims (9)

1. tandem storey arrangement ( 10 ) with two in a common sabot ( 12 ) axially one behind the other th projectile bodies ( 14 , 16 ), which are supported in the contact area ( 18 ) between them, characterized in that the two projectile bodies ( 14 , 16 ) are positively connected with each other, the positive connection ( 20 ) after leaving the weapon barrel mouth can be released by the attacking air flow forces. 2. Projectile arrangement according to claim 1, characterized in that measures are provided on the empennage wings ( 22 , 24 ) of the front and rear projectile body ( 14 , 16 ) that differently strong air flow forces act, so that the positive connection ( 20 ) by the difference of Torques exerted by the empennage wings ( 22 , 24 ) can be released. 3. Floor arrangement according to claim 2 or 3, characterized in that

• - The two projectile bodies ( 14 , 16 ) in the contact area ( 18 ) have a common screw connection ( 26 ),
• - The tail wings ( 22 , 24 ) of the front and rear projectile body ( 14 , 16 ) are bevelled in opposite directions and
• - The orientation of the screw connection ( 26 ) or the thread between the two projectile bodies ( 14 , 16 ) is selected so that the screw connection ( 26 ) can be released by the torques exerted on the air-flowing tail assembly ( 22 , 24 ).

4. projectile arrangement according to claim 1, 2 or 3, characterized in that the front projectile body ( 14 ) dezapfen a thread ( 30 ) with external thread ( 32 ) and the rear projectile body ( 16 ) on the tip side a recess ( 34 ) (bore) with Has internal thread ( 36 ). 5. projectile arrangement according to claim 1, 2 or 3, characterized in that the front projectile body ( 14 ) at the rear a Ausneh tion ( 38 ) (bore) with internal thread ( 40 ) and the rear tere projectile body ( 16 ) tip side a threaded tap ( 42 ) with an external thread ( 44 ). 6. bullet assembly according to any preceding Ansprü che 1 to 5, characterized in that the control fin (24) of the rear projectile body (16) are bevelled so that the rear projectile body (16) clockwise to rotate and the control fin (22) of the front projectile body ( 14 ) are chamfered so that the front projectile body ( 14 ) rotates to the left, the screw connection ( 26 ) having a left-hand thread. 7. Projectile arrangement according to one of the preceding claims 1 to 5, characterized in that the tail wings ( 24 ) of the rear projectile body ( 16 ) are chamfered in such a way that the rear projectile body ( 16 ) rotates to the left and the empennage wings of the front projectile body ( 14 ) are chamfered so that the front projectile body ( 14 ) rotates clockwise, the screw connection ( 26 ) having a right-hand thread. 8. projectile arrangement according to claim 1, 2, 3, 4 or 5, characterized in that the empennage wings ( 22 , 24 ) of the two projectile bodies ( 14 , 16 ) are bevelled in the same direction and the screw connection ( 26 ) solely by the difference between them Tail wings ( 22 , 24 ) generated torque is releasable. 9. floor arrangement according to one of the preceding Ansprü surface 1 to 8, characterized in that the two storey body ( 14 , 16 ) a mechanical coupling z. B. in the form of a wire ( 48 ).