DE4318340A1 - Discarding sabot for a sub-calibre round (projectile) - Google Patents

Abstract

The invention relates to a discarding sabot (3) for a sub-calibre round (1) having thrustplates (13) which are arranged radially with respect to the round (1) and rest against the round (1) in a positively locking manner, and having a fibre-filled moulding compound which is arranged between the thrustplates (13), the thrustplates (13) having a front guidance region and a drive region with a drive surface (5), and the profile of the drive surface (5) reducing in the direction of the fin assembly (6). In order to avoid the moulding compounds becoming detached from the discarding sabot, it is proposed according to the invention that the thrustplates (13) have a chamfer (14) on their side surface facing the moulding compound, that the profile of the chamfer (14) increases in the direction of the front guidance region, and that the thrustplates (13) thus form a wedge-shaped constriction for the moulding compounds. <IMAGE>

Description

The invention relates to a sabot for a sub caliber bullet according to the preamble of claim 1.

The pressure of the propellant is essentially determined by means of sabot cages gases to accelerate to the lower-caliber floor wear. They also serve to guide the sub-caliber shot in the barrel. Disassembled when leaving the pipe the sabot and falls off the lower-caliber floor.

From EP-A1-0 336 252 a sabot is known which consists of three individual push plates arranged radially to the floor exists that fit positively on the floor. Between A fiber-filled molding compound is arranged which consists of carbon fibers in epoxy resin. The to the molding compound facing side surfaces of the push plates run parallel to the longitudinal axis of the push plates, the push plate one front guide area and a drive area with a Have drive surface and the profile of the drive surface from the management area steadily decreasing in scope area of the floor approximates.

It has turned out to be a problem that the molding compounds have insufficient adhesion with the push plates. As a result, it can happen that when the Sub-caliber the molding compound from the composite with the Thrust plates are loosened, causing the propellant gases at the bottom caliber bullet can escape over. The acceleration the lower-caliber floor is thereby extremely reduced and made the projectile unusable.

The invention is therefore based on the object of a propellant cage for a sub - caliber floor according to the generic term of the Claim 1 to improve such that a detachment of the press mass of the sabot in the gun barrel is avoided.

According to the invention this object is achieved in that the Push plates on their side facing the molding compound have a bevel and the profile of the bevel in Increases in the direction of the front guide area and thus the Push plates for the molding compound a wedge-shaped constriction form.

This feature, essential to the invention, increases the thrust plates wider towards the guide area. The resulting be The wedge-shaped narrowing causes an axial ver shifting the molding compounds blocking them.

This puts a strain on the molding compounds if, after the ignition of the Shot propellants act on the molding compounds, the thrust also plate radially towards the floor. This results when the molding compounds move axially forward relative to want to perform the push plates. This relative forward the bevel prevents movement. The result resulting radial force loads the thrust plates as above described.

This advantageous embodiment of the push plates prevents thereby not only detaching the molding compounds from the sabot, but also better adhesion of the push plates to the Ge lap. According to the invention, there are so many push plates on the Scope of the projectile arranged that the circumference of the Storey is completely covered with thrust plates. This has the advantage that the total thrust to drive the Projectile is used. The thrust hits the floor plates wedge-shaped together.  

For better adhesion of the molding compounds can also be used moderately the thrust plates with radial to the floor ordered ribs. This is an axial Displacement of the molding compounds relative to the push plates still better avoided.

The invention will be explained in more detail below with reference to drawings explained. It shows:

Fig. 1 is a section through a sub-caliber projectile with a sabot,

Fig. 2 shows a schematic view of a Unterkaliberge shot with a sabot in the direction of flight without molding compounds and

Fig. 3 shows a single thrust plate in three cuts.

Referring to FIG. 1, a sub-caliber projectile 1 is to be shot with a ver d₂ d₁ diameters in a tube 2 having a diameter. The sabot 3 seals the propellant gases (indicated here by arrows p), through which the force is transmitted to the lower-caliber floor 1 , and it also assumes leadership in the pipe 2 .

The sabot is a rotationally symmetrical body built from four thrust plates (see Fig. 2). His (seen in the weft direction) front area is formed by a Füh approximately plate 4 . The drive area has a drive surface 5 , which extends practically to the end of the lower-caliber floor 1 . Through it is caused to spread over the entire length of the sub-caliber projectile 1 can be introduced at the highest possible out-reaching radial pressure forces of acceleration in the sub-caliber projectile. 1

In the sabot guide area and Antriebsbe rich meet; a frustoconical part 7 connects to the guide plate 4 . Due to a storage area 8 on the end face of the guide plate 4 , the sabot 3 is released along the seams 9 from the lower-caliber floor 1 as a result of the high speed (<1000 m / s) when leaving the tube 2 . For coupling the sabot 3 to the lower caliber floor 1 along the seam 9 , frictional forces alone are generally sufficient; If necessary, grooves, threads or shoulders could improve the transmission of power.

The sabot 3 can be made entirely of plastic reinforced with carbon fibers. In this example, the contour of the drive surface 5 of the drive area is that of a truncated cone. The sabot extends to the tail unit 6 of the lower-caliber floor 1 . The focus of the drive surface is very far forward due to this shape, so that an additional guide in the rear area, which was previously very important, especially with a tail side drive surface, is less important; it can often even be omitted entirely. In this example, there are some radially projecting ribs 10 .

In Fig. 1, two lines 11 , 12 are drawn in dashed lines, which are intended to indicate two other possible designs of the drive surface. The contour 11 indicates that the generatrix of the drive surface 5 does not necessarily have to be a straight line, but can also sag in a concave or convex manner, with a strictly monotonous, steady increase in the diameter in the weft direction.

Fig. 2 of a 40 mm caliber schematically shows the example of a view of a sub-caliber projectile with discarding sabot 1 in the flight direction without pressing compounds. Four form-fitting push plates 13 are arranged on the floor 1 . These abut each other in the peripheral region of the projectile 1 in a wedge shape and are each offset by 90 ° to one another. For easier understanding, the molding compound arranged between the push plates 13 is not shown.

According to the invention, the push plates 13 have a bevel 14 on their side surface facing the molding compound. The profile of the bevel 14 approaches from the guide area or the guide plate 4 steadily decreasing towards the rear end of the projectile 1 . Since the push plates 13 abut each other in a wedge shape in the area of the projectile 1, a rising surface consisting of two planes is formed in the firing direction. The molding compound arranged in this gusset is thereby better adhered to the push plates 13 . Namely, if the molding compound undergoes a displacement relative to the thrust plates 13 due to the propellant forces acting in the longitudinal direction of the bullet 1 , the bevels 14 prevent the molding compounds from detaching, since the bevels 14 form a type of wedge. Furthermore, the thrust plates 13 are pressed onto the projectile tube 1 by the radial pressurization, so that their adhesion is also improved.

Fig. 3 shows an example of a 40 mm caliber a thrust plate 13 as a blank in three cuts. With 14 the bevel facing the molding compound is designated. With 15 the wedge-shaped contact surface of the thrust plates 13 is referred to each other (see Fig. 2). 16 denotes an extension that serves to clamp the push plates 13 in a tool. 17 is a bevel through which the push plates 13 have an approximately round outer contour even before the finishing. 18 is a filler chamfer, which is used for easier filling of the molding compound.

To manufacture the sabot four of the push plates 13 shown in FIG. 3 are pushed together according to FIG. 2. Then molding compound is injected or pressed in via the filler bevel 18 . After the molding compound has hardened, the sabot is turned off, that is, the filler bevel 18 and the extension 16 are turned off. In addition, a hole for the projectile must be made centrally between the push plates 13 . Furthermore, the outer contour, as described in Fig. 1, must be processed.

The thrust plates 13 are advantageously made of directed carbon fibers in long fiber training. The molding compound is expediently non-directional carbon short fibers embedded in epoxy resin.

Claims (3)

1. sabot ( 3 ) for a lower-caliber floor ( 1 ) with radially to the floor ( 1 ) arranged thrust plates ( 13 ), which fit positively on the floor ( 1 ), and with between the thrust plates ( 13 ) arranged fiber-filled molding compound, the thrust plates ( 13 ) have a front guide area and a drive area with a drive surface ( 5 ) and the profile of the drive surface ( 5 ) decreases in the direction of the tail unit ( 6 ), characterized in that the thrust plates ( 13 ) have a bevel on their side surface facing the molding compound ( 14 ) and the profile of the bevel ( 14 ) increases towards the front guide area and thus the thrust plates ( 13 ) form a wedge-shaped constriction for the molding compounds. 2. sabot according to claim 1, characterized in that so many thrust plates ( 13 ) are arranged on the circumference of the projectile ( 1 ) that the circumferential line of the projectile ( 1 ) is completely covered by thrust plates ( 13 ). 3. sabot according to claim 1 or 2, characterized in that the thrust plates ( 13 ) are provided with individual radially to the floor ( 1 ) ribs.